Buffer Overflow via Environment Variables

Description
This attack pattern involves causing a buffer overflow through manipulation of environment variables. Once the attacker finds that they can modify an environment variable, they may try to overflow associated buffers. This attack leverages implicit trust often placed in environment variables.

The following conditions must be met to conduct successful attack: the input data to a buffer.
 * The application uses environment variables.
 * The environment variable exposed to the user is vulnerable to a buffer overflow.
 * The vulnerable environment variable uses untrusted data.
 * Tainted data used in the environment variables is not properly validated. For instance boundary checking is not done before copying

The attacker performs the following steps: host (error pages, software's version number, hostname, etc.).
 * The attacker tries to find an environment variable which can be overwritten, by gathering information about the target
 * The attacker manipulates the environment variable to contain excessive-length content to cause a buffer overflow.
 * The attacker leverages the buffer overflow to inject maliciously crafted code in an attempt to execute privileged command on the target environment.

Examples
Example1

The application below gets information about its run environment from environment variables.

rezos@dojo-labs ~/owasp/buffer_overflow $ cat bo_env.c
 * 1) include 
 * 2) include 

int main(void) {      char *ptr_h; char h[64];

ptr_h = getenv("HOME"); if(ptr_h != NULL) { sprintf(h, "Your home directory is: %s !", ptr_h); printf("%s\n", h); }

return 0; } The application checks the value of the environment variable HOME (path to the home directory) and stores it. It is done by calling the getenv(3) library function in GNU/Linux. If the return value of this function is different than NULL (NULL value means that variable is not set), then a message is created by calling sprintf(3). This function doesn't validate the length of the string, which is going to be written in the targer 64 char size buffer - h[].

Common program execution: rezos@dojo-labs ~/owasp/buffer_overflow $ ./bo_env Your home directory is: /home/rezos ! Now let's change the value of HOME to 128 'A' characters. rezos@dojo-labs ~/owasp/buffer_overflow $ export HOME=`perl -e 'print "A"x128'` When we run program again, a message is copied to the buffer h[64], which has a length of (assuming sizeof(char) = 1): strlen("Your home directory is: !") + strlen(ptr_h) = 28 + 128 = 156 rezos@dojo-labs /home/rezos/owasp/buffer_overflow $ ./bo_env Your home directory is: AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA ! Segmentation fault rezos@dojo-labs /home/rezos/owasp/buffer_overflow $ The program ended with memory segmentation fault, and buffer h[] was overwritten. Using environment variables themselves is not a problem. The real problem is when application lacks their proper validation - size and content. More information about errors related to buffer overflows may be found in the Buffer_overflow_attack article.

Code injection is performed in the same way as in buffer overflow attacks with only one difference; the shellcode is placed in environment variable(s).

Related Threats

 * Category:Command Execution

Related Attacks

 * Buffer_overflow_attack
 * Format string attack

Related Vulnerabilities

 * Format string
 * Heap overflow

Related Countermeasures

 * Category:Input Validation
 * Do not expose environment variable to the user.
 * Do not use untrusted data in your environment variables.