* allow the ResourceLimiter to reject a memory grow before the
memory's own maximum.
* add a hook so a ResourceLimiter can detect any reason that
a memory grow fails, including if the OS denies additional memory
* add tests for this new functionality. I only took the time to
test the OS denial on Linux, it should be possible on Mac OS
as well but I don't have a test setup. I have no idea how to
do this on windows.
This can be useful for host functions that want to consume fuel to
reflect their relative cost. Additionally it's a relatively easy
addition to have and someone's asking for it!
Closes#3315
Rename the existing AtomicRMW to AtomicRMWLoop and directly lower
atomic_rmw operations, without a loop if LSE support is available.
Copyright (c) 2021, Arm Limited
We _must not_ trigger a GC when moving refs from host code into
Wasm (e.g. returned from a host function or passed as arguments to a Wasm
function). After insertion into the table, this reference is no longer
rooted. If multiple references are being sent from the host into Wasm and we
allowed GCs during insertion, then the following events could happen:
* Reference A is inserted into the activations table. This does not trigger a
GC, but does fill the table to capacity.
* The caller's reference to A is removed. Now the only reference to A is from
the activations table.
* Reference B is inserted into the activations table. Because the table is at
capacity, a GC is triggered.
* A is reclaimed because the only reference keeping it alive was the activation
table's reference (it isn't inside any Wasm frames on the stack yet, so stack
scanning and stack maps don't increment its reference count).
* We transfer control to Wasm, giving it A and B. Wasm uses A. That's a use
after free.
To prevent uses after free, we cannot GC when moving refs into the
`VMExternRefActivationsTable` because we are passing them from the host to Wasm.
On the other hand, when we are *cloning* -- as opposed to moving -- refs from
the host to Wasm, then it is fine to GC while inserting into the activations
table, because the original referent that we are cloning from is still alive and
rooting the ref.
I'm not sure why when run repeatedly v8 has different limits on
call-stack-size but it's not particularly interesting to assert exact
matches here, so this should fix a fuzz-bug-failure found on oss-fuzz.
Implemented `SwidenLow` and `SwidenHigh` for the Cranelift interpreter,
doubling the width and halving the number of lanes preserving the low
and high halves respectively.
Conversions are performed using signed extension.
Copyright (c) 2021, Arm Limited
* Restore running precompiled modules with the CLI
This was accidentally broken when `Module::deserialize` was split out of
`Module::new` long ago, so this adds the detection in the CLI to call
the appropriate method to load the module. This feature is gated behind
an `--allow-precompiled` flag to enable, by default, passing arbitrary
user input to the `wasmtime` command.
Closes#3338
* Fix test on Windows
Modify the `poll_oneoff_files` test to avoid assuming that `poll_oneoff`
returns all pending events, as it may sometimes return only a subset of
events. When multiple events are expected, use a loop, and loop until
all events have been recorded.
The new backends will not emit a stack map for a safepoint if there are zero
live references. Our fuzzy search for stack maps, which was necessary for the
old backend, caused us to use the wrong stack map for some PCs which would in
turn cause us to treat arbitrary stack slots as reference types pointers.
There were cases where the AArch64 backend assumed that an IR
operation would always operate on certain types (the most likely
reason being that the corresponding WebAssembly instruction did
not cover anything else), even though the definition of the IR
operation imposed no constraints like that.
Copyright (c) 2021, Arm Limited.
PR https://github.com/bytecodealliance/wasmtime/pull/3187 introduced a
change to the write_to_slice and read_from_slice routines in
data_value.rs that switched byte order on big-endian systems:
the code used to use native byte order, and now hard-codes
little-endian byte order.
Fix by using native byte order again.
When debug info was enabled, we would put the debug info sections in between the
text section and the unwind info section. But the unwind info is encoded in a
position-independent manner (so that we don't need relocs for it) that relies on
it directly following the text section. The result of the misplacement was some
crashes inside the unwinder.
We were previously using `_wasmtime_eh_frame` but there is no good reason to
add the prefix Wasmtime-specific prefix. Using the standard name allows for
better inspection with standard tools like `dwarfdump`.
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`.
* Remove the `wasmtime wasm2obj` command
This commit removes the `wasm2obj` subcommand of the `wasmtime` CLI.
This subcommand has a very long history and dates back quite far. While
it's existed, however, it's never been documented in terms of the output
it's produced. AFAIK it's only ever been used for debugging to see the
machine code output of Wasmtime on some modules. With recent changes to
the module serialization output the output of `wasmtime compile`, the
`*.cwasm` file, is now a native ELF file which can be fed to standard
tools like `objdump`. Consequently I dont think there's any remaining
need to keep `wasm2obj` around itself, so this commit removes the
subcommand.
* More code to delete
* Try to fix debuginfo tests
Implemented `UwidenLow` and `UwidenHigh` for the Cranelift interpreter,
doubling the width and halving the number of lanes preserving the low
and high halves respectively. Conversions are performed using unsigned
zero extension.
Copyright (c) 2021, Arm Limited
Implemented `Shuffle` for the Cranelift interpreter, to shuffle two SIMD
vectors together based on an immediate mask of 16 bytes.
Copyright (c) 2021, Arm Limited
