有人知道 PHP 的 API 密钥生成器脚本/类吗?该类应该具有生成方法,该方法将生成密钥和 isValid() 方法,以检查密钥是否有效。
生成 API 密钥的方法有多种。我根据应用使用了以下 3 种方法,
Base62(随机)。生成一个大的安全随机数并对其进行 Base-62 编码。密钥看起来像“w5vt2bjzf8ryp63t”。这对于自配置系统很有好处。您不必担心碰撞和不合适的钥匙。您必须检查数据库才能知道密钥是否有效。
Base62(MD5-HMAC(密钥,规范化(引用者)))。如果仅允许一个站点使用该 API,那么这一点非常有效。只需检查规范化引用的 HMAC,您就知道密钥是否有效,无需数据库访问。为此,您需要对 HMAC 密钥保密。
人类分配的友好名称,例如“example.com”。如果 API 用户需要拥有一个域或者他们是您的公司合作伙伴,那么这非常有用。
请记住,API 密钥不安全。它只是分配给您的 API 应用程序的名称。越来越多的人使用“App ID”或“Dev ID”等术语来反映它的真实含义。如果您想保护您的协议,您必须分配另一个密钥,例如 OAuth 中的
consumer_key/consumer_secret这是我对这个问题的简单回答:
$key = implode('-', str_split(substr(strtolower(md5(microtime().rand(1000, 9999))), 0, 30), 6));
只需使用类似这样的东西(伪代码)
sha1(salt + time + mac-addr + another salt + some other random data)这是一个老问题,但我昨天偶然发现了同样的问题,并发现这个类符合 RFC4122 :
/*-
* Copyright (c) 2008 Fredrik Lindberg - http://www.shapeshifter.se
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
/*
* UUID (RFC4122) Generator
* http://tools.ietf.org/html/rfc4122
*
* Implements version 1, 3, 4 and 5
*/
class GEN_UUID {
/* UUID versions */
const UUID_TIME = 1; /* Time based UUID */
const UUID_NAME_MD5 = 3; /* Name based (MD5) UUID */
const UUID_RANDOM = 4; /* Random UUID */
const UUID_NAME_SHA1 = 5; /* Name based (SHA1) UUID */
/* UUID formats */
const FMT_FIELD = 100;
const FMT_STRING = 101;
const FMT_BINARY = 102;
const FMT_QWORD = 1; /* Quad-word, 128-bit (not impl.) */
const FMT_DWORD = 2; /* Double-word, 64-bit (not impl.) */
const FMT_WORD = 4; /* Word, 32-bit (not impl.) */
const FMT_SHORT = 8; /* Short (not impl.) */
const FMT_BYTE = 16; /* Byte */
const FMT_DEFAULT = 16;
public function __construct()
{
}
/* Field UUID representation */
static private $m_uuid_field = array(
'time_low' => 0, /* 32-bit */
'time_mid' => 0, /* 16-bit */
'time_hi' => 0, /* 16-bit */
'clock_seq_hi' => 0, /* 8-bit */
'clock_seq_low' => 0, /* 8-bit */
'node' => array() /* 48-bit */
);
static private $m_generate = array(
self::UUID_TIME => "generateTime",
self::UUID_RANDOM => "generateRandom",
self::UUID_NAME_MD5 => "generateNameMD5",
self::UUID_NAME_SHA1 => "generateNameSHA1"
);
static private $m_convert = array(
self::FMT_FIELD => array(
self::FMT_BYTE => "conv_field2byte",
self::FMT_STRING => "conv_field2string",
self::FMT_BINARY => "conv_field2binary"
),
self::FMT_BYTE => array(
self::FMT_FIELD => "conv_byte2field",
self::FMT_STRING => "conv_byte2string",
self::FMT_BINARY => "conv_byte2binary"
),
self::FMT_STRING => array(
self::FMT_BYTE => "conv_string2byte",
self::FMT_FIELD => "conv_string2field",
self::FMT_BINARY => "conv_string2binary"
),
);
/* Swap byte order of a 32-bit number */
static private function swap32($x) {
return (($x & 0x000000ff) << 24) | (($x & 0x0000ff00) << 8) |
(($x & 0x00ff0000) >> 8) | (($x & 0xff000000) >> 24);
}
/* Swap byte order of a 16-bit number */
static private function swap16($x) {
return (($x & 0x00ff) << 8) | (($x & 0xff00) >> 8);
}
/* Auto-detect UUID format */
static private function detectFormat($src) {
if (is_string($src))
return self::FMT_STRING;
else if (is_array($src)) {
$len = count($src);
if ($len == 1 || ($len % 2) == 0)
return $len;
else
return (-1);
}
else
return self::FMT_BINARY;
}
/*
* Public API, generate a UUID of 'type' in format 'fmt' for
* the given namespace 'ns' and node 'node'
*/
static public function generate($type=self::UUID_RANDOM, $fmt = self::FMT_STRING, $node = "", $ns = "") {
$func = self::$m_generate[$type];
if (!isset($func))
return null;
$conv = self::$m_convert[self::FMT_FIELD][$fmt];
$uuid = self::$func($ns, $node);
return self::$conv($uuid);
}
/*
* Public API, convert a UUID from one format to another
*/
static public function convert($uuid, $from, $to) {
$conv = self::$m_convert[$from][$to];
if (!isset($conv))
return ($uuid);
return (self::$conv($uuid));
}
/*
* Generate an UUID version 4 (pseudo random)
*/
static private function generateRandom($ns, $node) {
$uuid = self::$m_uuid_field;
$uuid['time_hi'] = (4 << 12) | (mt_rand(0, 0x1000));
$uuid['clock_seq_hi'] = (1 << 7) | mt_rand(0, 128);
$uuid['time_low'] = mt_rand(0, 0xffff) + (mt_rand(0, 0xffff) << 16);
$uuid['time_mid'] = mt_rand(0, 0xffff);
$uuid['clock_seq_low'] = mt_rand(0, 255);
for ($i = 0; $i < 6; $i++)
$uuid['node'][$i] = mt_rand(0, 255);
return ($uuid);
}
/*
* Generate UUID version 3 and 5 (name based)
*/
static private function generateName($ns, $node, $hash, $version) {
$ns_fmt = self::detectFormat($ns);
$field = self::convert($ns, $ns_fmt, self::FMT_FIELD);
/* Swap byte order to keep it in big endian on all platforms */
$field['time_low'] = self::swap32($field['time_low']);
$field['time_mid'] = self::swap16($field['time_mid']);
$field['time_hi'] = self::swap16($field['time_hi']);
/* Convert the namespace to binary and concatenate node */
$raw = self::convert($field, self::FMT_FIELD, self::FMT_BINARY);
$raw .= $node;
/* Hash the namespace and node and convert to a byte array */
$val = $hash($raw, true);
$tmp = unpack('C16', $val);
foreach (array_keys($tmp) as $key)
$byte[$key - 1] = $tmp[$key];
/* Convert byte array to a field array */
$field = self::conv_byte2field($byte);
$field['time_low'] = self::swap32($field['time_low']);
$field['time_mid'] = self::swap16($field['time_mid']);
$field['time_hi'] = self::swap16($field['time_hi']);
/* Apply version and constants */
$field['clock_seq_hi'] &= 0x3f;
$field['clock_seq_hi'] |= (1 << 7);
$field['time_hi'] &= 0x0fff;
$field['time_hi'] |= ($version << 12);
return ($field);
}
static private function generateNameMD5($ns, $node) {
return self::generateName($ns, $node, "md5",
self::UUID_NAME_MD5);
}
static private function generateNameSHA1($ns, $node) {
return self::generateName($ns, $node, "sha1",
self::UUID_NAME_SHA1);
}
/*
* Generate UUID version 1 (time based)
*/
static private function generateTime($ns, $node) {
$uuid = self::$m_uuid_field;
/*
* Get current time in 100 ns intervals. The magic value
* is the offset between UNIX epoch and the UUID UTC
* time base October 15, 1582.
*/
$tp = gettimeofday();
$time = ($tp['sec'] * 10000000) + ($tp['usec'] * 10) +
0x01B21DD213814000;
$uuid['time_low'] = $time & 0xffffffff;
/* Work around PHP 32-bit bit-operation limits */
$high = intval($time / 0xffffffff);
$uuid['time_mid'] = $high & 0xffff;
$uuid['time_hi'] = (($high >> 16) & 0xfff) | (self::UUID_TIME << 12);
/*
* We don't support saved state information and generate
* a random clock sequence each time.
*/
$uuid['clock_seq_hi'] = 0x80 | mt_rand(0, 64);
$uuid['clock_seq_low'] = mt_rand(0, 255);
/*
* Node should be set to the 48-bit IEEE node identifier, but
* we leave it for the user to supply the node.
*/
for ($i = 0; $i < 6; $i++)
$uuid['node'][$i] = ord(substr($node, $i, 1));
return ($uuid);
}
/* Assumes correct byte order */
static private function conv_field2byte($src) {
$uuid[0] = ($src['time_low'] & 0xff000000) >> 24;
$uuid[1] = ($src['time_low'] & 0x00ff0000) >> 16;
$uuid[2] = ($src['time_low'] & 0x0000ff00) >> 8;
$uuid[3] = ($src['time_low'] & 0x000000ff);
$uuid[4] = ($src['time_mid'] & 0xff00) >> 8;
$uuid[5] = ($src['time_mid'] & 0x00ff);
$uuid[6] = ($src['time_hi'] & 0xff00) >> 8;
$uuid[7] = ($src['time_hi'] & 0x00ff);
$uuid[8] = $src['clock_seq_hi'];
$uuid[9] = $src['clock_seq_low'];
for ($i = 0; $i < 6; $i++)
$uuid[10+$i] = $src['node'][$i];
return ($uuid);
}
static private function conv_field2string($src) {
$str = sprintf(
'%08x-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x',
($src['time_low']), ($src['time_mid']), ($src['time_hi']),
$src['clock_seq_hi'], $src['clock_seq_low'],
$src['node'][0], $src['node'][1], $src['node'][2],
$src['node'][3], $src['node'][4], $src['node'][5]);
return ($str);
}
static private function conv_field2binary($src) {
$byte = self::conv_field2byte($src);
return self::conv_byte2binary($byte);
}
static private function conv_byte2field($uuid) {
$field = self::$m_uuid_field;
$field['time_low'] = ($uuid[0] << 24) | ($uuid[1] << 16) |
($uuid[2] << 8) | $uuid[3];
$field['time_mid'] = ($uuid[4] << 8) | $uuid[5];
$field['time_hi'] = ($uuid[6] << 8) | $uuid[7];
$field['clock_seq_hi'] = $uuid[8];
$field['clock_seq_low'] = $uuid[9];
for ($i = 0; $i < 6; $i++)
$field['node'][$i] = $uuid[10+$i];
return ($field);
}
static public function conv_byte2string($src) {
$field = self::conv_byte2field($src);
return self::conv_field2string($field);
}
static private function conv_byte2binary($src) {
$raw = pack('C16', $src[0], $src[1], $src[2], $src[3],
$src[4], $src[5], $src[6], $src[7], $src[8], $src[9],
$src[10], $src[11], $src[12], $src[13], $src[14], $src[15]);
return ($raw);
}
static private function conv_string2field($src) {
$parts = sscanf($src, '%x-%x-%x-%x-%02x%02x%02x%02x%02x%02x');
$field = self::$m_uuid_field;
$field['time_low'] = ($parts[0]);
$field['time_mid'] = ($parts[1]);
$field['time_hi'] = ($parts[2]);
$field['clock_seq_hi'] = ($parts[3] & 0xff00) >> 8;
$field['clock_seq_low'] = $parts[3] & 0x00ff;
for ($i = 0; $i < 6; $i++)
$field['node'][$i] = $parts[4+$i];
return ($field);
}
static private function conv_string2byte($src) {
$field = self::conv_string2field($src);
return self::conv_field2byte($field);
}
static private function conv_string2binary($src) {
$byte = self::conv_string2byte($src);
return self::conv_byte2binary($byte);
}
}
希望有帮助
正如已经提到的,这完全取决于具体情况。我需要使用的一种方法是使用专门分配的 API 密钥来验证引用 URL。因此,对于 API 密钥,真正需要的只是(伪)
key = md5(referer url + name + salt)编辑:刚刚意识到原来问题的年龄:S
根据您的需要,您还可以使用 3scale 之类的工具来创建密钥并管理对 API 的访问。它生成密钥,但也跟踪速率限制、分析等,并允许 API 上的开发人员创建新密钥。
有一个 PHP 库作为连接器之一:https://support.3scale.net/reference/libraries
您可以只使用
md5(uniqid())您可以做一些简单的事情,例如
md5(time())GUID 可以工作,但在加密上不安全。
服务器答案在 microtime() 或 mt_rand 上使用 md5 或 sha1 哈希方法。
对 uniqid、uuid 或时间戳进行哈希处理不一定会产生唯一的结果! 实际上散列会增加冲突的机会,所以我强烈建议不要这样做。
如果您不需要 API 密钥来表示任何含义或可解码,只是为了与某些内容匹配,那么这是可行的:
$api = md5(time());
您要做的就是生成一个随机字符串并将其保存在数据库中,然后您可以检索它并查看它是否匹配。
要生成某种带有破折号的随机 API 密钥,我使用以下代码。
$hex = random_bytes(24);
$hex = bin2hex($hex);
$hex = strtoupper($hex);
$hex = wordwrap($hex , 8, '-' , true);
echo $hex;
它将打印类似这样的内容 -> 5A1C53E3-067DAE70-3AE1C5EE-3ABCD8D7-66B92582-DB2845F9
如果您需要更短或更长,只需增加/减少 random_bytes 数
<?php
/* users array contains unique id (primary keys) from Database */
$users = [1,2,3,4,5,6,7,8,9,10];
foreach($users as $user){
$rand = rand(0000000,9999999);
$left = str_pad($rand,10,"0",STR_PAD_RIGHT);
$right = '0000'.$user;
$user = $left.'-'.$right;
$API_KEY = uniqid("$user-",false);
echo $API_KEY.PHP_EOL;
}
?>
请检查上述方法是否适合在 PHP 中生成唯一 API 密钥