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3 changed files with 9 additions and 347 deletions

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@ -48,10 +48,9 @@ enum PersonCredentialProviderType {
struct PersonCredentialProviderId {
id: String,
}
struct PersonCredentialProvider {
enum PersonCredentialProvider {
id: PersonCredentialProviderId,
name: String,
type: PersonCredentialProviderType,
config: String,
}
struct PersonCredential {
@ -100,41 +99,12 @@ struct Label {
name: String,
description: String,
website: String,
is_enabled: bool,
created_by: PersonId,
created_at: chrono::DateTime,
modified_by: PersonId,
modified_at: chrono::DateTime,
deleted_by: Option<PersonId>,
deleted_at: Option<chrono::DateTime>,
artists: HashMap<Artist>,
tags: Option<Vec<Tag>>,
comments: Option<Vec<Comment>>,
}
```
# LabelContact
A LabelContact represents a method for contacting a representative of a Label.
``` rust
struct LabelContactId {
id: String,
}
struct LabelContact {
id: LabelContactId,
method: String,
address: String,
created_by: PersonId,
created_at: chrono::DateTime,
modified_by: PersonId,
modified_at: chrono::DateTime,
deleted_by: Option<PersonId>,
deleted_at: Option<chrono::DateTime>,
sort_order: usize,
}
```
# Artist
An Artist represents a musical artist.
@ -148,19 +118,8 @@ struct Artist {
name: String,
bio: String,
website: String,
created_by: PersonId,
created_at: chrono::DateTime,
modified_by: PersonId,
modified_at: chrono::DateTime,
deleted_by: Option<PersonId>,
deleted_at: Option<chrono::DateTime>,
is_enabled: bool,
is_public: bool,
labels: Option<Vec<LabelId>>,
tags: Option<Vec<Tag>>,
comments: Option<Vec<Comment>>,
cover: Option<String>,
images: Option<Vec<String>>,
}
```
@ -175,9 +134,9 @@ struct TrackId {
struct Track {
id: TrackId,
title: String,
description: Option<String>,
description: String,
duration: chrono::Duration,
artists: Vec<Artist>,
artists: HashMap<Artist>,
is_public: bool,
is_available: bool,
preview_source: Option<String>,
@ -209,8 +168,8 @@ struct Album {
id: AlbumId,
title: String,
description: String,
artists: Vec<Artist>,
tracks: Vec<Track>,
artists: HashMap<Artist>,
tracks: HashMap<Track>,
is_public: bool,
is_available: bool,
preview_source: Option<String>,

299
SCHEMA.md
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@ -51,302 +51,3 @@ CREATE INDEX PersonEmails_is_verified_IDX ON PersonEmails (is_verified);
CREATE INDEX PersonEmails_is_primary_IDX ON PersonEmails (is_primary);
```
# PersonCredentialProvider
The PersonCredentialProvider table will contain configuration for different authentication providers.
``` sql
CREATE TABLE PersonCredentialProvider (
id TEXT(36),
name TEXT,
"type" TEXT,
config TEXT,
CONSTRAINT PersonCredentialProvider_PK PRIMARY KEY (id)
);
CREATE INDEX PersonCredentialProvider_name_IDX ON PersonCredentialProvider (name);
CREATE INDEX PersonCredentialProvider_type_IDX ON PersonCredentialProvider ("type");
```
# PersonCredential
The PersonCredential table will contain authentication credentials for Persons
``` sql
CREATE TABLE PersonCredential (
id TEXT(36),
person_id TEXT(36),
provider_id TEXT(36),
provider_user_id TEXT(36),
is_enabled INTEGER DEFAULT (1),
CONSTRAINT PersonCredential_PK PRIMARY KEY (id),
CONSTRAINT PersonCredential_FK FOREIGN KEY (person_id) REFERENCES Persons(id) ON DELETE CASCADE,
CONSTRAINT PersonCredential_FK_1 FOREIGN KEY (provider_id) REFERENCES PersonCredentialProvider(id) ON DELETE CASCADE
);
CREATE INDEX PersonCredential_person_id_IDX ON PersonCredential (person_id);
CREATE INDEX PersonCredential_provider_id_IDX ON PersonCredential (provider_id);
CREATE INDEX PersonCredential_is_enabled_IDX ON PersonCredential (is_enabled);
```
# PersonLocal
The PersonLocal table will contain hashed and salted passwords for users authenticating via PersonCredentialProvider.Local type provider
``` sql
CREATE TABLE PersonLocal (
person_id TEXT(36),
hash TEXT,
modified_at INTEGER,
modified_by TEXT(36),
CONSTRAINT PersonLocal_PK PRIMARY KEY (person_id),
CONSTRAINT PersonLocal_FK FOREIGN KEY (person_id) REFERENCES Persons(id) ON DELETE CASCADE
);
```
# Tags
The Tags table will contain tags for categorization of other entities. Tags use the originating host and the tag name as a composite key to allow for us to search for commonalities across instances (for example, "show me Albums matching *::tag::jazz" to see all the jazz albums this instance is aware of, "show me Albums matching sundog-isle.reclaim.technology::tag::jazz" to see only albums tagged as jazz on that one specific instance named in the host field).
``` sql
CREATE TABLE Tags (
id TEXT(36),
host TEXT,
tag TEXT,
CONSTRAINT Tags_PK PRIMARY KEY (id)
);
CREATE UNIQUE INDEX Tags_host_IDX ON Tags (host,tag);
```
# Labels
The Labels table will contain data about record labels/imprints that manage one or more Artists and their content.
``` sql
CREATE TABLE Labels (
id TEXT(36),
name TEXT,
description TEXT,
website TEXT,
is_enabled INTEGER DEFAULT (1),
created_by TEXT(36),
created_at INTEGER,
modified_by TEXT(36),
modified_at INTEGER,
deleted_by TEXT(36),
deleted_at INTEGER,
CONSTRAINT Labels_PK PRIMARY KEY (id),
CONSTRAINT Labels_FK FOREIGN KEY (created_by) REFERENCES Persons(id),
CONSTRAINT Labels_FK_1 FOREIGN KEY (modified_at) REFERENCES Persons(id),
CONSTRAINT Labels_FK_2 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE INDEX Labels_name_IDX ON Labels (name);
CREATE INDEX Labels_description_IDX ON Labels (description);
CREATE INDEX Labels_is_enabled_IDX ON Labels (is_enabled);
CREATE INDEX Labels_created_by_IDX ON Labels (created_by);
CREATE INDEX Labels_deleted_at_IDX ON Labels (deleted_at);
```
# LabelContacts
The LabelContacts table will contain key-value pairs of methods to contact representatives of the Label (for example, "fediverse: sundog@toot-lab.reclaim.technology" or "email: sundog@reclaim.technology").
``` sql
CREATE TABLE LabelContacts (
id TEXT(36),
label_id TEXT(36),
"method" TEXT,
address TEXT,
created_by TEXT(36),
created_at INTEGER,
modified_by TEXT(36),
modified_at INTEGER,
deleted_by TEXT(36),
deleted_at INTEGER,
sort_order INTEGER,
CONSTRAINT LabelContacts_PK PRIMARY KEY (id),
CONSTRAINT LabelContacts_FK FOREIGN KEY (created_by) REFERENCES Persons(id),
CONSTRAINT LabelContacts_FK_1 FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT LabelContacts_FK_2 FOREIGN KEY (deleted_by) REFERENCES Persons(id),
CONSTRAINT LabelContacts_FK_3 FOREIGN KEY (label_id) REFERENCES Labels(id) ON DELETE CASCADE
);
CREATE INDEX LabelContacts_sort_order_IDX ON LabelContacts (sort_order);
```
# LabelTags
The LabelTags table will contain Tags that have been assigned to a Label.
``` sql
CREATE TABLE LabelTags (
label_id TEXT(36),
tag_id TEXT(36),
is_approved INTEGER DEFAULT (0),
CONSTRAINT LabelTags_PK PRIMARY KEY (label_id,tag_id),
CONSTRAINT LabelTags_FK FOREIGN KEY (label_id) REFERENCES Labels(id) ON DELETE CASCADE,
CONSTRAINT LabelTags_FK_1 FOREIGN KEY (tag_id) REFERENCES Tags(id) ON DELETE CASCADE
);
CREATE INDEX LabelTags_is_approved_IDX ON LabelTags (is_approved);
CREATE INDEX LabelTags_tag_id_IDX ON LabelTags (tag_id);
CREATE INDEX LabelTags_label_id_IDX ON LabelTags (label_id);
```
# Artists
The Artists table will contain Artists!
``` sql
CREATE TABLE Artists (
id TEXT(36),
name TEXT,
bio TEXT,
website TEXT,
created_by TEXT(36),
created_at INTEGER,
modified_by TEXT(36),
modified_at INTEGER,
deleted_by TEXT(36),
deleted_at INTEGER,
is_enabled INTEGER DEFAULT (1),
is_public INTEGER DEFAULT (1),
CONSTRAINT Artists_PK PRIMARY KEY (id),
CONSTRAINT Artists_FK FOREIGN KEY (created_by) REFERENCES Persons(id),
CONSTRAINT Artists_FK_1 FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT Artists_FK_2 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE INDEX Artists_name_IDX ON Artists (name);
CREATE INDEX Artists_is_enabled_IDX ON Artists (is_enabled);
CREATE INDEX Artists_is_public_IDX ON Artists (is_public);
```
# ArtistTags
The ArtistTags table will contain Tags that have been assigned to an Artist.
``` sql
CREATE TABLE ArtistTags (
artist_id TEXT(36),
tag_id TEXT(36),
is_approved INTEGER DEFAULT (0),
CONSTRAINT ArtistTags_PK PRIMARY KEY (artist_id,tag_id),
CONSTRAINT ArtistTags_FK FOREIGN KEY (artist_id) REFERENCES Artists(id) ON DELETE CASCADE,
CONSTRAINT ArtistTags_FK_1 FOREIGN KEY (tag_id) REFERENCES Tags(id) ON DELETE CASCADE
);
CREATE INDEX ArtistTags_is_approved_IDX ON ArtistTags (is_approved);
CREATE INDEX ArtistTags_artist_id_IDX ON ArtistTags (artist_id);
CREATE INDEX ArtistTags_tag_id_IDX ON ArtistTags (tag_id);
```
# Tracks
The Tracks table will contain Tracks!
``` sql
CREATE TABLE Tracks (
id TEXT(36),
title TEXT,
description TEXT,
duration REAL,
is_public INTEGER,
is_available INTEGER DEFAULT (1),
preview_source TEXT,
"source" TEXT,
price INTEGER DEFAULT (0),
created_by TEXT(36),
created_at INTEGER,
modified_by TEXT(36),
modified_at INTEGER,
deleted_by TEXT(36),
deleted_at INTEGER,
lyrics TEXT,
CONSTRAINT Tracks_PK PRIMARY KEY (id),
CONSTRAINT Tracks_FK FOREIGN KEY (created_by) REFERENCES Persons(id),
CONSTRAINT Tracks_FK_1 FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT Tracks_FK_2 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE INDEX Tracks_title_IDX ON Tracks (title);
CREATE INDEX Tracks_duration_IDX ON Tracks (duration);
CREATE INDEX Tracks_is_public_IDX ON Tracks (is_public);
CREATE INDEX Tracks_is_available_IDX ON Tracks (is_available);
CREATE INDEX Tracks_price_IDX ON Tracks (price);
CREATE INDEX Tracks_created_by_IDX ON Tracks (created_by);
CREATE INDEX Tracks_deleted_at_IDX ON Tracks (deleted_at);
CREATE INDEX Tracks_lyrics_IDX ON Tracks (lyrics);
```
# TrackArtists
The TrackArtists table will be a one-to-many lookup table mapping Artists to a particular Track.
``` sql
CREATE TABLE TrackArtists (
track_id TEXT(36),
artist_id TEXT(36),
is_primary INTEGER DEFAULT (0),
CONSTRAINT TrackArtists_PK PRIMARY KEY (track_id,artist_id),
CONSTRAINT TrackArtists_FK FOREIGN KEY (track_id) REFERENCES Tracks(id) ON DELETE CASCADE,
CONSTRAINT TrackArtists_FK_1 FOREIGN KEY (artist_id) REFERENCES Artists(id) ON DELETE CASCADE
);
CREATE INDEX TrackArtists_is_primary_IDX ON TrackArtists (is_primary);
CREATE INDEX TrackArtists_track_id_IDX ON TrackArtists (track_id);
CREATE INDEX TrackArtists_artist_id_IDX ON TrackArtists (artist_id);
```
# TrackTags
The TrackTags table will contain Tags that have been assigned to a Track.
``` sql
CREATE TABLE TrackTags (
track_id TEXT(36),
tag_id TEXT(36),
is_approved INTEGER DEFAULT (0),
CONSTRAINT TrackTags_PK PRIMARY KEY (track_id,tag_id),
CONSTRAINT TrackTags_FK FOREIGN KEY (track_id) REFERENCES Tracks(id) ON DELETE CASCADE,
CONSTRAINT TrackTags_FK_1 FOREIGN KEY (tag_id) REFERENCES Tags(id) ON DELETE CASCADE
);
CREATE INDEX TrackTags_is_approved_IDX ON TrackTags (is_approved);
CREATE INDEX TrackTags_track_id_IDX ON TrackTags (track_id);
CREATE INDEX TrackTags_tag_id_IDX ON TrackTags (tag_id);
```
# Albums
The Albums table will contain Albums!
``` sql
CREATE TABLE Albums (
id TEXT(36),
title TEXT,
description TEXT,
is_public INTEGER DEFAULT (0),
is_available INTEGER DEFAULT (1),
preview_source TEXT,
"source" TEXT,
price INTEGER DEFAULT (0),
created_by TEXT(36),
created_at INTEGER,
modified_by TEXT(36),
modified_at INTEGER,
deleted_by TEXT(36),
deleted_at INTEGER,
CONSTRAINT Albums_PK PRIMARY KEY (id),
CONSTRAINT Albums_FK FOREIGN KEY (created_by) REFERENCES Persons(id),
CONSTRAINT Albums_FK_1 FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT Albums_FK_2 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE INDEX Albums_title_IDX ON Albums (title);
CREATE INDEX Albums_description_IDX ON Albums (description);
CREATE INDEX Albums_is_public_IDX ON Albums (is_public);
CREATE INDEX Albums_is_available_IDX ON Albums (is_available);
CREATE INDEX Albums_price_IDX ON Albums (price);
CREATE INDEX Albums_created_by_IDX ON Albums (created_by);
CREATE INDEX Albums_deleted_at_IDX ON Albums (deleted_at);
```
# AlbumArtists
# AlbumTags
# Playlists
# PlaylistTracks
# PlaylistTags
# Comments
# LabelComments
# ArtistComments
# TrackComments
# AlbumComments
# PlaylistComments

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@ -5,5 +5,7 @@ async fn main() {
let hello = warp::get()
.map(|| format!("Hello world!"));
warp::serve(hello).run(([127, 0, 0, 1], 5309)).await;
}
warp::serve(hello)
.run(([127, 0, 0, 1], 5309))
.await;
}