* wasmtime_runtime: move ResourceLimiter defaults into this crate
In preparation of changing wasmtime::ResourceLimiter to be a re-export
of this definition, because translating between two traits was causing
problems elsewhere.
* wasmtime: make ResourceLimiter a re-export of wasmtime_runtime::ResourceLimiter
* refactor Store internals to support ResourceLimiter as part of store's data
* add hooks for entering and exiting native code to Store
* wasmtime-wast, fuzz: changes to adapt ResourceLimiter API
* fix tests
* wrap calls into wasm with entering/exiting exit hooks as well
* the most trivial test found a bug, lets write some more
* store: mark some methods as #[inline] on Store, StoreInner, StoreInnerMost
Co-authored-By: Alex Crichton <alex@alexcrichton.com>
* improve tests for the entering/exiting native hooks
Co-authored-by: Alex Crichton <alex@alexcrichton.com>
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.
* 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`.
This PR switches the default backend on x86, for both the
`cranelift-codegen` crate and for Wasmtime, to the new
(`MachInst`-style, `VCode`-based) backend that has been under
development and testing for some time now.
The old backend is still available by default in builds with the
`old-x86-backend` feature, or by requesting `BackendVariant::Legacy`
from the appropriate APIs.
As part of that switch, it adds some more runtime-configurable plumbing
to the testing infrastructure so that tests can be run using the
appropriate backend. `clif-util test` is now capable of parsing a
backend selector option from filetests and instantiating the correct
backend.
CI has been updated so that the old x86 backend continues to run its
tests, just as we used to run the new x64 backend separately.
At some point, we will remove the old x86 backend entirely, once we are
satisfied that the new backend has not caused any unforeseen issues and
we do not need to revert.
Yesterday fuzzing was switched to using a `Linker` to improve coverage
when using module linking since we can fake instance imports with
definitions of each individual item. Using a `Linker`, however, means
that we can't necessarily instantiate all modules, such as
(module
(import "" "" (memory (;0;) 0 1))
(import "" "" (memory (;1;) 2)))
As a result this just allows these sorts of "incompatible import type"
errors when fuzzing to not trigger crashes.
* Increase allowances for values when fuzzing
The wasm-smith limits for generating modules are a bit higher than what
we specify, so sync those up to avoid getting too many false positives
with limits getting blown.
* Ensure fuzzing `*.wat` files are in sync
I keep looking at `*.wat` files that are actually stale, so remove stale
files if we write out a `*.wasm` file and can't disassemble it.
* Enable shadowing in dummy_linker
Fixes an issues where the same name is imported twice and we generated
two values for that. We don't mind the error here, we just want to
ignore the shadowing errors.
Currently this exposes a bug where modules broken by module linking
cause failures in the fuzzer, but we want to fuzz those modules since
module linking isn't enabled when generating these modules.
This commit fixes an issue where when module linking was enabled for
fuzzing (which it is) import types of modules show as imports of
instances. In an attempt to satisfy the dummy values of such imports the
fuzzing integration would create instances for each import. This would,
however, count towards instance limits and isn't always desired.
This commit refactors the creation of dummy import values to decompose
imports of instances into imports of each individual item. This should
retain the pre-module-linking behavior of dummy imports for various
fuzzers.
* 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.
* Update wasm-tools crates
* Update Wasm SIMD spec tests
* Invert 'experimental_x64_should_panic' logic
By doing this, it is easier to see which spec tests currently panic. The new tests correspond to recently-added instructions.
* Fix: ignore new spec tests for all backends
* Ensure `store` is in the function names
* Don't abort the process on `add_fuel` when fuel isn't configured
* Allow learning about failure in both `add_fuel` and `fuel_consumed`
* Consume fuel during function execution
This commit adds codegen infrastructure necessary to instrument wasm
code to consume fuel as it executes. Currently nothing is really done
with the fuel, but that'll come in later commits.
The focus of this commit is to implement the codegen infrastructure
necessary to consume fuel and account for fuel consumed correctly.
* Periodically check remaining fuel in wasm JIT code
This commit enables wasm code to periodically check to see if fuel has
run out. When fuel runs out an intrinsic is called which can do what it
needs to do in the result of fuel running out. For now a trap is thrown
to have at least some semantics in synchronous stores, but another
planned use for this feature is for asynchronous stores to periodically
yield back to the host based on fuel running out.
Checks for remaining fuel happen in the same locations as interrupt
checks, which is to say the start of the function as well as loop
headers.
* Improve codegen by caching `*const VMInterrupts`
The location of the shared interrupt value and fuel value is through a
double-indirection on the vmctx (load through the vmctx and then load
through that pointer). The second pointer in this chain, however, never
changes, so we can alter codegen to account for this and remove some
extraneous load instructions and hopefully reduce some register
pressure even maybe.
* Add tests fuel can abort infinite loops
* More fuzzing with fuel
Use fuel to time out modules in addition to time, using fuzz input to
figure out which.
* Update docs on trapping instructions
* Fix doc links
* Fix a fuzz test
* Change setting fuel to adding fuel
* Fix a doc link
* Squelch some rustdoc warnings
Fuzzing has turned up that module linking can create large amounts of
tables and memories in addition to instances. For example if N instances
are allowed and M tables are allowed per-instance, then currently
wasmtime allows MxN tables (which is quite a lot). This is causing some
wasm-smith-generated modules to exceed resource limits while fuzzing!
This commits adds corresponding `max_tables` and `max_memories`
functions to sit alongside the `max_instances` configuration.
Additionally fuzzing now by default configures all of these to a
somewhat low value to avoid too much resource usage while fuzzing.
We already cover module linking with the `instantiate-swarm` target and
otherwise enabling module linking is preventing otherwise-valid modules
from being compiled because of the breaking change in the module linking
proposal with respect to imports.
This commit goes through the dependencies that wasmtime has and updates
versions where possible. This notably brings in a wasmparser/wast update
which has some simd spec changes with new instructions. Otherwise most
of these are just routine updates.
This commit updates the various tooling used by wasmtime which has new
updates to the module linking proposal. This is done primarily to sync
with WebAssembly/module-linking#26. The main change implemented here is
that wasmtime now supports creating instances from a set of values, nott
just from instantiating a module. Additionally subtyping handling of
modules with respect to imports is now properly handled by desugaring
two-level imports to imports of instances.
A number of small refactorings are included here as well, but most of
them are in accordance with the changes to `wasmparser` and the updated
binary format for module linking.
* 2499: First pass on TableOps fuzzer generator wasm_encoder migration
- wasm binary generated via sections and smushed together into a module
- test: compare generated wat against expected wat
- note: doesn't work
- Grouped instructions not implemented
- Vec<u8> to wat String not implemented
* 2499: Add typesection, abstract instruction puts, and update test
- TableOp.insert now will interact with a function object directly
- add types for generated function
- expected test string now reflects expected generated code
* 2499: Mark unused index as _i
* 2499: Function insertion is in proper stack order, and fix off by 1
index
- imported functions must be typed
- instructions operate on a stack ie. define values as instructions
before using
* 2499: Apply suggestions from code review
- typo fixing
- oracle ingests binary bytes itself
Co-authored-by: Nick Fitzgerald <fitzgen@gmail.com>
* 2499: Code cleanup + renaming vars
- busywork, nothing to see here
Co-authored-by: Nick Fitzgerald <fitzgen@gmail.com>
Recent changes to fuzzers made expectations more strict about handling
errors while fuzzing, but this erroneously changed a module compilation
step to always assume that the input wasm is valid. Instead a flag is
now passed through indicating whether the wasm blob is known valid or
invalid, and only if compilation fails and it's known valid do we panic.
This commit updates all the wasm-tools crates that we use and enables
fuzzing of the module linking proposal in our various fuzz targets. This
also refactors some of the dummy value generation logic to not be
fallible and to always succeed, the thinking being that we don't want to
accidentally hide errors while fuzzing. Additionally instantiation is
only allowed to fail with a `Trap`, other failure reasons are unwrapped.
I was having limited success fuzzing locally because apparently the
fuzzer was spawning too many threads. Looking into it that indeed
appears to be the case! The threads which time out runtime of wasm only
exit after the sleep has completely finished, meaning that if we execute
a ton of wasm that exits quickly each run will generate a sleeping thread.
This commit fixes the issue by using some synchronization to ensure the
sleeping thread exits when our fuzzed run also exits.
* Implement imported/exported modules/instances
This commit implements the final piece of the module linking proposal
which is to flesh out the support for importing/exporting instances and
modules. This ended up having a few changes:
* Two more `PrimaryMap` instances are now stored in an `Instance`. The value
for instances is `InstanceHandle` (pretty easy) and for modules it's
`Box<dyn Any>` (less easy).
* The custom host state for `InstanceHandle` for `wasmtime` is now
`Arc<TypeTables` to be able to fully reconstruct an instance's types
just from its instance.
* Type matching for imports now has been updated to take
instances/modules into account.
One of the main downsides of this implementation is that type matching
of imports is duplicated between wasmparser and wasmtime, leading to
posssible bugs especially in the subtelties of module linking. I'm not
sure how best to unify these two pieces of validation, however, and it
may be more trouble than it's worth.
cc #2094
* Update wat/wast/wasmparser
* Review comments
* Fix a bug in publish script to vendor the right witx
Currently there's two witx binaries in our repository given the two wasi
spec submodules, so this updates the publication script to vendor the
right one.
This PR adds a new fuzz target, `differential_wasmi`, that runs a
Cranelift-based Wasm backend alongside a simple third-party Wasm
interpeter crate (`wasmi`). The fuzzing runs the first function in a
given module to completion on each side, and then diffs the return value
and linear memory contents.
This strategy should provide end-to-end coverage including both the Wasm
translation to CLIF (which has seen some subtle and scary bugs at
times), the lowering from CLIF to VCode, the register allocation, and
the final code emission.
This PR also adds a feature `experimental_x64` to the fuzzing crate (and
the chain of dependencies down to `cranelift-codegen`) so that we can
fuzz the new x86-64 backend as well as the current one.
* this requires upgrading to wasmparser 0.67.0.
* There are no CLIF side changes because the CLIF `select` instruction is
polymorphic enough.
* on aarch64, there is unfortunately no conditional-move (csel) instruction on
vectors. This patch adds a synthetic instruction `VecCSel` which *does*
behave like that. At emit time, this is emitted as an if-then-else diamond
(4 insns).
* aarch64 implementation is otherwise straightforwards.
This commit adds lots of plumbing to get the type section from the
module linking proposal plumbed all the way through to the `wasmtime`
crate and the `wasmtime-c-api` crate. This isn't all that useful right
now because Wasmtime doesn't support imported/exported
modules/instances, but this is all necessary groundwork to getting that
exported at some point. I've added some light tests but I suspect the
bulk of the testing will come in a future commit.
One major change in this commit is that `SignatureIndex` no longer
follows type type index space in a wasm module. Instead a new
`TypeIndex` type is used to track that. Function signatures, still
indexed by `SignatureIndex`, are then packed together tightly.
I don't think this has happened in awhile but I've run a `cargo update`
as well as trimming some of the duplicate/older dependencies in
`Cargo.lock` by updating some of our immediate dependencies as well.
This commit updates `wasmtime::FuncType` to exactly store an internal
`WasmFuncType` from the cranelift crates. This allows us to remove a
translation layer when we are given a `FuncType` and want to get an
internal cranelift type out as a result.
The other major change from this commit was changing the constructor and
accessors of `FuncType` to be iterator-based instead of exposing
implementation details.
This patch implements, for aarch64, the following wasm SIMD extensions
i32x4.dot_i16x8_s instruction
https://github.com/WebAssembly/simd/pull/127
It also updates dependencies as follows, in order that the new instruction can
be parsed, decoded, etc:
wat to 1.0.27
wast to 26.0.1
wasmparser to 0.65.0
wasmprinter to 0.2.12
The changes are straightforward:
* new CLIF instruction `widening_pairwise_dot_product_s`
* translation from wasm into `widening_pairwise_dot_product_s`
* new AArch64 instructions `smull`, `smull2` (part of the `VecRRR` group)
* translation from `widening_pairwise_dot_product_s` to `smull ; smull2 ; addv`
There is no testcase in this commit, because that is a separate repo. The
implementation has been tested, nevertheless.
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
