This refactors host functions with no-op or constant returns to be
implemented with wasm instead of the host function bridge. This allows
better performance.
This also breaks up and makes WASI tests consistent, in a way that shows
parameter name drifts easier.
Signed-off-by: Adrian Cole <adrian@tetrate.io>
This improves the experimental logging listener to show parameter name
and values like so:
```
--> ._start.command_export()
--> .__wasm_call_ctors()
--> .__wasilibc_initialize_environ()
==> wasi_snapshot_preview1.environ_sizes_get(result.environc=1048572,result.environBufSize=1048568)
<== ESUCCESS
<-- ()
==> wasi_snapshot_preview1.fd_prestat_get(fd=3,result.prestat=1048568)
<== ESUCCESS
--> .dlmalloc(2)
--> .sbrk(0)
<-- (1114112)
<-- (1060080)
--snip--
```
The convention `==>` implies it was a host function call
(def.IsHostFunction). This also improves the lifecycle by creating
listeners during compile. Finally, this backfills param names for
assemblyscript and wasi.
Signed-off-by: Adrian Cole <adrian@tetrate.io>
This top-levels `api.FunctionDefinition` which was formerly
experimental, and also adds import metadata to it. Now, it holds all
metadata known at compile time.
Here are the public API visible changes:
* api.ExportedFunction - replaced with api.FunctionDefinition as it is
usable for all types of functions.
* api.Function - `.ParamTypes/ResultTypes()` are replaced with
`.Definition().
* api.FunctionDefinition - extracted from experimental and adds
`.Import()` to get the any imported module and function name.
* experimental.FunctionDefinition - replaced with
api.FunctionDefinition.
* experimental.FunctionListenerFactory - adds first arg of the
instantiated module name, as it can be different than compiled.
* wazero.CompiledModule - Adds `.ImportedFunctions()` and changes result
type of `.ExportedFunctions()` to api.FunctionDefinition.
Internally, logic to create function definition are consolidated between
host and wasm-defined functions, notably wasm.Module now includes
`.BuildFunctionDefinitions()` which reduces duplication in
wasm.ModuleInstance `.BuildFunctions()`,
This obviates #681 by deleting the `ExportedFunction` type which
overlaps with this information.
This fixes#637 as it includes more metadata including imports.
Signed-off-by: Adrian Cole <adrian@tetrate.io>
Co-authored-by: Takeshi Yoneda <takeshi@tetrate.io>
This completes the implementation of SIMD proposal for both
the interpreter and compiler(amd64).
This also fixes#210 by adding the complete documentation
over all the wazeroir operations.
Signed-off-by: Takeshi Yoneda <takeshi@tetrate.io>
Co-authored-by: Crypt Keeper <64215+codefromthecrypt@users.noreply.github.com>
This adds two clock interfaces: sys.Walltime and sys.Nanotime to
allow implementations to override readings for purposes of security or
determinism.
The default values of both are a fake timestamp, to avoid the sandbox
break we formerly had by returning the real time. This is similar to how
we don't inherit OS Env values.
This narrows to what the `internal/platform` package supports, which is
currently bound by Go SDK source that include `Mprotect` or windows.
Ex. `zsyscall_linux_amd64.go` includes `Mprotect`, but
`zsyscall_freebsd_amd64.go` does not.
This should prevent errors like below, by allowing `wazero.NewRuntime()`
to properly fallback to the interpreter.
```
.../mmap.go:74:16: undefined: syscall.Mprotect
```
A later change will implement FreeBSD. This is just here to ensure users
don't crash on unexpected OS.
See #607
Signed-off-by: Adrian Cole <adrian@tetrate.io>
This moves the platform-specific runtime code (currently only used by
the compiler) into its own package. Specifically, this moves the mmap
logic, and in doing so makes it easier to test, for example new
operating systems.
This also backfills missing RATIONALE about x/sys and hints at a future
possibility to allow a plugin. However, the next step is to get FreeBSD
working natively on the compiler without any additional dependencies.
See #607
Signed-off-by: Adrian Cole <adrian@tetrate.io>
This notably changes NewRuntimeJIT to NewRuntimeCompiler as well renames
packages from jit to compiler.
This clarifies the implementation is AOT, not JIT, at least when
clarified to where it occurs (Runtime.CompileModule). In doing so, we
reduce any concern that compilation will happen during function
execution. We also free ourselves to create a JIT option without
confusion in the future via CompileConfig or otherwise.
Fixes#560
Signed-off-by: Adrian Cole <adrian@tetrate.io>
