这个密码用于在客户端上加密私有密钥文件。
This passphrase will be used to encrypt the private-key file on the client side.
与简单的UsernameToken示例相比,使用私有密钥-证书对进行消息签名和加密的配置比较复杂。
Using private key-certificate pairs for signing and encrypting messages is more complex to configure than the simple UsernameToken example.
尽管ssh - keygen命令可以接受空的密码,但是在这种情况下私有密钥文件不加密。
Even ssh-keygen command will accept the empty passphrase, in which case, private-key file will not be encrypted.
输入用于进行签名的私有加密密钥的名称WS - dsig - receiver - private。
Enter name for private crypto key to be used for signing, ws-dsig-receiver-private.
因为这是使用非对象加密技术,而每一端有自己的证书和私有密钥,比起清单5对称加密技术示例,它处理起来更为简单。
Because this is using asymmetric encryption, where each side has its own certificate and private key, it should be somewhat simpler to handle than the Listing 5 symmetric-encryption example.
这对加密密钥由私有密钥和公有密钥(私有,公共)组成的。
The pair consists of the private key and the public key (private, public).
令牌以密码和公共/私有密钥对加密和签名,然后存储在HTTPcookie 中,最后包括在配置的SSO域中的所有请求中。
The token is encrypted and signed by use of a password and a public/private key pair, stored in an HTTP cookie, and included in all requests for the configured SSO domain.
这个私有密钥永远在芯片里,而公共密钥用来认证及加密发送到该芯片的敏感数据。
The private key forever in chip, and public key authentication and encryption to send to the chip sensitive data.
RSA算法的编程实现了公开密钥、私有密钥的生成,数据加密,解密功能。
RSA algorithm realized the generation of public key and private key, and the function of data encryption and decryption.
RSA算法的编程实现了公开密钥、私有密钥的生成,数据加密,解密功能。
RSA algorithm realized the generation of public key and private key, and the function of data encryption and decryption.
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