passes both usertests
exit had acquire where I meant release swtch now checks that you hold no locks
This commit is contained in:
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8148b6ee53
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23
Notes
23
Notes
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@ -114,26 +114,15 @@ wakeup needs proc_table_lock
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so we need recursive locks?
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or you must hold the lock to call wakeup?
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if locks contain proc *, they can't be used at interrupt time
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only proc_table_lock will be used at interrupt time?
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maybe it doesn't matter if we use curproc?
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in general, the table locks protect both free-ness and
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public variables of table elements
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in many cases you can use table elements w/o a lock
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e.g. if you are the process, or you are using an fd
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why can't i get a lock in console code?
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always triple fault
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because release turns on interrupts!
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a bad idea very early in main()
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but mp_init() calls cprintf
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lock code shouldn't call cprintf...
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ide_init doesn't work now?
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and IOAPIC: read from unsupported address
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when running pre-empt user test
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so maybe something wrong with clock interrupts
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no! if one cpu holds lock w/ curproc0=,
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then another cpu can take it, it looks like
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a recursive acquire()
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nasty hack to allow locks before first process,
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and to allow them in interrupts when curproc may be zero
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race between release and sleep in sys_wait()
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race between sys_exit waking up parent and setting state=ZOMBIE
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18
proc.c
18
proc.c
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@ -181,7 +181,9 @@ swtch(int newstate)
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{
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struct proc *p = curproc[cpu()];
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if(p == 0)
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panic("swtch");
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panic("swtch no proc");
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if(p->locks != 0)
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panic("swtch w/ locks");
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p->newstate = newstate; // basically an argument to scheduler()
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if(setjmp(&p->jmpbuf) == 0)
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longjmp(&cpus[cpu()].jmpbuf);
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@ -203,9 +205,11 @@ wakeup(void *chan)
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struct proc *p;
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acquire(&proc_table_lock);
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for(p = proc; p < &proc[NPROC]; p++)
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if(p->state == WAITING && p->chan == chan)
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for(p = proc; p < &proc[NPROC]; p++){
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if(p->state == WAITING && p->chan == chan){
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p->state = RUNNABLE;
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}
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}
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release(&proc_table_lock);
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}
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@ -225,7 +229,7 @@ proc_exit()
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struct proc *cp = curproc[cpu()];
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int fd;
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cprintf("exit %x\n", cp);
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cprintf("exit %x pid %d ppid %d\n", cp, cp->pid, cp->ppid);
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for(fd = 0; fd < NOFILE; fd++){
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if(cp->fds[fd]){
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@ -246,7 +250,7 @@ proc_exit()
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if(p->ppid == cp->pid)
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p->pid = 1;
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acquire(&proc_table_lock);
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release(&proc_table_lock);
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// switch into scheduler
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swtch(ZOMBIE);
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@ -265,10 +269,8 @@ cli(void)
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void
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sti(void)
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{
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if(cpus[cpu()].clis < 1){
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cprintf("cpu %d clis %d\n", cpu(), cpus[cpu()].clis);
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if(cpus[cpu()].clis < 1)
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panic("sti");
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}
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cpus[cpu()].clis -= 1;
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if(cpus[cpu()].clis < 1)
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__asm __volatile("sti");
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1
proc.h
1
proc.h
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@ -45,6 +45,7 @@ struct proc{
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int ppid;
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void *chan; // sleep
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int killed;
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int locks; // # of locks currently held
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struct fd *fds[NOFILE];
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struct Taskstate ts; // only to give cpu address of kernel stack
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15
spinlock.c
15
spinlock.c
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@ -17,10 +17,11 @@ int getcallerpc(void *v) {
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void
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acquire(struct spinlock * lock)
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{
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struct proc *cp = curproc[cpu()];
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unsigned who;
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if(curproc[cpu()])
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who = (unsigned) curproc[cpu()];
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if(cp)
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who = (unsigned) cp;
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else
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who = cpu() + 1;
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@ -38,16 +39,20 @@ acquire(struct spinlock * lock)
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lock->who = who;
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}
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if(cp)
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cp->locks += 1;
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if(DEBUG) cprintf("cpu%d: acquired at %x\n", cpu(), getcallerpc(&lock));
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}
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void
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release(struct spinlock * lock)
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{
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struct proc *cp = curproc[cpu()];
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unsigned who;
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if(curproc[cpu()])
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who = (unsigned) curproc[cpu()];
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if(cp)
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who = (unsigned) cp;
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else
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who = cpu() + 1;
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@ -57,6 +62,8 @@ release(struct spinlock * lock)
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panic("release");
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lock->count -= 1;
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if(cp)
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cp->locks -= 1;
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if(lock->count < 1){
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lock->who = 0;
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cmpxchg(1, 0, &lock->locked);
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4
trap.c
4
trap.c
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@ -62,6 +62,9 @@ trap(struct Trapframe *tf)
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struct proc *cp = curproc[cpu()];
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lapic_timerintr();
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if(cp){
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if(cpus[cpu()].clis != 0)
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panic("trap clis > 0");
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cpus[cpu()].clis += 1;
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sti();
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if(cp->killed)
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proc_exit();
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@ -69,6 +72,7 @@ trap(struct Trapframe *tf)
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}
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return;
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}
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if(v == (IRQ_OFFSET + IRQ_IDE)){
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ide_intr();
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return;
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@ -93,8 +93,8 @@ preempt()
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main()
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{
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puts("usertests starting\n");
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//pipe1();
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preempt();
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pipe1();
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//preempt();
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while(1)
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;
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