版本3使用数位签章,签署密码编译金钥和讯息。
Version 3 USES a digital signature to sign cryptographic keys and messages.
使用指定的讯息验证码(MAC)演算法,计算xml数位签章。
Computes an XML digital signature using the specified message authentication code (MAC) algorithm.
于2000年4月著列出了xml数位签章规范的设计原理、作用范围和要求。
April 2000. lists the design principles, scope, and requirements for the XML Digital Signature specification.
版本4加入私用通道,传输用来签署密码编译金钥和讯息的数位签章。
Version 4 adds a private channel to transmit a digital signature to sign cryptographic keys and messages.
基本上数位签章是藉著套用数学函式于要被签名的资料的杂凑来计算。
Typically the digital signature is computed by applying a mathematical function to the hash of the data to be signed.
由于杂凑值将大量资料表示成较小的数值,因此杂凑值可用于数位签章。
Hash values represent large amounts of data as much smaller numeric values, so they are used with digital signatures.
签署可以协助确认资料的特定出处,只要为其建立唯一的数位签章即可。
Signing helps verify that the data originates from a specific party by creating a digital signature that is unique to that party.
凭证没有金钥使用方式,也没有支援数位签章或不可否认性的金钥使用方式。
The certificate has no key usage or a key usage that supports digital signatures or nonrepudiation.
这个选项会使得编译器在输出档案中保留空间,以便稍后可以加入数位签章。
This option causes the compiler to reserve space in the output file so that a digital signature can be added later.
不过,请注意,强式名称本身并未隐含任何如数位签章和支援凭证所提供的信任层级。
Note, however, that strong names in and of themselves do not imply a level of trust like that provided, for example, by a digital signature and supporting certificate.
在本论文中,我们证明了假如离散对数的问题解决了,何的数位签章演算法是不安全的。
In this paper, we show that he's digital signature scheme is insecure against forgery if the discrete logarithms problem is solved.
这些程序码特性被称为辨识项,可以包括要从它下载程序码的网站或区域,或发行程序码之厂商的数位签章。
The code characteristics are called evidence and can include the Web site or zone from which the code was downloaded, or the digital signature of the vendor who published the code.
其他的辨识项(例如组件的数位签章)是程序码本身就有的,可来自载入器或受信任的应用程序定义域主机。
Other evidence, such as an assembly's digital signature, is inherent in the code itself and can come from the loader or a trusted application domain host.
这个资讯称为辨识项,由载入器或信任的主机提供,并且可以包括例如组件的数位签章或它发源的网站等项目。
This information, called evidence, is provided by the loader or a trusted host and can include items such as the digital signature of the assembly or the Web site where it originates.
主应用程序可以存取有关程序码的资讯(辨识项),例如程序码来源的区域,或应用程序定义域中组件的数位签章。
The host has access to information about the code (evidence), such as the zone in which the code originates, or the digital signatures of the assemblies in the application domain.
如果传送的应用程序要求验证,讯息伫列会建立数位签章,在传送讯息时用来为讯息签名,并在接收讯息时用来验证讯息。
If the sending application requests authentication, message Queuing creates a digital signature and USES it to sign the message when it is sent and to authenticate the message when it is received.
RFC 2807列出了xml数位签章(XML Digital Signature)规范的设计原理、作用范围和要求。
RFC 2807 lists the design principles, scope, and requirements for the XML Digital Signature specification.
RFC 2807列出了xml数位签章(XML Digital Signature)规范的设计原理、作用范围和要求。
RFC 2807 lists the design principles, scope, and requirements for the XML Digital Signature specification.
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