* Remove the module linking implementation in Wasmtime
This commit removes the experimental implementation of the module
linking WebAssembly proposal from Wasmtime. The module linking is no
longer intended for core WebAssembly but is instead incorporated into
the component model now at this point. This means that very large parts
of Wasmtime's implementation of module linking are no longer applicable
and would change greatly with an implementation of the component model.
The main purpose of this is to remove Wasmtime's reliance on the support
for module-linking in `wasmparser` and tooling crates. With this
reliance removed we can move over to the `component-model` branch of
`wasmparser` and use the updated support for the component model.
Additionally given the trajectory of the component model proposal the
embedding API of Wasmtime will not look like what it looks like today
for WebAssembly. For example the core wasm `Instance` will not change
and instead a `Component` is likely to be added instead.
Some more rationale for this is in #3941, but the basic idea is that I
feel that it's not going to be viable to develop support for the
component model on a non-`main` branch of Wasmtime. Additionaly I don't
think it's viable, for the same reasons as `wasm-tools`, to support the
old module linking proposal and the new component model at the same
time.
This commit takes a moment to not only delete the existing module
linking implementation but some abstractions are also simplified. For
example module serialization is a bit simpler that there's only one
module. Additionally instantiation is much simpler since the only
initializer we have to deal with are imports and nothing else.
Closes#3941
* Fix doc link
* Update comments
When there is a linking error caused by an undefined instance, list all
the instances exports in the error message. This will clarify errors for
undefined two-level imports that get desugared to one-level instance
imports under the module-linking proposal.
* Optimize `Func::call` and its C API
This commit is an alternative to #3298 which achieves effectively the
same goal of optimizing the `Func::call` API as well as its C API
sibling of `wasmtime_func_call`. The strategy taken here is different
than #3298 though where a new API isn't created, rather a small tweak to
an existing API is done. Specifically this commit handles the major
sources of slowness with `Func::call` with:
* Looking up the type of a function, to typecheck the arguments with and
use to guide how the results should be loaded, no longer hits the
rwlock in the `Engine` but instead each `Func` contains its own
`FuncType`. This can be an unnecessary allocation for funcs not used
with `Func::call`, so this is a downside of this implementation
relative to #3298. A mitigating factor, though, is that instance
exports are loaded lazily into the `Store` and in theory not too many
funcs are active in the store as `Func` objects.
* Temporary storage is amortized with a long-lived `Vec` in the `Store`
rather than allocating a new vector on each call. This is basically
the same strategy as #3294 only applied to different types in
different places. Specifically `wasmtime::Store` now retains a
`Vec<u128>` for `Func::call`, and the C API retains a `Vec<Val>` for
calling `Func::call`.
* Finally, an API breaking change is made to `Func::call` and its type
signature (as well as `Func::call_async`). Instead of returning
`Box<[Val]>` as it did before this function now takes a
`results: &mut [Val]` parameter. This allows the caller to manage the
allocation and we can amortize-remove it in `wasmtime_func_call` by
using space after the parameters in the `Vec<Val>` we're passing in.
This change is naturally a breaking change and we'll want to consider
it carefully, but mitigating factors are that most embeddings are
likely using `TypedFunc::call` instead and this signature taking a
mutable slice better aligns with `Func::new` which receives a mutable
slice for the results.
Overall this change, in the benchmark of "call a nop function from the C
API" is not quite as good as #3298. It's still a bit slower, on the
order of 15ns, because there's lots of capacity checks around vectors
and the type checks are slightly less optimized than before. Overall
though this is still significantly better than today because allocations
and the rwlock to acquire the type information are both avoided. I
personally feel that this change is the best to do because it has less
of an API impact than #3298.
* Rebase issues
This commit adds an assertion which was previously forgotten when
inserting a `HostFunc` into a `Store`. This can happen when a `Linker`
is defined with one engine but it's used to interoperate with a store
defined within a different engine.
A function contains type information that's only valid relative to the
engine that it was defined within. This means that if a function is used
within a different engine then type information may look valid when in
fact it is not. For example it's otherwise possible to insert a function
into an engine with one type and call it in a different engine with a
different type.
Similar to how `Store` misuse is a panic throughout `wasmtime`'s API
this commit also turns this behavior into panic, so there's no API
impact. Documentation has been updated accordingly to indicate that
various functions on `Linker` will panic if a `store` is provided that's
connected to a different `Engine`.
* Implement the memory64 proposal in Wasmtime
This commit implements the WebAssembly [memory64 proposal][proposal] in
both Wasmtime and Cranelift. In terms of work done Cranelift ended up
needing very little work here since most of it was already prepared for
64-bit memories at one point or another. Most of the work in Wasmtime is
largely refactoring, changing a bunch of `u32` values to something else.
A number of internal and public interfaces are changing as a result of
this commit, for example:
* Acessors on `wasmtime::Memory` that work with pages now all return
`u64` unconditionally rather than `u32`. This makes it possible to
accommodate 64-bit memories with this API, but we may also want to
consider `usize` here at some point since the host can't grow past
`usize`-limited pages anyway.
* The `wasmtime::Limits` structure is removed in favor of
minimum/maximum methods on table/memory types.
* Many libcall intrinsics called by jit code now unconditionally take
`u64` arguments instead of `u32`. Return values are `usize`, however,
since the return value, if successful, is always bounded by host
memory while arguments can come from any guest.
* The `heap_addr` clif instruction now takes a 64-bit offset argument
instead of a 32-bit one. It turns out that the legalization of
`heap_addr` already worked with 64-bit offsets, so this change was
fairly trivial to make.
* The runtime implementation of mmap-based linear memories has changed
to largely work in `usize` quantities in its API and in bytes instead
of pages. This simplifies various aspects and reflects that
mmap-memories are always bound by `usize` since that's what the host
is using to address things, and additionally most calculations care
about bytes rather than pages except for the very edge where we're
going to/from wasm.
Overall I've tried to minimize the amount of `as` casts as possible,
using checked `try_from` and checked arithemtic with either error
handling or explicit `unwrap()` calls to tell us about bugs in the
future. Most locations have relatively obvious things to do with various
implications on various hosts, and I think they should all be roughly of
the right shape but time will tell. I mostly relied on the compiler
complaining that various types weren't aligned to figure out
type-casting, and I manually audited some of the more obvious locations.
I suspect we have a number of hidden locations that will panic on 32-bit
hosts if 64-bit modules try to run there, but otherwise I think we
should be generally ok (famous last words). In any case I wouldn't want
to enable this by default naturally until we've fuzzed it for some time.
In terms of the actual underlying implementation, no one should expect
memory64 to be all that fast. Right now it's implemented with
"dynamic" heaps which have a few consequences:
* All memory accesses are bounds-checked. I'm not sure how aggressively
Cranelift tries to optimize out bounds checks, but I suspect not a ton
since we haven't stressed this much historically.
* Heaps are always precisely sized. This means that every call to
`memory.grow` will incur a `memcpy` of memory from the old heap to the
new. We probably want to at least look into `mremap` on Linux and
otherwise try to implement schemes where dynamic heaps have some
reserved pages to grow into to help amortize the cost of
`memory.grow`.
The memory64 spec test suite is scheduled to now run on CI, but as with
all the other spec test suites it's really not all that comprehensive.
I've tried adding more tests for basic things as I've had to implement
guards for them, but I wouldn't really consider the testing adequate
from just this PR itself. I did try to take care in one test to actually
allocate a 4gb+ heap and then avoid running that in the pooling
allocator or in emulation because otherwise that may fail or take
excessively long.
[proposal]: https://github.com/WebAssembly/memory64/blob/master/proposals/memory64/Overview.md
* Fix some tests
* More test fixes
* Fix wasmtime tests
* Fix doctests
* Revert to 32-bit immediate offsets in `heap_addr`
This commit updates the generation of addresses in wasm code to always
use 32-bit offsets for `heap_addr`, and if the calculated offset is
bigger than 32-bits we emit a manual add with an overflow check.
* Disable memory64 for spectest fuzzing
* Fix wrong offset being added to heap addr
* More comments!
* Clarify bytes/pages
* Add the ability to cache typechecking an instance
This commit adds the abilty to cache the type-checked imports of an
instance if an instance is going to be instantiated multiple times. This
can also be useful to do a "dry run" of instantiation where no wasm code
is run but it's double-checked that a `Linker` possesses everything
necessary to instantiate the provided module.
This should ideally help cut down repeated instantiation costs slightly
by avoiding type-checking and allocation a `Vec<Extern>` on each
instantiation. It's expected though that the impact on instantiation
time is quite small and likely not super significant. The functionality,
though, of pre-checking can be useful for some embeddings.
* Fix build with async
Implement Wasmtime's new API as designed by RFC 11. This is quite a large commit which has had lots of discussion externally, so for more information it's best to read the RFC thread and the PR thread.
This commit implements the `--allow-unknown-exports` option to the CLI run
command that will ignore unknown exports in a command module rather than
return an error.
Fixes#2587.
* Add resource limiting to the Wasmtime API.
This commit adds a `ResourceLimiter` trait to the Wasmtime API.
When used in conjunction with `Store::new_with_limiter`, this can be used to
monitor and prevent WebAssembly code from growing linear memories and tables.
This is particularly useful when hosts need to take into account host resource
usage to determine if WebAssembly code can consume more resources.
A simple `StaticResourceLimiter` is also included with these changes that will
simply limit the size of linear memories or tables for all instances created in
the store based on static values.
* Code review feedback.
* Implemented `StoreLimits` and `StoreLimitsBuilder`.
* Moved `max_instances`, `max_memories`, `max_tables` out of `Config` and into
`StoreLimits`.
* Moved storage of the limiter in the runtime into `Memory` and `Table`.
* Made `InstanceAllocationRequest` use a reference to the limiter.
* Updated docs.
* Made `ResourceLimiterProxy` generic to remove a level of indirection.
* Fixed the limiter not being used for `wasmtime::Memory` and
`wasmtime::Table`.
* Code review feedback and bug fix.
* `Memory::new` now returns `Result<Self>` so that an error can be returned if
the initial requested memory exceeds any limits placed on the store.
* Changed an `Arc` to `Rc` as the `Arc` wasn't necessary.
* Removed `Store` from the `ResourceLimiter` callbacks. Custom resource limiter
implementations are free to capture any context they want, so no need to
unnecessarily store a weak reference to `Store` from the proxy type.
* Fixed a bug in the pooling instance allocator where an instance would be
leaked from the pool. Previously, this would only have happened if the OS was
unable to make the necessary linear memory available for the instance. With
these changes, however, the instance might not be created due to limits
placed on the store. We now properly deallocate the instance on error.
* Added more tests, including one that covers the fix mentioned above.
* Code review feedback.
* Add another memory to `test_pooling_allocator_initial_limits_exceeded` to
ensure a partially created instance is successfully deallocated.
* Update some doc comments for better documentation of `Store` and
`ResourceLimiter`.
When `Linker` was first created it was attempted to be created with the
ability to instantiate any wasm modules, including those with duplicate
import strings of different types. In an effort to support this a
`Linker` supports defining the same names twice so long as they're
defined with differently-typed values.
This ended up causing wast testsuite failures module linking is enabled,
however, because the wrong error message is returned. While it would be
possible to fix this there's already the possibility for confusing error
messages today due to the `Linker` trying to take on this type-level
complexity. In a way this is yet-another type checker for wasm imports,
but sort of a bad one because it only supports things like
globals/functions, and otherwise you can only define one `Memory`, for
example, with a particular name.
This commit completely removes this feature from `Linker` to simplify
the implementation and make error messages more straightforward. This
means that any error message coming from a `Linker` is purely "this
thing wasn't defined" rather than a hybrid of "maybe the types didn't
match?". I think this also better aligns with the direction that we see
conventional wasm modules going which is that duplicate imports are not
ever present.
* Redo the statically typed `Func` API
This commit reimplements the `Func` API with respect to statically typed
dispatch. Previously `Func` had a `getN` and `getN_async` family of
methods which were implemented for 0 to 16 parameters. The return value
of these functions was an `impl Fn(..)` closure with the appropriate
parameters and return values.
There are a number of downsides with this approach that have become
apparent over time:
* The addition of `*_async` doubled the API surface area (which is quite
large here due to one-method-per-number-of-parameters).
* The [documentation of `Func`][old-docs] are quite verbose and feel
"polluted" with all these getters, making it harder to understand the
other methods that can be used to interact with a `Func`.
* These methods unconditionally pay the cost of returning an owned `impl
Fn` with a `'static` lifetime. While cheap, this is still paying the
cost for cloning the `Store` effectively and moving data into the
closed-over environment.
* Storage of the return value into a struct, for example, always
requires `Box`-ing the returned closure since it otherwise cannot be
named.
* Recently I had the desire to implement an "unchecked" path for
invoking wasm where you unsafely assert the type signature of a wasm
function. Doing this with today's scheme would require doubling
(again) the API surface area for both async and synchronous calls,
further polluting the documentation.
The main benefit of the previous scheme is that by returning a `impl Fn`
it was quite easy and ergonomic to actually invoke the function. In
practice, though, examples would often have something akin to
`.get0::<()>()?()?` which is a lot of things to interpret all at once.
Note that `get0` means "0 parameters" yet a type parameter is passed.
There's also a double function invocation which looks like a lot of
characters all lined up in a row.
Overall, I think that the previous design is starting to show too many
cracks and deserves a rewrite. This commit is that rewrite.
The new design in this commit is to delete the `getN{,_async}` family of
functions and instead have a new API:
impl Func {
fn typed<P, R>(&self) -> Result<&Typed<P, R>>;
}
impl Typed<P, R> {
fn call(&self, params: P) -> Result<R, Trap>;
async fn call_async(&self, params: P) -> Result<R, Trap>;
}
This should entirely replace the current scheme, albeit by slightly
losing ergonomics use cases. The idea behind the API is that the
existence of `Typed<P, R>` is a "proof" that the underlying function
takes `P` and returns `R`. The `Func::typed` method peforms a runtime
type-check to ensure that types all match up, and if successful you get
a `Typed` value. Otherwise an error is returned.
Once you have a `Typed` then, like `Func`, you can either `call` or
`call_async`. The difference with a `Typed`, however, is that the
params/results are statically known and hence these calls can be much
more efficient.
This is a much smaller API surface area from before and should greatly
simplify the `Func` documentation. There's still a problem where
`Func::wrapN_async` produces a lot of functions to document, but that's
now the sole offender. It's a nice benefit that the
statically-typed-async verisons are now expressed with an `async`
function rather than a function-returning-a-future which makes it both
more efficient and easier to understand.
The type `P` and `R` are intended to either be bare types (e.g. `i32`)
or tuples of any length (including 0). At this time `R` is only allowed
to be `()` or a bare `i32`-style type because multi-value is not
supported with a native ABI (yet). The `P`, however, can be any size of
tuples of parameters. This is also where some ergonomics are lost
because instead of `f(1, 2)` you now have to write `f.call((1, 2))`
(note the double-parens). Similarly `f()` becomes `f.call(())`.
Overall I feel that this is a better tradeoff than before. While not
universally better due to the loss in ergonomics I feel that this design
is much more flexible in terms of what you can do with the return value
and also understanding the API surface area (just less to take in).
[old-docs]: https://docs.rs/wasmtime/0.24.0/wasmtime/struct.Func.html#method.get0
* Rename Typed to TypedFunc
* Implement multi-value returns through `Func::typed`
* Fix examples in docs
* Fix some more errors
* More test fixes
* Rebasing and adding `get_typed_func`
* Updating tests
* Fix typo
* More doc tweaks
* Tweak visibility on `Func::invoke`
* Fix tests again
* 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 commit fixes a memory leak that can happen with `Linker::module`
when the provided module is a command. This function creates a closure
but the closure closed over a strong reference to `Store` (and
transitively through any imports provided). Unfortunately a `Store`
keeps everything alive, including `Func`, so this meant that `Store` was
inserted into a cycle which caused the leak.
The cycle here is manually broken by closing over the raw value of each
external value rather than the external value itself (which has a
strong reference to `Store`).
`funcref`s are implemented as `NonNull<VMCallerCheckedAnyfunc>`.
This should be more efficient than using a `VMExternRef` that points at a
`VMCallerCheckedAnyfunc` because it gets rid of an indirection, dynamic
allocation, and some reference counting.
Note that the null function reference is *NOT* a null pointer; it is a
`VMCallerCheckedAnyfunc` that has a null `func_ptr` member.
Part of #929
* Moves CodeMemory, VMInterrupts and SignatureRegistry from Compiler
* CompiledModule holds CodeMemory and GdbJitImageRegistration
* Store keeps track of its JIT code
* Makes "jit_int.rs" stuff Send+Sync
* Adds the threads example.
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.
* Minor code tidying.
* Document that `Linker::iter`'s iteration order is arbitrary.
* Add a few more tests for `wasmtime::Linker`.
* Refactor `Linker::compute_imports`.
- Extract the error message generation into a separate function.
- In the error message, sort the candidates.
* Fix a typo in a comment.
* Add `__rtti_base` to the list of allowed but deprecated exports.
* Don't print an Error message when a program exits normally.
* Update comments to reflect the current code.
* Also allow "table" as an exported table, which is used by AssemblyScript.
* Compute instance exports on demand.
Instead having instances eagerly compute a Vec of Externs, and bumping
the refcount for each Extern, compute Externs on demand.
This also enables `Instance::get_export` to avoid doing a linear search.
This also means that the closure returned by `get0` and friends now
holds an `InstanceHandle` to dynamically hold the instance live rather
than being scoped to a lifetime.
* Compute module imports and exports on demand too.
And compute Extern::ty on demand too.
* Add a utility function for computing an ExternType.
* Add a utility function for looking up a function's signature.
* Add a utility function for computing the ValType of a Global.
* Rename wasmtime_environ::Export to EntityIndex.
This helps differentiate it from other Export types in the tree, and
describes what it is.
* Fix a typo in a comment.
* Simplify module imports and exports.
* Make `Instance::exports` return the export names.
This significantly simplifies the public API, as it's relatively common
to need the names, and this avoids the need to do a zip with
`Module::exports`.
This also changes `ImportType` and `ExportType` to have public members
instead of private members and accessors, as I find that simplifies the
usage particularly in cases where there are temporary instances.
* Remove `Instance::module`.
This doesn't quite remove `Instance`'s `module` member, it gets a step
closer.
* Use a InstanceHandle utility function.
* Don't consume self in the `Func::get*` methods.
Instead, just create a closure containing the instance handle and the
export for them to call.
* Use `ExactSizeIterator` to avoid needing separate `num_*` methods.
* Rename `Extern::func()` etc. to `into_func()` etc.
* Revise examples to avoid using `nth`.
* Add convenience methods to instance for getting specific extern types.
* Use the convenience functions in more tests and examples.
* Avoid cloning strings for `ImportType` and `ExportType`.
* Remove more obviated clone() calls.
* Simplify `Func`'s closure state.
* Make wasmtime::Export's fields private.
This makes them more consistent with ExportType.
* Fix compilation error.
* Make a lifetime parameter explicit, and use better lifetime names.
Instead of 'me, use 'instance and 'module to make it clear what the
lifetime is.
* More lifetime cleanups.
* Move most wasmtime tests into one test suite
This commit moves most wasmtime tests into a single test suite which
gets compiled into one executable instead of having lots of test
executables. The goal here is to reduce disk space on CI, and this
should be achieved by having fewer executables which means fewer copies
of `libwasmtime.rlib` linked across binaries on the system. More
importantly though this means that DWARF debug information should only
be in one executable rather than duplicated across many.
* Share more build caches
Globally set `RUSTFLAGS` to `-Dwarnings` instead of individually so all
build steps share the same value.
* Allow some dead code in cranelift-codegen
Prevents having to fix all warnings for all possible feature
combinations, only the main ones which come up.
* Update some debug file paths
