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ffi.go
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ffi.go
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package wasmtime
// #cgo CFLAGS:-I${SRCDIR}/build/include
// #cgo !windows LDFLAGS:-lwasmtime -lm -ldl -pthread
// #cgo windows CFLAGS:-DWASM_API_EXTERN= -DWASI_API_EXTERN=
// #cgo windows LDFLAGS:-lwasmtime -luserenv -lole32 -lntdll -lws2_32 -lkernel32 -lbcrypt
// #cgo linux,amd64 LDFLAGS:-L${SRCDIR}/build/linux-x86_64
// #cgo linux,arm64 LDFLAGS:-L${SRCDIR}/build/linux-aarch64
// #cgo darwin,amd64 LDFLAGS:-L${SRCDIR}/build/macos-x86_64
// #cgo darwin,arm64 LDFLAGS:-L${SRCDIR}/build/macos-aarch64
// #cgo windows,amd64 LDFLAGS:-L${SRCDIR}/build/windows-x86_64
// #include <wasm.h>
import "C"
import (
"runtime"
"unsafe"
)
// # What's up with `ptr()` methods?
//
// We use `runtime.SetFinalizer` to free all objects we allocate from C. This
// is intended to make usage of the API much simpler since you don't have to
// close/free anything. The tricky part here though is laid out in
// `runtime.SetFinalizer`'s documentation which is that if you read a
// non-gc-value (like a C pointer) from a GC object then after the value is
// read the GC value might get garbage collected. This is quite bad for us
// because the garbage collection will free the C pointer, making the C pointer
// actually invalid.
//
// The solution is to add `runtime.KeepAlive` calls after C function calls to
// ensure that the GC object lives at least as long as the C function call
// itself. This is naturally quite error-prone, so the goal here with `ptr()`
// methods is to make us a bit more resilient to these sorts of errors and
// expose segfaults during development.
//
// Each `ptr()` method has the basic structure of doing these steps:
//
// 1. First it reads the pointer value from the GC object
// 2. Next it conditionally calls `runtime.GC()`, depending on build flags
// 3. Finally it returns the original pointer value
//
// The goal here is to as aggressively as we can collect GC objects when
// testing and trigger finalizers as frequently as we can. This naturally
// slows things down quite a bit, so conditional compilation (with the `debug`
// tag) is used to enable this. Our CI runs tests with `-tag debug` to make
// sure this is at least run somewhere.
//
// If anyone else has a better idea of what to handle all this it would be very
// much appreciated :)
// Convert a Go string into an owned `wasm_byte_vec_t`
func stringToByteVec(s string) C.wasm_byte_vec_t {
vec := C.wasm_byte_vec_t{}
C.wasm_byte_vec_new_uninitialized(&vec, C.size_t(len(s)))
C.memcpy(unsafe.Pointer(vec.data), unsafe.Pointer(C._GoStringPtr(s)), vec.size)
runtime.KeepAlive(s)
return vec
}