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My program is running and crashes at some point. After scouring over the code, I've come to the conclusion that I don't know enough to figure out why. Can someone offer some help? Below is main(). I'd be happy to post other source files, if you ask, just didn't want to post too much.

Thanks, Scott

int main(int argc, char *argv[])
{
//Global data goes here
    int rank, nprocs, i, j, k, rc, chunkSize; 
    double start, finish, difference;
    MPI_Status status;
    int *masterArray;
    int *slaveArray;
    int *subArray; 
    //Holder for subArrays for reassembly of subArrays
    int **arrayOfArrays; 
    //Beginning and ARRAYSIZE indices of array 
    Range range;

    //Begin execution

    //printf("%s", "Entering main()\n");
    MPI_Init(&argc, &argv); /* START MPI */

    /* DETERMINE RANK OF THIS PROCESSOR */
    MPI_Comm_rank(MPI_COMM_WORLD, &rank);
    //printf("My rank %d\n", rank);

    /* DETERMINE TOTAL NUMBER OF PROCESSORS */
    MPI_Comm_size(MPI_COMM_WORLD, &nprocs);
    //printf("Number of processes %d\n", nprocs);

    //Compute chunk size
    chunkSize = computeChunkSize(ARRAYSIZE, nprocs);
    //debug("%s: %d\n", "Chunk size", chunkSize);
    //                      N/#processes
    slaveArray = (int *)malloc(sizeof(int) * (chunkSize+1)); 

    //An array of int arrays (a pointer to pointers to ints)   
    arrayOfArrays = (int **)malloc(sizeof(int *) * (nprocs-1));

    /****************************************************************
     ****************************************************************
     ************************ MASTER id == 0 ************************
     ****************************************************************
     ***************************************************************/

    /* MASTER: rank is 0. Problem decomposition- here simple matter of splitting 
    the master array evenly across the number of worker bees */
    if(rank == MASTER)
    {
        debug("%s", "Entering MASTER process\n");

        //Begin timing the runtime of this application
        start = MPI_Wtime();
        debug("%s: %lg\n", "Start time", start);

        //Seed the random number generator
        srand(time(NULL));
        //Create random array of ints for mpi processing        
        masterArray = createRandomArray();

        debug("%s %d %s %d %s\n", "Master array of random integers from ", BEGIN, " to ", ARRAYSIZE-1, "\n");

        /*Create the subArray to be sent to the slaves- malloc returns a pointer 
        to void, so explicitly coerce the pointer into the desired type with a cast */
        subArray = (int *)malloc(sizeof(int) * (chunkSize+1)); 

        //Initalize range
        range = (Range){.begin = 0, .end = (ARRAYSIZE/(nprocs-1))};  
        debug("%s %d %s %d\n", "Range: ", range.begin, " to ", range.end);

        //Master decomposes the problem set: begin and end of each subArray sent to slaves
        for(i = 1;i < nprocs; i++)
        {
            //printf("%s", "Inside loop for Master send\n");

            range = decomposeProblem(range.begin, range.end, ARRAYSIZE, nprocs, i);

            debug("%s %d to %d%s", "Range from decomposition", range.begin, range.end, "\n");
            //Index for subArray
            k = 0;

            //Transfer the slice of the master array to the subArray
            for(j = range.begin; j < range.end; j++)
            {    
                subArray[k] = masterArray[j];
                //printf("%d\t", subArray[k]);
                k++;   
            }
            //printf("%s", "\n");
            //Show sub array contents
            debug("%s", "Showing subArray before master sends...\n");
            showArray(subArray, 0, k);

            //printf("%s %d%s", "Send to slave", i, " from master \n");
            debug("%s %d%s", "Send to slave", i, " from master \n");            
            /***************************************************************
            ****************************************************************
            ************************ MASTER: SEND **************************
            ****************************************************************
            ***************************************************************/
            //MPI_Send(buffer,count,type,dest,tag,comm)                 
            rc = MPI_Send(&subArray, chunkSize, MPI_INT, i, 0, MPI_COMM_WORLD);
        }
        //Blocks until the slaves finish their work and start sending results back to master
        /*MPI_Recv is "blocking" in the sense that when the process (in this case 
        my_rank == 0) reaches the MPI_Recv statement, it will wait until it 
        actually receives the message (another process sends it). If the other process 
        is not ready to Send, then the process running on my_rank == 0 will simply 
        remain idle. If the message is never sent, my_rank == 0 will wait a very long time!*/
        for(i = 1;i < nprocs; i++)
        {
            debug("%s %d%s ", "Receive from slave", i, " to master\n");         
            /***************************************************************
            ****************************************************************
            ************************ MASTER: RECEIVE ***********************
            ****************************************************************
            ***************************************************************/
            debug("Rank %d approaching master MPI_Probe.\n", rank);
            // Probe for an incoming message from process zero
            MPI_Probe(rank, 0, MPI_COMM_WORLD, &status);
            debug("Rank %d going by MPI_Probe.\n", rank);

            // When probe returns, the status object has the size and other
            // attributes of the incoming message. Get the size of the message
            MPI_Get_count(&status, MPI_INT, &chunkSize);

            rc = MPI_Recv(&slaveArray, chunkSize, MPI_INT, i, 0, MPI_COMM_WORLD, &status);

            debug("Slave %d dynamically received %d numbers from 0.\n", rank, chunkSize);
            //Store subArray in 2D array
            debug("%s", "Storing subArray in 2DArray...\n");

            arrayOfArrays[i-1] = slaveArray;
        }
        //rebuild entire sorted array from sorted subarrays
        reconstructArray(arrayOfArrays);
        //starting with smallest value, validate that each element is <= next element
        validateArray(arrayOfArrays);

        //Finish timing the runtime of this application 
        finish = MPI_Wtime();
        //Compute the runtime
        difference = finish-start;
        //Inform user
        debug("%s", "Exiting MASTER process\n");
        debug("%s %lg", "Time for completion:", difference);
    }
    /****************************************************************
     ****************************************************************
     ************************* End MASTER ***************************
     ****************************************************************
     ***************************************************************/

    /****************************************************************
     ****************************************************************
     ************************ SLAVE id > 1 **************************
     ****************************************************************
     ***************************************************************/
    else
    {
        debug("%s", "Entering SLAVE process\n");
        //by process id
        debug("%s %d%s", "Receive in slave", rank, " from master \n");

        debug("Rank %d approaching Slave MPI_Probe.\n", rank);
        // Probe for an incoming message from process zero

        MPI_Probe(MPI_ANY_SOURCE, 0, MPI_COMM_WORLD, &status);
        debug("Rank %d going by Slave MPI_Probe.\n", rank);
        // When probe returns, the status object has the size and other
        // attributes of the incoming message. Get the size of the message
        MPI_Get_count(&status, MPI_INT, &chunkSize);
        debug("Count %d and chunkSize %d after Slave MPI_Get_count.\n", rank, chunkSize);
        /***************************************************************
         ***************************************************************
         ******************** SLAVE: RECEIVE ***************************
         ***************************************************************
         ***************************************************************/
        rc = MPI_Recv(&subArray, chunkSize, MPI_INT, 0, 0, MPI_COMM_WORLD, &status);
        debug("%d dynamically received %d numbers from 0.\n", rank, chunkSize);

        /*Store the received subArray in the slaveArray for processing and sending back
            to master*/ 
        slaveArray = subArray;

        //Take a look at incoming subArray: size = N/#processes)
        debug("%s ", "Show the slaveArray contents in slave receive\n");
        debug("Before bubblesort: start %d, finish: %d\n", (rank-1) * chunkSize, rank * chunkSize);

        //showArray(slaveArray, (rank-1) * chunkSize, rank * chunkSize);
        //Running the actual sorting algorithm on the current slaves subArray
        //bubble(slaveArray, ARRAYSIZE);
        //Return sorted subArray back to the master by process id

        debug("%s %d%s", "Send from slave", i, " to master \n");

        /***************************************************************
         ****************************************************************
         ************************ SLAVE: SEND ***************************
         ****************************************************************
         ***************************************************************/
        //MPI_Send(buffer,count,type,dest,tag,comm) 
        rc = MPI_Send(&slaveArray, chunkSize, MPI_INT, 0, 0, MPI_COMM_WORLD);
        debug("%s", "Exiting SLAVE process\n");
    }
    /****************************************************************
     ****************************************************************
     ************************* END SLAVE ****************************
     ****************************************************************
     ***************************************************************/
    //Clean up memory
    //free(subArray);
    //free(masterArray);
    //free(slaveArray);
    //free(arrayOfArrays);
    rc = MPI_Get_count(&status, MPI_INT, &chunkSize);
    debug("Process %d: received %d int(s) from process %d with tag %d \n", rank, chunkSize, status.MPI_SOURCE, status.MPI_TAG);
    /* EXIT MPI */
    MPI_Finalize();
    debug("%s", "Exiting main()\n");
    return 0;
}
share|improve this question
2  
Scott, you have given much code to consider. Have you considered using some sort of debugging technique to narrow down the failure? Also, it might help if you would share what OS platform and compiler you are using; then perhaps I could suggest an appropriate debugger? Feel free to |edit| your question and add this detail. –  Mahonri Moriancumer Apr 29 '14 at 3:30
    
Most MPI crashes aren't related to MPI. You should try to test the pieces of your code in a serial fashion before assuming it's an MPI-related crash. It will be much easier to debug that way. –  merlin2011 Apr 29 '14 at 3:32
    
Could you say more about how to test this code in a serial way? Maybe give an example? thanks, Scott –  user3583629 Apr 30 '14 at 14:02

3 Answers 3

Check that chunkSize >= 0, nProcs >= 2, and that malloc does not return null. I mean, add code to do this every time and for every malloc, and exit if these conditions are not true -- not just put in temporary debugging.

This loop might overflow bounds:

for(j = range.begin; j < range.end; j++)
{    
    subArray[k] = masterArray[j];
    k++;   
}

You didn't show the code where masterArray is allocated. (and you didn't pass nprocs to that function either, so how can it match up with ARRAYSIZE/(nprocs-1) ?

Also, subArray has chunkSize+1 elements, but range.end is defined as ARRAYSIZE/(nprocs-1). Based on the code you've shown (which doesn't include ARRAYSIZE, nor how chunkSize and nprocs are actually calculated), there's no reason to believe that we will always have chunkSize+1 <= ARRAYSIZE/(nprocs-1).

To avoid random segfaults, you should always, always check that an array index is within the bounds of an array , before using the [] operator.

share|improve this answer
    
this answer would be perfect, if you added a section about available debugging tools. –  niklasfi Apr 29 '14 at 7:48
    
I actually use a commercial debugger and memory checker, so I'm not really familiar with the range of free tools besides knowing the names of gdb and valgrind. –  Matt McNabb Apr 29 '14 at 8:29
    
@Matt- Can you give me some help with what the array index bounds code might look like?? –  user3583629 Apr 30 '14 at 14:12
    
if ( k < 0 || k >= chunkSize + 1 ) { fprintf(stderr, "k=%d was out of range", k); exit(EXIT_FAILURE); }. Of course, make sure that chunkSize+1 here matches the number of elements you passed to malloc. It might even be smart to use a variable to help you store how many elements have been allocated. –  Matt McNabb Apr 30 '14 at 14:14
    
Good observations. So, in the top of the file where this main appears, I have #define ARRAYSIZE 10. Here is how I create the master array. int * createRandomArray() { int i; int *masterArray; //printf("Entering createRandomArray()\n"); masterArray = (int *)malloc(sizeof(int) * (ARRAYSIZE-1)); for(i = BEGIN;i < ARRAYSIZE;i++) { masterArray[i] = (rand() % (ARRAYSIZE - BEGIN)) + BEGIN; debug("%d ", masterArray[i]); } debug("\n"); //printf("\n Exiting createRandomArray()\n"); return masterArray; } –  user3583629 Apr 30 '14 at 14:45

I am using Linux Mint (Cinammon) and the gcc compiler via a Makefile. I am very interested in a debugging tool. I know how to debug a single app running in a single process, but I cannot figure out how to debug multiple processes like in MPI.

I look forward to some help, Scott

share|improve this answer

Ok, maybe it'd be easier to show specific moments in the code to help me figure this out. I tried to create a function that creates an int * array passed in by reference that tests whether array is null and whether it is the size I want it to be. Below that is the caller. One thing I noticed is that the sizeof(buffer) call doesn't return what I was thinking it would. So, how else can I make that check? Also, the caller, createRandomArray, is called by having an int * passed into it. Can you pass by reference as deep as you want? Am I using the correct syntax to make sure that the masterArray gets populated in the caller (main()) with call by reference?

void safeMalloc(int *buffer, int size, int line_num)
{
    buffer = (int *)malloc(sizeof(int) * size);
    //Test that malloc allocated at least some memory
    if(buffer == NULL) 
    {
        debug("ERROR: cannot allocate any memory for line %d\n", line_num);
        perror(NULL);
        exit(EXIT_FAILURE);
    }
    else
        debug("Successfully created the array through malloc()\n");
    //Test that malloc allocated the correct amount of memory
    if(sizeof(buffer) != size)
    {
        debug("ERROR: Created %d bytes array instead of %d bytes through malloc() on line %d.\n", sizeof(buffer), size, line_num);
        perror(NULL);
        exit(EXIT_FAILURE);
    }
}

void createRandomArray(int *masterArray)
{
    int i;
    debug("Entering createRandomArray()\n");
    safeMalloc(masterArray, ARRAYSIZE, 21);
    for(i = BEGIN;i < ARRAYSIZE;i++)
    {
        masterArray[i] = (rand() % (ARRAYSIZE - BEGIN)) + BEGIN;
        debug("%d ", masterArray[i]);
    }
    debug("\n");
    debug("\n Exiting createRandomArray()\n");
}
share|improve this answer

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