开源轻量级PHP数据库ORM框架ycdatabase : 构建稳定的PHP数据库连接池

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ycdatabase
Catalogue

Instruction
Requirement
Create test table
Compire ycdatabase in linux
Start ycdatabase
Init ycdb connection
Native SQL query
Error Info
Where statement
Select statement
Insert statement
Replace statement
Update statement
Delete statement
Whole Example
Database Transaction
Data Caching
PHP Database Connection Pool
Redis Connection Pool

Instruction
1、Fast : ycdb is an mysql database ORM written in c, built in php extension, as we known, database ORM is a very time-consuming operation, especially for interpretive languages such as PHP, and for a project, the proportion of ORM is very high,so here I will implement the MySQL ORM operation in C language, and use the performance of C language to improve the performance of ORM. 2、Safe : ycdb can solve SQL injection through parameter binding. 3、Powerful : concise and powerful usage , support any operation in database. 4、Easy : Extremely easy to learn and use, friendly construction. 5、Data-cache : ycdb supports data caching. You can use redis as a medium to cache database data, but remember that when the update, insert, and delete operations involve caching data, you need to delete your cache to ensure data consistency. 6、Connection-pool : ycdb uses a special way to establish a stable connection pool with MySQL. performance can be increased by at least 30%, According to PHP’s operating mechanism, long connections can only reside on top of the worker process after establishment, that is, how many work processes are there. How many long connections, for example, we have 10 PHP servers, each launching 1000 PHP-FPM worker processes, they connect to the same MySQL instance, then there will be a maximum of 10,000 long connections on this MySQL instance, the number is completely Out of control! And PHP’s connection pool heartbeat mechanism is not perfect 1、快速 – ycdb 是一个为 PHP 扩展写的纯 C 语言写的 mysql 数据库 ORM 扩展,众所周知,数据库 ORM 是一个非常耗时的操作,尤其对于解释性语言如 PHP,而且对于一个项目来说,ORM 大多数情况能占到项目很大的一个比例,所以这里我将 MySQL 的 ORM 操作用 C 语言实现,利用 C 语言的性能,提升 ORM 的性能。2、安全 – ycdb 能通过参数绑定的方式解决 SQL 注入的问题。3、强大 – 便捷的函数,支持所有数据库操作。4、简单 – 使用和学习非常简单,界面友好。5、数据缓存 – ycdb 支持数据缓存,你可以采用 redis 作为介质来缓存数据库的数据,但是记得在 update、insert、delete 操作涉及到与缓存数据相关的数据修改时,需要按 key 删除您的缓存,以保证数据一致性。6、连接池 – ycdb 通过一种特殊的方式来建立一个稳定的与 MySQL 之间的连接池,性能至少能提升 30%,按照 PHP 的运行机制,长连接在建立之后只能寄居在工作进程之上,也就是说有多少个工作进程,就有多少个长连接,打个比方,我们有 10 台 PHP 服务器,每台启动 1000 个 PHP-FPM 工作进程,它们连接同一个 MySQL 实例,那么此 MySQL 实例上最多将存在 10000 个长连接,数量完全失控了!而且 PHP 的连接池心跳机制不完善。
中文文档 (Chinese Document):https://blog.csdn.net/caohao0…

Requirement

PHP 7.0 +
need support PDO for mysql

Create test table
CREATE TABLE `user_info_test` (
`uid` int(11) NOT NULL COMMENT ‘userid’ AUTO_INCREMENT,
`username` varchar(64) NOT NULL COMMENT ‘username’,
`sexuality` varchar(8) DEFAULT ‘male’ COMMENT ‘sexuality:male – 男性 female – 女性 ’,
`age` int(11) DEFAULT 0 COMMENT ‘age’,
`height` double(11,2) DEFAULT 0 COMMENT ‘height of a person, 身高 ’,
`bool_flag` int(11) DEFAULT 1 COMMENT ‘flag’,
`remark` varchar(11) DEFAULT NULL,
PRIMARY KEY (`uid`)
) ENGINE=InnoDB DEFAULT CHARSET=utf8 COLLATE=utf8_bin COMMENT=’userinfo’;
Compire ycdatabase in linux
//// path to is your PHP install dir ////
$cd ~/ycdatabase/ycdatabase_extension
$/path/to/phpize
$chmod +x ./configure
$./configure –with-php-config=/path/to/php-config
$make
$make install
Start ycdatabase
new ycdb()
$db_conf = array(“host” => “127.0.0.1”,
“username” => “root”,
“password” => “test123123”,
“dbname” => “userinfo”,
“port” => ‘3306’,
“option” => array(
PDO::ATTR_CASE => PDO::CASE_NATURAL,
PDO::ATTR_TIMEOUT => 2));

$ycdb = new ycdb($db_conf);
we can start by creating a ycdatabase object (ycdb) from the obove code, db_conf include host,username,password,dbname,port and option, option is a pdo attribution, you can get the detail from http://php.net/manual/en/pdo…. For example, PDO::ATTR_TIMEOUT in the above code is specifies the timeout duration in seconds, and PDO::ATTR_CASE is forcing column names to a specific case.
Init ycdb connection
we need to init pdo connection before we use ycdatabase.
try{
$ycdb->initialize();
} catch (PDOException $e) {
echo “find PDOException when initialize\n”;
var_dump($e);
exit;
}
Native SQL query
We can directly execute the sql statement through the exec() function,the return value is the number of rows affected by the execution, or return insert_id if it is insert statement, when the table has not AUTO_INCREMENT field, the insert_id should be zero, and execute select statement through the query() function, If $ret = -1 indicates that the sql execution error occurs, we can pass $ycdb->errorCode(), $ycdb- >errorInfo() returns the error code and error description respectively.
insert data
$insert_id = $ycdb->exec(“insert into user_info_test(username, sexuality, age, height)
values(‘smallhow’, ‘male’, 29, 180)”);
if($insert_id == -1) {
$code = $ycdb->errorCode();
$info = $ycdb->errorInfo();
echo “code:” . $code . “\n”;
echo “info:” . $info[2] . “\n”;
} else {
echo $insert_id;
}
update data

if we execute the following update statement, $ret returns 3 if the current data is the above image.
$ret = $ycdb->exec(“update user_info_test set remark=’test’ where height>=180”);
echo $ret; //ret is 3
select data
$ret = $ycdb->query(“select * from user_info_test where bool_flag=1”);
echo json_encode($ret);

$ret = $ycdb->query(“select username from user_info_test where bool_flag=1”);
echo json_encode($ret);

Error Info
Error codes and error messages can be obtained through the errorCode and errorInfo function
$code = $ycdb->errorCode();
$info = $ycdb->errorInfo();
Where statement
Basic usage
$ycdb->select(“user_info_test”, “*”, [“sexuality” => “male”]);
// WHERE sexuality = ‘male’

$ycdb->select(“user_info_test”, “*”, [“age” => 29]); // WHERE age = 29

$ycdb->select(“user_info_test”, “*”, [“age[>]” => 29]); // WHERE age > 29

$ycdb->select(“user_info_test”, “*”, [“age[>=]” => 29]); // WHERE age >= 29

$ycdb->select(“user_info_test”, “*”, [“age[!]” => 29]); // WHERE age != 29

$ycdb->select(“user_info_test”, “*”, [“age[<>]” => [28, 29]]); // WHERE age BETWEEN 28 AND 29

$ycdb->select(“user_info_test”, “*”, [“age[><]” => [28, 29]]); // WHERE age NOT BETWEEN 28 AND 29

$ycdb->select(“user_info_test”, “*”, [“username” => [“Tom”, “Red”, “carlo”]]); // WHERE username in (‘Tom’, ‘Red’, ‘carlo’)

//Multiple conditional query
$data = $ycdb->select(“user_info_test”, “*”, [
“uid[!]” => 10,
“username[!]” => “James”,
“height[!]” => [165, 168, 172],
“bool_flag” => true,
“remark[!]” => null
]);
// WHERE uid != 10 AND username != “James” AND height NOT IN (165, 168, 172) AND bool_flag = 1 AND remark IS NOT NULL
Conditional Query
You can use “AND” or “OR” to make up very complex SQL statements.
$data = $ycdb->select(“user_info_test”, “*”, [
“OR” => [
“uid[>]” => 3,
“age[<>]” => [28, 29],
“sexuality” => “female”
]
]);
// WHERE uid > 3 OR age BETWEEN 29 AND 29 OR sexuality = ‘female’

$data = $ycdb->select(“user_info_test”, “*”, [
“AND” => [
“OR” => [
“age” => 29,
“sexuality” => “female”
],
“height” => 177
]
]);
// WHERE (age = 29 OR sexuality=’female’) AND height = 177

//Attention:Because ycdb uses array arguments, the first OR is overwritten, the following usage is wrong,
$data = $ycdb->select(“user_info_test”, “*”, [
“AND” => [
“OR” => [
“age” => 29,
“sexuality” => “female”
],
“OR” => [
“uid[!]” => 3,
“height[>=]” => 170
],
]
]);
// [X] SELECT * FROM user_info_test WHERE (uid != 3 OR height >= 170)

//We can use # and comments to distinguish between two diffrents OR
$data = $ycdb->select(“user_info_test”, “*”, [
“AND” => [
“OR #1” => [
“age” => 29,
“sexuality” => “female”
],
“OR #2” => [
“uid[!]” => 3,
“height[>=]” => 170
],
]
]);
// [√] SELECT * FROM user_info_test WHERE (age = 29 OR sexuality = ‘female’) AND (uid != 3 OR height >= 170)
Fuzzy Matching Like

LIKE USAGE [~].
$data = $ycdb->select(“user_info_test”, “*”, [ “username[~]” => “%ide%” ]);
// WHERE username LIKE ‘%ide%’

$data = $ycdb->select(“user_info_test”, “*”, [“username[~]” => [“%ide%”, “Jam%”, “%ace”]]);
// WHERE username LIKE ‘%ide%’ OR username LIKE ‘Jam%’ OR username LIKE ‘%ace’

$data = $ycdb->select(“user_info_test”, “*”, [ “username[!~]” => “%ide%” ]);
// WHERE username NOT LIKE ‘%ide%’
Use of wildcards
$ycdb->select(“user_info_test”, “*”, [ “username[~]” => “Londo_” ]); // London, Londox, Londos…

$ycdb->select(“user_info_test”, “id”, [ “username[~]” => “[BCR]at” ]); // Bat, Cat, Rat

$ycdb->select(“user_info_test”, “id”, [ “username[~]” => “[!BCR]at” ]); // Eat, Fat, Hat…
ORDER BY And LIMIT
$data = $ycdb->select(“user_info_test”, “*”, [
‘sexuality’ => ‘male’,
‘ORDER’ => [
“age”,
“height” => “DESC”,
“uid” => “ASC”
],
‘LIMIT’ => 100, //Get the first 100 of rows (overwritten by next LIMIT)
‘LIMIT’ => [20, 100] //Started from the top 20 rows, and get the next 100
]);
//SELECT * FROM `user_info_test` WHERE `sexuality` = ‘male’ ORDER BY `age`, `height` DESC, `uid` ASC LIMIT 100 OFFSET 20
GROUP And HAVING
$ycdb->select(“user_info_test”, “sexuality,age,height”, [
‘GROUP’ => ‘sexuality’,

// GROUP by array of values
‘GROUP’ => [
‘sexuality’,
‘age’,
‘height’
],

// Must have to use it with GROUP together
‘HAVING’ => [
‘age[>]’ => 30
]
]);
//SELECT uid FROM `user_info_test` GROUP BY sexuality,age,height HAVING `age` > 30
Select statement
usage
select($table, $columns, $where)
table [string]
table name
columns [string/array]
Columns to be queried.
where (optional) [array]
The conditions of the query.
select($table, $join, $columns, $where)
table [string]
table name
join [array]
Multi-table query, can be ignored if not used.
columns [string/array]
Columns to be queried.
where (optional) [array]
The conditions of the query.
return: [array]
Fail if -1 is returned, otherwise result array is returned

example
You can use * to match all fields, but if you specify columns you can improve performance.
$datas = $ycdb->select(“user_info_test”, [
“uid”,
“username”
], [
“age[>]” => 31
]);

// $datas = array(
// [0] => array(
// “uid” => 6,
// “username” => “Aiden”
// ),
// [1] => array(
// “uid” => 11,
// “username” => “smallhow”
// )
// )

// Select all columns
$datas = $ycdb->select(“user_info_test”, “*”);

// Select a column
$datas = $ycdb->select(“user_info_test”, “username”);

// $datas = array(
// [0] => “lucky”,
// [1] => “Tom”,
// [2] => “Red”
// )

Table join
Multi-table query SQL is more complicated, and it can be easily solved with ycdb.
// [>] == RIGH JOIN
// [<] == LEFT JOIN
// [<>] == FULL JOIN
// [><] == INNER JOIN

$ycdb->select(“user_info_test”,
[// Table Join Info
“[>]account” => [“uid” => “userid”], // RIGHT JOIN `account` ON `user_info_test`.`uid`= `account`.`userid`

// This is a shortcut to declare the relativity if the row name are the same in both table.
“[>]album” => “uid”, //RIGHT JOIN `album` USING (`uid`)

// Like above, there are two row or more are the same in both table.
“[<]detail” => [“uid”, “age”], // LEFT JOIN `detail` USING (`uid`,`age`)

// You have to assign the table with alias.
“[<]address(addr_alias)” => [“uid” => “userid”], //LEFT JOIN `address` AS `addr_alias` ON `user_info_test`.`uid`=`addr_alias`.`userid`

// You can refer the previous joined table by adding the table name before the column.
“[<>]album” => [“account.userid” => “userid”], //FULL JOIN `album` ON `account`.`userid` = `album`.`userid`

// Multiple condition
“[><]account” => [
“uid” => “userid”,
“album.userid” => “userid”
]
], [// columns
“user_info_test.uid”,
“user_info_test.age”,
“addr_alias.country”,
“addr_alias.city”
], [// where condition
“user_info_test.uid[>]” => 3,
“ORDER” => [“user_info_test.uid” => “DESC”],
“LIMIT” => 50
]);

// SELECT
// user_info_test.uid,
// user_info_test.age,
// addr_alias.country,
// addr_alias.city
// FROM `user_info_test`
// RIGHT JOIN `account` ON `user_info_test`.`uid`= `account`.`userid`
// RIGHT JOIN `album` USING (`uid`)
// LEFT JOIN `detail` USING (`uid`,`age`)
// LEFT JOIN `address` AS `addr_alias` ON `user_info_test`.`uid`=`addr_alias`.`userid`
// FULL JOIN `album` ON `account`.`userid` = `album`.`userid`
// INNER JOIN `account` ON `user_info_test`.`uid`= `account`.`userid`
// AND `album`.`userid` = `account`.`userid`
// WHERE `user_info_test`.`uid` > 3
// ORDER BY `user_info_test`.`uid` DESC
// LIMIT 50
alias
You can use aliases to prevent field conflicts
$data = $ycdb->select(“user_info_test(uinfo)”, [
“[<]account(A)” => “userid”,
], [
“uinfo.uid(uid)”,
“A.userid”
]);

// SELECT uinfo.uid AS `uid`, A.userid
// FROM `user_info_test` AS `uinfo`
// LEFT JOIN `account` AS `A` USING (`userid`)
Insert statement
insert($table, $data, $cache_info)
table [string]
table name
data [array]
insert data
cache_info (optional) [array]
cache info
return [int]
Fail if -1 is returned, otherwise insert_id is returned, if the table has no AUTO_INCREMENT field, the insert_id is zero

$data = array(‘username’ => ‘smallhow’,’sexuality’ => ‘male’,’age’ => 35, ‘height’ => ‘168’);
$insert_id = $ycdb->insert(“user_info_test”, $data);
if($insert_id == -1) {
$code = $ycdb->errorCode();
$info = $ycdb->errorInfo();
echo “code:” . $code . “\n”;
echo “info:” . $info[2] . “\n”;
} else {
echo $insert_id;
}

Replace statement
replace($table, $data, $cache_info)
table [string]
table name
data [array]
replace data
cache_info (optional) [array]
cache info
return [int]
Fail if -1 is returned, otherwise insert_id is returned

$data = array(‘username’ => ‘smallhow’,’sexuality’ => ‘male’,’age’ => 35, ‘height’ => ‘168’);
$insert_id = $ycdb->replace(“user_info_test”, $data);
if($insert_id == -1) {
$code = $ycdb->errorCode();
$info = $ycdb->errorInfo();
echo “code:” . $code . “\n”;
echo “info:” . $info[2] . “\n”;
} else {
echo $insert_id;
}

Update statement
update($table, $data, $where)
table [string]
table name
data [array]
update data
where (optional) [array]
where condition [可选]
return [int]
Fail if -1 is returned, otherwise the number of update records is returned

$data = array(‘height’ => 182,’age’ => 33);
$where = array(‘username’ => ‘smallhow’);
$ret = $ycdb->update(“user_info_test”, $data, $where);
Delete statement
delete($table, $where)
table [string]
table name
where (optional) [array]
where condition [可选]
return [int]
Fail if -1 is returned, otherwise the number of delete records is returned

$where = array(‘username’ => ‘smallhow’);
$ret = $ycdb->delete(“user_info_test”, $where);
Whole Example
$table = “table_a(a)”;

$join = [
“[>]AAAA(a1)” => “id”,
“[<]BBBB” => [“E1”, “E2”, “E3”],
“[>]CCCC(c1)” => [“GG” => “HH”, “II.KK” => “LL”]
];

$columns = [“name(a)”, “avatar(b)”, “age”];

$where = [
“user.email[!]” => [“foo@bar.com”, “cat@dog.com”, “admin@ycdb.in”],
“user.uid[<]” => 11111,
“uid[>=]” => 222,
“uid[!]” => null,
“count[!]” => [36, 57, 89],
“id[!]” => true,
“int_num[!]” => 3,
“double_num[!]” => 3.76,
“AA[~]” => “%saa%”,
“BB[!~]” => “%sbb”,
“CC[~]” => [“11%”, “22_”, “33%”],
“DD[!~]” => [“%44%”, “55%”, “66%”],
“EE[~]” => [“AND” => [“%E11”, “E22”]],
“FF[~]” => [“OR” => [“%F33”, “F44”]],
“GG[!~]” => [“AND” => [“%G55”, “G66”]],
“HH[!~]” => [“OR” => [“H77”, “H88”]],
“II[<>]” => [“1”, “12”],
“LL[><]” => [“1”, “12”],
“AND #1” => [
“OR #1” => [
“user_name” => null,
“email” => “foo@bar.com”,
],
“OR #2” => [
“user_name” => “bar”,
“email” => “bar@foo.com”
]
],
“OR” => [
“user_name[!]” => “foo”,
“promoted[!]” => true
],
‘GROUP’ => ‘userid’,
‘GROUP’ => [‘type’, ‘age’, ‘gender’],
‘HAVING’ => [
“uid.num[>]” => 111,
“type[>]” => “smart”,
“id[!]” => false,
“god3[!]” => 9.86,
“uid[!]” => null,
“AA[~]” => “SSA%”,
“CC[~]” => [“11%”, “22%”, “%33”],
],
‘ORDER’ => [
“user.score”,
“user.uid” => “ASC”,
“time” => “DESC”,
],
“LIMIT” => 33,
];

$ycdb->select($table, $join, $columns, $where);
Database transaction
$ycdb->begin();

$ret1 = $ycdb->exec(“insert into user_info_test(username, sexuality, age, height) values(‘smallhow’, ‘male’, 29, 180)”);
$ret2 = $ycdb->exec(“insert into user_info_test(username, sexuality, age, height) values(‘jesson’, ‘female’, 28, 175)”);

if($ret1 == -1 || $ret2 == -1) {
$ycdb->rollback();
} else {
$ycdb->commit()
}
Data Caching
We can use redis, or any other cache system that supports set/get/del/expire function as the medium to store the data returned by the database. If you do not specify the expiration time, the default storage expiration time is 5 minutes. if The cache is specified. When we call data update function such as update/delete/insert, we should pass in the same cache key so that ycdb can clear the cache to ensure data consistency.
//we want cache data by redis
$redis = new Redis();
$redis->connect(‘/home/redis/pid/redis.sock’);

$option = array(“host” => “127.0.0.1”,
“username” => “test”,
“password” => “test”,
“dbname” => “test”,
“port” => ‘3306’,
“cache” => $redis, //cache instance
‘option’ => array(
PDO::ATTR_CASE => PDO::CASE_NATURAL,
PDO::ATTR_TIMEOUT => 2));

$ycdb = new ycdb($option);

try{
$ycdb->initialize();
} catch (PDOException $e) {
echo “find PDOException when initialize\n”;
exit;
}

// I want to keep the 29-year-old user data queried by the database in the cache, and keep it for 10 minutes.
$age = 29;
$cache_key = ‘pre_cache_key_’ . $age;

$data = $ycdb->select(“user_info_test”, “*”, [
‘age’ => $age,
‘CACHE’ => [‘key’ => $cache_key, ‘expire’ => 600] //cache key an expire time (seconds)
]);

echo $redis->get($cache_key) . “\n”;

// If I update these 29-year-old user data, or even add a new 29-year-old user information,
// it’s best to enter the cache key to clean up the cache to keep the data consistent.
$ycdb->update(“user_info_test”, [‘remark’ => ’29-year-old’], [
‘age’ => $age,
‘CACHE’ => [‘key’ => $cache_key] //cache key
]);

echo $redis->get($cache_key) . “\n”;

//If you are going to delete the relevant data, it is best to also clean up the cache by cache_key.
$ycdb->delete(“user_info_test”, [
‘age’ => $age,
‘CACHE’ => [‘key’ => $cache_key] //cache key
]);

echo $redis->get($cache_key) . “\n”;

//Clean up the cache by cache_key when the data you insert is related to the cached data.
$insert_data = array();
$insert_data[‘username’] = ‘test’;
$insert_data[‘sexuality’] = ‘male’;
$insert_data[‘age’] = 29;
$insert_data[‘height’] = 176;

$insert_id = $ycdb->insert(“user_info_test”, $insert_data, [‘key’ => $cache_key]);

echo $redis->get($cache_key) . “\n”;
PHP Database Connection Pool
Short connection performance is generally not available. CPU resources are consumed by the system. Once the network is jittered, there will be a large number of TIME_WAIT generated. The service has to be restarted periodically or the machine is restarted periodically. The server is unstable, QPS is high and low, and the connection is stable and efficient. The pool can effectively solve the above problems, it is the basis of high concurrency. ycdb uses a special way to establish a stable connection pool with MySQL. performance can be increased by at least 30%, According to PHP’s operating mechanism, long connections can only reside on top of the worker process after establishment, that is, how many work processes are there. How many long connections, for example, we have 10 PHP servers, each launching 1000 PHP-FPM worker processes, they connect to the same MySQL instance, then there will be a maximum of 10,000 long connections on this MySQL instance, the number is completely Out of control! And PHP’s connection pool heartbeat mechanism is not perfect
How ?
Let’s focus on Nginx, its stream module implements load balancing of TCP/UDP services, and with the stream-lua module, we can implement programmable stream services, that is, custom TCP/N with Nginx. UDP service! Of course, you can write TCP/UDP services from scratch, but standing on Nginx’s shoulder is a more time-saving and labor-saving choice. We can choose the OpenResty library to complete the MySQL connection pool function. OpenResty is a very powerful and well-functioning Nginx Lua framework. It encapsulates Socket, MySQL, Redis, Memcache, etc. But what is the relationship between Nginx and PHP connection pool? And listen to me slowly: Usually most PHP is used with Nginx, and PHP and Nginx are mostly on the same server. With this objective condition, we can use Nginx to implement a connection pool, connect to services such as MySQL on Nginx, and then connect to Nginx through a local Unix Domain Socket, thus avoiding all kinds of short links. Disadvantages, but also enjoy the benefits of the connection pool.
OpenResty Install
OpenResty Document: https://moonbingbing.gitbooks…OpenResty Official Website : http://www.openresty.org/
CentOS 6.8 Install :
###### Install the necessary libraries ######
$yum install readline-devel pcre-devel openssl-devel perl

###### Install OpenResty ######
$cd ~/ycdatabase/openresty
$tar -xzvf openresty-1.13.6.1.tar.gz
$cd openresty-1.13.6.1
$./configure –prefix=/usr/local/openresty.1.13 –with-luajit –without-http_redis2_module –with-http_iconv_module
$gmake
$gmake install

###### open mysql pool ######
$cp -rf ~/ycdatabase/openresty/openresty-pool ~/
$mkdir ~/openresty-pool/logs
$/usr/local/openresty.1.13/nginx/sbin/nginx -p ~/openresty-pool
MySQL Database Connection Pool Config
~/openresty-pool/conf/nginx.conf :
worker_processes 1; #nginx worker process num

error_log logs/error.log; #nginx error log path

events {
worker_connections 1024;
}

stream {
lua_code_cache on;

lua_check_client_abort on;

server {
listen unix:/tmp/mysql_pool.sock;

content_by_lua_block {
local mysql_pool = require “mysql_pool”

local config = {host = “127.0.0.1”,
user = “root”,
password = “test”,
database = “collect”,
timeout = 2000,
max_idle_timeout = 10000,
pool_size = 200}

pool = mysql_pool:new(config)

pool:run()
}
}
}
If you have more than a MySQL Server, you can start another server and add a new listener to unix domain socket.
PHP Code
Except the option is array(“unix_socket” => “/tmp/mysql_pool.sock”) , Php mysql connection pool usage is exactly the same as before,But, MySQL does not support transactions in unix domain socket mode.
$option = array(“unix_socket” => “/tmp/mysql_pool.sock”);
$ycdb = new ycdb($option);
$ret = $ycdb->select(“user_info_test”, “*”, [“sexuality” => “male”]);

if($ret == -1) {
$code = $ycdb->errorCode();
$info = $ycdb->errorInfo();
echo “code:” . $code . “\n”;
echo “info:” . $info[2] . “\n”;
} else {
print_r($ret);
}
Redis Connection Pool
Similarly, Redis can solve the connection pool problem in the same way.
Redis Connection Pool Config
~/openresty-pool/conf/nginx.conf
worker_processes 1; #nginx worker process num

error_log logs/error.log; #error log path

events {
worker_connections 1024;
}

stream {
lua_code_cache on;

lua_check_client_abort on;

server {
listen unix:/tmp/redis_pool.sock;

content_by_lua_block {
local redis_pool = require “redis_pool”

pool = redis_pool:new({ip = “127.0.0.1”, port = 6379, auth = “password”})

pool:run()
}
}

server {

listen unix:/tmp/mysql_pool.sock;

content_by_lua_block {
local mysql_pool = require “mysql_pool”

local config = {host = “127.0.0.1”,
user = “root”,
password = “test”,
database = “collect”,
timeout = 2000,
max_idle_timeout = 10000,
pool_size = 200}

pool = mysql_pool:new(config)

pool:run()
}
}
}

PHP Code
$redis = new Redis();
$redis->pconnect(‘/tmp/redis_pool.sock’);
var_dump($redis->hSet(“foo1”, “vvvvv42”, 2));
var_dump($redis->hSet(“foo1”, “vvvv”, 33));
var_dump($redis->expire(“foo1”, 111));
var_dump($redis->hGetAll(“foo1”));

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