Common Vulnerabilities and Exposures | CVE



Once vulnerability information has been collected, it must be categorized and evaluated. The methods of evaluation and categorization vary by vendor. This is one key area where many products attempt to distinguish themselves. When a vulnerability is identified, the category is typically assigned according to the type of exploit required or the level of access that is granted. For the purposes of this discussion, we will avoid any vendor-specific approaches and use MITRE’s CVE methodology. According to MITRE’s Web site:
CVE is a list of information security vulnerabilities and exposures that aims to provide common names for publicly known problems. The goal of CVE is to make it easier to share data across separate vulnerability capabilities (tools, repositories, and services) with this common enumeration.

Structure

MITRE is a non-profit organization that has been making a valuable contributions to VM for years. They have been able to provide an open, standardized platform for the sharing of vulnerability knowledge. When someone discovers a new vulnerability, they frequently (but not always) report this discovery and its details to MITRE, who quickly publishes the information. Unfortunately, standards are still difficult to get adopted in products. 
Every CVE is given an identifier. In effect, this identifier allows a variety of tools from different vendors to speak the same language. A CVE provides the same description for all vendors and the same references to additional information sources. For example, “CVE-2001-0010: Buffer overflow in transaction signature (TSIG) handling code in BIND 8 allows remote attackers to gain root privileges.” This is the same understanding for everyone. It cannot be confused among various vendors.
The references in the CVE will ultimately lead a vulnerability manager to the National Vulnerability Database (NVD) run by the NIST. CVE-2001-0010, mentioned earlier, has related information in the NVD, as shown in Figure 1:
  • Overview: This is a summary of the vulnerability that resembles the CVE description.
  • Impact: The impact section attributes a score to the vulnerability should it be exploited. More on this later when we discuss the Common Vulnerability Scoring System (CVSS).
  • References to advisories, solutions, and tools: These are typically Internet references to obtain more-detailed information about the vulnerability, how to detect it, and how to remediate. In this example, information about patches from various vendors is supplied.
  • Vulnerable software and versions: A list of the version numbers that are known to possess this vulnerability. This further helps with the detection process.
  • Technical details: This is information about the exact nature of the vulnerability; for example, how the software will react when exploited and why this is bad. Again, this item usually contains links to the site where the researcher has published information about his discovery.
Vulnerability Summary CVE-2001-0010
Original release date: 2/12/2001
Last revised: 5/2/2005
Source: US-CERT/NIST
Overview
Buffer overflow in transaction signature (TSIG) handling code in BIND 8 allows remote attackers to gain root privileges.
Impact
CVSS Severity (version 2.0 incomplete approximation):
CVSS v2 Base score: 10.0 (High) (AV:N/AC:L/Au:N/C:C/I:C/A:C) (legend)
Impact Subscore: 10.0
Exploitability Subscore: 10.0
Access Vector: Network exploitable
Access Complexity: Low
Authentication: Not required to exploit
Impact Type: Provides administrator access, Allows complete confidentiality, integrity, and availability violation , Allows unauthorized disclosure of information , Allows disruption of service
References to Advisories, Solutions, and Tools
CERT/CC Advisory: CA-2001-02
Name: CA-2001-02
Type: Advisory , Patch Information
External Source: Security Focus (disclaimer)
Name: bid 2302
Type: Advisory , Patch Information
External Source: PGP Security (disclaimer)
Name: Vulnerabilities in BIND 4 and 8
Type: Advisory , Patch Information
External Source: REDHAT (disclaimer)
Name: RHSA-2001:007
External Source: NAI (disclaimer)
Name: 20010129 Vulnerabilities in BIND 4 and 8
External Source: DEBIAN (disclaimer)
Name: DSA-026
Vulnerable software and versions
Configuration 1
  • IS, BIND, 8.2.2 P7
  • IS, BIND, 8.2.2 P6
  • IS, BIND, 8.2.2 P5
  • IS, BIND, 8.2.2 P4
  • IS, BIND, 8.2.2 P3
  • IS, BIND, 8.2.2 P2
  • IS, BIND, 8.2.2 P1
  • IS, BIND, 8.2.2
  • IS, BIND, 8.2.1
  • IS, BIND, 8.2
Technical Details
Vulnerability Type No vulnerability type mapping is available.
CVE Standard Vulnerability Entry:
Common Platform Enumeration:

Figure 1: CVE-2001-0010.
Notice that CVEs are identifiers and not actual technical details. The main purpose of a CVE is to provide a cross-platform standard for identification of vulnerabilities. To support the quality of this identification mechanism, each vulnerability is subjected to a review process. At first, candidate status is given. This status means that the information is out there but has not been granted CVE status. A CVE editorial board discusses the merits of the candidate and votes on whether or not the vulnerability should receive full CVE entry status.
There are some caveats to the CVE database. First, it is not a vulnerability database. It is a database of vulnerability references. Second, it does not include all known vulnerabilities. It only contains those that are publicly known. So, it is possible that a vulnerability exists of which a vendor or researcher is aware but it does not appear in the CVE list. In some cases, this is because the researcher has agreed with the maker of the software that he will not reveal the vulnerability until a public patch has been released. Naturally, the researcher will want credit for the discovery.
To continue our CVE discussion, CVEs have one of two statuses: candidate or entry. An editorial board must vet the proposed vulnerability prior to it being granted entry status. Until that time, the vulnerability has candidate status. This status is provided on the CVE list when you view the details. When reading a CVE, check this status and review the reference to form your own opinion about the credibility and accuracy of information provided.

Limitations of CVE

CVE has definite limitations and is by no means an answer to all standards issues related to VM. As previously mentioned, CVE does not have a comprehensive list of all vulnerabilities in existence. Some vendors are able to identify vulnerabilities that CVE does not seem to record. Also, it does not necessarily contain all of the metadata needed to make a vulnerability system perform all of the functions that a technology vendor wishes to perform. Naturally, it shouldn’t since it is intended to provide the common-denominator information useful to everyone.
CVE is not always kept up to date. Many vulnerabilities remain in “CAN” or candidate status for years. One wonders if these vulnerabilities will ever be updated when they are known to be accurate. It is possible that some of these are configuration best practices but not necessarily to be considered vulnerabilities. Inversely, CVE does not contain all product best-practice configuration vulnerabilities since they are too numerous to review and include for the many thousands of products in use around the world.

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