Commit Graph

480 Commits

Author SHA1 Message Date
Alex Crichton
12515e6646 Move trap information to a section of the compiled image (#3241)
This commit moves the `traps` field of `FunctionInfo` into a section of
the compiled artifact produced by Cranelift. This section is quite large
and when previously encoded/decoded with `bincode` this can take quite
some time to process. Traps are expected to be relatively rare and it's
not necessarily the right tradeoff to spend so much time
serializing/deserializing this data, so this commit offloads the section
into a custom-encoded binary format located elsewhere in the compiled image.

This is similar to #3240 in its goal which is to move very large pieces
of metadata to their own sections to avoid decoding anything when we
load a precompiled modules. This also has a small benefit that it's
slightly more efficient storage for the trap information too, but that's
a negligible benefit.

This is part of #3230 to make loading modules fast.
2021-08-27 01:09:55 -05:00
Alex Crichton
fc91176685 Move address maps to a section of the compiled image (#3240)
This commit moves the `address_map` field of `FunctionInfo` into a
custom-encoded section of the executable. The goal of this commit is, as
previous commits, to push less data through `bincode`. The `address_map`
field is actually extremely large and has huge benefits of not being
decoded when we load a module. This data is only used for traps and such
as well, so it's not overly important that it's massaged in to precise
data the runtime can extremely speedily use.

The `FunctionInfo` type does retain a tiny bit of information about the
function itself (it's start source location), but other than that the
`FunctionAddressMap` structure is moved from `wasmtime-environ` to
`wasmtime-cranelift` since it's now no longer needed outside of that
context.
2021-08-26 23:06:41 -05:00
Alex Crichton
d12f1d77e6 Convert compilation artifacts to just bytes (#3239)
* Convert compilation artifacts to just bytes

This commit strips the `CompilationArtifacts` type down to simply a list
of bytes. This moves all extra metadata elsewhere to live within the
list of bytes itself as `bincode`-encoded information.

Small affordance is made to avoid an in-process
serialize-then-deserialize round-trip for use cases like `Module::new`,
but otherwise this is mostly just moving some data around.

* Rename data section to `.rodata.wasm`
2021-08-26 21:17:02 -05:00
Peter Huene
a2a6be72c4 Merge pull request #3245 from peterhuene/add-paged-init-setting
Add `paged_memory_initialization` to Config.
2021-08-26 18:54:16 -07:00
Peter Huene
e2b9b54301 Add paged_memory_initialization to Config.
This commit adds a `paged_memory_initialization` setting to `Config`.

The setting controls whether or not an attempt is made to organize data
segments into Wasm pages during compilation.

When used in conjunction with the `uffd` feature on Linux, Wasmtime can
completely skip initializing linear memories and instead initialize any pages
that are accessed for the first time during Wasm execution.
2021-08-26 16:56:38 -07:00
Alex Crichton
d74cc33856 Merge wasmtime-jit and wasmtime-profiling (#3247)
* Merge `wasmtime-jit` and `wasmtime-profiling`

This commit merges the `wasmtime-profiling` crate into the
`wasmtime-jit` crate. It wasn't really buying a ton being a separate
crate and an upcoming refactoring I'd like to do is to remove the
`FinishedFunctions` structure. To enable the profilers to work as they
used to this commit changes them to pass `CompiledModule` as the
argument, but this only works if the profiling trait can see the
`CompiledModule` type.

* Fix a length calculation
2021-08-26 16:22:11 -05:00
Nick Fitzgerald
78c1e4032f Include the function name in Instance::get_typed_func error context (#3243) 2021-08-26 09:18:43 -05:00
Alex Crichton
da5c82b786 Fix a possible use-after-free introduced in #3231 (#3238)
In #3231 the wasm data sections were moved from the
`wasmtime_environ::Module` structure into the `CompilationArtifacts`.
Each `wasmtime_runtime::Instance` holds raw pointers into the data
section owned by the compilation artifacts under the assumption that the
runtime keeps the artifacts alive while the module is in use. Data is
needed beyond original initialization for `memory.init` instructions as
well as lazy-initialization with the `uffd` feature.

The intention of #3231 was that all `CompiledModule` structures, which
own `CompilationArtifacts` were owned by a store's `ModuleRegistry`, so
this was already taken care of. It turns out, however, that empty
modules which contain no functions are not held within a
`ModuleRegistry` since there was no need prior to retain them. This
commit remedies this mistake by retaining the `CompiledModule`
structure, even if there aren't any functions compiled in.

This should unblock #3235 and fixes the spurious error found there. The
test here, at least on Linux, will deterministically reproduce the error
before this commit since `uffd` was initializing wasm memory with free'd
host memory.
2021-08-25 12:14:13 -05:00
Alex Crichton
7d05ebe7ff Move wasm data/debuginfo into the ELF compilation image (#3235)
* Move wasm data/debuginfo into the ELF compilation image

This commit moves existing allocations of `Box<[u8]>` stored separately
from compilation's final ELF image into the ELF image itself. The goal
of this commit is to reduce the amount of data which `bincode` will need
to process in the future. DWARF debugging information and wasm data
segments can be quite large, and they're relatively rarely read, so
there's typically no need to copy them around. Instead by moving them
into the ELF image this opens up the opportunity in the future to
eliminate copies and use data directly as-found in the image itself.

For information accessed possibly-multiple times, such as the wasm data
ranges, the indexes of the data within the ELF image are computed when
a `CompiledModule` is created. These indexes are then used to directly
index into the image without having to root around in the ELF file each
time they're accessed.

One other change located here is that the symbolication context
previously cloned the debug information into it to adhere to the
`'static` lifetime safely, but this isn't actually ever used in
`wasmtime` right now so the unsafety around this has been removed and
instead borrowed data is returned (no more clones, yay!).

* Fix lightbeam
2021-08-25 09:03:07 -05:00
Alex Crichton
a662f5361d Move wasm data sections out of wasmtime_environ::Module (#3231)
* Reduce indentation in `to_paged`

Use a few early-returns from `match` to avoid lots of extra indentation.

* Move wasm data sections out of `wasmtime_environ::Module`

This is the first step down the road of #3230. The long-term goal is
that `Module` is always `bincode`-decoded, but wasm data segments are a
possibly very-large portion of this residing in modules which we don't
want to shove through bincode. This refactors the internals of wasmtime
to be ok with this data living separately from the `Module` itself,
providing access at necessary locations.

Wasm data segments are now extracted from a wasm module and
concatenated directly. Data sections then describe ranges within this
concatenated list of data, and passive data works the same way. This
implementation does not lend itself to eventually optimizing the case
where passive data is dropped and no longer needed. That's left for a
future PR.
2021-08-24 14:04:03 -05:00
Alex Crichton
f3977f1d97 Fix determinism of compiled modules (#3229)
* Fix determinism of compiled modules

Currently wasmtime's compilation artifacts are not deterministic due to
the usage of `HashMap` during serialization which has randomized order
of its elements. This commit fixes that by switching to a sorted
`BTreeMap` for various maps. A test is also added to ensure determinism.

If in the future the performance of `BTreeMap` is not as good as
`HashMap` for some of these cases we can implement a fancier
`serialize_with`-style solution where we sort keys during serialization,
but only during serialization and otherwise use a `HashMap`.

* fix lightbeam
2021-08-23 17:08:19 -05:00
Alex Crichton
f5041dd362 Implement a setting for reserved dynamic memory growth (#3215)
* Implement a setting for reserved dynamic memory growth

Dynamic memories aren't really that heavily used in Wasmtime right now
because for most 32-bit memories they're classified as "static" which
means they reserve 4gb of address space and never move. Growth of a
static memory is simply making pages accessible, so it's quite fast.

With the memory64 feature, however, this is no longer true since all
memory64 memories are classified as "dynamic" at this time. Previous to
this commit growth of a dynamic memory unconditionally moved the entire
linear memory in the host's address space, always resulting in a new
`Mmap` allocation. This behavior is causing fuzzers to time out when
working with 64-bit memories because incrementally growing a memory by 1
page at a time can incur a quadratic time complexity as bytes are
constantly moved.

This commit implements a scheme where there is now a tunable setting for
memory to be reserved at the end of a dynamic memory to grow into. This
means that dynamic memory growth is ideally amortized as most calls to
`memory.grow` will be able to grow into the pre-reserved space. Some
calls, though, will still need to copy the memory around.

This helps enable a commented out test for 64-bit memories now that it's
fast enough to run in debug mode. This is because the growth of memory
in the test no longer needs to copy 4gb of zeros.

* Test fixes & review comments

* More comments
2021-08-20 10:54:23 -05:00
Alex Crichton
ddfadaeb38 Add a cranelift compile-time feature to wasmtime (#3206)
* Remove unnecessary into_iter/map

Forgotten from a previous refactoring, this variable was already of the
right type!

* Move `wasmtime_jit::Compiler` into `wasmtime`

This `Compiler` struct is mostly a historical artifact at this point and
wasn't necessarily pulling much weight any more. This organization also
doesn't lend itself super well to compiling out `cranelift` when the
`Compiler` here is used for both parallel iteration configuration
settings as well as compilation.

The movement into `wasmtime` is relatively small, with
`Module::build_artifacts` being the main function added here which is a
merging of the previous functions removed from the `wasmtime-jit` crate.

* Add a `cranelift` compile-time feature to `wasmtime`

This commit concludes the saga of refactoring Wasmtime and making
Cranelift an optional dependency by adding a new Cargo feature to the
`wasmtime` crate called `cranelift`, which is enabled by default.

This feature is implemented by having a new cfg for `wasmtime` itself,
`cfg(compiler)`, which is used wherever compilation is necessary. This
bubbles up to disable APIs such as `Module::new`, `Func::new`,
`Engine::precompile_module`, and a number of `Config` methods affecting
compiler configuration. Checks are added to CI that when built in this
mode Wasmtime continues to successfully build. It's hoped that although
this is effectively "sprinkle `#[cfg]` until things compile" this won't
be too too bad to maintain over time since it's also an use case we're
interested in supporting.

With `cranelift` disabled the only way to create a `Module` is with the
`Module::deserialize` method, which requires some form of precompiled
artifact.

Two consequences of this change are:

* `Module::serialize` is also disabled in this mode. The reason for this
  is that serialized modules contain ISA/shared flags encoded in them
  which were used to produce the compiled code. There's no storage for
  this if compilation is disabled. This could probably be re-enabled in
  the future if necessary, but it may not end up being all that necessary.

* Deserialized modules are not checked to ensure that their ISA/shared
  flags are compatible with the host CPU. This is actually already the
  case, though, with normal modules. We'll likely want to fix this in
  the future using a shared implementation for both these locations.

Documentation should be updated to indicate that `cranelift` can be
disabled, although it's not really the most prominent documentation
because this is expected to be a somewhat niche use case (albeit
important, just not too common).

* Always enable cranelift for the C API

* Fix doc example builds

* Fix check tests on GitHub Actions
2021-08-18 16:47:47 -05:00
Alex Crichton
87c33c2969 Remove wasmtime-environ's dependency on cranelift-codegen (#3199)
* Move `CompiledFunction` into wasmtime-cranelift

This commit moves the `wasmtime_environ::CompiledFunction` type into the
`wasmtime-cranelift` crate. This type has lots of Cranelift-specific
pieces of compilation and doesn't need to be generated by all Wasmtime
compilers. This replaces the usage in the `Compiler` trait with a
`Box<Any>` type that each compiler can select. Each compiler must still
produce a `FunctionInfo`, however, which is shared information we'll
deserialize for each module.

The `wasmtime-debug` crate is also folded into the `wasmtime-cranelift`
crate as a result of this commit. One possibility was to move the
`CompiledFunction` commit into its own crate and have `wasmtime-debug`
depend on that, but since `wasmtime-debug` is Cranelift-specific at this
time it didn't seem like it was too too necessary to keep it separate.
If `wasmtime-debug` supports other backends in the future we can
recreate a new crate, perhaps with it refactored to not depend on
Cranelift.

* Move wasmtime_environ::reference_type

This now belongs in wasmtime-cranelift and nowhere else

* Remove `Type` reexport in wasmtime-environ

One less dependency on `cranelift-codegen`!

* Remove `types` reexport from `wasmtime-environ`

Less cranelift!

* Remove `SourceLoc` from wasmtime-environ

Change the `srcloc`, `start_srcloc`, and `end_srcloc` fields to a custom
`FilePos` type instead of `ir::SourceLoc`. These are only used in a few
places so there's not much to lose from an extra abstraction for these
leaf use cases outside of cranelift.

* Remove wasmtime-environ's dep on cranelift's `StackMap`

This commit "clones" the `StackMap` data structure in to
`wasmtime-environ` to have an independent representation that that
chosen by Cranelift. This allows Wasmtime to decouple this runtime
dependency of stack map information and let the two evolve
independently, if necessary.

An alternative would be to refactor cranelift's implementation into a
separate crate and have wasmtime depend on that but it seemed a bit like
overkill to do so and easier to clone just a few lines for this.

* Define code offsets in wasmtime-environ with `u32`

Don't use Cranelift's `binemit::CodeOffset` alias to define this field
type since the `wasmtime-environ` crate will be losing the
`cranelift-codegen` dependency soon.

* Commit to using `cranelift-entity` in Wasmtime

This commit removes the reexport of `cranelift-entity` from the
`wasmtime-environ` crate and instead directly depends on the
`cranelift-entity` crate in all referencing crates. The original reason
for the reexport was to make cranelift version bumps easier since it's
less versions to change, but nowadays we have a script to do that.
Otherwise this encourages crates to use whatever they want from
`cranelift-entity` since  we'll always depend on the whole crate.

It's expected that the `cranelift-entity` crate will continue to be a
lean crate in dependencies and suitable for use at both runtime and
compile time. Consequently there's no need to avoid its usage in
Wasmtime at runtime, since "remove Cranelift at compile time" is
primarily about the `cranelift-codegen` crate.

* Remove most uses of `cranelift-codegen` in `wasmtime-environ`

There's only one final use remaining, which is the reexport of
`TrapCode`, which will get handled later.

* Limit the glob-reexport of `cranelift_wasm`

This commit removes the glob reexport of `cranelift-wasm` from the
`wasmtime-environ` crate. This is intended to explicitly define what
we're reexporting and is a transitionary step to curtail the amount of
dependencies taken on `cranelift-wasm` throughout the codebase. For
example some functions used by debuginfo mapping are better imported
directly from the crate since they're Cranelift-specific. Note that
this is intended to be a temporary state affairs, soon this reexport
will be gone entirely.

Additionally this commit reduces imports from `cranelift_wasm` and also
primarily imports from `crate::wasm` within `wasmtime-environ` to get a
better sense of what's imported from where and what will need to be
shared.

* Extract types from cranelift-wasm to cranelift-wasm-types

This commit creates a new crate called `cranelift-wasm-types` and
extracts type definitions from the `cranelift-wasm` crate into this new
crate. The purpose of this crate is to be a shared definition of wasm
types that can be shared both by compilers (like Cranelift) as well as
wasm runtimes (e.g. Wasmtime). This new `cranelift-wasm-types` crate
doesn't depend on `cranelift-codegen` and is the final step in severing
the unconditional dependency from Wasmtime to `cranelift-codegen`.

The final refactoring in this commit is to then reexport this crate from
`wasmtime-environ`, delete the `cranelift-codegen` dependency, and then
update all `use` paths to point to these new types.

The main change of substance here is that the `TrapCode` enum is
mirrored from Cranelift into this `cranelift-wasm-types` crate. While
this unfortunately results in three definitions (one more which is
non-exhaustive in Wasmtime itself) it's hopefully not too onerous and
ideally something we can patch up in the future.

* Get lightbeam compiling

* Remove unnecessary dependency

* Fix compile with uffd

* Update publish script

* Fix more uffd tests

* Rename cranelift-wasm-types to wasmtime-types

This reflects the purpose a bit more where it's types specifically
intended for Wasmtime and its support.

* Fix publish script
2021-08-18 13:14:52 -05:00
Alex Crichton
e8aa7bb53b Reimplement how unwind information is stored (#3180)
* Reimplement how unwind information is stored

This commit is a major refactoring of how unwind information is stored
after compilation of a function has finished. Previously we would store
the raw `UnwindInfo` as a result of compilation and this would get
serialized/deserialized alongside the rest of the ELF object that
compilation creates. Whenever functions were registered with
`CodeMemory` this would also result in registering unwinding information
dynamically at runtime, which in the case of Unix, for example, would
dynamically created FDE/CIE entries on-the-fly.

Eventually I'd like to support compiling Wasmtime without Cranelift, but
this means that `UnwindInfo` wouldn't be easily available to decode into
and create unwinding information from. To solve this I've changed the
ELF object created to have the unwinding information encoded into it
ahead-of-time so loading code into memory no longer needs to create
unwinding tables. This change has two different implementations for
Windows/Unix:

* On Windows the implementation was much easier. The unwinding
  information on Windows is already stored after the function itself in
  the text section. This was actually slightly duplicated in object
  building and in code memory allocation. Now the object building
  continues to do the same, recording unwinding information after
  functions, and code memory no longer manually tracks this.
  Additionally Wasmtime will emit a special custom section in the object
  file with unwinding information which is the list of
  `RUNTIME_FUNCTION` structures that `RtlAddFunctionTable` expects. This
  means that the object file has all the information precompiled into it
  and registration at runtime is simply passing a few pointers around to
  the runtime.

* Unix was a little bit more difficult than Windows. Today a `.eh_frame`
  section is created on-the-fly with offsets in FDEs specified as the
  absolute address that functions are loaded at. This absolute
  address hindered the ability to precompile the FDE into the object
  file itself. I've switched how addresses are encoded, though, to using
  `DW_EH_PE_pcrel` which means that FDE addresses are now specified
  relative to the FDE itself. This means that we can maintain a fixed
  offset between the `.eh_frame` loaded in memory and the beginning of
  code memory. When doing so this enables precompiling the `.eh_frame`
  section into the object file and at runtime when loading an object no
  further construction of unwinding information is needed.

The overall result of this commit is that unwinding information is no
longer stored in its cranelift-data-structure form on disk. This means
that this unwinding information format is only present during
compilation, which will make it that much easier to compile out
cranelift in the future.

This commit also significantly refactors `CodeMemory` since the way
unwinding information is handled is not much different from before.
Previously `CodeMemory` was suitable for incrementally adding more and
more functions to it, but nowadays a `CodeMemory` either lives per
module (in which case all functions are known up front) or it's created
once-per-`Func::new` with two trampolines. In both cases we know all
functions up front so the functionality of incrementally adding more and
more segments is no longer needed. This commit removes the ability to
add a function-at-a-time in `CodeMemory` and instead it can now only
load objects in their entirety. A small helper function is added to
build a small object file for trampolines in `Func::new` to handle
allocation there.

Finally, this commit also folds the `wasmtime-obj` crate directly into
the `wasmtime-cranelift` crate and its builder structure to be more
amenable to this strategy of managing unwinding tables.

It is not intentional to have any real functional change as a result of
this commit. This might accelerate loading a module from cache slightly
since less work is needed to manage the unwinding information, but
that's just a side benefit from the main goal of this commit which is to
remove the dependence on cranelift unwinding information being available
at runtime.

* Remove isa reexport from wasmtime-environ

* Trim down reexports of `cranelift-codegen`

Remove everything non-essential so that only the bits which will need to
be refactored out of cranelift remain.

* Fix debug tests

* Review comments
2021-08-17 17:14:18 -05:00
Alex Crichton
0313e30d76 Remove dependency on TargetIsa from Wasmtime crates (#3178)
This commit started off by deleting the `cranelift_codegen::settings`
reexport in the `wasmtime-environ` crate and then basically played
whack-a-mole until everything compiled again. The main result of this is
that the `wasmtime-*` family of crates have generally less of a
dependency on the `TargetIsa` trait and type from Cranelift. While the
dependency isn't entirely severed yet this is at least a significant
start.

This commit is intended to be largely refactorings, no functional
changes are intended here. The refactorings are:

* A `CompilerBuilder` trait has been added to `wasmtime_environ` which
  server as an abstraction used to create compilers and configure them
  in a uniform fashion. The `wasmtime::Config` type now uses this
  instead of cranelift-specific settings. The `wasmtime-jit` crate
  exports the ability to create a compiler builder from a
  `CompilationStrategy`, which only works for Cranelift right now. In a
  cranelift-less build of Wasmtime this is expected to return a trait
  object that fails all requests to compile.

* The `Compiler` trait in the `wasmtime_environ` crate has been souped
  up with a number of methods that Wasmtime and other crates needed.

* The `wasmtime-debug` crate is now moved entirely behind the
  `wasmtime-cranelift` crate.

* The `wasmtime-cranelift` crate is now only depended on by the
  `wasmtime-jit` crate.

* Wasm types in `cranelift-wasm` no longer contain their IR type,
  instead they only contain the `WasmType`. This is required to get
  everything to align correctly but will also be required in a future
  refactoring where the types used by `cranelift-wasm` will be extracted
  to a separate crate.

* I moved around a fair bit of code in `wasmtime-cranelift`.

* Some gdb-specific jit-specific code has moved from `wasmtime-debug` to
  `wasmtime-jit`.
2021-08-16 09:55:39 -05:00
Alex Crichton
e9f33fc618 Move all trampoline compilation to wasmtime-cranelift (#3176)
* Move all trampoline compilation to `wasmtime-cranelift`

This commit moves compilation of all the trampolines used in wasmtime
behind the `Compiler` trait object to live in `wasmtime-cranelift`. The
long-term goal of this is to enable depending on cranelift *only* from
the `wasmtime-cranelift` crate, so by moving these dependencies we
should make that a little more flexible.

* Fix windows build
2021-08-12 16:58:21 -05:00
Alex Crichton
e68aa99588 Implement the memory64 proposal in Wasmtime (#3153)
* 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
2021-08-12 09:40:20 -05:00
Sergei Shulepov
cbabcacb0f wasmtime: Option to disable parallel compilation (#3169)
* Introduce parallel-compilation configuration switch

* Plumb parallel_compilation config to compilation

* Adjust obj.rs

* Address review

* Fix compilation fail in `cache` crate

* Fix obj.rs

Also remove the now unneeded feature in /Cargo.toml

* fmt
2021-08-10 14:09:15 -05:00
Alex Crichton
4cfa031c5f Implement API support for v128-globals (#3147)
Found via fuzzing, and looks like these were accidentally left out along
the way SIMD was taking shape.
2021-08-05 13:02:34 -05:00
Alex Crichton
a33caec9be Bump the wasm-tools crates (#3139)
* Bump the wasm-tools crates

Pulls in some updates here and there, mostly for updating crates to the
latest version to prepare for later memory64 work.

* Update lightbeam
2021-08-04 09:53:47 -05:00
Chris Fallin
a13a777230 Bump to Wasmtime v0.29.0 and Cranelift 0.76.0. 2021-08-02 11:24:09 -07:00
Alex Crichton
63a3bbbf5a Change VMMemoryDefinition::current_length to usize (#3134)
* Change VMMemoryDefinition::current_length to `usize`

This commit changes the definition of
`VMMemoryDefinition::current_length` to `usize` from its previous
definition of `u32`. This is a pretty impactful change because it also
changes the cranelift semantics of "dynamic" heaps where the bound
global value specifier must now match the pointer type for the platform
rather than the index type for the heap.

The motivation for this change is that the `current_length` field (or
bound for the heap) is intended to reflect the current size of the heap.
This is bound by `usize` on the host platform rather than `u32` or`
u64`. The previous choice of `u32` couldn't represent a 4GB memory
because we couldn't put a number representing 4GB into the
`current_length` field. By using `usize`, which reflects the host's
memory allocation, this should better reflect the size of the heap and
allows Wasmtime to support a full 4GB heap for a wasm program (instead
of 4GB minus one page).

This commit also updates the legalization of the `heap_addr` clif
instruction to appropriately cast the address to the platform's pointer
type, handling bounds checks along the way. The practical impact for
today's targets is that a `uextend` is happening sooner than it happened
before, but otherwise there is no intended impact of this change. In the
future when 64-bit memories are supported there will likely need to be
fancier logic which handles offsets a bit differently (especially in the
case of a 64-bit memory on a 32-bit host).

The clif `filetest` changes should show the differences in codegen, and
the Wasmtime changes are largely removing casts here and there.

Closes #3022

* Add tests for memory.size at maximum memory size

* Add a dfg helper method
2021-08-02 13:09:40 -05:00
Shamil
072d5dc978 Fix typo in doc (#3127) 2021-07-29 08:59:41 -05:00
Alex Crichton
9b088756b3 Implement Linker::module_async (#3121)
This implements and adds the async counterpart of the `Linker::module`
method.

Closes #3077
2021-07-27 16:17:45 -05:00
Nick Fitzgerald
514bbb20b4 Update backtrace to 0.3.61 2021-07-26 12:05:44 -07:00
Peter Huene
ad054c6bce Add more documentation to ModuleLimits and InstanceLimits.
This commit adds some clarifying documentation to both the `ModuleLimits` and
`InstanceLimits` types in the Wasmtime API.

It clarifies how each setting relates to the memory allocated by the pooling
instance allocator.

Closes #3080.
2021-07-23 14:26:48 -07:00
Nick Fitzgerald
f136f73033 Reword get_export mutable context docs to be more user-facing 2021-07-21 11:25:49 -07:00
Nick Fitzgerald
943d027757 Document reborrowing issues for AsContextMut and workarounds 2021-07-21 09:28:36 -07:00
Nick Fitzgerald
4c9f90e89d Document why get_export requires a mutable context 2021-07-21 09:10:09 -07:00
Alex Crichton
3da677796b Reword env var hint for dwarf debug info (#3081)
* Reword env var hint for dwarf debug info

Try not to declare that more information will indeed be displayed,
instead suggest that the output may improve if the env var is set since
dwarf debug info wasn't parsed.

cc bytecodealliance/wasmtime-go#90

* Fix test assertion
2021-07-15 16:33:47 -05:00
Stephan Renatus
f3b80ece5f c-api: add wasmtime_trap_code (#3086)
Eventually this should be added to the wasmtime-go binding, addressing
https://github.com/bytecodealliance/wasmtime-go/issues/63.

Added a snippet to examples/interrupt.c to verify that this works as
expected in manual testing.

Signed-off-by: Stephan Renatus <stephan.renatus@gmail.com>
2021-07-15 10:31:03 -05:00
Alex Crichton
13d317a0a8 Fix stack checks of recursive async function calls (#3088)
* Fix stack checks of recursive async function calls

Previously the stack pointer limit wasn't adjusted, even in the face of
stack switching. This commit updates the logic around the stack limit
calculation to configure it on all async function calls, even if they're
recursive. Synchronous function calls, however, continue to only
configure the stack limit at the start, not for recursive calls.

* Update crates/wasmtime/src/func.rs

Co-authored-by: Peter Huene <peter@huene.dev>

Co-authored-by: Peter Huene <peter@huene.dev>
2021-07-14 16:32:30 -05:00
Peter Huene
75e5219792 Merge pull request #3034 from alexcrichton/update-config
Update documentation in Config about Send futures
2021-07-12 18:39:04 -07:00
Benoît CORTIER
cfeaa95b54 wasmtime: fix typo in Store doc 2021-07-12 21:28:15 -04:00
Ulan Degenbaev
f08491eeca Restore POSIX signal handling on MacOS behind a feature flag (#3063)
* Restore POSIX signal handling on MacOS behind a feature flag

As described in Issue #3052, the switch to Mach Exception handling
removed `unix::StoreExt` from the public API of crate on MacOS.
That is a breaking change and makes it difficult for some
application to upgrade to the current stable Wasmtime.

As a workaround this PR introduces a feature flag called
`posix-signals-on-macos` that restores the old behaviour on MacOS.
The flag is disabled by default.

* Fix test guard

* Fix formatting in the test
2021-07-12 16:25:44 -05:00
Alphyr
808582826b Enable nightly doc features on docs.rs (#3076) 2021-07-12 09:24:55 -05:00
Peter Huene
89ed663058 Merge pull request #3068 from fitzgen/error-msg-off-by-one
Fix error messages reporting number of expected vs actual params
2021-07-07 17:50:13 -07:00
Nick Fitzgerald
be60fec6ba Fix error messages reporting number of expected vs actual params
We previously had some off-by-one errors in our error messages and this led to
very confusing messages like "expected 0 types, found 0" that were quite
annoying to debug as an API consumer.
2021-07-07 11:32:40 -07:00
Alex Crichton
b9985fe2e5 Change the injection count of fuel in a store from u32 to u64 (#3048)
* Change the injection count of fuel in a store from u32 to u64

This commit updates the type of the amount of times to inject fuel in
the `out_of_fuel_async_yield` to `u64` instead of `u32`. This should
allow effectively infinite fuel to get injected, even if a small amount
of fuel is injected per iteration.

Closes #2927
Closes #3046

* Fix tokio example
2021-07-01 10:46:21 -05:00
Benjamin Bouvier
a603fc5bd5 Add a way to display only the trap's reason (without the backtrace) (#3033) 2021-06-30 09:34:47 -05:00
Alex Crichton
c5609bc364 Update documentation of enter/exit hooks (#3041)
Clarify that they're executed not only around imports but also around
function calls. Additionally spell out the semantics around traps a bit
more clearly too.
2021-06-29 12:57:39 -05:00
Alex Crichton
7e31a0bbce Update documentation in Config about Send futures
Futures are indeed `Send` now!
2021-06-25 07:38:47 -07:00
Ulrich Weigand
83007b79e3 Fix access to VMMemoryDefinition::current_length on big-endian (#3013)
The current_length member is defined as "usize" in Rust code,
but generated wasm code refers to it as if it were "u32".
While this happens to mostly work on little-endian machines
(as long as the length is < 4GB), it will always fail on
big-endian machines.

Fixed by making current_length "u32" in Rust as well, and
ensuring the actual memory size is always less than 4GB.
2021-06-23 11:45:32 -05:00
Alex Crichton
8760bccc8e Fix running enter/exit hooks on start functions (#3001)
This commit fixes running the store's enter/exit hooks into wasm which
accidentally weren't run for an instance's `start` function. The fix
here was mostly to just sink the enter/exit hook much lower in the code
to `invoke_wasm_and_catch_traps`, which is the common entry point for
all wasm calls.

This did involve propagating the `StoreContext<T>` generic rather than
using `StoreOpaque` unfortunately, but it is overally not too too much
code and we generally wanted most of it inlined anyway.
2021-06-21 16:31:10 -05:00
Anton Kirilov
cb93726250 Enable more tests on AArch64 (#2994)
Copyright (c) 2021, Arm Limited.
2021-06-21 12:26:44 -05:00
Alex Crichton
7ce46043dc Add guard pages to the front of linear memories (#2977)
* Add guard pages to the front of linear memories

This commit implements a safety feature for Wasmtime to place guard
pages before the allocation of all linear memories. Guard pages placed
after linear memories are typically present for performance (at least)
because it can help elide bounds checks. Guard pages before a linear
memory, however, are never strictly needed for performance or features.
The intention of a preceding guard page is to help insulate against bugs
in Cranelift or other code generators, such as CVE-2021-32629.

This commit adds a `Config::guard_before_linear_memory` configuration
option, defaulting to `true`, which indicates whether guard pages should
be present both before linear memories as well as afterwards. Guard
regions continue to be controlled by
`{static,dynamic}_memory_guard_size` methods.

The implementation here affects both on-demand allocated memories as
well as the pooling allocator for memories. For on-demand memories this
adjusts the size of the allocation as well as adjusts the calculations
for the base pointer of the wasm memory. For the pooling allocator this
will place a singular extra guard region at the very start of the
allocation for memories. Since linear memories in the pooling allocator
are contiguous every memory already had a preceding guard region in
memory, it was just the previous memory's guard region afterwards. Only
the first memory needed this extra guard.

I've attempted to write some tests to help test all this, but this is
all somewhat tricky to test because the settings are pretty far away
from the actual behavior. I think, though, that the tests added here
should help cover various use cases and help us have confidence in
tweaking the various `Config` settings beyond their defaults.

Note that this also contains a semantic change where
`InstanceLimits::memory_reservation_size` has been removed. Instead this
field is now inferred from the `static_memory_maximum_size` and guard
size settings. This should hopefully remove some duplication in these
settings, canonicalizing on the guard-size/static-size settings as the
way to control memory sizes and virtual reservations.

* Update config docs

* Fix a typo

* Fix benchmark

* Fix wasmtime-runtime tests

* Fix some more tests

* Try to fix uffd failing test

* Review items

* Tweak 32-bit defaults

Makes the pooling allocator a bit more reasonable by default on 32-bit
with these settings.
2021-06-18 09:57:08 -05:00
Alex Crichton
d8d4bf81b2 Reimplement how instance exports are stored/loaded (#2984)
* Reimplement how instance exports are stored/loaded

This commit internally refactors how instance exports are handled and
fixes two issues. One issue is that when we instantiate an instance we
no longer forcibly load all items from the instance immediately,
deferring insertion of each item into the store data tables to happen
later as necessary. The next issue is that repeated calls to
`Caller::get_export` would continuously insert items into the store data
tables. While working as intended this was undesirable because it would
continuously push onto a vector that only got deallocated once the
entire store was deallocate. Now it's routed to `Instance::get_export`
which doesn't have this behavior.

Closes #2916
Closes #2983

* Just define our own `Either`
2021-06-17 14:27:48 -05:00
Alex Crichton
fb07ff5740 Implement Clone for Linker (#2993)
There's no real reason to not do this, and it can help with some
usability use cases!
2021-06-16 16:06:24 -05:00
Alex Crichton
5140fd251a Update wasm-tools crates (#2989)
* Update wasm-tools crates

This brings in recent updates, notably including more improvements to
wasm-smith which will hopefully help exercise non-trapping wasm more.

* Fix some wat
2021-06-15 22:56:10 -05:00