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8 <dc11:title>Requirements for fannish resource identifiers</dc11:title>
9 <dc11:date>2023-05-09T18:31:26-07:00</dc11:date>
10 <dc11:abstract rdf:parseType="Markdown"><![CDATA[
11 A summary of a discussion which was held in the
12 [Fandom Coders](https://www.fancoders.com) discord about I·D
13 requirements for various types of fannish resources, and how these
14 things might federate out or be handled by other services.
15 ]]></dc11:abstract>
16 <sioc:content rdf:parseType="Markdown"><![CDATA[
17 The following blogpost is a summary of a discussion which was held in
18 the [Fandom Coders](https://www.fancoders.com) discord about I·D
19 requirements for various types of fannish resources, and how these
20 things might federate out or be handled by other services. Our goal is
21 to create a decentralized network of fannish platforms, so figuring out
22 resource identification requirements is an important first step.
23
24 Note that in the discussion which follows, a “resource” might be a
25 work, an author, a tag, a bookmark, or something else… anything which
26 might be a metadata subject.
27
28 ## ① Resources should have Tag U·R·I’s.
29
30 Resource [Tag U·R·I](https://taguri.org)’s should be U·R·I’s of the
31 form :—
32
33 ```
34 tag:<domain>,<date>:<path>
35 ```
36
37 —: where `<domain>` is the domain name of a site, `<date>` is some
38 date (in `YYYY-MM-DD` format), and `<path>` is some path decided by the
39 person or people who owned `<domain>` at `<date>` to uniquely identify
40 the resource. Tag U·R·I’s are ideal for fannish resources for the
41 following reasons :—
42
43 - In order for a fannish resource to be published on the internet, it
44 must be published at a domain on a date. So these requirements are
45 easily satisfied.
46
47 - No external registration (beyond owning a domain name) is necessary
48 to mint U·R·I’s, and no maintenance is necessary.
49
50 - The domain name in the Tag U·R·I indicates who should be the trusted
51 party when it comes to information about the resource: `<domain>`.
52 If you hear about the resource from somewhere else, you know to view
53 the information you receive with some level of suspicion.
54
55 Some additional notes :—
56
57 - The term “Tag U·R·I” has no relation to the normal fannish use of
58 “tag”; it’s just what the U·R·I scheme happens to be called.
59
60 - `<date>` does *not* (and maybe *should* not) have to be the actual
61 date a resource was created. My recommendation would be to set
62 `<date>` to the date that a service was founded, so that e·g if a
63 service dies and a new one is started at the same domain, the two
64 generate clearly distinguishable U·R·I’s.
65
66 - It’s not possible to distinguish between beneficial reasons for
67 content changes at `<domain>` (an author editing a work) and
68 malicious ones (hostile domain takeover). It’s also not possible to
69 verify that the people at `<domain>` actually controlled the domain
70 at `<date>`. But if people play by the rules, an *accidental* name
71 collision will never happen.
72
73 ## ② Resources should have canonical U·R·L’s containing their Tag.
74
75 The canonical U·R·L for a resource should look like this :—
76
77 ```
78 https://<domain>/<subpath>/tag:<domain>,<date>:<path>
79 ```
80
81 There are a few important things of note here :—
82
83 1. Both instances of `<domain>` **must be** the same, or else the U·R·L
84 is not canonical.
85
86 2. The entire Tag U·R·I is present in the U·R·L, allowing it to be
87 identified even if the U·R·L ceases to be dereferencable.
88
89 3. `<path>` may contain anything, including a query or fragment part.
90
91 It is possible for resources to be *mirrored*. Mirrors **must** have
92 U·R·L’s like the following :—
93
94 ```
95 https://<mirror-domain>/<mirror-subpath>/tag:<domain>,<date>:<path>
96 ```
97
98 —: that is, the same easily‐recognizable Tag U·R·I, but at a different
99 domain and subpath. Mirrors **must** identify the canonical U·R·L of
100 the resource they are mirroring. `owl:sameAs` might be one mechanism of
101 doing this in R·D·F.
102
103 ## ③ Crossposted resources should link to each other.
104
105 If a work is crossposted in two locations, one is not necessarily
106 “canonical” and the other a “mirror”. Likely, both will be canonical
107 and have their own Tag U·R·I’s (and this is a good thing). Crossposted
108 works should instead identify themselves by linking to each other in
109 some reciprocal fashion. We may need to come up with our own metadata
110 term for specifying this, but see e·g `dcterms:hasFormat` and
111 `dcterms:isFormatOf` which encode a similar (but not necessarily
112 reciprocal in the same way) relationship.
113
114 ## ④ Platforms should only trust mirrors as a last resort.
115
116 And with copious warnings. If at all possible, platforms should direct
117 users to the canonical U·R·L associated with a resource. However, this
118 may not be possible (if an archive moves or goes down). In that case,
119 a platform *may* direct users to a mirror, with a warning that the
120 mirrored version is not the original published work and may differ in
121 significant ways.
122
123 ## Additional thoughts.
124
125 These things were either only briefly touched on, or else are my own
126 ideas which came as I was writing this post.
127
128 - Mirroring should be explictly opt·in, and ideally automated (to
129 reduce the likelihood of intentional or unintentional error). We will
130 need to develop protocols for this.
131
132 - For added security, publishing platforms might implement Webfinger,
133 to guard against mirrors which correctly identify works they control
134 but misidentify their path (thus making them appear to be down).
135 Discovery platforms *may*, and probably *should*, attempt to make a
136 Webfinger request for the resource with its Tag U·R·I instead of
137 trusting the canonical path. However, supporting Webfinger *should
138 not* be required of all publishing platforms, and the attack vector
139 from mirrors in this sense is pretty small.
140
141 - Webfinger or ordinary H·T·T·P redirects could be used to forward
142 services to new “canonical” U·R·L’s in the case that a service moves.
143 However, this trail would only be followable for as long as the
144 redirects or Webfinger endpoint remains up at the original domain.
145
146 - Instead of mirroring tags, a service might indicate that its version
147 of a tag is intended to be synonymous with another service’s version
148 of a tag using `skos:closeMatch`. The stronger statement
149 `skos:exactMatch` requires agreement from both services. Tag mirrors
150 are useful in case the canonical service for a tag goes down, but
151 should not be relied upon otherwise.
152
153 - Publishing platforms *may* serve a “tombstone” at the canonical U·R·L
154 for a resource, indicating that it was intentionally deleted. In this
155 case, a mirrored version **must not** be used.
156 ]]></sioc:content>
157 <dc11:rights rdf:parseType="Markdown"><![CDATA[
158 Copyright © 2023
159 <a href="https://www.ladys.computer/about/#lady">Lady</a>
160 <small>[Fannish Metadata Nerd]</small>.
161 Some rights reserved.
162
163 This blogpost is licensed under a <a rel="license"
164 href="http://creativecommons.org/licenses/by/4.0/"><cite>Creative
165 Commons Attribution 4.0 International License</cite></a>.
166 ]]></dc11:rights>
167 </awol:Entry>
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