Memory corruption

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Memory corruption occurs in a computer program when the contents of a memory location are unintentionally modified due to programming errors; this is termed violating memory safety. When the corrupted memory contents are used later in that program, it leads either to program crash or to strange and bizarre program behavior. Nearly 10% of application crashes on Windows systems are due to heap corruption.[1]

Modern programming languages like C and C++ have powerful features of explicit memory management and pointer arithmetic. These features are designed for developing efficient applications and system software. However, using these features incorrectly may lead to memory corruption errors.

Memory corruption is one of the most intractable class of programming errors, for two reasons:

  1. The source of the memory corruption and its manifestation may be far apart, making it hard to correlate the cause and the effect.
  2. Symptoms appear under unusual conditions, making it hard to consistently reproduce the error.

Memory corruption errors can be broadly classified into four categories:

  1. Using uninitialized memory: Contents of uninitialized memory are treated as garbage values. Using such values can lead to unpredictable program behavior.
  2. Using none-owned memory: It is common to use pointers to access and modify memory. If such a pointer is a null pointer, dangling pointer (pointing to memory that has already been freed), or to a memory location outside of current stack or heap bounds, it is referring to memory that is not then possessed by the program. Using such pointers is a serious programming flaw. Accessing such memory usually causes operating system exceptions, that most commonly lead to a program crash (unless suitable memory protection software is being used).
  3. Using memory beyond the memory that was allocated (buffer overflow): If an array is used in a loop, with incorrect terminating condition, memory beyond the array bounds may be accidentally manipulated. Buffer overflow is one of the most common programming flaws exploited by computer viruses, causing serious computer security issues (e.g. return-to-libc attack, stack-smashing protection) in widely used programs. In some cases programs can also incorrectly access the memory before the start of a buffer.
  4. Faulty heap memory management: Memory leaks and freeing non-heap or un-allocated memory are the most frequent errors caused by faulty heap memory management.

Many memory debuggers such as Purify, Valgrind, Insure++, AddressSanitizer are available to detect memory corruption errors. In the IBMmainframe world, OLIVER provided memory protection for CICS transactions (before more secure versions of CICS were released - as much as 20 years later). OLIVER pinpointed the exact offending instruction before any corruption could occur.

See also[edit]

Storage violation

References[edit]

  1. ^ "Application Verifier". MSDN Library. Microsoft. 19 April 2011. Retrieved 4 May 2011. 

External links[edit]