When performing pointer arithmetic, the size of the value to add to a pointer is automatically scaled to the size of the pointer's type. For instance, when adding a value to a pointer to a four-byte integer, the value is scaled by a factor of four and then added to the pointer. Failing to understand how pointer arithmetic works can lead to miscalculations that result in serious errors, such as buffer overflows.
Non-Compliant Code Example
In this non-compliant code example derived from [[Dowd]], integer values returned by parseint(getdata()) are stored into an array of INTBUFSIZE elements of type int called buf. If data is available for insertion into buf (which is indicated by havedata()) and buf_ptr has not been incremented past buf + sizeof(buf), an integer value is stored at the address referenced by buf_ptr. However, the sizeof operator returns the total number of bytes in buf which is typically a multiple of the number of elements in buf. This value is scaled to the size of an integer and added to buf. As a result, the check to make sure integers are not written past the end of buf is incorrect and a buffer overflow is possible.
int buf[INTBUFSIZE];
int *buf_ptr = buf;
while (havedata() && buf_ptr < buf + sizeof(buf)) {
*buf_ptr++ = parseint(getdata());
}
Compliant Solution
In this compliant solution, the size of buf is added directly to buf and used as an upper bound. The integer literal is scaled to the size of an integer and the upper bound of buf is checked correctly.
int buf[INTBUFSIZE];
int *buf_ptr = buf;
while (havedata() && buf_ptr < (buf + INTBUFSIZE)) {
*buf_ptr++ = parseint(getdata());
}
Non-Compliant Code Example
The following example is based on a flaw discovered in the OpenBsd operating system [[ref]]. An integer, offset, is added as an offset to a pointer of type struct big and the sum is then used as a destination address in a call to memset(). However, when offset is added to the struct big pointer, it is automatically scaled by the size of struct big, which is 32 bytes (assuming 4 byte integers, 8 byte long long integers, and no structure padding). This results in the call to memset() writing to unintended memory.
struct big {
unsigned long long member_1; /* typically 8 bytes */
unsigned long long member_2; /* typically 8 bytes */
unsigned long long member_3; /* typically 8 bytes */
int member_4; /* typically 4 bytes */
int member_5; /* typically 4 bytes */
};
/* ... */
size_t offset = sizeof(unsigned long long);
struct big *s = malloc(sizeof(struct big));
if (!s) {
/* Handle malloc() error */
}
memset(s + offset, 0, sizeof (struct big) - offset);
/* ... */
free(s);
Risk Assessment
Failure to understand and properly use pointer arithmetic can allow an attacker to execute arbitrary code.
Rule |
Severity |
Likelihood |
Remediation Cost |
Priority |
Level |
|---|---|---|---|---|---|
EXP08-A |
3 (high) |
2 (probable) |
1 (high) |
P6 |
L2 |
Examples of vulnerabilities resulting from the violation of this rule can be found on the CERT website.
Reference
[[Dowd]] Chapter 6, "C Language Issues" (Vulnerabilities)