This repository contains open source software to host your own a multi-propose URN Resolver and a working-draft open specification for /.well-known/urn/
. Feedback in something so overly specific is still welcomed!
While it is possible to host content on cheap, static hosting (such as GitHub pages), resolvers require dynamic processing (and decent uptime). The current implementation of opting for server-based comes from w3id (https://github.com/perma-id/w3id.org), which focuses on PURLs (not URNs), but PHP is used to allow more flexibility on configuration files over direct .htaccess rules.
Table of contents
Trivia: An production server is available at https://urn.etica.ai. It's behind CloudFlare free plan (can have "cache everything enabled"; can survive massive number of requests) and is currently hosted on Dreamhost (shared hosting; single node). The handcrafted rules at resolvers are converted to JSON and rsync'ed to the server.
The current implementation uses PHP. Requires PHP >= 8.1 (no special dependencies, just rsync the files).
# Get a copy
git clone https://github.com/EticaAI/urn-resolver.git
cd urn-resolver/app/public
# Run PHP build-in server
php -S localhost:8000 router.php
# Visit home page: http://localhost:8000/
## Home page (show content); curl parameters used:
# (-L) --location : follow links
# (-s) --silent : do not show transfer
# (next 2 commands are equivalent)
curl --location --silent 'http://localhost:8000/'
curl -Ls 'http://localhost:8000/'
## IETF URN: curl parameters used to show only headers (great to see redirects)
# (-I) --head : Show document info only
# (next 3 commands are equivalent)
curl --location --silent --head 'http://localhost:8000/urn:ietf:rfc:2141'
curl -LsI 'http://localhost:8000/urn:ietf:rfc:2141'
curl -Ls 'http://localhost:8000/urn:ietf:rfc:2141' --head
## urn:w3id:un/fao (this example have several redirects; 6 as 2022-09-27)
curl -Ls 'http://localhost:8000/urn:w3id:un/fao' --head
## home page, but with jq
curl -Ls http://localhost:8000/ | jq
## urn:resolver:ping; This one migth not return json
curl -Ls 'http://localhost:8000/urn:resolver:ping'
#### Other not so documented examples __________________________________________
## GitHub
# index
curl -Ls 'http://localhost:8000/urn:git:github:' | jq
# repositories for org=EticaAI
curl -Ls 'http://localhost:8000/urn:git:github:orgs/EticaAI/repos' | jq
## Gitee
# (example query) q=username
curl -Ls 'urn:git:gitee:search/users?q=username' | jq
Use the same strategy for the high-availability cluster below, but with a single node.
This strategy is simpler to keep online in particular if the number of requests is not able to be worth the trouble to keep load balancers.
On this example, server-a.urn.example.org
, server-b.urn.example.org
and server-b.urn.example.org
are assumed to be direct access to any type of web hosting able to run PHP (inclusive cheap shared hosting) which also respond for urn.example.org
.
This example allows High-availability cluster with https://en.wikipedia.org/wiki/Round-robin_DNS as load balancing strategy: just make sure urn.example.org
points to IPs of server-a, server-b and server-c.
# Get a recent copy from some place.
git clone https://github.com/EticaAI/urn-resolver.git
# Configure your node
cp urnresolver.dist.conf.json urnresolver.conf.json
vim urnresolver.conf.json
# Replace DRY_RUN="1" with DRY_RUN="0" (disable rsync --dry-run) and remote
DRY_RUN="1" RSYNC_REMOTE="[email protected]/home/user/public_html" ./scripts/sync-node-a.sh
DRY_RUN="1" RSYNC_REMOTE="[email protected]/home/user/public_html" ./scripts/sync-node-a.sh
DRY_RUN="1" RSYNC_REMOTE="[email protected]/home/user/public_html" ./scripts/sync-node-a.sh
Warning: if you run a cluster behind free solution which also does cache but hide the true IPs from end user (like free Cloudflare; which we do recommend) you will need to check manually if servers are online and STONITH - ("Shoot The Offending Node In The Head") and remove nodes not working.
Note While most reverse proxies (such as Cloudflare even without paid load balance plans) will try next node if the entire source server is offline (e.g. rebooting) at least user browsers such as Chrome will also automatically check the next IP if they receive an 5xx server error (even if the server is online, but your app is failing). This poor's man load balancing works, but is a last resort. It cannot cope if 1/3 (1 out of 3 nodes) or 1/2 (50% of your nodes) are online and (worst) reply 200 OK, but content is "welcome to nginx" / "welcome to apache".
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119.
Warning: the entire
/.well-known/urn/
is a draft. The intent is to describe the strategy used on the software implementation in a way that is not vendor dependent. Feel free to check the actual content of the folder public/.well-known/urn. The YAML files on resolvers/ are not part of this convention (are implementation detail).
The files published on /.well-known/urn/
are inspired by the RFC 8615 - Well-Known Uniform Resource Identifiers (URIs).
Do exist a list of IANA Well-Known URIs,
however at the moment (2022-09-25), no submission as made (even as provisional) to IANA.
In the meantime, the quick overview of the implementation, which is open for feedback,
to explain the files is:
/.well-known/urn/urn.txt
(http://urn.example.org/.well-known/urn/urn.txt)- It's an index file. This TXT file lists all files on the server under the
/.well-known/urn/
. - The file names MUST be a regex rule to give a hint of what rules the entire file is about without need to read file by file. In this document this is referred as
<FILENAME_RULE_GROUP>
- The filename stops at
.urnr
part of the file. - The container of the rules MUST start after the
.urnr
. - For maximum interoperability MUST have at least JSON format. However, this format MUST NOT be a JSON Schema and do not use same extension as JSON documents
- Example:
.urnr.json
(can reference JSON Schema, but not a JSON schema itself)
- Example:
- Files under
/.well-known/urn/
MAY may have more than one encoding. However, files with same<FILENAME_RULE_GROUP>
MUST be considered to be about the same resource even if some parser understands more than one format. - Example:
urn:doi:(.*).urnr.json
(example of REQUIRED resource)urn:doi:(.*).urnr.yml
(example of alternative encoding in YAML)urn:doi:(.*).urnr.txt
(example of text file)
- It's an index file. This TXT file lists all files on the server under the
/.well-known/urn/<FILENAME_RULE_GROUP>.urnr.<FILE_CONTAINER_FORMAT>
(example: http://urn.example.org/.well-known/urn/urn:doi:(.*).urnr.json)- Note: as 2022-09-25, the content of the file rules still need more real world testing.
Note:
- Know real world examples (not related to this convention) know to follow this logic of using
urn.
subdomain and no subfolder:- Counter examples (e.g, able to resolve own URNs on main domain):
- PURL also serve as inspiration of use of sudomains. The
purl.
is used inpurl.oclc.org
,purl.archive.org
andpurl.obolibrary.org
.
It's RECOMMENDED for new implementations to define a URN resolver with its own dedicated subdomain urn.
both for signal intent and for performance reasons
(e.g. in case necessary move the resolver to different server infrastructure than content on some main site).
Example:
https://www.example.com
(orhttps://example.com
):https://urn.example.com
https://my-university.example.org
:https://urn.my-university.example.org
https://my-department.my-university.example.org
:https://urn.my-department.my-university.example.org
The URN Resolvers MUST be resolvable at the top level of the chosen domain. This means it is forbidden to use subfolders (even for testing environments) as an entrypoint to avoid confusion with users about what is the URN content and what is the resolver. The URN resolvers also MUST NOT require a query string or fragment string.
Example:
- User want know how to resolve this URN:
urn:example:123
- Conformant:
https://urn.my-university.example.org/urn:example:123
- NOT conformant (subfolder):
https://urn.my-university.example.org/folder/urn:example:123
- NOT Conformant (query string):
https://urn.my-university.example.org/?urn=urn:example:123
- NOT Conformant (fragment):
https://urn.my-university.example.org/#urn:example:123
- Conformant:
There is no restriction for redirects after the initial request. This means URN Resolvers, as long as public adversised entrypoint is conformant, MAY make additional rewrites before redirect to external servers. One common reason for this behavior are URNs which are more complex to process than shareable URN Resolver Rules to other public resolvers. See Peer-to-peer section.
To the extent possible under law, Emerson Rocha has waived all copyright and related or neighboring rights to this work to Public Domain.
Optionally, you can choose to use the MIT License instead of Public Domain unlicense.