* Implement strings in adapter modules
This commit is a hefty addition to Wasmtime's support for the component
model. This implements the final remaining type (in the current type
hierarchy) unimplemented in adapter module trampolines: strings. Strings
are the most complicated type to implement in adapter trampolines
because they are highly structured chunks of data in memory (according
to specific encodings). Additionally each lift/lower operation can
choose its own encoding for strings meaning that Wasmtime, the host, may
have to convert between any pairwise ordering of string encodings.
The `CanonicalABI.md` in the component-model repo in general specifies
all the fiddly bits of string encoding so there's not a ton of wiggle
room for Wasmtime to get creative. This PR largely "just" implements
that. The high-level architecture of this implementation is:
* Fused adapters are first identified to determine src/dst string
encodings. This statically fixes what transcoding operation is being
performed.
* The generated adapter will be responsible for managing calls to
`realloc` and performing bounds checks. The adapter itself does not
perform memory copies or validation of string contents, however.
Instead each transcoding operation is modeled as an imported function
into the adapter module. This means that the adapter module
dynamically, during compile time, determines what string transcoders
are needed. Note that an imported transcoder is not only parameterized
over the transcoding operation but additionally which memory is the
source and which is the destination.
* The imported core wasm functions are modeled as a new
`CoreDef::Transcoder` structure. These transcoders end up being small
Cranelift-compiled trampolines. The Cranelift-compiled trampoline will
load the actual base pointer of memory and add it to the relative
pointers passed as function arguments. This trampoline then calls a
transcoder "libcall" which enters Rust-defined functions for actual
transcoding operations.
* Each possible transcoding operation is implemented in Rust with a
unique name and a unique signature depending on the needs of the
transcoder. I've tried to document inline what each transcoder does.
This means that the `Module::translate_string` in adapter modules is by
far the largest translation method. The main reason for this is due to
the management around calling the imported transcoder functions in the
face of validating string pointer/lengths and performing the dance of
`realloc`-vs-transcode at the right time. I've tried to ensure that each
individual case in transcoding is documented well enough to understand
what's going on as well.
Additionally in this PR is a full implementation in the host for the
`latin1+utf16` encoding which means that both lifting and lowering host
strings now works with this encoding.
Currently the implementation of each transcoder function is likely far
from optimal. Where possible I've leaned on the standard library itself
and for latin1-related things I'm leaning on the `encoding_rs` crate. I
initially tried to implement everything with `encoding_rs` but was
unable to uniformly do so easily. For now I settled on trying to get a
known-correct (even in the face of endianness) implementation for all of
these transcoders. If an when performance becomes an issue it should be
possible to implement more optimized versions of each of these
transcoding operations.
Testing this commit has been somewhat difficult and my general plan,
like with the `(list T)` type, is to rely heavily on fuzzing to cover
the various cases here. In this PR though I've added a simple test that
pushes some statically known strings through all the pairs of encodings
between source and destination. I've attempted to pick "interesting"
strings that one way or another stress the various paths in each
transcoding operation to ideally get full branch coverage there.
Additionally a suite of "negative" tests have also been added to ensure
that validity of encoding is actually checked.
* Fix a temporarily commented out case
* Fix wasmtime-runtime tests
* Update deny.toml configuration
* Add `BSD-3-Clause` for the `encoding_rs` crate
* Remove some unused licenses
* Add an exemption for `encoding_rs` for now
* Split up the `translate_string` method
Move out all the closures and package up captured state into smaller
lists of arguments.
* Test out-of-bounds for zero-length strings
This addresses #4307.
For the static API we generate 100 arbitrary test cases at build time, each of
which includes 0-5 parameter types, a result type, and a WAT fragment containing
an imported function and an exported function. The exported function calls the
imported function, which is implemented by the host. At runtime, the fuzz test
selects a test case at random and feeds it zero or more sets of arbitrary
parameters and results, checking that values which flow host-to-guest and
guest-to-host make the transition unchanged.
The fuzz test for the dynamic API follows a similar pattern, the only difference
being that test cases are generated at runtime.
Signed-off-by: Joel Dice <joel.dice@fermyon.com>
This commit goes through and updates support in the various argument
passing routines to support 0-sized flags. A bit of a degenerate case
but clarified in WebAssembly/component-model#76 as intentional.
* support dynamic function calls in component model
This addresses #4310, introducing a new `component::values::Val` type for
representing component values dynamically, as well as `component::types::Type`
for representing the corresponding interface types. It also adds a `call` method
to `component::func::Func`, which takes a slice of `Val`s as parameters and
returns a `Result<Val>` representing the result.
Note that I've moved `post_return` and `call_raw` from `TypedFunc` to `Func`
since there was nothing specific to `TypedFunc` about them, and I wanted to
reuse them. The code in both is unchanged beyond the trivial tweaks to make
them fit in their new home.
Signed-off-by: Joel Dice <joel.dice@fermyon.com>
* order variants and match cases more consistently
Signed-off-by: Joel Dice <joel.dice@fermyon.com>
* implement lift for String, Box<str>, etc.
This also removes the redundant `store` parameter from `Type::load`.
Signed-off-by: Joel Dice <joel.dice@fermyon.com>
* implement code review feedback
This fixes a few issues:
- Bad offset calculation when lowering
- Missing variant padding
- Style issues regarding `types::Handle`
- Missed opportunities to reuse `Lift` and `Lower` impls
It also adds forwarding `Lift` impls for `Box<[T]>`, `Vec<T>`, etc.
Signed-off-by: Joel Dice <joel.dice@fermyon.com>
* move `new_*` methods to specific `types` structs
Per review feedback, I've moved `Type::new_record` to `Record::new_val` and
added a `Type::unwrap_record` method; likewise for the other kinds of types.
Signed-off-by: Joel Dice <joel.dice@fermyon.com>
* make tuple, option, and expected type comparisons recursive
These types should compare as equal across component boundaries as long as their
type parameters are equal.
Signed-off-by: Joel Dice <joel.dice@fermyon.com>
* improve error diagnostic in `Type::check`
We now distinguish between more failure cases to provide an informative error
message.
Signed-off-by: Joel Dice <joel.dice@fermyon.com>
* address review feedback
- Remove `WasmStr::to_str_from_memory` and `WasmList::get_from_memory`
- add `try_new` methods to various `values` types
- avoid using `ExactSizeIterator::len` where we can't trust it
- fix over-constrained bounds on forwarded `ComponentType` impls
Signed-off-by: Joel Dice <joel.dice@fermyon.com>
* rearrange code per review feedback
- Move functions from `types` to `values` module so we can make certain struct fields private
- Rename `try_new` to just `new`
Signed-off-by: Joel Dice <joel.dice@fermyon.com>
* remove special-case equality test for tuples, options, and expecteds
Instead, I've added a FIXME comment and will open an issue to do recursive
structural equality testing.
Signed-off-by: Joel Dice <joel.dice@fermyon.com>
