Hi Richard,
If adding klee_assume's is an option, that's indeed the easiest thing to
do, as Dan suggests. You can also reduce the number of object
resolutions as described by Dan, but you risk missing the case where the
pointer is resolved to the buffer you're indexing.
One possible solution is to perform pointer tracking, as in our previous
system EXE. This fails to work as indented in some cases such as
pointer/integer conversions, but works well in the general case.
Best,
Cristian
On 10/01/2017 19:39, Dan Liew wrote:
Hi Richard,
On 10 January 2017 at 00:19, Richard Rutledge <[email protected]> wrote:
Consider the following program:
//-----------------------------------------------------------------
#include <stdlib.h>
#include <klee/klee.h>
#define BUFFER_SIZE 16
int main(int argc, char *argv[]) {
char *buffer = malloc(BUFFER_SIZE);
int index;
klee_make_symbolic(buffer, BUFFER_SIZE, "buffer");
klee_make_symbolic(&index, sizeof(index), "index");
if (buffer[index] == '\0') {
return 1;
}
return 0;
}
//-----------------------------------------------------------------
Given this program, klee generates approx 180 test cases (the actual number
seems to vary). I understand from prior correspondence here that klee forks
a path for each object which can be referenced. The forking occurs in
Executor::executeMemoryOperation().
My objective is to only generate inbounds values of buffer and index that
induce each of the two paths through the program. My attempts to modify
AddressSpace::resolve to only return the single desired memory object have
so far been disappointing (i.e. abject failure).
Any suggestions as to how I should proceed?
For this particular program you could add
```
klee_asume(index >= 0);
klee_assume(index < BUFFER_SIZE);
```
before doing any indexing.
If you want KLEE to always be in bounds you'll have to modify KLEE. It
sounds like you're looking roughly in the right area but this is a
part of the code I've not looked at in detail.
Looking at a glance what you need to change is
`Executor::executeMemoryOperation()`. You can see that it tries to
resolve to check if the pointer can resolve to a single memory object
(`AddressSpace::resolveOne()` then a few additional checks). If it
possible for the pointer to be out of bounds then an unbounded search
using `AddressSpace::resolve()` occurs. You can limit the bound by not
passing `0` as `maxResolutions` (arguably that should be a command
line option that defaults to 0). You could also just delete this code
and fork once and on the forked copy add the constraint that the
pointer doesn't resolve to the previously found object and then
terminate it as an error state for being out of bounds.
To be honest I find the code very hard to follow because the
ImmutableTree that stores the memory object is basically not documents
so I have no idea why the search in `AddressSpace::resolveOne()` is
done the way it is).
HTH,
Dan.
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