Previously each module in a module-linking-using-module would compile
all the trampolines for all signatures for all modules. In forest-like
situations with lots of modules this would cause quite a few trampolines
to get compiled. The original intention was to have one global list of
trampolines for all modules in the module-linking graph that they could
all share. With the current design of module linking, however, the
intention is for modules to be relatively isolated from one another
which would make achieving this difficult.
In lieu of total sharing (which would be good for the global scope
anyway but we also don't do that right now) this commit implements an
alternative strategy where each module simply compiles its own
trampolines that it itself can reach. This should mean that
module-linking modules behave more similarly to standalone modules in
terms of trampoline duplication. If we ever do global trampoline
deduplication we can likely batch this all together into one, but for
now this should fix the performance issues seen in fuzzing.
Closes#2525
The JIT build_object routine currently rejects building object files
for any big-endian platform. However, most of the object builder
code works fine for either byte order, with the exception of a small
change in the ObjectBuilderTarget::new routine.
This patch adds that change and removes the assert in build_object.
This was added long ago at this point to assist with caching, but
caching has moved to a different level such that this wonky second level
of a `Module` isn't necessary. This commit removes the `ModuleLocal`
type to simplify accessors and generally make it easier to work with.
* Refactor where results of compilation are stored
This commit refactors the internals of compilation in Wasmtime to change
where results of individual function compilation are stored. Previously
compilation resulted in many maps being returned, and compilation
results generally held all these maps together. This commit instead
switches this to have all metadata stored in a `CompiledFunction`
instead of having a separate map for each item that can be stored.
The motivation for this is primarily to help out with future
module-linking-related PRs. What exactly "module level" is depends on
how we interpret modules and how many modules are in play, so it's a bit
easier for operations in wasmtime to work at the function level where
possible. This means that we don't have to pass around multiple
different maps and a function index, but instead just one map or just
one entry representing a compiled function.
Additionally this change updates where the parallelism of compilation
happens, pushing it into `wasmtime-jit` instead of `wasmtime-environ`.
This is another goal where `wasmtime-jit` will have more knowledge about
module-level pieces with module linking in play. User-facing-wise this
should be the same in terms of parallel compilation, though.
The ultimate goal of this refactoring is to make it easier for the
results of compilation to actually be a set of wasm modules. This means
we won't be able to have a map-per-metadata where the primary key is the
function index, because there will be many modules within one "object
file".
* Don't clear out fields, just don't store them
Persist a smaller set of fields in `CompilationArtifacts` instead of
trying to clear fields out and dynamically not accessing them.
