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wasmtime/crates/wiggle/generate/src/funcs.rs
Pat Hickey 94467bcd9a wiggle: bugfix, generated code should use Names::runtime_mod not wiggle 
as the crate from which these deps come.

I worked around this in lucet, but I'll be able to revert that
workaround.
2021-01-11 18:03:48 -08:00

354 lines
12 KiB
Rust
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use proc_macro2::TokenStream;
use quote::quote;
use crate::error_transform::ErrorTransform;
use crate::lifetimes::anon_lifetime;
use crate::module_trait::passed_by_reference;
use crate::names::Names;
use crate::types::WiggleType;
pub fn define_func(
names: &Names,
module: &witx::Module,
func: &witx::InterfaceFunc,
errxform: &ErrorTransform,
) -> TokenStream {
let funcname = func.name.as_str();
let ident = names.func(&func.name);
let rt = names.runtime_mod();
let ctx_type = names.ctx_type();
let coretype = func.core_type();
let params = coretype.args.iter().map(|arg| {
let name = names.func_core_arg(arg);
let atom = names.atom_type(arg.repr());
quote!(#name : #atom)
});
let abi_args = quote!(
ctx: &#ctx_type,
memory: &dyn #rt::GuestMemory,
#(#params),*
);
let abi_ret = if let Some(ret) = &coretype.ret {
match ret.signifies {
witx::CoreParamSignifies::Value(atom) => names.atom_type(atom),
_ => unreachable!("ret should always be passed by value"),
}
} else {
quote!(())
};
let err_type = coretype.ret.clone().map(|ret| ret.param.tref);
let ret_err = coretype
.ret
.map(|ret| {
let name = names.func_param(&ret.param.name);
let conversion = if let Some(user_err) = errxform.for_abi_error(&ret.param.tref) {
let method = names.user_error_conversion_method(&user_err);
quote!(UserErrorConversion::#method(ctx, e))
} else {
quote!(Ok(e))
};
quote! {
let e = #conversion;
#rt::tracing::event!(
#rt::tracing::Level::TRACE,
#name = #rt::tracing::field::debug(&e),
);
match e {
Ok(e) => { return Ok(#abi_ret::from(e)); },
Err(e) => { return Err(e); },
}
}
})
.unwrap_or_else(|| quote!(()));
let error_handling = |location: &str| -> TokenStream {
if let Some(tref) = &err_type {
let abi_ret = match tref.type_().passed_by() {
witx::TypePassedBy::Value(atom) => names.atom_type(atom),
_ => unreachable!("err should always be passed by value"),
};
let err_typename = names.type_ref(&tref, anon_lifetime());
let err_method = names.guest_error_conversion_method(&tref);
quote! {
let e = #rt::GuestError::InFunc { funcname: #funcname, location: #location, err: Box::new(e.into()) };
let err: #err_typename = GuestErrorConversion::#err_method(ctx, e);
return Ok(#abi_ret::from(err));
}
} else {
quote! {
panic!("error: {:?}", e)
}
}
};
let marshal_args = func
.params
.iter()
.map(|p| marshal_arg(names, p, error_handling(p.name.as_str())));
let trait_args = func.params.iter().map(|param| {
let name = names.func_param(&param.name);
if passed_by_reference(&*param.tref.type_()) {
quote!(&#name)
} else {
quote!(#name)
}
});
let log_marshalled_args = if func.params.len() > 0 {
let rt = names.runtime_mod();
let args = func.params.iter().map(|param| {
let name = names.func_param(&param.name);
if param.impls_display() {
quote!( #name = #rt::tracing::field::display(&#name) )
} else {
quote!( #name = #rt::tracing::field::debug(&#name) )
}
});
quote! {
#rt::tracing::event!(#rt::tracing::Level::TRACE, #(#args),*);
}
} else {
quote!()
};
let (trait_rets, trait_bindings) = if func.results.len() < 2 {
(quote!({}), quote!(_))
} else {
let trait_rets: Vec<_> = func
.results
.iter()
.skip(1)
.map(|result| names.func_param(&result.name))
.collect();
let bindings = quote!((#(#trait_rets),*));
let trace_rets = func.results.iter().skip(1).map(|result| {
let name = names.func_param(&result.name);
if result.tref.impls_display() {
quote!(#name = #rt::tracing::field::display(&#name))
} else {
quote!(#name = #rt::tracing::field::debug(&#name))
}
});
let rets = quote! {
#rt::tracing::event!(#rt::tracing::Level::TRACE, #(#trace_rets),*);
(#(#trait_rets),*)
};
(rets, bindings)
};
// Return value pointers need to be validated before the api call, then
// assigned to afterwards. marshal_result returns these two statements as a pair.
let marshal_rets = func
.results
.iter()
.skip(1)
.map(|result| marshal_result(names, result, &error_handling));
let marshal_rets_pre = marshal_rets.clone().map(|(pre, _post)| pre);
let marshal_rets_post = marshal_rets.map(|(_pre, post)| post);
let success = if let Some(ref err_type) = err_type {
let err_typename = names.type_ref(&err_type, anon_lifetime());
quote! {
let success:#err_typename = #rt::GuestErrorType::success();
#rt::tracing::event!(
#rt::tracing::Level::TRACE,
success=#rt::tracing::field::display(&success)
);
Ok(#abi_ret::from(success))
}
} else {
quote!(Ok(()))
};
let trait_name = names.trait_name(&module.name);
let mod_name = &module.name.as_str();
let func_name = &func.name.as_str();
if func.noreturn {
quote!(pub fn #ident(#abi_args) -> Result<#abi_ret, #rt::Trap> {
let _span = #rt::tracing::span!(
#rt::tracing::Level::TRACE,
"wiggle abi",
module = #mod_name,
function = #func_name
);
let _enter = _span.enter();
#(#marshal_args)*
#log_marshalled_args
let trap = #trait_name::#ident(ctx, #(#trait_args),*);
Err(trap)
})
} else {
quote!(pub fn #ident(#abi_args) -> Result<#abi_ret, #rt::Trap> {
let _span = #rt::tracing::span!(
#rt::tracing::Level::TRACE,
"wiggle abi",
module = #mod_name,
function = #func_name
);
let _enter = _span.enter();
#(#marshal_args)*
#(#marshal_rets_pre)*
#log_marshalled_args
let #trait_bindings = match #trait_name::#ident(ctx, #(#trait_args),*) {
Ok(#trait_bindings) => { #trait_rets },
Err(e) => { #ret_err },
};
#(#marshal_rets_post)*
#success
})
}
}
fn marshal_arg(
names: &Names,
param: &witx::InterfaceFuncParam,
error_handling: TokenStream,
) -> TokenStream {
let rt = names.runtime_mod();
let tref = &param.tref;
let interface_typename = names.type_ref(&tref, anon_lifetime());
let try_into_conversion = {
let name = names.func_param(&param.name);
quote! {
let #name: #interface_typename = {
use ::std::convert::TryInto;
match #name.try_into() {
Ok(a) => a,
Err(e) => {
#error_handling
}
}
};
}
};
let read_conversion = {
let pointee_type = names.type_ref(tref, anon_lifetime());
let arg_name = names.func_ptr_binding(&param.name);
let name = names.func_param(&param.name);
quote! {
let #name = match #rt::GuestPtr::<#pointee_type>::new(memory, #arg_name as u32).read() {
Ok(r) => r,
Err(e) => {
#error_handling
}
};
}
};
match &*tref.type_() {
witx::Type::Enum(_e) => try_into_conversion,
witx::Type::Flags(_f) => try_into_conversion,
witx::Type::Int(_i) => try_into_conversion,
witx::Type::Builtin(b) => match b {
witx::BuiltinType::U8 | witx::BuiltinType::U16 | witx::BuiltinType::Char8 => {
try_into_conversion
}
witx::BuiltinType::S8 | witx::BuiltinType::S16 => {
let name = names.func_param(&param.name);
quote! {
let #name: #interface_typename = match (#name as i32).try_into() {
Ok(a) => a,
Err(e) => {
#error_handling
}
}
}
}
witx::BuiltinType::U32
| witx::BuiltinType::S32
| witx::BuiltinType::U64
| witx::BuiltinType::S64
| witx::BuiltinType::USize
| witx::BuiltinType::F32
| witx::BuiltinType::F64 => {
let name = names.func_param(&param.name);
quote! {
let #name = #name as #interface_typename;
}
}
witx::BuiltinType::String => {
let lifetime = anon_lifetime();
let ptr_name = names.func_ptr_binding(&param.name);
let len_name = names.func_len_binding(&param.name);
let name = names.func_param(&param.name);
quote! {
let #name = #rt::GuestPtr::<#lifetime, str>::new(memory, (#ptr_name as u32, #len_name as u32));
}
}
},
witx::Type::Pointer(pointee) | witx::Type::ConstPointer(pointee) => {
let pointee_type = names.type_ref(pointee, anon_lifetime());
let name = names.func_param(&param.name);
quote! {
let #name = #rt::GuestPtr::<#pointee_type>::new(memory, #name as u32);
}
}
witx::Type::Struct(_) => read_conversion,
witx::Type::Array(arr) => {
let pointee_type = names.type_ref(arr, anon_lifetime());
let ptr_name = names.func_ptr_binding(&param.name);
let len_name = names.func_len_binding(&param.name);
let name = names.func_param(&param.name);
quote! {
let #name = #rt::GuestPtr::<[#pointee_type]>::new(memory, (#ptr_name as u32, #len_name as u32));
}
}
witx::Type::Union(_u) => read_conversion,
witx::Type::Handle(_h) => {
let name = names.func_param(&param.name);
let handle_type = names.type_ref(tref, anon_lifetime());
quote!( let #name = #handle_type::from(#name); )
}
}
}
fn marshal_result<F>(
names: &Names,
result: &witx::InterfaceFuncParam,
error_handling: F,
) -> (TokenStream, TokenStream)
where
F: Fn(&str) -> TokenStream,
{
let rt = names.runtime_mod();
let tref = &result.tref;
let write_val_to_ptr = {
let pointee_type = names.type_ref(tref, anon_lifetime());
// core type is given func_ptr_binding name.
let ptr_name = names.func_ptr_binding(&result.name);
let ptr_err_handling = error_handling(&format!("{}:result_ptr_mut", result.name.as_str()));
let pre = quote! {
let #ptr_name = #rt::GuestPtr::<#pointee_type>::new(memory, #ptr_name as u32);
};
// trait binding returns func_param name.
let val_name = names.func_param(&result.name);
let post = quote! {
if let Err(e) = #ptr_name.write(#val_name) {
#ptr_err_handling
}
};
(pre, post)
};
match &*tref.type_() {
witx::Type::Builtin(b) => match b {
witx::BuiltinType::String => unimplemented!("string result types"),
_ => write_val_to_ptr,
},
witx::Type::Pointer { .. } | witx::Type::ConstPointer { .. } | witx::Type::Array { .. } => {
unimplemented!("pointer/array result types")
}
_ => write_val_to_ptr,
}
}
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