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Introduction Most ACME clients today choose when to attempt to renew a certificate in one of three ways:

they may be configured to renew at a specific interval (e.g., via cron),
they may parse the issued certificate to determine its expiration date and renew a specific amount of time before then, or
they may parse the issued certificate and renew when some percentage of its validity period has passed.

The first two create significant barriers against the issuing Certification Authority (CA) changing certificate lifetimes. All three ways may lead to load clustering for the issuing CA due to its inability to schedule renewal requests. Allowing issuing CAs to suggest a period in which clients should renew their certificates enables dynamic time-based load balancing. This allows a CA to better respond to exceptional circumstances. For example:

a CA could suggest that clients renew prior to a mass-revocation event to mitigate the impact of the revocation, or
a CA could suggest that clients renew earlier than they normally would to reduce the size of an upcoming mass-renewal spike.

This document specifies the ACME Renewal Information (ARI) extension, a mechanism by which ACME servers may provide suggested renewal windows to ACME clients and by which ACME clients may inform ACME servers that they have successfully renewed and replaced a certificate. Conventions and Definitions The key words " MUST ", " MUST NOT ", " REQUIRED ", " SHALL ", " SHALL NOT ", " SHOULD ", " SHOULD NOT ", " RECOMMENDED ", " NOT RECOMMENDED ", " MAY ", and " OPTIONAL " in this document are to be interpreted as described in BCP 14 when, and only when, they appear in all capitals, as shown here. Throughout this document, the word "renewal" and its variants are taken to encompass any combination of "Renewal", "Re-Key", and "Modification" as defined in . This document assumes that the certificates being issued by the ACME server are in compliance with and, in particular, contain the Authority Key Identifier extension and the keyIdentifier field within that extension. Extensions to the Directory Object An ACME server that wishes to provide renewal information MUST include a new field, " renewalInfo", in its directory object. Field URL in Value renewalInfo Renewal information HTTP/1.1 200 OK Content-Type: application/json { "newNonce": "https://acme.example.com/new-nonce", "newAccount": "https://acme.example.com/new-account", "newOrder": "https://acme.example.com/new-order", "newAuthz": "https://acme.example.com/new-authz", "revokeCert": "https://acme.example.com/revoke-cert", "keyChange": "https://acme.example.com/key-change", "renewalInfo": "https://acme.example.com/renewal-info", "meta": { "termsOfService": "https://example.com/acme/terms", "website": "https://example.com/acme/docs", "caaIdentities": ["example.com"], "externalAccountRequired": false } } Getting Renewal Information The RenewalInfo Resource The RenewalInfo resource is a new resource type introduced to the ACME protocol. This new resource allows clients to query the server for suggestions on when they should renew certificates. To request the suggested renewal information for a certificate, the client sends an unauthenticated GET request to a path under the server's renewalInfo URL. The path component is a unique identifier for the certificate in question. The unique identifier is constructed by concatenating the base64url encoding of the keyIdentifier field of the certificate's Authority Key Identifier (AKI) extension, the period character ".", and the base64url encoding of the DER-encoded Serial Number field (without the tag and length bytes). All trailing " =" characters MUST be stripped from both parts of the unique identifier. Thus, the full request URL is constructed as follows (split onto multiple lines for readability), where the " ||" operator indicates string concatenation and the renewalInfo URL is taken from the Directory object: url = renewalInfo || '/' || base64url(AKI keyIdentifier) || '.' || base64url(Serial) For example, to request renewal information for the end-entity certificate given in Appendix A, the client would make the request as follows:

The keyIdentifier field of the certificate's AKI extension has the hexadecimal bytes 69:88:5B:6B:87:46:40:41:E1:B3:7B:84:7B:A0:AE:2C:DE:01:C8:D4 as its ASN.1 Octet String value. The base64url encoding of those bytes is aYhba4dGQEHhs3uEe6CuLN4ByNQ=.
The certificate's Serial Number field has the hexadecimal bytes 00:87:65:43:21 as its DER encoding (note the leading zero byte to ensure the serial number remains positive despite the leading 1 bit in 0x87). The base64url encoding of those bytes is AIdlQyE=.
Stripping the trailing padding characters and concatenating with the separator, the unique identifier is therefore aYhba4dGQEHhs3uEe6CuLN4ByNQ.AIdlQyE, and the client makes the request:

GET /renewal-info/aYhba4dGQEHhs3uEe6CuLN4ByNQ.AIdlQyE HTTP/1.1 Host: acme.example.com Accept: application/json RenewalInfo Objects The structure of an ACME RenewalInfo object is as follows:

suggestedWindow (object, required):: A JSON object with two keys, "start" and "end", whose values are timestamps, encoded in the format specified in , which bound the window of time in which the CA recommends renewing the certificate.
explanationURL (string, optional):: A URL pointing to a page that may explain why the suggested renewal window has its current value. For example, it may be a page explaining the CA's dynamic load-balancing strategy or a page documenting which certificates are affected by a mass-revocation event. Clients SHOULD provide this URL to their operator, if present.

HTTP/1.1 200 OK Content-Type: application/json Retry-After: 21600 { "suggestedWindow": { "start": "2025-01-02T04:00:00Z", "end": "2025-01-03T04:00:00Z" }, "explanationURL": "https://acme.example.com/docs/ari" } Clients MUST attempt renewal at a time of their choosing based on the suggested renewal window. The following algorithm is RECOMMENDED for choosing a renewal time:

Make a renewalInfo request to get a suggested renewal window.
Select a uniform random time within the suggested window.
If the selected time is in the past, attempt renewal immediately.
Otherwise, if the client can schedule itself to attempt renewal at exactly the selected time, do so.
Otherwise, if the selected time is before the next time that the client would wake up normally, attempt renewal immediately.
Otherwise, sleep until the time indicated by the Retry-After header and return to Step 1.

In all cases, renewal attempts are subject to the client's existing error backoff and retry intervals. In particular, cron-based clients may find they need to increase their run frequency to check ARI more frequently. Those clients will need to store information about failures so that increasing their run frequency doesn't lead to retrying failures without proper backoff. Typical information stored should include: number of failures for a given order (defined by the set of identifiers on the order) and time of the most recent failure. A RenewalInfo object in which the end timestamp equals or precedes the start timestamp is invalid. Servers MUST NOT serve such a response, and clients MUST treat one as though they failed to receive any response from the server (e.g., retry at an appropriate interval, renew on a fallback schedule, etc.). Schedule for Checking the RenewalInfo Resource Clients SHOULD fetch a certificate's RenewalInfo immediately after issuance. During the lifetime of a certificate, the renewal information needs to be fetched frequently enough that clients learn about changes in the suggested window quickly, but without overwhelming the server. This protocol uses the Retry-After header to indicate to clients how often to retry. Note that in other HTTP applications, Retry-After often indicates the minimum time to wait before retrying a request. In this protocol, it indicates the desired (i.e., both requested minimum and maximum) amount of time to wait. Clients MUST NOT check a certificate's RenewalInfo after the certificate has expired. Clients MUST NOT check a certificate's RenewalInfo after they consider the certificate to be replaced (for instance, after a new certificate for the same identifiers has been received and configured). Server Choice of Retry-After Servers set the Retry-After header based on their requirements on how quickly to perform a revocation. For instance, a server that needs to revoke certificates within 24 hours of notification of a problem might choose to reserve twelve hours for investigation, six hours for clients to fetch updated RenewalInfo objects, and six hours for clients to perform a renewal. Setting a small value for Retry-After means that clients can respond more quickly but also incurs more load on the server. Servers should estimate their expected load based on the number of clients, keeping in mind that third parties may also monitor renewalInfo endpoints. Client Handling of Retry-After After an initial fetch of a certificate's RenewalInfo, clients MUST fetch it again as soon as possible after the time indicated in the Retry-After header (backoff on errors takes priority, though). Clients MUST set reasonable limits on their checking interval. For example, values under one minute could be treated as if they were one minute, and values over one day could be treated as if they were one day. Error Handling Temporary errors include, for instance:

Connection timeout
Request timeout
5xx HTTP errors

On receiving a temporary error, clients SHOULD do exponential backoff with a capped number of tries. If all tries are exhausted, clients MUST treat the request as a long-term error. Examples of long-term errors include:

Retry-After is invalid or not present
RenewalInfo object is invalid
DNS lookup failure
Connection refused
Non-5xx HTTP error

On receiving a long-term error, clients MUST make the next renewalInfo request as soon as possible after six hours have passed (or some other locally configured default). Extensions to the Order Object In order to convey information regarding which certificate requests represent renewals of previous certificates, a new field is added to the Order object:

replaces (string, optional):: A string uniquely identifying a previously issued certificate that this order is intended to replace. This unique identifier is constructed in the same way as the path component for GET requests described in .

Clients SHOULD include this field in newOrder requests if there is a clear predecessor certificate, as is the case for most certificate renewals. Clients SHOULD NOT include this field if the ACME server has not indicated that it supports this protocol by advertising the renewalInfo resource in its Directory. POST /new-order HTTP/1.1 Host: acme.example.com Content-Type: application/jose+json { "protected": base64url({ "alg": "ES256", "kid": "https://acme.example.com/acct/evOfKhNU60wg", "nonce": "5XJ1L3lEkMG7tR6pA00clA", "url": "https://acme.example.com/new-order" }), "payload": base64url({ "identifiers": [ { "type": "dns", "value": "acme.example.com" } ], "replaces": "aYhba4dGQEHhs3uEe6CuLN4ByNQ.AIdlQyE" }), "signature": "H6ZXtGjTZyUnPeKn...wEA4TklBdh3e454g" } Servers SHOULD check that the identified certificate and the newOrder request correspond to the same ACME Account, that they share at least one identifier, and that the identified certificate has not already been marked as replaced by a different Order that is not "invalid". Correspondence checks beyond this (such as requiring exact identifier matching) are left up to server policy. If any of these checks fail, the server SHOULD reject the newOrder request. If the server rejects the request because the identified certificate has already been marked as replaced, it MUST return an HTTP 409 (Conflict) with a problem document of type "alreadyReplaced" (see ). If the server accepts a newOrder request with a "replaces" field, it MUST reflect that field in the response and in subsequent requests for the corresponding Order object. This replacement information may serve many purposes, including but not limited to:

granting newOrder requests that arrive during the suggested renewal window of their identified predecessor certificate higher priority or allowing them to bypass rate limits, if the server's policy uses such;
tracking the replacement of certificates that have been affected by a compliance incident, so that they can be revoked immediately after they are replaced; and
tying together certificates issued under the same contract with an entity identified by External Account Binding.

Security Considerations The extensions to the ACME protocol described in this document build upon the security considerations and threat model defined in . This document specifies that RenewalInfo resources are exposed and accessed via unauthenticated GET requests, a departure from the requirement in RFC 8555 that clients send POST-as-GET requests to fetch resources from the server. This is because the information contained in RenewalInfo resources is not considered confidential and because allowing RenewalInfo resources to be easily cached is advantageous to shed the load from clients that do not respect the Retry-After header. As always, servers should take measures to ensure that unauthenticated requests for renewal information cannot result in denial-of-service attacks. These measures might include ensuring that a cache does not include superfluous request headers or query parameters in its cache key, instituting IP-based rate limits, or other general best-practice measures. Note that this protocol could exhibit undesired behavior in the presence of significant clock skew between the ACME client and server. For example, if a server places the suggested renewal window wholly in the past to encourage a client to renew immediately, a client with a sufficiently slow clock might nonetheless see the window as being in the future. Similarly, a server that wishes to schedule renewals very precisely may have difficulty doing so if some clients have skewed clocks (or do not implement ARI at all). Server operators should take this concern into account when setting suggested renewal windows. However, many other protocols (including TLS handshakes themselves) fall apart with sufficient clock skew, so this is not unique to this protocol. IANA Considerations ACME Resource Type IANA has added the following entry to the "ACME Resource Types" registry within the "Automated Certificate Management Environment (ACME) Protocol" registry group at : Field Name Resource Type Reference renewalInfo RenewalInfo object This document ACME RenewalInfo Object Fields IANA has added the following new registry to the "Automated Certificate Management Environment (ACME) Protocol" registry group at :

Registry Name:

ACME RenewalInfo Object Fields

Registration Procedure:

Specification Required (see ). The designated expert should ensure that any new fields added to this registry carry useful and unique information that does not better belong elsewhere in the ACME protocol.

Template:

Field name:: The string to be used as a field name in the JSON object
Field type:: The type of value to be provided, e.g., string, boolean, array of string
Reference:: Where this field is defined

Initial contents:

Field Name Field Type Reference suggestedWindow object This document explanationURL string This document

ACME Order Object Fields IANA has added the following entry to the "ACME Order Object Fields" registry within the "Automated Certificate Management Environment (ACME) Protocol" registry group at : Field Name Field Type Configurable Reference replaces string true This document ACME Error Types IANA has added the following entry to the "ACME Error Types" registry within the "Automated Certificate Management Environment (ACME) Protocol" registry group at : Type Description Reference alreadyReplaced The request specified a predecessor certificate that has already been marked as replaced This document

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