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This is the paragraph that is stated with our homework we had to do:

The simulation will use a dedicated thread to read user requests (processes) from an input source. The request thread allocates space for the request and adds it to the request queue. The simulation also has dedicated threads for handling each processor. Each processor thread removes a request from the request queue and simulates running the process by waiting for a specified amount of time. As the processor thread simulates the execution of the process, it will log the process number, the start time, and the end time to a log file. When the run time is complete, the processor thread frees the request and handles another request. The threads within the simulated multiprocessor computer require producer-consumer synchronization with a single producer (the request thread) and multiple consumers (the processor threads). The queue itself must be protected with mutexes so that items are removed and added in a consistent manner. The consumers must synchronize on the requests available in the queue, so that they do not attempt to remove nonexistent requests. The request queue is not bounded because the request thread dynamically allocates space for requests as they come in.

There may be several different process queues sending processes to specific processors or groups of processors best suited for the particular job. Processing requests may be allowed to have priorities or other characteristics that affect the way in which they were printed. This implementation keeps pending requests in a request queue and threads need to be properly synchronized. You are required to design and implement a proper synchronization mechanism with the requirement that the queue can grow arbitrarily large.


#include<stdio.h>
#include<pthread.h>
#include<semaphore.h>
#include<string.h>
#include<stdlib.h>
#include<malloc.h>
#include<unistd.h>
#include<time.h>

typedef struct pr_struct
{
    int owner;
    int burst_time;
    struct pr_struct *next;

} prcmd_t;
static prcmd_t *pr_head=NULL;
static prcmd_t *pr_tail=NULL;
static int pending_request=0;
static pthread_mutex_t prmutex=PTHREAD_MUTEX_INITIALIZER;

void displayQ();//this displays the queue
void initializeData();//initializes the data for the program
void *get_request(void *args);//to be calls as a thread to enqueue input requests
void *producer(void *args);//which removes a request from the process request queue and runs it
int get_number_request();//returns the number of request
int add_queue(prcmd_t *);//adds a node at the end of the request queue
int remove_queue(prcmd_t **);//removes a node for the queue


sem_t empty;//semaphores
#define EXIT 1
#define MAX_PROCS 5
#define TRUE 1

char outbaseStr [100];
int numProcessors;
FILE *outLog=NULL;
FILE *file=NULL;
FILE *outFile=NULL;
FILE *temp=NULL;
pthread_t processor;//Producer Thread ID
//pthread_t consumer[MAX_PROCS];//consumer thread ID
pthread_t consumer;

int main(int argc, char *argv[])
{
    /* Initialize Data */
    initializeData();

    printf("argc equals %d\n", argc);
    int num_processors=atoi(argv[1]);
    int case_num=atoi(argv[2]);

    printf("num_processors equals %d\n\n", num_processors);

    switch(case_num)
    {
    case 1:
        //printf("case 1\n");
        /* Reading in from the text  */
        file = fopen("temp.txt", "wr");

        /* fopen returns 0, the NULL pointer, on failure  */
        if(file==0||file==NULL)
        {
            printf("Error: couldn't open the file\n");
            exit(EXIT);
        }

        int num=3;
        int a;

        for(int i=num;i<argc;i++)
        {
            if(i%2==0)
            {
                a=atoi(argv[i]);
                //printf("(a)argv[%d] equals %d\n", i, a);
            }
            else
            {

                //printf("argv[%d] equals %d\n", i, atoi(argv[i]));
                fprintf(file, "%d %d\n", a, atoi(argv[i]));
            }
        }


        fclose(file);
        /* Create the producer thread  */
        pthread_create(&processor, NULL, get_request, (void *)file);

        break;
    case 2:

        //char filename[100];
        //filename=argv[3];
        printf("usage: %s filename\n", argv[3]);


        /* Reading in from the text  */
        file = fopen(argv[3], "r");

        /* fopen returns 0, the NULL pointer, on failure  */
        if(file==0||file==NULL)
        {
            printf("Error: couldn't open the file\n");
            exit(EXIT);
        }


        /* Create the producer thread  */
        pthread_create(&processor, NULL, get_request, (void *)file);

        break;
    default:
        printf("Error: should be either case 1 or case 2\n");
        exit(EXIT);
        break;
    }

    pthread_join(processor, NULL);


    displayQ();



    for(int i=0;i<num_processors;i++)
    {
        sprintf(outbaseStr, "%s.%ld", "processor.out", (long)(i+1));
        printf("outbaseStr equals %s\n", outbaseStr);
        outLog=fopen(outbaseStr, "w");
        if(outLog==NULL)
        {
            printf("Error: couldn't open the file\n");
            exit(EXIT);
        }

printf("debug\n");

//***************************************************************************************/
//THIS IS THE LINE OF CODE IM TALKING ABOUT
//***************************************************************************************/
        // Create the consumer threads
        pthread_create(&consumer, NULL, (void *)processor, (void *)outLog);
        //pthread_create(&consumer[i], NULL, (void *)processor, (void *)outLog);
    }


printf("after the for loop");

    for(int i=numProcessors-1;i==0;i++)
    {
        pthread_join(consumer[i], NULL);
    }


    fclose(file);

    //then theres a remove temp.txt
    if(remove("temp.txt")==0)
    {
        perror("error deleting the file");
        return 0;
    }




}
void initializeData()
{
    printf("initializeData\n");
    //Create the empty semaphore and initialize it
    sem_init(&empty, 0, MAX_PROCS);

//  pthread_attr_init(attr);
}
void *get_request(void *argv)//this produces a queue
{
    printf("get_request\n");

    prcmd_t *process;

    while(!feof(file))//if num=0 that means there are no queues and if it is zero you can't consume 0 queues
    {
        process=(prcmd_t *)malloc(sizeof(prcmd_t));
        fscanf(file, "%d %d", &process->owner, &process->burst_time);

        add_queue(process);

        int num=get_number_request();
        printf("num equals %d\n\n", num);
    };



}
void *producer(void *argv)//this consumes a queue
{

//  prcmd_t *process;
//  process=(prcmd_t *)malloc(sizeof(prcmd_t));

    printf("producer");
//  while(TRUE)
//  {

//      printf("%d %d\n", process->owner, process->burst_time);

        /* this sleep for seconds */
//      sleep(process->burst_time);




        /* this is where the sleeping from the file will go  */
        //sleep();

        /* acquire the empty lock */
//      sem_wait(&empty);
        /* acquire the mutex lock  */
//      pthread_mutex_lock(&prmutex);

        /* remove an linkedlist from the queue  */
        //remove_queue();

        /* release the mutex lock */
//      pthread_mutex_unlock(&prmutex);
        /* signal empty */
//      sem_post(&empty);

//  }
//  printf("the end of the producer");
}
int get_number_request()
{
    return pending_request;
}
int add_queue(prcmd_t *node)
{
    prcmd_t *temp;
    temp=node;


    pthread_mutex_lock(&prmutex);

    //printf("add_queue\n");


    //printf("%d %d\n", temp->owner, temp->burst_time);

    /* adding a linkedlist to a queue */
    if(pr_head==NULL)//then pr_tail==NULL
    {
        //printf("pr_head==NULL\n");

        temp->next=NULL;
        pr_head=temp;
        pr_tail=temp;
    }
    else
    {
        //printf("pr_head!=NULL\n");
        temp->next=NULL;
        pr_tail->next=temp;
        pr_tail=temp;
    }


    pending_request++;
    pthread_mutex_unlock(&prmutex);
    //printf("add_queue success\n");
    return(0);
}
void displayQ()
{
    printf("\n\ndisplayQ\n");

    prcmd_t *process=pr_head;

//      printf("%d %d\n", pr_head->owner, pr_head->burst_time);
//      pr_head=pr_head->next;
//      printf("%d %d\n", pr_head->owner, pr_head->burst_time);

    do
    {
        printf("%d %d\n", process->owner, process->burst_time);
        process=process->next;

    }while(process!=NULL);


}

Every time I run the code I keep getting a segmentation fault: core dump when my

pthread_create(&consumer[i], NULL, (void *)processor, (void *)outLog)

is called. Even if I un-comment out the line and switch it with

pthread_create(&(consumer[i]), NULL, (void *)processor, (void *)outLog);

it still gives me the same exact error and I can't seem to get past it, so I can start working on the rest of the program.

My questions are:

  1. Would anybody have any idea on how to figure out why my program keeps give me a segmentation fault: core dump when I run my consumer thread?

  2. What would I have to add to my producer function to get that in a consuming mode?

share|improve this question

1 Answer 1

pthread_create takes a function pointer as its third parameter. You are passing it an pthread_t value. You need to pass it a function pointer, same as you did in your earlier calls.

Any time that you have to add a mysterious cast such as (void *), you really need to make sure that you are doing the right thing, as you are telling the compiler you know what you are doing.

share|improve this answer
    
it gave me a warning about the function not being passed correctly but with the (void *) it didn't give me the warning again –  Jonathan May 8 at 3:13
    
The warnings are there for a reason. By covering it up with a (void *) cast you are saying "I know this doesn't look like a function but trust me that it really is a function" –  The Dark May 8 at 3:23
    
yeah it was very confusing to the fact that we have to keep the variables the way the program is stated. All the variable are easy to get switched around. i knew it should have looked like the other pthread_create but i couldn't figure it out till now, thanks! –  Jonathan May 8 at 3:29

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