Skip to content

Latest commit

 

History

History
96 lines (73 loc) · 4.92 KB

README.md

File metadata and controls

96 lines (73 loc) · 4.92 KB

Verified Causal Broadcast with Liquid Haskell

Implementation of causal broadcast inspired by the CBCAST protocol from Lightweight Causal and Atomic Group Multicast [doi:10.1145/128738.128742, pdf]. Verification of causal delivery with Liquid Haskell, described in our paper Verified Causal Broadcast with Liquid Haskell [arXiv:2206.14767, pdf].

Use the library

The implementation is suitable for inclusion in real world projects, except for the known caveats of the algorithm, namely that the set of processes (view) cannot change during runtime. There is a client library module, CBCAST for clients that don't use Liquid Haskell, and an example key value server. Both have extensive docstring comments. If your project uses Liquid Haskell, you could probably import the internal modules CBCAST.{Core,Transitions}. Finally, the deploy directory readme has NixOps scripts for deployment on AWS.

Read the proof

To follow the proof that applying operations to processes in an execution preserves causal delivery (CD), we suggest:

  • The top level theorem and proof are in CBCAST/Verification/Global/CDpresXStep.hs: The theorem trcCDpres states that for all CD-observing executions, applying an arbitrary list of operations to processes in the execution obtains a CD-observing execution.

    • The definition of CD is in CBCAST/Verification/Global/Core.hs: The definition CausalDelivery r N X states that for some number of processes N and some execution X, for all process identifiers p_id in X, and messages m₁ and m₂ delivered at X p_id with m₁ happens-before m₂, X p_id delivers m₁ before m₂.

    • The definition of CD-preservation is in CBCAST/Verification/Global/CDpresXStep.hs: The definition CDpreservation r N F states that for some number of processes N and function F, for all CD-observing executions x, the execution F x is CD-observing.

    • An execution (Xsized r N) is a function (or mapping), for some number of processes N, from a process identifier on [0,N) to a process with that identifier in CBCAST/Verification/Global/Core.hs.

    • Happens before () is an uninterpreted predicate on two events in an execution. We provide the axiom preserveHB which says e → e' ⇒ VC(e) < VC(e') and reflectHB which says VC(e) < VC(e') ⇒ e → e' in CBCAST/Verification/Global/Core.hs.

This relies on our work showing that applying operations to a single process preserves process-local causal delivery (PLCD).

  • The top level theorem and proof are in CBCAST/Verification/PLCDpresStep.hs: The theorem trcPLCDpres states that for all PLCD-observing processes, applying an arbitrary list of operations to the process obtains a PLCD-observing process.

    • The definition of PLCD is in CBCAST/Verification/PLCD.hs: The definition PLCD r N PROC states that for some number of processes N and some process PROC, for all messages m₁ and m₂ delivered at PROC with sent-VC of m₁ less-than sent-VC of m₂, PROC delivers m₁ before m₂.

    • The definition of PLCD-preservation is in CBCAST/Verification/PLCDpres.hs: The definition PLCDpreservation r N F states that for some number of processes N and some function F, for all PLCD-observing processes p, the process F p is PLCD-observing.

Proof diagram

Here's a diagram of the important components of the proof. Purple theorems are concerned with global properties of an execution, blue theorems assist with translating between process-local and global-execution properties, and yellow theorems are concerned with process local properties. Dashed arrows indicate inclusion via lemmas.

Proof diagram

Build the project

Compiling the project will run the Liquid Haskell verification as a GHC plugin. It normally takes about 4 minutes (on a 2015 MacBookPro). To skip the verification and just build the code, you can turn off the Liquid Haskell plugin in package.yaml.

Stack

  • For most systems, stack build should do the trick.

NixOS/Nix

  • Use nix-shell to enter a development environment or use nix-build to build the project.
  • Flake commands work too.