CWE Reference

CWE-321: Use of Hard-coded Cryptographic Key

Official CWE-321 CWE context with Glexia analysis, remediation guidance, related CVEs, and ATT&CK context.

Release 4.20weaknessDraft

Glexia's Take

CWE-321: Use of Hard-coded Cryptographic Key

Use of Hard-coded Cryptographic Key represents a recurring weakness pattern that can create exploitable paths when design, validation, or implementation controls are missing.

Executive Impact

Access Control: Bypass Protection Mechanism,Gain Privileges or Assume Identity,Read Application Data: If hard-coded cryptographic keys are used, it is almost certain that malicious users will gain access through the account in question. The use of a hard-coded cryptographic key significantly increases the possibility that encrypted data may be recovered.

Developer Pattern

CWE-321 is the kind of defect developers can usually prevent with explicit validation, safer framework defaults, and tests that exercise hostile input or unsafe state transitions.

Confidence

high confidence from CWE-321, 4.20.

Official CWE Definition

CWE-321: Use of Hard-coded Cryptographic Key

The product uses a hard-coded, unchangeable cryptographic key.

Type: weakness
Abstraction: Variant
Status: Draft
Source: MITRE CWE definition

Developer And Remediation Guidance

How teams prevent and detect this weakness

Causes

The following code examples attempt to verify a password using a hard-coded cryptographic key. The cryptographic key is within a hard-coded string value that is compared to the password. It is likely that an attacker will be able to read the key and compromise the system.
In 2022, the OT:ICEFALL study examined products by 10 different Operational Technology (OT) vendors. The researchers reported 56 vulnerabilities and said that the products were "insecure by design" [REF-1283]. If exploited, these vulnerabilities often allowed adversaries to change how the products operated, ranging from denial of service to changing the code that the products executed. Since these products were often used in industries such as power, electrical, water, and others, there could even be safety implications. Multiple vendors used hard-coded keys for critical functionality in their OT products.

Remediation

Architecture and Design: Prevention schemes mirror that of hard-coded password storage.

Detection

Automated Static Analysis: Automated static analysis, commonly referred to as Static Application Security Testing (SAST), can find some instances of this weakness by analyzing source code (or binary/compiled code) without having to execute it. Typically, this is done by building a model of data flow and control flow, then searching for potentially-vulnerable patterns that connect "sources" (origins of input) with "sinks" (destinations where the data interacts with external components, a lower layer such as the OS, etc.)

Mappings

Related CVEs, CWEs, and ATT&CK context

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ATT&CK Relevance

ATT&CK relevance is shown only when reviewed or responsibly inferred.