• linux源码组织


    linux源代码在https://www.kernel.org/就可以下。现在的稳定版本是3.16.3.

    因为简历上有个项目是内核有关的,为了准备一下面试,还是要重温一下内核才行。最基本的,哪些文件在哪个项目总要知道吧。。。

    为什么还没有offer。。

    tar没法直接角解压,只能先用xz解压,再用tar分开。整个压缩比还挺高的,xz文件是76.8MB,解压后是500多MB。

    1 root@xxj-VirtualBox:~# xz -d linux-3.16.3.tar.xz
    2 root@xxj-VirtualBox:~# tar xvf linux-3.16.3.tar

    解压出来,根目录是这样子的。根目录下的目录大部分为操作系统的通用代码,drivers、arch下才是特殊的硬件处理。

     1 root@xxj-VirtualBox:~/win7Download/linux-3.16.3# tree -L 1
     2 .
     3 ├── arch
     4 ├── block
     5 ├── COPYING
     6 ├── CREDITS
     7 ├── crypto
     8 ├── Documentation
     9 ├── drivers
    10 ├── firmware
    11 ├── fs
    12 ├── include
    13 ├── init
    14 ├── ipc
    15 ├── Kbuild
    16 ├── Kconfig
    17 ├── kernel
    18 ├── lib
    19 ├── MAINTAINERS
    20 ├── Makefile
    21 ├── mm
    22 ├── net
    23 ├── README
    24 ├── REPORTING-BUGS
    25 ├── samples
    26 ├── scripts
    27 ├── security
    28 ├── sound
    29 ├── tools
    30 ├── usr
    31 └── virt

    COPYING - Information about licensing and rights. The Linux kernel is licensed under the GPLv2 license. This license grants anyone the right to use, modify, distribute, and share the source code and compiled code for free. However, no one can sell the source code.

    Kbuild - This is a script that sets up some settings for making the kernel. For example, this script sets up a ARCH variable where ARCH is the processor type that a developer wants the kernel to support.

    Kconfig - This script is used when developer configure the kernel which will be discussed in a later article.

    arch - This folder contains a Kconfig which sets up some settings for compiling the source code that belongs in this folder. Each supported processor architecture is in the corresponding folder. So, the source code for Alpha processors belong in the alpha folder. Keep in mind that as time goes on, some new processors will be supported, or some may be dropped.

     1 root@xxj-VirtualBox:~/win7Download/linux-3.16.3/arch# tree -L 1
     2 .
     3 ├── alpha
     4 ├── arc
     5 ├── arm
     6 ├── arm64
     7 ├── avr32
     8 ├── blackfin
     9 ├── c6x
    10 ├── cris
    11 ├── frv
    12 ├── hexagon
    13 ├── ia64
    14 ├── Kconfig
    15 ├── m32r
    16 ├── m68k
    17 ├── metag
    18 ├── microblaze
    19 ├── mips
    20 ├── mn10300
    21 ├── openrisc
    22 ├── parisc
    23 ├── powerpc
    24 ├── s390
    25 ├── score
    26 ├── sh
    27 ├── sparc
    28 ├── tile
    29 ├── um
    30 ├── unicore32
    31 ├── x86
    32 └── xtensa

    block – This folder holds code for block-device drivers. Block devices are devices that accept and send data in blocks. Data blocks are chunks of data instead of a continual stream.

    crypto - This folder contains the source code for many encryption algorithms. For example, “sha1_generic.c” is the file that contains the code for the sha1 encryption algorithm.

    Documentation - This folder contains plain-text documents that provide information on the kernel and many of the files. If a developer needs information, they may be able to find the needed information in here.

    drivers - This directory contains the code for the drivers. Each folder is named after each piece or type of hardware. For example, the bluetooth folder holds the code for bluetooth drivers. Other obvious drivers are scsi, usb, and firewire. Some drivers may be more difficult to find. For instance, joystick drivers are not in a joystick folder. Instead, they are under ./drivers/input/joystick. Keyboard and mouse drivers are also located in the input folder. The Macintosh folder contains code for hardware made by Apple. The xen folder contains code for the Xen hypervisor. A hypervisor is software or hardware that allows users to run multiple operating systems on a single computer. This means that the xen code would allow users to have two or more Linux system running on one computer at the same time. 

    firmware - The firmware folder contains code that allows the computer to read and understand signals from devices. For illustration, a webcam manages its own hardware, but the computer must understand the signals that the webcam is sending the computer. The Linux system will then use the vicam firmware to understand the webcam. Otherwise, without firmware, the Linux system does not know how to process the information that the webcam is sending. Also, the firmware helps the Linux system to send messages to the device. The Linux system could then tell the webcam to refocus or turnoff.

    fs - This is the FileSystem folder. All of the code needed to understand and use filesystems is here. Inside this folder, each filesystem's code is in its own folder. For instance, the ext4 filesystem's code is in the ext4 folder. Within the fs folder, developers will see some files not in folders. These files handle filesystems overall. For example, mount.h would contain code for mounting filesystems. A filesystem is a structured way to store and manage files and directories on a storage device. Each filesystem has its own advantages and disadvantages. These are due to the programming of the filesystem. For illustration, the NTFS filesystem supports transparent compression (when enabled, files are automatically compressed without the user noticing). Most filesystems lack this feature, but they could only possess this ability if it is programmed into the files in the fs folder.

    include - The include folder contains miscellaneous header files that the kernel uses. The name for the folder comes from the C command "include" that is used to import a header into C code upon compilation.

    init - The init folder has code that deals with the startup of the kernel (INITiation). The main.c file is the core of the kernel. This is the main source code file the connects all of the other files.

    ipc - IPC stands for Inter-Process Communication. This folder has the code that handles the communication layer between the kernel and processes. The kernel controls the hardware and programs can only ask the kernel to perform a task. Assume a user has a program that opens the DVD tray. The program does not open the tray directly. Instead, the program informs the kernel that the tray should be opened. Then, the kernel opens the tray by sending a signal to the hardware. This code also manages the kill signals. For illustration, when a system administrator opens a process manager to close a program that has locked-up, the signal to close the program is called a kill signal. The kernel receives the signal and then the kernel (depending on which type of kill signal) will ask the program to stop or the kernel will simply take the process out of the memory and CPU. Pipes used in the command-line are also used by the IPC. The pipes tell the kernel to place the output data on a physical page on in memory. The program or command receiving the data is given a pointer to the page on memory. 这里有锁、共享内存、消息队列的代码。

    1 root@xxj-VirtualBox:~/win7Download/linux-3.16.3/ipc# ls
    2 compat.c     ipcns_notifier.c  Makefile     mqueue.c  msgutil.c    sem.c  syscall.c  util.h
    3 compat_mq.c  ipc_sysctl.c      mq_sysctl.c  msg.c     namespace.c  shm.c  util.c

    kernel - The code in this folder controls the kernel itself. For instance, if a debugger needed to trace an issue, the kernel would use code that originated from source files in this folder to inform the debugger of all of the actions that the kernel performs. There is also code here for keeping track of time. In the kernel folder is a directory titled "power". Some code in this folder provide the abilities for the computer to restart, power-off, and suspend. 这里有Printk race等用于内核调试的代码。还有fork imeirqkthreadsigal等代码。

    lib - the library folder has the code for the kernel's library which is a set of files that that the kernel will need to reference. xz的加缩代码也在这。二分查找啊、位图、哈希啊、红黑树,很多代码。

    mm - The Memory Management folder contains the code for managing the memory. Memory is not randomly placed on the RAM. Instead, the kernel places the data on the RAM carefully. The kernel does not overwrite any memory that is being used or that holds important data.DMA、swap、mmap、分页、分段都在这里有。slab分配器是Linux内存管理中非常重要和复杂的一部分。

    内存管理的通用代码放在这,其处理器结构相关部分被放在arch/*/mm中。页面出错处理代码位于mm下的memory.c文件中而内存映射与页面cache代码位于filemap.c中。 swap cache位于mm/swap_state.c和mm/swapfile.c中。

    net - The network folder contains the code for network protocols. This includes code for IPv6 and Appletalk as well as protocols for Ethernet, wifi, bluetooth, etc. Also, the code for handling network bridges and DNS name resolution is in the net directory. 通用代码,协议等。

    网络代码位于net目录而大多数包含文件位于include/net中。BSD套接口代码位于net/socket.c中。IPV4的INET套接口代码位于net/ipv4/af_inet.c中。通用协议支撑代码(包括sk_buff处理过程)位于net/core中,同时TCP/IP网络代码位于net/ipv4中。网络设备驱动位于drivers/net中。

    samples - This folder contains programming examples and modules that are being started. Assume a new module with a helpful feature is wanted, but no programmer has announced that they would work on the project. Well, these modules go here. This gives new kernel programmers a chance to help by going through this folder and picking a module they would like to help develop. 新的特性,这里一看有,kdb、kprobe之类的,不过都没实现。

    scripts - This folder has the scripts needed for compiling the kernel. It is best to not change anything in this folder. Otherwise, you may not be able to configure or make a kernel.

    security - This folder has the code for the security of the kernel. It is important to protect the kernel from computer viruses and hackers. Otherwise, the Linux system can be damaged.  selinux的代码在这。

    sound - This directory has sound driver code for sound/audio cards.

    tools - This directory contains tools that interact with the kernel.

    usr - Remember the vmlinuz file and similar files mentioned in the previous article? The code in this folder creates those files after the kernel is compiled.

    virt - This folder contains code for virtualization which allows users to run multiple operating systems at once. This is different from Xen. With virtualization, the guest operating system is acting like any other application within the Linux operating system (host system). With a hypervisor like Xen, the two operating systems are managing the hardware together and the same time. In virtualization, the guest OS runs on top of the Linux kernel while in a hypervisor, there is no guest OS and all of the operating systems do not depend on each other.

    大部分摘自:http://www.linux.org/threads/the-linux-kernel-the-source-code.4204/

    http://klinux.h.baike.com/article-80253.html

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  • 原文地址:https://www.cnblogs.com/linyx/p/3998258.html
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