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CWE-787 (跨界内存写) — Vulnerability Class 2200

2200 vulnerabilities classified as CWE-787 (跨界内存写). AI Chinese analysis included.

CWE-787 represents a critical memory management weakness where software incorrectly writes data beyond the allocated boundaries of a buffer. This flaw typically arises from insufficient bounds checking, allowing attackers to overwrite adjacent memory locations with malicious payloads. Exploitation often leads to arbitrary code execution, denial of service, or privilege escalation by corrupting critical system structures or control flow data. Developers mitigate this risk by implementing rigorous input validation and utilizing safe programming practices that enforce strict boundary checks before any memory operation. Employing modern languages with automatic memory management, such as Rust or Java, further reduces exposure by preventing direct pointer arithmetic. Additionally, static analysis tools and fuzzing techniques help identify potential out-of-bounds conditions during the development lifecycle, ensuring that buffer operations remain within their intended limits and preserving application integrity against memory corruption attacks.

MITRE CWE Description
The product writes data past the end, or before the beginning, of the intended buffer.
Common Consequences (3)
IntegrityModify Memory, Execute Unauthorized Code or Commands
Write operations could cause memory corruption. In some cases, an adversary can modify control data such as return addresses in order to execute unexpected code.
AvailabilityDoS: Crash, Exit, or Restart
Attempting to access out-of-range, invalid, or unauthorized memory could cause the product to crash.
OtherUnexpected State
Subsequent write operations can produce undefined or unexpected results.
Mitigations (5)
RequirementsUse a language that does not allow this weakness to occur or provides constructs that make this weakness easier to avoid. For example, many languages that perform their own memory management, such as Java and Perl, are not subject to buffer overflows. Other languages, such as Ada and C#, typically provide overflow protection, but the protection can be disabled by the programmer. Be wary that a lan…
Architecture and DesignUse a vetted library or framework that does not allow this weakness to occur or provides constructs that make this weakness easier to avoid. Examples include the Safe C String Library (SafeStr) by Messier and Viega [REF-57], and the Strsafe.h library from Microsoft [REF-56]. These libraries provide safer versions of overflow-prone string-handling functions.
Operation, Build and CompilationUse automatic buffer overflow detection mechanisms that are offered by certain compilers or compiler extensions. Examples include: the Microsoft Visual Studio /GS flag, Fedora/Red Hat FORTIFY_SOURCE GCC flag, StackGuard, and ProPolice, which provide various mechanisms including canary-based detection and range/index checking. D3-SFCV (Stack Frame Canary Validation) from D3FEND [REF-1334] discusses…
Effectiveness: Defense in Depth
ImplementationConsider adhering to the following rules when allocating and managing an application's memory: Double check that the buffer is as large as specified. When using functions that accept a number of bytes to copy, such as strncpy(), be aware that if the destination buffer size is equal to the source buffer size, it may not NULL-terminate the string. Check buffer boundaries if accessing the buffer in a…
Operation, Build and CompilationRun or compile the software using features or extensions that randomly arrange the positions of a program's executable and libraries in memory. Because this makes the addresses unpredictable, it can prevent an attacker from reliably jumping to exploitable code. Examples include Address Space Layout Randomization (ASLR) [REF-58] [REF-60] and Position-Independent Executables (PIE) [REF-64]. Imported…
Effectiveness: Defense in Depth
Examples (2)
The following code attempts to save four different identification numbers into an array.
int id_sequence[3]; /* Populate the id array. */ id_sequence[0] = 123; id_sequence[1] = 234; id_sequence[2] = 345; id_sequence[3] = 456;
Bad · C
In the following code, it is possible to request that memcpy move a much larger segment of memory than assumed:
int returnChunkSize(void *) { /* if chunk info is valid, return the size of usable memory, * else, return -1 to indicate an error */ ... } int main() { ... memcpy(destBuf, srcBuf, (returnChunkSize(destBuf)-1)); ... }
Bad · C
CVE IDTitleCVSSSeverityPublished
CVE-2025-47206 File Station 5 — File Station 5 9.1AICriticalAI2025-08-18
CVE-2025-8901 Google Chrome 缓冲区错误漏洞 — Chrome 8.8AIHighAI2025-08-13
CVE-2025-54222 Substance3D - Stager | Out-of-bounds Write (CWE-787) — Substance3D - Stager 7.8 High2025-08-12
CVE-2025-54216 InCopy | Out-of-bounds Write (CWE-787) — InCopy 7.8 High2025-08-12
CVE-2025-54215 InCopy | Out-of-bounds Write (CWE-787) — InCopy 7.8 High2025-08-12
CVE-2025-54218 InCopy | Out-of-bounds Write (CWE-787) — InCopy 7.8 High2025-08-12
CVE-2025-54221 InCopy | Out-of-bounds Write (CWE-787) — InCopy 7.8 High2025-08-12
CVE-2025-54213 InDesign Desktop | Out-of-bounds Write (CWE-787) — InDesign Desktop 7.8 High2025-08-12
CVE-2025-54210 InDesign Desktop | Out-of-bounds Write (CWE-787) — InDesign Desktop 7.8 High2025-08-12
CVE-2025-54208 InDesign Desktop | Out-of-bounds Write (CWE-787) — InDesign Desktop 7.8 High2025-08-12
CVE-2025-54206 InDesign Desktop | Out-of-bounds Write (CWE-787) — InDesign Desktop 7.8 High2025-08-12
CVE-2025-54187 Substance3D - Painter | Out-of-bounds Write (CWE-787) — Substance3D - Painter 7.8 High2025-08-12
CVE-2025-49573 Substance3D - Modeler | Out-of-bounds Write (CWE-787) — Substance3D - Modeler 7.8 High2025-08-12
CVE-2025-49572 Substance3D - Modeler | Out-of-bounds Write (CWE-787) — Substance3D - Modeler 7.8 High2025-08-12
CVE-2025-49570 Photoshop Desktop | Out-of-bounds Write (CWE-787) — Photoshop Desktop 7.8 High2025-08-12
CVE-2025-49569 Substance3D - Viewer | Out-of-bounds Write (CWE-787) — Substance3D - Viewer 7.8 High2025-08-12
CVE-2025-49563 Illustrator | Out-of-bounds Write (CWE-787) — Illustrator 7.8 High2025-08-12
CVE-2025-40762 Siemens Simcenter Femap 缓冲区错误漏洞 — Simcenter Femap V2406 7.8 High2025-08-12
CVE-2025-6633 RBG File Parsing Out-of-Bounds Write Vulnerability — 3ds Max 7.8 High2025-08-06
CVE-2025-21461 Out-of-bounds Write in Camera_Linux — Snapdragon 7.8 High2025-08-06
CVE-2025-54627 Huawei HarmonyOS 安全漏洞 — HarmonyOS 8.8 High2025-08-06
CVE-2025-54616 Huawei HarmonyOS 安全漏洞 — HarmonyOS 4.0 Medium2025-08-06
CVE-2025-48499 Fujifilm DocuPrint CP225w 缓冲区错误漏洞 — DocuPrint CP225 w 5.3 Medium2025-08-04
CVE-2025-20698 MediaTek Chipsets 安全漏洞 — MT2718, MT6739, MT6761, MT6765, MT6768, MT6781, MT6789, MT6833, MT6835, MT6853, MT6855, MT6877, MT6878, MT6879, MT6883, MT6885, MT6886, MT6889, MT6893, MT6895, MT6897, MT6899, MT6983, MT6985, MT6989, MT6991, MT8186, MT8196, MT8391, MT8676, MT8678, MT8775, MT8786, MT8788E, MT8792, MT8796, MT8873, MT8883, MT8893 6.7AIMediumAI2025-08-04
CVE-2025-20697 MediaTek Chipsets 安全漏洞 — MT2718, MT6761, MT6765, MT6768, MT6853, MT6855, MT6877, MT6878, MT6879, MT6883, MT6885, MT6889, MT6893, MT6897, MT6989, MT6991, MT8186, MT8196, MT8391, MT8678, MT8775, MT8786, MT8788E, MT8792, MT8796, MT8873, MT8883, MT8893 6.7AIMediumAI2025-08-04
CVE-2025-20696 MediaTek Chipsets 安全漏洞 — MT6739, MT6761, MT6765, MT6768, MT6781, MT6789, MT6813, MT6833, MT6835, MT6853, MT6855, MT6877, MT6878, MT6879, MT6883, MT6885, MT6886, MT6889, MT6893, MT6895, MT6897, MT6899, MT6983, MT6985, MT6989, MT6990, MT6991, MT8188, MT8196, MT8370, MT8390, MT8676 6.6AIMediumAI2025-08-04
CVE-2025-4422 EfiSmiServices : EfiPcdProtocol, SMM memory corruption vulnerabilities in SMM module — InsydeH2O 8.2 High2025-07-30
CVE-2025-4421 EfiSmiServices: gEfiSmmCpuProtocol, SMM memory corruption vulnerabilities in SMM module — InsydeH2O 8.2 High2025-07-30
CVE-2025-7675 3DM File Parsing Out-of-Bounds Write Vulnerability — Shared Components 7.8 High2025-07-29
CVE-2025-7497 PRT File Parsing Out-of-Bounds Write Vulnerability — Shared Components 7.8 High2025-07-29

Vulnerabilities classified as CWE-787 (跨界内存写) represent 2200 CVEs. The CWE taxonomy describes the weakness; review individual CVEs for product-specific impact.