tvl-depot/presentations/bootstrapping-2018/presentation.tex

\documentclass[12pt]{beamer}
\usetheme{metropolis}
\newenvironment{code}{\ttfamily}{\par}
\title{Where does \textit{your} compiler come from?}
\date{2018-03-13}
\author{Vincent Ambo}
\institute{Norwegian Unix User Group}
\begin{document}
  \maketitle

  %% Slide 1:
  \section{Introduction}

  %% Slide 2:
  \begin{frame}{Chicken and egg}
    Self-hosted compilers are often built using themselves, for example:

    \begin{itemize}
    \item C-family compilers bootstrap themselves \& each other
    \item (Some!) Common Lisp compilers can bootstrap each other
    \item \texttt{rustc} bootstraps itself with a previous version
    \item ... same for many other languages!
    \end{itemize}
  \end{frame}

  \begin{frame}{Chicken, egg and ... lizard?}
    It's not just compilers: Languages have runtimes, too.

    \begin{itemize}
    \item JVM is implemented in C++
    \item Erlang-VM is C
    \item Haskell runtime is C
    \end{itemize}

    ... we can't ever get away from C, can we?
  \end{frame}

  %% Slide 3:
  \begin{frame}{Trusting Trust}
    \begin{center}
      \huge{Could this be exploited?}
    \end{center}
  \end{frame}

  %% Slide 4:
  \begin{frame}{Short interlude: A quine}
    \begin{center}
      \begin{code}
        ((lambda (x) (list x (list 'quote x)))
        \newline\vspace*{6mm} '(lambda (x) (list x (list 'quote x))))
      \end{code}
    \end{center}
  \end{frame}

  %% Slide 5:
  \begin{frame}{Short interlude: Quine Relay}
    \begin{center}
      \includegraphics[
        keepaspectratio=true,
        height=\textheight
      ]{quine-relay.png}
    \end{center}
  \end{frame}

  %% Slide 6:
  \begin{frame}{Trusting Trust}
    An attack described by Ken Thompson in 1983:

    \begin{enumerate}
    \item Modify a compiler to detect when it's compiling itself.
    \item Let the modification insert \textit{itself} into the new compiler.
    \item Add arbitrary attack code to the modification.
    \item \textit{Optional!} Remove the attack from the source after compilation.
    \end{enumerate}
  \end{frame}

  %% Slide 7:
  \begin{frame}{Damage potential?}
    \begin{center}
      \large{Let your imagination run wild!}
    \end{center}
  \end{frame}

  %% Slide 8:
  \section{Countermeasures}

  %% Slide 9:
  \begin{frame}{Diverse Double-Compiling}
    Assume we have:

    \begin{itemize}
    \item Target language compilers $A$ and $T$
    \item The source code of $A$: $ S_{A} $
    \end{itemize}
  \end{frame}

  %% Slide 10:
  \begin{frame}{Diverse Double-Compiling}
    Apply the first stage (functional equivalence):

    \begin{itemize}
    \item $ X = A(S_{A})$
    \item $ Y = T(S_{A})$
    \end{itemize}

    Apply the second stage (bit-for-bit equivalence):

    \begin{itemize}
    \item $ V = X(S_{A})$
    \item $ W = Y(S_{A})$
    \end{itemize}

    Now we have a new problem: Reproducibility!
  \end{frame}

  %% Slide 11:
  \begin{frame}{Reproducibility}
    Bit-for-bit equivalent output is hard, for example:

    \begin{itemize}
    \item Timestamps in output artifacts
    \item Non-deterministic linking order in concurrent builds
    \item Non-deterministic VM \& memory states in outputs
    \item Randomness in builds (sic!)
    \end{itemize}
  \end{frame}

  \begin{frame}{Reproducibility}
    \begin{center}
      Without reproducibility, we can never trust that any shipped
      binary matches the source code!
    \end{center}
  \end{frame}

  %% Slide 12:
  \section{(Partial) State of the Union}

  \begin{frame}{The Desired State}
    \begin{center}
      \begin{enumerate}
      \item Full-source bootstrap!
      \item All packages reproducible!
      \end{enumerate}
    \end{center}
  \end{frame}

  %% Slide 13:
  \begin{frame}{Bootstrapping Debian}
    \begin{itemize}
    \item Sparse information on the Debian-wiki
    \item Bootstrapping discussions mostly resolve around new architectures
    \item GCC is compiled by depending on previous versions of GCC
    \end{itemize}
  \end{frame}

  \begin{frame}{Reproducing Debian}
    Debian has a very active effort for reproducible builds:

    \begin{itemize}
    \item Organised information about reproducibility status
    \item Over 90\% reproducibility in Debian package base!
    \end{itemize}
  \end{frame}

  \begin{frame}{Short interlude: Nix}
    \begin{center}
      \includegraphics[
        keepaspectratio=true,
        height=0.7\textheight
      ]{nixos-logo.png}
    \end{center}
  \end{frame}

  \begin{frame}{Short interlude: Nix}
    \begin{center}
      \includegraphics[
        keepaspectratio=true,
        height=0.90\textheight
      ]{drake-meme.png}
    \end{center}
  \end{frame}

  \begin{frame}{Short interlude: Nix}
    \begin{center}
      \includegraphics[
        keepaspectratio=true,
        height=0.7\textheight
      ]{nixos-logo.png}
    \end{center}
  \end{frame}

  \begin{frame}{Bootstrapping NixOS}
    Nix evaluation can not recurse forever: The bootstrap can not
    simply depend on a previous GCC.

    Workaround: \texttt{bootstrap-tools} tarball from a previous
    binary cache is fetched and used.

    An unfortunate magic binary blob ...
  \end{frame}

  \begin{frame}{Reproducing NixOS}
    Not all reproducibility patches have been ported from Debian.

    However: Builds are fully repeatable via the Nix fundamentals!
  \end{frame}

  \section{Future Developments}

  \begin{frame}{Bootstrappable: stage0}
    Hand-rolled ``Cthulhu's Path to Madness'' hex-programs:

    \begin{itemize}
    \item No non-auditable binary blobs
    \item Aims for understandability by 70\% of programmers
    \item End goal is a full-source bootstrap of GCC
    \end{itemize}
  \end{frame}


  \begin{frame}{Bootstrappable: MES}
    Bootstrapping the ``Maxwell Equations of Software'':

    \begin{itemize}
    \item Minimal C-compiler written in Scheme
    \item Minimal Scheme-interpreter (currently in C, but intended to
      be rewritten in stage0 macros)
    \item End goal is full-source bootstrap of the entire GuixSD
    \end{itemize}
  \end{frame}

  \begin{frame}{Other platforms}
    \begin{itemize}
    \item Nix for Darwin is actively maintained
    \item F-Droid Android repository works towards fully reproducible
      builds of (open) Android software
    \item Mobile devices (phones, tablets, etc.) are a lost cause at
      the moment
    \end{itemize}
  \end{frame}

  \begin{frame}{Thanks!}
    Resources:
    \begin{itemize}
    \item bootstrappable.org
    \item reproducible-builds.org
    \end{itemize}

    @tazjin | mail@tazj.in
  \end{frame}
\end{document}
feat(slides): Add iniital presentation 2018-03-12 01:09:00 +01:00			`\documentclass[12pt]{beamer}`
			`\usetheme{metropolis}`
			`\newenvironment{code}{\ttfamily}{\par}`
			`\title{Where does \textit{your} compiler come from?}`
			`\date{2018-03-13}`
			`\author{Vincent Ambo}`
			`\institute{Norwegian Unix User Group}`
			`\begin{document}`
			`\maketitle`

			`%% Slide 1:`
			`\section{Introduction}`

			`%% Slide 2:`
			`\begin{frame}{Chicken and egg}`
			`Self-hosted compilers are often built using themselves, for example:`

			`\begin{itemize}`
			`\item C-family compilers bootstrap themselves \& each other`
			`\item (Some!) Common Lisp compilers can bootstrap each other`
			`\item \texttt{rustc} bootstraps itself with a previous version`
			`\item ... same for many other languages!`
			`\end{itemize}`
			`\end{frame}`

feat(slides): Add slide about runtimes All the slide number comments are now off, but oh well. 2018-03-13 16:56:54 +01:00			`\begin{frame}{Chicken, egg and ... lizard?}`
			`It's not just compilers: Languages have runtimes, too.`

			`\begin{itemize}`
			`\item JVM is implemented in C++`
			`\item Erlang-VM is C`
			`\item Haskell runtime is C`
			`\end{itemize}`

			`... we can't ever get away from C, can we?`
			`\end{frame}`

feat(slides): Add iniital presentation 2018-03-12 01:09:00 +01:00			`%% Slide 3:`
			`\begin{frame}{Trusting Trust}`
			`\begin{center}`
fix(slides): Minor last-minute fixups 2018-03-13 16:21:12 +01:00			`\huge{Could this be exploited?}`
feat(slides): Add iniital presentation 2018-03-12 01:09:00 +01:00			`\end{center}`
			`\end{frame}`

			`%% Slide 4:`
			`\begin{frame}{Short interlude: A quine}`
			`\begin{center}`
			`\begin{code}`
			`((lambda (x) (list x (list 'quote x)))`
			`\newline\vspace*{6mm} '(lambda (x) (list x (list 'quote x))))`
			`\end{code}`
			`\end{center}`
			`\end{frame}`

			`%% Slide 5:`
			`\begin{frame}{Short interlude: Quine Relay}`
			`\begin{center}`
			`\includegraphics[`
			`keepaspectratio=true,`
			`height=\textheight`
			`]{quine-relay.png}`
			`\end{center}`
			`\end{frame}`

			`%% Slide 6:`
			`\begin{frame}{Trusting Trust}`
fix(slides): Minor last-minute fixups 2018-03-13 16:21:12 +01:00			`An attack described by Ken Thompson in 1983:`
feat(slides): Add iniital presentation 2018-03-12 01:09:00 +01:00
			`\begin{enumerate}`
			`\item Modify a compiler to detect when it's compiling itself.`
			`\item Let the modification insert \textit{itself} into the new compiler.`
			`\item Add arbitrary attack code to the modification.`
feat(slides): Highlight importance of reproducibility 2018-03-13 00:18:54 +01:00			`\item \textit{Optional!} Remove the attack from the source after compilation.`
feat(slides): Add iniital presentation 2018-03-12 01:09:00 +01:00			`\end{enumerate}`
			`\end{frame}`

			`%% Slide 7:`
			`\begin{frame}{Damage potential?}`
			`\begin{center}`
fix(slides): Minor last-minute fixups 2018-03-13 16:21:12 +01:00			`\large{Let your imagination run wild!}`
feat(slides): Add iniital presentation 2018-03-12 01:09:00 +01:00			`\end{center}`
			`\end{frame}`
feat(slides): Add slides about DDC 2018-03-12 01:53:26 +01:00
			`%% Slide 8:`
			`\section{Countermeasures}`

			`%% Slide 9:`
			`\begin{frame}{Diverse Double-Compiling}`
			`Assume we have:`

			`\begin{itemize}`
			`\item Target language compilers $A$ and $T$`
			`\item The source code of $A$: $ S_{A} $`
			`\end{itemize}`
			`\end{frame}`

			`%% Slide 10:`
			`\begin{frame}{Diverse Double-Compiling}`
			`Apply the first stage (functional equivalence):`

			`\begin{itemize}`
			`\item $ X = A(S_{A})$`
			`\item $ Y = T(S_{A})$`
			`\end{itemize}`

			`Apply the second stage (bit-for-bit equivalence):`

			`\begin{itemize}`
			`\item $ V = X(S_{A})$`
			`\item $ W = Y(S_{A})$`
			`\end{itemize}`

			`Now we have a new problem: Reproducibility!`
			`\end{frame}`
feat(slides): Add slide about reproducibility 2018-03-12 02:21:56 +01:00
			`%% Slide 11:`
			`\begin{frame}{Reproducibility}`
			`Bit-for-bit equivalent output is hard, for example:`

			`\begin{itemize}`
			`\item Timestamps in output artifacts`
			`\item Non-deterministic linking order in concurrent builds`
feat(slides): Add outline of remaining slides 2018-03-12 22:20:47 +01:00			`\item Non-deterministic VM \& memory states in outputs`
feat(slides): Add slide about reproducibility 2018-03-12 02:21:56 +01:00			`\item Randomness in builds (sic!)`
			`\end{itemize}`
			`\end{frame}`

feat(slides): Highlight importance of reproducibility 2018-03-13 00:18:54 +01:00			`\begin{frame}{Reproducibility}`
			`\begin{center}`
			`Without reproducibility, we can never trust that any shipped`
			`binary matches the source code!`
			`\end{center}`
			`\end{frame}`

feat(slides): Add slide about reproducibility 2018-03-12 02:21:56 +01:00			`%% Slide 12:`
feat(slides): Add outline of remaining slides 2018-03-12 22:20:47 +01:00			`\section{(Partial) State of the Union}`

feat(slides): Current & desired state of Debian 2018-03-13 00:19:18 +01:00			`\begin{frame}{The Desired State}`
			`\begin{center}`
			`\begin{enumerate}`
			`\item Full-source bootstrap!`
			`\item All packages reproducible!`
			`\end{enumerate}`
			`\end{center}`
			`\end{frame}`

			`%% Slide 13:`
feat(slides): Add outline of remaining slides 2018-03-12 22:20:47 +01:00			`\begin{frame}{Bootstrapping Debian}`
feat(slides): Current & desired state of Debian 2018-03-13 00:19:18 +01:00			`\begin{itemize}`
			`\item Sparse information on the Debian-wiki`
			`\item Bootstrapping discussions mostly resolve around new architectures`
feat(slides): Add NixOS slides 2018-03-13 00:39:15 +01:00			`\item GCC is compiled by depending on previous versions of GCC`
feat(slides): Current & desired state of Debian 2018-03-13 00:19:18 +01:00			`\end{itemize}`
			`\end{frame}`

			`\begin{frame}{Reproducing Debian}`
			`Debian has a very active effort for reproducible builds:`
feat(slides): Add outline of remaining slides 2018-03-12 22:20:47 +01:00
feat(slides): Current & desired state of Debian 2018-03-13 00:19:18 +01:00			`\begin{itemize}`
			`\item Organised information about reproducibility status`
			`\item Over 90\% reproducibility in Debian package base!`
			`\end{itemize}`
feat(slides): Add outline of remaining slides 2018-03-12 22:20:47 +01:00			`\end{frame}`

feat(slides): Nix logo & drake meme 2018-03-13 00:19:42 +01:00			`\begin{frame}{Short interlude: Nix}`
			`\begin{center}`
			`\includegraphics[`
			`keepaspectratio=true,`
			`height=0.7\textheight`
			`]{nixos-logo.png}`
			`\end{center}`
			`\end{frame}`

			`\begin{frame}{Short interlude: Nix}`
			`\begin{center}`
			`\includegraphics[`
			`keepaspectratio=true,`
			`height=0.90\textheight`
			`]{drake-meme.png}`
			`\end{center}`
			`\end{frame}`
feat(slides): Add outline of remaining slides 2018-03-12 22:20:47 +01:00
fix(slides): Minor last-minute fixups 2018-03-13 16:21:12 +01:00			`\begin{frame}{Short interlude: Nix}`
			`\begin{center}`
			`\includegraphics[`
			`keepaspectratio=true,`
			`height=0.7\textheight`
			`]{nixos-logo.png}`
			`\end{center}`
			`\end{frame}`

feat(slides): Add NixOS slides 2018-03-13 00:39:15 +01:00			`\begin{frame}{Bootstrapping NixOS}`
			`Nix evaluation can not recurse forever: The bootstrap can not`
			`simply depend on a previous GCC.`

fix(slides): Minor rewording 2018-03-13 16:57:09 +01:00			`Workaround: \texttt{bootstrap-tools} tarball from a previous`
			`binary cache is fetched and used.`
feat(slides): Add NixOS slides 2018-03-13 00:39:15 +01:00
			`An unfortunate magic binary blob ...`
feat(slides): Add outline of remaining slides 2018-03-12 22:20:47 +01:00			`\end{frame}`

feat(slides): Add NixOS slides 2018-03-13 00:39:15 +01:00			`\begin{frame}{Reproducing NixOS}`
			`Not all reproducibility patches have been ported from Debian.`
feat(slides): Add outline of remaining slides 2018-03-12 22:20:47 +01:00
feat(slides): Add NixOS slides 2018-03-13 00:39:15 +01:00			`However: Builds are fully repeatable via the Nix fundamentals!`
feat(slides): Add outline of remaining slides 2018-03-12 22:20:47 +01:00			`\end{frame}`

feat(slides): Add slides about MES and stage0 2018-03-13 00:48:15 +01:00			`\section{Future Developments}`

			`\begin{frame}{Bootstrappable: stage0}`
			Hand-rolled ``Cthulhu's Path to Madness'' hex-programs:

			`\begin{itemize}`
			`\item No non-auditable binary blobs`
			`\item Aims for understandability by 70\% of programmers`
			`\item End goal is a full-source bootstrap of GCC`
			`\end{itemize}`
			`\end{frame}`


			`\begin{frame}{Bootstrappable: MES}`
			Bootstrapping the ``Maxwell Equations of Software'':

			`\begin{itemize}`
			`\item Minimal C-compiler written in Scheme`
			`\item Minimal Scheme-interpreter (currently in C, but intended to`
			`be rewritten in stage0 macros)`
			`\item End goal is full-source bootstrap of the entire GuixSD`
			`\end{itemize}`
feat(slides): Add outline of remaining slides 2018-03-12 22:20:47 +01:00			`\end{frame}`

			`\begin{frame}{Other platforms}`
feat(slides): Add slides about MES and stage0 2018-03-13 00:48:15 +01:00			`\begin{itemize}`
			`\item Nix for Darwin is actively maintained`
fix(slides): Minor last-minute fixups 2018-03-13 16:21:12 +01:00			`\item F-Droid Android repository works towards fully reproducible`
			`builds of (open) Android software`
feat(slides): Add slides about MES and stage0 2018-03-13 00:48:15 +01:00			`\item Mobile devices (phones, tablets, etc.) are a lost cause at`
			`the moment`
			`\end{itemize}`
			`\end{frame}`

			`\begin{frame}{Thanks!}`
			`Resources:`
			`\begin{itemize}`
			`\item bootstrappable.org`
			`\item reproducible-builds.org`
			`\end{itemize}`
feat(slides): Add outline of remaining slides 2018-03-12 22:20:47 +01:00
feat(slides): Add slides about MES and stage0 2018-03-13 00:48:15 +01:00			`@tazjin \| mail@tazj.in`
feat(slides): Add outline of remaining slides 2018-03-12 22:20:47 +01:00			`\end{frame}`
feat(slides): Add iniital presentation 2018-03-12 01:09:00 +01:00			`\end{document}`