CWE --- NULL Pointer Dereference -- 例子

原文地址：

https://cwe.mitre.org/data/definitions/476.html

Description Summary

A NULL pointer dereference occurs when the application dereferences a pointer that it expects to be valid, but is NULL, typically causing a crash or exit.

Extended Description

NULL pointer dereference issues can occur through a number of flaws, including race conditions, and simple programming omissions

Example 1

While there are no complete fixes aside from conscientious programming, the following steps will go a long way to ensure that NULL pointer dereferences do not occur.

(Mitigation Code)

 

if (pointer1 != NULL) {

/* make use of pointer1 */

/* ... */

}

If you are working with a multithreaded or otherwise asynchronous environment, ensure that proper locking APIs are used to lock before the if statement; and unlock when it has finished.

Example 2

This example takes an IP address from a user, verifies that it is well formed and then looks up the hostname and copies it into a buffer.

(Bad Code)

Example Language: C 

void host_lookup(char *user_supplied_addr){

struct hostent *hp;

in_addr_t *addr;

char hostname[64];

in_addr_t inet_addr(const char *cp);

/*routine that ensures user_supplied_addr is in the right format for conversion */

validate_addr_form(user_supplied_addr);

addr = inet_addr(user_supplied_addr);

hp = gethostbyaddr( addr, sizeof(struct in_addr), AF_INET);

strcpy(hostname, hp->h_name);

}

If an attacker provides an address that appears to be well-formed, but the address does not resolve to a hostname, then the call to gethostbyaddr() will return NULL. Since the code does not check the return value from gethostbyaddr (CWE-252), a NULL pointer dereference would then occur in the call to strcpy().

Note that this example is also vulnerable to a buffer overflow (see CWE-119).

Example 3

In the following code, the programmer assumes that the system always has a property named "cmd" defined. If an attacker can control the program's environment so that "cmd" is not defined, the program throws a NULL pointer exception when it attempts to call the trim() method.

(Bad Code)

Example Language: Java 

String cmd = System.getProperty("cmd");

cmd = cmd.trim();

Example 4

This application has registered to handle a URL when sent an intent:

(Bad Code)

Example Language: Java 

...

IntentFilter filter = new IntentFilter("com.example.URLHandler.openURL");

MyReceiver receiver = new MyReceiver();

registerReceiver(receiver, filter);

...

public class UrlHandlerReceiver extends BroadcastReceiver {

@Override

public void onReceive(Context context, Intent intent) {

if("com.example.URLHandler.openURL".equals(intent.getAction())) {

String URL = intent.getStringExtra("URLToOpen");

int length = URL.length();

...

}

}

}

The application assumes the URL will always be included in the intent. When the URL is not present, the call to getStringExtra() will return null, thus causing a null pointer exception when length() is called.

Potential Mitigations (预防措施)

Phase: Implementation If all pointers that could have been modified are sanity-checked previous to use, nearly all NULL pointer dereferences can be prevented.

Phase: Requirements The choice could be made to use a language that is not susceptible to these issues.

Phase: Implementation Check the results of all functions that return a value and verify that the value is non-null before acting upon it. Effectiveness: Moderate Checking the return value of the function will typically be sufficient, however beware of race conditions (CWE-362) in a concurrent environment. This solution does not handle the use of improperly initialized variables (CWE-665).

Phase: Architecture and Design Identify all variables and data stores that receive information from external sources, and apply input validation to make sure that they are only initialized to expected values.

Phase: Implementation Explicitly initialize all your variables and other data stores, either during declaration or just before the first usage.

Phase: Testing Use automated static analysis tools that target this type of weakness. Many modern techniques use data flow analysis to minimize the number of false positives. This is not a perfect solution, since 100% accuracy and coverage are not feasible.