bug fix: reparent() sometimes deadlocked
bug fix: exit() sometimes released a different parent lock than it acquired usertests
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@ -286,11 +286,11 @@ fork(void)
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}
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// Pass p's abandoned children to init.
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// Caller must hold p->lock and parent->lock.
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// Caller must hold p->lock.
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void
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reparent(struct proc *p, struct proc *parent) {
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reparent(struct proc *p)
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{
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struct proc *pp;
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int child_of_init = (p->parent == initproc);
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for(pp = proc; pp < &proc[NPROC]; pp++){
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// this code uses pp->parent without holding pp->lock.
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@ -302,13 +302,10 @@ reparent(struct proc *p, struct proc *parent) {
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// because only the parent changes it, and we're the parent.
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acquire(&pp->lock);
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pp->parent = initproc;
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if(pp->state == ZOMBIE) {
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if(!child_of_init)
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acquire(&initproc->lock);
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wakeup1(initproc);
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if(!child_of_init)
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release(&initproc->lock);
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}
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// we should wake up init here, but that would require
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// initproc->lock, which would be a deadlock, since we hold
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// the lock on one of init's children (pp). this is why
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// exit() always wakes init (before acquiring any locks).
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release(&pp->lock);
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}
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}
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@ -339,20 +336,38 @@ exit(int status)
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end_op();
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p->cwd = 0;
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acquire(&p->parent->lock);
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// we might re-parent a child to init. we can't be precise
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// about waking up init, since we can't acquire its lock once
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// we've acquired any other proc lock. so wake up init whether
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// that's necessary or not. init may miss this wakeup,
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// that that seems harmless.
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acquire(&initproc->lock);
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wakeup1(initproc);
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release(&initproc->lock);
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// grab a copy of p->parent, to ensure that we unlock the
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// same parent we locked. in case our parent gives us away
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// to init while we're waiting for the parent lock.
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acquire(&p->lock);
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struct proc *original_parent = p->parent;
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release(&p->lock);
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// we need the parent's lock in order to wake it up from wait().
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// the parent-then-child rule says we have to lock it first.
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acquire(&original_parent->lock);
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acquire(&p->lock);
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// Give any children to init.
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reparent(p, p->parent);
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reparent(p);
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// Parent might be sleeping in wait().
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wakeup1(p->parent);
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wakeup1(original_parent);
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p->xstate = status;
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p->state = ZOMBIE;
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release(&p->parent->lock);
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release(&original_parent->lock);
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// Jump into the scheduler, never to return.
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sched();
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@ -564,6 +579,8 @@ wakeup(void *chan)
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static void
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wakeup1(struct proc *p)
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{
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if(!holding(&p->lock))
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panic("wakeup1");
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if(p->chan == p && p->state == SLEEPING) {
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p->state = RUNNABLE;
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}
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@ -598,6 +598,31 @@ forkforkfork(char *s)
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sleep(10); // one second
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}
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// regression test. does reparent() violate the parent-then-child
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// locking order when giving away a child to init, so that exit()
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// deadlocks against init's wait()? also used to trigger a "panic:
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// release" due to exit() releasing a different p->parent->lock than
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// it acquired.
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void
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reparent2(char *s)
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{
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for(int i = 0; i < 800; i++){
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int pid1 = fork();
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if(pid1 < 0){
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printf("fork failed\n");
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exit(1);
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}
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if(pid1 == 0){
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fork();
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fork();
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exit(0);
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}
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wait(0);
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}
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exit(0);
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}
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// allocate all mem, free it, and allocate again
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void
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mem(char *s)
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@ -1937,9 +1962,9 @@ stacktest(char *s)
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exit(xstatus);
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}
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// copyin(), copyout(), and copyinstr() used to cast the virtual page
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// address to uint, which (with certain wild system call arguments)
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// resulted in a kernel page faults.
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// regression test. copyin(), copyout(), and copyinstr() used to cast
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// the virtual page address to uint, which (with certain wild system
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// call arguments) resulted in a kernel page faults.
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void
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pgbug(char *s)
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{
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@ -1952,9 +1977,9 @@ pgbug(char *s)
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exit(0);
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}
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// does the kernel panic if a process sbrk()s its size to be less than
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// a page, or zero, or reduces the break by an amount too small to
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// cause a page to be freed?
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// regression test. does the kernel panic if a process sbrk()s its
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// size to be less than a page, or zero, or reduces the break by an
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// amount too small to cause a page to be freed?
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void
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sbrkbugs(char *s)
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{
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@ -2010,13 +2035,11 @@ sbrkbugs(char *s)
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exit(0);
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}
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// does write() with an invalid buffer pointer cause
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// a block to be allocated for a file that is then
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// not freed when the file is deleted? if the kernel
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// has this bug, it will panic: balloc: out of blocks.
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// assumed_free may need to be raised to be
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// more than the number of free blocks.
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// this test takes a long time.
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// regression test. does write() with an invalid buffer pointer cause
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// a block to be allocated for a file that is then not freed when the
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// file is deleted? if the kernel has this bug, it will panic: balloc:
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// out of blocks. assumed_free may need to be raised to be more than
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// the number of free blocks. this test takes a long time.
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void
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badwrite(char *s)
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{
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@ -2049,9 +2072,8 @@ badwrite(char *s)
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exit(0);
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}
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// test whether exec() leaks memory if one of the
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// arguments is invalid. the test passes if
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// the kernel doesn't panic.
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// regression test. test whether exec() leaks memory if one of the
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// arguments is invalid. the test passes if the kernel doesn't panic.
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void
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badarg(char *s)
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{
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@ -2102,6 +2124,7 @@ main(int argc, char *argv[])
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void (*f)(char *);
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char *s;
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} tests[] = {
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{reparent2, "reparent2"},
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{pgbug, "pgbug" },
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{sbrkbugs, "sbrkbugs" },
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// {badwrite, "badwrite" },
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