fix race in holding() check in acquire()
give cpu1 a TSS and gdt for when it enters scheduler() and a pseudo proc[] entry for each cpu cpu0 waits for each other cpu to start up read() for files
This commit is contained in:
parent
e8d11c2e84
commit
0e84a0ec6e
20 changed files with 209 additions and 55 deletions
8
Makefile
8
Makefile
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@ -71,6 +71,10 @@ echo : echo.o $(ULIB)
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$(LD) -N -e main -Ttext 0 -o echo echo.o $(ULIB)
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$(OBJDUMP) -S echo > echo.asm
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cat : cat.o $(ULIB)
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$(LD) -N -e main -Ttext 0 -o cat cat.o $(ULIB)
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$(OBJDUMP) -S cat > cat.asm
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userfs : userfs.o $(ULIB)
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$(LD) -N -e main -Ttext 0 -o userfs userfs.o $(ULIB)
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$(OBJDUMP) -S userfs > userfs.asm
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@ -78,8 +82,8 @@ userfs : userfs.o $(ULIB)
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mkfs : mkfs.c fs.h
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cc -o mkfs mkfs.c
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fs.img : mkfs usertests echo
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./mkfs fs.img usertests echo
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fs.img : mkfs usertests echo cat README
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./mkfs fs.img usertests echo cat README
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-include *.d
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78
Notes
78
Notes
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@ -163,3 +163,81 @@ and file arguments longer than 14
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and directories longer than one sector
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kalloc() can return 0; do callers handle this right?
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why directing interrupts to cpu 1 causes trouble
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cpu 1 turns on interrupts with no tss!
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and perhaps a stale gdt (from boot)
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since it has never run a process, never called setupsegs()
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but does cpu really need the tss?
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not switching stacks
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fake process per cpu, just for tss?
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seems like a waste
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move tss to cpu[]?
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but tss points to per-process kernel stack
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would also give us a gdt
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OOPS that wasn't the problem
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wait for other cpu to finish starting before enabling interrupts?
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some kind of crash in ide_init ioapic_enable cprintf
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move ide_init before mp_start?
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didn't do any good
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maybe cpu0 taking ide interrupt, cpu1 getting a nested lock error
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cprintfs are screwed up if locking is off
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often loops forever
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hah, just use lpt alone
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looks like cpu0 took the ide interrupt and was the last to hold
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the lock, but cpu1 thinks it is nested
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cpu0 is in load_icode / printf / cons_putc
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probably b/c cpu1 cleared use_console_lock
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cpu1 is in scheduler() / printf / acquire
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1: init timer
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0: init timer
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cpu 1 initial nlock 1
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ne0s:t iidd el_occnkt rc
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onsole cpu 1 old caller stack 1001A5 10071D 104DFF 1049FE
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panic: acquire
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^CNext at t=33002418
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(0) [0x00100091] 0008:0x00100091 (unk. ctxt): jmp .+0xfffffffe ; ebfe
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(1) [0x00100332] 0008:0x00100332 (unk. ctxt): jmp .+0xfffffffe
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why is output interleaved even before panic?
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does release turn on interrupts even inside an interrupt handler?
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overflowing cpu[] stack?
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probably not, change from 512 to 4096 didn't do anything
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1: init timer
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0: init timer
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cnpeus te11 linnitki aclo nnoolleek cp1u
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ss oarltd sccahleldeul esrt aocnk cpu 0111 Ej6 buf1 01A3140 C5118
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0
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la anic1::7 0a0c0 uuirr e
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^CNext at t=31691050
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(0) [0x00100373] 0008:0x00100373 (unk. ctxt): jmp .+0xfffffffe ; ebfe
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(1) [0x00100091] 0008:0x00100091 (unk. ctxt): jmp .+0xfffffffe ; ebfe
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cpu0:
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0: init timer
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nested lock console cpu 0 old caller stack 1001e6 101a34 1 0
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(that's mpmain)
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panic: acquire
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cpu1:
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1: init timer
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cpu 1 initial nlock 1
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start scheduler on cpu 1 jmpbuf ...
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la 107000 lr ...
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that is, nlock != 0
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maybe a race; acquire does
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locked = 1
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cpu = cpu()
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what if another acquire calls holding w/ locked = 1 but
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before cpu is set?
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1
README
Normal file
1
README
Normal file
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@ -0,0 +1 @@
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This is the content of file README.
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35
cat.c
Normal file
35
cat.c
Normal file
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@ -0,0 +1,35 @@
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#include "user.h"
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char buf[513];
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int
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main(int argc, char *argv[])
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{
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int fd, i, cc;
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if(argc < 2){
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puts("Usage: cat files...\n");
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exit();
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}
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for(i = 1; i < argc; i++){
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fd = open(argv[i], 0);
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if(fd < 0){
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puts("cat: cannot open ");
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puts(argv[i]);
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puts("\n");
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exit();
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}
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while((cc = read(fd, buf, sizeof(buf) - 1)) > 0){
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buf[cc] = '\0';
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puts(buf);
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}
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if(cc < 0){
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puts("cat: read error\n");
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exit();
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}
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close(fd);
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}
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exit();
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}
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2
echo.c
2
echo.c
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@ -5,7 +5,7 @@ main(int argc, char *argv[])
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{
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int i;
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for(i = 0; i < argc; i++){
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for(i = 1; i < argc; i++){
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puts(argv[i]);
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puts(" ");
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}
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7
fd.c
7
fd.c
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@ -69,6 +69,13 @@ fd_read(struct fd *fd, char *addr, int n)
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return -1;
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if(fd->type == FD_PIPE){
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return pipe_read(fd->pipe, addr, n);
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} else if(fd->type == FD_FILE){
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ilock(fd->ip);
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int cc = readi(fd->ip, addr, fd->off, n);
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if(cc > 0)
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fd->off += cc;
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iunlock(fd->ip);
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return cc;
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} else {
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panic("fd_read");
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return -1;
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1
fd.h
1
fd.h
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@ -5,6 +5,7 @@ struct fd {
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char writeable;
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struct pipe *pipe;
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struct inode *ip;
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uint off;
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};
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extern struct fd fds[NFD];
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4
ide.c
4
ide.c
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@ -51,14 +51,14 @@ ide_init(void)
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}
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ioapic_enable (14, 1); // 14 is IRQ # for IDE
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ide_wait_ready(0);
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cprintf ("ide_init:done\n");
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cprintf ("cpu%d: ide_init:done\n", cpu());
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}
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void
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ide_intr(void)
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{
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acquire(&ide_lock);
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cprintf("%d: ide_intr\n", cpu());
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cprintf("cpu%d: ide_intr\n", cpu());
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wakeup(&request[tail]);
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release(&ide_lock);
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lapic_eoi();
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6
ioapic.c
6
ioapic.c
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@ -65,7 +65,7 @@ ioapic_init(void)
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}
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void
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ioapic_enable (int irq, int cpu)
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ioapic_enable (int irq, int cpunum)
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{
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uint l, h;
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struct ioapic *io;
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@ -76,7 +76,7 @@ ioapic_enable (int irq, int cpu)
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ioapic_write(io, IOAPIC_REDTBL_LO(irq), l);
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h = ioapic_read(io, IOAPIC_REDTBL_HI(irq));
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h &= ~IOART_DEST;
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h |= (cpu << APIC_ID_SHIFT); // for fun, disk interrupts to cpu 1
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h |= (cpunum << APIC_ID_SHIFT); // for fun, disk interrupts to cpu 1
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ioapic_write(io, IOAPIC_REDTBL_HI(irq), h);
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cprintf("intr %d: lo 0x%x hi 0x%x\n", irq, l, h);
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cprintf("cpu%d: intr %d: lo 0x%x hi 0x%x\n", cpu(), irq, l, h);
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}
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11
lapic.c
11
lapic.c
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@ -110,7 +110,7 @@ lapic_write(int r, int data)
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void
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lapic_timerinit(void)
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{
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cprintf("%d: init timer\n", cpu());
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cprintf("cpu%d: init timer\n", cpu());
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lapic_write(LAPIC_TDCR, LAPIC_X1);
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lapic_write(LAPIC_TIMER, LAPIC_CLKIN | LAPIC_PERIODIC | (IRQ_OFFSET + IRQ_TIMER));
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lapic_write(LAPIC_TCCR, 10000000);
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@ -120,7 +120,7 @@ lapic_timerinit(void)
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void
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lapic_timerintr(void)
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{
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cprintf("%d: timer interrupt!\n", cpu());
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cprintf("cpu%d: timer interrupt!\n", cpu());
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lapic_write (LAPIC_EOI, 0);
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}
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@ -129,7 +129,7 @@ lapic_init(int c)
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{
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uint r, lvt;
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cprintf("lapic_init %d\n", c);
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cprintf("cpu%d: lapic_init %d\n", c);
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lapic_write(LAPIC_DFR, 0xFFFFFFFF); // set destination format register
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r = (lapic_read(LAPIC_ID)>>24) & 0xFF; // read APIC ID
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while(lapic_read(LAPIC_ICRLO) & APIC_DELIVS)
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;
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cprintf("Done init of an apic\n");
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cprintf("cpu%d: apic init done\n", cpu());
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}
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void
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int
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cpu(void)
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{
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return (lapic_read(LAPIC_ID)>>24) & 0xFF;
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int x = (lapic_read(LAPIC_ID)>>24) & 0xFF;
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return x;
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}
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void
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35
main.c
35
main.c
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@ -42,18 +42,24 @@ main0(void)
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lapic_init(mp_bcpu());
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cprintf("\nxV6\n\n");
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cprintf("\n\ncpu%d: booting xv6\n\n", cpu());
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pic_init(); // initialize PIC
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ioapic_init();
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kinit(); // physical memory allocator
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tvinit(); // trap vectors
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idtinit(); // CPU's idt
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idtinit(); // this CPU's idt register
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// create fake process zero
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// create a fake process per CPU
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// so each CPU always has a tss and a gdt
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for(p = &proc[0]; p < &proc[NCPU]; p++){
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p->state = IDLEPROC;
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p->kstack = cpus[p-proc].mpstack;
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p->pid = p - proc;
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}
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// fix process 0 so that copyproc() will work
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p = &proc[0];
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memset(p, 0, sizeof *p);
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p->state = SLEEPING;
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p->sz = 4 * PAGE;
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p->mem = kalloc(p->sz);
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memset(p->mem, 0, p->sz);
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p->tf->es = p->tf->ds = p->tf->ss = (SEG_UDATA << 3) | 3;
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p->tf->cs = (SEG_UCODE << 3) | 3;
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p->tf->eflags = FL_IF;
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p->pid = 0;
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p->ppid = 0;
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setupsegs(p);
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// init disk device
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ide_init();
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mp_startthem();
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// turn on timer and enable interrupts on the local APIC
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lapic_timerinit();
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lapic_enableintr();
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// init disk device
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ide_init();
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// Enable interrupts on this processor.
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cprintf("cpu%d: nlock %d before -- and sti\n",
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cpu(), cpus[0].nlock);
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cpus[cpu()].nlock--;
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sti();
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@ -94,7 +100,7 @@ main0(void)
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void
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mpmain(void)
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{
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cprintf("an application processor\n");
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cprintf("cpu%d: starting\n", cpu());
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idtinit(); // CPU's idt
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if(cpu() == 0)
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panic("mpmain on cpu 0");
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@ -102,8 +108,13 @@ mpmain(void)
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lapic_timerinit();
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lapic_enableintr();
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setupsegs(&proc[cpu()]);
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cpuid(0, 0, 0, 0, 0); // memory barrier
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cpus[cpu()].booted = 1;
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// Enable interrupts on this processor.
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cprintf("cpu %d initial nlock %d\n", cpu(), cpus[cpu()].nlock);
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cprintf("cpu%d: initial nlock %d\n", cpu(), cpus[cpu()].nlock);
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cpus[cpu()].nlock--;
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sti();
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4
mp.c
4
mp.c
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@ -219,9 +219,11 @@ mp_startthem(void)
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for(c = 0; c < ncpu; c++){
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if (c == cpu()) continue;
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cprintf ("starting processor %d\n", c);
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cprintf ("cpu%d: starting processor %d\n", cpu(), c);
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*(uint *)(APBOOTCODE-4) = (uint) (cpus[c].mpstack) + MPSTACK; // tell it what to use for %esp
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*(uint *)(APBOOTCODE-8) = (uint)mpmain; // tell it where to jump to
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lapic_startap(cpus[c].apicid, (uint) APBOOTCODE);
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while(cpus[c].booted == 0)
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;
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}
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}
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10
proc.c
10
proc.c
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@ -11,7 +11,7 @@ struct spinlock proc_table_lock = { "proc_table" };
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struct proc proc[NPROC];
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struct proc *curproc[NCPU];
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int next_pid = 1;
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int next_pid = NCPU;
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extern void forkret(void);
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extern void forkret1(struct trapframe*);
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@ -31,7 +31,7 @@ setupsegs(struct proc *p)
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// XXX it may be wrong to modify the current segment table!
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p->gdt[0] = SEG_NULL;
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p->gdt[SEG_KCODE] = SEG(STA_X|STA_R, 0, 0xffffffff, 0);
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p->gdt[SEG_KCODE] = SEG(STA_X|STA_R, 0, 0x100000 + 64*1024, 0); // xxx
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p->gdt[SEG_KDATA] = SEG(STA_W, 0, 0xffffffff, 0);
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p->gdt[SEG_TSS] = SEG16(STS_T32A, (uint) &p->ts,
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sizeof(p->ts), 0);
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@ -134,8 +134,8 @@ scheduler(void)
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struct proc *p;
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int i;
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cprintf("start scheduler on cpu %d jmpbuf %p\n", cpu(), &cpus[cpu()].jmpbuf);
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cpus[cpu()].lastproc = &proc[0];
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cprintf("cpu%d: start scheduler jmpbuf %p\n",
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cpu(), &cpus[cpu()].jmpbuf);
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if(cpus[cpu()].nlock != 0){
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cprintf("la %x lr %x\n", cpus[cpu()].lastacquire, cpus[cpu()].lastrelease );
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@ -190,6 +190,8 @@ scheduler(void)
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panic("scheduler lock");
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}
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setupsegs(&proc[cpu()]);
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// XXX if not holding proc_table_lock panic.
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}
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release(&proc_table_lock);
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7
proc.h
7
proc.h
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@ -33,7 +33,8 @@ struct jmpbuf {
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int eip;
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};
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enum proc_state { UNUSED, EMBRYO, SLEEPING, RUNNABLE, RUNNING, ZOMBIE };
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enum proc_state { UNUSED, EMBRYO, SLEEPING, RUNNABLE, RUNNING, ZOMBIE,
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IDLEPROC };
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struct proc{
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char *mem; // start of process's physical memory
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@ -67,8 +68,8 @@ extern struct proc *curproc[NCPU]; // can be NULL if no proc running.
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struct cpu {
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uchar apicid; // Local APIC ID
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struct jmpbuf jmpbuf;
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char mpstack[MPSTACK]; // per-cpu start-up stack, only used to get into main()
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struct proc *lastproc; // last proc scheduled on this cpu (never NULL)
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char mpstack[MPSTACK]; // per-cpu start-up stack
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volatile int booted;
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int nlock; // # of locks currently held
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struct spinlock *lastacquire; // xxx debug
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struct spinlock *lastrelease; // xxx debug
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|
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28
spinlock.c
28
spinlock.c
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@ -12,29 +12,31 @@
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extern int use_console_lock;
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int
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getcallerpc(void *v)
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void
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getcallerpcs(void *v, uint pcs[])
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{
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return ((int*)v)[-1];
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uint *ebp = (uint*)v - 2;
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int i;
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for(i = 0; i < 10 && ebp && ebp != (uint*)0xffffffff; ebp = (uint*)*ebp, i++){
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pcs[i] = *(ebp + 1);
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}
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for( ; i < 10; i++)
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pcs[i] = 0;
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}
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void
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acquire(struct spinlock * lock)
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{
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if(holding(lock)){
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extern use_console_lock;
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use_console_lock = 0;
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cprintf("lock %s pc %x\n", lock->name ? lock->name : "", lock->pc);
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panic("acquire");
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}
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if(holding(lock))
|
||||
panic("acquire");
|
||||
|
||||
if(cpus[cpu()].nlock++ == 0)
|
||||
cli();
|
||||
while(cmpxchg(0, 1, &lock->locked) == 1)
|
||||
;
|
||||
cpuid(0, 0, 0, 0, 0); // memory barrier
|
||||
lock->pc = getcallerpc(&lock);
|
||||
lock->cpu = cpu();
|
||||
getcallerpcs(&lock, lock->pcs);
|
||||
lock->cpu = cpu() + 10;
|
||||
cpus[cpu()].lastacquire = lock;
|
||||
}
|
||||
|
||||
|
@ -45,6 +47,8 @@ release(struct spinlock * lock)
|
|||
panic("release");
|
||||
|
||||
cpus[cpu()].lastrelease = lock;
|
||||
lock->pcs[0] = 0;
|
||||
lock->cpu = 0xffffffff;
|
||||
cpuid(0, 0, 0, 0, 0); // memory barrier
|
||||
lock->locked = 0;
|
||||
if(--cpus[cpu()].nlock == 0)
|
||||
|
@ -54,5 +58,5 @@ release(struct spinlock * lock)
|
|||
int
|
||||
holding(struct spinlock *lock)
|
||||
{
|
||||
return lock->locked && lock->cpu == cpu();
|
||||
return lock->locked && lock->cpu == cpu() + 10;
|
||||
}
|
||||
|
|
|
@ -1,6 +1,6 @@
|
|||
struct spinlock {
|
||||
char *name;
|
||||
uint locked;
|
||||
uint pc;
|
||||
uint pcs[10];
|
||||
int cpu;
|
||||
};
|
||||
|
|
|
@ -274,6 +274,7 @@ sys_open(void)
|
|||
fd->readable = 1;
|
||||
fd->writeable = 0;
|
||||
fd->ip = ip;
|
||||
fd->off = 0;
|
||||
cp->fds[ufd] = fd;
|
||||
|
||||
return ufd;
|
||||
|
|
16
trap.c
16
trap.c
|
@ -34,6 +34,14 @@ void
|
|||
trap(struct trapframe *tf)
|
||||
{
|
||||
int v = tf->trapno;
|
||||
|
||||
if(cpus[cpu()].nlock){
|
||||
cprintf("trap v %d eip %x cpu %d nlock %d\n",
|
||||
v, tf->eip, cpu(), cpus[cpu()].nlock);
|
||||
panic("interrupt while holding a lock");
|
||||
}
|
||||
if((read_eflags() & FL_IF) == 0)
|
||||
panic("interrupt but interrupts now disabled");
|
||||
|
||||
if(v == T_SYSCALL){
|
||||
struct proc *cp = curproc[cpu()];
|
||||
|
@ -61,16 +69,13 @@ trap(struct trapframe *tf)
|
|||
panic("trap ret esp wrong");
|
||||
if(cp->killed)
|
||||
proc_exit();
|
||||
// XXX probably ought to lgdt on trap return
|
||||
return;
|
||||
}
|
||||
|
||||
if(v == (IRQ_OFFSET + IRQ_TIMER)){
|
||||
struct proc *cp = curproc[cpu()];
|
||||
lapic_timerintr();
|
||||
if(cpus[cpu()].nlock)
|
||||
panic("timer interrupt while holding a lock");
|
||||
if((read_eflags() & FL_IF) == 0)
|
||||
panic("timer interrupt but interrupts now disabled");
|
||||
if(cp){
|
||||
// Force process exit if it has been killed
|
||||
// and the interrupt came from user space.
|
||||
|
@ -92,8 +97,5 @@ trap(struct trapframe *tf)
|
|||
return;
|
||||
}
|
||||
|
||||
|
||||
// XXX probably ought to lgdt on trap return
|
||||
|
||||
return;
|
||||
}
|
||||
|
|
2
user.h
2
user.h
|
@ -10,6 +10,8 @@ int block(void);
|
|||
int kill(int);
|
||||
int panic(char*);
|
||||
int cons_puts(char*);
|
||||
int exec(char *, char **);
|
||||
int open(char *, int);
|
||||
int mknod (char*,short,short,short);
|
||||
int puts(char*);
|
||||
int puts1(char*);
|
||||
|
|
6
userfs.c
6
userfs.c
|
@ -5,7 +5,8 @@
|
|||
// file system tests
|
||||
|
||||
char buf[1024];
|
||||
char *args[] = { "echo", "hello", "goodbye", 0 };
|
||||
char *echo_args[] = { "echo", "hello", "goodbye", 0 };
|
||||
char *cat_args[] = { "cat", "README", 0 };
|
||||
|
||||
int
|
||||
main(void)
|
||||
|
@ -34,6 +35,7 @@ main(void)
|
|||
} else {
|
||||
puts("open doesnotexist failed\n");
|
||||
}
|
||||
exec("echo", args);
|
||||
//exec("echo", echo_args);
|
||||
exec("cat", cat_args);
|
||||
return 0;
|
||||
}
|
||||
|
|
Loading…
Reference in a new issue