--- --- Software Heritage Data Model --- -- drop schema if exists swh cascade; -- create schema swh; -- set search_path to swh; create table dbversion ( version int primary key, release timestamptz, description text ); insert into dbversion(version, release, description) values(90, now(), 'Work In Progress'); -- a SHA1 checksum (not necessarily originating from Git) create domain sha1 as bytea check (length(value) = 20); -- a Git object ID, i.e., a SHA1 checksum create domain sha1_git as bytea check (length(value) = 20); -- a SHA256 checksum create domain sha256 as bytea check (length(value) = 32); -- UNIX path (absolute, relative, individual path component, etc.) create domain unix_path as bytea; -- a set of UNIX-like access permissions, as manipulated by, e.g., chmod create domain file_perms as int; -- Checksums about actual file content. Note that the content itself is not -- stored in the DB, but on external (key-value) storage. A single checksum is -- used as key there, but the other can be used to verify that we do not inject -- content collisions not knowingly. create table content ( sha1 sha1 primary key, sha1_git sha1_git not null, sha256 sha256 not null, length bigint not null, ctime timestamptz not null default now(), -- creation time, i.e. time of (first) injection into the storage status content_status not null default 'visible', object_id bigserial ); create unique index on content(sha1_git); create unique index on content(sha256); create index on content(ctime); -- TODO use a BRIN index here (postgres >= 9.5) create index on content(object_id); -- Asynchronous notification of new content insertions create function notify_new_content() returns trigger language plpgsql as $$ begin perform pg_notify('new_content', encode(new.sha1, 'hex')); return null; end; $$; create trigger notify_new_content after insert on content for each row execute procedure notify_new_content(); -- Entities constitute a typed hierarchy of organization, hosting -- facilities, groups, people and software projects. -- -- Examples of entities: Software Heritage, Debian, GNU, GitHub, -- Apache, The Linux Foundation, the Debian Python Modules Team, the -- torvalds GitHub user, the torvalds/linux GitHub project. -- -- The data model is hierarchical (via the parent attribute) and might -- store sub-branches of existing entities. The key feature of an -- entity is might be *listed* (if it is available in listable_entity) -- to retrieve information about its content, i.e: sub-entities, -- projects, origins. -- The history of entities. Allows us to keep historical metadata -- about entities. The temporal invariant is the uuid. Root -- organization uuids are manually generated (and available in -- swh-data.sql). -- -- For generated entities (generated = true), we can provide -- generation_metadata to allow listers to retrieve the uuids of previous -- iterations of the entity. -- -- Inactive entities that have been active in the past (active = -- false) should register the timestamp at which we saw them -- deactivate, in a new entry of entity_history. create table entity_history ( id bigserial primary key, uuid uuid, parent uuid, -- should reference entity_history(uuid) name text not null, type entity_type not null, description text, homepage text, active boolean not null, -- whether the entity was seen on the last listing generated boolean not null, -- whether this entity has been generated by a lister lister_metadata jsonb, -- lister-specific metadata, used for queries metadata jsonb, validity timestamptz[] -- timestamps at which we have seen this entity ); create index on entity_history(uuid); create index on entity_history(name); -- The entity table provides a view of the latest information on a -- given entity. It is updated via a trigger on entity_history. create table entity ( uuid uuid primary key, parent uuid references entity(uuid) deferrable initially deferred, name text not null, type entity_type not null, description text, homepage text, active boolean not null, -- whether the entity was seen on the last listing generated boolean not null, -- whether this entity has been generated by a lister lister_metadata jsonb, -- lister-specific metadata, used for queries metadata jsonb, last_seen timestamptz, -- last listing time or disappearance time for active=false last_id bigint references entity_history(id) -- last listing id ); create index on entity(name); create index on entity using gin(lister_metadata jsonb_path_ops); -- Register the equivalence between two entities. Allows sideways -- navigation in the entity table create table entity_equivalence ( entity1 uuid references entity(uuid), entity2 uuid references entity(uuid), primary key (entity1, entity2), constraint order_entities check (entity1 < entity2) ); -- Register a lister for a specific entity. create table listable_entity ( uuid uuid references entity(uuid) primary key, enabled boolean not null default true, -- do we list this entity automatically? list_engine text, -- crawler to be used to list entity's content list_url text, -- root URL to start the listing list_params jsonb, -- org-specific listing parameter latest_list timestamptz -- last time the entity's content has been listed ); -- Log of all entity listings (i.e., entity crawling) that have been -- done in the past, or are still ongoing. create table list_history ( id bigserial primary key, entity uuid references listable_entity(uuid), date timestamptz not null, status boolean, -- true if and only if the listing has been successful result jsonb, -- more detailed return value, depending on status stdout text, stderr text, duration interval -- fetch duration of NULL if still ongoing ); -- An origin is a place, identified by an URL, where software can be found. We -- support different kinds of origins, e.g., git and other VCS repositories, -- web pages that list tarballs URLs (e.g., http://www.kernel.org), indirect -- tarball URLs (e.g., http://www.example.org/latest.tar.gz), etc. The key -- feature of an origin is that it can be *fetched* (wget, git clone, svn -- checkout, etc.) to retrieve all the contained software. create table origin ( id bigserial primary key, type text, -- TODO use an enum here (?) url text not null, lister uuid references listable_entity(uuid), project uuid references entity(uuid) ); create index on origin(type, url); -- Asynchronous notification of new origin insertions create function notify_new_origin() returns trigger language plpgsql as $$ begin perform pg_notify('new_origin', new.id::text); return null; end; $$; create trigger notify_new_origin after insert on origin for each row execute procedure notify_new_origin(); -- Content we have seen but skipped for some reason. This table is -- separate from the content table as we might not have the sha1 -- checksum of that data (for instance when we inject git -- repositories, objects that are too big will be skipped here, and we -- will only know their sha1_git). 'reason' contains the reason the -- content was skipped. origin is a nullable column allowing to find -- out which origin contains that skipped content. create table skipped_content ( sha1 sha1, sha1_git sha1_git, sha256 sha256, length bigint not null, ctime timestamptz not null default now(), status content_status not null default 'absent', reason text not null, origin bigint references origin(id), object_id bigserial, unique (sha1, sha1_git, sha256) ); -- Those indexes support multiple NULL values. create unique index on skipped_content(sha1); create unique index on skipped_content(sha1_git); create unique index on skipped_content(sha256); create index on skipped_content(object_id); -- Asynchronous notification of new skipped content insertions create function notify_new_skipped_content() returns trigger language plpgsql as $$ begin perform pg_notify('new_skipped_content', json_build_object( 'sha1', encode(new.sha1, 'hex'), 'sha1_git', encode(new.sha1_git, 'hex'), 'sha256', encode(new.sha256, 'hex') )::text); return null; end; $$; create trigger notify_new_skipped_content after insert on skipped_content for each row execute procedure notify_new_skipped_content(); -- Log of all origin fetches (i.e., origin crawling) that have been done in the -- past, or are still ongoing. Similar to list_history, but for origins. create table fetch_history ( id bigserial primary key, origin bigint references origin(id), date timestamptz not null, status boolean, -- true if and only if the fetch has been successful result jsonb, -- more detailed returned values, times, etc... stdout text, stderr text, -- null when status is true, filled otherwise duration interval -- fetch duration of NULL if still ongoing ); -- A file-system directory. A directory is a list of directory entries (see -- tables: directory_entry_{dir,file}). -- -- To list the contents of a directory: -- 1. list the contained directory_entry_dir using array dir_entries -- 2. list the contained directory_entry_file using array file_entries -- 3. list the contained directory_entry_rev using array rev_entries -- 4. UNION -- -- Synonyms/mappings: -- * git: tree create table directory ( id sha1_git primary key, dir_entries bigint[], -- sub-directories, reference directory_entry_dir file_entries bigint[], -- contained files, reference directory_entry_file rev_entries bigint[], -- mounted revisions, reference directory_entry_rev object_id bigserial -- short object identifier ); create index on directory using gin (dir_entries); create index on directory using gin (file_entries); create index on directory using gin (rev_entries); create index on directory(object_id); -- Asynchronous notification of new directory insertions create function notify_new_directory() returns trigger language plpgsql as $$ begin perform pg_notify('new_directory', encode(new.id, 'hex')); return null; end; $$; create trigger notify_new_directory after insert on directory for each row execute procedure notify_new_directory(); -- A directory entry pointing to a sub-directory. create table directory_entry_dir ( id bigserial primary key, target sha1_git, -- id of target directory name unix_path, -- path name, relative to containing dir perms file_perms -- unix-like permissions ); create unique index on directory_entry_dir(target, name, perms); -- A directory entry pointing to a file. create table directory_entry_file ( id bigserial primary key, target sha1_git, -- id of target file name unix_path, -- path name, relative to containing dir perms file_perms -- unix-like permissions ); create unique index on directory_entry_file(target, name, perms); -- A directory entry pointing to a revision. create table directory_entry_rev ( id bigserial primary key, target sha1_git, -- id of target revision name unix_path, -- path name, relative to containing dir perms file_perms -- unix-like permissions ); create unique index on directory_entry_rev(target, name, perms); create table person ( id bigserial primary key, fullname bytea not null, -- freeform specification; what is actually used in the checksums -- will usually be of the form 'name ' name bytea, -- advisory: not null if we managed to parse a name email bytea -- advisory: not null if we managed to parse an email ); create unique index on person(fullname); create index on person(name); create index on person(email); -- A snapshot of a software project at a specific point in time. -- -- Synonyms/mappings: -- * git / subversion / etc: commit -- * tarball: a specific tarball -- -- Revisions are organized as DAGs. Each revision points to 0, 1, or more (in -- case of merges) parent revisions. Each revision points to a directory, i.e., -- a file-system tree containing files and directories. create table revision ( id sha1_git primary key, date timestamptz, date_offset smallint, date_neg_utc_offset boolean, committer_date timestamptz, committer_date_offset smallint, committer_date_neg_utc_offset boolean, type revision_type not null, directory sha1_git, -- file-system tree message bytea, author bigint references person(id), committer bigint references person(id), metadata jsonb, -- extra metadata (tarball checksums, extra commit information, etc...) synthetic boolean not null default false, -- true if synthetic (cf. swh-loader-tar) object_id bigserial ); create index on revision(directory); create index on revision(object_id); -- Asynchronous notification of new revision insertions create function notify_new_revision() returns trigger language plpgsql as $$ begin perform pg_notify('new_revision', encode(new.id, 'hex')); return null; end; $$; create trigger notify_new_revision after insert on revision for each row execute procedure notify_new_revision(); -- either this table or the sha1_git[] column on the revision table create table revision_history ( id sha1_git references revision(id), parent_id sha1_git, parent_rank int not null default 0, -- parent position in merge commits, 0-based primary key (id, parent_rank) ); create index on revision_history(parent_id); -- The timestamps at which Software Heritage has made a visit of the given origin. create table origin_visit ( origin bigint not null references origin(id), visit bigint not null, date timestamptz not null, status origin_visit_status not null, metadata jsonb, primary key (origin, visit) ); comment on column origin_visit.origin is 'Visited origin'; comment on column origin_visit.visit is 'Visit number the visit occurred for that origin'; comment on column origin_visit.date is 'Visit date for that origin'; comment on column origin_visit.status is 'Visit status for that origin'; comment on column origin_visit.metadata is 'Metadata associated with the visit'; create index on origin_visit(date); -- Asynchronous notification of new origin visits create function notify_new_origin_visit() returns trigger language plpgsql as $$ begin perform pg_notify('new_origin_visit', json_build_object( 'origin', new.origin, 'visit', new.visit )::text); return null; end; $$; create trigger notify_new_origin_visit after insert on origin_visit for each row execute procedure notify_new_origin_visit(); -- The content of software origins is indexed starting from top-level pointers -- called "branches". Every time we fetch some origin we store in this table -- where the branches pointed to at fetch time. -- -- Synonyms/mappings: -- * git: ref (in the "git update-ref" sense) create table occurrence_history ( origin bigint references origin(id) not null, branch bytea not null, -- e.g., b"master" (for VCS), or b"sid" (for Debian) target sha1_git not null, -- ref target, e.g., commit id target_type object_type not null, -- ref target type object_id bigserial not null, -- short object identifier visits bigint[] not null, -- the visits where that occurrence was valid. References -- origin_visit(visit), where o_h.origin = origin_visit.origin. primary key (object_id) ); create index on occurrence_history(target, target_type); create index on occurrence_history(origin, branch); create unique index on occurrence_history(origin, branch, target, target_type); create index on occurrence_history(object_id); -- Materialized view of occurrence_history, storing the *current* value of each -- branch, as last seen by SWH. create table occurrence ( origin bigint references origin(id) not null, branch bytea not null, target sha1_git not null, target_type object_type not null, primary key(origin, branch) ); -- A "memorable" point in the development history of a project. -- -- Synonyms/mappings: -- * git: tag (of the annotated kind, otherwise they are just references) -- * tarball: the release version number create table release ( id sha1_git primary key, target sha1_git, target_type object_type, date timestamptz, date_offset smallint, date_neg_utc_offset boolean, name bytea, comment bytea, author bigint references person(id), synthetic boolean not null default false, -- true if synthetic (cf. swh-loader-tar) object_id bigserial ); create index on release(target, target_type); create index on release(object_id); -- Asynchronous notification of new release insertions create function notify_new_release() returns trigger language plpgsql as $$ begin perform pg_notify('new_release', encode(new.id, 'hex')); return null; end; $$; create trigger notify_new_release after insert on release for each row execute procedure notify_new_release(); -- Content provenance information caches -- https://forge.softwareheritage.org/T547 -- -- Those tables aren't expected to be exhaustive, and get filled on a case by -- case basis: absence of data doesn't mean the data is not there -- content <-> revision mapping cache -- -- semantics: "we have seen the content with given id in the given path inside -- the given revision" create table cache_content_revision ( content sha1_git not null primary key references content(sha1_git), blacklisted boolean default false, revision_paths bytea[][] ); create table cache_content_revision_processed ( revision sha1_git not null primary key references revision(id) ); -- revision <-> origin_visit mapping cache -- -- semantics: "we have seen the given revision in the given origin during the -- given visit" create table cache_revision_origin ( revision sha1_git not null references revision(id), origin bigint not null, visit bigint not null, primary key (revision, origin, visit), foreign key (origin, visit) references origin_visit (origin, visit) ); create index on cache_revision_origin(revision); -- Computing metadata on sha1's contents -- Properties (mimetype, encoding, etc...) create table content_mimetype ( id sha1 primary key references content(sha1) not null, mimetype bytea not null, encoding bytea not null ); comment on table content_mimetype is 'Metadata associated to a raw content'; comment on column content_mimetype.mimetype is 'Raw content Mimetype'; comment on column content_mimetype.encoding is 'Raw content encoding'; -- Language metadata create table content_language ( id sha1 primary key references content(sha1) not null, lang languages not null ); comment on table content_language is 'Language information on a raw content'; comment on column content_language.lang is 'Language information'; -- ctags information per content create table content_ctags ( id sha1 references content(sha1) not null, name text not null, kind text not null, line bigint not null, lang ctags_languages not null ); comment on table content_ctags is 'Ctags information on a raw content'; comment on column content_ctags.id is 'Content identifier'; comment on column content_ctags.name is 'Symbol name'; comment on column content_ctags.kind is 'Symbol kind (function, class, variable, const...)'; comment on column content_ctags.line is 'Symbol line'; comment on column content_ctags.lang is 'Language information for that content'; create index on content_ctags(id); create unique index on content_ctags(id, md5(name), kind, line, lang); create table fossology_license( id smallserial primary key, name text not null ); comment on table fossology_license is 'Possible license recognized by license indexer'; comment on column fossology_license.id is 'License identifier'; comment on column fossology_license.name is 'License name'; create unique index on fossology_license(name); create table indexer_configuration ( id serial primary key not null, tool_name text not null, tool_version text not null, tool_configuration jsonb ); comment on table indexer_configuration is 'Indexer''s configuration version'; comment on column indexer_configuration.id is 'Tool identifier'; comment on column indexer_configuration.tool_version is 'Tool name'; comment on column indexer_configuration.tool_version is 'Tool version'; comment on column indexer_configuration.tool_configuration is 'Tool configuration: command line, flags, etc...'; create unique index on indexer_configuration(tool_name, tool_version); create table content_fossology_license ( id sha1 references content(sha1) not null, license_id smallserial references fossology_license(id) not null, indexer_configuration_id bigserial references indexer_configuration(id) not null ); create unique index on content_fossology_license(id, license_id, indexer_configuration_id); comment on table content_fossology_license is 'license associated to a raw content'; comment on column content_fossology_license.id is 'Raw content identifier'; comment on column content_fossology_license.license_id is 'One of the content''s license identifier';