110

I have a bit of an issue with one of my projects.

I have been trying to find a well documented example of using shared memory with fork() but to no success.

Basically the scenario is that when the user starts the program, I need to store two values in shared memory: current_path which is a char* and a file_name which is also char*.

Depending on the command arguments, a new process is kicked off with fork() and that process needs to read and modify the current_path variable stored in shared memory while the file_name variable is read only.

Is there a good tutorial on shared memory with example code (if possible) that you can direct me to?

Thanks, bleepzter

  • 1
    You may consider using threads instead of processes. Then the whole memory is shared with no further tricks. – elomage Feb 4 '14 at 12:22
148

There are two approaches: shmget and mmap. I'll talk about mmap, since it's more modern and flexible, but you can take a look at man shmget (or this tutorial) if you'd rather use the old-style tools.

The mmap() function can be used to allocate memory buffers with highly customizable parameters to control access and permissions, and to back them with file-system storage if necessary.

The following function creates an in-memory buffer that a process can share with its children:

#include <stdio.h>
#include <stdlib.h>
#include <sys/mman.h>

void* create_shared_memory(size_t size) {
  // Our memory buffer will be readable and writable:
  int protection = PROT_READ | PROT_WRITE;

  // The buffer will be shared (meaning other processes can access it), but
  // anonymous (meaning third-party processes cannot obtain an address for it),
  // so only this process and its children will be able to use it:
  int visibility = MAP_SHARED | MAP_ANONYMOUS;

  // The remaining parameters to `mmap()` are not important for this use case,
  // but the manpage for `mmap` explains their purpose.
  return mmap(NULL, size, protection, visibility, -1, 0);
}

The following is an example program that uses the function defined above to allocate a buffer. The parent process will write a message, fork, and then wait for its child to modify the buffer. Both processes can read and write the shared memory.

#include <string.h>
#include <unistd.h>

int main() {
  char* parent_message = "hello";  // parent process will write this message
  char* child_message = "goodbye"; // child process will then write this one

  void* shmem = create_shared_memory(128);

  memcpy(shmem, parent_message, sizeof(parent_message));

  int pid = fork();

  if (pid == 0) {
    printf("Child read: %s\n", shmem);
    memcpy(shmem, child_message, sizeof(child_message));
    printf("Child wrote: %s\n", shmem);

  } else {
    printf("Parent read: %s\n", shmem);
    sleep(1);
    printf("After 1s, parent read: %s\n", shmem);
  }
}
  • 41
    This is why Linux is so frustrating for inexperienced devs. The man page doesn't explain how to actually use it, and there is no sample code. :( – bleepzter Apr 13 '11 at 22:46
  • 43
    Haha I know what you mean, but it's actually because we're not used to reading manpages. When I learned to read them and got used to them, they became even more useful than lousy tutorials with particular demonstrations. I remember I got a 10/10 in my Operating Systems course using nothing but manpages for reference during the exam. – slezica Apr 13 '11 at 22:51
  • 17
    shmget is a really old-fashioned, and some would say deprecated, way to do shared memory... Better to use mmap and shm_open, plain files, or simply MAP_ANONYMOUS. – R.. Apr 13 '11 at 23:29
  • 4
    @Mark @R You guys are right, I'll point that out in the answer for future reference. – slezica Apr 14 '11 at 21:16
  • 3
    Well, this answer became popular for some reason, so I decided to make it worth the read. It only took 4 years – slezica May 26 '17 at 20:16
25

Here is an example for shared memory :

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/ipc.h>
#include <sys/shm.h>

#define SHM_SIZE 1024  /* make it a 1K shared memory segment */

int main(int argc, char *argv[])
{
    key_t key;
    int shmid;
    char *data;
    int mode;

    if (argc > 2) {
        fprintf(stderr, "usage: shmdemo [data_to_write]\n");
        exit(1);
    }

    /* make the key: */
    if ((key = ftok("hello.txt", 'R')) == -1) /*Here the file must exist */ 
{
        perror("ftok");
        exit(1);
    }

    /*  create the segment: */
    if ((shmid = shmget(key, SHM_SIZE, 0644 | IPC_CREAT)) == -1) {
        perror("shmget");
        exit(1);
    }

    /* attach to the segment to get a pointer to it: */
    data = shmat(shmid, NULL, 0);
    if (data == (char *)(-1)) {
        perror("shmat");
        exit(1);
    }

    /* read or modify the segment, based on the command line: */
    if (argc == 2) {
        printf("writing to segment: \"%s\"\n", argv[1]);
        strncpy(data, argv[1], SHM_SIZE);
    } else
        printf("segment contains: \"%s\"\n", data);

    /* detach from the segment: */
    if (shmdt(data) == -1) {
        perror("shmdt");
        exit(1);
    }

    return 0;
}

Steps :

  1. Use ftok to convert a pathname and a project identifier to a System V IPC key

  2. Use shmget which allocates a shared memory segment

  3. Use shmat to attache the shared memory segment identified by shmid to the address space of the calling process

  4. Do the operations on the memory area

  5. Detach using shmdt

  • 6
    Why are you casting 0 into a void* instead of using NULL ? – Clément Péau Mar 28 '17 at 15:45
  • However this code doesn't handle deletion of shared memory. After program exits, one have to delete it manually via ipcrm -m 0. – bumfo Sep 16 at 7:15
11

These are includes for using shared memory

#include<sys/ipc.h>
#include<sys/shm.h>

int shmid;
int shmkey = 12222;//u can choose it as your choice

int main()
{
  //now your main starting
  shmid = shmget(shmkey,1024,IPC_CREAT);
  // 1024 = your preferred size for share memory
  // IPC_CREAT  its a flag to create shared memory

  //now attach a memory to this share memory
  char *shmpointer = shmat(shmid,NULL);

  //do your work with the shared memory 
  //read -write will be done with the *shmppointer
  //after your work is done deattach the pointer

  shmdt(&shmpointer, NULL);
8

try this code sample, I tested it, source: http://www.makelinux.net/alp/035

#include <stdio.h> 
#include <sys/shm.h> 
#include <sys/stat.h> 

int main () 
{
  int segment_id; 
  char* shared_memory; 
  struct shmid_ds shmbuffer; 
  int segment_size; 
  const int shared_segment_size = 0x6400; 

  /* Allocate a shared memory segment.  */ 
  segment_id = shmget (IPC_PRIVATE, shared_segment_size, 
                 IPC_CREAT | IPC_EXCL | S_IRUSR | S_IWUSR); 
  /* Attach the shared memory segment.  */ 
  shared_memory = (char*) shmat (segment_id, 0, 0); 
  printf ("shared memory attached at address %p\n", shared_memory); 
  /* Determine the segment's size. */ 
  shmctl (segment_id, IPC_STAT, &shmbuffer); 
  segment_size  =               shmbuffer.shm_segsz; 
  printf ("segment size: %d\n", segment_size); 
  /* Write a string to the shared memory segment.  */ 
  sprintf (shared_memory, "Hello, world."); 
  /* Detach the shared memory segment.  */ 
  shmdt (shared_memory); 

  /* Reattach the shared memory segment, at a different address.  */ 
  shared_memory = (char*) shmat (segment_id, (void*) 0x5000000, 0); 
  printf ("shared memory reattached at address %p\n", shared_memory); 
  /* Print out the string from shared memory.  */ 
  printf ("%s\n", shared_memory); 
  /* Detach the shared memory segment.  */ 
  shmdt (shared_memory); 

  /* Deallocate the shared memory segment.  */ 
  shmctl (segment_id, IPC_RMID, 0); 

  return 0; 
} 
  • This is good code, except I don't think it shows how to access the shared-memory segment by a client (by using shmget and shmat from a different process), which is kind of the whole point of shared memory... =( – étale-cohomology Aug 28 '17 at 2:44
7

Here's a mmap example:

#include <sys/mman.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>

/*
 * pvtmMmapAlloc - creates a memory mapped file area.  
 * The return value is a page-aligned memory value, or NULL if there is a failure.
 * Here's the list of arguments:
 * @mmapFileName - the name of the memory mapped file
 * @size - the size of the memory mapped file (should be a multiple of the system page for best performance)
 * @create - determines whether or not the area should be created.
 */
void* pvtmMmapAlloc (char * mmapFileName, size_t size, char create)  
{      
  void * retv = NULL;                                                                                              
  if (create)                                                                                         
  {                                                                                                   
    mode_t origMask = umask(0);                                                                       
    int mmapFd = open(mmapFileName, O_CREAT|O_RDWR, 00666);                                           
    umask(origMask);                                                                                  
    if (mmapFd < 0)                                                                                   
    {                                                                                                 
      perror("open mmapFd failed");                                                                   
      return NULL;                                                                                    
    }                                                                                                 
    if ((ftruncate(mmapFd, size) == 0))               
    {                                                                                                 
      int result = lseek(mmapFd, size - 1, SEEK_SET);               
      if (result == -1)                                                                               
      {                                                                                               
        perror("lseek mmapFd failed");                                                                
        close(mmapFd);                                                                                
        return NULL;                                                                                  
      }                                                                                               

      /* Something needs to be written at the end of the file to                                      
       * have the file actually have the new size.                                                    
       * Just writing an empty string at the current file position will do.                           
       * Note:                                                                                        
       *  - The current position in the file is at the end of the stretched                           
       *    file due to the call to lseek().  
              *  - The current position in the file is at the end of the stretched                    
       *    file due to the call to lseek().                                                          
       *  - An empty string is actually a single '\0' character, so a zero-byte                       
       *    will be written at the last byte of the file.                                             
       */                                                                                             
      result = write(mmapFd, "", 1);                                                                  
      if (result != 1)                                                                                
      {                                                                                               
        perror("write mmapFd failed");                                                                
        close(mmapFd);                                                                                
        return NULL;                                                                                  
      }                                                                                               
      retv  =  mmap(NULL, size,   
                  PROT_READ | PROT_WRITE, MAP_SHARED, mmapFd, 0);                                     

      if (retv == MAP_FAILED || retv == NULL)                                                         
      {                                                                                               
        perror("mmap");                                                                               
        close(mmapFd);                                                                                
        return NULL;                                                                                  
      }                                                                                               
    }                                                                                                 
  }                                                                                                   
  else                                                                                                
  {                                                                                                   
    int mmapFd = open(mmapFileName, O_RDWR, 00666);                                                   
    if (mmapFd < 0)                                                                                   
    {                                                                                                 
      return NULL;                                                                                    
    }                                                                                                 
    int result = lseek(mmapFd, 0, SEEK_END);                                                          
    if (result == -1)                                                                                 
    {                                                                                                 
      perror("lseek mmapFd failed");                  
      close(mmapFd);                                                                                  
      return NULL;                                                                                    
    }                                                                                                 
    if (result == 0)                                                                                  
    {                                                                                                 
      perror("The file has 0 bytes");                           
      close(mmapFd);                                                                                  
      return NULL;                                                                                    
    }                                                                                              
    retv  =  mmap(NULL, size,     
                PROT_READ | PROT_WRITE, MAP_SHARED, mmapFd, 0);                                       

    if (retv == MAP_FAILED || retv == NULL)                                                           
    {                                                                                                 
      perror("mmap");                                                                                 
      close(mmapFd);                                                                                  
      return NULL;                                                                                    
    }                                                                                                 

    close(mmapFd);                                                                                    

  }                                                                                                   
  return retv;                                                                                        
}                                                                                                     
  • open adds file I/O overhead. Use shm_open instead. – osvein Apr 7 '18 at 21:02
  • 1
    @Spookbuster, in some implementations of shm_open, open() is called under the covers, so I'll have to disagree with your assessment; here's an example: code.woboq.org/userspace/glibc/sysdeps/posix/shm_open.c.html – Leo Apr 9 '18 at 19:29
  • while some shm_open() implementations use open() under the hood, POSIX has lower requirements for the file descriptors produced by shm_open(). For instance, implementations aren't required to support I/O functions like read() and write() for shm_open() file descriptors, allowing certain implementations to make optimizations for shm_open() that can't be made for open(). If all you're going to do with it is mmap(), you should use shm_open(). – osvein Apr 9 '18 at 20:46
  • Most Linux-glibc setups make one such optimization by using tmpfs to back shm_open(). While the same tmpfs can usually be accessed through open(), there is no portable way to know its path. shm_open() let's you use that optimization in a portable manner. POSIX gives shm_open() potential to perform better than open(). Not all implementations are going to make use of that potential, but it's not going to perform worse than open(). But I agree that my claim that open() always adds overhead is too broad. – osvein Apr 9 '18 at 20:50

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