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Working on an assignment where the specs ask for a multithreaded c program where jobs(whose only function is to sleep) are created by a set of 4 threads, simulated being on the cpu by 8 threads, and simulated being in io by 4 more threads. After they run on io they are placed on a finish queue and picked up by the create threads to be freed. I can elaborate more if needed. Currently were getting segmentation faults(which I know tends to be pointer errors) but when running the gdb debugger on it I found one of the seg faults is being caused by locking in the cpu threads. Code:

#include <stdio.h>
#include <stdlib.h>
#include <pthread.h>
#include <unistd.h>

typedef struct {
    int ID;
    int current_phase;
    int cpu_dur;
    int io_dur;
    int is_completed;
} job;

struct queueNode {
    job *data;
    struct queueNode* next;
};

struct queue {
    int size;
    struct queueNode *front;
    struct queueNode *rear;
};

#define NUM_CREATE_THREADS 4
#define NUM_RUN_THREADS 8
#define NUM_IO_THREADS 4
#define NUM_JOBS 10
int jobsCreated;
int jobsCompleted;
int isCompleted;
pthread_mutex_t cpu_mutex;
struct queue * rdy_q;
struct queue * io_q;
struct queue * f_q;


void add(struct queue *q, job *value) {
    struct queueNode *newPtr;

    newPtr = malloc(sizeof(struct queueNode));
    if (newPtr != NULL) {
        newPtr->data = value;
        newPtr->next = NULL;
        if (q->front == NULL) {
            q->front = newPtr;
        } else {
            q->rear->next = newPtr;
        }
        q->rear = newPtr;
        q->size = q->size + 1;
    }
    else {
        printf("no memory");
    }
}

job *dequeue(struct queue *q) {
    job * value;
    struct queueNode *tempPtr;

    if (q->front == NULL) {
        return NULL;
    }
    value = q->front->data;
    tempPtr = q->front;
    q->front = q->front->next;
    if (q->front == NULL)
        q->rear = NULL;
    free (tempPtr);
    q->size--;

    return value;
}

void show(struct queue *q) {
    int i;
    struct queueNode *current = q->front;
    printf("(");
    for (i = 0; i < q->size - 1; i++) {
        if (current != NULL) {
            printf("%d, ", current->data->ID);
            fflush(stdout);
            current = current->next;
        }
    }
    if (current != NULL) 
        printf("%d", current->data->ID);
    printf(")\n");
}

void *create_finish(void *tid) {
    job *j;

    while (!isCompleted) {

        pthread_mutex_lock(&cpu_mutex);
        if (jobsCreated < NUM_JOBS) {
            jobsCreated++;
            pthread_mutex_unlock(&cpu_mutex);

            j = (job*)malloc(sizeof(job));
            j->ID = jobsCreated;
            j->current_phase = 1;
            j->cpu_dur = 1;
            j->io_dur = 2;
            j->is_completed = 0;

            pthread_mutex_lock(&cpu_mutex);
            add(rdy_q, j);
            pthread_mutex_unlock(&cpu_mutex);
            printf("Created job %d\n", (int) jobsCreated);
            sleep(2);
        }
        pthread_mutex_trylock(&cpu_mutex);
        pthread_mutex_unlock(&cpu_mutex);

        pthread_mutex_lock(&cpu_mutex);
        if (f_q->front != NULL) {
            j = dequeue(f_q);
            free(j);
            jobsCompleted++;
            if (jobsCompleted == NUM_JOBS) {
                isCompleted = 1;
            }
        }
        pthread_mutex_unlock(&cpu_mutex);
    }
}



void *run_cpu(void *tid) {
    job *j;

    while(!isCompleted) {
        pthread_mutex_lock(&cpu_mutex);
        if (rdy_q->front != NULL) {
            j = dequeue(rdy_q);
            pthread_mutex_unlock(&cpu_mutex);
        } else {
            pthread_mutex_unlock(&cpu_mutex);
            continue;
        }
        j->current_phase = 2;
        printf("Thread %d running job %d in cpu for %d seconds\n", (int) tid, j->ID, j->cpu_dur);
        sleep(j->cpu_dur);
        pthread_mutex_lock(&cpu_mutex);
        add(io_q, j);
        pthread_mutex_unlock(&cpu_mutex);
    }
}

void *run_io(void *tid) {
    job *j;

    while(!isCompleted) {
        pthread_mutex_lock(&cpu_mutex);
        if (io_q->front != NULL) {
            j = dequeue(rdy_q);
            pthread_mutex_unlock(&cpu_mutex);
        } else {
            pthread_mutex_unlock(&cpu_mutex);
            continue;
        }
        j->current_phase = 3;
        printf("Thread %d running job %d in IO for %d seconds\n", (int) tid, j->ID, j->io_dur);
        sleep(j->io_dur);
        pthread_mutex_lock(&cpu_mutex);
        add(f_q, j);
        pthread_mutex_lock(&cpu_mutex);
    }
}

int main() {
    pthread_t create_threads[NUM_CREATE_THREADS];
    pthread_t run_threads[NUM_RUN_THREADS];
    pthread_t io_threads[NUM_IO_THREADS];

    rdy_q = (struct queue*)malloc(sizeof(struct queue));
    io_q = (struct queue*)malloc(sizeof(struct queue));
    f_q = (struct queue*)malloc(sizeof(struct queue));

    pthread_mutex_init(&cpu_mutex, NULL);

    int rc;
    int t;

    printf("starting create threads...\n");
    for (t = 0; t < NUM_CREATE_THREADS; t++) {
        rc = pthread_create(&create_threads[t], NULL, create_finish, (void*) t);
        if (rc) {
            printf("error: received code %d from thread...\n", rc);
            exit(-1);
        }
    }

    printf("starting run threads...\n");
    for (t = 0; t < NUM_RUN_THREADS; t++) {
        rc = pthread_create(&run_threads[t], NULL, run_cpu, (void*) t);
        if (rc) {
            printf("error: received code %d from thread...\n", rc);
            exit(-1);
        }
    }

    printf("starting IO threads...\n");
    for (t = 0; t < NUM_IO_THREADS; t++) {
        rc = pthread_create(&io_threads[t], NULL, run_io, (void*) t);
        if (rc) {
            printf("error: received code %d from thread...\n", rc);
            exit(-1);
        }
    }

    for (t = 0; t<NUM_CREATE_THREADS;t++) {
        pthread_join(create_threads[t], NULL);
    }
    for (t=0; t<NUM_RUN_THREADS; t++) {
        pthread_join(run_threads[t], NULL);
    }
    for (t=0; t<NUM_IO_THREADS; t++) {
        pthread_join(io_threads[t], NULL);
    }

    pthread_mutex_destroy(&cpu_mutex);
    pthread_exit(NULL);
}

If someone can help with even one of the segmentation faults I would be very grateful. The concurrency involved in this assignment is making my head spin a bit.

share|improve this question
    
This is not a question. Try to use a debugger or some other means to step through your code. Voting to close. –  Jens Gustedt May 10 '14 at 7:51
    
I have and the rest of my group has for over a week now. We can pinpoint lines with faults but can't pinpoint the reasons for them. I just wanted to get a fresh pair of eyes on the code. –  eatinasandwich May 10 '14 at 18:20

1 Answer 1

You've, at least, two critical issues in your code:

Line 160 (note you're using the wrong queue):

    j = dequeue(rdy_q);

Should be:

    j = dequeue(io_q);

And:

Line 169 (note you're locking twice):

    pthread_mutex_lock(&cpu_mutex);
    add(f_q, j);
    pthread_mutex_lock(&cpu_mutex);

Should be:

    pthread_mutex_lock(&cpu_mutex);
    add(f_q, j);
    pthread_mutex_unlock(&cpu_mutex);
share|improve this answer
    
Thanks. Fixed those and theres still errors but I'm glad to have a second set of eyes on this. Do you know what possible reasons there are for getting an error when trying to acquire a lock are? At this point it seems to stop at 137. The error says "Assertion 'mutex->__data.__owner == 0' failed. –  eatinasandwich May 10 '14 at 17:40
    
Can you please append your current code (including all the changes you performed) to the bottom of your question? –  threadp May 11 '14 at 7:45

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