Has anyone successfully compiled the android kernel and tested it in the Android emulator, and if so is there anything that special that needs to be done?

Documentation for the SDK is excellent, however documentation for compiling the kernel and setting up a custom machine in the emulator has been hard for me to find.


8 Answers 8


Since August 2009 the kernel is no longer part of the standard repo manifest that you get when you follow the instructions to download the source code for the android open source project. The steps that are needed to successfully download, build and run a specific kernel on the emulator are as follows:

  • Get the Android kernel either by adding it to your repo manifest or manually by running:
    git clone https://android.googlesource.com/kernel/goldfish.git
  • Check out the correct branch for working with the emulator, i.e. goldfish:
    git checkout -t origin/android-goldfish-2.6.29 -b goldfish
  • Generate the emulator configuration (qemu emulator runs arm code, i.e. an arm config):
    make ARCH=arm goldfish_defconfig
    • if that doesn't work, try make ARCH=arm goldfish_armv7_defconfig
  • Now build the kernel using the cross compilation tools distributed with the open source project:
    make ARCH=arm CROSS_COMPILE=mydroid/prebuilt/linux-x86/toolchain/arm-eabi-4.2.1/bin/arm-eabi-
  • The kernel built this way should end up in the arch/arm/boot folder of your kernel tree (where you put the code from git clone)
  • To run the emulator with your kernel there are two alternatives, either copy it to the prebuilt kernel folder of the open source project to replace the standard kernel. The other option is to start the emulator with the kernel option set:
    emulator -kernel mydroid/kernel/common/arch/arm/boot/zImage

Note that I have used the default paths in the above description, you need to change them to what applies to your setup. It has been a some time since last time I tested this but I think it should work.

Some extra information: In the standard Android open source distribution the kernel is distributed as a pre-built binary in the mydroid/prebuilt/android-arm/kernel folder and the source code is not included. The kernel source was removed from the default manifest for two reasons as I take it. One is that it takes a lot of bandwith and diskspace for a platform component that most people will not work with much. The other reason is that since the kernel is built with the kernel build system and not as part of the aosp build system it makes sense to keep it separated. The common branch for the kernel is the one used by the emulator. There are also branches for experimental, msm (Qualcomm platforms) and Omap (TI platform) and maybe some more. If you want to use the Android kernel with hardware these may be more interesting to you.

  • 2
    Thanks for the additional info! Seeing as most of the Android documentation is in the form of google groups discussions, posts such as this are quite helpful. Jun 15, 2010 at 15:50
  • when i am trying to download kernel source , it giving me following erro : "android.git.kernel.org[0:]: errno=Connection refused fatal: unable to connect a socket (Connection refused" can u suggest me alternative path to download source.
    – CoDe
    Feb 4, 2012 at 9:55
  • The location of the emulator kernel changed with the move to android.googlesource.com after the kernel.org downtime. I have updated the post to be correct.
    – BMB
    Feb 4, 2012 at 22:06

Just to correct a few things from BMB's post (which was very useful to me, it saved my project) :

  • git clone git://android.git.kernel.org/kernel/common.git (the kernel missed) ;
  • git checkout -t origin/android-goldfish-2.6.29 -b goldfish (the same) ;
  • make ARCH=arm goldfish_defconfig (idem) ;
  • make ARCH=arm CROSS_COMPILE=mydroid/prebuilt/linux-x86/toolchain/arm-eabi-4.2.1/bin/arm-eabi- (idem)
  • emulator -avd my_avd -kernel mydroid/kernel/common/arch/arm/boot/zImage (here I added an avd in the command, it didn't work without for me).

  • 2
    Thanks for the extra info. I edited my post to include the correct kernel path, sry about that.
    – BMB
    Jul 22, 2010 at 22:07
  • How to add multiple AVD using prebuilts/devtools/tools/android script? it gives error "ava.lang.ClassNotFoundException: com.android.sdklib.repository.SdkRepoConstants"
    – Toral
    Oct 17, 2019 at 12:09

Fully automated Android 8.1 guest on Ubuntu 17.10 host

# Download the source. Takes several minutes.
curl https://storage.googleapis.com/git-repo-downloads/repo >repo
chmod a+x repo
./repo init -b android-8.1.0_r1 --depth 1 -u https://android.googlesource.com/platform/manifest
./repo sync -c  -j $(($(nproc) - 2)) --no-tags --no-clone-bundle

# Do the actual build. Takes minutes / hours.
. build/envsetup.sh
lunch aosp_x86_64-eng
USE_CCACHE=1 CCACHE_DIR=ccache make -j $(($(nproc) - 2))

# Run the emulator.
emulator -show-kernel

The out/ build directory takes up about 90Gb, and the rest of the tree about 40Gb, excluding CCACHE.

About 1-2 minutes after starting the emulator, the home screen shows:

and if you press enter on the host terminal Android was launched from, you get a shell on to the Android system on your host terminal:

enter image description here


  • ./repo init -b MUST point to a tag. master branch is always broken, and so were -release branches.

    The list of tags can be found at: https://android.googlesource.com/platform/manifest or by cloning that repo.

    There are likely two reasons why branches are always broken:

    • Android is developed behind closed doors and code dropped. Therefore Google and OEM devs already have a ton of paches on top of the public "master", and have already fixed the problem.

      For the same reason it is likely useless to try and report any build errors on master: they have already been reported and fixed. Also I dare you to even find the right official place to report build failures.

    • repo sync on a branch simply pulls whatever latest version of all 650 git repos makes up AOSP for the given branch, without syncing them like submodules. Therefore nothing guarantees that they are compatible. Tags however fetch a specific tag of all repos.

  • --depth 1 and sync -c --no-tags --no-clone-bundle were an attempt to make the painfully slow clone faster. Not sure how successful it was. See also: AOSP repo sync takes too long

  • We use lunch aosp_x86_64-eng instead of ARM because it runs much faster due to host x86 virtualization extensions including KVM.

    To build an ARM version instead, just use lunch aosp_arm-eng instead.

    Furthermore, the ARM image was buggy, possibly due to the slowness? When the GUI starts (if you are lucky), it shows "System UI isn't responding". See also: Process system isn't responding in android emulator

    All the "usual high level things" that you do in Java / C++ native APIs should just work equally on x86 and ARM in theory, so it should not matter unless you are hardcore enough to manually touch some assembly.

  • -show-kernel links the terminal to a serial, i.e. you see boot messages, and get a shell at the end, which is very useful to debug things.

  • type emulator shows that it is just an alias to the emulator without any arguments. Run custom ROM on Android Emulator asks how to pass some arguments to explicitly select your ROM.

    The emulator -help targets are surprisingly insightful:

    emulator -help
    emulator -help-build-images
    emulator -help-disk-images

    You can determine the exact QEMU command line arguments given with:

    emulator -verbose | grep 'emulator: argv'

    as mentioned at: How to show which options are passed to QEMU when launching the android emulator?

    This shows some custom options e.g. -android-hw, so they must have forked QEMU: QEMU vs Android emulator: command line options The source moves location every 5 minutes apparently: Modifying Android emulator source code

  • Can't run the emulator, it shows 'emulator: ERROR: No AVD specified'. From my perspective it should take and built image, that's why you didn't point out any avd in your command. Do you have any thoughts here?
    – Gleichmut
    Jul 20, 2018 at 9:10
  • @Gleichmut hmmm, what I remember is that the emulator alias just worked, I think it pointed to all required images. I'll double check this later, let me know if you find something out. Jul 20, 2018 at 9:16
  • BTW, also on my machine early I faced with one issue which was solved by this line export LC_ALL=C. It might be useful for someone in the future.
    – Gleichmut
    Jul 20, 2018 at 11:11
  • 1
    @Gleichmut I have just confirmed that just emulator worked on my build, the emulator GUI shows up. Did you run both . build/envsetup.sh and lunch aosp_x86_64-eng on the shell before running emulator? Jul 22, 2018 at 9:49
  • 1
    "Download the source. Takes several minutes", mirror took almost 2880 minutes on my home connection :-) Oct 17, 2019 at 8:43

This is an update for BMB and Arnaud LM's answers.
It seems the goldfish branchnames were changed as of 2011/03/03. When checking out the goldfish branch, use this:

git checkout -t origin/archive/android-gldfish-2.6.29 -b goldfish 

Note the missing 'o' in android-gldfish-2.6.29!

Hope this saves time for somebody.


As of 2012, downloading the kernel is well documented on source.google.com, however I found compiling it took a few tries. Here are the commands I used to build a kernel for the ARM emulator:

cd /kernel/source/root
make mrproper
adb pull /proc/config.gz # from the emulator
gunzip config
mv config .config  # now you have a (perhaps slightly outdated kernel .config)
make ARCH=arm silentoldconfig # update the .config - take the defaults if prompted
make ARCH=arm menuconfig # make any further changes
time make -j4 ARCH=arm CROSS_COMPILE=/path/to/android/source/prebuilt/linux-x86/toolchain/arm-eabi-4.4.3/bin/arm-eabi- 2>&1 | tee ../../logs/$(date +%Y%m%d-%H%M)-make-kernel.log
emulator -kernel /kernel/source/root/kernel/goldfish/arch/arm/boot/zImage -avd myAVD &

Thanks to all who answered this one -- I was able to do it with bits and pieces from this answer. Amaund's 'you need the AVD' was the last piece that gave me trouble.

  • That helped a lot, thanks. There's a small typo in your code though. Instead of make ARCM=arm menuconfig it's make ARCH=arm menuconfig. Found that by blindly copy and pasting and ending up with an x86 kernel ;-) Apr 1, 2013 at 21:55

That's easy. Follow the instructions at http://source.android.com/download for getting and compiling the source code for the whole android. That takes a while, but isn't that complicated.

By building that, you'll have you're output in the <android>/out directory. That includes, besides the ROM images, a bunch of tools too, including the emulator. My emulator is at <android>/out/host/linux-x86/bin/emulator. Just set an environment variable named ANDROID_PRODUCT_OUT to <android>/out/target/product/generic, and then running the emulator without any options will run your compiled ROM.

  • Were not looking to compile the emulator, were specifically looking to compile the android kernel and to take that compiled image and run it within the emulator. Nov 29, 2009 at 11:52
  • That's the way to run the compiled image of the Android source code. I'm doing this everyday. You just compile the Android source code and you'll have an emulator to run it.
    – Mostafa
    Nov 29, 2009 at 12:12
  • 2
    As we said above, were not looking to compile the source code for the emulator. Were looking to compile the ANDROID KERNEL (android.git.kernel.org) Nov 29, 2009 at 14:39
  • This answer helped me anyway :) Jan 3, 2011 at 5:26

As of May 2012, I found that you can't use the 'goldfish_defconfig' for compiling the kernel. You need to use goldfish_armv7_defconfig'. This would explain why JonnyLambada's method of extracting the config from the emulator (for the prebuilt kernel) works, and is necessary.

The goldfish_defconfig configures the kernel to run on an ARM 926 processor, but the emulator is configured to run as a Coretex A8 (which is an ARM V7 CPU). So you need to use the newer defconfig if you want it to work (or pull the config from the emulator).

Just FYI.


The way I was able to boot the AOSP rom I compiled was to copy the system.img that got compiled to ~/.android/avd/Froyo.avd/ But, when I extract the system.img and add the rooted version of su and busybox, then remake the system.img, the emulator does not boot. I'm still trying to figure that part out :S

Not the answer you're looking for? Browse other questions tagged or ask your own question.