It is very possible. I came up with a solution that is likely not optimal but shows that it can be done. First break it apart into two problems: reversing the next pointers and reversing the random pointers.

Reversing the next pointers:

```
node* last = NULL;
node* current = head;
node* next = head->next;
while (current != NULL)
{
current->next = last;
last = current;
current = next;
if (current != NULL)
next = current->next;
}
head = last
```

Reversing the random list is a bit trickier, just because we do not have a list of all of the heads of random pointer chains, but we can find the ends of them (the nodes will a NULL random pointer). We will need several helper functions to do it. The first is one to reverse a random list. We largely copy the code from above. Note that we are setting the end of the chain to be a special value. This stops us from re-reversing a list. See discussion in the comments for an explanation.

```
node* chainTail = malloc(1); //mallocing here to get a unique pointer
void reverseRandom(node* rhead)
{
node* last = chainTail;
node* current = rhead;
node* next = rhead->random;
while (current != NULL)
{
current->random = last;
last = current;
current = next;
if (current != NULL)
next = current->random;
}
}
```

We also need a helper function to find the parent of a node (or return NULL if there is none). We will do a dumb linear search:

```
node* findParent(node* target)
{
node* candidate = head;
while ((candidate != NULL) && (candidate->random != target))
candidate = candidate->next;
return candidate;
}
```

Now we just walk the list, find any nodes that have a random value of NULL (our chain tails), find their chain heads, and reverse the chains:

```
node* current = head; //Current node in a linear walk looking for chain tails
while (current != NULL)
{
if (NULL == current->random)
{
//current is the tail of a random chain, lets find the head
node* curr = current; //Current node in the search for the chain hean
node* parent = findParent(curr);
while (parent != NULL)
{
curr = parent;
parent = findParent(curr);
}
//At this point, curr is the head of the random chain, so reverse it
reverseRandom(curr);
}
current = current->next;
}
//Clean up chainTail pointers
node* current;
for (current = head; current != NULL; current = current->next)
{
if (current->random == chainTail)
{
current->random = NULL;
}
}
free(chainTail); //Stop a memory leak if this is not a global
```

Standard disclaimer: I have not run this code. It may have bugs. I started to get sleepy near the end, so I may have made a logical error, but it seems to me to work.

Also, if you are looking to put this into production, don't. This code runs somewhere around O(n^3). This is very likely not the fastest solution. It does use constant space (though even that can probably be reduced by in-lining and aggressive variable sharing).