* Delete historical interruptable support in Wasmtime
This commit removes the `Config::interruptable` configuration along with
the `InterruptHandle` type from the `wasmtime` crate. The original
support for adding interruption to WebAssembly was added pretty early on
in the history of Wasmtime when there was no other method to prevent an
infinite loop from the host. Nowadays, however, there are alternative
methods for interruption such as fuel or epoch-based interruption.
One of the major downsides of `Config::interruptable` is that even when
it's not enabled it forces an atomic swap to happen when entering
WebAssembly code. This technically could be a non-atomic swap if the
configuration option isn't enabled but that produces even more branch-y
code on entry into WebAssembly which is already something we try to
optimize. Calling into WebAssembly is on the order of a dozens of
nanoseconds at this time and an atomic swap, even uncontended, can add
up to 5ns on some platforms.
The main goal of this PR is to remove this atomic swap on entry into
WebAssembly. This is done by removing the `Config::interruptable` field
entirely, moving all existing consumers to epochs instead which are
suitable for the same purposes. This means that the stack overflow check
is no longer entangled with the interruption check and perhaps one day
we could continue to optimize that further as well.
Some consequences of this change are:
* Epochs are now the only method of remote-thread interruption.
* There are no more Wasmtime traps that produces the `Interrupted` trap
code, although we may wish to move future traps to this so I left it
in place.
* The C API support for interrupt handles was also removed and bindings
for epoch methods were added.
* Function-entry checks for interruption are a tiny bit less efficient
since one check is performed for the stack limit and a second is
performed for the epoch as opposed to the `Config::interruptable`
style of bundling the stack limit and the interrupt check in one. It's
expected though that this is likely to not really be measurable.
* The old `VMInterrupts` structure is renamed to `VMRuntimeLimits`.
* Implement defining host functions at the Config level.
This commit introduces defining host functions at the `Config` rather than with
`Func` tied to a `Store`.
The intention here is to enable a host to define all of the functions once
with a `Config` and then use a `Linker` (or directly with
`Store::get_host_func`) to use the functions when instantiating a module.
This should help improve the performance of use cases where a `Store` is
short-lived and redefining the functions at every module instantiation is a
noticeable performance hit.
This commit adds `add_to_config` to the code generation for Wasmtime's `Wasi`
type.
The new method adds the WASI functions to the given config as host functions.
This commit adds context functions to `Store`: `get` to get a context of a
particular type and `set` to set the context on the store.
For safety, `set` cannot replace an existing context value of the same type.
`Wasi::set_context` was added to set the WASI context for a `Store` when using
`Wasi::add_to_config`.
* Add `Config::define_host_func_async`.
* Make config "async" rather than store.
This commit moves the concept of "async-ness" to `Config` rather than `Store`.
Note: this is a breaking API change for anyone that's already adopted the new
async support in Wasmtime.
Now `Config::new_async` is used to create an "async" config and any `Store`
associated with that config is inherently "async".
This is needed for async shared host functions to have some sanity check during their
execution (async host functions, like "async" `Func`, need to be called with
the "async" variants).
* Update async function tests to smoke async shared host functions.
This commit updates the async function tests to also smoke the shared host
functions, plus `Func::wrap0_async`.
This also changes the "wrap async" method names on `Config` to
`wrap$N_host_func_async` to slightly better match what is on `Func`.
* Move the instance allocator into `Engine`.
This commit moves the instantiated instance allocator from `Config` into
`Engine`.
This makes certain settings in `Config` no longer order-dependent, which is how
`Config` should ideally be.
This also removes the confusing concept of the "default" instance allocator,
instead opting to construct the on-demand instance allocator when needed.
This does alter the semantics of the instance allocator as now each `Engine`
gets its own instance allocator rather than sharing a single one between all
engines created from a configuration.
* Make `Engine::new` return `Result`.
This is a breaking API change for anyone using `Engine::new`.
As creating the pooling instance allocator may fail (likely cause is not enough
memory for the provided limits), instead of panicking when creating an
`Engine`, `Engine::new` now returns a `Result`.
* Remove `Config::new_async`.
This commit removes `Config::new_async` in favor of treating "async support" as
any other setting on `Config`.
The setting is `Config::async_support`.
* Remove order dependency when defining async host functions in `Config`.
This commit removes the order dependency where async support must be enabled on
the `Config` prior to defining async host functions.
The check is now delayed to when an `Engine` is created from the config.
* Update WASI example to use shared `Wasi::add_to_config`.
This commit updates the WASI example to use `Wasi::add_to_config`.
As only a single store and instance are used in the example, it has no semantic
difference from the previous example, but the intention is to steer users
towards defining WASI on the config and only using `Wasi::add_to_linker` when
more explicit scoping of the WASI context is required.
This is enough to get an `externref -> externref` identity function
passing.
However, `externref`s that are dropped by compiled Wasm code are (safely)
leaked. Follow up work will leverage cranelift's stack maps to resolve this
issue.
* Refactor and improve safety of C API
This commit is intended to be a relatively large refactoring of the C
API which is targeted at improving the safety of our C API definitions.
Not all of the APIs have been updated yet but this is intended to be the
start.
The goal here is to make as many functions safe as we can, expressing
inputs/outputs as native Rust types rather than raw pointers wherever
possible. For example instead of `*const wasm_foo_t` we'd take
`&wasm_foo_t`. Instead of returning `*mut wasm_foo_t` we'd return
`Box<wasm_foo_t>`. No ABI/API changes are intended from this commit,
it's supposed to only change how we define all these functions
internally.
This commit also additionally implements a few more API bindings for
exposed vector types by unifying everything into one macro.
Finally, this commit moves many internal caches in the C API to the
`OnceCell` type which provides a safe interface for one-time
initialization.
* Split apart monolithic C API `lib.rs`
This commit splits the monolithic `src/lib.rs` in the C API crate into
lots of smaller files. The goal here is to make this a bit more readable
and digestable. Each module now contains only API bindings for a
particular type, roughly organized around the grouping in the wasm.h
header file already.
A few more extensions were added, such as filling out `*_as_*`
conversions with both const and non-const versions. Additionally many
APIs were made safer in the same style as the previous commit, generally
preferring Rust types rather than raw pointer types.
Overall no functional change is intended here, it should be mostly just
code movement and minor refactorings!
* Make a few wasi C bindings safer
Use safe Rust types where we can and touch up a few APIs here and there.
* Implement `wasm_*type_as_externtype*` APIs
This commit restructures `wasm_externtype_t` to be similar to
`wasm_extern_t` so type conversion between the `*_extern_*` variants to
the concrete variants are all simple casts. (checked in the case of
general to concrete, of course).
* Consistently imlpement host info functions in the API
This commit adds a small macro crate which is then used to consistently
define the various host-info-related functions in the C API. The goal
here is to try to mirror what the `wasm.h` header provides to provide a
full implementation of the header.
