This site is the archived OWASP Foundation Wiki and is no longer accepting Account Requests.
To view the new OWASP Foundation website, please visit https://owasp.org
Use of hard-coded cryptographic key
Overview
The use of a hard-coded cryptographic key tremendously increases the possibility that encrypted data may be recovered
Consequences
- Authentication: If hard-coded cryptographic keys are used, it is almost certain that malicious users will gain access through the account in question.
Exposure period
- Design: For both front-end to back-end connections and default account settings, alternate decisions must be made at design time.
Platform
- Languages: All
- Operating platforms: All
Required resources
Any
Severity
High
Likelihood of exploit
High
Avoidance and mitigation
- Design: Prevention schemes mirror that of hard-coded password storage.
Discussion
The main difference between the use of hard-coded passwords and the use of hard-coded cryptographic keys is the false sense of security that the former conveys. Many people believe that simply hashing a hard-coded password before storage will protect the information from malicious users. However, many hashes are reversible (or at least vulnerable to brute force attacks) - and further, many authentication protocols simply request the hash itself, making it no better than a password.
Examples
In C\C++:
int VerifyAdmin(char *password) {
if (strcmp(password,"68af404b513073584c4b6f22b6c63e6b")) {
printf("Incorrect Password!\n");
return(0)
}
printf("Entering Diagnostic Mode�\n");
return(1);
}
In Java:
int VerifyAdmin(String password) {
if (passwd.Eqauls("68af404b513073584c4b6f22b6c63e6b")) {
return(0)
}
//Diagnostic Mode
return(1);
}
