使用时间密码设定,自动停机。
键名及其时间和类型随后将被添加到当前密码数组中以供稍后处理。
The key name, its time, and type are then added to the current password array for later processing.
如果需要以更清楚的格式向安全经理报告信息,实现密码策略会非常费时间,尤其是在处理大型企业网络时。
Implementing a password policy can be time consuming when presenting the information in a clearer format for reporting to security managers, especially when dealing with a large enterprise network.
SSO可以减少同一用户重新输入用户名和密码所花费的时间。
SSO reduces the time spent on re-entering the usernames and password for the same user.
清单6将添加第一个基本的击键力度相关的检查子例程:密码输入总时间。
Listing 6 adds subroutines for the first basic keystroke dynamics-related check: total time of password entry.
蛮力攻击是最全面的攻击形式,虽然它通常需要很长的时间工作,这取决于密码的复杂程度。
A brute force attack is the most comprehensive form of attack, though it may often take a long time to work depending on the complexity of the password.
根据密码的复杂程度,某些蛮力攻击可能花费一个星期的时间。
Some brute force attacks can take a week depending on the complexity of the password.
程序将不断循环,直至输入匹配字符的有效密码和总输入时间。
The program will loop continuously until a valid password in character matching and total time of entry is entered.
完成这些密码更改要花费不少时间,而且是重复性的。
Going through these password changes takes time and is very repetitive.
许多用户发现密码的特定输入时间要求不会给验证过程带来太多困扰。
Many users find the requirement for a specific duration of password to be a nonburdensome addition to their authentication process.
在指定的时间段内,用户可以重新运行命令而不会提示输入密码(此用户自己的密码)。
During this time period, the user can re-run the command without being prompted for the password (that's the user's own password).
这条命令将监视持有焦点的x窗口的击键,并在所有窗口中记录了10个平均数后输出击键停顿时间的密码散列。
This command will monitor the keystrokes of the currently in-focus X window and print out a cryptographic hash of the keystroke dwell times after 10 averages have been recorded across all Windows.
说对了:我不会花大量的时间去破解你保险柜上的密码。
You're right: I won't have enough time to break into that safe where you keep your valuables.
Step2:用户的连接信息、密码、服务器和流逝时间。
Step 2: Connection information for user, password, server, and elapsed time.
如果总时间差值小于 maxTimeDiff(500毫秒),则 totalTimeOK 子例程认为密码及其确认有效。
The totalTimeOK subroutine considers a password and its confirmation valid if their total time discrepancy is less than maxTimeDiff (500 milliseconds).
例如,在图像上按住鼠标将近2秒钟,然后按照“正常”释放时间单击密码输入框和Submit按钮。
For example, hold the mouse-button-down for nearly 2 seconds on an image, then click the password-entry box and the Submit button with "normal" release times.
下面的kdc日志项表明,来自IP地址9.182.192.36的johan用户请求一个TGT,请求的时间是Jul07 02:05:17,加密列表是{1623183117},但是使用了错误的密码。
The following KDC log entry indicates that a user named johan requested for an TGT from IP address 9.182.192.36 on Jul 07 02:05:17 with encryption list {16 23 18 3 1 17} with the wrong password.
当处于“record”模式时,这些停顿时间将被扩展为字符串并用于生成签名的密码散列。
When in "record" mode, these dwell times are expanded into a string and used to generate a cryptographic hash of the signature.
在这里尝试键入各种密码并且注意输入这些密码的总时间是如何记录的。
Try typing your various passwords here and notice how the overall time to enter them is recorded.
如果一次密码校验需要两倍时间,那整个密码破解时间也要两倍。
If one password test takes twice as long, the total password cracking time takes twice as long.
通常,要考虑的因素包括每个用户最后一次修改密码的时间、密码应该到期的时间和密码标志。
Typically, this would involve considerations such as when a password was last changed, when it is due for expiry, and any password flags set for each user.
下列代码的第一部分将展示一个简单的密码输入和确认程序,它将计算输入密码的完整时间。
The first section of code below shows how to set up a simple password entry and confirmation program that takes into account the full timing of password entry.
如果公开时间过长,攻击者便会用“蛮力”攻破您的密码。
Leave it up long enough, and someone will "brute-force" through your password.
应该安排修改密码的时间表,在应用程序关闭时修改密码。
A schedule change should then be put in place to change the password when the applications have closed.
超过这段时间之后,用户必须再次输入密码才能重新运行命令。
Once this time allotment has ended, the user is prompted for the password again to re-run the command.
由于数字签名是建立在公用密钥密码术基础上的,因此计算一个数字签名所花的时间往往要比计算一个mac长得多。
Because a digital signature is based on public key cryptography, it generally takes much more time to compute a digital signature than a MAC.
由于数字签名是建立在公用密钥密码术基础上的,因此计算一个数字签名所花的时间往往要比计算一个mac长得多。
Because a digital signature is based on public key cryptography, it generally takes much more time to compute a digital signature than a MAC.
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