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Short guide to build kernel | Guide to building the Linux kernel. |
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== Default basic build == | = Where do I find the kernel? = The latest source code for the Linux kernel is kept on [http://www.kernel.org/ kernel.org]. You can either download the full source code as a tar ball (not recommended and will take forever to download), or you can check out the code from the read-only [http://git.kernel.org/ git repositories]. = What tools do I need? = To build the Linux kernel from source, you need several tools: git, ncurses-dev, make, gcc, and (optionally) ctags. The tool packages may be called something else in your Linux distribution, so you may need to search for the package. On Ubuntu, you can get these tools by running {{{ sudo apt-get install libncurses5-dev gcc make git exuberant-ctags }}} = Which kernel to build? = When testing whether a bug is fixed, the best kernel to test with is the latest stable kernel, or (if you are brave and your system is backed up) the latest release candidate from Linus's tree. Sometimes the maintainer may want you to use an experimental branch from their own git tree. You should use the git URL they gave you instead of the git URLs below. If you're doing development for a new feature, or trying to test a bug fix, you should use Linus' tree, or the subsystem maintainer's -next tree. Most subsystem maintainers keep their [http://git.kernel.org/ git trees] on kernel.org. When in doubt, use Linus' tree. If you don't understand what a stable or release candidate kernel is, you should read the KernelDevProcess page. == Downloading the latest stable tree == First, checkout the stable kernel git repository: |
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wget -c http://www.kernel.org/pub/linux/kernel/v2.6/linux-2.6.24.tar.bz2 tar xjf linux-2.6.24.tar.bz2 cd linux-2.6.24 make defconfig make all su -c "make modules_install install" |
git clone git://git.kernel.org/pub/scm/linux/kernel/git/stable/linux-stable.git cd linux-stable |
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The install will installs the kernel to /boot/, modules to /lib/modules/2.6.24/ and updates file /boot/grub/grub.conf | Next, find the latest stable kernel tag by running {{{ git tag -l | less }}} |
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== Download Using a Distribution Kernel Source Code Package == The method of downloading the package will vary according to the distribution you are using, so you're pretty much on your own there. Note that the source code will probably be placed in a sub-directory under /usr/src. |
Find the latest stable kernel by looking for the largest vX.Y.Z values. For example, use the v3.1 tag over the v3.0.46 tag. If v3.1.1 is available, use that instead of v3.1. The kernel tags that end with -rcX are release candidate kernels, not stable kernels. |
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When using this method you need to be very careful that your newly compiled kernel won't overwrite the existing one (or you might not be able to boot any more...). Most distributions keep the two separately, but you need to understand how your system boots, and how kernels are selected before going too far down this route. | Now checkout the code associated with that kernel with the command {{{ git checkout -b stable tag }}} |
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== Download Using Git == Git is the source code control system used in the kernel. You need to download and install it. |
Where tag is the latest vX.Y.Z tag you found. |
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Next you need to choose a repository. The different kernel repositories are listed at http://git.kernel.org/. Most new developers will be contributing to an existing project, so the best way to find out which is the correct repository is to go to the home page for that project, and look there. | == Downloading the latest -rc tree == |
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== Compile == === Configure the Kernel === You need to update the .config file in the root of your kernel tree to specify which facilities/drivers are built into the kernel. |
First, check out Linus' tree: {{{ git clone git://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git cd linux.git }}} |
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If you have used your distribution's source code distribution then it may have come with a suitably configured .configure. Alternatively there may be a suitable configure file in /boot that you can use with | = Setting up your kernel configuration = Many kernel drivers can be turned on or off, or built as modules. The .config file in the kernel source directory determines which drivers are built. When you download the source tree, it doesn't come with a .config file. == Duplicating your current config == If you're trying to see if a bug is fixed, you probably want to duplicate the configuration on your running kernel. That config file is stored somewhere in /boot/. There might be several files that start with config, so you want the one associated with your running kernel. You can find that by running `uname -a` and finding the config file that ends with your kernel version number. Copy that file into the source directory as .config. Or just run this command: {{{ cp /boot/config-`uname -r`* .config }}} == Making the default config == Run {{{ make defconfig }}} == Making a minimal config == Compiling a kernel from scratch from a distribution configuration can take "forever" because the distros turn on every hardware configuration possible. For people wanting to do kernel development fast, you want to make a minimal configuration. Steve Rostedt uses ktest.pl make_min_config to get a truely minimum config, but it will take a day or two to build. Warning: make sure you have all your USB devices plugged into the system, or you won't get the drivers for them! == Changing your config == If you need to make any changes to your configuration, you can run the command {{{ make menuconfig }}} = Building the kernel = Run {{{ make }}} Or, if you have a multi-core processor, run {{{ make -jX }}} Where X is a number like 2 or 4. If you have a dual core, 2 or 3 might be good. Quad core, 4 or 6. Do not run with really big numbers unless you want your machine to be dog-slow! Walk away, get some coffee, lunch, or go [http://xkcd.com/303/ read some comics]. == Installing the kernel == To install a kernel, you will need to either manually update your GRUB configuration file, or have an installkernel script. This script installs the kernel to /boot/, installs modules to /lib/modules/X.Y.Z/ (where X.Y.Z is something like 3.1.5), and updates file /boot/grub/grub.conf. Fortunately, Ubuntu provides an installkernel script in /sbin/installkernel. If you have an installkernel script, you can just run {{{ sudo make modules_install install }}} Or if you don't have sudo installed, run {{{ su -c "make modules_install install" }}} == Running your kernel == First, make sure you know how to select a kernel at boot time. If your new kernel is broken, you want a way to boot into your old kernel. The grub bootloader usually presents users with a choice of kernels, but some distros hide that menu or exit out of that menu after a short timeout. You can usually get the menu to appear by mashing the ESC key during boot after the BIOS display disappears. To make the grub menu always appear on boot under Ubuntu, remove the GRUB_HIDDEN_TIMEOUT_QUIET line from /etc/default/grub. You may want to increase the GRUB_DEFAULT timeout from 0 to 15 or 30 seconds. After you've finished editing the grub file, run {{{ sudo update-grub2 }}} Ubuntu grub documentation is [https://help.ubuntu.com/community/Grub2#Boot_Display_Behavior here]. You will (usually) need to reboot into your new kernel. = Tips and Tricks = If you have a driver installed as a module, you can recompile just that driver. This saves time, because the kernel build system doesn't have to look for changes across the entire kernel tree or compile any of the built-in code. All module files end with .ko. The kernel make system will compile just one .ko file if you give it the full path to the file: |
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cp /boot/config-`uname -r` .config make oldconfig |
make drivers/usb/host/xhci-hcd.ko |
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If you're using a tarball, or git to get the source code, then using an old .config file is a bit risky as it may not have all the new options defined for the new version of the kernel. You probably need to fall back on editing whatever .config came with your sourcode using either {{{make xconfig}}} or {{{make gconfig}}} depending on which one runs on your system. | |
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If you are running on a system with a SATA interface disk, then the default kernel configuration probably won't build. You'll need to convert some device drivers from modules to being compiled into the kernel. | Note you will need to be in the base kernel source directory for this to work. You can't make from a different directory. |
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=== Configure the Boot System === You need to configure your boot system to make the new kernel one of the options. You probably don't want it to be the default at this stage. |
You can also reload drivers without rebooting your kernel. For example, I can remove the xHCI driver and reload it with {{{ sudo rmmod xhci-hcd && sudo insmod drivers/usb/host/xhci-hcd.ko }}} |
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==== Grub ==== The build should have installed the kernel in /boot and told you what it's called. If you're using grub, you now need to edit /boot/grub/menu.lst to add it to the list of possible kernels to boot from. |
Make sure that you understand the consequences of unloading your driver! For instance, if you unload the USB core driver in order to try out changes, your USB mouse and keyboard aren't going to work until the USB core driver is reloaded. |
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You need an entry something like: | You may have to unload other drivers that depend on your driver before you can reload it. Use lsmod to find which drivers that are loaded depend on your driver. E.g. {{{ $ lsmod | grep usb usbnet 26596 2 rndis_host,cdc_ether mii 5198 1 usbnet btusb 16575 0 usbhid 44621 1 hid_logitech usbcore 191078 9 xhci_hcd,rndis_host,cdc_ether,usbnet,btusb,uvcvideo,usbhid,ehci_hcd usb_common 1093 1 usbcore }}} |
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{{{ title My development kernel root /dev/sda1 kernel /boot/vmlinuz-2.6.24-rc3 root=/dev/sda1 ro }}} root=UUID options don't seem to work at this stage. On Debian based systems, running {{{update-grub}}} regenerates the grub configuration based on kernels found in /boot. |
In this case, usbcore is used by xhci_hcd, rndis_host, cdc_ether, usbnet, btusb, uvcvideo, usbhid, and ehci_hcd. I would have to unload all those drivers in order to reload the usbcore module. |
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* '''Linux Kernel in a Nutshell''' by Greg Kroah-Hartman, http://www.kroah.com/lkn/, online: [http://www.linuxtopia.org/online_books/linux_kernel/kernel_configuration/ html] | * [http://lxr.free-electrons.com/source/README#050 linux/README] * '''Linux Kernel in a Nutshell''' by Greg Kroah-Hartman, http://www.kroah.com/lkn/, online: [http://www.linuxtopia.org/online_books/linux_kernel/kernel_configuration/ html] |
Guide to building the Linux kernel.
Where do I find the kernel?
The latest source code for the Linux kernel is kept on [http://www.kernel.org/ kernel.org]. You can either download the full source code as a tar ball (not recommended and will take forever to download), or you can check out the code from the read-only [http://git.kernel.org/ git repositories].
What tools do I need?
To build the Linux kernel from source, you need several tools: git, ncurses-dev, make, gcc, and (optionally) ctags. The tool packages may be called something else in your Linux distribution, so you may need to search for the package.
On Ubuntu, you can get these tools by running
sudo apt-get install libncurses5-dev gcc make git exuberant-ctags
Which kernel to build?
When testing whether a bug is fixed, the best kernel to test with is the latest stable kernel, or (if you are brave and your system is backed up) the latest release candidate from Linus's tree. Sometimes the maintainer may want you to use an experimental branch from their own git tree. You should use the git URL they gave you instead of the git URLs below.
If you're doing development for a new feature, or trying to test a bug fix, you should use Linus' tree, or the subsystem maintainer's -next tree. Most subsystem maintainers keep their [http://git.kernel.org/ git trees] on kernel.org. When in doubt, use Linus' tree.
If you don't understand what a stable or release candidate kernel is, you should read the KernelDevProcess page.
Downloading the latest stable tree
First, checkout the stable kernel git repository:
git clone git://git.kernel.org/pub/scm/linux/kernel/git/stable/linux-stable.git cd linux-stable
Next, find the latest stable kernel tag by running
git tag -l | less
Find the latest stable kernel by looking for the largest vX.Y.Z values. For example, use the v3.1 tag over the v3.0.46 tag. If v3.1.1 is available, use that instead of v3.1. The kernel tags that end with -rcX are release candidate kernels, not stable kernels.
Now checkout the code associated with that kernel with the command
git checkout -b stable tag
Where tag is the latest vX.Y.Z tag you found.
Downloading the latest -rc tree
First, check out Linus' tree:
git clone git://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git cd linux.git
Setting up your kernel configuration
Many kernel drivers can be turned on or off, or built as modules. The .config file in the kernel source directory determines which drivers are built. When you download the source tree, it doesn't come with a .config file.
Duplicating your current config
If you're trying to see if a bug is fixed, you probably want to duplicate the configuration on your running kernel. That config file is stored somewhere in /boot/. There might be several files that start with config, so you want the one associated with your running kernel. You can find that by running uname -a and finding the config file that ends with your kernel version number. Copy that file into the source directory as .config. Or just run this command:
cp /boot/config-`uname -r`* .config
Making the default config
Run
make defconfig
Making a minimal config
Compiling a kernel from scratch from a distribution configuration can take "forever" because the distros turn on every hardware configuration possible. For people wanting to do kernel development fast, you want to make a minimal configuration. Steve Rostedt uses ktest.pl make_min_config to get a truely minimum config, but it will take a day or two to build. Warning: make sure you have all your USB devices plugged into the system, or you won't get the drivers for them!
Changing your config
If you need to make any changes to your configuration, you can run the command
make menuconfig
Building the kernel
Run
make
Or, if you have a multi-core processor, run
make -jX
Where X is a number like 2 or 4. If you have a dual core, 2 or 3 might be good. Quad core, 4 or 6. Do not run with really big numbers unless you want your machine to be dog-slow!
Walk away, get some coffee, lunch, or go [http://xkcd.com/303/ read some comics].
Installing the kernel
To install a kernel, you will need to either manually update your GRUB configuration file, or have an installkernel script. This script installs the kernel to /boot/, installs modules to /lib/modules/X.Y.Z/ (where X.Y.Z is something like 3.1.5), and updates file /boot/grub/grub.conf. Fortunately, Ubuntu provides an installkernel script in /sbin/installkernel.
If you have an installkernel script, you can just run
sudo make modules_install install
Or if you don't have sudo installed, run
su -c "make modules_install install"
Running your kernel
First, make sure you know how to select a kernel at boot time. If your new kernel is broken, you want a way to boot into your old kernel.
The grub bootloader usually presents users with a choice of kernels, but some distros hide that menu or exit out of that menu after a short timeout. You can usually get the menu to appear by mashing the ESC key during boot after the BIOS display disappears. To make the grub menu always appear on boot under Ubuntu, remove the GRUB_HIDDEN_TIMEOUT_QUIET line from /etc/default/grub. You may want to increase the GRUB_DEFAULT timeout from 0 to 15 or 30 seconds. After you've finished editing the grub file, run
sudo update-grub2
Ubuntu grub documentation is [https://help.ubuntu.com/community/Grub2#Boot_Display_Behavior here].
You will (usually) need to reboot into your new kernel.
Tips and Tricks
If you have a driver installed as a module, you can recompile just that driver. This saves time, because the kernel build system doesn't have to look for changes across the entire kernel tree or compile any of the built-in code.
All module files end with .ko. The kernel make system will compile just one .ko file if you give it the full path to the file:
make drivers/usb/host/xhci-hcd.ko
Note you will need to be in the base kernel source directory for this to work. You can't make from a different directory.
You can also reload drivers without rebooting your kernel. For example, I can remove the xHCI driver and reload it with
sudo rmmod xhci-hcd && sudo insmod drivers/usb/host/xhci-hcd.ko
Make sure that you understand the consequences of unloading your driver! For instance, if you unload the USB core driver in order to try out changes, your USB mouse and keyboard aren't going to work until the USB core driver is reloaded.
You may have to unload other drivers that depend on your driver before you can reload it. Use lsmod to find which drivers that are loaded depend on your driver. E.g.
$ lsmod | grep usb usbnet 26596 2 rndis_host,cdc_ether mii 5198 1 usbnet btusb 16575 0 usbhid 44621 1 hid_logitech usbcore 191078 9 xhci_hcd,rndis_host,cdc_ether,usbnet,btusb,uvcvideo,usbhid,ehci_hcd usb_common 1093 1 usbcore
In this case, usbcore is used by xhci_hcd, rndis_host, cdc_ether, usbnet, btusb, uvcvideo, usbhid, and ehci_hcd. I would have to unload all those drivers in order to reload the usbcore module.
more
[http://lxr.free-electrons.com/source/README#050 linux/README]
Linux Kernel in a Nutshell by Greg Kroah-Hartman, http://www.kroah.com/lkn/, online: [http://www.linuxtopia.org/online_books/linux_kernel/kernel_configuration/ html]
[http://www.digitalhermit.com/linux/Kernel-Build-HOWTO.html Kernel Rebuild Guide], Kwan Lowe, 2004
- in Debian
[http://www.debian.org/doc/FAQ/ch-kernel.en.html Debian and the kernel, FAQ]
[http://www.debian.org/doc/manuals/reference/ch-kernel.en.html The Linux kernel under Debian, Reference]