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FP
Stacked Borrows Coq
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fdfe3232
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fdfe3232
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Oct 09, 2019
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Hai Dang
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README.md
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fdfe3232
# STACKED BORROWS  ARTIFACT
# STACKED BORROWS  ARTIFACT
## Technical Appendix
## HOW TO START
The technical appendix in
`appendix.pdf`
contains a complete coherent
description of the Stacked Borrows semantics, as well as the definition of our
key simulation relation that we used for the Coq formalization.
## Rust Counterexamples and Miri
You can run the counterexamples from the paper in Rust by clicking the following links, and then selecting "Run".
You can also run them in Miri via "Tools"  "Miri", which will show a Stacked Borrows violation.
*
[
`example1`
](
https://play.rustlang.org/?version=stable&mode=release&edition=2018&gist=18e6931728976779452f0d489f59a71c
)
*
[
`example2`
](
https://play.rustlang.org/?version=stable&mode=release&edition=2018&gist=85f368db00a789caa08e2b6960ebaf01
)
*
[
`example2_down`
](
https://play.rustlang.org/?version=stable&mode=release&edition=2018&gist=66c928ddf745a779272a73262b921a56
)
## Coq Formalization
We have given informal proof sketches of optimizations based on Stacked Borrows
in the paper. To further increase confidence in the semantics, we formalized
these arguments in Coq (about 14KLOC). We have carried out the proofs of the
transformations mentioned in the paper:
`example1`
,
`example2`
,
`example2_down`
,
`example3_down`
; as well as two more variants to complete the picture,
`example1_down`
and
`example3`
.
###
What to look for
###
# Use a VM
The directory structure is as follows:
A VM that comes with precompiled sources is provided, so that you can start the inspection immediately.
*
`theories/lang`
: Definitions and properties of the language.

The language syntax is defined in
`lang/lang_base.v`
.

The expression and heap semantics is defined in
`lang/expr_semantics.v`
.

The semantics of Stacked Borrows itself is in
`lang/bor_semantics.v`
.

The complete language is then combined in
`lang/lang.v`
.
*
`theories/sim`
: The simulation framework and its adequacy proofs.

The local simulation definition is in
`sim/local.v`
.

It is then lifted up to the global simulation definition in
`sim/global.v`
.

Adequacy (that the simulation implies behavior inclusion) is in
`sim/local_adequacy.v`
,
`sim/global_adequacy.v`
, and
`sim/program.v`
.

Properties of the simulation with respect to the operational semantics are
proven in
`sim/body.v`
,
`sim/refl_pure_step.v`
,
`sim/refl_mem_step.v`
,
`sim/left_step.v`
,
`sim/right_step.v`
.

The main invariant needed for these properties is defined in
`sim/invariant.v`
.

In
`sim/simple.v`
, we define an easiertouse but less powerful derived simulation relation.

The fundamental property that the simulation is reflexive for wellformed terms is proven in
`sim/refl.v`
.
*
`theories/opt`
: Proofs of optimizations.
For example, `theories/opt/ex1.v` provides the proof that the optimized
program refines the behavior of the unoptimized program, where the optimized
program simply replaces the unoptimized one's `ex1_unopt` function with the
`ex1_opt` function.
For this proof, we need to show that (1) `ex1_opt` refines `ex1_unopt`, and (2) all other unchanged functions refine themselves.
The proof of (1) is in the Lemma `ex1_sim_fun`.
The proof of (2) is the reflexivity of our simulation relation for wellformed programs, provided in `theories/sim/refl.v`.

For
`example1`
(Section 3.4 in the paper), see
`opt/ex1.v`
;
`example1_down`
did not appear in the paper but we verified it in
`opt/ex1_down.v`
.
*
[
artifact.ova
](
artifact.ova
)
can be imported in to VirtualBox.

For
`example2`
(Section 3.6) and
`example2_down`
(Section 4), see
`opt/ex2.v`
and
`opt/ex2_down.v`
, respectively.
Please give it at least 4GB of RAM.

For
`example3_down`
(Section 4), see
`opt/ex3_down.v`
;
`example3`
did not appear in the paper but we verified it in
`opt/ex3.v`
.
*
The username/password are both
`artifact`
. After logging in with
`artifact`
,
please navigate to
`~/sources`
for the precompiled Coq sources.
*
The VM is a minimal Debian 10, preinstalled with
`coq`
and
`coqide`
8.9.1.
### How to build
If you want to install extra packages, the
`root`
password is also
`artifact`
(please use
`su`
as
`sudo`
is not installed).
#### Build dependencies (via opam)
#### Build dependencies (via opam)
...
@@ 86,3 +40,92 @@ See the [opam](opam) file for the exact versions you need.
...
@@ 86,3 +40,92 @@ See the [opam](opam) file for the exact versions you need.
Once the dependencies are installed, you can
`make jN`
the development,
Once the dependencies are installed, you can
`make jN`
the development,
replacing
`N`
by the number of your CPU cores.
replacing
`N`
by the number of your CPU cores.
#### Rebuild
If you do not trust the precompiled results, you can use
`make clean`
to remove
them and follow the build instructions above to rebuild.
## Technical Appendix
The technical [appendix] contains a complete coherent
description of the Stacked Borrows semantics, as well as the definition of our
key simulation relation that we used for the Coq formalization.
## Rust Counterexamples and Miri
You can run the counterexamples from the paper in Rust by clicking the following links, and then selecting "Run".
You can also run them in Miri via "Tools"  "Miri", which will show a Stacked Borrows violation.
*
[
`example1`
](
https://play.rustlang.org/?version=stable&mode=release&edition=2018&gist=18e6931728976779452f0d489f59a71c
)
(Section 3.4 of the paper)
*
[
`example2`
](
https://play.rustlang.org/?version=stable&mode=release&edition=2018&gist=85f368db00a789caa08e2b6960ebaf01
)
(Section 3.6)
*
[
`example2_down`
](
https://play.rustlang.org/?version=stable&mode=release&edition=2018&gist=66c928ddf745a779272a73262b921a56
)
(Section 4)
## Coq Formalization
We have given informal proof sketches of optimizations based on Stacked Borrows
in the paper. To further increase confidence in the semantics, we formalized
these arguments in Coq (about 14KLOC). We have carried out the proofs of the
transformations mentioned in the paper:
`example1`
,
`example2`
,
`example2_down`
,
`example3_down`
; as well as two more variants to complete the picture,
`example1_down`
and
`example3`
.
### STRUCTURE
The directory structure is as follows:
*
[
theories/lang
](
theories/lang
)
: Definitions and properties of the language.

The language syntax is defined in
[
lang/lang_base.v
](
theories/lang/lang_base.v
)
.

The expression and heap semantics is defined in
[
lang/expr_semantics.v
](
theories/lang/expr_semantics.v
)
.

The semantics of Stacked Borrows itself is in
[
lang/bor_semantics.v
](
theories/lang/bor_semantics.v
)
.

The complete language is then combined in
[
lang/lang.v
](
theories/lang/lang.v
)
.
*
[
theories/sim
](
theories/sim
)
: The simulation framework and its adequacy proofs.

The
*local*
simulation definition is in
[
sim/local.v
](
theories/sim/local.v
)
.

It is then lifted up to the
*global*
simulation definition in
[
sim/global.v
](
theories/sim/global.v
)
.

Adequacy, which states that the simulation implies behavior inclusion, is in
[
sim/local_adequacy.v
](
theories/sim/local_adequacy.v
)
,
[
sim/global_adequacy.v
](
theories/sim/global_adequacy.v
)
,
[
sim/program.v
](
theories/sim/program.v
)
.

Properties of the simulation with respect to the operational semantics are
proven in
[
sim/body.v
](
theories/sim/body.v
)
,
[
sim/refl_pure_step.v
](
theories/sim/refl_pure_step.v
)
,
[
sim/refl_mem_step.v
](
theories/sim/refl_mem_step.v
)
,
[
sim/left_step.v
](
theories/sim/left_step.v
)
,
[
sim/right_step.v
](
theories/sim/right_step.v
)
.

The main invariant needed for these properties is defined in
[
sim/invariant.v
](
theories/sim/invariant.v
)
. The invariant is properly
typesetted in Section 2 of the technical [appendix].

In
[
sim/simple.v
](
theories/sim/simple.v
)
, we define an easiertouse but
less powerful derived simulation relation.

The fundamental property that the simulation is reflexive for wellformed
terms is proven in
[
sim/refl.v
](
theories/sim/refl.v
)
.
*
[
theories/opt
](
theories/opt
)
: Proofs of optimizations.
For example, [opt/ex1.v](theories/opt/ex1.v) provides the proof that the
optimized program refines the behavior of the unoptimized program, where the
optimized program simply replaces the unoptimized one's `ex1_unopt` function
with the `ex1_opt` function.
For this proof, we need to show that (1) `ex1_opt` refines `ex1_unopt`, and
(2) all other unchanged functions refine themselves.
The proof of (1) is in the Lemma `ex1_sim_fun`.
The proof of (2) is the reflexivity of our simulation relation for
wellformed programs, provided in [theories/sim/refl.v](theories/sim/refl.v).

For
`example1`
(Section 3.4 in the paper),
see
[
opt/ex1.v
](
theories/opt/ex1.v
)
;
`example1_down`
did not appear in the paper but we verified it in
[
opt/ex1_down.v
](
theories/opt/ex1_down.v
)
.

For
`example2`
(Section 3.6) and
`example2_down`
(Section 4),
see
[
opt/ex2.v
](
theories/opt/ex2.v
)
and
[
opt/ex2_down.v
](
theories/opt/ex2_down.v
)
, respectively.

For
`example3_down`
(Section 4), see
[
opt/ex3_down.v
](
theories/opt/ex3_down.v
)
;
`example3`
did not appear in the paper but we verified it in
[
opt/ex3.v
](
theories/opt/ex3.v
)
.
[
appendix
]:
appendix.pdf
appendix.pdf
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