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school_archives/OSU Coursework/CS 444 - Operating Systems II/Concurrency Assignments/Concurrency 3/problem2.c
Corwin Perren 06c37d59e1 Added OS II assignments
2018-06-08 00:50:59 -07:00

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/*
* File: main.c
* Author: caperren
*
* Created on April 27th, 2018
*/
#include "mt19937ar.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdint.h>
#include <sys/param.h>
#include <fcntl.h>
#include <unistd.h>
#include <pthread.h>
#include <semaphore.h>
////////// Program defines you might want to change //////////
#define NUM_INSERTERS 2
#define NUM_DELETERS 2
#define NUM_SEARCHERS 2
#define MIN_NUMBER 0
#define MAX_NUMBER 10
#define MIN_SLEEP_INSERTER 2
#define MAX_SLEEP_INSERTER 4
#define MIN_SLEEP_SEARCHER 1
#define MAX_SLEEP_SEARCHER 2
#define MIN_SLEEP_DELETER 10
#define MAX_SLEEP_DELETER 15
////////// Global variables and structs for linked list //////////
typedef struct linked_list {
struct linked_list *next;
uint16_t value;
} linked_list;
linked_list *list_head = NULL;
uint16_t list_size = 0;
////////// Global variables and structs for threading and sempaphores //////////
typedef struct light_switch {
uint16_t counter;
sem_t mutex;
} light_switch;
sem_t no_searches_semaphore;
sem_t no_insertions_semaphore;
sem_t insertion_mutex;
light_switch insertion_light_switch;
light_switch search_light_switch;
////////// Other global variables //////////
//RDRAND value to check for
#define RDRAND_FLAG (1 << 30)
// Get random number based on whether rdrand is supported.
uint8_t get_random_number(uint8_t min, uint8_t max) {
uint8_t rand_val;
unsigned long seed;
unsigned int eax;
unsigned int ebx;
unsigned int ecx;
unsigned int edx;
eax = 0x01;
// ASM for checking if RDRAND supported
__asm__ __volatile__("cpuid"
: "=a" (eax),
"=b" (ebx),
"=c" (ecx),
"=d" (edx)
: "a" (1),
"c" (0)
);
// Seed random with /dev/random
int random = open("/dev/random", O_RDONLY);
read(random, &seed, sizeof (seed));
unsigned int random_value;
if ((ecx & RDRAND_FLAG) == RDRAND_FLAG) {
char return_code = 0;
char count = 0;
// ASM for RDRAND
while(return_code != 1 && count < 10){
__asm__ volatile(
"rdrand %0 ; setc %1"
: "=r" (random_value), "=qm" (return_code)
);
count++;
}
} else {
// Twister if RDRAND not supported
init_genrand(seed);
random_value = genrand_int32();
}
return (random_value % (max + 1 - min)) + min;
}
void insert_linked_list(uint16_t value){
linked_list *new = malloc(sizeof(linked_list));
new->next = NULL;
new->value = value;
if(list_head == NULL){
list_head = new;
}else{
linked_list *cursor = list_head;
while(cursor->next != NULL){
cursor = cursor->next;
}
cursor->next = new;
}
list_size++;
}
void delete_position_from_linked_list(uint16_t position) {
linked_list *cursor_prev = list_head;
linked_list *cursor_current = list_head;
if(list_head == NULL || position >= list_size){
return;
}
if(position == 0){
list_head = cursor_current->next;
free(cursor_current);
}else{
for(uint16_t i = 0 ; i < position ; i++){
cursor_prev = cursor_current;
cursor_current = cursor_current->next;
}
cursor_prev->next = cursor_current->next;
free(cursor_current);
}
list_size--;
}
int16_t position_of_value_linked_list(uint16_t value){
linked_list *cursor_current = list_head;
if(list_head == NULL){
return -1;
}
uint16_t count = 0;
do{
if(cursor_current->value == value){
return count;
}
count++;
cursor_current = cursor_current->next;
}while(cursor_current != NULL);
return -1;
}
void light_switch_lock(light_switch *current_light_switch, sem_t *current_semaphore){
sem_wait(&current_light_switch->mutex);
current_light_switch->counter++;
if(current_light_switch->counter == 1){
sem_wait(current_semaphore);
}
sem_post(&current_light_switch->mutex);
}
void light_switch_unlock(light_switch *current_light_switch, sem_t *current_semaphore){
sem_wait(&current_light_switch->mutex);
current_light_switch->counter--;
if(current_light_switch->counter == 0){
sem_post(current_semaphore);
}
sem_post(&current_light_switch->mutex);
}
void *inserter_thread(){
printf("Inserter starting.\n");
fflush(stdout);
sleep(2); //Do this so you can easily see threads starting
while(1){
uint16_t new_number = get_random_number(MIN_NUMBER, MAX_NUMBER);
uint16_t sleep_time = get_random_number(MIN_SLEEP_INSERTER, MAX_SLEEP_INSERTER);
printf("Inserter going to sleep for %d seconds.\n", sleep_time);
fflush(stdout);
sleep(sleep_time);
printf("Inserter awake and waiting for access.\n");
fflush(stdout);
light_switch_lock(&insertion_light_switch, &no_insertions_semaphore);
sem_wait(&insertion_mutex);
printf("Inserter now has access.\n");
printf("Inserting number %u.\n", new_number);
fflush(stdout);
insert_linked_list(new_number);
sem_post(&insertion_mutex);
light_switch_unlock(&insertion_light_switch, &no_insertions_semaphore);
}
}
void *searcher_thread(){
printf("Searcher starting.\n");
fflush(stdout);
sleep(2); //Do this so you can easily see threads starting
while(1){
uint16_t search_value = get_random_number(MIN_NUMBER, MAX_NUMBER);
uint16_t sleep_time = get_random_number(MIN_SLEEP_SEARCHER, MAX_SLEEP_SEARCHER);
printf("Searcher going to sleep for %d seconds.\n", sleep_time);
fflush(stdout);
sleep(sleep_time);
printf("Searcher awake and waiting for access.\n");
fflush(stdout);
light_switch_lock(&search_light_switch, &no_searches_semaphore);
printf("Searcher has access.\n");
fflush(stdout);
int16_t value = position_of_value_linked_list(search_value);
if(value != -1){
printf("Search successful. Found value %d.\n", value);
} else {
printf("Search unsuccessful. Could not find value %u.\n", search_value);
}
fflush(stdout);
light_switch_unlock(&search_light_switch, &no_searches_semaphore);
}
}
void *deleter_thread(){
printf("Deleter starting.\n");
fflush(stdout);
sleep(2); //Do this so you can easily see threads starting
while(1){
uint16_t sleep_time = get_random_number(MIN_SLEEP_DELETER, MAX_SLEEP_DELETER);
printf("Deleter going to sleep for %d seconds.\n", sleep_time);
fflush(stdout);
sleep(sleep_time);
printf("Deleter awake and waiting for access.\n");
fflush(stdout);
sem_wait(&no_searches_semaphore);
sem_wait(&no_insertions_semaphore);
uint16_t delete_position = get_random_number(0, list_size);
printf("Deleter has access.\n");
printf("Deleting node at position %d.\n", delete_position);
fflush(stdout);
delete_position_from_linked_list(delete_position);
sem_post(&no_insertions_semaphore);
sem_post(&no_searches_semaphore);
}
}
int main(int argc, char **argv) {
// Storage for threads
pthread_t inserters[NUM_INSERTERS];
pthread_t searchers[NUM_INSERTERS];
pthread_t deleters[NUM_INSERTERS];
// Initialize light switches
sem_init(&insertion_light_switch.mutex, 1, 1);
insertion_light_switch.counter = 0;
sem_init(&search_light_switch.mutex, 1, 1);
search_light_switch.counter = 0;
// Initialize other semaphores and mutex
sem_init(&no_insertions_semaphore, 1, 1);
sem_init(&no_searches_semaphore, 1, 1);
sem_init(&insertion_mutex, 1, 1);
// Spin up threads
for(uint8_t i = 0 ; i < NUM_INSERTERS ; i++){
pthread_create(&inserters[i], NULL, inserter_thread, NULL);
}
for(uint8_t i = 0 ; i < NUM_SEARCHERS ; i++){
pthread_create(&searchers[i], NULL, searcher_thread, NULL);
}
for(uint8_t i = 0 ; i < NUM_DELETERS ; i++){
pthread_create(&deleters[i], NULL, deleter_thread, NULL);
}
// Wait for threads to join for completion.
for(uint8_t i = 0 ; i < NUM_INSERTERS ; i++){
pthread_join(inserters[i], NULL);
}
for(uint8_t i = 0 ; i < NUM_SEARCHERS ; i++){
pthread_join(searchers[i], NULL);
}
for(uint8_t i = 0 ; i < NUM_DELETERS ; i++){
pthread_join(deleters[i], NULL);
}
}
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