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CWE-639 (通过用户控制密钥绕过授权机制) — Vulnerability Class 1073

1073 vulnerabilities classified as CWE-639 (通过用户控制密钥绕过授权机制). AI Chinese analysis included.

CWE-639 represents an authorization bypass weakness where systems fail to validate that a user is permitted to access a resource identified by a user-controlled key. Attackers typically exploit this by manipulating identifiers, such as changing a numeric user ID in a URL or API parameter, to retrieve or modify another user’s private data. This insecure direct object reference allows unauthorized access without requiring authentication bypasses. Developers prevent this vulnerability by implementing robust server-side authorization checks that verify the requesting user’s permissions against the requested resource, rather than trusting client-supplied identifiers. Additionally, using indirect references or opaque tokens instead of predictable, sequential keys can mitigate the risk of enumeration and unauthorized access attempts.

MITRE CWE Description
The system's authorization functionality does not prevent one user from gaining access to another user's data or record by modifying the key value identifying the data. Retrieval of a user record occurs in the system based on some key value that is under user control. The key would typically identify a user-related record stored in the system and would be used to lookup that record for presentation to the user. It is likely that an attacker would have to be an authenticated user in the system. However, the authorization process would not properly check the data access operation to ensure that the authenticated user performing the operation has sufficient entitlements to perform the requested data access, hence bypassing any other authorization checks present in the system. For example, attackers can look at places where user specific data is retrieved (e.g. search screens) and determine whether the key for the item being looked up is controllable externally. The key may be a hidden field in the HTML form field, might be passed as a URL parameter or as an unencrypted cookie variable, then in each of these cases it will be possible to tamper with the key value. One manifestation of this weakness is when a system uses sequential or otherwise easily-guessable session IDs that would allow one user to easily switch to another user's session and read/modify their data.
Common Consequences (3)
Access ControlBypass Protection Mechanism
Access control checks for specific user data or functionality can be bypassed.
Access ControlGain Privileges or Assume Identity
Horizontal escalation of privilege is possible (one user can view/modify information of another user).
Access ControlGain Privileges or Assume Identity
Vertical escalation of privilege is possible if the user-controlled key is actually a flag that indicates administrator status, allowing the attacker to gain administrative access.
Mitigations (3)
Architecture and DesignFor each and every data access, ensure that the user has sufficient privilege to access the record that is being requested.
Architecture and Design, ImplementationMake sure that the key that is used in the lookup of a specific user's record is not controllable externally by the user or that any tampering can be detected.
Architecture and DesignUse encryption in order to make it more difficult to guess other legitimate values of the key or associate a digital signature with the key so that the server can verify that there has been no tampering.
Examples (1)
The following code uses a parameterized statement, which escapes metacharacters and prevents SQL injection vulnerabilities, to construct and execute a SQL query that searches for an invoice matching the specified identifier [1]. The identifier is selected from a list of all invoices associated with the current authenticated user.
... conn = new SqlConnection(_ConnectionString); conn.Open(); int16 id = System.Convert.ToInt16(invoiceID.Text); SqlCommand query = new SqlCommand( "SELECT * FROM invoices WHERE id = @id", conn); query.Parameters.AddWithValue("@id", id); SqlDataReader objReader = objCommand.ExecuteReader(); ...
Bad · C#
CVE IDTitleCVSSSeverityPublished
CVE-2026-24379 WordPress WP Job Portal plugin <= 2.4.3 - Insecure Direct Object References (IDOR) vulnerability — WP Job Portal 4.3 Medium2026-01-22
CVE-2026-22426 WordPress Sweet Jane theme <= 1.2 - Insecure Direct Object References (IDOR) vulnerability — Sweet Jane 5.4 Medium2026-01-22
CVE-2026-22430 WordPress Verdure theme <= 1.6 - Insecure Direct Object References (IDOR) vulnerability — Verdure 5.4 Medium2026-01-22
CVE-2026-22411 WordPress Dolcino theme <= 1.6 - Insecure Direct Object References (IDOR) vulnerability — Dolcino 5.4 Low2026-01-22
CVE-2026-22407 WordPress Roam theme <= 2.1.1 - Insecure Direct Object References (IDOR) vulnerability — Roam 5.4 Low2026-01-22
CVE-2026-22409 WordPress Justicia theme <= 1.2 - Insecure Direct Object References (IDOR) vulnerability — Justicia 5.4 Low2026-01-22
CVE-2026-22406 WordPress Overton theme <= 1.3 - Insecure Direct Object References (IDOR) vulnerability — Overton 5.4 Low2026-01-22
CVE-2026-22398 WordPress Fleur theme <= 2.0 - Insecure Direct Object References (IDOR) vulnerability — Fleur 5.4 Medium2026-01-22
CVE-2026-22404 WordPress Innovio theme <= 1.7 - Insecure Direct Object References (IDOR) vulnerability — Innovio 5.4 Low2026-01-22
CVE-2026-22400 WordPress Holmes theme <= 1.7 - Insecure Direct Object References (IDOR) vulnerability — Holmes 5.4 Medium2026-01-22
CVE-2026-22393 WordPress Curly theme <= 3.3 - Insecure Direct Object References (IDOR) vulnerability — Curly 5.4 Medium2026-01-22
CVE-2026-22396 WordPress Fiorello theme <= 1.0 - Insecure Direct Object References (IDOR) vulnerability — Fiorello 5.4 Medium2026-01-22
CVE-2026-22391 WordPress Cocco theme <= 1.5.1 - Insecure Direct Object References (IDOR) vulnerability — Cocco 5.4 Medium2026-01-22
CVE-2025-47555 WordPress Tutor LMS plugin <= 3.9.4 - Insecure Direct Object References (IDOR) vulnerability — Tutor LMS 3.8 Low2026-01-22
CVE-2025-10855 IDOR in Solvera Software's Teknoera — Teknoera 7.5 High2026-01-22
CVE-2025-10024 IDOR in EXERT Computer Technologies' Education Management System — Education Management System 7.5 High2026-01-22
CVE-2026-23754 D-Link D-View 8 IDOR Allows Credential Disclosure and Account Takeover — D-View 8 8.8AIHighAI2026-01-21
CVE-2025-15521 Academy LMS – WordPress LMS Plugin for Complete eLearning Solution <= 3.5.0 - Unauthenticated Privilege Escalation via Account Takeover — Academy LMS – WordPress LMS Plugin for Complete eLearning Solution 9.8 Critical2026-01-21
CVE-2026-23843 teklifolustur_app's IDOR vulnerability allows unauthorized access to other users' offers — teklifolustur_app 7.1 High2026-01-19
CVE-2025-14844 Membership Plugin – Restrict Content <= 3.2.16 - Missing Authentication to Insecure Direct Object Reference and Sensitive Information Exposure — Membership Plugin – Restrict Content 8.2 High2026-01-16
CVE-2025-15370 Shield Security <= 21.0.9 - Authenticated (Subscriber+) Insecure Direct Object Reference to Disable Google Authenticator — Shield: Blocks Bots, Protects Users, and Prevents Security Breaches 4.3 Medium2026-01-16
CVE-2025-68492 Chainlit 安全漏洞 — Chainlit 4.3AIMediumAI2026-01-14
CVE-2025-40805 Siemens Industrial Edge Devices 安全漏洞 — Industrial Edge Cloud Device (IECD) 10.0 Critical2026-01-13
CVE-2025-41077 Multiple vulnerabilities in Viafirma products — Inbox 7.1AIHighAI2026-01-12
CVE-2025-69274 Spectrum broken authorization scheme — DX NetOps Spectrum 7.8AIHighAI2026-01-12
CVE-2025-13457 WooCommerce Square <= 5.1.1 - Unauthenticated Insecure Direct Object Reference to Sensitive Information Exposure in get_token_by_id — WooCommerce Square 7.5 High2026-01-10
CVE-2026-22589 Spree API has Unauthenticated IDOR - Guest Address — spree 7.5 High2026-01-10
CVE-2026-21409 RICOH Streamline NX 安全漏洞 — RICOH Streamline NX 5.9 -2026-01-09
CVE-2026-22588 Spree API has Authenticated Insecure Direct Object Reference (IDOR) via Order Modification — spree 6.5 Medium2026-01-08
CVE-2026-22235 OPEXUS eComplaint IDOR — eComplaint 7.5 High2026-01-08

Vulnerabilities classified as CWE-639 (通过用户控制密钥绕过授权机制) represent 1073 CVEs. The CWE taxonomy describes the weakness; review individual CVEs for product-specific impact.