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在工作项目中,会遇到一些php并发访问去修改一个数据问题,如果这个数据不加锁,就会造成数据的错误。下面我将分析一个财务支付锁的问题。希望对大家有所帮助。
1 没有应用锁机制
1.1 财务支付简化版本代码
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<!--?php
/**
* pay.php
*
* 支付没有应用锁
*
* copy right (c) 2016
*
* modification history:
* --------------------
* 2016/9/10, by clevercode, create
*
*/
//用户支付
function pay($userid,$money)
{
if(false == is_int($userid) || false == is_int($money))
{
return false;
}
//取出总额
$total = getuserleftmoney($userid);
//花费大于剩余
if($money --> $total)
{
return false;
}
//余额
$left = $total - $money;
//更新余额
return setuserleftmoney($userid,$left);
}
//取出用户的余额
function getuserleftmoney($userid)
{
if(false == is_int($userid))
{
return 0;
}
$sql = "select account form user_account where userid = ${userid}";
//$mysql = new mysql();//mysql数据库
return $mysql->query($sql);
}
//更新用户余额
function setuserleftmoney($userid,$money)
{
if(false == is_int($userid) || false == is_int($money))
{
return false;
}
$sql = "update user_account set account = ${money} where userid = ${userid}";
//$mysql = new mysql();//mysql数据库
return $mysql->execute($sql);
}
?>
1.2 问题分析
如果有两个操作人(p和m),都用用户编号100账户,分别在pc和手机端同时登陆,100账户总余额有1000,p操作人花200,m操作人花300。并发过程如下。
p操作人:
m操作人:
两次支付后,账户的余额居然还有700,应该的情况是花费了500,账户余额500才对。造成这个现象的根本原因,是并发的时候,p和m同时操作取到的余额数据都是1000。
2 加锁设计
锁的操作一般只有两步,一 获取锁(getlock);二是释放锁(releaselock)。但现实锁的方式有很多种,可以是文件方式实现;sql实现;memcache实现;根据这种场景我们考虑使用策略模式。
2.1 类图设计如下
2.2 php源码设计如下
locksystem.php
<!--?php
/**
* locksystem.php
*
* php锁机制
*
* copy right (c) 2016
*
* modification history:
* --------------------
* 2016/9/10, by clevercode, create
*
*/
class locksystem
{
const lock_type_db = 'sqllock';
const lock_type_file = 'filelock';
const lock_type_memcache = 'memcachelock';
private $_lock = null;
private static $_supportlocks = array('filelock', 'sqllock', 'memcachelock');
public function __construct($type, $options = array())
{
if(false == empty($type))
{
$this--->createlock($type, $options);
}
}
public function createlock($type, $options=array())
{
if (false == in_array($type, self::$_supportlocks))
{
throw new exception("not support lock of ${type}");
}
$this->_lock = new $type($options);
}
public function getlock($key, $timeout = ilock::expire)
{
if (false == $this->_lock instanceof ilock)
{
throw new exception('false == $this->_lock instanceof ilock');
}
$this->_lock->getlock($key, $timeout);
}
public function releaselock($key)
{
if (false == $this->_lock instanceof ilock)
{
throw new exception('false == $this->_lock instanceof ilock');
}
$this->_lock->releaselock($key);
}
}
interface ilock
{
const expire = 5;
public function getlock($key, $timeout=self::expire);
public function releaselock($key);
}
class filelock implements ilock
{
private $_fp;
private $_single;
public function __construct($options)
{
if (isset($options['path']) && is_dir($options['path']))
{
$this->_lockpath = $options['path'].'/';
}
else
{
$this->_lockpath = '/tmp/';
}
$this->_single = isset($options['single'])?$options['single']:false;
}
public function getlock($key, $timeout=self::expire)
{
$starttime = timer::gettimestamp();
$file = md5(__file__.$key);
$this->fp = fopen($this->_lockpath.$file.'.lock', "w+");
if (true || $this->_single)
{
$op = lock_ex + lock_nb;
}
else
{
$op = lock_ex;
}
if (false == flock($this->fp, $op, $a))
{
throw new exception('failed');
}
return true;
}
public function releaselock($key)
{
flock($this->fp, lock_un);
fclose($this->fp);
}
}
class sqllock implements ilock
{
public function __construct($options)
{
$this->_db = new mysql();
}
public function getlock($key, $timeout=self::expire)
{
$sql = "select get_lock('".$key."', '".$timeout."')";
$res = $this->_db->query($sql);
return $res;
}
public function releaselock($key)
{
$sql = "select release_lock('".$key."')";
return $this->_db->query($sql);
}
}
class memcachelock implements ilock
{
public function __construct($options)
{
$this->memcache = new memcache();
}
public function getlock($key, $timeout=self::expire)
{
$waitime = 20000;
$totalwaitime = 0;
$time = $timeout*1000000;
while ($totalwaitime < $time && false == $this->memcache->add($key, 1, $timeout))
{
usleep($waitime);
$totalwaitime += $waitime;
}
if ($totalwaitime >= $time)
throw new exception('can not get lock for waiting '.$timeout.'s.');
}
public function releaselock($key)
{
$this->memcache->delete($key);
}
}
3 应用锁机制
3.1 支付系统应用锁
<!--?php
/**
* pay.php
*
* 支付应用锁
*
* copy right (c) 2016
*
* modification history:
* --------------------
* 2016/9/10, by clevercode, create
*
*/
//用户支付
function pay($userid,$money)
{
if(false == is_int($userid) || false == is_int($money))
{
return false;
}
try
{
//创建锁(推荐使用memcachelock)
$locksystem = new locksystem(locksystem::lock_type_memcache);
//获取锁
$lockkey = 'pay'.$userid;
$locksystem--->getlock($lockkey,8);
//取出总额
$total = getuserleftmoney($userid);
//花费大于剩余
if($money > $total)
{
$ret = false;
}
else
{
//余额
$left = $total - $money;
//更新余额
$ret = setuserleftmoney($userid,$left);
}
//释放锁
$locksystem->releaselock($lockkey);
}
catch (exception $e)
{
//释放锁
$locksystem->releaselock($lockkey);
}
}
//取出用户的余额
function getuserleftmoney($userid)
{
if(false == is_int($userid))
{
return 0;
}
$sql = "select account form user_account where userid = ${userid}";
//$mysql = new mysql();//mysql数据库
return $mysql->query($sql);
}
//更新用户余额
function setuserleftmoney($userid,$money)
{
if(false == is_int($userid) || false == is_int($money))
{
return false;
}
$sql = "update user_account set account = ${money} where userid = ${userid}";
//$mysql = new mysql();//mysql数据库
return $mysql->execute($sql);
}
?>
3.2 锁分析
p操作人:
m操作人:
两次支付后,余额500。非常完美了解决了并发造成的临界区资源的访问问题。
感谢阅读,希望能帮助到大家,谢谢大家对本站的支持!
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