[鸿蒙内核源码注释中文版 【 Gitee仓 ](https://gitee.com/weharmony/kernel_liteos_a_note)|[ CSDN仓 ](https://codechina.csdn.net/kuangyufei/kernel_liteos_a_note)|[ Github仓 ](https://github.com/kuangyufei/kernel_liteos_a_note)|[ Coding仓 】](https://weharmony.coding.net/public/harmony/kernel_liteos_a_note/git/files)精读内核源码,中文详细注解.深挖地基工程,构建底层网图. [鸿蒙源码分析系列篇 【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108727970)[| OSCHINA ](https://my.oschina.net/u/3751245/blog/4626852)[| HarmonyOS 】](https://weharmony.github.io/)问答式导读, 生活式比喻, 图形化展示, 层层剥开内核神秘外衣. --- - ### **鸿蒙源码分析系列篇** - [鸿蒙源码分析系列(总目录) | 持续更新中... 【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108727970) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4626852)|[ HarmonyOS 】](https://weharmony.github.io) * [|- 鸿蒙内核源码分析(用栈方式篇) | 栈是构建底层运行的基础 【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/112534331) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4893388)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(用栈方式篇).html) * [|- 鸿蒙内核源码分析(位图管理篇) | 为何进程和线程都是32个优先级? 【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/112394982) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4888467)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(位图管理篇).html) * [|- 鸿蒙内核源码分析(源码结构篇) | 内核500问你能答对多少? 【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/111938348) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4869137)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(源码结构篇).html) * [|- 鸿蒙内核源码分析(物理内存篇) | 伙伴算法是在卖标准猪肉块吗?【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/111765600) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4842408)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(物理内存篇).html) * [|- 鸿蒙内核源码分析(内存规则篇) | 内存管理到底在管什么?【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/109437223) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4698384)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(内存规则篇).html) * [|- 鸿蒙内核源码分析(源码注释篇) | 精读内核源码有哪些好处?【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/109251754) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4686747)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(源码注释篇).html) * [|- 鸿蒙内核源码分析(内存映射篇) | 虚拟内存-物理内存是如何映射的?【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/109032636) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4694841)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(内存映射篇).html) * [|- 鸿蒙内核源码分析(内存汇编篇) | 什么是虚拟内存的实现基础?【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108994081) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4692156)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(内存汇编篇).html) * [|- 鸿蒙内核源码分析(内存分配篇) | 内存有哪些分配方式?【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108989906) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4646802)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(内存分配篇).html) * [|- 鸿蒙内核源码分析(内存管理篇) | 鸿蒙虚拟内存全景图是怎样的?【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108821442) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4652284)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(内存管理篇).html) * [|- 鸿蒙内核源码分析(内存概念篇) | 虚拟内存虚在哪里?【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108723672) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4646802)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(内存概念篇).html) * [|- 鸿蒙内核源码分析(必读故事篇) | 张大爷的故事 | 用故事说内核持续更新中...【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108745174) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4634668)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(必读故事篇).html) * [|- 鸿蒙内核源码分析(调度机制篇) | 任务是如何被调度执行的?【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108705968) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4623040)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(调度机制篇).html) * [|- 鸿蒙内核源码分析(调度队列篇) | 就绪队列对调度的作用【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108626671) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4606916)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(调度队列篇).html) * [|- 鸿蒙内核源码分析(任务管理篇) | 任务是内核调度的单元【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108621428) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4603919)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(任务管理篇).html) * [|- 鸿蒙内核源码分析(时钟管理篇) | 触发调度最大的动力来自哪里?【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108603468) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4574493)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(时钟管理篇).html) * [|- 鸿蒙内核源码分析(进程管理篇) | 进程是内核资源管理单元【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108595941) [| OSCHINA 】](https://my.oschina.net/u/3751245/blog/4574429)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(进程管理篇).html) * [|- 鸿蒙内核源码分析(双向链表篇) | 谁是内核最重要结构体?【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108585659) [| OSCHINA ](https://my.oschina.net/u/3751245/blog/4572304)|[ HarmonyOS 】](https://weharmony.github.io/guide/鸿蒙内核源码分析(双向链表篇).html) ### **喜欢就关注下吧,您的关注真的很重要** ![在这里插入图片描述](https://gitee.com/weharmony/kernel_liteos_a_note/raw/master/zzz/pic/other/wxcode.png) 作者邮箱:weharmony@126.com --- [![WeHarmony/kernel_liteos_a_note](https://gitee.com/weharmony/kernel_liteos_a_note/widgets/widget_card.svg?colors=4183c4,ffffff,ffffff,e3e9ed,666666,9b9b9b)](https://gitee.com/weharmony/kernel_liteos_a_note) [鸿蒙内核源码注释中文版 【 Gitee仓 ](https://gitee.com/weharmony/kernel_liteos_a_note)|[ CSDN仓 ](https://codechina.csdn.net/kuangyufei/kernel_liteos_a_note)|[ Github仓 ](https://github.com/kuangyufei/kernel_liteos_a_note)|[ Coding仓 】](https://weharmony.coding.net/public/harmony/kernel_liteos_a_note/git/files)精读内核源码,中文详细注解.深挖地基工程,构建底层网图. [鸿蒙源码分析系列篇 【 CSDN ](https://blog.csdn.net/kuangyufei/article/details/108727970)[| OSCHINA ](https://my.oschina.net/u/3751245/blog/4626852)[| HarmonyOS 】](https://weharmony.github.io/)问答式导读, 生活式比喻, 图形化展示, 层层剥开内核神秘外衣.