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use proc_macro2::{Ident, Span, TokenStream};
use quote::quote;
use syn::DeriveInput;
use uniffi_meta::free_fn_symbol_name;
use crate::util::{create_metadata_items, ident_to_string, mod_path, tagged_impl_header};
pub fn expand_object(input: DeriveInput, udl_mode: bool) -> syn::Result<TokenStream> {
let module_path = mod_path()?;
let ident = &input.ident;
let name = ident_to_string(ident);
let free_fn_ident = Ident::new(&free_fn_symbol_name(&module_path, &name), Span::call_site());
let meta_static_var = (!udl_mode).then(|| {
interface_meta_static_var(ident, false, &module_path)
.unwrap_or_else(syn::Error::into_compile_error)
});
let interface_impl = interface_impl(ident, udl_mode);
Ok(quote! {
#[doc(hidden)]
#[no_mangle]
pub extern "C" fn #free_fn_ident(
ptr: *const ::std::ffi::c_void,
call_status: &mut ::uniffi::RustCallStatus
) {
uniffi::rust_call(call_status, || {
assert!(!ptr.is_null());
let ptr = ptr.cast::<#ident>();
unsafe {
::std::sync::Arc::decrement_strong_count(ptr);
}
Ok(())
});
}
#interface_impl
#meta_static_var
})
}
pub(crate) fn interface_impl(ident: &Ident, udl_mode: bool) -> TokenStream {
let name = ident_to_string(ident);
let impl_spec = tagged_impl_header("FfiConverterArc", ident, udl_mode);
let lift_ref_impl_spec = tagged_impl_header("LiftRef", ident, udl_mode);
let mod_path = match mod_path() {
Ok(p) => p,
Err(e) => return e.into_compile_error(),
};
quote! {
// All Object structs must be `Sync + Send`. The generated scaffolding will fail to compile
// if they are not, but unfortunately it fails with an unactionably obscure error message.
// By asserting the requirement explicitly, we help Rust produce a more scrutable error message
// and thus help the user debug why the requirement isn't being met.
uniffi::deps::static_assertions::assert_impl_all!(#ident: Sync, Send);
#[doc(hidden)]
#[automatically_derived]
/// Support for passing reference-counted shared objects via the FFI.
///
/// To avoid dealing with complex lifetime semantics over the FFI, any data passed
/// by reference must be encapsulated in an `Arc`, and must be safe to share
/// across threads.
unsafe #impl_spec {
// Don't use a pointer to <T> as that requires a `pub <T>`
type FfiType = *const ::std::os::raw::c_void;
/// When lowering, we have an owned `Arc` and we transfer that ownership
/// to the foreign-language code, "leaking" it out of Rust's ownership system
/// as a raw pointer. This works safely because we have unique ownership of `self`.
/// The foreign-language code is responsible for freeing this by calling the
/// `ffi_object_free` FFI function provided by the corresponding UniFFI type.
///
/// Safety: when freeing the resulting pointer, the foreign-language code must
/// call the destructor function specific to the type `T`. Calling the destructor
/// function for other types may lead to undefined behaviour.
fn lower(obj: ::std::sync::Arc<Self>) -> Self::FfiType {
::std::sync::Arc::into_raw(obj) as Self::FfiType
}
/// When lifting, we receive a "borrow" of the `Arc` that is owned by
/// the foreign-language code, and make a clone of it for our own use.
///
/// Safety: the provided value must be a pointer previously obtained by calling
/// the `lower()` or `write()` method of this impl.
fn try_lift(v: Self::FfiType) -> ::uniffi::Result<::std::sync::Arc<Self>> {
let v = v as *const #ident;
// We musn't drop the `Arc` that is owned by the foreign-language code.
let foreign_arc = ::std::mem::ManuallyDrop::new(unsafe { ::std::sync::Arc::<Self>::from_raw(v) });
// Take a clone for our own use.
Ok(::std::sync::Arc::clone(&*foreign_arc))
}
/// When writing as a field of a complex structure, make a clone and transfer ownership
/// of it to the foreign-language code by writing its pointer into the buffer.
/// The foreign-language code is responsible for freeing this by calling the
/// `ffi_object_free` FFI function provided by the corresponding UniFFI type.
///
/// Safety: when freeing the resulting pointer, the foreign-language code must
/// call the destructor function specific to the type `T`. Calling the destructor
/// function for other types may lead to undefined behaviour.
fn write(obj: ::std::sync::Arc<Self>, buf: &mut Vec<u8>) {
::uniffi::deps::static_assertions::const_assert!(::std::mem::size_of::<*const ::std::ffi::c_void>() <= 8);
::uniffi::deps::bytes::BufMut::put_u64(buf, <Self as ::uniffi::FfiConverterArc<crate::UniFfiTag>>::lower(obj) as u64);
}
/// When reading as a field of a complex structure, we receive a "borrow" of the `Arc`
/// that is owned by the foreign-language code, and make a clone for our own use.
///
/// Safety: the buffer must contain a pointer previously obtained by calling
/// the `lower()` or `write()` method of this impl.
fn try_read(buf: &mut &[u8]) -> ::uniffi::Result<::std::sync::Arc<Self>> {
::uniffi::deps::static_assertions::const_assert!(::std::mem::size_of::<*const ::std::ffi::c_void>() <= 8);
::uniffi::check_remaining(buf, 8)?;
<Self as ::uniffi::FfiConverterArc<crate::UniFfiTag>>::try_lift(::uniffi::deps::bytes::Buf::get_u64(buf) as Self::FfiType)
}
const TYPE_ID_META: ::uniffi::MetadataBuffer = ::uniffi::MetadataBuffer::from_code(::uniffi::metadata::codes::TYPE_INTERFACE)
.concat_str(#mod_path)
.concat_str(#name)
.concat_bool(false);
}
unsafe #lift_ref_impl_spec {
type LiftType = ::std::sync::Arc<Self>;
}
}
}
pub(crate) fn interface_meta_static_var(
ident: &Ident,
is_trait: bool,
module_path: &str,
) -> syn::Result<TokenStream> {
let name = ident_to_string(ident);
Ok(create_metadata_items(
"interface",
&name,
quote! {
::uniffi::MetadataBuffer::from_code(::uniffi::metadata::codes::INTERFACE)
.concat_str(#module_path)
.concat_str(#name)
.concat_bool(#is_trait)
},
None,
))
}
|