WeRead团队博客 wereadteam.github.io

WeRead团队博客

IOS 签名机制挺复杂各种证书Provisioning ProfileentitlementsCertificateSigningRequestp12AppID概念一堆也很容易出错本文尝试从原理出发一步步推出为什么会有这么多概念希望能有助于理解 iOS App 签名的原理和流程苹果希望解决这样的问题在 iOS 平台对第三方 APP 有绝对的控制权一定要保证每一个安装到 iOS 上的 APP 都是经过苹果官方允许的怎样保证呢就是通过签名机制例如 e 17. 这两个数据一组数据进行数学运算后可以通过 n 和 d 去反解运算反过来也可以大到二进制 1024 位或 2048 位时以目前技术要破解几乎不可能所以非常安全是怎样计算出来的感兴趣可以详读这两篇文章 RSA 算法原理一. 之所以要有第一步计算摘要是因为非对称加密的原理限制可加密的内容不能太大不能大于上述 n 的位数也就是一般不能大于 1024 位 2048 位于是若要对任意大的数据签名就需要改成对它的特征值签名效果是一样的到这里这个证书已经变得很复杂了有很多额外信息实际.

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WeRead团队博客

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IOS 签名机制挺复杂各种证书Provisioning ProfileentitlementsCertificateSigningRequestp12AppID概念一堆也很容易出错本文尝试从原理出发一步步推出为什么会有这么多概念希望能有助于理解 iOS App 签名的原理和流程苹果希望解决这样的问题在 iOS 平台对第三方 APP 有绝对的控制权一定要保证每一个安装到 iOS 上的 APP 都是经过苹果官方允许的怎样保证呢就是通过签名机制例如 e 17. 这两个数据一组数据进行数学运算后可以通过 n 和 d 去反解运算反过来也可以大到二进制 1024 位或 2048 位时以目前技术要破解几乎不可能所以非常安全是怎样计算出来的感兴趣可以详读这两篇文章 RSA 算法原理一. 之所以要有第一步计算摘要是因为非对称加密的原理限制可加密的内容不能太大不能大于上述 n 的位数也就是一般不能大于 1024 位 2048 位于是若要对任意大的数据签名就需要改成对它的特征值签名效果是一样的到这里这个证书已经变得很复杂了有很多额外信息实际.

PARSED CONTENT

The site had the following in the web page, "IOS 签名机制挺复杂各种证书Provisioning ProfileentitlementsCertificateSigningRequestp12AppID概念一堆也很容易出错本文尝试从原理出发一步步推出为什么会有这么多概念希望能有助于理解 iOS App 签名的原理和流程苹果希望解决这样的问题在 iOS 平台对第三方 APP 有绝对的控制权一定要保证每一个安装到 iOS 上的 APP 都是经过苹果官方允许的怎样保证呢就是通过签名机制例如 e 17." I observed that the web site stated " 这两个数据一组数据进行数学运算后可以通过 n 和 d 去反解运算反过来也可以大到二进制 1024 位或 2048 位时以目前技术要破解几乎不可能所以非常安全是怎样计算出来的感兴趣可以详读这两篇文章 RSA 算法原理一." They also stated " 之所以要有第一步计算摘要是因为非对称加密的原理限制可加密的内容不能太大不能大于上述 n 的位数也就是一般不能大于 1024 位 2048 位于是若要对任意大的数据签名就需要改成对它的特征值签名效果是一样的到这里这个证书已经变得很复杂了有很多额外信息实际." The meta header had 微信读书 as the first keyword. This keyword was followed by iOS which isn't as important as 微信读书.

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