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Diffstat (limited to 'guide/src')
-rw-r--r-- | guide/src/SUMMARY.md | 3 | ||||
-rw-r--r-- | guide/src/bulk_exports.md | 22 | ||||
-rw-r--r-- | guide/src/data_model.md | 168 | ||||
-rw-r--r-- | guide/src/http_api.md | 50 | ||||
-rw-r--r-- | guide/src/implementation.md | 25 | ||||
-rw-r--r-- | guide/src/overview.md | 101 | ||||
l--------- | guide/src/rfc.md | 1 | ||||
-rw-r--r-- | guide/src/roadmap.md | 45 | ||||
-rw-r--r-- | guide/src/scope.md | 64 | ||||
-rw-r--r-- | guide/src/workflow.md | 36 |
10 files changed, 512 insertions, 3 deletions
diff --git a/guide/src/SUMMARY.md b/guide/src/SUMMARY.md index 6a23f7fe..736bb2cf 100644 --- a/guide/src/SUMMARY.md +++ b/guide/src/SUMMARY.md @@ -2,9 +2,10 @@ - [Fatcat Overview](./overview.md) - [Data Model](./data_model.md) + - [Workflow](./workflow.md) - [Sources](./sources.md) - [Implementation](./implementation.md) - - [Original Design Document](./rfc.md) + - [Roadmap](./roadmap.md) - [Cataloging Style Guide](./style_guide.md) - [Entity Field Reference](./entity_fields.md) - [Public API](./http_api.md) diff --git a/guide/src/bulk_exports.md b/guide/src/bulk_exports.md index aaf236f2..0aac4475 100644 --- a/guide/src/bulk_exports.md +++ b/guide/src/bulk_exports.md @@ -1 +1,23 @@ # Bulk Exports + +There are a few different database dump formats folks might want: + +- raw native database backups, for disaster recovery (would include + volatile/unsupported schema details, user API credentials, full history, + in-process edits, comments, etc) +- a sanitized version of the above: roughly per-table dumps of the full state + of the database. Could use per-table SQL expressions with sub-queries to pull + in small tables ("partial transform") and export JSON for each table; would + be extra work to maintain, so not pursuing for now. +- full history, full public schema exports, in a form that might be used to + mirror or enitrely fork the project. Propose supplying the full "changelog" + in API schema format, in a single file to capture all entity history, without + "hydrating" any inter-entity references. Rely on separate dumps of + non-entity, non-versioned tables (editors, abstracts, etc). Note that a + variant of this could use the public interface, in particular to do + incremental updates (though that wouldn't capture schema changes). +- transformed exports of the current state of the database (aka, without + history). Useful for data analysis, search engines, etc. Propose supplying + just the Release table in a fully "hydrated" state to start. Unclear if + should be on a work or release basis; will go with release for now. Harder to + do using public interface because of the need for transaction locking. diff --git a/guide/src/data_model.md b/guide/src/data_model.md index 008c096a..b2a02688 100644 --- a/guide/src/data_model.md +++ b/guide/src/data_model.md @@ -1 +1,169 @@ # Data Model + +## Identifiers + +A fixed number of first-class "entities" are defined, with common behavior and +schema layouts. These are all be semantic entities like "work", "release", +"container", and "creator". + +fatcat identifiers are semantically meaningless fixed-length random numbers, +usually represented in case-insensitive base32 format. Each entity type has its +own identifier namespace. + +128-bit (UUID size) identifiers encode as 26 characters (but note that not all +such strings decode to valid UUIDs), and in the backend can be serialized in +UUID columns: + + work_rzga5b9cd7efgh04iljk8f3jvz + https://fatcat.wiki/work/rzga5b9cd7efgh04iljk8f3jvz + +In comparison, 96-bit identifiers would have 20 characters and look like: + + work_rzga5b9cd7efgh04iljk + https://fatcat.wiki/work/rzga5b9cd7efgh04iljk + +A 64-bit namespace would probably be large enought, and would work with +database Integer columns: + + work_rzga5b9cd7efg + https://fatcat.wiki/work/rzga5b9cd7efg + +The idea would be to only have fatcat identifiers be used to interlink between +databases, *not* to supplant DOIs, ISBNs, handle, ARKs, and other "registered" +persistent identifiers. + +## Entities and Internal Schema + +Internally, identifiers would be lightweight pointers to "revisions" of an +entity. Revisions are stored in their complete form, not as a patch or +difference; if comparing to distributed version control systems, this is the +git model, not the mercurial model. + +The entity revisions are immutable once accepted; the editting process involves +the creation of new entity revisions and, if the edit is approved, pointing the +identifier to the new revision. Entities cross-reference between themselves by +*identifier* not *revision number*. Identifier pointers also support +(versioned) deletion and redirects (for merging entities). + +Edit objects represent a change to a single entity; edits get batched together +into edit groups (like "commits" and "pull requests" in git parlance). + +SQL tables would probably look something like the (but specific to each entity +type, with tables like `work_revision` not `entity_revision`): + + entity_ident + id (uuid) + current_revision (entity_revision foreign key) + redirect_id (optional; points to another entity_ident) + + entity_revision + revision_id + <entity-specific fields> + extra: json blob for schema evolution + + entity_edit + timestamp + editgroup_id + ident (entity_ident foreign key) + new_revision (entity_revision foreign key) + previous_revision (optional; points to entity_revision) + extra: json blob for progeny metadata + + editgroup + editor_id + description + extra: json blob for progeny metadata + +Additional entity-specific columns would hold actual metadata. Additional +tables (which would reference both `entity_revision` and `entity_id` foreign +keys as appropriate) would represent things like authorship relationships +(creator/release), citations between works, etc. Every revision of an entity +would require duplicating all of these associated rows, which could end up +being a large source of inefficiency, but is necessary to represent the full +history of an object. + +## Ontology + +Loosely following FRBR (Functional Requirements for Bibliographic Records), but +removing the "manifestation" abstraction, and favoring files (digital +artifacts) over physical items, the primary entities are: + + work + <a stub, for grouping releases> + + release (aka "edition", "variant") + title + volume/pages/issue/chapter + media/formfactor + publication/peer-review status + language + <published> date + <variant-of> work + <published-in> container + <has-contributors> creator + <citation-to> release + <has> identifier + + file (aka "digital artifact") + <instantiates> release + hashes/checksums + mimetype + <found-at> URLs + + creator (aka "author") + name + identifiers + aliases + + container (aka "venue", "serial", "title") + name + open-access policy + peer-review policy + <has> aliases, acronyms + <about> subject/category + <has> identifier + <published-in> container + <published-by> publisher + +## Controlled Vocabularies + +Some special namespace tables and enums would probably be helpful; these could +live in the database (not requiring a database migration to update), but should +have more controlled editing workflow... perhaps versioned in the codebase: + +- identifier namespaces (DOI, ISBN, ISSN, ORCID, etc; but not the identifers + themselves) +- subject categorization +- license and open access status +- work "types" (article vs. book chapter vs. proceeding, etc) +- contributor types (author, translator, illustrator, etc) +- human languages +- file mimetypes + +These could also be enforced by QA bots that review all editgroups. + +## Entity States + + wip (not live; not redirect; has rev) + activate + active (live; not redirect; has rev) + redirect + delete + redirect (live; redirect; rev or not) + split + delete + deleted (live; not redirect; no rev) + redirect + activate + + "wip redirect" or "wip deleted" are invalid states + +## Global Edit Changelog + +As part of the process of "accepting" an edit group, a row would be written to +an immutable, append-only log table (which internally could be a SQL table) +documenting each identifier change. This changelog establishes a monotonically +increasing version number for the entire corpus, and should make interaction +with other systems easier (eg, search engines, replicated databases, +alternative storage backends, notification frameworks, etc.). + diff --git a/guide/src/http_api.md b/guide/src/http_api.md index 5b38339f..5769533d 100644 --- a/guide/src/http_api.md +++ b/guide/src/http_api.md @@ -13,6 +13,41 @@ All API traffic is over HTTPS; there is no insecure HTTP endpoint, even for read-only operations. To start, all endpoints accept and return only JSON serialized content. +## Entity Endpoints/Actions + +Actions could, in theory, be directed at any of: + + entities (ident) + revision + edit + +A design decision to be made is how much to abstract away the distinction +between these three types (particularly the identifier/revision distinction). + +Top-level entity actions (resulting in edits): + + create (new rev) + redirect + split + update (new rev) + delete + +On existing entity edits (within a group): + + update + delete + +An edit group as a whole can be: + + create + submit + accept + +Other per-entity endpoints: + + match (by field/context) + lookup (by external persistent identifier) + ## Editgroups All mutating entity operations (create, update, delete) accept an @@ -46,6 +81,21 @@ authentication using an HTTP Bearer token. If you can't generate such a token from the web interface (because that feature hasn't been implemented), look for a public demo token for experimentation, or ask an administrator for a token. +## Autoaccept Flag + +Currently only on batch creation (POST) for entities. + +For all bulk operations, optional 'editgroup' query parameter overrides +individual editgroup parameters. + +If autoaccept flag is set and editgroup is not, a new editgroup is +automatically created and overrides for all entities inserted. Note +that this is different behavior from the "use current or create new" +default behavior for regular creation. + +Unfortunately, "true" and "false" are the only values acceptable for boolean +rust/openapi2 query parameters + ## QA Instance The intent is to run a public "sandbox" QA instance of the catalog, using a diff --git a/guide/src/implementation.md b/guide/src/implementation.md index d2557ff7..df8d66b9 100644 --- a/guide/src/implementation.md +++ b/guide/src/implementation.md @@ -1 +1,26 @@ # Implementation + +The canonical backend datastore exposes a microservice-like HTTP API, which +could be extended with gRPC or GraphQL interfaces. The initial datastore is a +transactional SQL database, but this implementation detail is abstracted by the +API. + +As little "application logic" as possible should be embedded in this back-end; +as much as possible would be pushed to bots which could be authored and +operated by anybody. A separate web interface project talks to the API backend +and can be developed more rapidly with less concern about data loss or +corruption. + +A cronjob will creae periodic database dumps, both in "full" form (all tables +and all edit history, removing only authentication credentials) and "flattened" +form (with only the most recent version of each entity). + +A goal is to be linked-data/RDF/JSON-LD/semantic-web "compatible", but not +necessarily "first". It should be possible to export the database in a +relatively clean RDF form, and to fetch data in a variety of formats, but +internally fatcat will not be backed by a triple-store, and will not be bound +to a rigid third-party ontology or schema. + +Microservice daemons should be able to proxy between the primary API and +standard protocols like ResourceSync and OAI-PMH, and third party bots could +ingest or synchronize the databse in those formats. diff --git a/guide/src/overview.md b/guide/src/overview.md index bc08ce1e..8e6279ed 100644 --- a/guide/src/overview.md +++ b/guide/src/overview.md @@ -1,3 +1,102 @@ # Fatcat Overview -For now, see the [RFC](https://fatcat.wiki). +fatcat is an open bibliographic catalog of written works. The scope of works +is somewhat flexible, with a focus on published research outputs like journal +articles, pre-prints, and conference proceedings. Records are collaboratively +editable, versioned, available in bulk form, and include URL-agnostic +file-level metadata. + +fatcat is currently used internally at the Internet Archive, but interested +folks are welcome to contribute to design and development. + +## Goals and Ecosystem Niche + +For the Internet Archive use case, fatcat has two primary use cases: + +- Track the "completeness" of our holdings against all known published works. + In particular, allow us to monitor and prioritize further collection work. +- Be a public-facing catalog and access mechanism for our open access holdings. + +In the larger ecosystem, fatcat could also provide: + +- A work-level (as opposed to title-level) archival dashboard: what fraction of + all published works are preserved in archives? KBART, CLOCKSS, Portico, and + other preservations don't provide granular metadata +- A collaborative, independent, non-commercial, fully-open, field-agnostic, + "completeness"-oriented catalog of scholarly metadata +- Unified (centralized) foundation for discovery and access across repositories + and archives: discovery projects can focus on user experience instead of + building their own catalog from scratch +- Research corpus for meta-science, with an emphasis on availability and + reproducibility (metadata corpus itself is open access, and file-level hashes + control for content drift) +- Foundational infrastructure for distributed digital preservation +- On-ramp for non-traditional digital works ("grey literature") into the + scholarly web + +## Scope + +The goal is to capture the "scholarly web": the graph of written works that +cite other works. Any work that is both cited more than once and cites more +than one other work in the catalog is very likely to be in scope. "Leaf nodes" +and small islands of intra-cited works may or may not be in scope. + +fatcat would not include any fulltext content itself, even for cleanly licensed +(open access) works, but would have "strong" (verified) links to fulltext +content, and would include file-level metadata (like hashes and fingerprints) +to help discovery and identify content from any source. File-level URLs with +context ("repository", "author-homepage", "web-archive") should make fatcat +more useful for both humans and machines to quickly access fulltext content of +a given mimetype than existing redirect or landing page systems. So another +factor in deciding scope is whether a work has "digital fixity" and can be +contained in a single immutable file. + +## References and Previous Work + +The closest overall analog of fatcat is [MusicBrainz][mb], a collaboratively +edited music database. [Open Library][ol] is a very similar existing service, +which exclusively contains book metadata. + +[Wikidata][wd] seems to be the most successful and actively edited/developed +open bibliographic database at this time (early 2018), including the +[wikicite][wikicite] conference and related Wikimedia/Wikipedia projects. +Wikidata is a general purpose semantic database of entities, facts, and +relationships; bibliographic metadata has become a large fraction of all +content in recent years. The focus there seems to be linking knowledge +(statements) to specific sources unambiguously. Potential advantages fatcat +would have would be a focus on a specific scope (not a general-purpose database +of entities) and a goal of completeness (capturing as many works and +relationships as rapidly as possible). However, it might be better to just +pitch in to the wikidata efforts. + +The technical design of fatcat is loosely inspired by the git +branch/tag/commit/tree architecture, and specifically inspired by Oliver +Charles' "New Edit System" [blog posts][nes-blog] from 2012. + +There are a whole bunch of proprietary, for-profit bibliographic databases, +including Web of Science, Google Scholar, Microsoft Academic Graph, aminer, +Scopus, and Dimensions. There are excellent field-limited databases like dblp, +MEDLINE, and Semantic Scholar. There are some large general-purpose databases +that are not directly user-editable, including the OpenCitation corpus, CORE, +BASE, and CrossRef. I don't know of any large (more than 60 million works), +open (bulk-downloadable with permissive or no license), field agnostic, +user-editable corpus of scholarly publication bibliographic metadata. + +[nes-blog]: https://ocharles.org.uk/blog/posts/2012-07-10-nes-does-it-better-1.html +[mb]: https://musicbrainz.org +[ol]: https://openlibrary.org +[wd]: https://wikidata.org +[wikicite]: https://meta.wikimedia.org/wiki/WikiCite_2017 + +## Further Reading + +"From ISIS to CouchDB: Databases and Data Models for Bibliographic Records" by Luciano G. Ramalho. code4lib, 2013. <https://journal.code4lib.org/articles/4893> + +"Representing bibliographic data in JSON". github README file, 2017. <https://github.com/rdmpage/bibliographic-metadata-json> + +"Citation Style Language", <https://citationstyles.org/> + +"Functional Requirements for Bibliographic Records", Wikipedia article, <https://en.wikipedia.org/wiki/Functional_Requirements_for_Bibliographic_Records> + +OpenCitations and I40C <http://opencitations.net/>, <https://i4oc.org/> + diff --git a/guide/src/rfc.md b/guide/src/rfc.md deleted file mode 120000 index 25c420d2..00000000 --- a/guide/src/rfc.md +++ /dev/null @@ -1 +0,0 @@ -../../fatcat-rfc.md
\ No newline at end of file diff --git a/guide/src/roadmap.md b/guide/src/roadmap.md new file mode 100644 index 00000000..b30a21ab --- /dev/null +++ b/guide/src/roadmap.md @@ -0,0 +1,45 @@ +# Roadmap + +## Unresolved Questions + +How to handle translations of, eg, titles and author names? To be clear, not +translations of works (which are just separate releases), these are more like +aliases or "originally known as". + +Are bi-directional links a schema anti-pattern? Eg, should "work" point to a +"primary release" (which itself points back to the work)? + +Should `identifier` and `citation` be their own entities, referencing other +entities by UUID instead of by revision? Not sure if this would increase or +decrease database resource utilization. + +Should contributor/author affiliation and contact information be retained? It +could be very useful for disambiguation, but we don't want to build a huge +database for spammers or "innovative" start-up marketing. + +Can general-purpose SQL databases like Postgres or MySQL scale well enough to +hold several tables with billions of entity revisions? Right from the start +there are hundreds of millions of works and releases, many of which having +dozens of citations, many authors, and many identifiers, and then we'll have +potentially dozens of edits for each of these, which multiply out to `1e8 * 2e1 +* 2e1 = 4e10`, or 40 billion rows in the citation table. If each row was 32 +bytes on average (uncompressed, not including index size), that would be 1.3 +TByte on its own, larger than common SSD disks. I do think a transactional SQL +datastore is the right answer. In my experience locking and index rebuild times +are usually the biggest scaling challenges; the largely-immutable architecture +here should mitigate locking. Hopefully few indexes would be needed in the +primary database, as user interfaces could rely on secondary read-only search +engines for more complex queries and views. + +I see a tension between focus and scope creep. If a central database like +fatcat doesn't support enough fields and metadata, then it will not be possible +to completely import other corpuses, and this becomes "yet another" partial +bibliographic database. On the other hand, accepting arbitrary data leads to +other problems: sparseness increases (we have more "partial" data), potential +for redundancy is high, humans will start editing content that might be +bulk-replaced, etc. + +There might be a need to support "stub" references between entities. Eg, when +adding citations from PDF extraction, the cited works are likely to be +ambiguous. Could create "stub" works to be merged/resolved later, or could +leave the citation hanging. Same with authors, containers (journals), etc. diff --git a/guide/src/scope.md b/guide/src/scope.md new file mode 100644 index 00000000..d5e74156 --- /dev/null +++ b/guide/src/scope.md @@ -0,0 +1,64 @@ +# Scope + +The goal is to capture the "scholarly web": the graph of written works that +cite other works. Any work that is both cited more than once and cites more +than one other work in the catalog is very likely to be in scope. "Leaf nodes" +and small islands of intra-cited works may or may not be in scope. + +Overall focus is on written works, with some exceptions. The expected core +focus (for which we would pursue "completeness") is: + + journal articles + academic books + conference proceedings + technical memos + dissertations + monographs + well-researched blog posts + web pages (that have citations) + "white papers" + +Possibly in scope: + + reports + magazine articles + essays + notable mailing list postings + government documents + presentations (slides, video) + datasets + well-researched wiki pages + patents + +Probably not: + + court cases and legal documents + newspaper articles + social media + manuals + datasheets + courses + published poetry + +Definitely not: + + audio recordings + tv show episodes + musical scores + advertisements + +Author, citation, and work disambiguation would be core tasks. Linking +pre-prints to final publication is in scope. + +I'm much less interested in altmetrics, funding, and grant relationships than +most existing databases in this space. + +fatcat would not include any fulltext content itself, even for cleanly licensed +(open access) works, but would have "strong" (verified) links to fulltext +content, and would include file-level metadata (like hashes and fingerprints) +to help discovery and identify content from any source. File-level URLs with +context ("repository", "author-homepage", "web-archive") should make fatcat +more useful for both humans and machines to quickly access fulltext content of +a given mimetype than existing redirect or landing page systems. So another +factor in deciding scope is whether a work has "digital fixity" and can be +contained in a single immutable file. diff --git a/guide/src/workflow.md b/guide/src/workflow.md new file mode 100644 index 00000000..13370a13 --- /dev/null +++ b/guide/src/workflow.md @@ -0,0 +1,36 @@ +# Workflow + +## Basic Editing Workflow and Bots + +Both human editors and bots should have edits go through the same API, with +humans using either the default web interface, integrations, or client +software. + +The normal workflow is to create edits (or updates, merges, deletions) on +individual entities. Individual changes are bundled into an "edit group" of +related edits (eg, correcting authorship info for multiple works related to a +single author). When ready, the editor would "submit" the edit group for +review. During the review period, human editors vote and bots can perform +automated checks. During this period the editor can make tweaks if necessary. +After some fixed time period (72 hours?) with no changes and no blocking +issues, the edit group would be auto-accepted if no merge conflicts have +be created by other edits to the same entities. This process balances editing +labor (reviews are easy, but optional) against quality (cool-down period makes +it easier to detect and prevent spam or out-of-control bots). More +sophisticated roles and permissions could allow some certain humans and bots to +push through edits more rapidly (eg, importing new works from a publisher API). + +Bots need to be tuned to have appropriate edit group sizes (eg, daily batches, +instead of millions of works in a single edit) to make human QA review and +reverts managable. + +Data progeny and source references are captured in the edit metadata, instead +of being encoded in the entity data model itself. In the case of importing +external databases, the expectation is that special-purpose bot accounts +are be used, and tag timestamps and external identifiers in the edit metadata. +Human editors would leave edit messages to clarify their sources. + +A style guide (wiki) and discussion forum would be hosted as separate +stand-alone services for editors to propose projects and debate process or +scope changes. These services should have unified accounts and logins (oauth?) +to have consistent account IDs across all mediums. |