100% of our funding comes from people like you. Donate today.

Internet Security Research Group (ISRG)

Combined Certificate Policy and Certification Practice Statement

Version 5.3
Updated March 22, 2024
Approved by the ISRG Policy Management Authority

1. INTRODUCTION

1.1 Overview

This combined Certificate Policy ("CP") and Certification Practice Statement ("CPS") document ("CP/CPS") outlines the certification services practices for Internet Security Research Group ("ISRG") Public Key Infrastructure ("ISRG PKI").

ISRG PKI services include, but are not limited to, issuing, managing, validating, and revoking publicly-trusted Certificates in a manner consistent with this CP/CPS.

These services are provided to the general public with exceptions as ISRG management deems appropriate or in accordance with relevant law.

ISRG PKI services are most commonly, but not necessarily exclusively, provided under the brand/trademark "Let's Encrypt".

The ISRG PKI conforms to the current version of the Baseline Requirements for the Issuance and Management of Publicly-Trusted Certificates published at https://www.cabforum.org. In the event of any inconsistency between this document and those Requirements, those Requirements take precedence over this document.

Other documents related to the behavior and control of the ISRG PKI, such as a Subscriber Agreement and Privacy Policy, can be found at https://letsencrypt.org/repository/.

Per IETF PKIX RFC 3647, this CP/CPS is divided into nine components that cover security controls, practices, and procedures for certification services provided by the ISRG PKI.

The following Certification Authorities are covered under this document:

CA Type Distinguished Name Key Pair Type and Parameters Cert SHA-256 Fingerprint Validity Period
Root CA C=US,
O=Internet Security Research Group,
CN=ISRG Root X1
RSA, n has 4096 bits, e=65537 96:BC:EC:06:26:49:76:F3:
74:60:77:9A:CF:28:C5:A7:
CF:E8:A3:C0:AA:E1:1A:8F:
FC:EE:05:C0:BD:DF:08:C6
Not Before: Jun 4 11:04:38 2015 GMT,
Not After: Jun 4 11:04:38 2035 GMT
Root CA C=US,
O=Internet Security Research Group,
CN=ISRG Root X2
ECDSA, NIST curve P-384 69:72:9B:8E:15:A8:6E:FC:
17:7A:57:AF:B7:17:1D:FC:
64:AD:D2:8C:2F:CA:8C:F1:
50:7E:34:45:3C:CB:14:70
Not Before: Sept 4 00:00:00 2020 GMT,
Not After: Sept 17 16:00:00 2040 GMT

This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit https://creativecommons.org/licenses/by/4.0/ or send a letter to Creative Commons, PO Box 1866, Mountain View, CA 94042, USA.

1.2 Document name and identification

This is the ISRG CP/CPS. This document was approved for publication by the ISRG Policy Management Authority, and is made available at https://letsencrypt.org/repository/.

The following revisions have been made:

Date Changes Version
May 5, 2023 CP and CPS documents are combined. See past documents for prior version history. 5.0
May 16, 2023 Make CPS OID and URL in Subscriber Certificates optional. 5.1
Feb 7, 2024 Add CRL Distribution Point to subscriber certificate profile. Add IssuingDistributionPoint to subordinate CRL profile. Remove id-qt-cps from subscriber certificate profile, make it optional for subordinate certificate profile. Clarify waste disposal procedure. 5.2
Mar 22, 2024 Improve accuracy of information regarding subscriber key compromise in sections 4.9.3 and 4.9.12. 5.3

1.3 PKI Participants

1.3.1 Certification Authorities

This CP/CPS applies to the ISRG CA.

1.3.2 Registration Authorities

ISRG does not delegate any of the Section 3.2 requirements to a Delegated Third Party. ISRG serves as its own RA.

1.3.3 Subscribers

See definition of "Subscriber" in Section 1.6.1 Definitions.

1.3.4 Relying Parties

See definition of "Relying Party" in Section 1.6.1 Definitions.

1.3.5 Other Participants

Other participants include CAs that cross-sign or issue subordinates to the ISRG PKI.

ISRG PKI vendors and service providers with access to confidential information or privileged systems are required to operate in compliance with this ISRG CP/CPS.

1.4 Certificate Usage

1.4.1 Appropriate Certificate Uses

No stipulation.

1.4.2 Prohibited Certificate Uses

Certificates may not be used:

  • For any application requiring fail-safe performance, such as: a) the operation of nuclear power facilities; b) air traffic control systems; c) aircraft navigation systems; d) weapons control systems; or e) any other system in which failure could lead to injury, death, or environmental damage.
  • For software or hardware architectures that provide facilities for interference with encrypted communications, including but not limited to: a) active eavesdropping (e.g., monster-in-the-middle attacks); or b) traffic management of domain names or internet protocol addresses that the organization does not own or control. Note that these restrictions shall apply regardless of whether a relying party communicating through the software or hardware architecture has knowledge of its providing facilities for interference with encrypted communications.

Note that Certificates do not guarantee anything regarding reputation, honesty, or the current state of endpoint security. A Certificate only represents that the information contained in it was verified as reasonably correct when the Certificate was issued.

1.5 Policy administration

1.5.1 Organization Administering the Document

The ISRG PMA maintains this document.

1.5.2 Contact Person

The ISRG PMA can be contacted at:

Policy Management Authority
Internet Security Research Group
P.O. Box 18666
Minneapolis, MN 55418-0666
USA

Certificate revocation requests can be made via the ACME API. Please see Section 4.9.3 for more information.

Certificate Problem Reports can be submitted via email to:

cert-prob-reports@letsencrypt.org

Issues can be filed via the GitHub repository where this document is maintained:

https://github.com/letsencrypt/cp-cps

1.5.3 Person Determining CP/CPS suitability for the policy

The ISRG PMA is responsible for determining the suitability of this CP/CPS. ISRG policy is informed by results and recommendations received from an independent auditor.

1.5.4 CP/CPS approval procedures

The ISRG PMA approves any revisions to this CP/CPS after formal review.

1.6 Definitions and Acronyms

1.6.1 Definitions

ACME Protocol: A protocol used for validation, issuance, and management of certificates. The protocol is an open standard managed by the IETF.

Baseline Requirements: A document published by the CAB Forum which outlines minimum requirements for publicly trusted Certificate Authorities.

CAB Forum: Certificate Authority / Browser Forum, a group of CAs and browsers which come together to discuss technical and policy issues related to PKI systems. (https://cabforum.org/)

Certificate Repository: A repository of information about ISRG certificates. It is located at: https://letsencrypt.org/certificates/

Policy and Legal Repository: A repository of policy and legal documents related to the ISRG PKI. It is located at: https://letsencrypt.org/repository/

Precertificate: A certificate containing a critical poison extension as defined by RFC 6962 Section 3.1.

Secure PKI Facilities: Facilities designed to protect sensitive PKI infrastructure, including CA private keys.

Trusted Contributor: A contributor who performs in a Trusted Role. Trusted Contributors may be employees, contractors, or community members. Trusted Contributors must be properly trained and qualified, and have the proper legal obligations in place before performing in a Trusted Role.

Trusted Role: A role which qualifies a person to access or modify ISRG PKI systems, infrastructure, and confidential information.

See the Baseline Requirements for additional definitions.

1.6.2 Acronyms

Acronym Meaning
ACME Automated Certificate Management Environment
DV Domain Validation
HSM Hardware Security Module
IP Internet Protocol
ISRG Internet Security Research Group
PMA Policy Management Authority
SAN Subject Alternative Name
TLD Top Level Domain

See the Baseline Requirements for additional acronyms.

1.6.3 References

CA/Browser Forum Baseline Requirements for the Issuance and Management of Publicly-Trusted Certificates

CA/Browser Forum Network and Certificate System Security Requirements

1.6.4 Conventions

Terms not otherwise defined in this CP/CPS shall be as defined in applicable agreements, user manuals, Certificate Policies, and Certification Practice Statements of the CA.

The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this CP/CPS shall be interpreted in accordance with RFC 2119.

2. PUBLICATION AND REPOSITORY RESPONSIBILITIES

2.1 Repositories

ISRG Combined CP/CPS, Privacy Policy, Subscriber Agreement, and WebTrust audit documents are made publicly available in the Policy and Legal Repository, which can be found at:

https://letsencrypt.org/repository/

2.2 Publication of information

Records of all ISRG Root and Subordinate CA certificates, including those that have been revoked, are available in the Certificate Repository:

https://letsencrypt.org/certificates/

ISRG certificates contain URLs to locations where certificate-related information is published, including revocation information via OCSP and/or CRLs.

2.3 Time or frequency of publication

New or updated ISRG Combined CP/CPS, Privacy Policy, Subscriber Agreement, and WebTrust audit documents are made publicly available as soon as possible. This typically means within seven days of receipt or approval. The ISRG PMA will approve and publish updated CP/CPS documents at least annually.

New or updated ISRG Root and Subordinate CA certificates are made publicly available as soon as possible. This typically means within seven days of creation.

2.4 Access controls on repositories

Read only access to the Policy and Legal Repository and certificate information is unrestricted. Write access is protected by logical and physical controls.

3. IDENTIFICATION AND AUTHENTICATION

3.1 Naming

3.1.1 Types of names

Certificate distinguished names and subject alternative names are compliant with the Baseline Requirements.

3.1.2 Need for names to be meaningful

ISRG certificates include a "Subject" field which identifies the subject entity (i.e. organization or FQDN). The subject entity is identified using a distinguished name.

ISRG certificates include an "Issuer" field which identifies the issuing entity. The issuing entity is identified using a distinguished name.

3.1.3 Anonymity or pseudonymity of subscribers

Subscribers are not identified in DV certificates, which have subject fields identifying only FQDNs (not people or organizations). Relying Parties should consider DV certificate Subscribers to be anonymous.

3.1.4 Rules for interpreting various name forms

Distinguished names in certificates are to be interpreted using X.500 standards and ASN.1 syntax.

Certificates do not assert any specific relationship between Subscribers and registrants of domain names contained in certificates.

Regarding Internationalized Domain Names, ISRG will have no objection so long as the domain is resolvable via DNS. It is the CA's position that homoglyph spoofing should be dealt with by registrars, and Web browsers should have sensible policies for when to display the punycode versions of names.

3.1.5 Uniqueness of names

No stipulation.

3.1.6 Recognition, authentication, and role of trademarks

ISRG reserves the right to make all decisions regarding Subscriber names in certificates. Entities requesting certificates will be required to demonstrate their right to use names (e.g. demonstrate control of an FQDN), but trademark rights are not verified.

While ISRG will comply with U.S. law and associated legal orders, it is ISRG's position that trademark enforcement responsibility for domain names should lie primarily with domain registrars and the legal system.

3.2 Initial identity validation

ISRG may elect not to issue any certificate at its sole discretion.

3.2.1 Method to prove possession of private key

Applicants are required to prove possession of the Private Key corresponding to the Public Key in a Certificate request by signing the CSR provided to the Finalize method of the ACME Protocol defined in RFC 8555, Section 7.4.

3.2.2 Authentication of Organization and Domain Identity

ISRG only issues Domain Validation (DV) certificates. All FQDNs which will be listed in the Common Name and list of SANs in the certificate are fully validated prior to issuance.

ISRG uses three methods for validating domain control:

  1. DNS Change (Baseline Requirements Section 3.2.2.4.7)
  2. Agreed-Upon Change to Website - ACME (Baseline Requirements Section 3.2.2.4.19)
  3. TLS Using ALPN (Baseline Requirements Section 3.2.2.4.20)

Validation for Wildcard Domain Names must be completed using the DNS Change method.

All validations are performed in compliance with the current CAB Forum Baseline Requirements at the time of validation.

3.2.3 Authentication of individual identity

ISRG does not issue Subscriber Certificates containing Subject Identity Information, and thus does not validate any natural person's identity.

3.2.4 Non-verified subscriber information

Non-verified Applicant information is not included in ISRG certificates.

3.2.5 Validation of authority

ISRG does not issue Subscriber Certificates containing Subject Identity Information, and thus does not validate any natural person's authority to request certificates on behalf of organizations.

3.2.6 Criteria for Interoperation or Certification

ISRG discloses Cross Certificates in its Certificate Repository.

3.3 Identification and authentication for re-key requests

3.3.1 Identification and authentication for routine re-key

See Section 4.7.

3.3.2 Identification and authentication for re-key after revocation

See Section 4.7.

3.4 Identification and authentication for revocation request

Identification and authentication for revocation requests is performed by ISRG in compliance with Section 4.9 of this document.

Identification and authentication are not required when ISRG is requesting revocation.

4. CERTIFICATE LIFE-CYCLE OPERATIONAL REQUIREMENTS

4.1 Certificate Application

4.1.1 Who can submit a certificate application

Anyone may submit an application for a certificate via the ACME protocol. Issuance will depend on proper validation and compliance with ISRG policies.

4.1.2 Enrollment process and responsibilities

The enrollment process involves the following steps, in no particular order:

  • Generating a key pair using secure methods
  • Submitting a request for a certificate containing all necessary information, including the public key
  • Agreeing to the relevant Subscriber Agreement

4.2 Certificate application processing

4.2.1 Performing identification and authentication functions

ISRG performs all identification and authentication functions in accordance with this CP/CPS. This includes validation per Section 3.2.2.

Certificate information is verified using data and documents obtained no more than 90 days prior to issuance of the Certificate.

As part of the issuance process, ISRG checks for CAA records and follows the processing instructions found, for each dNSName in the subjectAltName extension of the certificate to be issued, as specified in RFC 8659 and Section 3.2.2.8 of the Baseline Requirements. The CA acts in accordance with CAA records if present. If the CA issues, the CA will do so within the TTL of the CAA record, or 8 hours, whichever is greater. The CA's CAA identifying domain is letsencrypt.org.

ISRG maintains a list of high-risk domains and blocks issuance of certificates for those domains. Requests for removal from the high-risk domains list will be considered, but will likely require further documentation confirming control of the domain from the Applicant, or other proof as ISRG management deems necessary.

4.2.2 Approval or rejection of certificate applications

Approval requires successful completion of validation per Section 3.2.2 as well as compliance with all CA policies.

Certificates containing a new gTLD under consideration by ICANN will not be issued. The CA Server will periodically be updated with the latest version of the Public Suffix List and will consult the ICANN domains section for every requested DNS identifier. The CA server will not validate or issue for DNS identifiers that do not have a Public Suffix in the ICANN domains section.

4.2.3 Time to process certificate applications

No stipulation.

4.3 Certificate issuance

4.3.1 CA actions during certificate issuance

At a high level, the following steps are taken during issuance of a Subscriber Certificate. ISRG's automated processes confirm that all names which will appear in the Common Name and/or list of SANs of the certificate have been properly validated to be controlled by the Subscriber requesting the certificate. The certificate is signed by a Subordinate CA in an HSM. After issuance is complete, the certificate is stored in a database and made available to the Subscriber.

4.3.2 Notification to subscriber by the CA of issuance of certificate

Subscriber Certificates are made available to Subscribers via the ACME protocol as soon after issuance as reasonably possible. Typically this happens within a few seconds.

4.4 Certificate acceptance

4.4.1 Conduct constituting certificate acceptance

No stipulation.

4.4.2 Publication of the certificate by the CA

See Section 2.2 of this document for Root and Subordinate CA certificate publication information.

All Subscriber Certificates are made available to Subscribers via the ACME protocol.

For each Subscriber Certificate issuance, ISRG signs a Precertificate and submits it to a selection of Certificate Transparency logs. Upon successful submission, ISRG attempts to issue a certificate that matches the Precertificate (per RFC 6962 Section 3.1) and embeds at least two of the resulting Signed Certificate Timestamps (SCTs). ISRG submits the resulting final certificate to a selection of Certificate Transparency logs on a best-effort basis.

ISRG does not guarantee issuance of a final certificate for every Precertificate.

4.4.3 Notification of certificate issuance by the CA to other entities

See Section 4.4.2.

4.5 Key pair and certificate usage

4.5.1 Subscriber private key and certificate usage

Subscriber usage of Private Keys and Certificates is governed by the Let's Encrypt Subscriber Agreement.

4.5.2 Relying party public key and certificate usage

Relying Parties should fully evaluate the context in which they are relying on certificates and the information contained in them, and decide to what extent the risk of reliance is acceptable. If the risk of relying on a certificate is determined to be unacceptable, then Relying Parties should not use the certificate or should obtain additional assurances before using the certificate.

ISRG does not warrant that any software used by Relying Parties to evaluate or otherwise handle certificates does so properly.

4.6 Certificate renewal

Certificate renewal requests are treated as applications for new certificates.

4.6.1 Circumstance for certificate renewal

No stipulation.

4.6.2 Who may request renewal

No stipulation.

4.6.3 Processing certificate renewal requests

No stipulation.

4.6.4 Notification of new certificate issuance to subscriber

No stipulation.

4.6.5 Conduct constituting acceptance of a renewal certificate

No stipulation.

4.6.6 Publication of the renewal certificate by the CA

No stipulation.

4.6.7 Notification of certificate issuance by the CA to other entities

No stipulation.

4.7 Certificate re-key

Certificate re-key requests are treated as applications for new certificates.

4.7.1 Circumstance for certificate re-key

No stipulation.

4.7.2 Who may request certification of a new public key

No stipulation.

4.7.3 Processing certificate re-keying requests

No stipulation.

4.7.4 Notification of new certificate issuance to subscriber

No stipulation.

4.7.5 Conduct constituting acceptance of a re-keyed certificate

No stipulation.

4.7.6 Publication of the re-keyed certificate by the CA

No stipulation.

4.7.7 Notification of certificate issuance by the CA to other entities

No stipulation.

4.8 Certificate modification

Certificate modification requests are treated as applications for new certificates.

4.8.1 Circumstance for certificate modification

No stipulation.

4.8.2 Who may request certificate modification

No stipulation.

4.8.3 Processing certificate modification requests

No stipulation.

4.8.4 Notification of new certificate issuance to subscriber

No stipulation.

4.8.5 Conduct constituting acceptance of modified certificate

No stipulation.

4.8.6 Publication of the modified certificate by the CA

No stipulation.

4.8.7 Notification of certificate issuance by the CA to other entities

No stipulation.

4.9 Certificate revocation and suspension

4.9.1 Circumstances for revocation

ISRG will follow the Baseline Requirements and revoke a certificate in accordance with Section 4.9.1.1 and Section 4.9.1.2 of the Baseline Requirements.

4.9.2 Who can request revocation

Anyone can revoke any certificate via the ACME API if they can sign the revocation request with the private key associated with the certificate. No other information is required in such cases.

Anyone can revoke any certificate via the ACME API if they can demonstrate control over all FQDNs covered by the certificate. No other information is required in such cases.

Subscribers can revoke certificates belonging to their accounts via the ACME API if they can sign the revocation request with the associated account private key. No other information is required in such cases.

ISRG may administratively revoke certificates if it determines that the Subscriber has failed to meet obligations under this CP/CPS, the relevant Subscriber Agreement, or any other applicable agreement, regulation, or law. Certificates may also be administratively revoked at ISRG management's discretion.

4.9.3 Procedure for revocation request

Anyone may make revocation requests, at any time, via the Certificate Revocation interface of the ACME Protocol defined in RFC 8555 section 7.6. See section 4.9.12 for additional information.

Requests for revocation may also be made by emailing cert-prob-reports@letsencrypt.org. ISRG maintains a continuous (24x7) ability to accept and respond to revocation requests and Certificate Problem Reports. ISRG will respond to such requests within 24 hours, though an investigation into the legitimacy of the request may take longer.

An investigation into whether revocation or other appropriate action is warranted will be based on at least the following criteria:

  1. The nature of the alleged problem;
  2. The number of Certificate Problem Reports received about a particular Certificate or Subscriber;
  3. The entity making the complaint; and
  4. Relevant legislation.

4.9.4 Revocation request grace period

There is no grace period for a revocation request. A revocation request must be made as soon as circumstances requiring revocation are confirmed.

4.9.5 Time within which CA must process the revocation request

Investigation into a revocation request will begin within 24 hours of receiving the request. Revocation, if necessary, will be carried out within the timeframes set by Baseline Requirements Sections 4.9.1.1 and 4.9.1.2.

4.9.6 Revocation checking requirement for relying parties

Relying Parties should verify the validity of certificates via CRL or OCSP prior to relying on certificates. Relying Parties who cannot or choose not to check certificate expiration or revocation status, but decide to rely on a certificate anyway, do so at their own risk.

See Section 4.5.2.

4.9.7 CRL issuance frequency (if applicable)

ISRG will issue updated CRLs with the frequency required by the Baseline Requirements.

4.9.8 Maximum latency for CRLs (if applicable)

When a Relying Party requests a CRL, the time to receive a response will be less than ten seconds under normal operating conditions.

4.9.9 On-line revocation/status checking availability

Revocation information will be made available for all Subscriber Certificates via OCSP. Revocation information may be made available for Subordinate CA certificates via OCSP.

4.9.10 On-line revocation checking requirements

ISRG provides OCSP responses in compliance with Baseline Requirements Section 4.9.10.

4.9.11 Other forms of revocation advertisements available

ISRG allows for OCSP stapling.

4.9.12 Special requirements re key compromise

ISRG considers key compromise demonstrated when revocation is successfully requested via the ACME Protocol and the request was signed by the private key of the certificate. Key compromise can be demonstrated via ACME even for certificates that have previously been revoked without demonstrating key compromise.

ISRG may also consider key compromise demonstrated by non-ACME methods.

When key compromise is demonstrated, ISRG blocks the key from use in future issuance and revokes all unexpired certificates that used that key.

ISRG does not consider a key compromised unless key compromise is demonstrated, but may revoke a certificate with reason code keyCompromise for other reasons. In these cases ISRG may not block the key from future use or revoke certificates using that key, even if the stated reason code is keyCompromise.

4.9.13 Circumstances for suspension

ISRG does not suspend certificates.

4.9.14 Who can request suspension

Not applicable.

4.9.15 Procedure for suspension request

Not applicable.

4.9.16 Limits on suspension period

Not applicable.

4.10 Certificate status services

4.10.1 Operational characteristics

ISRG will retain revocation entries on a CRL or OCSP Response as required by the Baseline Requirements.

4.10.2 Service availability

All certificate status services are made available at all times (24x7) if possible.

4.10.3 Optional features

No stipulation.

4.11 End of subscription

A Subscriber's subscription ends once all of Subscriber's ISRG certificates have expired or been revoked.

Prior to expiration of a Subscriber's certificate, ISRG may send Subscriber a notice regarding upcoming Certificate expiration if a contact email address was provided.

4.12 Key escrow and recovery

4.12.1 Key escrow and recovery policy and practices

Not applicable.

4.12.2 Session key encapsulation and recovery policy and practices

Not applicable.

5. MANAGEMENT, OPERATIONAL, AND PHYSICAL CONTROLS

5.1 PHYSICAL SECURITY CONTROLS

5.1.1 Site location and construction

ISRG Secure PKI Facilities are located in the United States, as are all copies of ISRG CA Private Keys.

ISRG maintains at least two Secure PKI Facilities at all times for the sake of redundancy.

Secure PKI Facilities are constructed so as to prevent unauthorized entry or interference.

Secure PKI Facilities are monitored at all times (24x7) so as to prevent unauthorized entry or interference.

5.1.2 Physical access

Physical access to ISRG Secure PKI Facilities is restricted to authorized ISRG employees, vendors, and contractors, for whom access is required in order to execute their jobs. Access restrictions are strongly enforced via multi-factor authentication mechanisms.

5.1.3 Power and air conditioning

Redundant power sources are readily available at each Secure PKI Facility, and are designed to meet ISRG's operating requirements.

Air conditioning systems at each Secure PKI Facility are designed to meet ISRG's operating requirements.

5.1.4 Water exposures

ISRG Secure PKI Facilities are designed to protect ISRG infrastructure from water exposure/damage.

5.1.5 Fire prevention and protection

ISRG Secure PKI Facilities are designed to prevent fire and provide suppression if necessary.

5.1.6 Media storage

ISRG Secure PKI Facilities are designed to prevent accidental damage or unauthorized access to media.

5.1.7 Waste disposal

ISRG prohibits any media that contains or has contained sensitive data from leaving organizational control in such a state that it may still be operational, or contain recoverable data. Such media may include printed documents or digital storage devices. When media that has contained sensitive information reaches its end of life, the media is securely erased or physically destroyed such that recovery is reasonably believed to be impossible.

5.1.8 Off-site backup

ISRG maintains multiple backups of ISRG CA Private Keys at multiple Secure PKI Facilities. All backups are stored on devices meeting FIPS 140-2 Level 3 (or higher) criteria.

5.2 Procedural controls

5.2.1 Trusted roles

All persons, employees or otherwise, with the ability to materially impact the operation of ISRG PKI systems and services, or the ability to view CA confidential information, must do so while designated as serving in a Trusted Role.

Trusted Roles include, but are not limited to:

  • PKI Administrators
    • Confidential Information: Direct access on a need-to-know basis
    • Environment Access: Test yes, production yes
    • CA Decision-making Authority: Yes
  • PKI Staff
    • Confidential Information: View on a need-to-know basis
    • Environment Access: Test yes, production no
    • CA Decision-making Authority: Yes
  • PKI Partners
    • Confidential Information: View on a need-to-know basis
    • Environment Access: Test yes, production no
    • CA Decision-making Authority: No
  • Non-PKI Staff
    • Confidential Information: View on a need-to-know basis
    • Environment Access: Test no, production no
    • CA Decision-making Authority: No

Each Trusted Role requires an appropriate level of training and legal obligation.

5.2.2 Number of Individuals Required per Task

A number of tasks, such as key generation and entering areas physically containing operating ISRG PKI systems, require at least two people in Trusted Roles to be present.

5.2.3 Identification and authentication for each role

Anyone performing work in a Trusted Role must identify and authenticate themselves before accessing ISRG PKI systems or confidential information.

5.2.4 Roles requiring separation of duties

See Section 6.6.1.

5.3 Personnel controls

5.3.1 Qualifications, experience, and clearance requirements

ISRG management is responsible for making sure that Trusted Contributors are trustworthy and competent, which includes having proper qualifications and experience.

ISRG management ensures this with appropriate interviewing practices, training, background checks, and regular monitoring and review of Trusted Contributor job performance.

5.3.2 Background check procedures

Trusted Contributors must undergo a background check prior to performing in a trusted role. ISRG management will review the results of background checks for problematic issues prior to approving performance of a trusted role.

Background checks include, without limitation, criminal background and employment history.

5.3.3 Training Requirements and Procedures

Trusted Contributors must be trained on topics relevant to the role in which they will perform.

Training programs are developed for each role by ISRG management and Security Officers.

5.3.4 Retraining frequency and requirements

Training is repeated annually for each Trusted Contributor, and covers topics necessary to maintain skill level requirements.

Training is also offered whenever changes in the industry or operations require it in order for contributors to competently perform in their trusted roles.

5.3.5 Job rotation frequency and sequence

No stipulation.

5.3.6 Sanctions for unauthorized actions

Action will be taken to safeguard ISRG and its Subscribers whenever ISRG Trusted Contributors, whether through negligence or malicious intent, fail to comply with ISRG policies including this CP/CPS.

Actions taken in response to non-compliance may include termination, removal from trusted roles, or reporting to legal authorities.

Once management becomes aware of non-compliance the Trusted Contributor(s) in question will be removed from trusted roles until a review of their actions is complete.

5.3.7 Independent Contractor Controls

Independent contractors who are assigned to perform Trusted Roles are subject to the duties and requirements specified for such roles in this CP/CPS. This includes those described in Section 5.3. Potential sanctions for unauthorized activities by independent contractors are described in Section 5.3.6.

5.3.8 Documentation supplied to personnel

Trusted Contributors are provided with all documentation necessary to perform their duties. This always includes, at a minimum, a copy of the ISRG CP/CPS and Information Security Policy.

5.4 Audit logging procedures

5.4.1 Types of events recorded

Audit logs are generated for all events related to CA security (physical and logical) and certificate issuance. Logs are automatically generated whenever possible. When it is necessary to manually log information, logs are kept on paper with written confirmation from a witness and securely stored. All audit logs, electronic or otherwise, shall be retained and made available to compliance auditors upon request.

At a minimum, each audit record includes:

  • Date and time of entry;
  • Identity of the person (or machine) making the entry; and
  • Description of the entry.

5.4.2 Frequency for Processing and Archiving Audit Logs

No stipulation.

5.4.3 Retention Period for Audit Logs

Audit logs are retained for at least the period required by Section 5.4.3 of the Baseline Requirements.

5.4.4 Protection of Audit Log

Audit logs, whether in production or archived, are protected using both physical and logical access controls.

5.4.5 Audit Log Backup Procedures

ISRG makes regular backup copies of audit logs.

5.4.6 Audit Log Accumulation System (internal vs. external)

Audit data is automatically generated and reported/recorded by operating systems, CA software applications, and network devices. Systems are in place to ensure proper reporting and recording of audit data, and the failure of such systems may lead to suspension of CA services until proper audit log reporting is restored.

5.4.7 Notification to event-causing subject

No stipulation.

5.4.8 Vulnerability assessments

Audit logs are monitored by Trusted Contributors, including operations and engineering staff. Anomalies indicating attempted breaches of CA security are reported and investigated.

Internal and external vulnerability scans occur at least every three months.

Extensive vulnerability assessments for ISRG infrastructure are conducted at least annually by qualified third parties.

ISRG Security Officers perform a risk assessment at least annually. This risk assessment:

  1. Identifies foreseeable internal and external threats that could result in unauthorized access, disclosure, misuse, alteration, or destruction of any Certificate Data or Certificate Management Processes;

  2. Assesses the likelihood and potential damage of these threats, taking into consideration the sensitivity of the Certificate Data and Certificate Management Processes; and

  3. Assesses the sufficiency of the policies, procedures, information systems, technology, and other arrangements that the CA has in place to counter such threats.

5.5 Records archival

5.5.1 Types of records archived

ISRG archives all audit logs, the contents of which are described in Section 5.4.1. ISRG also archives other documents and information critical to understanding the historical security and performance of the CA's duties.

5.5.2 Retention period for archive

Archived records are retained for at least the period required by Section 5.5.2 of the Baseline Requirements.

5.5.3 Protection of archive

Archives are protected from unauthorized modification or destruction by strong security and environmental controls.

5.5.4 Archive backup procedures

Archives are backed up regularly.

5.5.5 Requirements for time-stamping of records

Records are time-stamped as they are created.

Machine-created records use system time, which is synchronized automatically with third-party time sources. Machines without network access have the time set manually.

Manual records use a manually entered date and time, complete with time zone in use.

5.5.6 Archive collection system (internal or external)

No stipulation.

5.5.7 Procedures to obtain and verify archive information

No stipulation.

5.6 Key changeover

When a CA certificate is nearing expiration, a key changeover procedure is used to transition to a new CA certificate. The following steps constitute a key changeover procedure:

  1. Some time prior to CA certificate expiration, the private key associated with the expiring certificate is no longer used to sign new certificates. It is only used to sign CRLs and OCSP responses.

  2. A new key pair is generated and a new CA certificate is created containing the new key pair's public key. This new key pair is used to sign new certificates.

  3. If necessary or desired, the old private key associated with the expiring certificate may be used to cross-sign the new certificate.

5.7 Compromise and disaster recovery

5.7.1 Incident and compromise handling procedures

ISRG has created and maintains incident response procedures for a range of potential compromise and disaster situations. Such situations include, but are not limited to, natural disasters, security incidents, and equipment failure. Incident response plans are reviewed, potentially updated, and tested on at least an annual basis.

5.7.2 Recovery Procedures if Computing resources, software, and/or data are corrupted

In the event that computing resources, software, and/or data are corrupted or otherwise damaged, ISRG will assess the situation, including its impact on CA integrity and security, and take appropriate action. CA operations may be suspended until mitigation is complete. Subscribers may be notified if corruption or damage has a material impact on the service provided to them.

5.7.3 Recovery Procedures after Key Compromise

In the event that an ISRG CA Private Key is compromised, or suspected to be compromised, ISRG will immediately launch a thorough investigation. Forensic evidence will be collected and secured as quickly as possible. If it cannot be determined with a high degree of certainty that the private key in question was not compromised, then the following steps may be taken in whatever order ISRG Security Officers deem most appropriate:

  • Certificates relying on the private key in question will be revoked.
  • ISRG will notify root programs relying on the integrity of the key in question.
  • ISRG will notify Subscribers relying on the integrity of the key in question.

5.7.4 Business continuity capabilities after a disaster

ISRG maintains multiple geographically diverse facilities, each of which is capable of operating ISRG CA systems independently. In the event that a disaster entirely disables one facility, ISRG CA operations will fail over to another facility.

5.8 CA or RA termination

In the event that ISRG CA services are to be terminated:

  • All affected parties, including root programs and Subscribers, will be provided with notice as far in advance as reasonably possible.
  • The ISRG PMA will create and review a termination plan.

If a suitable successor entity exists, the following steps will be taken:

  • ISRG CA Private Keys, records, logs, and other critical documentation will be transferred to the successor organization in a secure and compliant manner.
  • Arrangements will be made for compliant continuation of CA responsibilities.

If a suitable successor entity does not exist, the following steps will be taken:

  • All certificates issued will be revoked and final CRLs will be published.
  • ISRG CA Private Keys will be destroyed.
  • CA records, logs, and other critical documentation will be transferred to a third party or government entity with appropriate legal controls in place to protect information while allowing its use in compliance with relevant policies and the law.

6. TECHNICAL SECURITY CONTROLS

6.1 Key pair generation and installation

6.1.1 Key pair generation

ISRG CA Private Keys are generated by HSMs meeting the requirements of Section 6.2.1. This occurs during a ceremony meeting the requirements of this CP/CPS.

See the Let's Encrypt Subscriber Agreement for information regarding Subscriber key pair generation.

6.1.2 Private key delivery to subscriber

ISRG never generates or has access to Subscriber Private Keys.

6.1.3 Public key delivery to certificate issuer

Subscriber Public Keys are communicated to ISRG electronically via the ACME protocol.

6.1.4 CA public key delivery to relying parties

ISRG Public Keys are provided to Relying Parties as part of browser, operating system, or other software trusted root certificate lists.

ISRG Public Keys are also available in the Certificate Repository.

6.1.5 Key sizes

ISRG Root CA RSA Private Keys are at least 4096 bits in length.

ISRG Root CA ECDSA Private Keys are at least 384 bits in length.

ISRG Subordinate CA RSA Private Keys are at least 2048 bits in length.

ISRG Subordinate CA ECDSA Private Keys are at least 384 bits in length.

6.1.6 Public key parameters generation and quality checking

ISRG uses HSMs conforming to FIPS 186-4, capable of providing random number generation and on-board creation of at least 2048-bit RSA keys and at least 384-bit ECDSA keys.

Per NIST SP 800‐89 (https://nvlpubs.nist.gov/nistpubs/Legacy/SP/nistspecialpublication800-89.pdf), section 5.3.3, the CA ensures that:

  • the public exponent of any RSA key used in a DV-SSL Certificate is in the range between 216+1 and 2256-1, and
  • the modulus of such a certificate is an odd number, not the power of a prime, and has no factors smaller than 752.

6.1.7 Key usage purposes (as per X.509 v3 key usage field)

See Section 7, Certificate Profiles.

6.2 Private Key Protection and Cryptographic Module Engineering Controls

6.2.1 Cryptographic module standards and controls

ISRG uses HSMs meeting FIPS 140-2 Level 3 (or higher) requirements.

6.2.2 Private key (n out of m) multi-person control

ISRG has put into place security mechanisms which require multiple people performing in Trusted Roles in order to access ISRG CA Private Keys, both physically and logically. This is true for all copies of Private Keys, in production or backups, on-site or off-site.

6.2.3 Private key escrow

ISRG does not escrow CA Private Keys and does not provide such a service for Subscribers.

6.2.4 Private key backup

Critical ISRG CA Private Keys are backed up both on-site and off-site, in multiple geographic locations, under multi-person control.

6.2.5 Private key archival

ISRG does not archive private keys.

6.2.6 Private key transfer into or from a cryptographic module

ISRG CA Private Keys are generated inside HSMs and are only transferred between HSMs for redundancy or backup purposes. When transferred, keys are encrypted prior to leaving HSMs and unwrapped only inside destination HSMs. Keys never exist in plain text form outside of HSMs.

6.2.7 Private key storage on cryptographic module

ISRG CA Private Keys are stored on HSMs meeting the requirements stated in Section 6.2.1.

6.2.8 Activating Private Keys

ISRG CA Private Keys are always stored on HSMs and activated using the mechanisms provided by the HSM manufacturer.

6.2.9 Deactivating Private Keys

ISRG CA Private Keys are always stored on HSMs and deactivated using the mechanisms provided by the HSM manufacturer.

6.2.10 Destroying Private Keys

ISRG CA Private Keys are destroyed by Trusted Contributors using a FIPS 140-2 (or higher) validated zeroize method provided by the HSMs storing the keys. Physical destruction of the HSM is not required.

See the Let's Encrypt Subscriber Agreement for information regarding Subscriber private key destruction.

6.2.11 Cryptographic Module Capabilities

See Section 6.2.1.

6.3 Other aspects of key pair management

6.3.1 Public key archival

See Section 5.5.

6.3.2 Certificate operational periods and key pair usage periods

The validity periods of ISRG Root CA, Subordinate CA, and Subscriber Certificates are profiled in Section 7 of this document.

ISRG Root and Subordinate CA key pairs have lifetimes corresponding to their certificates. Subscriber key pairs may be re-used indefinitely provided that there is no suspicion or confirmation of Private Key compromise.

6.4 Activation data

6.4.1 Activation data generation and installation

Activation data used to activate ISRG CA Private Keys is generated during a key ceremony. Activation data is then transferred to the person who will use it or the place it will be stored.

6.4.2 Activation data protection

Activation data is protected from unauthorized disclosure via both physical and logical means.

6.4.3 Other aspects of activation data

No stipulation.

6.5 Computer security controls

6.5.1 Specific computer security technical requirements

ISRG CA infrastructure and systems are appropriately secured in order to protect CA software and data from unauthorized access or modification. Access to systems is secured via multi-factor authentication whenever possible. Security updates are applied in a timely fashion. Vulnerability scans are run regularly.

6.5.2 Computer security rating

No stipulation.

6.6 Life cycle technical controls

6.6.1 System development controls

ISRG has developed policies and procedures to effectively manage the acquisition and development of its CA systems.

ISRG CA hardware and software is dedicated solely to performing CA functions.

Vendor selection includes an evaluation of reputation in the market, ability to deliver a quality product, vulnerability history, and the likelihood of remaining viable in the future. Physical product deliveries are received by Trusted Contributors and inspected for evidence of tampering. HSMs are shipped in tamper-evident packaging and tamper bag serial numbers are confirmed with the vendor upon receipt.

ISRG maintains a CA testing environment separate from the production environment. The testing environment reasonably emulates the production environment but does not have access to ISRG CA Private Keys used in trusted certificates. The purpose of this testing environment is to allow extensive but safe testing of software and systems that are or will be deployed to the CA production environment.

ISRG has developed and maintains appropriate change control policies and procedures to be followed any time CA systems are modified. Changes to ISRG CA systems require review by qualified Trusted Personnel who are different from the person requesting the change. Change requests are documented, as are any subsequent required reviews or approvals.

When ISRG develops software to be used in CA operations, software development policies are put into place and methodologies are followed in order to ensure software quality and integrity. This always includes a requirement for peer review of code changes. Code commit privileges are granted only to qualified and trusted contributors. Nobody with the ability to deploy software to ISRG PKI systems (e.g. PKI Administrators) may have the ability to unilaterally commit code to core CA software. The reverse is also true.

6.6.2 Security management controls

ISRG has mechanisms in place to control and monitor security-related configuration of CA systems. Equipment and software is installed and configured using a documented change control process. Software integrity is verified upon deployment using checksums.

6.6.3 Life cycle security controls

No stipulation.

6.7 Network security controls

ISRG implements reasonable network security safeguards and controls to prevent unauthorized access to CA systems and infrastructure. ISRG complies with the CA/Browser Forum's Network and Certificate System Security Requirements.

ISRG's network is multi-tiered and utilizes the principle of defense in depth.

Firewalls and other critical CA systems are configured based on a necessary-traffic-only allowlisting policy whenever possible.

ISRG Root CA Private Keys are stored offline in a secure manner.

6.8 Time-stamping

See Section 5.5.5.

7. CERTIFICATE, CRL, AND OCSP PROFILES

7.1 Certificate profile

All fields are as specified in RFC 5280, including fields and extensions not specifically mentioned. Extensions are not marked critical unless specifically described here as critical.

Root CA Certificate

Field or extension Value
Serial Number Must be unique, with 64 bits of output from a CSPRNG
Issuer Distinguished Name C=US, O=Internet Security Research Group, CN=ISRG Root X<n>
where n is an integer representing the instance of the Root
CA Certificate. For example, ISRG Root X1, ISRG Root X2, etc.
Subject Distinguished Name Same as Issuer DN
Validity Period Up to 25 years
Basic Constraints Critical.
cA=True, pathLength constraint absent
Key Usage Critical.
keyCertSign, cRLSign

Subordinate CA Certificate

Field or extension Value
Serial Number Must be unique, with 64 bits of output from a CSPRNG
Issuer Distinguished Name Derived from Issuer certificate
Subject Distinguished Name C=US, O=Let's Encrypt, CN=Let's Encrypt Authority X<n>; or
C=US, O=Let's Encrypt, CN=[ER]<n>
where n is an integer representing the instance of the Subordinate CA Certificate.
Validity Period Up to 8 years
Basic Constraints Critical.
cA=True, pathLength constraint 0
Key Usage Critical.
keyCertSign, cRLSign, digitalSignature
Extended Key Usage TLS Server Authentication, TLS Client Authentication
Certificate Policies CAB Forum Domain Validated (2.23.140.1.2.1)
Optionally, ISRG Domain Validated (1.3.6.1.4.1.44947.1.1.1) with qualifier id-qt-cps pointing to this CP/CPS
Authority Information Access Contains CA Issuers URL (and optionally an OCSP URL). URLs vary based on Issuer.
CRL Distribution Points Contains a CRL URL. URL varies based on Issuer.

DV-SSL Subscriber Certificate

Field or extension Value
Serial Number Must be unique, with 64 bits of output from a CSPRNG
Issuer Distinguished Name Derived from Issuer certificate
Subject Distinguished Name CN=none, or one of the values from the Subject Alternative Name extension
Validity Period Up to 100 days
Basic Constraints Critical.
cA=False
Key Usage Critical.
digitalSignature, keyEncipherment
Extended Key Usage TLS Server Authentication, TLS Client Authentication
Certificate Policies CAB Forum Domain Validated (2.23.140.1.2.1)
Authority Information Access Contains CA Issuers URL and OCSP URL. URLs vary based on Issuer.
Subject Public Key RSA with modulus between 2048 and 4096, inclusive; or namedCurve P-256; or namedCurve P-384
Subject Alternative Name A sequence of 1 to 100 dNSNames
TLS Feature Contains status_request if requested by the Subscriber in the CSR
Precertificate poison Per RFC 6962. In Precertificates only.
Signed Certificate Timestamp List Per RFC 6962. In final certificates only.
CRL Distribution Point If present, contains a URI to the CRL shard whose scope includes this certificate.

Root OCSP Signing Certificate

Signed by a Root CA Certificate, these Certificates may sign OCSP responses for Subordinate CA Certificates.

Field or extension Value
Serial Number Must be unique, with 64 bits of output from a CSPRNG
Issuer Distinguished Name Derived from Issuer
Subject Distinguished Name C=US, O=Internet Security Research Group, CN=ISRG Root OCSP X<n>
where n is an integer depending on the Issuer
Validity Period Up to 8 years
Basic Constraints Critical.
cA=False
Key Usage Critical.
digitalSignature
Extended Key Usage Critical.
OCSPSigning
No Check Present

7.1.1 Version number(s)

All certificates use X.509 version 3.

7.1.2 Certificate Content and Extensions; Application of RFC 5280

See section 7.1.

7.1.3 Algorithm object identifiers

7.1.3.1 SubjectPublicKeyInfo

No stipulation.

7.1.3.2 Signature AlgorithmIdentifier

Name Object identifier
sha256WithRSAEncryption 1.2.840.113549.1.1.11
ecdsa-with-SHA384 1.2.840.10045.4.3.3

7.1.4 Name forms

ISRG does not issue Subscriber Certificates containing the subject:organizationName, subject:givenName, subject:surname, subject:streetAddress, subject:localityName, subject:stateOrProvinceName, subject:postalCode, subject:countryName, or subject:organizationalUnitName fields. The subject:organizationName and subject:countryName fields may be present in our Root CA, Subordinate CA, and other operational certificates.

7.1.5 Name constraints

No stipulation.

7.1.6 Certificate policy object identifier

See section 7.1.

7.1.7 Usage of Policy Constraints extension

Not applicable.

7.1.8 Policy qualifiers syntax and semantics

See section 7.1.

7.1.9 Processing semantics for the critical Certificate Policies extension

Not applicable.

7.2 CRL profile

For the status of Subordinate CA Certificates:

Field or Extension Value
Version V2
Signature Algorithm sha256WithRSAEncryption or ecdsa-with-SHA384
ThisUpdate The date and time when the Certificate revocation list validity begins
NextUpdate Up to ThisUpdate + 1 year
RevokedCertificates Contains: userCertificate, revocationDate, reasonCode
CRLnumber The serial number of this CRL in an incrementally increasing sequence of CRLs
IssuingDistributionPoint If present, asserts onlyContainsCACerts

For the status of Subscriber Certificates:

Field or Extension Value
Version V2
Signature Algorithm sha256WithRSAEncryption or ecdsa-with-SHA384
ThisUpdate The date and time when the Certificate revocation list validity begins
NextUpdate Up to ThisUpdate + 10 days
RevokedCertificates Contains: userCertificate, revocationDate, reasonCode
CRLnumber The serial number of this CRL in an incrementally increasing sequence of CRLs
IssuingDistributionPoint Contains a distributionPoint pointing to the CRL's unique URL

7.2.1 Version number(s)

See section 7.2.

7.2.2 CRL and CRL entry extensions

No stipulation.

7.3 OCSP profile

ISRG OCSP responders implement the RFC 5019 profile of RFC 6960.

7.3.1 Version number(s)

No stipulation.

7.3.2 OCSP extensions

No stipulation.

8. COMPLIANCE AUDIT AND OTHER ASSESSMENTS

WebTrust compliance audits are intended to ensure a CA's compliance with its CP and CPS and relevant WebTrust audit criteria.

8.1 Frequency or circumstances of assessment

WebTrust compliance audit periods cover no more than one year and are scheduled by ISRG annually, every year with no gaps.

See Section 8.7 for information about the frequency of self-audits.

8.2 Identity/qualifications of assessor

ISRG's WebTrust compliance audits are performed by a qualified auditor. A qualified auditor means a natural person, legal entity, or group of natural persons or legal entities that collectively possess the following qualifications and skills:

  1. Independence from the subject of the audit (which is ISRG);
  2. The ability to conduct an audit that addresses the relevant criteria specified in an Eligible Audit Scheme (see Section 8.4);
  3. Employs individuals who have proficiency in examining Public Key Infrastructure technology, information security tools and techniques, information technology and security auditing, and the third-party attestation function;
  4. (For audits conducted in accordance with any one of the ETSI standards) accredited in accordance with ISO 17065 applying the requirements specified in ETSI EN 319 403;
  5. (For audits conducted in accordance with the WebTrust standard) licensed by WebTrust;
  6. Bound by law, government regulation, or professional code of ethics; and
  7. Except in the case of an Internal Government Auditing Agency, maintains Professional Liability/Errors & Omissions insurance with policy limits of at least one million US dollars in coverage

8.3 Assessor's relationship to assessed entity

ISRG's WebTrust auditors shall have no financial interest in, or other type of relationship with, ISRG, which might cause the auditors to have a bias for or against ISRG.

8.4 Topics covered by assessment

Compliance audits cover ISRG's compliance with the ISRG CP/CPS, as well as the following WebTrust principles and criteria:

  • Principles and Criteria for Certification Authorities
  • WebTrust Principles and Criteria for Certification Authorities – SSL Baseline with Network Security

8.5 Actions taken as a result of deficiency

Noncompliance with relevant requirements will be documented by auditors (internal or external), the ISRG PMA will be informed, and the ISRG PMA will ensure that steps are taken to address the issues as quickly as reasonably possible.

8.6 Communication of results

Audit results are reported to the ISRG PMA and any other entity entitled to the results by law, regulation, or agreement. This includes a number of Web user agent (i.e. browser) root programs.

ISRG is not required to publicly disclose any audit finding that does not impact the overall audit opinion.

8.7 Self-Audits

ISRG performs a quarterly internal audit of at least 3% of issuance since the last WebTrust audit period. The sample is randomly selected. Results are saved and provided to auditors upon request.

In addition, ISRG conducts pre-issuance linting for all issuance.

9. OTHER BUSINESS AND LEGAL MATTERS

9.1 Fees

9.1.1 Certificate issuance or renewal fees

ISRG does not charge any fees for certificate issuance or renewal.

9.1.2 Certificate access fees

No stipulation.

9.1.3 Revocation or status information access fees

ISRG does not charge any fees for certificate revocation or for checking the validity status of an issued certificate using a CRL or OSCP.

9.1.4 Fees for other services

No stipulation.

9.1.5 Refund policy

ISRG collects no fees, and so provides no refunds.

9.2 Financial responsibility

9.2.1 Insurance coverage

No stipulation.

9.2.2 Other assets

No stipulation.

9.2.3 Insurance or warranty coverage for end-entities

No stipulation.

9.3 Confidentiality of business information

9.3.1 Scope of confidential information

No stipulation.

9.3.2 Information not within the scope of confidential information

No stipulation.

9.3.3 Responsibility to protect confidential information

ISRG employees, agents, and contractors are responsible for protecting confidential information and are bound by ISRG's policies with respect to the treatment of confidential information or are contractually obligated to do so. Employees receive training on how to handle confidential information.

9.4 Privacy of personal information

9.4.1 Privacy plan

ISRG follows the privacy policy posted on its website (https://letsencrypt.org/repository/) when handling personal information.

9.4.2 Information treated as private

The privacy policy posted on ISRG's website (https://letsencrypt.org/repository/) identifies information that ISRG treats as private.

9.4.3 Information not deemed private

The privacy policy posted on ISRG's website (https://letsencrypt.org/repository/) identifies information that ISRG does not treat as private.

9.4.4 Responsibility to protect private information

ISRG employees and contractors are subject to policies or contractual obligations requiring them to comply with ISRG's privacy policy (https://letsencrypt.org/repository/) or contractual obligations at least as protective of private information as ISRG's privacy policy.

ISRG follows the privacy policy posted on its website (https://letsencrypt.org/repository/) when using personal information.

9.4.6 Disclosure pursuant to judicial or administrative process

ISRG may disclose personal information if compelled to do so by court order or other compulsory legal process, provided that if ISRG determines that such court order or legal process is invalid or unconstitutional, ISRG will make reasonable legal efforts to oppose disclosure.

9.4.7 Other information disclosure circumstances

ISRG may disclose personal information under other circumstances that are described in the privacy policy posted on its website (https://letsencrypt.org/repository/).

9.5 Intellectual property rights

ISRG and/or its business partners own the intellectual property rights in ISRG's services, including the certificates, trademarks used in providing the services, and this CP/CPS. Certificate and revocation information are the property of ISRG. ISRG grants permission to reproduce and distribute certificates on a non-exclusive and royalty-free basis, provided that they are reproduced and distributed in full. Private Keys and Public Keys remain the property of the Subscribers who rightfully hold them.

Notwithstanding the foregoing, third party software (including open source software) used by ISRG to provide its services is licensed, not owned, by ISRG.

9.6 Representations and warranties

9.6.1 CA representations and warranties

Except as expressly stated in this CP/CPS or in a separate agreement with a Subscriber, ISRG does not make any representations or warranties regarding its products or services. ISRG represents and warrants, to the extent specified in this CP/CPS, that:

  1. ISRG complies, in all material aspects, with the ISRG CP/CPS,
  2. ISRG publishes and updates CRLs and OCSP responses on a regular basis,
  3. All certificates issued under this CP/CPS will be verified in accordance with this CP/CPS and meet the minimum requirements found herein and in the CAB Forum Baseline Requirements, and
  4. ISRG will maintain a repository of public information on its website.

9.6.2 RA representations and warranties

ISRG does not use RA services from third parties.

9.6.3 Subscriber representations and warranties

  1. Each Subscriber warrants to ISRG and the public-at-large that Subscriber is the legitimate registrant of the Internet domain name that is, or is going to be, the subject of the ISRG certificate issued to Subscriber, or that Subscriber is the duly authorized agent of such registrant.
  2. Each Subscriber warrants to ISRG and the public-at-large that either (a) Subscriber did not obtain control of such domain name as the result of a seizure of such domain name, or (b) such domain name had no ongoing lawful uses at the time of such seizure.
  3. Each Subscriber warrants that all information in the ISRG certificate issued to Subscriber regarding Subscriber or its domain name is accurate, current, reliable, complete, and not misleading.
  4. Each Subscriber warrants that all information provided by Subscriber to ISRG is accurate, current, complete, reliable, complete, and not misleading.
  5. Each Subscriber warrants that Subscriber rightfully holds the Private Key corresponding to the Public Key listed in the ISRG certificate issued to Subscriber.
  6. Each Subscriber warrants that Subscriber has taken all appropriate, reasonable, and necessary steps to secure and keep Subscriber's Private Key secret.
  7. Each Subscriber acknowledges and accepts that ISRG is entitled to revoke Subscriber's ISRG certificates immediately if the Subscriber violates the terms of the Subscriber Agreement or if ISRG discovers that any of Subscriber's ISRG certificates are being used to enable criminal activities such as phishing attacks, fraud, or the distribution of malware.

9.6.4 Relying party representations and warranties

Each Relying Party represents and warrants that, prior to relying on an ISRG certificate, it:

  1. Obtained sufficient knowledge on the use of digital certificates and PKI,
  2. Studied the applicable limitations on the usage of certificates and agrees to ISRG's limitations on its liability related to the use of certificates,
  3. Has read, understands, and agrees to this CP/CPS,
  4. Verified both the ISRG certificate and the certificates in the certificate chain using the relevant CRL or OCSP,
  5. Will not use an ISRG certificate if the certificate has expired or been revoked, and
  6. Will take all reasonable steps to minimize the risk associated with relying on a digital signature, including only relying on an ISRG certificate after considering:
  • Applicable law and the legal requirements for identification of a party, protection of the confidentiality or privacy of information, and enforceability of the transaction;
  • The intended use of the certificate as listed in the certificate or this CP/CPS,
  • The data listed in the certificate,
  • The economic value of the transaction or communication,
  • The potential loss or damage that would be caused by an erroneous identification or a loss of confidentiality or privacy of information in the application, transaction, or communication,
  • The Relying Party's previous course of dealing with the Subscriber,
  • The Relying Party's understanding of trade, including experience with computer-based methods of trade, and
  • Any other indicia of reliability or unreliability pertaining to the Subscriber and/or the application, communication, or transaction.

Any unauthorized reliance on a certificate is at a party's own risk.

9.6.5 Representations and warranties of other participants

No stipulation.

9.7 Disclaimers of warranties

ISRG certificates and services are provided "as-is." ISRG disclaims any and all warranties of any type, whether express or implied, including and without limitation any implied warranty of title, non-infringement, merchantability, or fitness for a particular purpose, in connection with any ISRG service or ISRG certificate.

9.8 Limitations of liability

ISRG does not accept any liability for any loss, harm, claim, or attorney's fees in connection with any certificates. ISRG will not be liable for any damages, attorney's fees, or recovery, regardless of whether such damages are direct, consequential, indirect, incidental, special, exemplary, punitive, or compensatory, even if ISRG has been advised of the possibility of such damages. This limitation on liability applies irrespective of the theory of liability, i.e., whether the theory of liability is based upon contract, warranty, indemnification, contribution, tort, equity, statute or regulation, common law, or any other source of law, standard of care, category of claim, notion of fault or responsibility, or theory of recovery. This disclaimer is intended to be construed to the fullest extent allowed by applicable law.

Without waiving or limiting the foregoing in any way, ISRG does not make, and ISRG expressly disclaims, any warranty regarding its right to use any technology, invention, technical design, process, or business method used in either issuing certificates or providing any of ISRG's services. Each Subscriber affirmatively and expressly waives the right to hold ISRG responsible in any way, or seek indemnification against ISRG, for any infringement of intellectual property rights, including patent, trademark, trade secret, or copyright.

9.9 Indemnities

9.9.1 Indemnification by ISRG

ISRG does not provide any indemnification.

9.9.2 Indemnification by Subscribers

Each Subscriber will indemnify and hold harmless ISRG and its directors, officers, employees, agents, and affiliates from any and all liabilities, claims, demands, damages, losses, costs, and expenses, including attorneys' fees, arising out of or related to: (i) any misrepresentation or omission of material fact by Subscriber to ISRG, irrespective of whether such misrepresentation or omission was intentional, (ii) Subscriber's violation of the Subscriber Agreement, (iii) any compromise or unauthorized use of an ISRG certificate or corresponding Private Key, or (iv) Subscriber's misuse of an ISRG certificate. If applicable law prohibits Subscriber from providing indemnification for another party's negligence or acts, such restriction, or any other restriction required by law for this indemnification provision to be enforceable, shall be deemed to be part of this indemnification provision.

9.9.3 Indemnification by Relying Parties

To the extent permitted by law, each Relying Party shall indemnify ISRG, its partners, entities that have cross-signed or issued sub-CAs for ISRG, and their respective directors, officers, employees, agents, and contractors against any loss, damage, or expense, including reasonable attorney's fees, related to the Relying Party's (i) breach of any service terms applicable to the services provided by ISRG or its affiliates and used by the Relying Party, this CP/CPS, or applicable law; (ii) unreasonable reliance on a certificate; or (iii) failure to check the certificate's status prior to use.

9.10 Term and termination

9.10.1 Term

This CP/CPS and any amendments to this CP/CPS are effective when published to the ISRG online repository and remain in effect until replaced with a newer version.

9.10.2 Termination

This CP/CPS and any amendments remain in effect until replaced with a newer version.

9.10.3 Effect of termination and survival

ISRG will communicate the conditions and effect of this CP/CPS's termination via the ISRG Repository. The communication will specify which provisions survive termination. At a minimum, all responsibilities related to protecting confidential information will survive termination. All Subscriber Agreements remain effective at least until the certificate is revoked or expired, even if this CP/CPS terminates.

9.11 Individual notices and communications with participants

ISRG accepts notices related to this CP/CPS at the locations specified in Section 1.5.2 of this CP/CPS. Notices are deemed effective after the sender receives a valid and digitally signed acknowledgment of receipt from ISRG. If an acknowledgement of receipt is not received within five days, the sender must resend the notice in paper form to the street address specified in Section 1.5.2 of this CP/CPS using either a courier service that confirms delivery or via certified or registered mail with postage prepaid and return receipt requested. ISRG may allow other forms of notice in its Subscriber Agreements.

9.12 Amendments

9.12.1 Procedure for amendment

This CP/CPS is reviewed at least annually and may be reviewed more frequently. Amendments are made by posting an updated version of this CP/CPS to the online repository. Controls are in place that are designed to reasonably ensure that this CP/CPS is not amended and published without the prior authorization of the ISRG PMA.

9.12.2 Notification mechanism and period

ISRG posts CP/CPS revisions to its Repository. ISRG does not guarantee or set a notice-and-comment period and may make changes to this CP/CPS without notice.

9.12.3 Circumstances under which OID must be changed

The ISRG PMA is solely responsible for determining whether an amendment to this CP/CPS requires an OID change.

9.13 Dispute resolution provisions

Any claim, suit or proceeding arising out of this CP/CPS or any ISRG product or service must be brought in a state or federal court located in San Jose, California. ISRG may seek injunctive or other relief in any state, federal, or national court of competent jurisdiction for any actual or alleged infringement of its, its affiliates, or any third party's intellectual property or other proprietary rights.

9.14 Governing law

The laws of the state of California, United States of America, govern the interpretation, construction, and enforcement of this CP/CPS and all proceedings related to ISRG products and services, including tort claims, without regard to any conflicts of law principles. The United Nations Convention for the International Sale of Goods does not apply to this CP/CPS.

9.15 Compliance with applicable law

This CP/CPS is subject to all applicable laws and regulations, including United States restrictions on the export of software and cryptography products.

9.16 Miscellaneous provisions

9.16.1 Entire agreement

ISRG requires each party using its products and services to enter into an agreement that delineates the terms associated with the product or service. If an agreement has provisions that differ from this CP/CPS, then the agreement with that party controls, but solely with respect to that party. Third parties may not rely on or bring action to enforce such agreement.

9.16.2 Assignment

Any entities operating under this CP/CPS may not assign their rights or obligations without the prior written consent of ISRG. Unless specified otherwise in a contract with a party, ISRG does not provide notice of assignment.

9.16.3 Severability

If any provision of this CP/CPS is held invalid or unenforceable by a competent court or tribunal, the remainder of this CP/CPS will remain valid and enforceable. Each provision of this CP/CPS that provides for a limitation of liability, disclaimer of a warranty, or an exclusion of damages is severable and independent of any other provision.

9.16.4 Enforcement (attorneys' fees and waiver of rights)

ISRG may seek indemnification and attorneys' fees from a party for damages, losses, and expenses related to that party's conduct. ISRG's failure to enforce a provision of this CP/CPS does not waive ISRG's right to enforce the same provision later or right to enforce any other provision of this CP/CPS. To be effective, waivers must be in writing and signed by ISRG.

9.16.5 Force Majeure

ISRG is not liable for any delay or failure to perform an obligation under this CP/CPS to the extent that the delay or failure is caused by an occurrence beyond ISRG's reasonable control. The operation of the Internet is beyond ISRG's reasonable control.

9.17 Other provisions

No stipulation.