Loopback Connector for MySQL
Go to file
Raymond Feng fb2624bc6c Append error to the message 2013-11-06 14:51:20 -08:00
example Fix discovery of exported keys 2013-10-08 13:44:37 -07:00
lib Remove synchronous versions of the discovery APIs 2013-10-28 13:11:22 -07:00
test Append error to the message 2013-11-06 14:51:20 -08:00
.gitignore Added coverage to gitignore 2013-04-07 17:59:45 +04:00
.travis.yml Upd node version for travis 2013-03-27 20:32:13 +04:00
LICENSE Update license file 2013-09-04 14:43:47 -07:00
Makefile update Makefile for coverage 2013-08-15 22:10:45 +08:00
NOTICE.md Add NOTICE and update READE 2013-10-30 23:02:12 -07:00
README.md Merge pull request #9 from strongloop/mysql-1.0.0 2013-10-31 10:28:44 -07:00
docs.json Add docs for README and js code 2013-10-03 14:50:38 -07:00
index.js Init 2012-12-14 18:01:44 +04:00
package.json Update the internal github dependency 2013-10-25 14:12:46 -07:00

README.md

loopback-connector-mysql

loopback-connector-mysql is the MySQL connector module for loopback-datasource-juggler.

Installation

npm install loopback-connector-mysql --save

Usage

To use it you need loopback-datasource-juggler.

  1. Setup dependencies in package.json:

    {
      ...
      "dependencies": {
        "loopback-datasource-juggler": "latest",
        "loopback-connector-mysql": "latest"
      },
      ...
    }
    
  2. Use:

        var DataSource = require('loopback-datasource-juggler').DataSource;
        var dataSource = new DataSource('mysql', {
            host: 'localhost',
            port: 3306,
            database: 'mydb',
            username: 'myuser',
            password: 'mypass'
        });
    

    You can optionally pass a few additional parameters supported by node-mysql, most particularly password and collation. Collation currently defaults to utf8_general_ci. The collation value will also be used to derive the connection charset.

Data type mappings

loopback-connector-mysql uses the following rules to map between JSON types and MySQL data types.

JSON to MySQL types

  • String/JSON: VARCHAR
  • Text: TEXT
  • Number: INT
  • Date: DATETIME
  • BOOLEAN: TINYINT(1)
  • Point/GeoPoint: POINT
  • Enum: ENUM

MySQL to JSON types

  • CHAR: String
  • CHAR(1): Boolean
  • VARCHAR/TINYTEXT/MEDIUMTEXT/LONGTEXT/TEXT/ENUM/SET: String
  • TINYBLOB/MEDIUMBLOB/LONGBLOB/BLOB/BINARY/VARBINARY/BIT: Binary
  • TINYINT/SMALLINT/INT/MEDIUMINT/YEAR/FLOAT/DOUBLE/NUMERIC/DECIMAL: Number
  • DATE/TIMESTAMP/DATETIME: Date

Using the dataType field/column option with MySQL

loopback-connector-mysql allows mapping of LoopBack model properties to MYSQL columns using the 'mysql' property of the property definition. For example,

"locationId":{
    "type":"String",
    "required":true,
    "length":20,
    "mysql":
    {
        "columnName":"LOCATION_ID",
        "dataType":"VARCHAR2",
        "dataLength":20,
        "nullable":"N"
    }
}

loopback-connector-mysql also supports using the dataType column/property attribute to specify what MySQL column type is used for many loopback-datasource-juggler types.

The following type-dataType combinations are supported:

  • Number

    • integer

      • tinyint
      • smallint
      • mediumint
      • int
      • bigint

      Use the limit option to alter the display width.

      Example: { count : { type: Number, dataType: 'smallInt' }}

    • floating point types

      • float
      • double

      Use the precision and scale options to specify custom precision. Default is (16,8).

      Example: { average : { type: Number, dataType: 'float', precision: 20, scale: 4 }}

    • fixed-point exact value types

      • decimal
      • numeric

      Use the precision and scale options to specify custom precision. Default is (9,2).

      These aren't likely to function as true fixed-point.

      Example: { stdDev : { type: Number, dataType: 'decimal', precision: 12, scale: 8 }}

  • String / DataSource.Text / DataSource.JSON

    • varchar
    • char
    • text
    • mediumtext
    • tinytext
    • longtext

    Example: { userName : { type: String, dataType: 'char', limit: 24 }}

    Example: { biography : { type: String, dataType: 'longtext' }}

  • Date

    • datetime
    • timestamp

    Example: { startTime : { type: Date, dataType: 'timestamp' }}

  • Enum Enums are special. Create an Enum using Enum factory:
    var MOOD = dataSource.EnumFactory('glad', 'sad', 'mad');
    MOOD.SAD;    // 'sad'
    MOOD(2);     // 'sad'
    MOOD('SAD'); // 'sad'
    MOOD('sad'); // 'sad'
  • { mood: { type: MOOD }}
  • { choice: { type: dataSource.EnumFactory('yes', 'no', 'maybe'), null: false }}

Discovering Models

MySQL data sources allow you to discover model definition information from existing mysql databases. See the following APIs:

Asynchronous APIs for discovery

  • MySQL.prototype.discoverModelDefinitions = function (options, cb)

    • options:
      • all: {Boolean} To include tables/views from all schemas/owners
      • owner/schema: {String} The schema/owner name
      • views: {Boolean} To include views
    • cb:
      • Get a list of table/view names, for example:

        {type: 'table', name: 'INVENTORY', owner: 'STRONGLOOP' } {type: 'table', name: 'LOCATION', owner: 'STRONGLOOP' } {type: 'view', name: 'INVENTORY_VIEW', owner: 'STRONGLOOP' }

  • MySQL.prototype.discoverModelProperties = function (table, options, cb)

    • table: {String} The name of a table or view
    • options:
      • owner/schema: {String} The schema/owner name
    • cb:
      • Get a list of model property definitions, for example:

        { owner: 'STRONGLOOP',
          tableName: 'PRODUCT',
          columnName: 'ID',
          dataType: 'VARCHAR2',
          dataLength: 20,
          nullable: 'N',
          type: 'String' }
        { owner: 'STRONGLOOP',
          tableName: 'PRODUCT',
          columnName: 'NAME',
          dataType: 'VARCHAR2',
          dataLength: 64,
          nullable: 'Y',
          type: 'String' }
        
  • MySQL.prototype.discoverPrimaryKeys= function(table, options, cb)

    • table: {String} The name of a table or view
    • options:
      • owner/schema: {String} The schema/owner name
    • cb:
      • Get a list of primary key definitions, for example:

        { owner: 'STRONGLOOP', tableName: 'INVENTORY', columnName: 'PRODUCT_ID', keySeq: 1, pkName: 'ID_PK' } { owner: 'STRONGLOOP', tableName: 'INVENTORY', columnName: 'LOCATION_ID', keySeq: 2, pkName: 'ID_PK' }

  • MySQL.prototype.discoverForeignKeys= function(table, options, cb)

    • table: {String} The name of a table or view
    • options:
      • owner/schema: {String} The schema/owner name
    • cb:
      • Get a list of foreign key definitions, for example:

        { fkOwner: 'STRONGLOOP', fkName: 'PRODUCT_FK', fkTableName: 'INVENTORY', fkColumnName: 'PRODUCT_ID', keySeq: 1, pkOwner: 'STRONGLOOP', pkName: 'PRODUCT_PK', pkTableName: 'PRODUCT', pkColumnName: 'ID' }

  • MySQL.prototype.discoverExportedForeignKeys= function(table, options, cb)

    • table: {String} The name of a table or view
    • options:
      • owner/schema: {String} The schema/owner name
    • cb:
      • Get a list of foreign key definitions that reference the primary key of the given table, for example:

        { fkName: 'PRODUCT_FK', fkOwner: 'STRONGLOOP', fkTableName: 'INVENTORY', fkColumnName: 'PRODUCT_ID', keySeq: 1, pkName: 'PRODUCT_PK', pkOwner: 'STRONGLOOP', pkTableName: 'PRODUCT', pkColumnName: 'ID' }

Discover/build/try the models

Build a LDL schema by discovery

Data sources backed by the MySQL connector can discover LDL models from the database using the discoverSchema API. For example,

dataSource.discoverSchema('INVENTORY', {owner: 'STRONGLOOP'}, function (err, schema) {
    ...
}

Here is the sample result. Please note there are 'mysql' properties in addition to the regular LDL model options and properties. The 'mysql' objects contain the MySQL specific mappings.

{
  "name":"Inventory",
  "options":{
    "idInjection":false,
    "mysql":{
      "schema":"STRONGLOOP",
      "table":"INVENTORY"
    }
  },
  "properties":{
    "productId":{
      "type":"String",
      "required":false,
      "length":60,
      "precision":null,
      "scale":null,
      "id":1,
      "mysql":{
        "columnName":"PRODUCT_ID",
        "dataType":"varchar",
        "dataLength":60,
        "dataPrecision":null,
        "dataScale":null,
        "nullable":"NO"
      }
    },
    "locationId":{
      "type":"String",
      "required":false,
      "length":60,
      "precision":null,
      "scale":null,
      "id":2,
      "mysql":{
        "columnName":"LOCATION_ID",
        "dataType":"varchar",
        "dataLength":60,
        "dataPrecision":null,
        "dataScale":null,
        "nullable":"NO"
      }
    },
    "available":{
      "type":"Number",
      "required":false,
      "length":null,
      "precision":10,
      "scale":0,
      "mysql":{
        "columnName":"AVAILABLE",
        "dataType":"int",
        "dataLength":null,
        "dataPrecision":10,
        "dataScale":0,
        "nullable":"YES"
      }
    },
    "total":{
      "type":"Number",
      "required":false,
      "length":null,
      "precision":10,
      "scale":0,
      "mysql":{
        "columnName":"TOTAL",
        "dataType":"int",
        "dataLength":null,
        "dataPrecision":10,
        "dataScale":0,
        "nullable":"YES"
      }
    }
  }
}

We can also discover and build model classes in one shot. The following example uses discoverAndBuildModels to discover, build and try the models:

dataSource.discoverAndBuildModels('INVENTORY', { owner: 'STRONGLOOP', visited: {}, associations: true},
     function (err, models) {
        // Show records from the models
        for(var m in models) {
            models[m].all(show);
        };

        // Find one record for inventory
        models.Inventory.findOne({}, function(err, inv) {
            console.log("\nInventory: ", inv);
            // Follow the foreign key to navigate to the product
            inv.product(function(err, prod) {
                console.log("\nProduct: ", prod);
                console.log("\n ------------- ");
            });
    });
}