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CWE-120 (未进行输入大小检查的缓冲区拷贝(传统缓冲区溢出)) — Vulnerability Class 1810

1810 vulnerabilities classified as CWE-120 (未进行输入大小检查的缓冲区拷贝(传统缓冲区溢出)). AI Chinese analysis included.

CWE-120 represents a critical memory safety vulnerability where software copies data into a fixed-size buffer without validating the input’s length against the destination’s capacity. This classic buffer overflow occurs when an attacker supplies input exceeding the allocated memory space, causing data to spill into adjacent memory regions. Exploitation typically involves injecting malicious code or altering program control flow, such as overwriting return addresses to execute arbitrary commands. Developers prevent this weakness by implementing rigorous bounds checking before any copy operation, ensuring the input size never exceeds the buffer’s limits. Utilizing safer, language-specific functions that automatically handle size verification, or adopting modern programming languages with built-in memory safety features, effectively mitigates this risk and preserves application integrity against memory corruption attacks.

MITRE CWE Description
The product copies an input buffer to an output buffer without verifying that the size of the input buffer is less than the size of the output buffer.
Common Consequences (2)
Integrity, Confidentiality, AvailabilityModify Memory, Execute Unauthorized Code or Commands
Buffer overflows often can be used to execute arbitrary code, which is usually outside the scope of the product's implicit security policy. This can often be used to subvert any other security service.
AvailabilityModify Memory, DoS: Crash, Exit, or Restart, DoS: Resource Consumption (CPU)
Buffer overflows generally lead to crashes. Other attacks leading to lack of availability are possible, including putting the product into an infinite loop.
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 your buffer is as large as you specify. 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 i…
ImplementationAssume all input is malicious. Use an "accept known good" input validation strategy, i.e., use a list of acceptable inputs that strictly conform to specifications. Reject any input that does not strictly conform to specifications, or transform it into something that does. When performing input validation, consider all potentially relevant properties, including length, type of input, the full range…
Examples (2)
The following code asks the user to enter their last name and then attempts to store the value entered in the last_name array.
char last_name[20]; printf ("Enter your last name: "); scanf ("%s", last_name);
Bad · C
The following code attempts to create a local copy of a buffer to perform some manipulations to the data.
void manipulate_string(char * string){ char buf[24]; strcpy(buf, string); ... }
Bad · C
CVE IDTitleCVSSSeverityPublished
CVE-2024-7462 TOTOLINK N350RT cstecgi.cgi setWizardCfg buffer overflow — N350RT 8.8 High2024-08-05
CVE-2024-7338 TOTOLINK EX1200L cstecgi.cgi setParentalRules buffer overflow — EX1200L 8.8 High2024-08-01
CVE-2024-7337 TOTOLINK EX1200L cstecgi.cgi loginauth buffer overflow — EX1200L 8.8 High2024-08-01
CVE-2024-7336 TOTOLINK EX200 cstecgi.cgi loginauth buffer overflow — EX200 8.8 High2024-08-01
CVE-2024-7335 TOTOLINK EX200 getSaveConfig buffer overflow — EX200 8.8 High2024-08-01
CVE-2024-7334 TOTOLINK EX1200L cstecgi.cgi UploadCustomModule buffer overflow — EX1200L 8.8 High2024-08-01
CVE-2024-7333 TOTOLINK N350RT cstecgi.cgi setParentalRules buffer overflow — N350RT 8.8 High2024-08-01
CVE-2024-7331 TOTOLINK A3300R cstecgi.cgi UploadCustomModule buffer overflow — A3300R 8.8 High2024-08-01
CVE-2024-41660 slpd-lite unauthenticated memory corruption — slpd-lite 9.8 Critical2024-07-31
CVE-2024-7217 TOTOLINK CA300-PoE cstecgi.cgi loginauth buffer overflow — CA300-PoE 6.3 Medium2024-07-30
CVE-2024-7213 TOTOLINK A7000R cstecgi.cgi setWizardCfg buffer overflow — A7000R 8.8 High2024-07-30
CVE-2024-7212 TOTOLINK A7000R cstecgi.cgi loginauth buffer overflow — A7000R 8.8 High2024-07-30
CVE-2024-7187 TOTOLINK A3600R cstecgi.cgi UploadCustomModule buffer overflow — A3600R 8.8 High2024-07-29
CVE-2024-7186 TOTOLINK A3600R cstecgi.cgi setWiFiAclAddConfig buffer overflow — A3600R 8.8 High2024-07-29
CVE-2024-7185 TOTOLINK A3600R cstecgi.cgi setWebWlanIdx buffer overflow — A3600R 8.8 High2024-07-29
CVE-2024-7184 TOTOLINK A3600R cstecgi.cgi setUrlFilterRules buffer overflow — A3600R 8.8 High2024-07-29
CVE-2024-7183 TOTOLINK A3600R cstecgi.cgi setUploadSetting buffer overflow — A3600R 8.8 High2024-07-29
CVE-2024-7182 TOTOLINK A3600R cstecgi.cgi setUpgradeFW buffer overflow — A3600R 8.8 High2024-07-29
CVE-2024-7180 TOTOLINK A3600R cstecgi.cgi setPortForwardRules buffer overflow — A3600R 8.8 High2024-07-29
CVE-2024-7179 TOTOLINK A3600R cstecgi.cgi setParentalRules buffer overflow — A3600R 8.8 High2024-07-29
CVE-2024-7178 TOTOLINK A3600R cstecgi.cgi setMacQos buffer overflow — A3600R 8.8 High2024-07-29
CVE-2024-7177 TOTOLINK A3600R cstecgi.cgi setLanguageCfg buffer overflow — A3600R 8.8 High2024-07-29
CVE-2024-7176 TOTOLINK A3600R cstecgi.cgi setIpQosRules buffer overflow — A3600R 8.8 High2024-07-29
CVE-2024-7174 TOTOLINK A3600R cstecgi.cgi setdeviceName buffer overflow — A3600R 8.8 High2024-07-29
CVE-2024-7173 TOTOLINK A3600R cstecgi.cgi loginauth buffer overflow — A3600R 8.8 High2024-07-28
CVE-2024-7172 TOTOLINK A3600R getSaveConfig buffer overflow — A3600R 8.8 High2024-07-28
CVE-2024-7157 TOTOLINK A3100R getSaveConfig buffer overflow — A3100R 8.8 High2024-07-28
CVE-2024-39543 Junos OS and Junos OS Evolved: Receipt of a large RPKI-RTR PDU packet can cause rpd to crash — Junos OS 6.5 Medium2024-07-11
CVE-2024-39538 Junos OS Evolved: ACX7000 Series: When multicast traffic with a specific (S,G) is received evo-pfemand crashes — Junos OS Evolved 6.5 Medium2024-07-11
CVE-2024-5974 Firebox Authenticated Buffer Overflow Vulnerability — Fireware OS 7.2 High2024-07-09

Vulnerabilities classified as CWE-120 (未进行输入大小检查的缓冲区拷贝(传统缓冲区溢出)) represent 1810 CVEs. The CWE taxonomy describes the weakness; review individual CVEs for product-specific impact.