Setup

To develop the Pintos projects, you’ll need two essential sets of tools:

  • 80x86 cross-compiler toolchain for 32-bit architecture including a C compiler, assembler, linker, and debugger.
  • x86 emulator, QEMU or Bochs

The CS department’s lab machines already have these tools available under /usr/local/data/cs318/x86_64. You just need to modify your PATH setting to include it. For Bash, that is to put the following at the end of your ~/.bash_profile:

export PATH=/usr/local/data/cs318/x86_64/bin:$PATH

For tcsh (the default login shell in ugrad lab machines in the CS department), the syntax is different: add set path = (/usr/local/data/cs318/x86_64/bin $path) to the end of your ~/.tcshrc. Log out and re-login to let it take effect.

Besides the lab machines, you may want to work on the projects on your own machines to be more productive. This page contains instructions to help you with the setup of the core development environment needed for Pintos on your own machines. They are intended for Unix and Mac OS machines. If you are running Windows, we recommend you to run a virtual machine with Linux or you will have to setup Cygwin first. This guide, and the course in general, assumes you are familiar with Unix commands.

Compiler toolchain

The compiler toolchain are a collection of tools that turns source code into executable binaries for a target architecture. Pintos is written in C and x86 assembly, and runs on 32-bit 80x86 machines. So we will need the C compiler (gcc), assembler (as), linker (ld) and debugger (gdb). Your machines are probably equipped with these tools already. But they should support 32-bit x86 architecture. A quick test of the support is to run objdump -i | grep elf32-i386 in the terminal. If it returns matching lines, your system’s default tool chain supports the target so you can skip this section. Otherwise, you will need to build the toolchain from source. To distinguish the new toolchain from your system’s default one, we will add a i386-elf- prefix to the build target, e.g., i386-elf-gcc, i386-elf-as.

Note
We've provided a script (pintos/src/misc/toolchain-build.sh) that automates the following building instructions. So you can just run the script and modify your PATH setting after the build finishes. The script has been tested on recent version of Ubuntu, Mac OS and Fedora.
  • Prerequisite:
    • standard build tools including make, gcc, etc.. For Ubuntu, they are the build-essential package.
    • in building GDB, you may encounter errors due to missing the ncurses and textinfo libraries. For Ubuntu, you can install them with sudo apt-get install libncurses5-dev texinfo.
    • wget
  • Directory and environment variables: First, create a setup directory (e.g., ~/318/toolchain) and subdirectories that look like this:
    /path/to/setup
    ├── build
    ├── x86_64
    └── src
    

    Then, set the environment variables (remember to replace /path/to/setup with the full path to the actual setup directory you’ve created, e.g., SWD=/home/ryan/318/toolchain).

    $ SWD=/path/to/setup
    $ PREFIX=$SWD/x86_64
    $ export PATH=$PREFIX/bin:$PATH
    $ export LD_LIBRARY_PATH=$PREFIX/lib:$LD_LIBRARY_PATH
    

    For Mac users, the last command is export DYLD_LIBRARY_PATH=$PREFIX/lib:$DYLD_LIBRARY_PATH instead.

  • GNU binutils:
    • Download:
      $ cd $SWD/src 
      $ wget https://ftp.gnu.org/gnu/binutils/binutils-2.27.tar.gz && tar xzf binutils-2.27.tar.gz
      
    • Build:
      $ mkdir -p $SWD/build/binutils && cd $SWD/build/binutils
      $ ../../src/binutils-2.27/configure --prefix=$PREFIX --target=i386-elf \
      --disable-multilib --disable-nls --disable-werror
      $ make -j8
      $ make install
      
  • GCC:
    • Download:
      $ cd $SWD/src
      $ wget https://ftp.gnu.org/gnu/gcc/gcc-6.2.0/gcc-6.2.0.tar.bz2 && tar xjf gcc-6.2.0.tar.bz2
      $ cd $SWD/src/gcc-6.2.0 && contrib/download_prerequisites
      
    • Build:
      $ mkdir -p $SWD/build/gcc && cd $SWD/build/gcc
      $ ../../src/gcc-6.2.0/configure --prefix=$PREFIX --target=i386-elf \
      --disable-multilib --disable-nls --disable-werror --disable-libssp \
      --disable-libmudflap --with-newlib --without-headers --enable-languages=c,c++
      $ make -j8 all-gcc 
      $ make install-gcc
      $ make all-target-libgcc
      $ make install-target-libgcc
      
  • GDB:
    • Download:
      $ cd $SWD/src
      $ wget https://ftp.gnu.org/gnu/gdb/gdb-7.9.1.tar.xz  && tar xJf gdb-7.9.1.tar.xz
      
    • Build:
      $ mkdir -p $SWD/build/gdb && cd $SWD/build/gdb
      $ ../../src/gdb-7.9.1/configure --prefix=$PREFIX --target=i386-elf --disable-werror
      $ make -j8
      $ make install
      
Note
After building and installing the toolchain, you need to make sure they are in the PATH. Put export PATH=/path/to/swd/x86_64/bin:$PATH to the end of your terminal config file (e.g., .bash_profile) so that they are set automatically when you login. Remember to replace /path/to/swd/x86_64/bin with the actual path, e.g., ~/318/toolchain/x86_64/bin. You may also want to delete the source and build directories in /path/to/swd/{src,build} to save space.

x86 Emulator

  • QEMU:
    • QEMU is modern and fast. You can either install it from the package repository or build it from source.
      sudo apt-get install qemu libvirt-bin
      
  • Bochs:
    • Bochs is slower than QEMU but provides full emulation (i.e., higher accuracy). For Lab 1, we will use Bochs as the default emulator and for Lab 2-4, we will use QEMU as the default emulator. Nevertheless, nothing will prevent you from using one or another for all the labs. There are some bugs in Bochs that should be fixed when using it with Pintos. Thus, we need to install Bochs from source, and apply the patches that we have provided under pintos/src/misc/bochs*.patch. We will build two versions of Bochs: one, simply named bochs, with the GDB stub enabled, and the other, named bochs-dbg, with the built-in debugger enabled.

    • Version 2.6.2 has been tested to work with Pintos. Newer version of Bochs has not been tested. We have provided a build script pintos/src/misc/bochs-2.6.2-build.sh that will download, patch and build two versions of the Bochs for you. But you need to make sure X11 and its library is installed. For Mac OS, you should install XQuartz. For Ubuntu, you should have libx11-dev and libxrandr-dev installed.

    • After build succeeds, make sure the bochs or bochs-db are in PATH. You can verify the install with bochs --version.

Pintos Utility Tools

The Pintos source distribution comes with a few handy scripts that you will be using frequently. They are located within src/utils/. The most important one is the pintos Perl script, which you will be using to start and run tests in pintos. You need to make sure it can be found in your PATH environment variable. In addition, the src/misc/gdb-macros is provided with a number of GDB macros that you will find useful when you are debugging Pintos. The pintos-gdb is a wrapper around the i386-elf-gdb that reads this macro file at start. It assumes the macro file resides in ../misc.

The example commands to do the above setup for the Pintos utilities are: (replace /path/to/swd/x86_64 with the actual directory path)

$ cd pintos/src/utils && make
$ cp backtrace pintos Pintos.pm pintos-gdb pintos-set-cmdline pintos-mkdisk setitimer-helper squish-pty squish-unix /path/to/swd/x86_64/bin
$ mkdir /path/to/swd/x86_64/misc
$ cp pintos/src/gdb-macros /path/to/swd/misc

Others

  • Required: Perl. Version 5.8.0 or later.
  • Recommended:
  • Optional:
    • GUI IDEs like Eclipse CDT or clion. The instructor has not tried them. Vim or Emacs plus the standard Unix development tools would suffice for the course. But if you can’t live without GUI IDEs. You may explore the setup yourself (potential reference) and let us know if they are helpful!