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8 changed files with 2320 additions and 28 deletions

2
.gitignore vendored
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@ -16,3 +16,5 @@ target/
# No need to store databases in the git repo
**/*.sqlite
.env
aural_isle.sqlite.db

935
Cargo.lock generated

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@ -4,8 +4,11 @@ version = "0.1.0"
edition = "2021"
[dependencies]
sqlx = { version = "0.7", features = [ "runtime-tokio" ] }
tokio = { version = "1.2", features = ["full"] }
warp = "0.3"
rusty-money = "0.4.1"
dotenv = "0.15.0"
serde = { version = "1.0", features = ["derive"] }
serde_json = "1.0"

11
DEVELOP.md Normal file
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@ -0,0 +1,11 @@
# Dev Notes
To develop against this project, you will need Rust 1.70 or greater installed.
You will want to install the `sqlx-cli` tool via Cargo: `cargo install sqlx-cli`
You will need to initialize a sqlite database store: `touch aural_isle.sqlite.db`
You will need to copy the example env file to .env: `cp env.example .env`
Then you should be able to run the initial database migrations: `sqlx migrate run`. (During initial dev, if you have already run the initial migration, you will need to delete the sqlite database store and re-create it as above)

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@ -24,7 +24,6 @@ CREATE TABLE Persons (
deleted_at INTEGER, /* timestamp */
deleted_by TEXT(36), /* UUIDv4 */
last_seen INTEGER, /* timestamp */
shipping_address TEXT, /* optional, should use \n between lines to keep localized format as needed */
CONSTRAINT Persons_PK PRIMARY KEY (id),
CONSTRAINT Persons_FK FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT Persons_FK_1 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
@ -37,6 +36,28 @@ CREATE INDEX Persons_is_blocked_IDX ON Persons (is_blocked);
CREATE INDEX Persons_deleted_at_IDX ON Persons (deleted_at);
```
# PersonShippingAddresses
The PersonShippingAddresses table will contain zero or more shipping addresses as used by a Person
``` sql
CREATE TABLE IF NOT EXISTS PersonShippingAddresses (
id TEXT(36), /* UUIDv4 */
person_id TEXT(36), /* UUIDv4 */
shipping_address TEXT, /* mandatory, should use \n between lines to keep localized format as needed */
is_primary INTEGER DEFAULT (0), /* bool, default false */
created_at INTEGER, /* timestamp */
modified_at INTEGER, /* timestamp */
modified_by TEXT(36), /* UUIDv4 */
deleted_at INTEGER, /* timestamp */
deleted_by TEXT(36), /* UUIDv4 */
CONSTRAINT PersonShippingAddresses_PK PRIMARY KEY (id),
CONSTRAINT PersonShippingAddresses_FK FOREIGN KEY (person_id) REFERENCES Persons(id),
CONSTRAINT PersonShippingAddresses_FK_1 FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT PersonShippingAddresses_FK_2 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE UNIQUE INDEX IF NOT EXISTS PersonShippingAddresses_is_primary_IDX ON PersonShippingAddresses (is_primary);
```
# PersonEmails Table
The PersonEmails table is a one-to-many lookup table relating a Person to zero or more email addresses
@ -191,6 +212,7 @@ The Artists table will contain Artists!
``` sql
CREATE TABLE Artists (
id TEXT(36),
label_id TEXT(36),
name TEXT,
bio TEXT,
website TEXT,

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@ -7,8 +7,8 @@
# listener - configure instance for a single Person who is focused on listening (a fan, a music collector, someone who wants to share their library with others)
INSTALLATION_MODE=multilabel
# DATABASE_URI represents the connection string for establishing a connection to the data store for this instance
DATABASE_URI=sqlite::memory:
# DATABASE_URL represents the connection string for establishing a connection to the data store for this instance
DATABASE_URL=sqlite://aural_isle.sqlite.db
# FILESTORE takes one of the following values:
# local - use local filesystem for storage
@ -16,7 +16,7 @@ DATABASE_URI=sqlite::memory:
FILESTORE=local
# S3_URI represents the connection string for establishing a connection to the storage system if FILESTORE=s3
S3_URI=
#S3_URI=
# SERVER_ADMIN_NAME is the name to display as the technical/administrative contact for this instance
SERVER_ADMIN_NAME=DJ Sundog

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@ -0,0 +1,803 @@
-- Initial SQLITE schema for Aural Isle
--This file represents the initial schema for the various data structures to be stored in the database.
-- The Persons table will contain data about Person entities (see MODELS.md)
CREATE TABLE IF NOT EXISTS Persons (
id TEXT(36), /* UUIDv4 */
remote_id TEXT, /* field to store an arbitrary remote identifier for this Person if they are not local */
name TEXT, /* "real" name */
handle TEXT, /* also commonly refered to as 'display_name' or 'screen_name', optional (if missing, name will be used as handle) */
avatar TEXT, /* optional URL to Person's avatar image / profile pic */
cover TEXT, /* optional URL to Person's cover image / header image */
bio TEXT, /* optional biographical text provided by Person */
is_active INTEGER DEFAULT (1), /* bool, default true */
is_blocked INTEGER DEFAULT (0), /* bool, default false */
created_at INTEGER, /* timestamp */
modified_at INTEGER, /* timestamp */
modified_by TEXT(36), /* UUIDv4 */
deleted_at INTEGER, /* timestamp */
deleted_by TEXT(36), /* UUIDv4 */
last_seen INTEGER, /* timestamp */
/*shipping_address TEXT,*/ /* optional, should use \n between lines to keep localized format as needed - UPDATE: moving to lookup table */
CONSTRAINT Persons_PK PRIMARY KEY (id),
CONSTRAINT Persons_FK FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT Persons_FK_1 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE UNIQUE INDEX IF NOT EXISTS Persons_remote_id_IDX ON Persons (remote_id);
CREATE INDEX IF NOT EXISTS Persons_name_IDX ON Persons (name);
CREATE INDEX IF NOT EXISTS Persons_handle_IDX ON Persons (handle);
CREATE INDEX IF NOT EXISTS Persons_is_active_IDX ON Persons (is_active);
CREATE INDEX IF NOT EXISTS Persons_is_blocked_IDX ON Persons (is_blocked);
CREATE INDEX IF NOT EXISTS Persons_deleted_at_IDX ON Persons (deleted_at);
-- The PersonShippingAddresses table is a one-to-many lookup table relating a Person to zero or more shipping addresses
CREATE TABLE IF NOT EXISTS PersonShippingAddresses (
id TEXT(36), /* UUIDv4 */
person_id TEXT(36), /* UUIDv4 */
shipping_address TEXT, /* mandatory, should use \n between lines to keep localized format as needed */
is_primary INTEGER DEFAULT (0), /* bool, default false */
created_at INTEGER, /* timestamp */
modified_at INTEGER, /* timestamp */
modified_by TEXT(36), /* UUIDv4 */
deleted_at INTEGER, /* timestamp */
deleted_by TEXT(36), /* UUIDv4 */
CONSTRAINT PersonShippingAddresses_PK PRIMARY KEY (id),
CONSTRAINT PersonShippingAddresses_FK FOREIGN KEY (person_id) REFERENCES Persons(id),
CONSTRAINT PersonShippingAddresses_FK_1 FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT PersonShippingAddresses_FK_2 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE UNIQUE INDEX IF NOT EXISTS PersonShippingAddresses_is_primary_IDX ON PersonShippingAddresses (is_primary);
-- The PersonEmails table is a one-to-many lookup table relating a Person to zero or more email addresses
CREATE TABLE IF NOT EXISTS PersonEmails (
person_id TEXT(36),
email TEXT,
is_verified INTEGER DEFAULT (0),
is_primary INTEGER DEFAULT (0),
CONSTRAINT PersonEmails_PK PRIMARY KEY (email),
CONSTRAINT PersonEmails_FK FOREIGN KEY (person_id) REFERENCES Persons(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS PersonEmails_person_id_IDX ON PersonEmails (person_id);
CREATE INDEX IF NOT EXISTS PersonEmails_is_verified_IDX ON PersonEmails (is_verified);
CREATE INDEX IF NOT EXISTS PersonEmails_is_primary_IDX ON PersonEmails (is_primary);
-- The PersonCredentialProvider table will contain configuration for different authentication providers.
CREATE TABLE IF NOT EXISTS PersonCredentialProvider (
id TEXT(36),
name TEXT,
"type" TEXT,
config TEXT,
CONSTRAINT PersonCredentialProvider_PK PRIMARY KEY (id)
);
CREATE INDEX IF NOT EXISTS PersonCredentialProvider_name_IDX ON PersonCredentialProvider (name);
CREATE INDEX IF NOT EXISTS PersonCredentialProvider_type_IDX ON PersonCredentialProvider ("type");
-- The PersonCredential table will contain authentication credentials for Persons
CREATE TABLE IF NOT EXISTS 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 IF NOT EXISTS PersonCredential_person_id_IDX ON PersonCredential (person_id);
CREATE INDEX IF NOT EXISTS PersonCredential_provider_id_IDX ON PersonCredential (provider_id);
CREATE INDEX IF NOT EXISTS PersonCredential_is_enabled_IDX ON PersonCredential (is_enabled);
-- The PersonLocal table will contain hashed and salted passwords for users authenticating via PersonCredentialProvider.Local type provider
CREATE TABLE IF NOT EXISTS 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
);
-- 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).
CREATE TABLE IF NOT EXISTS Tags (
id TEXT(36),
host TEXT,
tag TEXT,
CONSTRAINT Tags_PK PRIMARY KEY (id)
);
CREATE UNIQUE INDEX IF NOT EXISTS Tags_host_IDX ON Tags (host,tag);
-- The Labels table will contain data about record labels/imprints that manage one or more Artists and their content.
CREATE TABLE IF NOT EXISTS 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 IF NOT EXISTS Labels_name_IDX ON Labels (name);
CREATE INDEX IF NOT EXISTS Labels_description_IDX ON Labels (description);
CREATE INDEX IF NOT EXISTS Labels_is_enabled_IDX ON Labels (is_enabled);
CREATE INDEX IF NOT EXISTS Labels_created_by_IDX ON Labels (created_by);
CREATE INDEX IF NOT EXISTS Labels_deleted_at_IDX ON Labels (deleted_at);
-- 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").
CREATE TABLE IF NOT EXISTS 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 IF NOT EXISTS LabelContacts_sort_order_IDX ON LabelContacts (sort_order);
-- The LabelTags table will contain Tags that have been assigned to a Label.
CREATE TABLE IF NOT EXISTS 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 IF NOT EXISTS LabelTags_is_approved_IDX ON LabelTags (is_approved);
CREATE INDEX IF NOT EXISTS LabelTags_tag_id_IDX ON LabelTags (tag_id);
CREATE INDEX IF NOT EXISTS LabelTags_label_id_IDX ON LabelTags (label_id);
-- The Artists table will contain Artists!
CREATE TABLE IF NOT EXISTS Artists (
id TEXT(36),
label_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 IF NOT EXISTS Artists_name_IDX ON Artists (name);
CREATE INDEX IF NOT EXISTS Artists_is_enabled_IDX ON Artists (is_enabled);
CREATE INDEX IF NOT EXISTS Artists_is_public_IDX ON Artists (is_public);
-- The ArtistContacts tablekey-value pairs of methods to contact representatives of the Artist (for example, "fediverse: sundog@toot-lab.reclaim.technology" or "email: sundog@reclaim.technology").
CREATE TABLE IF NOT EXISTS ArtistContacts (
id TEXT(36),
artist_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 ArtistContacts_PK PRIMARY KEY (id),
CONSTRAINT ArtistContacts_FK FOREIGN KEY (artist_id) REFERENCES Artists(id) ON DELETE CASCADE
CONSTRAINT ArtistContacts_FK_1 FOREIGN KEY (created_by) REFERENCES Persons(id),
CONSTRAINT ArtistContacts_FK_2 FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT ArtistContacts_FK_3 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE INDEX IF NOT EXISTS ArtistContacts_artist_id_IDX ON ArtistContacts (artist_id);
CREATE INDEX IF NOT EXISTS ArtistContacts_deleted_at_IDX ON ArtistContacts (deleted_at);
CREATE INDEX IF NOT EXISTS ArtistContacts_sort_order_IDX ON ArtistContacts (sort_order);
-- The ArtistTags table will contain Tags that have been assigned to an Artist.
CREATE TABLE IF NOT EXISTS 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 IF NOT EXISTS ArtistTags_is_approved_IDX ON ArtistTags (is_approved);
CREATE INDEX IF NOT EXISTS ArtistTags_artist_id_IDX ON ArtistTags (artist_id);
CREATE INDEX IF NOT EXISTS ArtistTags_tag_id_IDX ON ArtistTags (tag_id);
-- The Tracks table will contain Tracks!
CREATE TABLE IF NOT EXISTS 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 IF NOT EXISTS Tracks_title_IDX ON Tracks (title);
CREATE INDEX IF NOT EXISTS Tracks_duration_IDX ON Tracks (duration);
CREATE INDEX IF NOT EXISTS Tracks_is_public_IDX ON Tracks (is_public);
CREATE INDEX IF NOT EXISTS Tracks_is_available_IDX ON Tracks (is_available);
CREATE INDEX IF NOT EXISTS Tracks_price_IDX ON Tracks (price);
CREATE INDEX IF NOT EXISTS Tracks_created_by_IDX ON Tracks (created_by);
CREATE INDEX IF NOT EXISTS Tracks_deleted_at_IDX ON Tracks (deleted_at);
CREATE INDEX IF NOT EXISTS Tracks_lyrics_IDX ON Tracks (lyrics);
-- The TrackArtists table will be a one-to-many lookup table mapping Artists to a particular Track.
CREATE TABLE IF NOT EXISTS 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 IF NOT EXISTS TrackArtists_is_primary_IDX ON TrackArtists (is_primary);
CREATE INDEX IF NOT EXISTS TrackArtists_track_id_IDX ON TrackArtists (track_id);
CREATE INDEX IF NOT EXISTS TrackArtists_artist_id_IDX ON TrackArtists (artist_id);
-- The TrackTags table will contain Tags that have been assigned to a Track.
CREATE TABLE IF NOT EXISTS 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 IF NOT EXISTS TrackTags_is_approved_IDX ON TrackTags (is_approved);
CREATE INDEX IF NOT EXISTS TrackTags_track_id_IDX ON TrackTags (track_id);
CREATE INDEX IF NOT EXISTS TrackTags_tag_id_IDX ON TrackTags (tag_id);
-- The Albums table will contain Albums!
CREATE TABLE IF NOT EXISTS 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 IF NOT EXISTS Albums_title_IDX ON Albums (title);
CREATE INDEX IF NOT EXISTS Albums_description_IDX ON Albums (description);
CREATE INDEX IF NOT EXISTS Albums_is_public_IDX ON Albums (is_public);
CREATE INDEX IF NOT EXISTS Albums_is_available_IDX ON Albums (is_available);
CREATE INDEX IF NOT EXISTS Albums_price_IDX ON Albums (price);
CREATE INDEX IF NOT EXISTS Albums_created_by_IDX ON Albums (created_by);
CREATE INDEX IF NOT EXISTS Albums_deleted_at_IDX ON Albums (deleted_at);
-- The AlbumArtists table will be a one-to-many lookup table mapping Artists to a particular Album.
CREATE TABLE IF NOT EXISTS AlbumArtists (
album_id TEXT(36),
artist_id TEXT(36),
is_primary INTEGER DEFAULT (0),
CONSTRAINT AlbumArtists_PK PRIMARY KEY (album_id,artist_id),
CONSTRAINT AlbumArtists_FK FOREIGN KEY (album_id) REFERENCES Albums(id) ON DELETE CASCADE,
CONSTRAINT AlbumArtists_FK_1 FOREIGN KEY (artist_id) REFERENCES Artists(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS AlbumArtists_is_primary_IDX ON AlbumArtists (is_primary);
CREATE INDEX IF NOT EXISTS AlbumArtists_album_id_IDX ON AlbumArtists (album_id);
CREATE INDEX IF NOT EXISTS AlbumArtists_artist_id_IDX ON AlbumArtists (artist_id);
-- The AlbumTags table will contain Tags that have been assigned to an Album.
CREATE TABLE IF NOT EXISTS AlbumTags (
album_id TEXT(36),
tag_id TEXT(36),
is_approved INTEGER DEFAULT (0),
CONSTRAINT AlbumTags_PK PRIMARY KEY (album_id,tag_id),
CONSTRAINT AlbumTags_FK FOREIGN KEY (album_id) REFERENCES Albums(id) ON DELETE CASCADE,
CONSTRAINT AlbumTags_FK_1 FOREIGN KEY (tag_id) REFERENCES Tags(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS AlbumTags_is_approved_IDX ON AlbumTags (is_approved);
CREATE INDEX IF NOT EXISTS AlbumTags_album_id_IDX ON AlbumTags (album_id);
CREATE INDEX IF NOT EXISTS AlbumTags_tag_id_IDX ON AlbumTags (tag_id);
-- The AlbumTracks table will be a many-to-many lookup table mapping Tracks to Albums
CREATE TABLE IF NOT EXISTS AlbumTracks (
album_id TEXT(36),
track_id TEXT(36),
track_number INTEGER,
CONSTRAINT AlbumTracks_PK PRIMARY KEY (album_id,track_id),
CONSTRAINT AlbumTracks_FK FOREIGN KEY (album_id) REFERENCES Albums(id) ON DELETE CASCADE,
CONSTRAINT AlbumTracks_FK_1 FOREIGN KEY (track_id) REFERENCES Tracks(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS AlbumTracks_track_number_IDX ON AlbumTracks (track_number);
CREATE INDEX IF NOT EXISTS AlbumTracks_album_id_IDX ON AlbumTracks (album_id);
CREATE INDEX IF NOT EXISTS AlbumTracks_track_id_IDX ON AlbumTracks (track_id);
-- The Playlists table will contain Playlists!
CREATE TABLE IF NOT EXISTS Playlists (
id TEXT(36),
title TEXT,
description TEXT,
created_by TEXT(36),
created_at INTEGER,
modified_at INTEGER,
deleted_at INTEGER,
is_public INTEGER DEFAULT (1),
CONSTRAINT Playlists_PK PRIMARY KEY (id),
CONSTRAINT Playlists_FK FOREIGN KEY (created_by) REFERENCES Persons(id)
);
CREATE INDEX IF NOT EXISTS Playlists_title_IDX ON Playlists (title);
CREATE INDEX IF NOT EXISTS Playlists_description_IDX ON Playlists (description);
CREATE INDEX IF NOT EXISTS Playlists_created_by_IDX ON Playlists (created_by);
CREATE INDEX IF NOT EXISTS Playlists_created_at_IDX ON Playlists (created_at);
CREATE INDEX IF NOT EXISTS Playlists_modified_at_IDX ON Playlists (modified_at);
CREATE INDEX IF NOT EXISTS Playlists_deleted_at_IDX ON Playlists (deleted_at);
CREATE INDEX IF NOT EXISTS Playlists_is_public_IDX ON Playlists (is_public);
-- The PlaylistTracks table will be a many-to-many lookup table mapping Tracks to Playlists
CREATE TABLE IF NOT EXISTS PlaylistTracks (
playlist_track_id TEXT(36),
playlist_id TEXT(36),
track_id TEXT,
track_number INTEGER,
CONSTRAINT PlaylistTracks_PK PRIMARY KEY (playlist_track_id),
CONSTRAINT PlaylistTracks_FK FOREIGN KEY (playlist_id) REFERENCES Playlists(id) ON DELETE CASCADE,
CONSTRAINT PlaylistTracks_FK_1 FOREIGN KEY (track_id) REFERENCES Tracks(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS PlaylistTracks_track_number_IDX ON PlaylistTracks (track_number);
CREATE INDEX IF NOT EXISTS PlaylistTracks_playlist_id_IDX ON PlaylistTracks (playlist_id);
CREATE INDEX IF NOT EXISTS PlaylistTracks_track_id_IDX ON PlaylistTracks (track_id);
-- The PlaylistTags table will contain Tags that have been assigned to a Playlist.
CREATE TABLE IF NOT EXISTS PlaylistTags (
playlist_id TEXT(36),
tag_id TEXT(36),
is_approved INTEGER DEFAULT (0),
CONSTRAINT PlaylistTags_PK PRIMARY KEY (playlist_id,tag_id),
CONSTRAINT PlaylistTags_FK FOREIGN KEY (playlist_id) REFERENCES Playlists(id) ON DELETE CASCADE,
CONSTRAINT PlaylistTags_FK_1 FOREIGN KEY (tag_id) REFERENCES Tags(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS PlaylistTags_is_approved_IDX ON PlaylistTags (is_approved);
CREATE INDEX IF NOT EXISTS PlaylistTags_playlist_id_IDX ON PlaylistTags (playlist_id);
CREATE INDEX IF NOT EXISTS PlaylistTags_tag_id_IDX ON PlaylistTags (tag_id);
-- The Comments table will contain Comments!
CREATE TABLE IF NOT EXISTS Comments (
id TEXT(36),
body TEXT,
created_by TEXT(36),
created_at INTEGER,
modified_by TEXT(36),
modified_at INTEGER,
deleted_by TEXT(36),
deleted_at INTEGER,
is_public INTEGER DEFAULT (1),
is_approved INTEGER DEFAULT (0),
in_reply_to TEXT(36),
CONSTRAINT Comments_PK PRIMARY KEY (id),
CONSTRAINT Comments_FK FOREIGN KEY (created_by) REFERENCES Persons(id),
CONSTRAINT Comments_FK_1 FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT Comments_FK_2 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE INDEX IF NOT EXISTS Comments_body_IDX ON Comments (body);
CREATE INDEX IF NOT EXISTS Comments_created_at_IDX ON Comments (created_at);
CREATE INDEX IF NOT EXISTS Comments_modified_at_IDX ON Comments (modified_at);
CREATE INDEX IF NOT EXISTS Comments_deleted_at_IDX ON Comments (deleted_at);
CREATE INDEX IF NOT EXISTS Comments_is_public_IDX ON Comments (is_public);
CREATE INDEX IF NOT EXISTS Comments_is_approved_IDX ON Comments (is_approved);
CREATE INDEX IF NOT EXISTS Comments_in_reply_to_IDX ON Comments (in_reply_to);
-- The LabelComments table will relate Comments to the Label they are about, if pertinent.
CREATE TABLE IF NOT EXISTS LabelComments (
label_id TEXT(36),
comment_id TEXT(36),
CONSTRAINT LabelComments_PK PRIMARY KEY (label_id,comment_id),
CONSTRAINT LabelComments_FK FOREIGN KEY (label_id) REFERENCES Labels(id) ON DELETE CASCADE,
CONSTRAINT LabelComments_FK_1 FOREIGN KEY (comment_id) REFERENCES Comments(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS LabelComments_label_id_IDX ON LabelComments (label_id);
CREATE INDEX IF NOT EXISTS LabelComments_comment_id_IDX ON LabelComments (comment_id);
-- The ArtistComments table will relate Comments to the Artist they are about, if pertinent.
CREATE TABLE IF NOT EXISTS ArtistComments (
artist_id TEXT(36),
comment_id TEXT(36),
CONSTRAINT ArtistComments_PK PRIMARY KEY (artist_id,comment_id),
CONSTRAINT ArtistComments_FK FOREIGN KEY (artist_id) REFERENCES Artists(id) ON DELETE CASCADE,
CONSTRAINT ArtistComments_FK_1 FOREIGN KEY (comment_id) REFERENCES Comments(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS ArtistComments_artist_id_IDX ON ArtistComments (artist_id);
CREATE INDEX IF NOT EXISTS ArtistComments_comment_id_IDX ON ArtistComments (comment_id);
-- The TrackComments table will relate Comments to the Track they are about, if pertinent.
CREATE TABLE IF NOT EXISTS TrackComments (
track_id TEXT(36),
comment_id TEXT(36),
CONSTRAINT TrackComments_PK PRIMARY KEY (track_id,comment_id),
CONSTRAINT TrackComments_FK FOREIGN KEY (track_id) REFERENCES Tracks(id) ON DELETE CASCADE,
CONSTRAINT TrackComments_FK_1 FOREIGN KEY (comment_id) REFERENCES Comments(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS TrackComments_track_id_IDX ON TrackComments (track_id);
CREATE INDEX IF NOT EXISTS TrackComments_comment_id_IDX ON TrackComments (comment_id);
-- The AlbumComments table will relate Comments to the Album they are about, if pertinent.
CREATE TABLE IF NOT EXISTS AlbumComments (
album_id TEXT(36),
comment_id TEXT(36),
CONSTRAINT AlbumComments_PK PRIMARY KEY (album_id,comment_id),
CONSTRAINT AlbumComments_FK FOREIGN KEY (album_id) REFERENCES Albums(id) ON DELETE CASCADE,
CONSTRAINT AlbumComments_FK_1 FOREIGN KEY (comment_id) REFERENCES Comments(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS AlbumComments_album_id_IDX ON AlbumComments (album_id);
CREATE INDEX IF NOT EXISTS AlbumComments_comment_id_IDX ON AlbumComments (comment_id);
-- The PlaylistComments table will relate Comments to the Playlist they are about, if pertinent.
CREATE TABLE IF NOT EXISTS PlaylistComments (
playlist_id TEXT(36),
comment_id TEXT(36),
CONSTRAINT PlaylistComments_PK PRIMARY KEY (playlist_id,comment_id),
CONSTRAINT PlaylistComments_FK FOREIGN KEY (playlist_id) REFERENCES Playlists(id) ON DELETE CASCADE,
CONSTRAINT PlaylistComments_FK_1 FOREIGN KEY (comment_id) REFERENCES Comments(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS PlaylistComments_playlist_id_IDX ON PlaylistComments (playlist_id);
CREATE INDEX IF NOT EXISTS PlaylistComments_comment_id_IDX ON PlaylistComments (comment_id);
-- The Images table will contain Images!
CREATE TABLE IF NOT EXISTS Images (
id TEXT(36),
name TEXT,
"path" TEXT,
url TEXT,
width INTEGER,
height INTEGER,
alt_text TEXT,
is_public INTEGER DEFAULT (1),
allow_hotlinking 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 Images_PK PRIMARY KEY (id),
CONSTRAINT Images_FK FOREIGN KEY (created_by) REFERENCES Persons(id),
CONSTRAINT Images_FK_1 FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT Images_FK_2 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE INDEX IF NOT EXISTS Images_name_IDX ON Images (name);
CREATE INDEX IF NOT EXISTS Images_path_IDX ON Images ("path");
CREATE INDEX IF NOT EXISTS Images_url_IDX ON Images (url);
CREATE INDEX IF NOT EXISTS Images_alt_text_IDX ON Images (alt_text);
CREATE INDEX IF NOT EXISTS Images_is_public_IDX ON Images (is_public);
CREATE INDEX IF NOT EXISTS Images_allow_hotlinking_IDX ON Images (allow_hotlinking);
CREATE INDEX IF NOT EXISTS Images_created_by_IDX ON Images (created_by);
CREATE INDEX IF NOT EXISTS Images_deleted_at_IDX ON Images (deleted_at);
-- The Videos table will contain Videos!
CREATE TABLE IF NOT EXISTS Videos (
id TEXT(36),
name TEXT,
"path" TEXT,
url TEXT,
width INTEGER,
height INTEGER,
duration NUMERIC,
alt_text TEXT,
is_public INTEGER DEFAULT (1),
allow_hotlinking 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 Videos_PK PRIMARY KEY (id),
CONSTRAINT Videos_FK FOREIGN KEY (created_by) REFERENCES Persons(id),
CONSTRAINT Videos_FK_1 FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT Videos_FK_2 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE INDEX IF NOT EXISTS Videos_name_IDX ON Videos (name);
CREATE INDEX IF NOT EXISTS Videos_path_IDX ON Videos ("path");
CREATE INDEX IF NOT EXISTS Videos_url_IDX ON Videos (url);
CREATE INDEX IF NOT EXISTS Videos_alt_text_IDX ON Videos (alt_text);
CREATE INDEX IF NOT EXISTS Videos_is_public_IDX ON Videos (is_public);
CREATE INDEX IF NOT EXISTS Videos_allow_hotlinking_IDX ON Videos (allow_hotlinking);
CREATE INDEX IF NOT EXISTS Videos_created_by_IDX ON Videos (created_by);
CREATE INDEX IF NOT EXISTS Videos_deleted_at_IDX ON Videos (deleted_at);
-- The Articles table will contain Articles!
CREATE TABLE IF NOT EXISTS Articles (
id TEXT(36),
title TEXT,
body TEXT,
description TEXT,
created_by TEXT(36),
created_at INTEGER,
modified_at INTEGER,
published_at INTEGER,
deleted_at INTEGER,
is_public INTEGER DEFAULT (0),
is_draft INTEGER DEFAULT (1),
CONSTRAINT Articles_PK PRIMARY KEY (id),
CONSTRAINT Articles_FK FOREIGN KEY (created_by) REFERENCES Persons(id)
);
CREATE INDEX IF NOT EXISTS Articles_title_IDX ON Articles (title);
CREATE INDEX IF NOT EXISTS Articles_body_IDX ON Articles (body);
CREATE INDEX IF NOT EXISTS Articles_description_IDX ON Articles (description);
CREATE INDEX IF NOT EXISTS Articles_created_by_IDX ON Articles (created_by);
CREATE INDEX IF NOT EXISTS Articles_published_at_IDX ON Articles (published_at);
CREATE INDEX IF NOT EXISTS Articles_deleted_at_IDX ON Articles (deleted_at);
CREATE INDEX IF NOT EXISTS Articles_is_public_IDX ON Articles (is_public);
CREATE INDEX IF NOT EXISTS Articles_is_draft_IDX ON Articles (is_draft);
-- The ArticleTags table will contain Tags that have been assigned to an Article.
CREATE TABLE IF NOT EXISTS ArticleTags (
article_id TEXT(36),
tag_id TEXT(36),
is_approved INTEGER DEFAULT (0),
CONSTRAINT ArticleTags_PK PRIMARY KEY (article_id,tag_id),
CONSTRAINT ArticleTags_FK FOREIGN KEY (article_id) REFERENCES Articles(id) ON DELETE CASCADE,
CONSTRAINT ArticleTags_FK_1 FOREIGN KEY (tag_id) REFERENCES Tags(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS ArticleTags_is_approved_IDX ON ArticleTags (is_approved);
-- The ArticleComments table will relate Comments to the Article they are about, if pertinent.
CREATE TABLE IF NOT EXISTS ArticleComments (
article_id TEXT(36),
comment_id TEXT(36),
CONSTRAINT ArticleComments_PK PRIMARY KEY (article_id,comment_id),
CONSTRAINT ArticleComments_FK FOREIGN KEY (article_id) REFERENCES Articles(id) ON DELETE CASCADE,
CONSTRAINT ArticleComments_FK_1 FOREIGN KEY (comment_id) REFERENCES Comments(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS ArticleComments_article_id_IDX ON ArticleComments (article_id);
CREATE INDEX IF NOT EXISTS ArticleComments_comment_id_IDX ON ArticleComments (comment_id);
-- The OtherProducts table will contain products for sale that are not Albums nor Tracks nor Collections.
CREATE TABLE IF NOT EXISTS OtherProducts (
id TEXT(36),
name TEXT,
description TEXT,
created_by TEXT(36),
created_at INTEGER,
modified_by TEXT(36),
modified_at INTEGER,
deleted_by TEXT(36),
deleted_at INTEGER,
is_public INTEGER DEFAULT (0),
is_available INTEGER DEFAULT (0),
requires_shipping INTEGER DEFAULT (0),
CONSTRAINT OtherProducts_PK PRIMARY KEY (id),
CONSTRAINT OtherProducts_FK FOREIGN KEY (created_by) REFERENCES Persons(id),
CONSTRAINT OtherProducts_FK_1 FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT OtherProducts_FK_2 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE INDEX IF NOT EXISTS OtherProducts_name_IDX ON OtherProducts (name);
CREATE INDEX IF NOT EXISTS OtherProducts_description_IDX ON OtherProducts (description);
CREATE INDEX IF NOT EXISTS OtherProducts_created_by_IDX ON OtherProducts (created_by);
CREATE INDEX IF NOT EXISTS OtherProducts_created_at_IDX ON OtherProducts (created_at);
CREATE INDEX IF NOT EXISTS OtherProducts_modified_by_IDX ON OtherProducts (modified_by);
CREATE INDEX IF NOT EXISTS OtherProducts_modified_at_IDX ON OtherProducts (modified_at);
CREATE INDEX IF NOT EXISTS OtherProducts_deleted_by_IDX ON OtherProducts (deleted_by);
CREATE INDEX IF NOT EXISTS OtherProducts_deleted_at_IDX ON OtherProducts (deleted_at);
CREATE INDEX IF NOT EXISTS OtherProducts_is_public_IDX ON OtherProducts (is_public);
CREATE INDEX IF NOT EXISTS OtherProducts_is_available_IDX ON OtherProducts (is_available);
CREATE INDEX IF NOT EXISTS OtherProducts_requires_shipping_IDX ON OtherProducts (requires_shipping);
-- The Collections table will contain Collections where each Collection is comprised of one or more Tracks, Albums, and/or OtherProducts packaged together for sale.
CREATE TABLE IF NOT EXISTS Collections (
id TEXT(36),
name TEXT,
description TEXT,
created_by TEXT(36),
created_at INTEGER,
modified_by TEXT(36),
modified_at INTEGER,
deleted_by TEXT(36),
deleted_at INTEGER,
is_public INTEGER DEFAULT (0),
is_available INTEGER DEFAULT (0),
CONSTRAINT Collections_PK PRIMARY KEY (id),
CONSTRAINT Collections_FK FOREIGN KEY (created_by) REFERENCES Persons(id),
CONSTRAINT Collections_FK_1 FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT Collections_FK_2 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE INDEX IF NOT EXISTS Collections_name_IDX ON Collections (name);
CREATE INDEX IF NOT EXISTS Collections_description_IDX ON Collections (description);
CREATE INDEX IF NOT EXISTS Collections_created_by_IDX ON Collections (created_by);
CREATE INDEX IF NOT EXISTS Collections_created_at_IDX ON Collections (created_at);
CREATE INDEX IF NOT EXISTS Collections_modified_by_IDX ON Collections (modified_by);
CREATE INDEX IF NOT EXISTS Collections_modified_at_IDX ON Collections (modified_at);
CREATE INDEX IF NOT EXISTS Collections_deleted_by_IDX ON Collections (deleted_by);
CREATE INDEX IF NOT EXISTS Collections_deleted_at_IDX ON Collections (deleted_at);
CREATE INDEX IF NOT EXISTS Collections_is_public_IDX ON Collections (is_public);
CREATE INDEX IF NOT EXISTS Collections_is_available_IDX ON Collections (is_available);
-- The CollectionAlbums table will relate a Collection to the Album(s) it contains.
CREATE TABLE IF NOT EXISTS CollectionAlbums (
collection_id TEXT(36),
album_id TEXT(36),
CONSTRAINT CollectionAlbums_PK PRIMARY KEY (collection_id,album_id),
CONSTRAINT CollectionAlbums_FK FOREIGN KEY (collection_id) REFERENCES Collections(id) ON DELETE CASCADE,
CONSTRAINT CollectionAlbums_FK_1 FOREIGN KEY (album_id) REFERENCES Albums(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS CollectionAlbums_collection_id_IDX ON CollectionAlbums (collection_id);
CREATE INDEX IF NOT EXISTS CollectionAlbums_album_id_IDX ON CollectionAlbums (album_id);
-- The CollectionTracks table will relate a Collection to the Track(s) it contains.
CREATE TABLE IF NOT EXISTS CollectionTracks (
collection_id TEXT(36),
track_id TEXT(36),
CONSTRAINT CollectionTracks_PK PRIMARY KEY (collection_id,track_id),
CONSTRAINT CollectionTracks_FK FOREIGN KEY (collection_id) REFERENCES Collections(id) ON DELETE CASCADE,
CONSTRAINT CollectionTracks_FK_1 FOREIGN KEY (track_id) REFERENCES Tracks(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS CollectionTracks_collection_id_IDX ON CollectionTracks (collection_id);
CREATE INDEX IF NOT EXISTS CollectionTracks_track_id_IDX ON CollectionTracks (track_id);
-- The CollectionOtherProducts table will relate a Collection to the OtherProduct(s) it contains.
CREATE TABLE IF NOT EXISTS CollectionOtherProducts (
collection_id TEXT(36),
other_product_id TEXT(36),
CONSTRAINT CollectionOtherProducts_PK PRIMARY KEY (collection_id,other_product_id),
CONSTRAINT CollectionOtherProducts_FK FOREIGN KEY (collection_id) REFERENCES Collections(id) ON DELETE CASCADE,
CONSTRAINT CollectionOtherProducts_FK_1 FOREIGN KEY (other_product_id) REFERENCES OtherProducts(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS CollectionOtherProducts_collection_id_IDX ON CollectionOtherProducts (collection_id);
CREATE INDEX IF NOT EXISTS CollectionOtherProducts_other_product_id_IDX ON CollectionOtherProducts (other_product_id);
-- The Skus table will contain SKUs () representing items available for Purchase through the server.
CREATE TABLE IF NOT EXISTS Skus (
id TEXT(36),
item_type TEXT,
item_id TEXT(36),
variant TEXT,
description TEXT,
price NUMERIC DEFAULT (0.00),
requires_shipping INTEGER DEFAULT (0),
shipping_charge NUMERIC DEFAULT (0.00),
CONSTRAINT Skus_PK PRIMARY KEY (id)
);
CREATE INDEX IF NOT EXISTS Skus_item_type_IDX ON Skus (item_type);
CREATE INDEX IF NOT EXISTS Skus_item_id_IDX ON Skus (item_id);
CREATE INDEX IF NOT EXISTS Skus_variant_IDX ON Skus (variant);
CREATE INDEX IF NOT EXISTS Skus_description_IDX ON Skus (description);
CREATE INDEX IF NOT EXISTS Skus_price_IDX ON Skus (price);
CREATE INDEX IF NOT EXISTS Skus_requires_shipping_IDX ON Skus (requires_shipping);
CREATE INDEX IF NOT EXISTS Skus_shipping_charge_IDX ON Skus (shipping_charge);
-- The LineItems table will contain individual SKUs and their associated quantites as part of a Purchase.
CREATE TABLE IF NOT EXISTS LineItems (
id TEXT(36),
sku_id TEXT(36),
quantity INTEGER DEFAULT (1),
CONSTRAINT LineItems_PK PRIMARY KEY (id),
CONSTRAINT LineItems_FK FOREIGN KEY (sku_id) REFERENCES Skus(id)
);
CREATE INDEX IF NOT EXISTS LineItems_sku_id_IDX ON LineItems (sku_id);
CREATE INDEX IF NOT EXISTS LineItems_quantity_IDX ON LineItems (quantity);
-- The CouponCodes table will contain coupon codes that can be redeemed for a discount, either by amount or percentage, on a Purchase.
CREATE TABLE IF NOT EXISTS CouponCodes (
id TEXT(36),
name TEXT,
code TEXT,
uses INTEGER DEFAULT (0),
max_uses INTEGER DEFAULT (0),
expiration INTEGER,
discount_flat NUMERIC DEFAULT (0.00),
discount_percentage NUMERIC DEFAULT (0.00),
is_sku_specific INTEGER DEFAULT (0),
is_active 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 CouponCodes_PK PRIMARY KEY (id),
CONSTRAINT CouponCodes_FK FOREIGN KEY (created_by) REFERENCES Persons(id),
CONSTRAINT CouponCodes_FK_1 FOREIGN KEY (modified_by) REFERENCES Persons(id),
CONSTRAINT CouponCodes_FK_2 FOREIGN KEY (deleted_by) REFERENCES Persons(id)
);
CREATE INDEX IF NOT EXISTS CouponCodes_name_IDX ON CouponCodes (name);
CREATE UNIQUE INDEX IF NOT EXISTS CouponCodes_code_IDX ON CouponCodes (code);
CREATE INDEX IF NOT EXISTS CouponCodes_uses_IDX ON CouponCodes (uses);
CREATE INDEX IF NOT EXISTS CouponCodes_max_uses_IDX ON CouponCodes (max_uses);
CREATE INDEX IF NOT EXISTS CouponCodes_expiration_IDX ON CouponCodes (expiration);
CREATE INDEX IF NOT EXISTS CouponCodes_is_sku_specific_IDX ON CouponCodes (is_sku_specific);
CREATE INDEX IF NOT EXISTS CouponCodes_is_active_IDX ON CouponCodes (is_active);
CREATE INDEX IF NOT EXISTS CouponCodes_created_by_IDX ON CouponCodes (created_by);
CREATE INDEX IF NOT EXISTS CouponCodes_created_at_IDX ON CouponCodes (created_at);
CREATE INDEX IF NOT EXISTS CouponCodes_modified_by_IDX ON CouponCodes (modified_by);
CREATE INDEX IF NOT EXISTS CouponCodes_modified_at_IDX ON CouponCodes (modified_at);
CREATE INDEX IF NOT EXISTS CouponCodes_deleted_by_IDX ON CouponCodes (deleted_by);
CREATE INDEX IF NOT EXISTS CouponCodes_deleted_at_IDX ON CouponCodes (deleted_at);
-- The CouponCodeSkus table will relate a CouponCode to one or more Skus the CouponCode can be applied to, if CouponCode.is_sku_specific is true. (If CouponCode.is_sku_specific is false the CouponCode can be applied to an entire Purchase regardless of the Skus being purchased.)
CREATE TABLE IF NOT EXISTS CouponCodeSkus (
coupon_code_id TEXT(36),
sku_id TEXT(36),
CONSTRAINT CouponCodeSkus_PK PRIMARY KEY (coupon_code_id,sku_id),
CONSTRAINT CouponCodeSkus_FK FOREIGN KEY (coupon_code_id) REFERENCES CouponCodes(id),
CONSTRAINT CouponCodeSkus_FK_1 FOREIGN KEY (sku_id) REFERENCES Skus(id)
);
-- The Purchases table will contain Purchases!
CREATE TABLE IF NOT EXISTS Purchases (
id TEXT(36),
state TEXT,
purchased_by TEXT(36),
purchased_at INTEGER,
fulfilled_by TEXT(36),
fulfilled_at INTEGER,
total_charge NUMERIC DEFAULT (0.00),
CONSTRAINT Purchases_PK PRIMARY KEY (id),
CONSTRAINT Purchases_FK FOREIGN KEY (purchased_by) REFERENCES Persons(id),
CONSTRAINT Purchases_FK_1 FOREIGN KEY (fulfilled_by) REFERENCES Persons(id)
);
CREATE INDEX IF NOT EXISTS Purchases_state_IDX ON Purchases (state);
CREATE INDEX IF NOT EXISTS Purchases_purchased_by_IDX ON Purchases (purchased_by);
CREATE INDEX IF NOT EXISTS Purchases_purchased_at_IDX ON Purchases (purchased_at);
CREATE INDEX IF NOT EXISTS Purchases_fulfilled_by_IDX ON Purchases (fulfilled_by);
CREATE INDEX IF NOT EXISTS Purchases_fulfilled_at_IDX ON Purchases (fulfilled_at);
CREATE INDEX IF NOT EXISTS Purchases_total_charge_IDX ON Purchases (total_charge);
-- The PurchaseLineItems table will relate a Purchase to one or more LineItems.
CREATE TABLE IF NOT EXISTS PurchaseLineItems (
purchase_id TEXT(36),
line_item_id TEXT(36),
CONSTRAINT PurchaseLineItems_PK PRIMARY KEY (purchase_id,line_item_id),
CONSTRAINT PurchaseLineItems_FK FOREIGN KEY (purchase_id) REFERENCES Purchases(id),
CONSTRAINT PurchaseLineItems_FK_1 FOREIGN KEY (line_item_id) REFERENCES LineItems(id) ON DELETE CASCADE
);
CREATE INDEX IF NOT EXISTS PurchaseLineItems_purchase_id_IDX ON PurchaseLineItems (purchase_id);
CREATE INDEX IF NOT EXISTS PurchaseLineItems_line_item_id_IDX ON PurchaseLineItems (line_item_id);
-- The PurchaseCouponCodes table will relate a Purchase to one or more CouponCodes successfully applied to the Purchase.
CREATE TABLE IF NOT EXISTS PurchaseCouponCodes (
purchase_id TEXT(36),
coupon_code_id TEXT(36),
CONSTRAINT PurchaseCouponCodes_PK PRIMARY KEY (purchase_id,coupon_code_id),
CONSTRAINT PurchaseCouponCodes_FK FOREIGN KEY (purchase_id) REFERENCES Purchases(id),
CONSTRAINT PurchaseCouponCodes_FK_1 FOREIGN KEY (coupon_code_id) REFERENCES CouponCodes(id)
);
CREATE INDEX IF NOT EXISTS PurchaseCouponCodes_purchase_id_IDX ON PurchaseCouponCodes (purchase_id);
CREATE INDEX IF NOT EXISTS PurchaseCouponCodes_coupon_code_id_IDX ON PurchaseCouponCodes (coupon_code_id);

View File

@ -1,9 +1,565 @@
use warp::Filter;
use serde::{Deserialize, Serialize};
use std::{collections::HashMap, sync::Arc};
use warp::{
filters::{body::BodyDeserializeError, cors::CorsForbidden},
http::Method,
http::StatusCode,
reject::Reject,
Filter, Rejection, Reply,
};
use tokio::sync::RwLock;
#[derive(Deserialize, Serialize, Debug, Clone)]
struct Person {
id: PersonId,
remote_id: String,
name: String,
handle: Option<String>,
avatar: Option<String>,
cover: Option<String>,
bio: Option<String>,
is_active: bool,
is_blocked: bool,
created_at: usize,
modified_at: usize,
deleted_at: Option<usize>,
modified_by: PersonId,
deleted_by: Option<PersonId>,
last_seen: usize,
shipping_addresses: Option<Vec<PersonShippingAddress>>,
emails: Option<Vec<PersonEmail>>,
credentials: Option<Vec<PersonCredential>>,
}
#[derive(Deserialize, Serialize, Debug, Clone, PartialEq, Eq, Hash)]
struct PersonId(String);
#[derive(Deserialize, Serialize, Debug, Clone)]
struct PersonShippingAddress {
id: PersonShippingAddressId,
person_id: PersonId,
shipping_address: String,
is_primary: bool,
created_at: usize,
modified_at: usize,
deleted_at: Option<usize>,
modified_by: PersonId,
deleted_by: Option<PersonId>,
}
#[derive(Deserialize, Serialize, Debug, Clone, PartialEq, Eq, Hash)]
struct PersonShippingAddressId(String);
#[derive(Deserialize, Serialize, Debug, Clone)]
struct PersonEmail {
person_id: PersonId,
email: String,
is_verified: bool,
is_primary: bool,
}
#[derive(Deserialize, Serialize, Debug, Clone, PartialEq, Eq, Hash)]
struct PersonEmailId(String);
#[derive(Deserialize, Serialize, Debug, Clone)]
struct PersonCredentialProvider {
id: PersonCredentialProviderId,
name: String,
r#type: String, // TODO: create a type for this
config: String,
}
#[derive(Deserialize, Serialize, Debug, Clone, PartialEq, Eq, Hash)]
struct PersonCredentialProviderId(String);
#[derive(Deserialize, Serialize, Debug, Clone)]
struct PersonCredential {
id: PersonCredentialId,
person_id: PersonId,
provider_user_id: String,
is_enabled: bool,
}
#[derive(Deserialize, Serialize, Debug, Clone, PartialEq, Eq, Hash)]
struct PersonCredentialId(String);
#[derive(Deserialize, Serialize, Debug, Clone)]
struct Tag {
id: TagId,
host: String,
tag: String,
}
#[derive(Deserialize, Serialize, Debug, Clone, PartialEq, Eq, Hash)]
struct TagId(String);
#[derive(Deserialize, Serialize, Debug, Clone)]
struct Label {
id: LabelId,
name: String,
description: String,
website: String,
is_enabled: bool,
created_at: usize,
modified_at: usize,
deleted_at: Option<usize>,
created_by: PersonId,
modified_by: PersonId,
deleted_by: Option<PersonId>,
contacts: Option<Vec<LabelContact>>,
tags: Option<Vec<Tag>>,
artists: Option<Vec<Artist>>,
}
#[derive(Deserialize, Serialize, Debug, Clone, PartialEq, Eq, Hash)]
struct LabelId(String);
#[derive(Deserialize, Serialize, Debug, Clone)]
struct LabelContact {
id: LabelContactId,
label_id: LabelId,
method: String, // TODO: create a type for this
address: String,
created_at: usize,
modified_at: usize,
deleted_at: Option<usize>,
created_by: PersonId,
modified_by: PersonId,
deleted_by: Option<PersonId>,
sort_order: usize,
}
#[derive(Deserialize, Serialize, Debug, Clone, PartialEq, Eq, Hash)]
struct LabelContactId(String);
#[derive(Deserialize, Serialize, Debug, Clone)]
struct Artist {
id: ArtistId,
label_id: Option<LabelId>,
name: String,
bio: String,
website: String,
created_at: usize,
modified_at: usize,
deleted_at: Option<usize>,
created_by: PersonId,
modified_by: PersonId,
deleted_by: Option<PersonId>,
is_enabled: bool,
is_public: bool,
contacts: Option<Vec<ArtistContact>>,
tags: Option<Vec<Tag>>,
}
#[derive(Deserialize, Serialize, Debug, Clone, PartialEq, Eq, Hash)]
struct ArtistId(String);
#[derive(Deserialize, Serialize, Debug, Clone)]
struct ArtistContact {
id: ArtistContactId,
artist_id: ArtistId,
method: String, // TODO: create a type for this
address: String,
created_at: usize,
modified_at: usize,
deleted_at: Option<usize>,
created_by: PersonId,
modified_by: PersonId,
deleted_by: Option<PersonId>,
sort_order: usize,
}
#[derive(Deserialize, Serialize, Debug, Clone, PartialEq, Eq, Hash)]
struct ArtistContactId(String);
#[derive(Deserialize, Serialize, Debug, Clone)]
struct Track {
id: TrackId,
title: String,
description: String,
duration: f64,
is_public: bool,
is_available: bool,
preview_source: Option<String>, // if preview_source == None, use source as preview
source: String,
price: usize,
created_at: usize,
modified_at: usize,
deleted_at: Option<usize>,
created_by: PersonId,
modified_by: PersonId,
deleted_by: Option<PersonId>,
lyrics: Option<String>,
primary_artist: Artist,
other_artists: Option<Vec<Artist>>,
tags: Option<Vec<Tag>>,
}
#[derive(Deserialize, Serialize, Debug, Clone, PartialEq, Eq, Hash)]
struct TrackId(String);
#[derive(Deserialize, Serialize, Debug, Clone)]
struct Album {
id: AlbumId,
title: String,
description: String,
tracks: Vec<Track>,
is_public: bool,
is_available: bool,
preview_source: Option<String>,
source: String,
price: usize,
created_at: usize,
modified_at: usize,
deleted_at: Option<usize>,
created_by: PersonId,
modified_by: PersonId,
deleted_by: Option<PersonId>,
primary_artist: Option<Artist>,
other_artists: Option<Vec<Artist>>,
tags: Option<Vec<Tag>>,
}
#[derive(Deserialize, Serialize, Debug, Clone, PartialEq, Eq, Hash)]
struct AlbumId(String);
#[derive(Deserialize, Serialize, Debug, Clone)]
struct Playlist {
id: PlaylistId,
title: String,
description: String,
created_by: PersonId,
created_at: usize,
modified_at: usize,
deleted_at: Option<usize>,
is_public: bool,
tracks: Option<Vec<Track>>,
tags: Option<Vec<Tag>>,
}
#[derive(Deserialize, Serialize, Debug, Clone, PartialEq, Eq, Hash)]
struct PlaylistId(String);
#[derive(Debug)]
struct Pagination {
start: usize,
end: usize,
}
#[derive(Clone)]
struct Datastore {
persons: Arc<RwLock<HashMap<PersonId, Person>>>,
labels: Arc<RwLock<HashMap<LabelId, Label>>>,
artists: Arc<RwLock<HashMap<ArtistId, Artist>>>,
albums: Arc<RwLock<HashMap<AlbumId, Album>>>,
tracks: Arc<RwLock<HashMap<TrackId, Track>>>,
}
impl Datastore {
fn new() -> Self {
Datastore {
persons: Arc::new(RwLock::new(HashMap::new())),
labels: Arc::new(RwLock::new(HashMap::new())),
artists: Arc::new(RwLock::new(HashMap::new())),
albums: Arc::new(RwLock::new(HashMap::new())),
tracks: Arc::new(RwLock::new(HashMap::new())),
}
}
}
#[derive(Debug)]
enum Error {
ParseError(std::num::ParseIntError),
MissingParameters,
}
impl std::fmt::Display for Error {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
match *self {
Error::ParseError(ref err) => write!(f, "Cannot parse parameter: {}", err),
Error::MissingParameters => write!(f, "Missing parameter"),
}
}
}
impl Reject for Error {}
async fn return_error(r: Rejection) -> Result<impl Reply, Rejection> {
if let Some(error) = r.find::<Error>() {
Ok(warp::reply::with_status(
error.to_string(),
StatusCode::RANGE_NOT_SATISFIABLE,
))
} else if let Some(error) = r.find::<CorsForbidden>() {
Ok(warp::reply::with_status(
error.to_string(),
StatusCode::FORBIDDEN,
))
} else if let Some(error) = r.find::<BodyDeserializeError>() {
Ok(warp::reply::with_status(
error.to_string(),
StatusCode::UNPROCESSABLE_ENTITY,
))
} else {
Ok(warp::reply::with_status(
"Route not found".to_string(),
StatusCode::NOT_FOUND,
))
}
}
fn extract_pagination(params: HashMap<String, String>) -> Result<Pagination, Error> {
if params.contains_key("start") && params.contains_key("end") {
return Ok(Pagination {
start: params
.get("start")
.unwrap()
.parse::<usize>()
.map_err(Error::ParseError)?,
end: params
.get("end")
.unwrap()
.parse::<usize>()
.map_err(Error::ParseError)?,
});
}
Err(Error::MissingParameters)
}
async fn get_persons(
params: HashMap<String, String>,
datastore: Datastore,
) -> Result<impl warp::Reply, warp::Rejection> {
if !params.is_empty() {
let pagination = extract_pagination(params)?;
let res: Vec<Person> = datastore.persons.read().await.values().cloned().collect();
let res = &res[pagination.start..pagination.end];
Ok(warp::reply::json(&res))
} else {
let res: Vec<Person> = datastore.persons.read().await.values().cloned().collect();
Ok(warp::reply::json(&res))
}
}
async fn get_labels(
params: HashMap<String, String>,
datastore: Datastore,
) -> Result<impl warp::Reply, warp::Rejection> {
if !params.is_empty() {
let pagination = extract_pagination(params)?;
let res: Vec<Label> = datastore.labels.read().await.values().cloned().collect();
let res = &res[pagination.start..pagination.end];
Ok(warp::reply::json(&res))
} else {
let res: Vec<Label> = datastore.labels.read().await.values().cloned().collect();
Ok(warp::reply::json(&res))
}
}
async fn get_artists(
params: HashMap<String, String>,
datastore: Datastore,
) -> Result<impl warp::Reply, warp::Rejection> {
if !params.is_empty() {
let pagination = extract_pagination(params)?;
let res: Vec<Artist> = datastore.artists.read().await.values().cloned().collect();
let res = &res[pagination.start..pagination.end];
Ok(warp::reply::json(&res))
} else {
let res: Vec<Artist> = datastore.artists.read().await.values().cloned().collect();
Ok(warp::reply::json(&res))
}
}
async fn get_albums(
params: HashMap<String, String>,
datastore: Datastore,
) -> Result<impl warp::Reply, warp::Rejection> {
if !params.is_empty() {
let pagination = extract_pagination(params)?;
let res: Vec<Album> = datastore.albums.read().await.values().cloned().collect();
let res = &res[pagination.start..pagination.end];
Ok(warp::reply::json(&res))
} else {
let res: Vec<Album> = datastore.albums.read().await.values().cloned().collect();
Ok(warp::reply::json(&res))
}
}
async fn get_tracks(
params: HashMap<String, String>,
datastore: Datastore,
) -> Result<impl warp::Reply, warp::Rejection> {
if !params.is_empty() {
let pagination = extract_pagination(params)?;
let res: Vec<Track> = datastore.tracks.read().await.values().cloned().collect();
let res = &res[pagination.start..pagination.end];
Ok(warp::reply::json(&res))
} else {
let res: Vec<Track> = datastore.tracks.read().await.values().cloned().collect();
Ok(warp::reply::json(&res))
}
}
async fn add_person(
datastore: Datastore,
person: Person,
) -> Result<impl warp::Reply, warp::Rejection> {
datastore
.persons
.write()
.await
.insert(person.id.clone(), person);
Ok(warp::reply::with_status("Person added", StatusCode::OK))
}
async fn add_label(
datastore: Datastore,
label: Label,
) -> Result<impl warp::Reply, warp::Rejection> {
datastore
.labels
.write()
.await
.insert(label.id.clone(), label);
Ok(warp::reply::with_status("Label added", StatusCode::OK))
}
async fn add_artist(
datastore: Datastore,
artist: Artist,
) -> Result<impl warp::Reply, warp::Rejection> {
datastore
.artists
.write()
.await
.insert(artist.id.clone(), artist);
Ok(warp::reply::with_status("Artist added", StatusCode::OK))
}
async fn add_album(
datastore: Datastore,
album: Album,
) -> Result<impl warp::Reply, warp::Rejection> {
datastore
.albums
.write()
.await
.insert(album.id.clone(), album);
Ok(warp::reply::with_status("Album added", StatusCode::OK))
}
async fn add_track(
datastore: Datastore,
track: Track,
) -> Result<impl warp::Reply, warp::Rejection> {
datastore
.tracks
.write()
.await
.insert(track.id.clone(), track);
Ok(warp::reply::with_status("Track added", StatusCode::OK))
}
#[tokio::main]
async fn main() {
let hello = warp::get()
.map(|| format!("Hello world!"));
let datastore = Datastore::new();
let datastore_filter = warp::any().map(move || datastore.clone());
warp::serve(hello).run(([127, 0, 0, 1], 5309)).await;
let cors = warp::cors()
.allow_any_origin()
.allow_header("content-type")
.allow_methods(&[Method::PUT, Method::DELETE, Method::GET, Method::POST]);
let get_persons = warp::get()
.and(warp::path("persons"))
.and(warp::path::end())
.and(warp::query())
.and(datastore_filter.clone())
.and_then(get_persons);
let get_labels = warp::get()
.and(warp::path("labels"))
.and(warp::path::end())
.and(warp::query())
.and(datastore_filter.clone())
.and_then(get_labels);
let get_artists = warp::get()
.and(warp::path("artists"))
.and(warp::path::end())
.and(warp::query())
.and(datastore_filter.clone())
.and_then(get_artists);
let get_albums = warp::get()
.and(warp::path("albums"))
.and(warp::path::end())
.and(warp::query())
.and(datastore_filter.clone())
.and_then(get_albums);
let get_tracks = warp::get()
.and(warp::path("tracks"))
.and(warp::path::end())
.and(warp::query())
.and(datastore_filter.clone())
.and_then(get_tracks);
let add_person = warp::post()
.and(warp::path("persons"))
.and(warp::path::end())
.and(datastore_filter.clone())
.and(warp::body::json())
.and_then(add_person);
let add_label = warp::post()
.and(warp::path("labels"))
.and(warp::path::end())
.and(datastore_filter.clone())
.and(warp::body::json())
.and_then(add_label);
let add_artist = warp::post()
.and(warp::path("artists"))
.and(warp::path::end())
.and(datastore_filter.clone())
.and(warp::body::json())
.and_then(add_artist);
let add_album = warp::post()
.and(warp::path("albums"))
.and(warp::path::end())
.and(datastore_filter.clone())
.and(warp::body::json())
.and_then(add_album);
let add_track = warp::post()
.and(warp::path("tracks"))
.and(warp::path::end())
.and(datastore_filter.clone())
.and(warp::body::json())
.and_then(add_track);
let routes = get_persons
.or(get_labels)
.or(get_artists)
.or(get_albums)
.or(get_tracks)
.or(add_person)
.or(add_label)
.or(add_artist)
.or(add_album)
.or(add_track)
.with(cors)
.recover(return_error);
warp::serve(routes).run(([127, 0, 0, 1], 5309)).await;
}