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DESCRIPTION
This folder contains the Coq development for
Iris: Monoids and Invariants as an Orthogonal Basis for Concurrent Reasoning
by
Ralf Jung <jung@mpi-sws.org>
David Swasey <swasey@mpi-sws.org>
Filip Sieczkowski <filips@cs.au.dk>
Kasper Svendsen <ksvendsen@cs.au.dk>
Aaron Turon <turon@mpi-sws.org>
Lars Birkedal <birkedal@cs.au.dk>
Derek Dreyer <dreyer@mpi-sws.org>
CONTENTS
Our artifact is a Coq formalization of the model of our Iris logic,
together with a proof of adequacy (establishing that the model is
faithful wrt the operational semantics) and a proof of soundness of
NOTE: We have just mechanized the *soundness* of the *primitive*
rules of Iris in Coq. We have not mechanized the proofs of derived
rules (i.e. those derivable from the primitive rules), nor have we
mechanized the case study or other examples that are proven within
the logic. Proof outlines for the latter are given in the appendix
that accompanied the POPL submission, and will be fleshed out even
further for the final version of the appendix.
The reason we focused on the primitive rules is that those are the
rules whose soundness is proven by direct appeal to the semantic
model of Iris. For space reasons, we did not want to present the
semantic model of Iris in any detail in the paper, but we still
wanted to give the reader confidence in the results of the paper.
With our Coq mechanization in hand, the reader can safely ignore the
semantic model and instead focus on how to *use* the primitive rules
of the logic (to derive more sophisticated rules or prove
interesting examples).
Mechanizing Iris proofs is a very interesting and important
direction for future work, but it is beyond the scope of the paper.
* core_lang.v contains the axioms about the language
* lang.v defines the threadpool reduction and derives some lemmas
from core_lang.v
* masks.v introduces some lemmas about masks
* world_prop.v uses the ModuRes Coq library to construct the domain
for Iris propositions
* iris.v is the main file and contains the actual logic and the
proof of the rules for view shifts and Hoare triples
The development uses ModuRes, a Coq library by Sieczkowski et al. to
solve the recursive domain equation (see the paper for a reference)
and prove some of the standard separation logic rules. It is located
in the lib/ subdirectory.
We have tested the development using Coq v. 8.4pl4 on Linux and Mac
machines with at least 8GB RAM + 4GB swap. The entire compilation
took around 3 hours.
HOW TO COMPILE
To compile the development, run
> make
in the folder containing this README.
Be aware that iris.v takes a long time to check and needs
significant amounts of RAM!
Below we give a mapping from proof rules in the paper to Coq lemma's
in Iris.v.
RULE Coq lemma
-----------------------
VSTimeless vsTimeless
NewInv vsNewInv
Ret htRet
Bind htBind
Frame htFrame
The main adequacy result is expressed by Theorem soundness_obs.