String Termination Error

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Vulnerabilities Table of Contents

ASDR Table of Contents

Description
Relying on proper string termination may result in a buffer overflow.

String termination errors occur when:


 * Data enters a program via a function that does not null terminate its output.
 * The data is passed to a function that requires its input to be null terminated.

Risk Factors

 * Talk about the factors that make this vulnerability likely or unlikely to actually happen
 * Discuss the technical impact of a successful exploit of this vulnerability
 * Consider the likely [business impacts] of a successful attack

Example 1
The following code reads from cfgfile and copies the input into inputbuf using strcpy. The code mistakenly assumes that inputbuf will always contain a NULL terminator.

#define MAXLEN 1024 ...	char *pathbuf[MAXLEN]; ...	read(cfgfile,inputbuf,MAXLEN); //does not null terminate strcpy(pathbuf,input_buf); //requires null terminated input ...

The code in Example 1 will behave correctly if the data read from cfgfile is null terminated on disk as expected. But if an attacker is able to modify this input so that it does not contain the expected NULL character, the call to strcpy will continue copying from memory until it encounters an arbitrary NULL character. This will likely overflow the destination buffer and, if the attacker can control the contents of memory immediately following inputbuf, can leave the application susceptible to a buffer overflow attack.

Example 2
In the following code, readlink expands the name of a symbolic link stored in the buffer path so that the buffer filename contains the absolute path of the file referenced by the symbolic link. The length of the resulting value is then calculated using strlen.

...	char buf[MAXPATH]; ...	readlink(path, buf, MAXPATH); int length = strlen(filename); ...

The code in Example 2 will not behave correctly because the value read into buf by readlink will not be null terminated. In testing, vulnerabilities like this one might not be caught because the unused contents of buf and the memory immediately following it may be NULL, thereby causing strlen to appear as if it is behaving correctly. However, in the wild strlen will continue traversing memory until it encounters an arbitrary NULL character on the stack, which results in a value of length that is much larger than the size of buf and may cause a buffer overflow in subsequent uses of this value.

Traditionally, strings are represented as a region of memory containing data terminated with a NULL character. Older string-handling methods frequently rely on this NULL character to determine the length of the string. If a buffer that does not contain a NULL terminator is passed to one of these functions, the function will read past the end of the buffer.

Malicious users typically exploit this type of vulnerability by injecting data with unexpected size or content into the application. They may provide the malicious input either directly as input to the program or indirectly by modifying application resources, such as configuration files. In the event that an attacker causes the application to read beyond the bounds of a buffer, the attacker may be able use a resulting buffer overflow to inject and execute arbitrary code on the system.

Related Attacks

 * Attack 1
 * Attack 2

Related Vulnerabilities

 * Buffer Overflow

Related Controls

 * Category:Input Validation

Related Technical Impacts

 * Technical Impact 1
 * Technical Impact 2