Configuring pki, Overview, Pki terms – H3C Technologies H3C SecBlade LB Cards User Manual

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Configuring PKI

Overview

The PKI uses a general security infrastructure to provide information security through public key

technologies.
PKI, also called asymmetric key infrastructure, uses a key pair to encrypt and decrypt the data. The key

pair consists of a private key and a public key. The private key must be kept secret but the public key

needs to be distributed. Data encrypted by one of the two keys can only be decrypted by the other.
A key problem with PKI is how to manage the public keys. PKI employs the digital certificate mechanism
to solve this problem. The digital certificate mechanism binds public keys to their owners, helping

distribute public keys in large networks securely.
With digital certificates, the PKI system provides network communication and e-commerce with security

services such as user authentication, data non-repudiation, data confidentiality, and data integrity.
H3C's PKI system provides certificate management for SSL.

PKI terms

Digital certificate

A digital certificate is a file signed by a certificate authority (CA) for an entity. It includes mainly the
identity information of the entity, the public key of the entity, the name and signature of the CA, and the

validity period of the certificate, where the signature of the CA ensures the validity and authority of the

certificate. A digital certificate must comply with the international standard of ITU-T X.509. The most

common standard is X.509 v3.
This document involves local certificate and CA certificate. A local certificate is a digital certificate

signed by a CA for an entity, and a CA certificate is the certificate of a CA. If multiple CAs are trusted

by different users in a PKI system, the CAs will form a CA tree with the root CA at the top level. The root

CA has a CA certificate signed by itself and each lower level CA has a CA certificate signed by the CA
at the next higher level.

CRL

An existing certificate might need to be revoked when, for example, the username changes, the private

key leaks, or the user stops the business. Revoking a certificate will remove the binding of the public key

with the user identity information. In PKI, the revocation is made through certificate revocation lists (CRLs).
Whenever a certificate is revoked, the CA publishes one or more CRLs to show all certificates that have

been revoked. The CRLs contain the serial numbers of all revoked certificates and provide an effective

way for checking the validity of certificates.
A CA might publish multiple CRLs when the number of revoked certificates is so large that publishing
them in a single CRL might degrade network performance, and it uses CRL distribution points to indicate

the URLs of these CRLs.