f14fb60209
* Updating common/lib * Updating lib/csu * Updating lib/libc * Updating libexec/ld.elf_so * Corrected test on __minix in featuretest to actually follow the meaning of the comment. * Cleaned up _REENTRANT-related defintions. * Disabled -D_REENTRANT for libfetch * Removing some unneeded __NBSD_LIBC defines and tests Change-Id: Ic1394baef74d11b9f86b312f5ff4bbc3cbf72ce2
310 lines
7.8 KiB
C
310 lines
7.8 KiB
C
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#include <minix/cpufeature.h>
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#include <assert.h>
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#include "kernel/kernel.h"
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#include <libexec.h>
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#include "arch_proto.h"
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#include <string.h>
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#include <libexec.h>
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/* These are set/computed in kernel.lds. */
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extern char _kern_vir_base, _kern_phys_base, _kern_size;
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/* Retrieve the absolute values to something we can use. */
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static phys_bytes kern_vir_start = (phys_bytes) &_kern_vir_base;
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static phys_bytes kern_phys_start = (phys_bytes) &_kern_phys_base;
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static phys_bytes kern_kernlen = (phys_bytes) &_kern_size;
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/* page directory we can use to map things */
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static u32_t pagedir[1024] __aligned(4096);
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void print_memmap(kinfo_t *cbi)
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{
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int m;
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assert(cbi->mmap_size < MAXMEMMAP);
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for(m = 0; m < cbi->mmap_size; m++) {
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phys_bytes addr = cbi->memmap[m].addr, endit = cbi->memmap[m].addr + cbi->memmap[m].len;
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printf("%08lx-%08lx ",addr, endit);
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}
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printf("\nsize %08lx\n", cbi->mmap_size);
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}
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void cut_memmap(kinfo_t *cbi, phys_bytes start, phys_bytes end)
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{
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int m;
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phys_bytes o;
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if((o=start % I386_PAGE_SIZE))
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start -= o;
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if((o=end % I386_PAGE_SIZE))
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end += I386_PAGE_SIZE - o;
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assert(kernel_may_alloc);
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for(m = 0; m < cbi->mmap_size; m++) {
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phys_bytes substart = start, subend = end;
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phys_bytes memaddr = cbi->memmap[m].addr,
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memend = cbi->memmap[m].addr + cbi->memmap[m].len;
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/* adjust cut range to be a subset of the free memory */
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if(substart < memaddr) substart = memaddr;
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if(subend > memend) subend = memend;
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if(substart >= subend) continue;
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/* if there is any overlap, forget this one and add
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* 1-2 subranges back
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*/
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cbi->memmap[m].addr = cbi->memmap[m].len = 0;
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if(substart > memaddr)
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add_memmap(cbi, memaddr, substart-memaddr);
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if(subend < memend)
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add_memmap(cbi, subend, memend-subend);
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}
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}
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phys_bytes alloc_lowest(kinfo_t *cbi, phys_bytes len)
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{
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/* Allocate the lowest physical page we have. */
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int m;
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#define EMPTY 0xffffffff
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phys_bytes lowest = EMPTY;
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assert(len > 0);
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len = roundup(len, I386_PAGE_SIZE);
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assert(kernel_may_alloc);
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for(m = 0; m < cbi->mmap_size; m++) {
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if(cbi->memmap[m].len < len) continue;
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if(cbi->memmap[m].addr < lowest) lowest = cbi->memmap[m].addr;
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}
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assert(lowest != EMPTY);
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cut_memmap(cbi, lowest, len);
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return lowest;
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}
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void add_memmap(kinfo_t *cbi, u64_t addr, u64_t len)
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{
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int m;
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#define LIMIT 0xFFFFF000
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/* Truncate available memory at 4GB as the rest of minix
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* currently can't deal with any bigger.
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*/
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if(addr > LIMIT) return;
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if(addr + len > LIMIT) {
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len -= (addr + len - LIMIT);
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}
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assert(cbi->mmap_size < MAXMEMMAP);
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if(len == 0) return;
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addr = roundup(addr, I386_PAGE_SIZE);
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len = rounddown(len, I386_PAGE_SIZE);
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assert(kernel_may_alloc);
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for(m = 0; m < MAXMEMMAP; m++) {
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phys_bytes highmark;
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if(cbi->memmap[m].len) continue;
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cbi->memmap[m].addr = addr;
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cbi->memmap[m].len = len;
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cbi->memmap[m].type = MULTIBOOT_MEMORY_AVAILABLE;
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if(m >= cbi->mmap_size)
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cbi->mmap_size = m+1;
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highmark = addr + len;
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if(highmark > cbi->mem_high_phys) {
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cbi->mem_high_phys = highmark;
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}
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return;
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}
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panic("no available memmap slot");
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}
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u32_t *alloc_pagetable(phys_bytes *ph)
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{
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u32_t *ret;
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#define PG_PAGETABLES 6
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static u32_t pagetables[PG_PAGETABLES][1024] __aligned(4096);
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static int pt_inuse = 0;
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if(pt_inuse >= PG_PAGETABLES) panic("no more pagetables");
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assert(sizeof(pagetables[pt_inuse]) == I386_PAGE_SIZE);
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ret = pagetables[pt_inuse++];
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*ph = vir2phys(ret);
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return ret;
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}
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#define PAGE_KB (I386_PAGE_SIZE / 1024)
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phys_bytes pg_alloc_page(kinfo_t *cbi)
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{
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int m;
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multiboot_memory_map_t *mmap;
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assert(kernel_may_alloc);
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for(m = cbi->mmap_size-1; m >= 0; m--) {
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mmap = &cbi->memmap[m];
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if(!mmap->len) continue;
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assert(mmap->len > 0);
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assert(!(mmap->len % I386_PAGE_SIZE));
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assert(!(mmap->addr % I386_PAGE_SIZE));
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mmap->len -= I386_PAGE_SIZE;
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return mmap->addr + mmap->len;
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}
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panic("can't find free memory");
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}
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void pg_identity(kinfo_t *cbi)
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{
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int i;
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phys_bytes phys;
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/* We map memory that does not correspond to physical memory
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* as non-cacheable. Make sure we know what it is.
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*/
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assert(cbi->mem_high_phys);
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/* Set up an identity mapping page directory */
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for(i = 0; i < I386_VM_DIR_ENTRIES; i++) {
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u32_t flags = I386_VM_PRESENT | I386_VM_BIGPAGE |
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I386_VM_USER | I386_VM_WRITE;
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phys = i * I386_BIG_PAGE_SIZE;
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if((cbi->mem_high_phys & I386_VM_ADDR_MASK_4MB)
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<= (phys & I386_VM_ADDR_MASK_4MB)) {
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flags |= I386_VM_PWT | I386_VM_PCD;
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}
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pagedir[i] = phys | flags;
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}
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}
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int pg_mapkernel(void)
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{
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int pde;
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u32_t mapped = 0, kern_phys = kern_phys_start;
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assert(!(kern_vir_start % I386_BIG_PAGE_SIZE));
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assert(!(kern_phys % I386_BIG_PAGE_SIZE));
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pde = kern_vir_start / I386_BIG_PAGE_SIZE; /* start pde */
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while(mapped < kern_kernlen) {
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pagedir[pde] = kern_phys | I386_VM_PRESENT |
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I386_VM_BIGPAGE | I386_VM_WRITE;
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mapped += I386_BIG_PAGE_SIZE;
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kern_phys += I386_BIG_PAGE_SIZE;
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pde++;
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}
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return pde; /* free pde */
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}
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void vm_enable_paging(void)
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{
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u32_t cr0, cr4;
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int pgeok;
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pgeok = _cpufeature(_CPUF_I386_PGE);
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cr0= read_cr0();
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cr4= read_cr4();
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/* The boot loader should have put us in protected mode. */
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assert(cr0 & I386_CR0_PE);
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/* First clear PG and PGE flag, as PGE must be enabled after PG. */
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write_cr0(cr0 & ~I386_CR0_PG);
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write_cr4(cr4 & ~(I386_CR4_PGE | I386_CR4_PSE));
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cr0= read_cr0();
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cr4= read_cr4();
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/* Our page table contains 4MB entries. */
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cr4 |= I386_CR4_PSE;
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write_cr4(cr4);
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/* First enable paging, then enable global page flag. */
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cr0 |= I386_CR0_PG;
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write_cr0(cr0);
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cr0 |= I386_CR0_WP;
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write_cr0(cr0);
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/* May we enable these features? */
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if(pgeok)
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cr4 |= I386_CR4_PGE;
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write_cr4(cr4);
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}
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phys_bytes pg_load()
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{
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phys_bytes phpagedir = vir2phys(pagedir);
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write_cr3(phpagedir);
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return phpagedir;
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}
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void pg_clear(void)
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{
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memset(pagedir, 0, sizeof(pagedir));
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}
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phys_bytes pg_rounddown(phys_bytes b)
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{
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phys_bytes o;
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if(!(o = b % I386_PAGE_SIZE))
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return b;
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return b - o;
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}
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void pg_map(phys_bytes phys, vir_bytes vaddr, vir_bytes vaddr_end,
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kinfo_t *cbi)
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{
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static int mapped_pde = -1;
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static u32_t *pt = NULL;
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int pde, pte;
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assert(kernel_may_alloc);
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if(phys == PG_ALLOCATEME) {
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assert(!(vaddr % I386_PAGE_SIZE));
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} else {
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assert((vaddr % I386_PAGE_SIZE) == (phys % I386_PAGE_SIZE));
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vaddr = pg_rounddown(vaddr);
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phys = pg_rounddown(phys);
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}
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assert(vaddr < kern_vir_start);
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while(vaddr < vaddr_end) {
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phys_bytes source = phys;
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assert(!(vaddr % I386_PAGE_SIZE));
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if(phys == PG_ALLOCATEME) {
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source = pg_alloc_page(cbi);
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} else {
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assert(!(phys % I386_PAGE_SIZE));
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}
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assert(!(source % I386_PAGE_SIZE));
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pde = I386_VM_PDE(vaddr);
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pte = I386_VM_PTE(vaddr);
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if(mapped_pde < pde) {
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phys_bytes ph;
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pt = alloc_pagetable(&ph);
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pagedir[pde] = (ph & I386_VM_ADDR_MASK)
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| I386_VM_PRESENT | I386_VM_USER | I386_VM_WRITE;
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mapped_pde = pde;
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}
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assert(pt);
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pt[pte] = (source & I386_VM_ADDR_MASK) |
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I386_VM_PRESENT | I386_VM_USER | I386_VM_WRITE;
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vaddr += I386_PAGE_SIZE;
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if(phys != PG_ALLOCATEME)
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phys += I386_PAGE_SIZE;
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}
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}
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void pg_info(reg_t *pagedir_ph, u32_t **pagedir_v)
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{
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*pagedir_ph = vir2phys(pagedir);
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*pagedir_v = pagedir;
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}
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