Freeing memory multiple times has similar consequences to accessing memory after it is freed. The underlying data structures that manage the heap can become corrupted in a way that could introduce security vulnerabilities into a program. These types of issues are referred to as double-free vulnerabilities. In practice, double-free vulnerabilities can be exploited to execute arbitrary code. For instance, VU#623332, which describes a double-free vulnerability in the MIT Kerberos 5 function krb5_recvauth(), is one example. To eliminate double-free vulnerabilities, it is necessary to guarantee that dynamic memory is freed only once. Programmers should be wary when freeing memory in a loop or conditional statement, ; if coded incorrectly, these constructs can lead to double-free vulnerabilities.
Non-
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Compliant Code Example
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In this example, the memory referred to by x
may freed twice: once if error_condition
is true and again at the end of the code.
Code Block |
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x = malloc (number * sizeof(int)); if (x == NULL) { /* Handle Allocation Error */ } /* ... */ if (error_conditon == 1) { /* Handle Error Condition*/ free(x); } /* ... */ free(x); |
Compliant Solution
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Only free a pointer to dynamic memory referred to by x once. This is accomplished by removing the call to free()
in the section of code executed when error_condition
is true.
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- VU#623332 http://www.kb.cert.org/vuls/id/623332
- MIT krb5 Security Advisory 2005-003 http://web.mit.edu/kerberos/www/advisories/MITKRB5-SA-2005-003-recvauth.txt
- OWASP, Double Free http://www.owasp.org/index.php/Double_Free