• 加密基础类
  */

class Crypt_AES
{
protected $_cipher = "rijndael-128";
protected $_mode = "cbc";
protected $_key;
protected $_iv = null;
protected $_descriptor = null;

/**

• 是否按照PKCS #7 的标准进行填充
• 为否默认将填充“\0”补位
• @var boolean
  */
  protected $_PKCS7 = false;

/**

• 构造函数，对于密钥key应区分2进制字符串和16进制的。
• 如需兼容PKCS#7标准，应选项设置开启PKCS7，默认关闭
• @param string $key
• @param mixed $iv 向量值
• @param array $options
  */
  public function __construct($key = null,$iv = null,$options = null)
  {
  if (null !== $key) {
  $this->setKey($key);
  }

if (null !== $iv) {
  $this->setIv($iv);
}

if (null !== $options) {
  if (isset($options['chipher'])) {
    $this->setCipher($options['chipher']);
  }

  if (isset($options['PKCS7'])) {
    $this->isPKCS7Padding($options['PKCS7']);
  }

  if (isset($options['mode'])) {
    $this->setMode($options['mode']);
  }
}

}

/**

• PKCS#7状态查看，传入Boolean值进行设置
• @param boolean $flag
• @return boolean
  */
  public function isPKCS7Padding($flag = null)
  {
  if (null === $flag) {
  return $this->_PKCS7;
  }
  $this->_PKCS7 = (bool) $flag;
  }

/**

• 开启加密算法
• @param string $algorithm_directory locate the encryption
• @param string $mode_directory
• @return Crypt_AES
  */
  public function _openMode($algorithm_directory = "",$mode_directory = "")
  {
  $this->_descriptor = mcrypt_module_open($this->_cipher,$algorithm_directory,$this->_mode,$mode_directory);
  return $this;
  }

public function getDescriptor()
{
if (null === $this->_descriptor) {
$this->_openMode();
}
return $this->_descriptor;
}

protected function _genericInit()
{
return mcrypt_generic_init($this->getDescriptor(),$this->getKey(),$this->getIv());
}

protected function _genericDeinit()
{
return mcrypt_generic_deinit($this->getDescriptor());
}

public function getMode()
{
return $this->_mode;
}

public function setMode($mode)
{
$this->_mode = $mode;
return $this;
}

public function getCipher()
{
return $this->_cipher;
}

public function setCipher($cipher)
{
$this->_cipher = $cipher;
return $this;
}
/**

• 获得key
• @return string
  */
  public function getKey()
  {
  return $this->_key;
  }

/**

• 设置可以
• @param string $key
  */
  public function setKey($key)
  {
  $this->_key = $key;
  return $this;
  }

/**

• 获得加密向量块,如果其为null时将追加当前Descriptor的IV大小长度
• @return string
  */
  public function getIv()
  {
  if (null === $this->_iv && in_array($this->_mode,array( "cbc","cfb","ofb",))) {
  $size = mcrypt_enc_get_iv_size($this->getDescriptor());
  $this->_iv = str_pad("",16,"\0");
  }
  return $this->_iv;
  }

/**

• 获得向量块
• @param string $iv
• @return Crypt_AES $this
  */
  public function setIv($iv)
  {
  $this->_iv = $iv;
  return $this;
  }

/**

• 加密
• @param string $str 被加密文本
• @return string
  */
  public function encrypt($str){
  $td = $this->getDescriptor();
  $this->_genericInit();
  $bin = mcrypt_generic($td,$this->padding($str));
  $this->_genericDeinit();

return $bin;

}

public function padding($dat)
{
if ($this->isPKCS7Padding()) {
$block = mcrypt_enc_get_block_size($this->getDescriptor());

  $len = strlen($dat);
  $padding = $block - ($len % $block);
  $dat .= str_repeat(chr($padding),$padding);      
}

return $dat;

}

public function unpadding($str)
{
if ($this->isPKCS7Padding()) {
$pad = ord($str[($len = strlen($str)) - 1]);
$str = substr($str,strlen($str) - $pad);
}
return $str;
}

/**

• 解密
• @param string $str
• @return string
  */
  public function decrypt($str){
  $td = $this->getDescriptor();

$this->_genericInit();
$text = mdecrypt_generic($td,$str);
$this->_genericDeinit();

return $this->unpadding($text);

}

/**

• 16进制转成2进制数据
• @param string $hexdata 16进制字符串
• @return string
  /
  public static function hex2bin($hexdata)
  {
  return pack("H",$hexdata);
  }

/**

• 字符串转十六进制
• @param string $hexdata 16进制字符串
• @return string
  */
  public static function strToHex($string)
  {
  $hex='';
  for($i=0;$i<strlen($string);$i++)
  $hex.=dechex(ord($string[$i]));
  $hex=strtoupper($hex);
  return $hex;
  }

/**

• 十六进制转字符串
• @param string $hexdata 16进制字符串
• @return string
  */
  function hexToStr($hex)
  {
  $string='';
  for($i=0;$i<strlen($hex)-1;$i+=2)
  $string.=chr(hexdec($hex[$i].$hex[$i+1]));
  return $string;
  }
  }

$md5Key = 'ThisIsAMd5Key'; // 对应服务端：$md5key = 'ThisIsAMd5Key';
$aesKey = Crypt_AES::strToHex('1qa2ws4rf3edzxcv'); // 对应服务端：$aesKey = '3171613277733472663365647A786376';
$aesKey = Crypt_AES::hex2bin($aesKey);
$aesIV = Crypt_AES::strToHex('dfg452ws'); // 对应服务端：$aesIV = '6466673435327773';
$aes = new Crypt_AES($aesKey,$aesIV,array('PKCS7'=>true,'mode'=>'cbc'));

// var_dump($aes);

$data['name'] = 'idoubi';
$data['sex']= 'male';
$data['age'] = 23;
$data['signature'] = '白天我是一个程序员，晚上我就是一个有梦想的演员。';

$content = base64_encode($aes->encrypt(json_encode($data)));
$content = urlencode($content);
$sign = md5($content.$md5Key);

$url = 'http://localhost/aesdemo/api.PHP';
$params = "version=1.0&sign=$sign&content=$content";

// 请求接口
post($url,$params);

/**

• 接口请求函数
  */
  function post($url,$params) {
  $curlPost= $params;
  $ch = curl_init(); //初始化curl
  curl_setopt($ch,CURLOPT_URL,$url); //提交到指定网页
  curl_setopt($ch,CURLOPT_HEADER,0); //设置header
  curl_setopt($ch,CURLOPT_RETURNTRANSFER,1); //要求结果为字符串且输出到屏幕上
  curl_setopt($ch,CURLOPT_POST,1); //post提交方式
  curl_setopt($ch,CURLOPT_POSTFIELDS,$curlPost);
  $result = curl_exec($ch);//运行curl
  curl_close($ch);
  var_dump(json_decode($result,true));
  }

$data = $_POST; // 接口请求得到的数据
$content = $data['content'];
$sign = $data['sign'];

$aesKey = '3171613277733472663365647A786376';
$aesIV = '6466673435327773';
$md5key = 'ThisIsAMd5Key';

// 校验数据
if(strcasecmp(md5(urlencode($content).$md5key),$sign) == 0) {
// 数据校验成功
$key = Crypt_AES::hex2bin($aesKey);
$aes = new Crypt_AES($key,'mode'=>'cbc'));

$decrypt = $aes->decrypt(base64_decode($content));
if (!$decrypt) { // 解密失败
echo json_encode('can not decrypt the data');
} else {
echo json_encode($decrypt); // 解密成功
}
} else{
echo json_encode('data is not integrity'); // 数据校验失败
}