CWE-762: Mismatched Memory Management Routines | Glexia
CWE-762 (Mismatched Memory Management Routines) weakness overview with consequences, detection methods, mitigations, related CVEs and MITRE ATT&CK context.
Glexia's Take · Automated analysis
CWE-762: Mismatched Memory Management Routines
Mismatched Memory Management Routines represents a recurring weakness pattern that can create exploitable paths when design, validation, or implementation controls are missing.
Executive Impact
- Integrity,Availability,Confidentiality: Modify Memory,DoS: Crash, Exit, or Restart,Execute Unauthorized Code or Commands
Developer Pattern
CWE-762 is the kind of defect developers can usually prevent with explicit validation, safer framework defaults, and tests that exercise hostile input or unsafe state transitions.
Automation confidence
high confidence from CWE-762, 4.20.
Generated from the cited source records. This long-tail analysis has not been individually reviewed by a named human.
Official CWE Definition
CWE-762: Mismatched Memory Management Routines
The product attempts to return a memory resource to the system, but it calls a release function that is not compatible with the function that was originally used to allocate that resource.
Developer And Remediation Guidance
How teams prevent and detect this weakness
Causes
- This example allocates a BarObj object using the new operator in C++, however, the programmer then deallocates the object using free(), which may lead to unexpected behavior. Instead, the programmer should have either created the object with one of the malloc family functions, or else deleted the object with the delete operator.
- In this example, the program does not use matching functions such as malloc/free, new/delete, and new[]/delete[] to allocate/deallocate the resource.
- In this example, the program calls the delete[] function on non-heap memory.
Remediation
- Implementation: Only call matching memory management functions. Do not mix and match routines. For example, when you allocate a buffer with malloc(), dispose of the original pointer with free().
- Implementation:
- Architecture and Design:
- Architecture and Design: Use a language that provides abstractions for memory allocation and deallocation.
Detection
- Automated Dynamic Analysis: Use tools that are integrated during compilation to insert runtime error-checking mechanisms related to memory safety errors, such as AddressSanitizer (ASan) for C/C++ [REF-1518] or valgrind [REF-480].
Mappings
Related CVEs, CWEs, and ATT&CK context
Related CWEs
ATT&CK Relevance
ATT&CK relevance is shown only when reviewed or responsibly inferred.
