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CWE-123

BaseDraft

Write-what-where Condition

Any condition where the attacker has the ability to write an arbitrary value to an arbitrary location, often as the result of a buffer overflow.

30 linked vulnerabilities

3 related weaknesses

Architecture and Design

Use a language that provides appropriate memory abstractions.

Operation

Use OS-level preventative functionality integrated after the fact. Not a complete solution.

IntegrityConfidentialityAvailabilityAccess ControlModify MemoryExecute Unauthorized Code or CommandsGain Privileges or Assume IdentityDoS: Crash, Exit, or RestartBypass Protection Mechanism

Clearly, write-what-where conditions can be used to write data to areas of memory outside the scope of a policy. Also, they almost invariably can be used to execute arbitrary code, which is usually outside the scope of a program's implicit security policy. If the attacker can overwrite a pointer's worth of memory (usually 32 or 64 bits), they can redirect a function pointer to their own malicious code. Even when the attacker can only modify a single byte arbitrary code execution can be possible. Sometimes this is because the same problem can be exploited repeatedly to the same effect. Other times it is because the attacker can overwrite security-critical application-specific data -- such as a flag indicating whether the user is an administrator.

IntegrityAvailabilityDoS: Crash, Exit, or RestartModify Memory

Many memory accesses can lead to program termination, such as when writing to addresses that are invalid for the current process.

Access ControlOtherBypass Protection MechanismOther

When the consequence is arbitrary code execution, this can often be used to subvert any other security service.

Automated Static AnalysisEffectiveness: High

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.)

Automated Dynamic AnalysisEffectiveness: Moderate

Use tools that are integrated during compilation to insert runtime error-checking mechanisms related to memory safety errors, such as AddressSanitizer (ASan) for C/C++ [REF-1518].

Modes of Introduction

Implementation

Related Weaknesses

CWE-787ChildOf CWE-787ChildOf CWE-119ChildOf

Example CVEs (2)

CVE-2019-19911

Chain: Python library does not limit the resources used to process images that specify a very large number of bands (CWE-1284), leading to excessive memory consumption (CWE-789) or an integer overflow (CWE-190).

CVE-2022-0545

Chain: 3D renderer has an integer overflow (CWE-190) leading to write-what-where condition (CWE-123) using a crafted image.

External Links

MITRE CWE Database

CWE-123: Write-what-where Condition | Mondoo Vulnerability Intelligence

CWE-123

Write-what-where Condition

Potential Mitigations (2)

Common Consequences (3)

Detection Methods (2)

Modes of Introduction

Related Weaknesses

Example CVEs (2)

External Links