Doubly freeing memory

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Vulnerabilities Table of Contents

ASDR Table of Contents

Description
Freeing or deleting the same memory chunk twice may - when combined with other flaws - result in a write-what-where condition.

Consequences


 * Access control: Doubly freeing memory may result in a write-what-where condition, allowing an attacker to execute arbitrary code.

Exposure period


 * Requirements specification: A language which handles memory allocation and garbage collection automatically might be chosen.
 * Implementation: Double frees are caused most often by lower-level logical errors.

Platform


 * Language: C, C++, Assembly
 * Operating system: All

Required resources

Any

Severity

High

Likelihood of exploit

Low to Medium

Doubly freeing memory can result in roughly the same write-what-where condition that the use of previously freed memory will.

Risk Factors
TBD

Examples
While contrived, this code should be exploitable on Linux distributions which do not ship with heap-chunk check summing turned on.


 * 1) include 
 * 2) include 


 * 1) define BUFSIZE1   512
 * 2) define BUFSIZE2   ((BUFSIZE1/2) - 8)

int main(int argc, char **argv) { char *buf1R1; char *buf2R1; char *buf1R2;

buf1R1 = (char *) malloc(BUFSIZE2); buf2R1 = (char *) malloc(BUFSIZE2); free(buf1R1); free(buf2R1);

buf1R2 = (char *) malloc(BUFSIZE1); strncpy(buf1R2, argv[1], BUFSIZE1-1); free(buf2R1); free(buf1R2); }

Related Attacks

 * Attack 1
 * Attack 2

Related Vulnerabilities

 * Using freed memory
 * Write-what-where condition

Related Controls

 * Implementation: Ensure that each allocation is freed only once. After freeing a chunk, set the pointer to NULL to ensure the pointer cannot be freed again. In complicated error conditions, be sure that clean-up routines respect the state of allocation properly. If the language is object oriented, ensure that object destructors delete each chunk of memory only once.

Related Technical Impacts

 * Technical Impact 1
 * Technical Impact 2