Skip to content

This is my lab 2 for Operating System Principles course in XMU based on Nachos.

Notifications You must be signed in to change notification settings

liulizhi1996/Operating-Systems-lab2

Repository files navigation

Operating Systems lab2

This is my lab 2 for Operating System Principles course in XMU. The assignment guide see Nachos Project Guide of V22.0202-001 in New York University.

In this lab, I implement mutexes and condition variables first. Then use them to implement a multithreaded table and a bounded buffer. You can read guide for details.

Installation

Now, you are in top directory. So, please enter into threads directory first.

cd threads

Compile the project.

make depend
make

Run the nachos. For part 1 "Implementing Mutexes and Condition Variables", you can use

./nachos -q 3 -t [num_threads] -n [num_items] -e [type_of_error]

where

  • -q 3: test the doubly-linked list using synchronization primitives
  • -t: number of threads
  • -n: number of items inserted into list by one thread
  • -e: No. of error

For part 2 "Implementing a Multithreaded Table", you can use

./nachos -q 4 -t [num_threads] -n [num_items] -s [table_size]
     -e [type_of_error]
     -a [allow_synchronous_primitives(0 for FALSE/1 for TRUE)]

where

  • -q 4: test the multithreaded table
  • -t: number of Allocater, Getter and Releaser, here we assume that the amount of them are equal for simplicity
  • -n: number of loops that each thread allocates, gets and releases items
  • -s: the size of table
  • -e: No. of error
  • -a: whether using synchronization primitives or not

For part 3 "Implementing a Bounded Buffer", we provide two solutions. First, we use monitor. You can use

./nachos -q 5 -t [num_threads] -n [num_items] -s [table_size]
     -e [type_of_error]
     -a [allow_synchronous_primitives(0 for FALSE/1 for TRUE)]

where

  • -q 5: test the bounded buffer implemented by monitor
  • -t: number of Producer and Writer, here we assume that the amount of them are equal for simplicity
  • -n: number of loops that each thread reads and writes items
  • -s: the size of buffer
  • -e: No. of error
  • -a: whether using synchronization primitives or not

Secondly, we use semaphore. You can use

./nachos -q 6 -t [num_threads] -n [num_items] -s [table_size]
        -e [type_of_error]
        -a [allow_synchronous_primitives(0 for FALSE/1 for TRUE)]

The explaination of command-line parameters is the same to the first implementation.

Acknowledgment

Dasong Chen, Jinbin Tan and Hao Dong assisted me to finish this assignment. Prof. Wei Zheng put forward constructive suggestions. Thanks for their effort.

About

This is my lab 2 for Operating System Principles course in XMU based on Nachos.

Topics

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published