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I'm working on assignment where the professor is asking for a solution to solve the dinning philosopher problem using semaphores.

Here is my code so far:

#include <sys/types.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <semaphore.h>

#define MAX_THINKING_TIME 1500  /* maximum thinking time in milliseconds */
#define MIN_THINKING_TIME 1000  /* minimum thinking time in milliseconds */
#define MAX_EATING_TIME   1000  /* maximum eating time in milliseconds */
#define MIN_EATING_TIME   750   /* minimum eating time in milliseconds */

/*
 * Macros to encapsulate the POSIX semaphore functions.
 */
#define semaphore_create(s,v)   sem_init( &s, 0, v )
#define semaphore_wait(s)           sem_wait( &s )
#define semaphore_signal(s)         sem_post( &s )
#define semaphore_release(s)    sem_destroy( &s )
typedef sem_t semaphore;

// Each chopstick is represented by a semaphore (shared between all processes).
semaphore *chopstick;

int NUM_PHILOSOPHERS; /* number of philosophers */
int NUM_REPETITIONS;  /* number of cycles */

/*
 * Generating a random number within a range.
 */
unsigned int randr(unsigned int min, unsigned int max)
{
    double scaled = (double)rand()/RAND_MAX;
    return (max - min +1) * scaled + min;
}

/*
 * To pick up his chopsticks, a philosopher does a semaphore wait on each.
 * Alternating order prevents deadlock.
 */
void pickup_chopsticks(int index)
{
    if(index % 2 == 0) /* Even number: Left, then right */
    {
        semaphore_wait(chopstick[(index+1) % NUM_PHILOSOPHERS]);
        printf("Philosopher #%d: I am picking up the left chopstick!\n", index+1);
        semaphore_wait(chopstick[index]);
        printf("Philosopher #%d: I am picking up the right chopstick!\n", index+1);
    }
    else /* Odd number: Right, then left */
    {
        semaphore_wait(chopstick[index]);
        printf("Philosopher #%d: I am picking up the right chopstick!\n", index+1);
        semaphore_wait(chopstick[(index+1) % NUM_PHILOSOPHERS]);
        printf("Philosopher #%d: I am picking up the left chopstick!\n", index+1);
    }
}

/*
 * To drop his chopsticks, a philosopher does a semaphore signal on each.
 * Order does not matter.
 */
void drop_chopsticks(int index)
{
    printf("Philosopher #%d: I am dropping the right chopstick!\n", index+1);
    semaphore_signal(chopstick[index]);
    printf("Philosopher #%d: I am dropping the left chopstick!\n", index+1);
    semaphore_signal(chopstick[(index+1) % NUM_PHILOSOPHERS]);
}

/*
 * Simulate a philosopher - endlessly cycling between eating and thinking
 * until his "life" is over.
 */
void start_philosopher(int index)
{
    int i; // A counter.

    for(i = 0; i < NUM_REPETITIONS; i++)
    {
        /* Hungry */
        printf("Philosopher #%d (Cycle #%d): I am hungry!\n", index+1, i+1);
        pickup_chopsticks(index);

        /* Eating */
        printf("Philosopher #%d (Cycle #%d): I am eating!\n", index+1, i+1);
        usleep(1000 * randr(MIN_EATING_TIME, MAX_EATING_TIME));
        drop_chopsticks(index);

        /* Thinking */
        printf("Philosopher #%d (Cycle #%d): I am thinking!\n", index+1, i+1);
        usleep(1000 * randr(MIN_THINKING_TIME, MAX_THINKING_TIME));
    }

    printf("Philosopher #%d: I am dead!\n", index+1);
    exit(0);
}

/*
 * The main function.
 */
int main(int argc, char *argv[])
{

    // If the input arguments are not 2 elements, display a message and return.
    if(argc != 3)
    {
        printf("You have to insert arguments in the form:\n");
        printf("Number_of_Philosopher Number_of_repeats\n");
        return -1;
    }

    // Set value of NUM_PHILOSOPHERS and NUM_REPETITIONS from the user input.
    NUM_PHILOSOPHERS = atoi(argv[1]);
    NUM_REPETITIONS  = atoi(argv[2]);
    int i; // A counter.

    // Allocate memory for the semaphores.
    chopstick = malloc(NUM_PHILOSOPHERS * sizeof(semaphore));

    // Create semaphores to represent "one user at a time" chopsticks.
    for(i = 0; i < NUM_PHILOSOPHERS; i++)
        semaphore_create(chopstick[i], 1);

    // Create n processes for n philosophers
    for(i = 0; i < NUM_PHILOSOPHERS; i++)
    {
        if(fork() == 0) start_philosopher(i);
        else wait();
    }
    // Release semaphore resources.
    for(i = 0; i < NUM_PHILOSOPHERS; i++)
        semaphore_release(chopstick[i]);

    // Free the memory.
    free(chopstick);

    return 0;
}

and when I run it, I got the following:

$ ./run 2 2
Philosopher #1 (Cycle #1): I am hungry!
Philosopher #1: I am picking up the left chopstick!
Philosopher #1: I am picking up the right chopstick!
Philosopher #1 (Cycle #1): I am eating!
Philosopher #1: I am dropping the right chopstick!
Philosopher #1: I am dropping the left chopstick!
Philosopher #1 (Cycle #1): I am thinking!
Philosopher #1 (Cycle #2): I am hungry!
Philosopher #1: I am picking up the left chopstick!
Philosopher #1: I am picking up the right chopstick!
Philosopher #1 (Cycle #2): I am eating!
Philosopher #1: I am dropping the right chopstick!
Philosopher #1: I am dropping the left chopstick!
Philosopher #1 (Cycle #2): I am thinking!
Philosopher #1: I am dead!
Philosopher #2 (Cycle #1): I am hungry!
^Z
[6]+  Stopped                 ./run 2 2

As you can see, I have two problems:

  • Process n+1 is not executing unless process n is done.
  • In previous test of running the program, it's being stuck at when the second philosopher is requesting for picking up the chopsticks. It seems that the semaphore is not signaled and the philosopher is waiting for a signal.

Can you please help me to fix the program?

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2 Answers 2

up vote 1 down vote accepted

Problem (1) is solved by moving the wait() outside the loop performing the fork.

Problem (2) is solved by allocating the memory using mmap() with the MAP_SHARED flag to allow it to be shared amongst the children, and using the sem_init(&s, 1, v) option for the sem_init call - using the 0 as the second option means that it is for intra-process (i.e. in the same pid, without being a child using fork).

chopstick = mmap(0, NUM_PHILOSOPHERS * sizeof(semaphore), PROT_READ | PROT_WRITE, MAP_SHARED | MAP_ANONYMOUS, -1, 0);
share|improve this answer
    
Should I include some headers to use PROT_READ, PROT_WRITE, MAP_SHARED, and MAP_ANONYMOUS? –  Eng.Fouad Nov 25 '11 at 18:26
    
I found it. #include <sys/mman.h> –  Eng.Fouad Nov 25 '11 at 18:28
    
nice, this works great. But when the program finishes, it prints Segmentation fault. –  Eng.Fouad Nov 25 '11 at 18:31
    
Well, I just remove free(chopstick); and it solves the problem. Thanks :) –  Eng.Fouad Nov 25 '11 at 18:38
    
Apologies, I didn't add that you need to use munmap(chopstick, NUM_PHILOSOPHERS * sizeof(semaphore)) to free the memory correctly! –  Petesh Nov 25 '11 at 19:01

In the loop where you fork new processes, the new parent process (where fork returns non-zero) you wait for the new process to finish. Drop the else and call wait outside the loop.

share|improve this answer
    
Should I call wait() more than one time? –  Eng.Fouad Nov 25 '11 at 18:18
1  
Yes, you need to call wait() in a loop at the very bottom (before free(chopstick), NUM_PHILOSOPHERS times. Each wait cleans up after one child. –  zwol Nov 25 '11 at 18:21

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