4

I'm trying to make a custom system call.

my system call takes 2 parameters struct buffer **mybuffer & int size.

it's imposed any change that happens to **mybuffer should reflect in the user-space, but it seems it doesn't work.

so I've seen somewhere else that i can use copy_to_user(void *dest, void *src, int size) to copy data from kernel space to user space.

in user-space i have a struct called buffer, also this struct appears the same in the system call.

typedef struct buffer {
int n;
}buffer;

    int main(void)
   {
     buffer **buf = malloc(sizeof(buffer *));
     int i = 0
for(;i<8;i++)
buf[i] = malloc(sizeof(buffer));
    long int sys = systemcall(801,buf,8)
//print out buf 
   return 0;
   }

In system call i have

asmlinkage long sys_something(buffer **buf,int size)
{
//allocate buffer same as it appears in int main
//fill buf with some data
for(i = 0; i<size,i++)
copy_to_user(buf[i],buf[i],sizeof(buffer));

I'm pretty sure that i'm doing something wrong. how actually to copy data from kernel space to user space ?

P.s. I'm using linux kernel 3.16.0

1
  • Having dest and src equal to buf[i] is definitely wrong. What kernel's data you want to copy? Pointer to these data should be used as the second argument to copy_to_user. Note also, because the first syscall's parameter is actually an array of pointers, you need to read these pointers to the kernel's (temporary) memory using copy_from_user, and then use pointers from that kernel's memory in copy_to_user call.
    – Tsyvarev
    Dec 8, 2015 at 16:34

1 Answer 1

13

The function copy_to_user is used to copy data from the kernel address space to the address space of the user program. For example, to copy a buffer which has been allocated with kmalloc to the buffer provided by the user.

EDIT: Your example is a little bit more complex, because you pass an array of pointers to the system-call. To access these pointers you have to copy the array buf to kernel space first using copy_from_user.

Thus, your kernel code should look like this:

asmlinkage long sys_something(buffer **buf, int size)
{
    /* Allocate buffers_in_kernel on stack just for demonstration.
     * These buffers would normally allocated by kmalloc.
     */
    buffer buffers_in_kernel[size];
    buffer *user_pointers[size]; 
    int i;
    unsigned long res;

    /* Fill buffers_in_kernel with some data */
    for (i = 0; i < size; i++)
        buffers_in_kernel[i].n = i;  /* just some example data */

    /* Get user pointers for access in kernel space. 
     * This is a shallow copy, so that, the entries in user_pointers 
     * still point to the user space.
     */
    res = copy_from_user(user_pointers, buf, sizeof(buffer *) * size);
    /* TODO: check result here */

    /* Now copy data to user space. */
    for (i = 0; i < size; i++) {
         res = copy_to_user(user_pointers[i], &buffers_in_kernel[i], sizeof(buffer));
         /* TODO: check result here */
    }
}

Last but not least, there is a mistake in your main function. At the first malloc call, it allocates only enough space for 1 pointer instead of 8. It should be:

int main(void)
{
  const int size = 8;
  buffer **buf = malloc(sizeof(buffer *) * size);
  for(int i=0; i<size; i++) buf[i] = malloc(sizeof(buffer));
  long int sys = systemcall(801,buf,size)
  //print out buf 
  return 0;
}
2
  • 1
    Btw copy_to_user(void *dst, const void *src, const int size); Anyway thanks :) you really did a great job Dec 12, 2015 at 4:13
  • Also i need to point out i tested my system call without implementing copy_from_user() macro & it copied the data to user space. Dec 12, 2015 at 4:20

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