An even more educational version of the Bandolier for Learn JS the Hard Way.
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622 lines
22 KiB
622 lines
22 KiB
/*
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The ORMish object-relational-mapping-ish library for knex. It's just enough
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ORM added to knex to be useful, and anything else you need can be done with
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knex. If there's any situation where you can't do something in ORMish it's
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expected that you will access the `knex` variable in thie module and simply use
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knex directly. Here's how you'd do that:
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```javascript
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import { knex } from './lib/ormish.js';
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// do your own update using a model's table name
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knex(somemodel.table_name).where(where).update(what);
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```
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This makes it easy to use ORMish, but still break out when you need to create
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custom queries or speed things up. The only advice here is to put any special
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operations in a `class Model` subclass as a member function.
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*/
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import config from '../knexfile.cjs';
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import knexConfig from 'knex';
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import assert from 'assert';
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import { attachPaginate } from 'knex-paginate';
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/*
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A preconfigured knex.js driver using the config.development configuration
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by default.
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___TODO___: Need to make this configurable, even though I just use one config right now since I run sqlite3 all the time.
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*/
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export const knex = knexConfig(config.development);
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/*
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run the PERF_TRICKS to configure sqlite3 when thing start, really need to make this
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a configuration and only do it with sqlite3, but for now just get this done
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*/
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if(config.development.client === "sqlite3") {
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const PERF_TRICKS = [
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"pragma journal_mode = WAL", // use a WAL journal to not block writers/readers
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"pragma synchronous = normal", // set concurrency to normal now that we have WAL
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// "pragma temp_store = memory", // use RAM to make the temporary indices
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// "pragma mmap_size = 30000000000", // use 30GB of mmap to store DB, not useful in multi-process settings
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// "pragma page_size = 32768", // improve performance only if you store large stuff
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"pragma vacuum", // give it a vacuum, this could impact startup time significantly
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"pragma optimize", // optimize it, but should be done periodically
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];
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for(let sql of PERF_TRICKS) {
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await knex.raw(sql);
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}
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}
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attachPaginate();
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/*
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Filled in by `load_schema` to give access to the database scheme in the admin
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tool and generally through the API.
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*/
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export const SCHEMA = {};
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const load_schema = async () => {
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const raw = await knex("sqlite_schema").where({"type": "table"}).select(['type', 'name']);
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for(let table of raw) {
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table._columns = await knex(table.name).columnInfo();
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SCHEMA[table.name] = table;
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}
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}
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await load_schema();
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/*
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In some cases (like the generic admin) you need to get validation
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rules but you don't have a specific class to work with. This function
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is called by Model.validation and you can call it directly to get rules
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for a database table.
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___BUG___: validator doesn't do proper date formatting yet, so it won't support date types.
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1. `name string` - the table name.
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2. `rules Object` - default rules with empty "" for the rules you want filled in
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3. `all boolean` - set this to true if you want everything
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4. `no_id boolean` - defaults to true, set false if you also want the id
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5. `return Object` - the resulting rules to use with Validator
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*/
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export const validation = (name, rules, all=false, no_id=true) => {
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assert(rules, "rules parameter is required and will be modified");
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const schema = SCHEMA[name];
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assert(schema, `There is no schema for table named ${name}. Did you forget to migrate:latest?`);
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for(let [key, opts] of Object.entries(schema._columns)) {
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// most of the time you don't want the id
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if(no_id && key === "id") continue;
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if(all || rules[key] === "") {
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let required = opts.nullable || opts.defaultValue ? "nullable|" : "required|";
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switch(opts.type) {
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case "varchar": // fallthrough
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case "text":
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// some databases have an email type but we'll also look for ones named email
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if(key === "email") {
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rules[key] = required + "email";
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} else {
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rules[key] = required + "string";
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}
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if(opts.maxLength) {
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rules[key] += `|min:0|max:${opts.maxLength}`;
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}
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break;
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case "boolean":
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rules[key] = required + "boolean";
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break;
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case "integer":
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case "float":
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rules[key] = required + "numeric";
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break;
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case "date":
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// rules[key] = required + "date";
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break;
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case "email":
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// not all databases have this
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rules[key] = required + "email";
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break;
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default:
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rules[key] = required;
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}
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}
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}
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return rules;
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}
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/*
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The base class for all models found in `lib/models.js`. You use this by extending it with:
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```javascript
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class User extends Model.from_table('user') {
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}
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```
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This will create a `User` class that is automatically configured using the SCHEMA create from the `user` table in your database. You won't need to define the attributes on this class as it will be correctly populated from the database.
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The database is therefore the "source of truth" for all of the models. You can then add functions to extend what this class does.
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*/
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export class Model {
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/*
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Allows you to build a new object of this Model with the given `attr`
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already set, but really you should use the `Model.from(attr)` method instead.
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This does _no_ object sanitization with `Model.clean(attr)` method, and if
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it doesn't match the underlying database it will throw an exception.
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- `attr Object` - the attributes for this model
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*/
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constructor(attr) {
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assert(attr, "Must give attributes.");
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Object.assign(this, attr);
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}
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/*
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How to actually create a new instance of this model. This
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will do two things:
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1. Correctly use the schema for the subclass model.
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2. Sanitize the input to remove anything that shouldn't be in the database.
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The `also_remove` parameter is a list of additional keys to also scrub from the object.
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- `attr Object` -- The attributes this should start with.
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- `also_remove Array` -- list of additional attributes to remove.
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*/
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static from(attr, also_remove=undefined) {
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return new this(this.clean(attr, also_remove));
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}
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/*
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Returns an object representing the schema for this Model. Remember that this
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will reflect what's in the database schema, which is formatted however
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`knex.js` formats your database Schema. Might not be portable between
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databases and only tested with SQlite3.
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_This is an attribute accessor, so just do `obj.schema` rather than call it like a function._
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- `return Object` - The schema for this model.
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*/
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get schema() {
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return this.constructor.schema;
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}
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/*
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Uses the `this.schema` scrub out any attributes that are not valid for the
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schema. This is effectively a whitelist for the allowed attributes based on
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the database schema. You can use the `also_remove` parameter to list
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additional attributes to remove, which you should do to sanitize incoming
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objects for things like password fields.
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- `attr Object` - The attributes to clean.
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- `also_remove Array` - Additional attributes to remove.
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*/
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static clean(attr, also_remove=undefined) {
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assert(attr, "Must give attributes to clean.");
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let clean_entries = Object.entries(attr)
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.filter(([k,v]) => k in this.schema);
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if(also_remove) also_remove.forEach(k => delete clean_entries[k]);
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return Object.fromEntries(clean_entries);
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}
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/*
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Returns the name of this model's current table. Used mostly internally but
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useful otherwise. This is an attribute accessor (get) so you can just do:
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```javascript
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const name = obj.table_name;
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```
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Instead of calling it like a function. The main reason to use this is in
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tools like the admin table browser found in `admin/pages/Table.svelte` and
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`api/admin/table.js` so check those files out to see what's going on.
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*/
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get table_name() {
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return this.constructor.table_name;
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}
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/*
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Returns an object of basic rules meant for `lib/api.js:validate`
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based on what's in the database. It's meant to be an easy to
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pass in starter which you can augment. It expects a set of rules
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with keys you want configured. Any key that's set to an empty string ""
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will be filled in with a minimum rule to match the database schema.
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It's designed to be called once at the top of an api/ handler to get
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a basic set of rules. You could also run it to print out the rules then
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simply write the rules directly where you need them. It actually just
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calls the `validation` module function with `validation(this.table_name, rules)`.
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- `param rules {Object}` - rules specifier
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*/
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static validation(rules) {
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return validation(this.table_name, rules);
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}
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/*
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Delete this object from the database. We use the word "destroy" because
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`delete` is reserved. It uses this object's `.id` to determine which object
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to delete and uses this `knex` code:
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```javascript
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await knex(obj.table_name).where({id: obj.id}).del();
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```
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As with all of ORMish it doesn't handle any relations or references when it does
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the delete so if you have constraints it will fail. Use `knex` directly in that
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case.
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+ `obj Model` -- the object to destroy, just have id
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*/
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static async destroy(obj) {
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assert(this.table_name !== undefined, "You must set class variable table_name.");
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assert(obj.id !== undefined, "No id in object to destroy.");
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await knex(this.table_name).
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where({id: obj.id}).
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del();
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}
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/*
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Does very basic 1-to-1 (1:1) relation, for use inside a custom function that returns
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additional records. 1:1 mappings don't show up too often, as I think most modern database
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designs would rather combine them into one giant table, but it does happen when you need to
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add to a database without changing a "sacred" table.
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This is really just a call to `model.first(where, columns)` and mostly acts as a kind of
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documentation.
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+ `model Model` - The other model to query.
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+ `where Object` - The knex style selection criteria passed to `Model.first`.
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+ `columns` - Passed to `Model.first` to restrict the columns returned.
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+ ___return___ `Model` subclass found, or `undefined` if nothing.
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*/
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async has_one(model, where, columns) {
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assert(where.id !== undefined, `where must at least have id for has_one ${model.table_name} you have ${JSON.stringify(where)}`);
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return await model.first(where, columns);
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}
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/*
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Maps this model to another with a 1-to-many (1:M) relational mapping. It queries
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the other `model` based on the given { where }, which is usually an `id` in the other
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table.
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For example, if I have a `user` table and a `payment` table, I can have a 1 `user` -> M `payment`
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like this:
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```javascript
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export class User extends Model.from_table('user') {
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async payments() {
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return await this.has_many(Payment, { user_id: this.id });
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}
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}
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```
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In this situation my `User` model is querying the `Payment` model for any `payment`
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records that have `user_id=this.id`. That means if the `user.id` is 1, then it will
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find any `payment` records with `user_id=1`.
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*/
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async has_many(model, where, columns) {
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return await model.all(where, columns);
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}
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/*
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Implements a simple many-to-many (M:M) using an intermediary table which
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maps two table's IDs using two columns. For example, if you have a `User`
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and `Payment` model, and you decide that `Payment` can have multiple users
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then you'd do this:
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```javascript
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await paid1.many_to_many(User, "payment_user");
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```
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This is translated into `knex` as:
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```javascript
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await knex("user").where("id", "in",
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knex("payment_user") // subquery in payment_user
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.select(`user_id as id`)
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.where(`payment_id`, "=", this.id)
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);
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```
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The inverse operation would be:
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```javascript
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await user1.many_to_many(Payment, "payment_user");
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```
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Which is translated into `knex` as:
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```javascript
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await knex("payment").where("id", "in",
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knex("payment_user") // subquery in payment_user
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.select(`payment_id as id`)
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.where(`user_id`, "=", this.id)
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);
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```
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### Performance
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This will fail if you have a massive many-to-many since it uses a subquery to get
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a set of IDs, but in many cases it actually might outperform a more direct complicated
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query. You should use this, then resort to raw `knex` code to craft a better one as
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needed.
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### Cleaning
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Everything returned is first ran though `.clean()` to and turned into the
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target model so you can use it directly. This ensures that if a database
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driver infects the returned data with garbage it will be cleaned and you
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get pure models. In the above example you'd get a `User` or `Payment`
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with only what's in the schema.
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### Attributed Relations
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If your relation table has extra attributes--a super useful trick--then this
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will not pick them up. In our example above, if you have another field
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`payment_user.transaction_date` in addition to `user_id` and `payment_id` then
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you won't get the `transaction_date`. In that case--you guessed it--use `knex`
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directly to query for those.
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*/
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async many_to_many(model, through_table) {
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// SECURITY: doing string interpolation which might allow injecting SQL
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let query = knex(model.table_name).where("id", "in",
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knex(through_table).select(`${model.table_name}_id as id`).where(`${this.table_name}_id`, "=", this.id));
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let rows = await query;
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let results = [];
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for(let r of rows) {
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results.push(new model(await model.clean(r)));
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}
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return results;
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}
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/*
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Counts the number of records matching the `where` specification.
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It uses a direct SQL query using the `knex` operation `count`, but
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`knex` returns a "database specific" result. This will try to
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extract the count result, but will warn you when it can't do that.
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+ `where Object` - knex where specification.
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+ `columns Array` - columns to return
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+ ___return___ `number`
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*/
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static async count(where, columns) {
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// the knex count api returns a DB specific result, so we need
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// to specify what we want, which is count:
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const spec = { count: columns || ['id']};
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let res = await knex(this.table_name).where(where).count(spec);
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if(res.length == 1) {
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// single result, just give the count
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return res[0].count;
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} else {
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console.warn("Your call to count in", this.table_name, "using where=", where, "columns: ", columns, "returned a weird result:", res);
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return res; // weird result let them deal with it
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}
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}
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/*
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Your generic insert for this model's table. The `attr` is checked against the
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database schema by `knex`, so you have to remove anything that doesn't belong.
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Use the `Model.clean` function to do that easily. Otherwise it works exactly
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like in knex with:
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```javascript
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await knex(this.table_name).insert(attr);
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```
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This function expects a return value that has one result with the `id` of
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the inserted row, which might be database specific. These days if a database
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doesn't support this it's a trash database that shouldn't be used.
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+ `attr Object` - The attributes to store.
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+ ___return___ `number` - returns the id of the inserted object
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*/
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static async insert(attr) {
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assert(this.table_name !== undefined, "You must set class variable table_name.");
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assert(attr, `You must give some attr to insert into ${this.table_name}`);
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let res = await knex(this.table_name).insert(attr).returning(['id']);
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assert(res, `Failed to get an id from the insert for ${this.table_name}`);
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attr.id = res[0].id;
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return new this(attr);
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}
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/*
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Implements an upsert (insert but update on conflict) for Postgres, MySQL, and SQLite3 only.
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___TODO___: allow specifying returns for databases that support it
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+ attr `Object` - The attributes to insert or update.
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+ conflict_key `string` - The key that can cause a conflict then update.
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+ merge `boolean` - Defaults to true and will change the record. false will ignore and not update on conflict.
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+ ___return___ `number` - id or undefined if ignored, no update
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*/
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static async upsert(attr, conflict_key, merge=true) {
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assert(conflict_key !== undefined, `You forgot to set the conflict_key on upsert to table ${this.table_name}`);
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let result = undefined;
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if(merge) {
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result = await knex(this.table_name)
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.insert(attr)
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.returning(['id'])
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.onConflict(conflict_key)
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.merge();
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} else {
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result = await knex(this.table_name).insert(attr).returning(['id']).onConflict(conflict_key).ignore();
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}
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// BUG: is returning undefined for ignored and no result right?
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if(result == undefined || result.length == 0) {
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return undefined;
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} else {
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attr.id = result[0].id;
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return attr;
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}
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}
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/*
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Performs an UPDATE operation on the object `what` found by `where`. This
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translates into the following `knex.js` code:
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```javascript
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return knex(this.table_name).where(where).update(what);
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```
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So it's mostly just syntactic sugar over `knex.js` (like everything in ORMish). If you
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need a more complex `update` then just use `knex()` directly.
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+ `where Object` -- The knex where options for a query.
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+ `what Model` -- The table/Model to use as the update.
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+ ___return___ `number` -- _WARNING_: I believe this returns the count updated but that might be database specific.
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*/
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static async update(where, what) {
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assert(where, "You must give a where options.");
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return knex(this.table_name).where(where).update(what);
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}
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/*
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Returns one record from the table based on the `knex` where specification,
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and can limit the columns (attributes) that are returned. This is a `static`
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method so you use it like this:
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```javascript
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const person = User.first({id: 1});
|
|
```
|
|
|
|
The `where` can be anything that `knex` understands as query as well.
|
|
|
|
+ `where Object` -- The `knex` where specification.
|
|
+ `columns Array` -- List of columns to include in the returned object.
|
|
+ ___return___ `Object`
|
|
*/
|
|
static async first(where, columns) {
|
|
assert(where, "You must give a where options.");
|
|
let attr = undefined;
|
|
|
|
if(columns) {
|
|
attr = await knex(this.table_name).column(columns).first().where(where);
|
|
} else {
|
|
attr = await knex(this.table_name).first().where(where);
|
|
}
|
|
|
|
return attr !== undefined ? new this(attr) : attr;
|
|
}
|
|
|
|
/*
|
|
Delete a given record--or batch of records--based on the `where` specification.
|
|
It really just calls this `knex` operation:
|
|
|
|
```javascript
|
|
return knex(this.table_name).where(where).del();
|
|
```
|
|
|
|
+ `where Object` -- The where specification, doesn't have to be an Object.
|
|
+ ___return___ `number` -- Number deleted, but that might be database specific.
|
|
*/
|
|
static async delete(where) {
|
|
assert(where, "You must give a where options.");
|
|
return knex(this.table_name).where(where).del();
|
|
}
|
|
|
|
/*
|
|
Returns all records matching the `where` specification, and also
|
|
reduces the returned columns based on the `columns` list. This is
|
|
the most common operation in `knex`, and when you do both `columns`
|
|
and `where` it's just doing this:
|
|
|
|
```javascript
|
|
results = await knex(this.table_name).column(columns).where(where).select();
|
|
```
|
|
|
|
As usual, if this isn't efficient or complex enough for you then you can
|
|
just do it directly in `knex`.
|
|
|
|
+ `where Object` -- The usual `knex` where specification, and can be anything `knex` likes.
|
|
+ `columns Array` -- The list of columns to return.
|
|
+ ___return___ `Array` of `Model` subclass.
|
|
*/
|
|
static async all(where, columns) {
|
|
assert(where, "You must give a where options.");
|
|
let results = [];
|
|
|
|
if(columns) {
|
|
results = await knex(this.table_name).column(columns).where(where).select();
|
|
} else {
|
|
results = await knex(this.table_name).where(where);
|
|
}
|
|
|
|
let final = results.map(r => new this(r));
|
|
return final;
|
|
}
|
|
|
|
/*
|
|
This is how you create your own models based on `Model`. It's a neat
|
|
trick as well, which allows you to specify a table to use to populate
|
|
a new class. First, you use it like this:
|
|
|
|
```javascript
|
|
class User extends Model.from_table('user') {
|
|
}
|
|
```
|
|
|
|
How this works:
|
|
|
|
+ `from_table` crafts an empty class with `let m = class extends Model {}`.
|
|
+ Since JavaScript is a scripting language you can modify this class, and return it.
|
|
+ `from_table` then adds a `table_name` and the `schema` to this class.
|
|
+ After that it returns the new empy class, which you then extend and now you have a class pre-configured with the schema and table_name already set.
|
|
|
|
Obviously this only works with ES6 style classes. After this setup you just add your own
|
|
methods, use `super` like normal, and everything else. The functions in `Model` will all
|
|
work because `schema` and `table_name` are set.
|
|
|
|
+ `table_name` -- the name of the base table in the database to use. Must be in `SCHEMA`.
|
|
*/
|
|
static from_table(table_name) {
|
|
let m = class extends Model { };
|
|
m.table_name = table_name;
|
|
|
|
assert(SCHEMA, "schema is not loaded!");
|
|
assert(SCHEMA[table_name], `table named ${table_name} not in SCHEMA: ${ Object.keys(SCHEMA) }`);
|
|
|
|
m.schema = SCHEMA[table_name]._columns;
|
|
return m;
|
|
}
|
|
|
|
/*
|
|
Determines if at least one record exists for the `where` specification.
|
|
This is doing a select for only an `id` column with a limit of 1, and if
|
|
it gets a result then it returns true. Probably not the most efficient
|
|
but it is portable. Here's what `knex` it's doing:
|
|
|
|
```javascript
|
|
let res = await knex(this.table_name).select('id').where(where).limit(1).first();
|
|
```
|
|
|
|
+ `where Object` -- the query specification for `knex`.
|
|
+ ___return___ `boolean` -- Whether it exists or not.
|
|
*/
|
|
static async exists(where) {
|
|
let res = await knex(this.table_name).select('id').where(where).limit(1).first();
|
|
return res ? res.id : false;
|
|
}
|
|
}
|
|
|
|
export default { knex, SCHEMA, Model, validation };
|
|
|