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func.go
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package wasmtime
// #include "shims.h"
import "C"
import (
"errors"
"reflect"
"runtime"
"unsafe"
)
// Func is a function instance, which is the runtime representation of a function.
// It effectively is a closure of the original function over the runtime module instance of its originating module.
// The module instance is used to resolve references to other definitions during execution of the function.
// Read more in [spec](https://webassembly.github.io/spec/core/exec/runtime.html#function-instances)
type Func struct {
val C.wasmtime_func_t
}
// Caller is provided to host-defined functions when they're invoked from
// WebAssembly.
//
// A `Caller` can be used for `Storelike` arguments to allow recursive execution
// or creation of wasm objects. Additionally `Caller` can be used to learn about
// the exports of the calling instance.
type Caller struct {
// Note that unlike other structures in these bindings this is named `ptr`
// instead of `_ptr` because no finalizer is configured with `Caller` so it's
// ok to access this raw value.
ptr *C.wasmtime_caller_t
}
// NewFunc creates a new `Func` with the given `ty` which, when called, will call `f`
//
// The `ty` given is the wasm type signature of the `Func` to create. When called
// the `f` callback receives two arguments. The first is a `Caller` to learn
// information about the calling context and the second is a list of arguments
// represented as a `Val`. The parameters are guaranteed to match the parameters
// types specified in `ty`.
//
// The `f` callback is expected to produce one of two values. Results can be
// returned as an array of `[]Val`. The number and types of these results much
// match the `ty` given, otherwise the program will panic. The `f` callback can
// also produce a trap which will trigger trap unwinding in wasm, and the trap
// will be returned to the original caller.
//
// If the `f` callback panics then the panic will be propagated to the caller
// as well.
func NewFunc(
store Storelike,
ty *FuncType,
f func(*Caller, []Val) ([]Val, *Trap),
) *Func {
idx := insertFuncNew(getDataInStore(store), ty, f)
ret := C.wasmtime_func_t{}
C.go_func_new(
store.Context(),
ty.ptr(),
C.size_t(idx),
0,
&ret,
)
runtime.KeepAlive(store)
runtime.KeepAlive(ty)
return mkFunc(ret)
}
//export goTrampolineNew
func goTrampolineNew(
callerPtr *C.wasmtime_caller_t,
env C.size_t,
argsPtr *C.wasmtime_val_t,
argsNum C.size_t,
resultsPtr *C.wasmtime_val_t,
resultsNum C.size_t,
) *C.wasm_trap_t {
caller := &Caller{ptr: callerPtr}
defer func() { caller.ptr = nil }()
data := getDataInStore(caller)
entry := data.getFuncNew(int(env))
params := make([]Val, int(argsNum))
var val C.wasmtime_val_t
base := unsafe.Pointer(argsPtr)
for i := 0; i < len(params); i++ {
ptr := (*C.wasmtime_val_t)(unsafe.Pointer(uintptr(base) + uintptr(i)*unsafe.Sizeof(val)))
params[i] = mkVal(caller, ptr)
}
var results []Val
var trap *Trap
var lastPanic interface{}
func() {
defer func() { lastPanic = recover() }()
results, trap = entry.callback(caller, params)
if trap != nil {
if trap._ptr == nil {
panic("returned an already-returned trap")
}
return
}
if len(results) != len(entry.results) {
panic("callback didn't produce the correct number of results")
}
for i, ty := range entry.results {
if results[i].Kind() != ty.Kind() {
panic("callback produced wrong type of result")
}
}
}()
if trap == nil && lastPanic != nil {
data.lastPanic = lastPanic
trap := NewTrap("go panicked")
runtime.SetFinalizer(trap, nil)
return trap.ptr()
}
if trap != nil {
runtime.SetFinalizer(trap, nil)
ret := trap.ptr()
trap._ptr = nil
return ret
}
base = unsafe.Pointer(resultsPtr)
for i := 0; i < len(results); i++ {
ptr := (*C.wasmtime_val_t)(unsafe.Pointer(uintptr(base) + uintptr(i)*unsafe.Sizeof(val)))
results[i].initialize(caller, ptr)
}
runtime.KeepAlive(results)
return nil
}
// WrapFunc wraps a native Go function, `f`, as a wasm `Func`.
//
// This function differs from `NewFunc` in that it will determine the type
// signature of the wasm function given the input value `f`. The `f` value
// provided must be a Go function. It may take any number of the following
// types as arguments:
//
// `int32` - a wasm `i32`
//
// `int64` - a wasm `i64`
//
// `float32` - a wasm `f32`
//
// `float64` - a wasm `f64`
//
// `*Caller` - information about the caller's instance
//
// `*Func` - a wasm `funcref`
//
// anything else - a wasm `externref`
//
// The Go function may return any number of values. It can return any number of
// primitive wasm values (integers/floats), and the last return value may
// optionally be `*Trap`. If a `*Trap` returned is `nil` then the other values
// are returned from the wasm function. Otherwise the `*Trap` is returned and
// it's considered as if the host function trapped.
//
// If the function `f` panics then the panic will be propagated to the caller.
func WrapFunc(
store Storelike,
f interface{},
) *Func {
val := reflect.ValueOf(f)
wasmTy := inferFuncType(val)
idx := insertFuncWrap(getDataInStore(store), val)
ret := C.wasmtime_func_t{}
C.go_func_new(
store.Context(),
wasmTy.ptr(),
C.size_t(idx),
1, // this is `WrapFunc`, not `NewFunc`
&ret,
)
runtime.KeepAlive(store)
runtime.KeepAlive(wasmTy)
return mkFunc(ret)
}
func inferFuncType(val reflect.Value) *FuncType {
// Make sure the `interface{}` passed in was indeed a function
ty := val.Type()
if ty.Kind() != reflect.Func {
panic("callback provided must be a `func`")
}
// infer the parameter types, and `*Caller` type is special in the
// parameters so be sure to case on that as well.
params := make([]*ValType, 0, ty.NumIn())
var caller *Caller
for i := 0; i < ty.NumIn(); i++ {
paramTy := ty.In(i)
if paramTy != reflect.TypeOf(caller) {
params = append(params, typeToValType(paramTy))
}
}
// Then infer the result types, where a final `*Trap` result value is
// also special.
results := make([]*ValType, 0, ty.NumOut())
var trap *Trap
for i := 0; i < ty.NumOut(); i++ {
resultTy := ty.Out(i)
if i == ty.NumOut()-1 && resultTy == reflect.TypeOf(trap) {
continue
}
results = append(results, typeToValType(resultTy))
}
return NewFuncType(params, results)
}
func typeToValType(ty reflect.Type) *ValType {
var a int32
if ty == reflect.TypeOf(a) {
return NewValType(KindI32)
}
var b int64
if ty == reflect.TypeOf(b) {
return NewValType(KindI64)
}
var c float32
if ty == reflect.TypeOf(c) {
return NewValType(KindF32)
}
var d float64
if ty == reflect.TypeOf(d) {
return NewValType(KindF64)
}
var f *Func
if ty == reflect.TypeOf(f) {
return NewValType(KindFuncref)
}
return NewValType(KindExternref)
}
//export goTrampolineWrap
func goTrampolineWrap(
callerPtr *C.wasmtime_caller_t,
env C.size_t,
argsPtr *C.wasmtime_val_t,
argsNum C.size_t,
resultsPtr *C.wasmtime_val_t,
resultsNum C.size_t,
) *C.wasm_trap_t {
// Convert all our parameters to `[]reflect.Value`, taking special care
// for `*Caller` but otherwise reading everything through `Val`.
caller := &Caller{ptr: callerPtr}
defer func() { caller.ptr = nil }()
data := getDataInStore(caller)
entry := data.getFuncWrap(int(env))
ty := entry.callback.Type()
params := make([]reflect.Value, ty.NumIn())
base := unsafe.Pointer(argsPtr)
var raw C.wasmtime_val_t
for i := 0; i < len(params); i++ {
if ty.In(i) == reflect.TypeOf(caller) {
params[i] = reflect.ValueOf(caller)
} else {
ptr := (*C.wasmtime_val_t)(base)
val := mkVal(caller, ptr)
params[i] = reflect.ValueOf(val.Get())
base = unsafe.Pointer(uintptr(base) + unsafe.Sizeof(raw))
}
}
// Invoke the function, catching any panics to propagate later. Panics
// result in immediately returning a trap.
var results []reflect.Value
var lastPanic interface{}
func() {
defer func() { lastPanic = recover() }()
results = entry.callback.Call(params)
}()
if lastPanic != nil {
data.lastPanic = lastPanic
trap := NewTrap("go panicked")
runtime.SetFinalizer(trap, nil)
return trap.ptr()
}
// And now we write all the results into memory depending on the type
// of value that was returned.
base = unsafe.Pointer(resultsPtr)
for _, result := range results {
ptr := (*C.wasmtime_val_t)(base)
switch val := result.Interface().(type) {
case int32:
ValI32(val).initialize(caller, ptr)
case int64:
ValI64(val).initialize(caller, ptr)
case float32:
ValF32(val).initialize(caller, ptr)
case float64:
ValF64(val).initialize(caller, ptr)
case *Func:
ValFuncref(val).initialize(caller, ptr)
case *Trap:
if val != nil {
runtime.SetFinalizer(val, nil)
ret := val._ptr
val._ptr = nil
if ret == nil {
data.lastPanic = "cannot return trap twice"
return nil
} else {
return ret
}
}
default:
ValExternref(val).initialize(caller, ptr)
}
base = unsafe.Pointer(uintptr(base) + unsafe.Sizeof(raw))
}
return nil
}
func mkFunc(val C.wasmtime_func_t) *Func {
return &Func{val}
}
// Type returns the type of this func
func (f *Func) Type(store Storelike) *FuncType {
ptr := C.wasmtime_func_type(store.Context(), &f.val)
runtime.KeepAlive(store)
return mkFuncType(ptr, nil)
}
// Call invokes this function with the provided `args`.
//
// This variadic function must be invoked with the correct number and type of
// `args` as specified by the type of this function. This property is checked
// at runtime. Each `args` may have one of the following types:
//
// `int32` - a wasm `i32`
//
// `int64` - a wasm `i64`
//
// `float32` - a wasm `f32`
//
// `float64` - a wasm `f64`
//
// `Val` - correspond to a wasm value
//
// `*Func` - a wasm `funcref`
//
// anything else - a wasm `externref`
//
// This function will have one of three results:
//
// 1. If the function returns successfully, then the `interface{}` return
// argument will be the result of the function. If there were 0 results then
// this value is `nil`. If there was one result then this is that result.
// Otherwise if there were multiple results then `[]Val` is returned.
//
// 2. If this function invocation traps, then the returned `interface{}` value
// will be `nil` and a non-`nil` `*Trap` will be returned with information
// about the trap that happened.
//
// 3. If a panic in Go ends up happening somewhere, then this function will
// panic.
func (f *Func) Call(store Storelike, args ...interface{}) (interface{}, error) {
ty := f.Type(store)
params := ty.Params()
if len(args) > len(params) {
return nil, errors.New("too many arguments provided")
}
paramVals := make([]C.wasmtime_val_t, len(args))
var externrefs []Val
for i, param := range args {
dst := ¶mVals[i]
switch val := param.(type) {
case int:
switch params[i].Kind() {
case KindI32:
dst.kind = C.WASMTIME_I32
C.go_wasmtime_val_i32_set(dst, C.int32_t(val))
case KindI64:
dst.kind = C.WASMTIME_I64
C.go_wasmtime_val_i64_set(dst, C.int64_t(val))
default:
return nil, errors.New("integer provided for non-integer argument")
}
case int32:
dst.kind = C.WASMTIME_I32
C.go_wasmtime_val_i32_set(dst, C.int32_t(val))
case int64:
dst.kind = C.WASMTIME_I64
C.go_wasmtime_val_i64_set(dst, C.int64_t(val))
case float32:
dst.kind = C.WASMTIME_F32
C.go_wasmtime_val_f32_set(dst, C.float(val))
case float64:
dst.kind = C.WASMTIME_F64
C.go_wasmtime_val_f64_set(dst, C.double(val))
case *Func:
dst.kind = C.WASMTIME_FUNCREF
if val != nil {
C.go_wasmtime_val_funcref_set(dst, val.val)
} else {
empty := C.wasmtime_func_t{}
C.go_wasmtime_val_funcref_set(dst, empty)
}
case Val:
val.initialize(store, dst)
default:
externref := ValExternref(val)
externrefs = append(externrefs, externref)
externref.initialize(store, dst)
}
}
resultVals := make([]C.wasmtime_val_t, len(ty.Results()))
err := enterWasm(store, func(trap **C.wasm_trap_t) *C.wasmtime_error_t {
var paramsPtr *C.wasmtime_val_t
if len(paramVals) > 0 {
paramsPtr = (*C.wasmtime_val_t)(unsafe.Pointer(¶mVals[0]))
}
var resultsPtr *C.wasmtime_val_t
if len(resultVals) > 0 {
resultsPtr = (*C.wasmtime_val_t)(unsafe.Pointer(&resultVals[0]))
}
return C.wasmtime_func_call(
store.Context(),
&f.val,
paramsPtr,
C.size_t(len(paramVals)),
resultsPtr,
C.size_t(len(resultVals)),
trap,
)
})
runtime.KeepAlive(store)
runtime.KeepAlive(args)
runtime.KeepAlive(resultVals)
runtime.KeepAlive(paramVals)
runtime.KeepAlive(externrefs)
if err != nil {
return nil, err
}
if len(resultVals) == 0 {
return nil, nil
} else if len(resultVals) == 1 {
ret := takeVal(store, &resultVals[0]).Get()
return ret, nil
} else {
results := make([]Val, len(resultVals))
for i := 0; i < len(results); i++ {
results[i] = takeVal(store, &resultVals[i])
}
return results, nil
}
}
// Implementation of the `AsExtern` interface for `Func`
func (f *Func) AsExtern() C.wasmtime_extern_t {
ret := C.wasmtime_extern_t{kind: C.WASMTIME_EXTERN_FUNC}
C.go_wasmtime_extern_func_set(&ret, f.val)
return ret
}
// GetExport gets an exported item from the caller's module.
//
// May return `nil` if the export doesn't, if it's not a memory, if there isn't
// a caller, etc.
func (c *Caller) GetExport(name string) *Extern {
if c.ptr == nil {
return nil
}
var ret C.wasmtime_extern_t
ok := C.wasmtime_caller_export_get(
c.ptr,
C._GoStringPtr(name),
C._GoStringLen(name),
&ret,
)
runtime.KeepAlive(name)
runtime.KeepAlive(c)
if ok {
return mkExtern(&ret)
}
return nil
}
// Implementation of the `Storelike` interface for `Caller`.
func (c *Caller) Context() *C.wasmtime_context_t {
if c.ptr == nil {
panic("cannot use caller after host function returns")
}
return C.wasmtime_caller_context(c.ptr)
}
// Shim function that's expected to wrap any invocations of WebAssembly from Go
// itself.
//
// This is used to handle traps and error returns from any invocation of
// WebAssembly. This will also automatically propagate panics that happen within
// Go from one end back to this original invocation point.
//
// The `store` object is the context being used for the invocation, and `wasm`
// is the closure which will internally execute WebAssembly. A trap pointer is
// provided to the closure and it's expected that the closure returns an error.
func enterWasm(store Storelike, wasm func(**C.wasm_trap_t) *C.wasmtime_error_t) error {
// Load the internal `storeData` that our `store` references, which is
// used for handling panics which we are going to use here.
data := getDataInStore(store)
var trap *C.wasm_trap_t
err := wasm(&trap)
// Take ownership of any returned values to ensure we properly run
// destructors for them.
var wrappedTrap *Trap
var wrappedError error
if trap != nil {
wrappedTrap = mkTrap(trap)
}
if err != nil {
wrappedError = mkError(err)
}
// Check to see if wasm panicked, and if it did then we need to
// propagate that. Note that this happens after we take ownership of
// return values to ensure they're cleaned up properly.
if data.lastPanic != nil {
lastPanic := data.lastPanic
data.lastPanic = nil
panic(lastPanic)
}
// If there wasn't a panic then we determine whether to return the trap
// or the error.
if wrappedTrap != nil {
return wrappedTrap
}
return wrappedError
}