(PHP 5 >= 5.5.0, PHP 7)
password_hash — Creates a password hash
$password
, integer $algo
[, array $options
] )password_hash() creates a new password hash using a strong one-way hashing algorithm. password_hash() is compatible with crypt(). Therefore, password hashes created by crypt() can be used with password_hash().
The following algorithms are currently supported:
PASSWORD_DEFAULT - Use the bcrypt algorithm (default as of PHP 5.5.0).
Note that this constant is designed to change over time as new and stronger algorithms are added
to PHP. For that reason, the length of the result from using this identifier can change over
time. Therefore, it is recommended to store the result in a database column that can expand
beyond 60 characters (255 characters would be a good choice).
PASSWORD_BCRYPT - Use the CRYPT_BLOWFISH algorithm to
create the hash. This will produce a standard crypt() compatible hash using
the "$2y$" identifier. The result will always be a 60 character string, 或者在失败时返回 FALSE.
Supported Options:
salt - to manually provide a salt to use when hashing the password. Note that this will override and prevent a salt from being automatically generated.
If omitted, a random salt will be generated by password_hash() for each password hashed. This is the intended mode of operation.
The salt option has been deprecated as of PHP 7.0.0. It is now preferred to simply use the salt that is generated by default.
cost - which denotes the algorithmic cost that should be used. Examples of these values can be found on the crypt() page.
If omitted, a default value of 10 will be used. This is a good baseline cost, but you may want to consider increasing it depending on your hardware.
password用户的密码。
Using the PASSWORD_BCRYPT as the
algorithm, will result
in the password parameter being truncated to a
maximum length of 72 characters.
algo一个用来在散列密码时指示算法的密码算法常量。
options一个包含有选项的关联数组。目前支持两个选项:salt,在散列密码时加的盐(干扰字符串),以及cost,用来指明算法递归的层数。这两个值的例子可在 crypt() 页面找到。
If omitted, a random salt will be created and the default cost will be used.
Returns the hashed password, 或者在失败时返回 FALSE.
The used algorithm, cost and salt are returned as part of the hash. Therefore, all information that's needed to verify the hash is included in it. This allows the password_verify() function to verify the hash without needing separate storage for the salt or algorithm information.
Example #1 password_hash() example
<?php
/**
* We just want to hash our password using the current DEFAULT algorithm.
* This is presently BCRYPT, and will produce a 60 character result.
*
* Beware that DEFAULT may change over time, so you would want to prepare
* By allowing your storage to expand past 60 characters (255 would be good)
*/
echo password_hash("rasmuslerdorf", PASSWORD_DEFAULT)."\n";
?>
以上例程的输出类似于:
$2y$10$.vGA1O9wmRjrwAVXD98HNOgsNpDczlqm3Jq7KnEd1rVAGv3Fykk1a
Example #2 password_hash() example setting cost manually
<?php
/**
* In this case, we want to increase the default cost for BCRYPT to 12.
* Note that we also switched to BCRYPT, which will always be 60 characters.
*/
$options = [
'cost' => 12,
];
echo password_hash("rasmuslerdorf", PASSWORD_BCRYPT, $options)."\n";
?>
以上例程的输出类似于:
$2y$12$QjSH496pcT5CEbzjD/vtVeH03tfHKFy36d4J0Ltp3lRtee9HDxY3K
Example #3 password_hash() example setting salt manually
<?php
/**
* Note that the salt here is randomly generated.
* Never use a static salt or one that is not randomly generated.
*
* For the VAST majority of use-cases, let password_hash generate the salt randomly for you
*/
$options = [
'cost' => 11,
'salt' => mcrypt_create_iv(22, MCRYPT_DEV_URANDOM),
];
echo password_hash("rasmuslerdorf", PASSWORD_BCRYPT, $options)."\n";
?>
以上例程的输出类似于:
$2y$11$q5MkhSBtlsJcNEVsYh64a.aCluzHnGog7TQAKVmQwO9C8xb.t89F.
Example #4 password_hash() example finding a good cost
<?php
/**
* This code will benchmark your server to determine how high of a cost you can
* afford. You want to set the highest cost that you can without slowing down
* you server too much. 8-10 is a good baseline, and more is good if your servers
* are fast enough. The code below aims for ≤ 50 milliseconds stretching time,
* which is a good baseline for systems handling interactive logins.
*/
$timeTarget = 0.05; // 50 milliseconds
$cost = 8;
do {
$cost++;
$start = microtime(true);
password_hash("test", PASSWORD_BCRYPT, ["cost" => $cost]);
$end = microtime(true);
} while (($end - $start) < $timeTarget);
echo "Appropriate Cost Found: " . $cost . "\n";
?>
以上例程的输出类似于:
Appropriate Cost Found: 10
It is strongly recommended that you do not generate your own salt for this function. It will create a secure salt automatically for you if you do not specify one.
As noted above, providing the salt option in PHP 7.0 will generate a deprecation warning. Support for providing a salt manually may be removed in a future PHP release.
Note:
It is recommended that you test this function on your servers, and adjust the cost parameter so that execution of the function takes less than 100 milliseconds on interactive systems. The script in the above example will help you choose a good cost value for your hardware.
Note: Updates to supported algorithms by this function (or changes to the default one) must follow the following rules:
- Any new algorithm must be in core for at least 1 full release of PHP prior to becoming default. So if, for example, a new algorithm is added in 7.5.5, it would not be eligible for default until 7.7 (since 7.6 would be the first full release). But if a different algorithm was added in 7.6.0, it would also be eligible for default at 7.7.0.
- The default should only change in a full release (7.3.0, 8.0.0, etc) and not in a revision release. The only exception to this is in an emergency when a critical security flaw is found in the current default.