@ -1,10 +1,12 @@
use crate ::callable ::{ NativeCallable , WasmtimeFn , WrappedCallable } ;
use crate ::{ Callable , FuncType , Store , Trap , Val , ValType } ;
use std ::fmt ;
use std ::mem ;
use std ::panic ::{ self , AssertUnwindSafe } ;
use std ::ptr ;
use std ::rc ::Rc ;
use wasmtime_jit ::InstanceHandle ;
use wasmtime_runtime ::VMContext ;
use wasmtime_runtime ::{ VMContext , VMFunctionBody } ;
/// A WebAssembly function which can be called.
///
@ -38,7 +40,7 @@ macro_rules! wrappers {
pub fn $name < F , $( $args , ) * R > ( store : & Store , func : F ) -> Func
where
F : Fn ( $( $args ) , * ) -> R + 'static ,
$( $args : WasmArg , ) *
$( $args : WasmTy , ) *
R : WasmRet ,
{
#[ allow(non_snake_case) ]
@ -49,7 +51,7 @@ macro_rules! wrappers {
) -> R ::Abi
where
F : Fn ( $( $args ) , * ) -> R + 'static ,
$( $args : WasmArg , ) *
$( $args : WasmTy , ) *
R : WasmRet ,
{
let ret = {
@ -88,6 +90,70 @@ macro_rules! wrappers {
) * )
}
macro_rules ! getters {
( $(
$( #[ $doc:meta ] ) *
( $name :ident $(, $args :ident ) * )
) * ) = > ( $(
$( #[ $doc ] ) *
#[ allow(non_snake_case) ]
pub fn $name < $( $args , ) * R > ( & self )
-> Option < impl Fn ( $( $args , ) * ) -> Result < R , Trap > >
where
$( $args : WasmTy , ) *
R : WasmTy ,
{
// Verify all the paramers match the expected parameters, and that
// there are no extra parameters...
let mut params = self . ty ( ) . params ( ) . iter ( ) . cloned ( ) ;
$(
if ! $args ::matches ( & mut params ) {
return None ;
}
) *
if ! params . next ( ) . is_none ( ) {
return None ;
}
// ... then do the same for the results...
let mut results = self . ty ( ) . results ( ) . iter ( ) . cloned ( ) ;
if ! R ::matches ( & mut results ) {
return None ;
}
if ! results . next ( ) . is_none ( ) {
return None ;
}
// ... and then once we've passed the typechecks we can hand out our
// object since our `transmute` below should be safe!
let ( address , vmctx ) = match self . wasmtime_export ( ) {
wasmtime_runtime ::Export ::Function { address , vmctx , signature : _ } = > {
( * address , * vmctx )
}
_ = > return None ,
} ;
Some ( move | $( $args : $args ) , * | -> Result < R , Trap > {
unsafe {
let f = mem ::transmute ::<
* const VMFunctionBody ,
unsafe extern "C" fn (
* mut VMContext ,
* mut VMContext ,
$( $args ::Abi , ) *
) -> R ::Abi ,
> ( address ) ;
let mut ret = None ;
$( let $args = $args . into_abi ( ) ; ) *
wasmtime_runtime ::catch_traps ( vmctx , | | {
ret = Some ( f ( vmctx , ptr ::null_mut ( ) , $( $args , ) * ) ) ;
} ) . map_err ( Trap ::from_jit ) ? ;
Ok ( R ::from_abi ( vmctx , ret . unwrap ( ) ) )
}
} )
}
) * )
}
impl Func {
/// Creates a new `Func` with the given arguments, typically to create a
/// user-defined function to pass as an import to a module.
@ -267,6 +333,50 @@ impl Func {
let callable = WasmtimeFn ::new ( store , instance_handle , export ) ;
Func ::from_wrapped ( store , ty , Rc ::new ( callable ) )
}
getters ! {
/// Extracts a natively-callable object from this `Func`, if the
/// signature matches.
///
/// See the [`Func::get1`] method for more documentation.
( get0 )
/// Extracts a natively-callable object from this `Func`, if the
/// signature matches.
///
/// This function serves as an optimized version of the [`Func::call`]
/// method if the type signature of a function is statically known to
/// the program. This method is faster than `call` on a few metrics:
///
/// * Runtime type-checking only happens once, when this method is
/// called.
/// * The result values, if any, aren't boxed into a vector.
/// * Arguments and return values don't go through boxing and unboxing.
/// * No trampolines are used to transfer control flow to/from JIT code,
/// instead this function jumps directly into JIT code.
///
/// For more information about which Rust types match up to which wasm
/// types, see the documentation on [`Func::wrap1`].
///
/// # Return
///
/// This function will return `None` if the type signature asserted
/// statically does not match the runtime type signature. `Some`,
/// however, will be returned if the underlying function takes one
/// parameter of type `A` and returns the parameter `R`. Currently `R`
/// can either be `()` (no return values) or one wasm type. At this time
/// a multi-value return isn't supported.
///
/// The returned closure will always return a `Result<R, Trap>` and an
/// `Err` is returned if a trap happens while the wasm is executing.
( get1 , A )
/// Extracts a natively-callable object from this `Func`, if the
/// signature matches.
///
/// See the [`Func::get1`] method for more documentation.
( get2 , A , B )
}
}
impl fmt ::Debug for Func {
@ -283,66 +393,105 @@ impl fmt::Debug for Func {
/// stable over time.
///
/// For more information see [`Func::wrap1`]
pub trait WasmArg {
pub trait WasmTy {
#[ doc(hidden) ]
type Abi ;
type Abi : Copy ;
#[ doc(hidden) ]
fn push ( dst : & mut Vec < ValType > ) ;
#[ doc(hidden) ]
fn matches ( tys : impl Iterator < Item = ValType > ) -> bool ;
#[ doc(hidden) ]
fn from_abi ( vmctx : * mut VMContext , abi : Self ::Abi ) -> Self ;
#[ doc(hidden) ]
fn into_abi ( self ) -> Self ::Abi ;
}
impl WasmArg for ( ) {
impl WasmTy for ( ) {
type Abi = ( ) ;
fn push ( _dst : & mut Vec < ValType > ) { }
fn matches ( _tys : impl Iterator < Item = ValType > ) -> bool {
true
}
#[ inline ]
fn from_abi ( _vmctx : * mut VMContext , abi : Self ::Abi ) -> Self {
abi
}
#[ inline ]
fn into_abi ( self ) -> Self ::Abi {
self
}
}
impl WasmArg for i32 {
impl WasmTy for i32 {
type Abi = Self ;
fn push ( dst : & mut Vec < ValType > ) {
dst . push ( ValType ::I32 ) ;
}
fn matches ( mut tys : impl Iterator < Item = ValType > ) -> bool {
tys . next ( ) = = Some ( ValType ::I32 )
}
#[ inline ]
fn from_abi ( _vmctx : * mut VMContext , abi : Self ::Abi ) -> Self {
abi
}
#[ inline ]
fn into_abi ( self ) -> Self ::Abi {
self
}
}
impl WasmArg for i64 {
impl WasmTy for i64 {
type Abi = Self ;
fn push ( dst : & mut Vec < ValType > ) {
dst . push ( ValType ::I64 ) ;
}
fn matches ( mut tys : impl Iterator < Item = ValType > ) -> bool {
tys . next ( ) = = Some ( ValType ::I64 )
}
#[ inline ]
fn from_abi ( _vmctx : * mut VMContext , abi : Self ::Abi ) -> Self {
abi
}
#[ inline ]
fn into_abi ( self ) -> Self ::Abi {
self
}
}
impl WasmArg for f32 {
impl WasmTy for f32 {
type Abi = Self ;
fn push ( dst : & mut Vec < ValType > ) {
dst . push ( ValType ::F32 ) ;
}
fn matches ( mut tys : impl Iterator < Item = ValType > ) -> bool {
tys . next ( ) = = Some ( ValType ::F32 )
}
#[ inline ]
fn from_abi ( _vmctx : * mut VMContext , abi : Self ::Abi ) -> Self {
abi
}
#[ inline ]
fn into_abi ( self ) -> Self ::Abi {
self
}
}
impl WasmArg for f64 {
impl WasmTy for f64 {
type Abi = Self ;
fn push ( dst : & mut Vec < ValType > ) {
dst . push ( ValType ::F64 ) ;
}
fn matches ( mut tys : impl Iterator < Item = ValType > ) -> bool {
tys . next ( ) = = Some ( ValType ::F64 )
}
#[ inline ]
fn from_abi ( _vmctx : * mut VMContext , abi : Self ::Abi ) -> Self {
abi
}
#[ inline ]
fn into_abi ( self ) -> Self ::Abi {
self
}
}
/// A trait implemented for types which can be returned from closures passed to
@ -359,31 +508,41 @@ pub trait WasmRet {
#[ doc(hidden) ]
fn push ( dst : & mut Vec < ValType > ) ;
#[ doc(hidden) ]
fn matches ( tys : impl Iterator < Item = ValType > ) -> bool ;
#[ doc(hidden) ]
fn into_abi ( self ) -> Self ::Abi ;
}
impl < T : WasmArg > WasmRet for T {
type Abi = T ;
impl < T : WasmTy > WasmRet for T {
type Abi = T ::Abi ;
fn push ( dst : & mut Vec < ValType > ) {
T ::push ( dst )
}
fn matches ( tys : impl Iterator < Item = ValType > ) -> bool {
T ::matches ( tys )
}
#[ inline ]
fn into_abi ( self ) -> Self ::Abi {
self
T ::into_abi ( self )
}
}
impl < T : WasmArg > WasmRet for Result < T , Trap > {
type Abi = T ;
impl < T : WasmTy > WasmRet for Result < T , Trap > {
type Abi = T ::Abi ;
fn push ( dst : & mut Vec < ValType > ) {
T ::push ( dst )
}
fn matches ( tys : impl Iterator < Item = ValType > ) -> bool {
T ::matches ( tys )
}
#[ inline ]
fn into_abi ( self ) -> Self ::Abi {
match self {
Ok ( val ) = > return val ,
Ok ( val ) = > return val . into_abi ( ) ,
Err ( trap ) = > handle_trap ( trap ) ,
}
Alex Crichton
5 years ago
GitHub