Single file PHP script that adds a REST API to a MySQL InnoDB database. Alternatively both PostgreSQL 9 and MS SQL Server 2012 are fully supported.
- PHP 5.3 or higher with MySQLi, libpq or SQLSRV enabled
- PHP on Windows when connecting to SQL Server 2012
- PostgreSQL 9 or higher when connecting to PostgreSQL
This is a single file application! Upload "api.php" somewhere and enjoy!
- Authentication is not included
- Complex writes (transactions) are not supported
- Set up Travis automated tests
- Add an API documentation generator
- Single PHP file, easy to deploy.
- Very little code, easy to adapt and maintain
- Streaming data, low memory footprint
- Supports POST variables as input
- Supports a JSON object as input
- Condensed JSON ouput: first row contains field names
- Sanitize and validate input using callbacks
- Permission system for databases, tables and columns
- Both JSONP and CORS support for cross-domain requests
- Combined requests with support for multiple table names
- Search support on multiple criteria
- Pagination, sorting and column selection
- Relation detection and filtering on foreign keys
- Relation "transforms" for PHP and JavaScript
- Binary fields supported with base64 encoding
Edit the following lines in the bottom of the file "api.php":
$api = new MySQL_CRUD_API(array(
'username'=>'xxx',
'password'=>'xxx',
'database'=>'xxx'
));
$api->executeCommand();
These are all the configuration options and their default values:
$api = new MySQL_CRUD_API(array(
'username=>'root'
'password=>null,
'database=>false,
// for connectivity (defaults to localhost):
'hostname'=>null,
'port=>null,
'socket=>null,
'charset=>'utf8',
// callbacks with their default behavior
'table_authorizer'=>function($cmd,$db,$tab) { return true; },
'column_authorizer'=>function($cmd,$db,$tab,$col) { return true; },
'input_sanitizer'=>function($cmd,$db,$tab,$col,$typ,$val) { return $val; },
'input_validator'=>function($cmd,$db,$tab,$col,$typ,$val,$ctx) { return true; },
// dependencies (added for unit testing):
'db'=>null,
'method'=>$_SERVER['REQUEST_METHOD'],
'request'=>$_SERVER['PATH_INFO'],
'get'=>$_GET,
'post'=>'php://input',
));
$api->executeCommand();
For the alternative MsSQL_CRUD_API class the following mapping applies:
- username = UID
- password = PWD
- database = Database
- hostname = Server
- port = (Server),port
- socket = (not supported)
- charset = CharacterSet
The other variables are not MySQL, PgSQL or MsSQL specific.
You can do all CRUD (Create, Read, Update, Delete) operations and one extra List operation. Here is how:
List all records of a database table.
GET http://localhost/api.php/categories
Output:
{"categories":{"columns":["id","name"],"records":[["1","Internet"],["3","Web development"]]}}
List all records of a database table and transform them to objects.
GET http://localhost/api.php/categories?transform=1
Output:
{"categories":[{"id":"1","name":"Internet"},{"id":"3","name":"Web development"}]}
NB: This transform is CPU and memory intensive and can also be executed client-side.
Search is implemented with the "filter" parameter. You need to specify the column name, a comma, the match type, another commma and the value you want to filter on. These are supported match types:
- cs: contain string (string contains value)
- sw: start with (string starts with value)
- ew: end with (string end with value)
- eq: equal (string or number matches exactly)
- ne: not equal (string or number doen not match)
- lt: lower than (number is lower than value)
- le: lower or equal (number is lower than or equal to value)
- ge: greater or equal (number is higher than or equal to value)
- gt: greater than (number is higher than value)
- in: in (number is in comma seperated list of values)
GET http://localhost/api.php/categories?filter=name,eq,Internet
GET http://localhost/api.php/categories?filter=name,sw,Inter
GET http://localhost/api.php/categories?filter=id,le,1
GET http://localhost/api.php/categories?filter=id,lt,2
Output:
{"categories":{"columns":["id","name"],"records":[["1","Internet"]]}}
Multiple filters can be applied by using "filter[]" instead of "filter" as a parameter name. Then the parameter "satisfy" is used to indicate whether "all" (default) or "any" filter should be satisfied to lead to a match:
GET http://localhost/api.php/categories?filter[]=id,eq,1&filter[]=id,eq,3&satisfy=any
GET http://localhost/api.php/categories?filter[]=id,ge,1&filter[]=id,le,3&satisfy=all
GET http://localhost/api.php/categories?filter[]=id,ge,1&filter[]=id,le,3
Output:
{"categories":{"columns":["id","name"],"records":[["1","Internet"],["3","Web development"]]}}
By default all columns are selected. With the "columns" parameter you can select specific columns (comma seperated):
GET http://localhost/api.php/categories?columns=name
Output:
{"categories":{"columns":["name"],"records":[["Web development"],["Internet"]]}}
NB: Column selection cannot be applied to related tables.
With the "order" parameter you can sort. By default the sort is in ascending order, but by specifying "desc" this can be reversed:
GET http://localhost/api.php/categories?order=name,desc
Output:
{"categories":{"columns":["id","name"],"records":[["3","Web development"],["1","Internet"]]}}
The "page" parameter holds the requested page. The default page size is 20, but can be adjusted (e.g. to 50):
GET http://localhost/api.php/categories?order=id&page=1
GET http://localhost/api.php/categories?order=id&page=1,50
Output:
{"categories":{"columns":["id","name"],"records":[["1","Internet"],["3","Web development"]],"results":2}}
NB: Pages that are not ordered cannot be paginated.
You can easily add a record using the POST method (x-www-form-urlencoded, see rfc1738). The call returns the "last insert id".
POST http://localhost/api.php/categories
id=1&name=Internet
Output:
1
Note that the fields that are not specified in the request get the default value as specified in the database.
Alternatively you can send a JSON object in the body. The call returns the "last insert id".
POST http://localhost/api.php/categories
{"id":"1","name":"Internet"}
Output:
1
Note that the fields that are not specified in the request get the default value as specified in the database.
If you want to read a single object you can use:
GET http://localhost/api.php/categories/1
Output:
{"id":"1","name":"Internet"}
Editing a record is done with the PUT method. The call returns the rows affected.
PUT http://localhost/api.php/categories/2
id=1&name=Internet+networking
Output:
1
Note that only fields that are specified in the request will be updated.
Alternatively you can send a JSON object in the body. The call returns the rows affected.
PUT http://localhost/api.php/categories/2
{"id":"1","name":"Internet networking"}
Output:
1
Note that only fields that are specified in the request will be updated.
The DELETE verb is used to delete a record. The call returns the rows affected.
DELETE http://localhost/api.php/categories/2
Output:
1
The explanation of this feature is based on the datastructure from the blog.sql
database file. This database is a very simple blog datastructure with corresponding foreign key relations between the tables.
You can get the "post" that has "id" equal to "1" with it's corresponding "categories", "tags" and "comments" using:
GET http://localhost/api.php/posts,categories,tags,comments?filter=id,eq,1
Output:
{
"posts": {
"columns": [
"id",
"user_id",
"category_id",
"content"
],
"records": [
[
"1",
"1",
"1",
"blog started"
]
]
},
"post_tags": {
"relations": {
"post_id": "posts.id"
},
"columns": [
"id",
"post_id",
"tag_id"
],
"records": [
[
"1",
"1",
"1"
],
[
"2",
"1",
"2"
]
]
},
"categories": {
"relations": {
"id": "posts.category_id"
},
"columns": [
"id",
"name"
],
"records": [
[
"1",
"anouncement"
]
]
},
"tags": {
"relations": {
"id": "post_tags.tag_id"
},
"columns": [
"id",
"name"
],
"records": [
[
"1",
"funny"
],
[
"2",
"important"
]
]
},
"comments": {
"relations": {
"post_id": "posts.id"
},
"columns": [
"id",
"post_id",
"message"
],
"records": [
[
"1",
"1",
"great"
],
[
"2",
"1",
"fantastic"
]
]
}
}
You can call the mysql_crud_api_tranform()
function to structure the data hierarchical like this:
{
"posts": [
{
"id": "1",
"post_tags": [
{
"id": "1",
"post_id": "1",
"tag_id": "1",
"tags": [
{
"id": "1",
"name": "funny"
}
]
},
{
"id": "2",
"post_id": "1",
"tag_id": "2",
"tags": [
{
"id": "2",
"name": "important"
}
]
}
],
"comments": [
{
"id": "1",
"post_id": "1",
"message": "great"
},
{
"id": "2",
"post_id": "1",
"message": "fantastic"
}
],
"user_id": "1",
"category_id": "1",
"categories": [
{
"id": "1",
"name": "anouncement"
}
],
"content": "blog started"
}
]
}
This transform function is available for PHP and JavaScript in the files mysql_crud_api_tranform.php
and mysql_crud_api_tranform.js
.
By default a single database is exposed with all it's tables and columns in read-write mode. You can change the permissions by specifying a 'table_authorizer' and/or a 'column_authorizer' function that returns a boolean indicating whether or not the table or column is allowed for a specific CRUD action.
By default all input is accepted and sent to the database. If you want to strip (certain) HTML tags before storing you may specify a 'input_sanitizer' function that returns the adjusted value.
By default all input is accepted. If you want to validate the input, you may specify a 'input_validator' function that returns a boolean indicating whether or not the value is valid.
The code also supports multi-database API's. These have URLs where the first segment in the path is the database and not the table name. This can be enabled by NOT specifying a database in the configuration. Also the permissions in the configuration should contain a dot character to seperate the database from the table name. The databases 'mysql', 'information_schema' and 'sys' are automatically blocked.
Binary fields are automatically detected and data in those fields is returned using base64 encoding.
GET http://localhost/api.php/categories/2
Output:
{"id":"2","name":"funny","icon":"ZGF0YQ=="}
When sending a record that contains a binary field you will also have to send base64 encoded data.
PUT http://localhost/api.php/categories/2
icon=ZGF0YQ
In the above example you see how binary data is sent. Both "base64url" and standard "base64" are allowed (see rfc4648).
When using the POST method (x-www-form-urlencoded, see rfc1738) a database NULL value can be set using the "__is_null" suffix:
PUT http://localhost/api.php/categories/2
name=Internet&icon__is_null
When sending JSON data, then sending a NULL value for a nullable database field is easier as you can use the JSON "null" value (without quotes).
PUT http://localhost/api.php/categories/2
{"name":"Internet","icon":null}
The following types of 404 'Not found' errors may be reported:
- entity (could not find entity)
- object (instance not found on read)
- input (instance not found on create)
- subject (instance not found on update)
- 1pk (primary key not found or composite)
There are PHPUnit tests in the file 'tests.php'. You need to configure your test database connection in this file. After that run:
$ wget https://phar.phpunit.de/phpunit.phar
$ php phpunit.phar tests/tests.php
PHPUnit 4.7.3 by Sebastian Bergmann and contributors.
...................
Time: 464 ms, Memory: 12.00Mb
OK (19 tests, 39 assertions)
$
NB: You MUST use an empty database as a desctructive database fixture ('blog.mysql') is loaded.
C:\mysql-crud-api-master>php.exe phpunit.phar tests\tests.php
PHPUnit 4.7.3 by Sebastian Bergmann and contributors.
...................
Time: 676 ms, Memory: 7.25Mb
OK (19 tests, 39 assertions)
C:\mysql-crud-api-master>
NB: You MUST use an empty database as a desctructive database fixture ('blog.mssql') is loaded.
$ wget https://phar.phpunit.de/phpunit.phar
$ php phpunit.phar tests/tests.php
PHPUnit 4.7.3 by Sebastian Bergmann and contributors.
......................
Time: 894 ms, Memory: 2.75Mb
OK (22 tests, 42 assertions)
$
NB: You MUST use an empty database as a desctructive database fixture ('blog.pgsql') is loaded.
MIT