In most cases, trust boundaries are violated when a secret is exposed in a source code repository or an uncontrolled deployment environment.
Unintended people who don’t need to know the secret might get access to it. They might then be able to use it to gain unwanted access to associated
services or resources.
The trust issue can be more or less severe depending on the people’s role and entitlement.
What is the potential impact?
A Facebook application secret key is a unique authentication token assigned to a Facebook application. It is used to authenticate and authorize the
application to access Facebook’s APIs and services, such as:
- retrieving user data
- posting on behalf of users
- accessing various Facebook features
Below are some real-world scenarios that illustrate some impacts of an attacker exploiting the secret.
Compromise of sensitive personal data
This kind of service is often used to exchange information that could include personal information, chat logs, and other private data that users
have shared on the platform. This is called Personally Identifiable Information.
The leaked app key could provide a gateway for unauthorized individuals to access and misuse this data, compromising the privacy and safety of the
application users.
In many industries and locations, there are legal and compliance requirements to protect sensitive data. If this kind of sensitive personal data
gets leaked, companies face legal consequences, penalties, or violations of privacy laws.
Phishing and spam
An attacker can use this secret to spam users or lure them into links to a malicious domain controlled by the attacker.
Spam can cause users to be exposed to the following:
- Unsolicited, inappropriate content, such as pornographic material
- Fraudulent attempts to trick users into sending information or money
- Abusive or hateful statements
- False advertising or fraudulent claims
Once a user has been phished on a legitimate-seeming third-party website, an attacker can collect the user’s credentials, bypass multi-factor
authentication (MFA), and take over the user’s account on the trusted website.
Malware distribution
Due to this vulnerability, malware can be stored and spread, both to users of the service and to other potential targets.
A malware depends on
the attacker’s intentions, as the following examples show:
- Cryptojacking malware, whose goal is to "mine" cryptocurrencies on the affected computers or servers.
- Spyware that spies out sensitive information from victims.
In the worst case, malware can cause the target systems to be completely compromised and allow attackers to infiltrate the systems.
