Extended Validation Certificate

An Extended Validation HTTPS certificate shows the validated identity of the company - in this case Apple Inc. - in Google Chrome.
EV HTTPS certificates support multiple domain names, which are verified by the Certificate Authority before the certificate is issued. Wildcards are banned, preventing EV holders from using domain names similar to other companies and thus preventing phishing.

An Extended Validation Certificate (EV) is a certificate used for HTTPS websites and software that proves the legal entity controlling the web site or software package. Obtaining an EV certificate requires verification of the requesting entity's identity by a certificate authority (CA). Web browsers show the verified legal identity prominently in their user interface, either before, or instead of, the domain name. During software installation, the verified legal identity is displayed to the user by the operating system (e.g., Microsoft Windows) before proceeding with the installation.

EV HTTPS certificates contain a subject with X.509 OIDs for jurisdictionOfIncorporationCountryName, businessCategory, and serialNumber, with the serialNumber pointing to the ID at the relevant Secretary of State (US) or national government business registrar (outside US), as well as a CA-specific policy identifier so that EV-aware software, such as a web browser, can recognize them.

EV certificates use the same encryption as organization validated certificates and domain validated certificates: the increase in security is due to the identity validation process, which is indicated inside the certificate by the policy identifier.

The criteria for issuing EV certificates are defined by the Guidelines for Extended Validation, currently (as of November 10, 2015) at version 1.5.7. The guidelines are produced by the CA/Browser Forum, a voluntary organization whose members include leading CAs and vendors of Internet software, as well as representatives from the legal and audit professions.[1]

History

In 2005 Melih Abdulhayoglu, CEO of the Comodo Group, convened the first meeting of the organization that became the CA/Browser Forum, hoping to improve standards for issuing SSL/TLS certificates.[2] On June 12, 2007, the CA/Browser Forum officially ratified the first version of the Extended Validation (EV) SSL Guidelines, which took effect immediately. The formal approval successfully brought to a close more than two years of effort, and provided the infrastructure for trusted Web site identity on the Internet. Then, in April 2008, the Forum announced version 1.1 of the Guidelines, building on the practical experience of its member CAs and Relying-Party Application Software Suppliers gained in the months since the first version was approved for use.

Motivation

An important motivation for using digital certificates with SSL/TLS was to add trust to online transactions by requiring website operators to undergo vetting with a certificate authority (CA) in order to get a certificate.

However, commercial pressures have led some CAs to introduce "domain validated" certificates. Domain validated certificates existed before validation standards, and generally only require some proof of domain control. In particular, domain validated certificates do not assert that a given legal entity has any relationship with the domain, although the domain may resemble a particular legal entity.

Most browsers' user interfaces did not clearly differentiate between low-validation certificates and those that have undergone more rigorous vetting. Since any successful SSL/TLS connection causes the padlock icon to appear, users are not likely to be aware of whether the website owner has been validated or not. As a result, fraudsters (including phishing websites) use TLS to add perceived credibility to their websites. Users of modern browsers can always check the identity of certificate owners by examining the details of the issued certificate which always indicates the certificate owner information such as the name of the organization and its location.

EV certificates are validated against both the Baseline Requirements and the Extended Validation requirements, which place additional requirements on how authorities vet companies. These include manual checks of all the domain names requested by the applicant, checks against official government sources, checks against independent information sources, and phone calls to the company to confirm the position of the applicant. If the certificate is accepted, the government-registered serial number of the business as well as the physical address are stored in the EV certificate.

By establishing stricter issuing criteria and requiring consistent application of those criteria by all participating CAs, EV certificates are intended to restore confidence among users that a website operator is a legally established business or organization with a verifiable identity.[3]

That said, there is still the concern that the same lack of accountability that led to the loss of public confidence in domain validated certificates will lead to lax certification practices that will erode the value of EV certificates as well.[4]

Issuing criteria

Only CAs who pass an independent qualified audit review may offer EV,[5] and all CAs globally must follow the same detailed issuance requirements which aim to:

It is not possible to get a wildcard Extended Validation Certificate – instead, all fully qualified domain names must be included in the certificate and inspected by the Certificate Authority [6]

User interface

Browsers with EV support display the validated identity – usually a combination of organization name and jurisdiction – contained in the EV certificate's 'subject' field. Microsoft Internet Explorer, Mozilla Firefox, Safari, Opera, and Google Chrome all provide EV support.

The Extended Validation guidelines require participating certificate authorities to assign a specific EV identifier, which is registered with the browser vendors who support EV once the certificate authority has completed an independent audit and met other criteria. The browser matches the EV identifier in the certificate with the one it has registered for the CA in question: if they match, and the certificate is verified as current, the certificate receives the enhanced EV display in the browser's user interface. In most implementations, the enhanced display includes:

By clicking on the lock symbol you can obtain more information about the certificate, including the name of the certificate authority (CA) that issued the EV certificate.

Compatibility

Most of the Extended Validation Certificates are compatible with the following browsers:[7]

Supported mobile device browsers

Web server support

As the necessary attributes to identify the legal entity and jurisdiction are included inside the certificate, Extended Validation supports all web servers supporting HTTPS.

Extended Validation certificate identification

EV certificates are standard X.509 digital certificates. The primary way to identify an EV certificate is by referencing the Certificate Policies extension field. Each issuer uses a different object identifier (OID) in this field to identify their EV certificates, and each OID is documented in the issuer's Certification Practice Statement. As with root certificate authorities in general, browsers may not recognize all issuers.

Issuer OID Certification Practice Statement
Actalis 1.3.159.1.17.1 Actalis CPS v2.3,
AffirmTrust 1.3.6.1.4.1.34697.2.1
1.3.6.1.4.1.34697.2.2
1.3.6.1.4.1.34697.2.3
1.3.6.1.4.1.34697.2.4		 AffirmTrust CPS v1.1, p. 4
A-Trust 1.2.40.0.17.1.22 a.sign SSL EV CPS v1.3.4
Buypass 2.16.578.1.26.1.3.3 Buypass Class 3 EV CPS, p. 10
Camerfirma 1.3.6.1.4.1.17326.10.14.2.1.2
1.3.6.1.4.1.17326.10.8.12.1.2		 Camerfirma CPS v3.2.3
Comodo Group 1.3.6.1.4.1.6449.1.2.1.5.1 Comodo EV CPS, p. 28
DigiCert 2.16.840.1.114412.2.1
2.16.840.1.114412.1.3.0.2		 DigiCert EV CPS v. 1.0.3, p. 56
DigiNotar (defunct[8]) 2.16.528.1.1001.1.1.1.12.6.1.1.1 DigiNotar CPS v 3.5, p. 2
E-Tugra 2.16.792.3.0.4.1.1.4 E-Tugra Certification Practice Statement (CPS), p. 2
Entrust 2.16.840.1.114028.10.1.2 Entrust EV CPS, p. 37
ETSI 0.4.0.2042.1.4
0.4.0.2042.1.5		 ETSI TS 102 042 V2.4.1, p. 18
Firmaprofesional 1.3.6.1.4.1.13177.10.1.3.10 SSL SECURE WEB SERVER CERTIFICATES, p. 6
GeoTrust 1.3.6.1.4.1.14370.1.6 GeoTrust EV CPS v. 2.6, p. 28
GlobalSign 1.3.6.1.4.1.4146.1.1 GlobalSign EV CPS v. 6.5, p. 24
Go Daddy 2.16.840.1.114413.1.7.23.3 Go Daddy EV CPS v. 2.0, p. 42
Izenpe 1.3.6.1.4.1.14777.6.1.1 DOCUMENTACIÓN ESPECÍFICA PARA CERTIFICADOS DEL TIPO: SERVIDOR SEGURO SSL, SERVIDOR SEGURO EVV, SEDE ELECTRÓNICA Y SEDE ELECTRÓNICA EV,
Kamu Sertifikasyon Merkezi 2.16.792.1.2.1.1.5.7.1.9 TÜBİTAK BİLGEM Kamu Sertifikasyon Merkezi SSL Sİ/SUE
Network Solutions 1.3.6.1.4.1.782.1.2.1.8.1 Network Solutions EV CPS v. 1.1, 2.4.1
OpenTrust/DocuSign France 1.3.6.1.4.1.22234.2.5.2.3.1 SSL Extended Validation CA Certificate Policy version
QuoVadis 1.3.6.1.4.1.8024.0.2.100.1.2 QuoVadis Root CA2 CP/CPS, p. 34
SECOM Trust Systems 1.2.392.200091.100.721.1 SECOM Trust Systems EV CPS (in Japanese), p. 2
Starfield Technologies 2.16.840.1.114414.1.7.23.3 Starfield EV CPS v. 2.0, p. 42
StartCom Certification Authority 1.3.6.1.4.1.23223.2
1.3.6.1.4.1.23223.1.1.1		 StartCom CPS, no. 4
Swisscom 2.16.756.1.83.21.0 Swisscom Root EV CA 2 CPS (in German), p. 62
SwissSign 2.16.756.1.89.1.2.1.1 SwissSign Gold CA-G2 CP/CPS, p. 7
T-Systems 1.3.6.1.4.1.7879.13.24.1 CP/CPS TeleSec ServerPass v. 3.0, p. 14
Thawte 2.16.840.1.113733.1.7.48.1 Thawte EV CPS v. 3.3, p. 95
Trustwave* 2.16.840.1.114404.1.1.2.4.1 SecureTrust EV CPS v1.1.1, p. 5
VeriSign 2.16.840.1.113733.1.7.23.6 VeriSign EV CPS v. 3.3, p. 87
Verizon Business (formerly Cybertrust) 1.3.6.1.4.1.6334.1.100.1 Cybertrust CPS v.5.2, p. 20
Wells Fargo 2.16.840.1.114171.500.9 WellsSecure PKI CPS v. 12.1.2, p. 14
WoSign 1.3.6.1.4.1.36305.2 WoSign CPS V1.2.4, p. 21

* "XRamp Security Services, Inc.", successor to SecureTrust corporation a wholly owned subsidiary of Trustwave Holdings,Inc. ("Trustwave")

Online Certificate Status Protocol

The criteria for issuing Extended Validation certificates do not require issuing Certificate Authorities to immediately support Online Certificate Status Protocol for revocation checking. However, the requirement for a timely response to revocation checks by the browser has prompted most Certificate Authorities that had not previously done so to implement OCSP support. Section 26-A of the issuing criteria requires CAs to support OCSP checking for all certificates issued after Dec. 31, 2010.

Criticism

Availability to small businesses

Since EV certificates are being promoted and reported[9] as a mark of a trustworthy website, some small business owners have voiced concerns[10] that EV certificates give undue advantage to large businesses. The published drafts of the EV Guidelines[11] excluded unincorporated business entities, and early media reports[10] focused on that issue. Version 1.0 of the EV Guidelines was revised to embrace unincorporated associations as long as they were registered with a recognized agency, greatly expanding the number of organizations that qualified for an Extended Validation Certificate.

Effectiveness against phishing attacks with IE7 security UI

In 2006, researchers at Stanford University and Microsoft Research conducted a usability study[12] of the EV display in Internet Explorer 7. Their paper concluded that "participants who received no training in browser security features did not notice the extended validation indicator and did not outperform the control group", whereas "participants who were asked to read the Internet Explorer help file were more likely to classify both real and fake sites as legitimate".

Domain validated certificates were created by CAs in the first place

While proponents of EV Certificates claim they help against phishing attacks,[13] security expert Peter Gutmann states the new class of certificates restore a CA's profits which were eroded due to the race to the bottom that occurred among issuers in the industry. Gutmann calls this phenomenon "PKI-Me-Harder".

The introduction of so-called high-assurance or extended validation (EV) certificates that allow CAs to charge more for them than standard ones, is simply a case of rounding up twice the usual number of suspects—presumably somebody’s going to be impressed by it, but the effect on phishing is minimal since it’s not fixing any problem that the phishers are exploiting. Indeed, cynics would say that this was exactly the problem that certificates and CAs were supposed to solve in the first place, and that “high-assurance” certificates are just a way of charging a second time for an existing service. A few years ago certificates still cost several hundred dollars, but now that the shifting baseline of certificate prices and quality has moved to the point where you can get them for $9.95 (or even for nothing at all) the big commercial CAs have had to reinvent themselves by defining a new standard and convincing the market to go back to the prices paid in the good old days.

This deja-vu-all-over-again approach can be seen by examining Verisign’s certificate practice statement (CPS), the document that governs its certificate issuance. The security requirements in the EV-certificate 2008 CPS are (except for minor differences in the legalese used to express them) practically identical to the requirements for Class 3 certificates listed in Verisign’s version 1.0 CPS from 1996. EV certificates simply roll back the clock to the approach that had already failed the first time it was tried in 1996, resetting the shifting baseline and charging 1996 prices as a side-effect. There have even been proposals for a kind of sliding-window approach to certificate value in which, as the inevitable race to the bottom cheapens the effective value of established classes of certificates, they’re regarded as less and less effective by the software that uses them[14]

See also

References

  1. CA/Browser Forum Mem bers
  2. http://www.eweek.com/c/a/Security/How-Can-We-Improve-Code-Signing/
  3. William Hendric. "What is an EV SSL certificate?".
  4. Hagai Bar-El. "The Inevitable Collapse of the Certificate Model". Hagai Bar-El on Security.
  5. https://cabforum.org/audit-criteria/
  6. "Guidelines For The Issuance And Management Of Extended Validation Certificates, Version 1.5.2" (PDF). CA/Browser Forum. 2014-10-16. p. 10. Retrieved 2014-12-15. Wildcard certificates are not allowed for EV Certificates.
  7. "What browsers support Extended Validation (EV) and display an EV indicator?". Symantec. Retrieved 2014-07-28.
  8. "VASCO Announces Bankruptcy Filing by DigiNotar B.V." (Press release). VASCO. September 20, 2011. Archived from the original on September 23, 2011. Retrieved September 20, 2011.
  9. Evers, Joris (February 2, 2007). "IE 7 gives secure Web sites the green light". CNet. Retrieved 2010-02-27. The colored address bar, a new weapon in the fight against phishing scams, is meant as a sign that a site can be trusted, giving Web surfers the green light to carry out transactions there.
  10. 1 2 Richmond, Riva (December 19, 2006). "Software to Spot 'Phishers' Irks Small Concerns". The Wall Street Journal. Archived from the original on April 15, 2008. Retrieved 2010-02-27.
  11. https://www.cabforum.org/Guidelines_v1_2.pdf Archived February 29, 2012, at the Wayback Machine.
  12. Jackson, Collin; Daniel R. Simon; Desney S. Tan; Adam Barth. "An Evaluation of Extended Validation and Picture-in-Picture Phishing Attacks" (PDF). Usable Security 2007.
  13. "Common Questions About Extended Validation EV SSL". DigiCert, Inc. Retrieved 15 May 2013.
  14. Gutmann, Peter (2014). Engineering Security (PDF). p. 73. Retrieved 13 March 2015.
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