//! See librustc_codegen_llvm/meth.rs for reference use crate::prelude::*; const DROP_FN_INDEX: usize = 0; const SIZE_INDEX: usize = 1; const ALIGN_INDEX: usize = 2; fn vtable_memflags() -> MemFlags { let mut flags = MemFlags::trusted(); // A vtable access is always aligned and will never trap. flags.set_readonly(); // A vtable is always read-only. flags } pub fn drop_fn_of_obj(fx: &mut FunctionCx<'_, '_, impl Backend>, vtable: Value) -> Value { let usize_size = fx.layout_of(fx.tcx.types.usize).size.bytes() as usize; fx.bcx.ins().load( pointer_ty(fx.tcx), vtable_memflags(), vtable, (DROP_FN_INDEX * usize_size) as i32, ) } pub fn size_of_obj(fx: &mut FunctionCx<'_, '_, impl Backend>, vtable: Value) -> Value { let usize_size = fx.layout_of(fx.tcx.types.usize).size.bytes() as usize; fx.bcx.ins().load( pointer_ty(fx.tcx), vtable_memflags(), vtable, (SIZE_INDEX * usize_size) as i32, ) } pub fn min_align_of_obj(fx: &mut FunctionCx<'_, '_, impl Backend>, vtable: Value) -> Value { let usize_size = fx.layout_of(fx.tcx.types.usize).size.bytes() as usize; fx.bcx.ins().load( pointer_ty(fx.tcx), vtable_memflags(), vtable, (ALIGN_INDEX * usize_size) as i32, ) } pub fn get_ptr_and_method_ref<'tcx>( fx: &mut FunctionCx<'_, 'tcx, impl Backend>, arg: CValue<'tcx>, idx: usize, ) -> (Value, Value) { let (ptr, vtable) = arg.load_scalar_pair(fx); let usize_size = fx.layout_of(fx.tcx.types.usize).size.bytes(); let func_ref = fx.bcx.ins().load( pointer_ty(fx.tcx), vtable_memflags(), vtable, ((idx + 3) * usize_size as usize) as i32, ); (ptr, func_ref) } pub fn get_vtable<'tcx>( fx: &mut FunctionCx<'_, 'tcx, impl Backend>, layout: TyLayout<'tcx>, trait_ref: Option>, ) -> Value { let data_id = if let Some(data_id) = fx.vtables.get(&(layout.ty, trait_ref)) { *data_id } else { let data_id = build_vtable(fx, layout, trait_ref); fx.vtables.insert((layout.ty, trait_ref), data_id); data_id }; let local_data_id = fx.module.declare_data_in_func(data_id, &mut fx.bcx.func); fx.bcx.ins().global_value(fx.pointer_type, local_data_id) } fn build_vtable<'tcx>( fx: &mut FunctionCx<'_, 'tcx, impl Backend>, layout: TyLayout<'tcx>, trait_ref: Option>, ) -> DataId { let tcx = fx.tcx; let usize_size = fx.layout_of(fx.tcx.types.usize).size.bytes() as usize; let drop_in_place_fn = import_function(tcx, fx.module, Instance::resolve_drop_in_place(tcx, layout.ty)); let mut components: Vec<_> = vec![Some(drop_in_place_fn), None, None]; let methods_root; let methods = if let Some(trait_ref) = trait_ref { methods_root = tcx.vtable_methods(trait_ref.with_self_ty(tcx, layout.ty)); methods_root.iter() } else { (&[]).iter() }; let methods = methods.cloned().map(|opt_mth| { opt_mth.map_or(None, |(def_id, substs)| { Some(import_function( tcx, fx.module, Instance::resolve_for_vtable(tcx, ParamEnv::reveal_all(), def_id, substs).unwrap(), )) }) }); components.extend(methods); let mut data_ctx = DataContext::new(); let mut data = ::std::iter::repeat(0u8) .take(components.len() * usize_size) .collect::>() .into_boxed_slice(); write_usize(fx.tcx, &mut data, SIZE_INDEX, layout.size.bytes()); write_usize(fx.tcx, &mut data, ALIGN_INDEX, layout.align.abi.bytes()); data_ctx.define(data); for (i, component) in components.into_iter().enumerate() { if let Some(func_id) = component { let func_ref = fx.module.declare_func_in_data(func_id, &mut data_ctx); data_ctx.write_function_addr((i * usize_size) as u32, func_ref); } } let data_id = fx .module .declare_data( &format!("vtable.{:?}.for.{:?}", trait_ref, layout.ty), Linkage::Local, false, false, Some( fx.tcx .data_layout .pointer_align .pref .bytes() .try_into() .unwrap(), ), ) .unwrap(); match fx.module.define_data(data_id, &data_ctx) { Ok(()) | Err(cranelift_module::ModuleError::DuplicateDefinition(_)) => {} err => err.unwrap(), } data_id } fn write_usize(tcx: TyCtxt, buf: &mut [u8], idx: usize, num: u64) { use byteorder::{BigEndian, LittleEndian, WriteBytesExt}; let usize_size = tcx .layout_of(ParamEnv::reveal_all().and(tcx.types.usize)) .unwrap() .size .bytes() as usize; let mut target = &mut buf[idx * usize_size..(idx + 1) * usize_size]; match tcx.data_layout.endian { layout::Endian::Little => target.write_uint::(num, usize_size), layout::Endian::Big => target.write_uint::(num, usize_size), } .unwrap() }