xv6-65oo2/web/xv6-sleep.html

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2008-09-03 04:50:04 +00:00
<title>Homework: sleep and wakeup</title>
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<head>
</head>
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<h1>Homework: sleep and wakeup</h1>
<p>
<b>Read</b>: pipe.c
<p>
<b>Hand-In Procedure</b>
<p>
You are to turn in this homework at the beginning of lecture. Please
write up your answers to the questions below and hand them in to a
6.828 staff member at the beginning of lecture.
<p>
<b>Introduction</b>
<p>
Remember in lecture 7 we discussed locking a linked list implementation.
The insert code was:
<pre>
struct list *l;
l = list_alloc();
l->next = list_head;
list_head = l;
</pre>
and if we run the insert on multiple processors simultaneously with no locking,
this ordering of instructions can cause one of the inserts to be lost:
<pre>
CPU1 CPU2
struct list *l;
l = list_alloc();
l->next = list_head;
struct list *l;
l = list_alloc();
l->next = list_head;
list_head = l;
list_head = l;
</pre>
(Even though the instructions can happen simultaneously, we
write out orderings where only one CPU is "executing" at a time,
to avoid complicating things more than necessary.)
<p>
In this case, the list element allocated by CPU2 is lost from
the list by CPU1's update of list_head.
Adding a lock that protects the final two instructions makes
the read and write of list_head atomic, so that this
ordering is impossible.
<p>
The reading for this lecture is the implementation of sleep and wakeup,
which are used for coordination between different processes executing
in the kernel, perhaps simultaneously.
<p>
If there were no locking at all in sleep and wakeup, it would be
possible for a sleep and its corresponding wakeup, if executing
simultaneously on different processors, to miss each other,
so that the wakeup didn't find any process to wake up, and yet the
process calling sleep does go to sleep, never to awake. Obviously this is something
we'd like to avoid.
<p>
Read the code with this in mind.
<p>
<br><br>
<b>Questions</b>
<p>
(Answer and hand in.)
<p>
1. How does the proc_table_lock help avoid this problem? Give an
ordering of instructions (like the above example for linked list
insertion)
that could result in a wakeup being missed if the proc_table_lock were not used.
You need only include the relevant lines of code.
<p>
2. sleep is also protected by a second lock, its second argument,
which need not be the proc_table_lock. Look at the example in ide.c,
which uses the ide_lock. Give an ordering of instructions that could
result in a wakeup being missed if the ide_lock were not being used.
(Hint: this should not be the same as your answer to question 2. The
two locks serve different purposes.)<p>
<br><br>
<b>This completes the homework.</b>
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