Fix layout issues for printed version
This commit is contained in:
parent
15997d5849
commit
e25b74ca80
7 changed files with 55 additions and 57 deletions
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@ -12,11 +12,10 @@
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# at an address in the low 2^16 bytes.
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#
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# Bootothers (in main.c) sends the STARTUPs one at a time.
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# It copies this code (start) at 0x7000.
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# It puts the address of a newly allocated per-core stack in start-4,
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# the address of the place to jump to (mpenter) in start-8, and the physical
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# address of enterpgdir in start-12.
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#
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# It copies this code (start) at 0x7000. It puts the address of
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# a newly allocated per-core stack in start-4,the address of the
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# place to jump to (mpenter) in start-8, and the physical address
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# of enterpgdir in start-12.
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#
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# This code is identical to bootasm.S except:
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# - it does not need to enable A20
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13
log.c
13
log.c
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@ -76,11 +76,10 @@ install_trans(void)
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//if (log.lh.n > 0)
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// cprintf("install_trans %d\n", log.lh.n);
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for (tail = 0; tail < log.lh.n; tail++) {
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// cprintf("put entry %d to disk block %d\n", tail, log.lh.sector[tail]);
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struct buf *lbuf = bread(log.dev, log.start+tail+1); // read i'th block from log
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struct buf *dbuf = bread(log.dev, log.lh.sector[tail]); // read dst block
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memmove(dbuf->data, lbuf->data, BSIZE);
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bwrite(dbuf);
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struct buf *lbuf = bread(log.dev, log.start+tail+1); // read log block
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struct buf *dbuf = bread(log.dev, log.lh.sector[tail]); // read dst
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memmove(dbuf->data, lbuf->data, BSIZE); // copy block to dst
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bwrite(dbuf); // flush dst to disk
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brelse(lbuf);
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brelse(dbuf);
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}
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@ -102,7 +101,7 @@ read_head(void)
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// cprintf("read_head: %d\n", log.lh.n);
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}
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// Write the in-memory log header to disk, committing log entries till head
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// Write in-memory log header to disk, committing log entries till head
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static void
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write_head(void)
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{
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@ -144,7 +143,7 @@ void
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commit_trans(void)
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{
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if (log.lh.n > 0) {
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write_head(); // This causes all blocks till log.head to be commited
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write_head(); // Causes all blocks till log.head to be commited
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install_trans(); // Install all the transactions till head
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log.lh.n = 0;
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write_head(); // Reclaim log
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17
main.c
17
main.c
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@ -33,7 +33,7 @@ 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; must use enter_alloc)
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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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// Finish setting up this processor in mpmain.
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@ -81,13 +81,14 @@ startothers(void)
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if(c == cpus+cpunum()) // We've started already.
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continue;
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// Tell entryother.S what stack to use, the address of mpenter and pgdir;
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// We cannot use kpgdir yet, because the AP processor is running in low
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// memory, so we use entrypgdir for the APs too. kalloc can return addresses
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// above 4Mbyte (the machine may have much more physical memory than 4Mbyte), which
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// aren't mapped by entrypgdir, so we must allocate a stack using enter_alloc();
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// This introduces the constraint that xv6 cannot use kalloc until after these
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// last enter_alloc invocations.
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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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*(void**)(code-4) = stack + KSTACKSIZE;
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*(void**)(code-8) = mpenter;
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@ -1,10 +1,10 @@
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// Memory layout
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#define EXTMEM 0x100000 // Start of extended memory
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#define PHYSTOP 0xE000000 // Top physical memory (too hard to get from E820)
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#define PHYSTOP 0xE000000 // Top physical memory
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#define DEVSPACE 0xFE000000 // Other devices are at high addresses
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// Key addresses for address space layout (see kmap in vm.c for the layout)
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// Key addresses for address space layout (see kmap in vm.c for layout)
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#define KERNBASE 0x80000000 // First kernel virtual address
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#define KERNLINK (KERNBASE+EXTMEM) // Address where kernel is linked
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4
mmu.h
4
mmu.h
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@ -118,8 +118,8 @@ struct segdesc {
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#define PGADDR(d, t, o) ((uint)((d) << PDXSHIFT | (t) << PTXSHIFT | (o)))
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// Page directory and page table constants.
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#define NPDENTRIES 1024 // page directory entries per page directory
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#define NPTENTRIES 1024 // page table entries per page table
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#define NPDENTRIES 1024 // # directory entries per page directory
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#define NPTENTRIES 1024 // # PTEs per page table
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#define PGSIZE 4096 // bytes mapped by a page
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#define PGSHIFT 12 // log2(PGSIZE)
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16
runoff.list
16
runoff.list
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@ -8,10 +8,6 @@ asm.h
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mmu.h
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elf.h
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# bootloader
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bootasm.S
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bootmain.c
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# entering xv6
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entry.S
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entryother.S
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@ -22,12 +18,13 @@ spinlock.h
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spinlock.c
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# processes
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vm.c
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proc.h
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proc.c
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swtch.S
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kalloc.c
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data.S
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vm.c
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# system calls
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traps.h
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vectors.pl
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@ -45,8 +42,8 @@ fs.h
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file.h
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ide.c
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bio.c
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fs.c
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log.c
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fs.c
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file.c
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sysfile.c
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exec.c
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@ -54,7 +51,6 @@ exec.c
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# pipes
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pipe.c
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# string operations
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string.c
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@ -76,7 +72,7 @@ usys.S
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init.c
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sh.c
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# bootloader
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bootasm.S
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bootmain.c
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33
vm.c
33
vm.c
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@ -68,7 +68,8 @@ 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, 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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char* (*alloc)(void))
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{
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char *a, *last;
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pte_t *pte;
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@ -91,18 +92,20 @@ mappages(pde_t *pgdir, void *va, uint size, uint pa, int perm, char* (*alloc)(vo
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}
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// The mappings from logical to virtual are one to one (i.e.,
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// segmentation doesn't do anything).
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// There is one page table per process, plus one that's used
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// when a CPU is not running any process (kpgdir).
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// A user process uses the same page table as the kernel; the
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// page protection bits prevent it from using anything other
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// than its memory.
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// segmentation doesn't do anything). There is one page table per
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// process, plus one that's used when a CPU is not running any
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// process (kpgdir). A user process uses the same page table as
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// the kernel; the page protection bits prevent it from using
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// anything other than its memory.
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//
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// setupkvm() and exec() set up every page table like this:
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// 0..KERNBASE : user memory (text, data, stack, heap), mapped to some unused phys mem
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// KERNBASE..KERNBASE+EXTMEM: mapped to 0..EXTMEM (below extended memory)
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// KERNBASE+EXTMEM..KERNBASE+end : mapped to EXTMEM..end (mapped without write permission)
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// KERNBASE+end..KERBASE+PHYSTOP : mapped to end..PHYSTOP (rw data + free memory)
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// 0..KERNBASE: user memory (text+data+stack+heap), mapped to some free
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// phys memory
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// KERNBASE..KERNBASE+EXTMEM: mapped to 0..EXTMEM (for I/O space)
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// KERNBASE+EXTMEM..KERNBASE+end: mapped to EXTMEM..end kernel,
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// w. no write permission
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// KERNBASE+end..KERBASE+PHYSTOP: mapped to end..PHYSTOP,
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// rw data + free memory
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// 0xfe000000..0: mapped direct (devices such as ioapic)
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//
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// The kernel allocates memory for its heap and for user memory
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@ -116,8 +119,8 @@ static struct kmap {
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uint phys_end;
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int perm;
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} kmap[] = {
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{ P2V(0), 0, 1024*1024, PTE_W}, // First 1Mbyte contains BIOS and some IO devices
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{ (void *)KERNLINK, V2P(KERNLINK), V2P(data), 0}, // kernel text, rodata
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{ P2V(0), 0, 1024*1024, PTE_W}, // I/O space
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{ (void *)KERNLINK, V2P(KERNLINK), V2P(data), 0}, // kernel text+rodata
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{ data, V2P(data), PHYSTOP, PTE_W}, // kernel data, memory
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{ (void*)DEVSPACE, DEVSPACE, 0, PTE_W}, // more devices
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};
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@ -136,8 +139,8 @@ setupkvm(char* (*alloc)(void))
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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, (uint)k->phys_start,
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k->perm, alloc) < 0)
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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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return 0;
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return pgdir;
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