diff --git a/docs/en/server/security/secharden/security-configuration-benchmark.md b/docs/en/server/security/secharden/security-configuration-benchmark.md index 3d11a99607f7df7c1ce1002b45884307ef6fdfea..0278e7ed99a6f0803cada871f754d046a00e7195 100644 --- a/docs/en/server/security/secharden/security-configuration-benchmark.md +++ b/docs/en/server/security/secharden/security-configuration-benchmark.md @@ -1,3 +1,3 @@ # openEuler Security Configuration Description -For details, see the [openEuler security configuration description](https://gitee.com/openeuler/security-committee/tree/master/secure-configuration-benchmark). +For details, see the [openEuler security configuration description](https://gitee.com/openeuler/security-committee/tree/master/sub-projects/secure-configuration-benchmark). diff --git a/docs/zh/server/installation_upgrade/installation/installation-preparations.md b/docs/zh/server/installation_upgrade/installation/installation-preparations.md index 6fbd82de60fb0506f73ac6a8b14cca8e22ad9475..3601b248ef63bcb5eaef97a0627a9cff76bd7b17 100644 --- a/docs/zh/server/installation_upgrade/installation/installation-preparations.md +++ b/docs/zh/server/installation_upgrade/installation/installation-preparations.md @@ -60,7 +60,7 @@ 2. 对比步骤1计算的校验值与对刚刚复制的SHA256的值是否一致。 - 如果校验值一致,说明iso文件未被破坏;如果校验值不一致,则文件完整性已被破坏,需要重新获取。 + 如果校验值一致,说明iso文件完整;如果校验值不一致,则文件完整性已被破坏,需要重新获取。 ## 物理机的安装要求 diff --git a/docs/zh/server/quickstart/quickstart/quick-start.md b/docs/zh/server/quickstart/quickstart/quick-start.md index b5b81290d8d8e3839ad0ca3ee483171190dc26e5..c6e9602e79115f23e5c705d2a645bb8d1feeb535 100644 --- a/docs/zh/server/quickstart/quickstart/quick-start.md +++ b/docs/zh/server/quickstart/quickstart/quick-start.md @@ -281,6 +281,7 @@ iso文件:openEuler-25.03-aarch64-dvd.iso 3. 单击“开始安装”进行系统安装,如[图13](#fig1717019357392)所示。 **图 13** 开始安装 + ![](./figures/Installation_Procedure.png) 4. 安装完成后重启系统。 diff --git a/docs/zh/server/security/secharden/security-configuration-benchmark.md b/docs/zh/server/security/secharden/security-configuration-benchmark.md index 1f12011defdaf8af964a937023d798d6b08302b1..642d6480f44fe0e7b4ef51515c455192fc4e9bb5 100644 --- a/docs/zh/server/security/secharden/security-configuration-benchmark.md +++ b/docs/zh/server/security/secharden/security-configuration-benchmark.md @@ -1,3 +1,3 @@ # openEuler安全配置说明 -详细内容请参考[openEuler安全配置说明](https://gitee.com/openeuler/security-committee/tree/master/secure-configuration-benchmark)。 +详细内容请参考[openEuler安全配置说明](https://gitee.com/openeuler/security-committee/tree/master/sub-projects/secure-configuration-benchmark)。 diff --git a/docs/zh/server/security/shangmi/overview.md b/docs/zh/server/security/shangmi/overview.md index 3530a2e99e404622a9d48f00a16739ab832e1936..c311967bf552212d7300f3afab6db51b7b01bbba 100644 --- a/docs/zh/server/security/shangmi/overview.md +++ b/docs/zh/server/security/shangmi/overview.md @@ -6,7 +6,7 @@ |---|---|---|---| | SM2 | 是 | 非对称加解密算法 | 数字签名、密钥交换、加解密,广泛应用于PKI体系 | | SM3 | 是 | 杂凑算法(哈希算法) | 应用于完整性保护、单向加密等通用场景 | -| SM4 | 是 | 对称加解密算法) | 数据加密存储、安全传输 | +| SM4 | 是 | 对称加解密算法 | 数据加密存储、安全传输 | 除此之外,还包括SM9、ZUC等公开算法,以及SM1、SM7等非公开算法。值得一提的是,所有已经公开的国产算法都已经纳入ISO/IEC标准,成为了被国际所认可的密码算法。围绕这些密码算法,我国制定并发布一系列密码技术规范和应用标准,如商密证书标准、TLCP协议栈等。它们共同构成了我国的商密标准体系,指导了国内的密码安全产业链的构建。