Instructions for building xv6 on CADE servers
Xv6 is a real operating system kernel, and hence, it needs real hardware to boot. Fortunately, today we can emulate hardware in software. Programs like QEMU can emulate functionality of the real physical CPU in software. I.e., QEMU implements the normal CPU loop similar to the one we discussed in class: fetches an instruction pointed by the instruction pointer register (EIP), decodes it, performs all permission and condition checks, computes the outcome, increments EIP and continues to the next instruction. Like a real PC platform, QEMU emulates hardware boot protocol. QEMU starts by loading the disk sector number 0 into the memory location 0x7c00 and jumping to it. Xv6 takes it from there. At a high level, for xv6 it does not matter if it runs on the real hardware or under QEMU. Of course, emulation is slower than real hardware, but besides that as long as QEMU implements the logic of the CPU correctly we do not see any deviations from a real baremetal execution. Surprisingly, QEMU is reasonably fast, so you as a human barely notice the difference.
SSH into CADE
To configure your xv6 environment, login to your serverClone and build Qemu(Use bash for all the following commands)
To run xv6 we need to compile and install a version of the QEMU emulator. Default QEMU's debugging facilities, while powerful, are somewhat immature, so it is highly recommend you use a patched version of Qemu which is maintained by MIT instead of the stock version that may come with your distribution. From inside your home folder create a new directory for this class. I suggest you start in your home folder (unless you know what you're doing this is a good way to go)
cd ~ mkdir cs5460Change into this new directory
cd cs5460Clone the MIT's qemu distribution into the qemu folder
git clone https://github.com/antonburtsev/6.828-qemu.git qemuChange into qemu folder and initialize another git submodule
cd qemu git submodule update --init pixmanConfigure qemu with minimal settings and the prefix pointing to the install folder
./configure --disable-kvm --disable-werror --prefix=/home/<YourUID>/cs5460/qemu-install --target-list="i386-softmmu x86_64-softmmu"If on CADE,
./configure --disable-kvm --disable-werror --prefix=/home/<YourUID>/cs5460/qemu-install --target-list="i386-softmmu x86_64-softmmu" --python=/usr/bin/python2For example, for me this becomes:
./configure --disable-kvm --disable-werror --prefix=/home/aburtsev/cs5460/qemu-install --target-list="i386-softmmu x86_64-softmmu"Make and install qemu (this will take some time)
make -j 8 make installTo make qemu accessible from other programs add it to your path. You can either add it every time you log in to the circinus machine by exporting the PATH variable, or you can add this line to .bash_profile file in your home folder.
export PATH=$PATH:$HOME/cs5460/qemu-install/binIf you decide to add the PATH permanently to your .bash_profile the line should look something like
export PATH=$HOME/cs5460/qemu-install/bin:/sbin:/bin:/usr/sbin:/usr/bin:/usr/games:/usr/local/sbin:/usr/local/bin:/usr/X11R6/bin:$HOME/bin:$PATHAdd this line to your ~/.bash_profile and ~/.bashrc file and then restart
bash(this step is necessary if you are on CADE)
export LD_LIBRARY_PATH=/home/cs5460/usr/lib
Clone, build, and boot xv6
Change back into the cs5460 folder and clone xv6 repository.cd ~/cs5460 git clone https://github.com/mit-pdos/xv6-public.git Cloning into xv6... ...Build xv6 (you only will see a bunch of output from the make command that invokes the gcc compiler on all kernel files, links the kernel with ld, creates the kernel file system with all user-level programs that will be available inside xv6, and so on):
$ cd xv6-public $ make
You're now ready to run xv6.
$ make qemu-nox ...
You are now running xv6 on top a hardware platform that is emulated by the Qemu emulator. You are now done with the xv6 setup and can continue moving to any homeworks that are currently assigned. To exit xv6 running under QEMU you can terminate it with Ctrl-A X.
You can find more information about QEMU monitor and GDB debugger here, feel free to explore them.
Alternative ways to install xv6 if you feel like it (not required for this class)
Xv6 on your own Linux system
If you decide to use your own environment, see the instructions on the xv6 tools page for how to set up xv6. I've successfully built xv6 on my Ubuntu 14.04 LTS and later on Ubuntu 16.04 and 18.04 LTS. I had to install the following packages in order to build QEMU: libz-dev, libtool-bin, libtool, libglib2.0-dev, libpixman-1-dev, libfdt-dev.XV6 in Docker
In case you want to use run xv6 on your own machine using docker containers, you can try it out as well. I have successfully built XV6 using the grantbot/xv6 image hosted in the docker hub
In my localmachine, I downloaded the XV6 source code as follows :
localhost$ mkdir XV6_Dev localhost$ cd XV6_Dev localhost$ git clone git://github.com/mit-pdos/xv6-public.git Cloning into xv6... ...
Next, you will need to setup Docker, if you don't have it already on your machine. I followed the instructions from here. You will find similar instructions for other OS as well in the docker website. Once you have the setup ready, download the grantbot/xv6 image using
docker pull grantbot/xv6
Then you can start the container using
docker run -v '/{Path to local XV6 folder}/XV6_Dev':/home/a/XV6_Dev/ -i -t grantbot/xv6
Once you have the bash prompt you can type the following to start XV6,
cd ~/XV6_Dev/ make qemu-nox