Lucet uses stack probes rather than explicit stack limit checks as
Wasmtime does. In bytecodealliance/lucet#616, I have discovered that I
previously was not running some Lucet runtime tests with the new
backend, so was missing some test failures due to missing pieces in the
new backend.
This PR adds (i) calls to probestack, when enabled, in the prologue of
every function with a stack frame larger than one page (configurable via
flags); and (ii) trap metadata for every instruction on x86-64 that can
access the stack, hence be the first point at which a stack overflow is
detected when the stack pointer is decremented.
* Add an initial wasi-nn implementation for Wasmtime
This change adds a crate, `wasmtime-wasi-nn`, that uses `wiggle` to expose the current state of the wasi-nn API and `openvino` to implement the exposed functions. It includes an end-to-end test demonstrating how to do classification using wasi-nn:
- `crates/wasi-nn/tests/classification-example` contains Rust code that is compiled to the `wasm32-wasi` target and run with a Wasmtime embedding that exposes the wasi-nn calls
- the example uses Rust bindings for wasi-nn contained in `crates/wasi-nn/tests/wasi-nn-rust-bindings`; this crate contains code generated by `witx-bindgen` and eventually should be its own standalone crate
* Test wasi-nn as a CI step
This change adds:
- a GitHub action for installing OpenVINO
- a script, `ci/run-wasi-nn-example.sh`, to run the classification example
This will hopefully remove a small thorn in our side with periodic
nightly breakage due to nightly features changing. This commit moves
lightbeam to stable Rust, swapping out `staticvec` for `arrayvec` and
otherwise updating some dependencies (namely `dynasm`) to compile with
stable.
This then also updates CI appropriately to not use a pinned nightly and
instead us a floating `nightly` channel so we can head off any breakage
coming up ASAP.
* Rewrite interpreter generically
This change re-implements the Cranelift interpreter to use generic values; this makes it possible to do abstract interpretation of Cranelift instructions. In doing so, the interpretation state is extracted from the `Interpreter` structure and is accessed via a `State` trait; this makes it possible to not only more clearly observe the interpreter's state but also to interpret using a dummy state (e.g. `ImmutableRegisterState`). This addition made it possible to implement more of the Cranelift instructions (~70%, ignoring the x86-specific instructions).
* Replace macros with closures
This commit removes the binaryen support for fuzzing from wasmtime,
instead switching over to `wasm-smith`. In general it's great to have
what fuzzing we can, but our binaryen support suffers from a few issues:
* The Rust crate, binaryen-sys, seems largely unmaintained at this
point. While we could likely take ownership and/or send PRs to update
the crate it seems like the maintenance is largely on us at this point.
* Currently the binaryen-sys crate doesn't support fuzzing anything
beyond MVP wasm, but we're interested at least in features like bulk
memory and reference types. Additionally we'll also be interested in
features like module-linking. New features would require either
implementation work in binaryen or the binaryen-sys crate to support.
* We have 4-5 fuzz-bugs right now related to timeouts simply in
generating a module for wasmtime to fuzz. One investigation along
these lines in the past revealed a bug in binaryen itself, and in any
case these bugs would otherwise need to get investigated, reported,
and possibly fixed ourselves in upstream binaryen.
Overall I'm not sure at this point if maintaining binaryen fuzzing is
worth it with the advent of `wasm-smith` which has similar goals for
wasm module generation, but is much more readily maintainable on our
end.
Additonally in this commit I've added a fuzzer for wasm-smith's
`SwarmConfig`-based fuzzer which should expand the coverage of tested
modules.
Closes#2163
The test that triggers the rebuild of the peephole optimizers is in the
`cranelift-codegen` crate, not the umbrella cranelift crate. This was previously
successfully running zero tests, and then successfully reporting no `git diff`
because no peephole optimizers were ever rebuilt.
This change fixes it so that we run the correct test that triggers the
rebuilding of the peephole optimizers.
We do not yet want to gate our CI on tests passing, because the backend
is only partially complete; but we want to make sure that it remains
up-to-date as we change internal APIs.
This commit extracts the two implementations of `Compiler` into two
separate crates, `wasmtime-cranelfit` and `wasmtime-lightbeam`. The
`wasmtime-jit` crate then depends on these two and instantiates them
appropriately. The goal here is to start reducing the weight of the
`wasmtime-environ` crate, which currently serves as a common set of
types between all `wasmtime-*` crates. Long-term I'd like to remove the
dependency on Cranelift from `wasmtime-environ`, but that's going to
take a lot more work.
In the meantime I figure it's a good way to get started by separating
out the lightbeam/cranelift function compilers from the
`wasmtime-environ` crate. We can continue to iterate on moving things
out in the future, too.
This CI test has been intermittently failing, which is causing issues
with other PRs. We should turn it back off until we can work out why the
intermittent failures are occuring.
As per Carlo Kok on Zulip #cranelift, this breaks builds with stable
Rust pre-1.43, as `core::u8::MAX` was only stabilized then. We'd like to
support older versions if we can easily do so.
This PR also adds `cranelift-tools` to the crates checked on CI with
Rust 1.41.0, which pulls in all backends (including `aarch64`).
This lets us avoid the cost of `cranelift_codegen::ir::Opcode` to
`peepmatic_runtime::Operator` conversion overhead, and paves the way for
allowing Peepmatic to support non-clif optimizations (e.g. vcode optimizations).
Rather than defining our own `peepmatic::Operator` type like we used to, now the
whole `peepmatic` crate is effectively generic over a `TOperator` type
parameter. For the Cranelift integration, we use `cranelift_codegen::ir::Opcode`
as the concrete type for our `TOperator` type parameter. For testing, we also
define a `TestOperator` type, so that we can test Peepmatic code without
building all of Cranelift, and we can keep them somewhat isolated from each
other.
The methods that `peepmatic::Operator` had are now translated into trait bounds
on the `TOperator` type. These traits need to be shared between all of
`peepmatic`, `peepmatic-runtime`, and `cranelift-codegen`'s Peepmatic
integration. Therefore, these new traits live in a new crate:
`peepmatic-traits`. This crate acts as a header file of sorts for shared
trait/type/macro definitions.
Additionally, the `peepmatic-runtime` crate no longer depends on the
`peepmatic-macro` procedural macro crate, which should lead to faster build
times for Cranelift when it is using pre-built peephole optimizers.
Instead, when the `rebuild-peephole-optimizers` feature is enabled, rebuild them
the first time they are used. This allows peepmatic to run when Cranelift's
`Opcode` is defined and available, which paves the way forward for:
* merging `peepmatic_runtime::operator::Operator` and Cranelift's `Opcode` (we
are wasting a bunch of cycles converting between the two of them), and
* supporting vcode optimizations in `peepmatic`.
This commit updates our CI to verify that all crates are publish-able at
all times on every commit. During the 0.19.0 release we found another
case where the crates as they live in this repository weren't
publish-able, so the hope is that this no longer comes up again!
The script added in this commit also takes the time/liberty to remove
the existing bump/publish scripts and instead replace them with one Rust
script originally sourced from wasm-bindgen. The intention of this
script is that it has three modes:
* `./publish bump` - bumps version numbers which are sent as a PR to get
reviewed (probably with a changelog as well)
* `./publish verify` - run on CI on every commit, builds every crate we
publish as if it's being published to crates.io, notably without raw
access to other crates in the repository.
* `./publish publish` - publishes all crates to crates.io, passing the
`--no-verify` flag to make this a much speedier process than it is
today.
* Switch CI back to nightly channel
I think all upstream issues are now fixed so we should be good to switch
back to nightly from our previously pinned version.
* Fix doc warnings
This commit adds a bit of a skeleton of what it might look like to
document the C API. Today the C API has virtually zero documentation
because the upstream documentation does not exist and we haven't put a
ton of effort into documenting our own extensions. Given that this is
one of the main vectors we expect users to use Wasmtime, we should make
sure it's thoroughly documented!
I've never really done much documentation generation of C myself before,
but I did a bit of searching and Doxygen seems reasonable proficient for
doing this. This commit sets up what it might look like for Doxygen to
be used for the C API. One nice feature of DOxygen is that we can
document the items in `wasm.h` without actually modifying `wasm.h`. For
those purposes a `doc-wasm.h` file was added here which is where we can
put Wasmtime-specific documentation about `wasm.h`.
There's quite a few functions in the C API so I didn't want to get them
all done before getting consensus on this. I've started some skeletons
of documentation for global types in `wasm.h` and also confirmed that
documentation works for our own `wasmtime.h` and such header files. If
this looks good to everyone and it runs reasonable well on CI then I can
spend more time filling out the rest of the documentation.
Also add configuration to CI to fail doc generation if any links are
broken. Unfortunately we can't blanket deny all warnings in rustdoc
since some are unconditional warnings, but for now this is hopefully
good enough.
Closes#1947
* This PR is against a branch called `main`
* Internally all docs/CI/etc is updated
* The default branch of the repo is now `main`
* All active PRs have been updated to retarget `main`
Closes#1914
* Enable the spec::simd::simd_align test for AArch64
Copyright (c) 2020, Arm Limited.
* Disable static memory under QEMU on CI
This commit disables the usage of "static" memory on CI and instead
forces all memories to be "dynamic" meaning that they reserve much
smaller chunks of memory. This causes the QEMU process's memory to
drastically drop (10GiB -> 600MiB) and should allow us to keep enabling
tests without hitting the OOM killer on CI.
Closes#1871 (includes that)
Closes#1893
* Fix typo
Co-authored-by: Anton Kirilov <anton.kirilov@arm.com>
* Pin nightlies to previous night
Fixes some upstream breakage in rust-lang/rust which should get fixed
tomorrow.
* fix-0.65
Co-authored-by: Yury Delendik <ydelendik@mozilla.com>
When we vendor Cranelift into Firefox, we need to be able to build with
the Firefox CI setup (unless we carry patches on top of upstream).
Unfortunately, the Firefox CI currently appears to build with a slightly
older version of Rust: I can't work out which version exactly, but one
without stable support for `matches!()`.
A recent attempt to version-bump Cranelift failed with build errors at
the two locations in this patch:
https://treeherder.mozilla.org/logviewer.html#/jobs?job_id=305994046&repo=autoland&lineNumber=24829
I also see a bunch of uses of `matches!()` in Peepmatic, but those
crates are not built by Firefox, so we can leave them be for now, I
think.
* CI: Only build fuzz targets, don't run them over the corpora
We've only ever caught a single potential regression by running the fuzz targets
over a sample of their corpora. However, this is also our slowest CI
job. Running the fuzz targets over their corpora simply isn't paying for itself.
Instead, just ensure that we can build the fuzz targets with `cargo fuzz` and
all of the libFuzzer and sanitizer instrumentation that it enables. This will
ensure that we don't break the fuzz targets, and we leave finding regressions in
the fuzz corpora to oss-fuzz.
* fuzz: feature gate peepmatic's fuzz targets
This makes it so that the CI's fuzz target-building job doesn't build peepmatic,
and transitively Z3.
* CI: only test `peepmatic` in one job
This avoids building Z3 in most jobs, which saves CI time.
* Fix curl syntax on Windows
Co-authored-by: Alex Crichton <alex@alexcrichton.com>
This updates our github actions configuration with a new feature
released which allows configuring the default shell for the entire
worflow. Here we set that to `bash` since we frequently do that anyway
and it helps keep syntax consistent throughout the configuration file.
