Lab #1 Solution

$30.00

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Description

In this lab you will make minor modifications and minor additions to the source code for the teaching operating system Pintos.

 

Specifically, you will implement a more efficient version of the Pintos system call timer_sleep found in src/devices/timer.c in the Pintos distribution supplied for this lab.

 

This lab is worth 5% of your final grade.

 

Submissions are due NO LATER than 23:59, Wednesday April 11, 2018 ( one week )

 

 

Setup

 

SSH in to one of the two CMPS111 teaching servers using your CruzID Blue password:

 

Or $ ssh <cruzid>@noggin.soe.ucsc.edu ( use Putty http://www.putty.org/ if on Windows )
$ ssh <cruzid>@nogbad.soe.ucsc.edu

 

Authenticate with Kerberos:

 

$ kinit <cruzid>@CATS.UCSC.EDU

 

Authenticate with AFS:

 

$ aklog

 

Create a suitable place to work: ( only do this the first time you log in )

 

$ mkdir –p CMPS111/Lab1

 

$ cd CMPS111/Lab1

 

Install the lab environment: ( only do this once )

 

$ tar xvf /var/classes/CMPS111/Spring18/Lab1.tar.gz

 

Build Pintos:

 

 

$ cd ~/CMPS111/Lab1/pintos/src/threads $ make
( always work in this directory )

 

 

Also try:

 

 

$ make check                ( runs the required functional tests – see below )

 

$ make grade                ( tells you what grade you will get – see below )

 

 

Additional Information

 

void timer_sleep(int64_t ticks) should suspend execution of the calling thread until time has advanced by at least the requested number of ticks. Unless the system is otherwise idle, the thread need not wake up after exactly ticks. It is entirely valid to just put it on the ready queue after they have waited for the right number of ticks.

 

The ticks argument is expressed in timer ticks, not in milliseconds or any other unit. Do not change this data type unless you want lots of the tests to fail.

 

Separate functions timer_msleep, timer_usleep, and timer_nsleep exist for sleeping a specific number of milliseconds, microseconds, and nanoseconds respectively, but these will call timer_sleep as appropriate. You do not need to modify them.

 

 

University of California Santa Cruz Baskin School of Engineering                   CMPS111 Spring 2018 Lab 1                     Copyright © 2017-2018 David C. Harrison. All rights reserved.

 

Accessing the teaching servers file systems from your personal computer

 

You home directories on the teaching servers are UCSC AFS, i.e. they are the same as if you logged into the UCSC Unix Timeshare. To access files in your home directory to edit them using an IDE on your laptop, you can do one of two things:

 

  • Use an SSH synchronization client like Cyberduck: https://cyberduck.io/ o Configure Cyberduck to point at either of the teaching servers o Connect with your CruzID and Blue Password

 

  • Install an AFS client on your laptop: https://www.auristor.com/openafs/client-installer/ o The Kerberos realm is: UCSC.EDU

 

o The OpenAFS Cell is: cats.ucsc.edu o Use your CruzID and Blue Password

 

o This is a far from trivial setup. If you get stuck, switch to using something like Cyberduck. o DO NOT CONTACT UCSC AFS SUPPORT FOR ANY REASON WHATSOEVER

 

Requirements

 

Basic:

 

  • You have modified the implementation of void timer_sleep(int64_t ticks) function found in src/devices/timer.c

 

  • Your modified implementation passes the following functional tests:

 

  • alarm-single
 o alarm-multiple

o alarm-simultaneous o alarm-zero

  • alarm-negative

 

  • Your implementation is demonstrably efficient (a non-functional test).

 

 

What steps should I take to tackle this?

 

Come to the sections and ask.

 

 

How much code will I need to write?

 

A model solution that satisfies all requirements adds approximately 20 lines of executable code.

 

 

Grading scheme

 

The following aspects will be assessed:

 

  1. (100%) Does it work?

 

a.  Tests pass [5% per test] (25%)
  1. Your implementation is demonstrably more efficient than the original (75%)

 

  1. (-100%) Did you give credit where credit is due?

 

  1. Your submission is found to contain code segments copied from on-line resources and you failed to give clear and unambiguous credit to the original author(s) in your source code (-100%)

 

  1. Your submission is determined to be a copy of another past or current CMPS111 student’s submission (-100%)

 

University of California Santa Cruz Baskin School of Engineering                   CMPS111 Spring 2018 Lab 1                     Copyright © 2017-2018 David C. Harrison. All rights reserved.

 

What to submit

 

In a command prompt:

 

$ cd ~/CMPS111/Lab1/pintos/src/threads

 

$ make submit

 

This creates a gzipped tar archive named CMPS111-Lab1.tar.gz in your home directory.

 

UPLOAD THIS FILE TO THE APPROPRIATE CANVAS ASSIGNMENT.

 

 

Looking ahead

 

Subsequent labs will require a short report and will have additional assessment criteria, including:

 

Is it well written?

 

Marks awarded for:

 

  • Compilation free of errors and/or warnings.

 

  • Clarity

 

  • Modularity

 

Marks deducted for:

 

  • Failing to do any of the above

 

  • Not following C language good practice (e.g. don’t use magic numbers)

 

I strongly recommend you consider these issues in this lab to get some practice in.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

University of California Santa Cruz Baskin School of Engineering                   CMPS111 Spring 2018 Lab 1                     Copyright © 2017-2018 David C. Harrison. All rights reserved.


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