b166ad0b1e
The new implementation doesn't use weak lang items and instead changes `#[alloc_error_handler]` to an attribute macro just like `#[global_allocator]`. The attribute will generate the `__rg_oom` function which is called by the compiler-generated `__rust_alloc_error_handler`. If no `__rg_oom` function is defined in any crate then the compiler shim will call `__rdl_oom` in the alloc crate which will simply panic. This also fixes link errors with `-C link-dead-code` with `default_alloc_error_handler`: `__rg_oom` was previously defined in the alloc crate and would attempt to reference the `oom` lang item, even if it didn't exist. This worked as long as `__rg_oom` was excluded from linking since it was not called. This is a prerequisite for the stabilization of `default_alloc_error_handler` (#102318).
149 lines
5.1 KiB
Rust
149 lines
5.1 KiB
Rust
//! Allocator shim
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// Adapted from rustc
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use crate::prelude::*;
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use rustc_ast::expand::allocator::{AllocatorKind, AllocatorTy, ALLOCATOR_METHODS};
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use rustc_session::config::OomStrategy;
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use rustc_span::symbol::sym;
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/// Returns whether an allocator shim was created
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pub(crate) fn codegen(
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tcx: TyCtxt<'_>,
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module: &mut impl Module,
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unwind_context: &mut UnwindContext,
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) -> bool {
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let any_dynamic_crate = tcx.dependency_formats(()).iter().any(|(_, list)| {
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use rustc_middle::middle::dependency_format::Linkage;
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list.iter().any(|&linkage| linkage == Linkage::Dynamic)
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});
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if any_dynamic_crate {
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false
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} else if let Some(kind) = tcx.allocator_kind(()) {
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codegen_inner(
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module,
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unwind_context,
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kind,
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tcx.alloc_error_handler_kind(()).unwrap(),
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tcx.sess.opts.unstable_opts.oom,
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);
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true
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} else {
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false
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}
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}
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fn codegen_inner(
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module: &mut impl Module,
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unwind_context: &mut UnwindContext,
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kind: AllocatorKind,
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alloc_error_handler_kind: AllocatorKind,
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oom_strategy: OomStrategy,
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) {
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let usize_ty = module.target_config().pointer_type();
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for method in ALLOCATOR_METHODS {
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let mut arg_tys = Vec::with_capacity(method.inputs.len());
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for ty in method.inputs.iter() {
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match *ty {
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AllocatorTy::Layout => {
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arg_tys.push(usize_ty); // size
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arg_tys.push(usize_ty); // align
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}
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AllocatorTy::Ptr => arg_tys.push(usize_ty),
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AllocatorTy::Usize => arg_tys.push(usize_ty),
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AllocatorTy::ResultPtr | AllocatorTy::Unit => panic!("invalid allocator arg"),
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}
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}
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let output = match method.output {
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AllocatorTy::ResultPtr => Some(usize_ty),
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AllocatorTy::Unit => None,
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AllocatorTy::Layout | AllocatorTy::Usize | AllocatorTy::Ptr => {
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panic!("invalid allocator output")
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}
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};
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let sig = Signature {
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call_conv: CallConv::triple_default(module.isa().triple()),
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params: arg_tys.iter().cloned().map(AbiParam::new).collect(),
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returns: output.into_iter().map(AbiParam::new).collect(),
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};
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let caller_name = format!("__rust_{}", method.name);
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let callee_name = kind.fn_name(method.name);
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let func_id = module.declare_function(&caller_name, Linkage::Export, &sig).unwrap();
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let callee_func_id = module.declare_function(&callee_name, Linkage::Import, &sig).unwrap();
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let mut ctx = Context::new();
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ctx.func.signature = sig.clone();
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{
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let mut func_ctx = FunctionBuilderContext::new();
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let mut bcx = FunctionBuilder::new(&mut ctx.func, &mut func_ctx);
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let block = bcx.create_block();
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bcx.switch_to_block(block);
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let args = arg_tys
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.into_iter()
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.map(|ty| bcx.append_block_param(block, ty))
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.collect::<Vec<Value>>();
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let callee_func_ref = module.declare_func_in_func(callee_func_id, &mut bcx.func);
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let call_inst = bcx.ins().call(callee_func_ref, &args);
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let results = bcx.inst_results(call_inst).to_vec(); // Clone to prevent borrow error
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bcx.ins().return_(&results);
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bcx.seal_all_blocks();
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bcx.finalize();
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}
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module.define_function(func_id, &mut ctx).unwrap();
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unwind_context.add_function(func_id, &ctx, module.isa());
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}
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let sig = Signature {
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call_conv: CallConv::triple_default(module.isa().triple()),
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params: vec![AbiParam::new(usize_ty), AbiParam::new(usize_ty)],
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returns: vec![],
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};
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let callee_name = alloc_error_handler_kind.fn_name(sym::oom);
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let func_id =
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module.declare_function("__rust_alloc_error_handler", Linkage::Export, &sig).unwrap();
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let callee_func_id = module.declare_function(&callee_name, Linkage::Import, &sig).unwrap();
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let mut ctx = Context::new();
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ctx.func.signature = sig;
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{
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let mut func_ctx = FunctionBuilderContext::new();
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let mut bcx = FunctionBuilder::new(&mut ctx.func, &mut func_ctx);
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let block = bcx.create_block();
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bcx.switch_to_block(block);
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let args = (&[usize_ty, usize_ty])
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.iter()
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.map(|&ty| bcx.append_block_param(block, ty))
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.collect::<Vec<Value>>();
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let callee_func_ref = module.declare_func_in_func(callee_func_id, &mut bcx.func);
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bcx.ins().call(callee_func_ref, &args);
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bcx.ins().trap(TrapCode::UnreachableCodeReached);
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bcx.seal_all_blocks();
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bcx.finalize();
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}
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module.define_function(func_id, &mut ctx).unwrap();
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unwind_context.add_function(func_id, &ctx, module.isa());
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let data_id = module.declare_data(OomStrategy::SYMBOL, Linkage::Export, false, false).unwrap();
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let mut data_ctx = DataContext::new();
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data_ctx.set_align(1);
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let val = oom_strategy.should_panic();
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data_ctx.define(Box::new([val]));
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module.define_data(data_id, &data_ctx).unwrap();
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}
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