// See doc.rs for documentation. mod doc; use rustc_codegen_ssa::mir::debuginfo::VariableKind::*; use self::metadata::{file_metadata, type_metadata, TypeMap}; use self::metadata::{UNKNOWN_COLUMN_NUMBER, UNKNOWN_LINE_NUMBER}; use self::namespace::mangled_name_of_instance; use self::type_names::compute_debuginfo_type_name; use self::utils::{create_DIArray, is_node_local_to_unit, DIB}; use crate::abi::FnAbi; use crate::builder::Builder; use crate::common::CodegenCx; use crate::llvm; use crate::llvm::debuginfo::{ DIArray, DIBuilder, DIFile, DIFlags, DILexicalBlock, DILocation, DISPFlags, DIScope, DIType, DIVariable, }; use crate::value::Value; use rustc_codegen_ssa::debuginfo::type_names; use rustc_codegen_ssa::mir::debuginfo::{DebugScope, FunctionDebugContext, VariableKind}; use rustc_codegen_ssa::traits::*; use rustc_data_structures::fx::{FxHashMap, FxHashSet}; use rustc_data_structures::sync::Lrc; use rustc_hir::def_id::{DefId, DefIdMap, LOCAL_CRATE}; use rustc_index::vec::IndexVec; use rustc_middle::mir; use rustc_middle::ty::layout::HasTyCtxt; use rustc_middle::ty::subst::{GenericArgKind, SubstsRef}; use rustc_middle::ty::{self, Instance, ParamEnv, Ty, TypeFoldable}; use rustc_session::config::{self, DebugInfo}; use rustc_span::symbol::Symbol; use rustc_span::{self, BytePos, Pos, SourceFile, SourceFileAndLine, Span}; use rustc_target::abi::{LayoutOf, Primitive, Size}; use libc::c_uint; use smallvec::SmallVec; use std::cell::RefCell; use tracing::debug; mod create_scope_map; pub mod gdb; pub mod metadata; mod namespace; mod utils; pub use self::create_scope_map::compute_mir_scopes; pub use self::metadata::create_global_var_metadata; pub use self::metadata::extend_scope_to_file; #[allow(non_upper_case_globals)] const DW_TAG_auto_variable: c_uint = 0x100; #[allow(non_upper_case_globals)] const DW_TAG_arg_variable: c_uint = 0x101; /// A context object for maintaining all state needed by the debuginfo module. pub struct CrateDebugContext<'a, 'tcx> { llcontext: &'a llvm::Context, llmod: &'a llvm::Module, builder: &'a mut DIBuilder<'a>, created_files: RefCell, Option), &'a DIFile>>, created_enum_disr_types: RefCell>, type_map: RefCell>, namespace_map: RefCell>, // This collection is used to assert that composite types (structs, enums, // ...) have their members only set once: composite_types_completed: RefCell>, } impl Drop for CrateDebugContext<'a, 'tcx> { fn drop(&mut self) { unsafe { llvm::LLVMRustDIBuilderDispose(&mut *(self.builder as *mut _)); } } } impl<'a, 'tcx> CrateDebugContext<'a, 'tcx> { pub fn new(llmod: &'a llvm::Module) -> Self { debug!("CrateDebugContext::new"); let builder = unsafe { llvm::LLVMRustDIBuilderCreate(llmod) }; // DIBuilder inherits context from the module, so we'd better use the same one let llcontext = unsafe { llvm::LLVMGetModuleContext(llmod) }; CrateDebugContext { llcontext, llmod, builder, created_files: Default::default(), created_enum_disr_types: Default::default(), type_map: Default::default(), namespace_map: RefCell::new(Default::default()), composite_types_completed: Default::default(), } } } /// Creates any deferred debug metadata nodes pub fn finalize(cx: &CodegenCx<'_, '_>) { if cx.dbg_cx.is_none() { return; } debug!("finalize"); if gdb::needs_gdb_debug_scripts_section(cx) { // Add a .debug_gdb_scripts section to this compile-unit. This will // cause GDB to try and load the gdb_load_rust_pretty_printers.py file, // which activates the Rust pretty printers for binary this section is // contained in. gdb::get_or_insert_gdb_debug_scripts_section_global(cx); } unsafe { llvm::LLVMRustDIBuilderFinalize(DIB(cx)); // Debuginfo generation in LLVM by default uses a higher // version of dwarf than macOS currently understands. We can // instruct LLVM to emit an older version of dwarf, however, // for macOS to understand. For more info see #11352 // This can be overridden using --llvm-opts -dwarf-version,N. // Android has the same issue (#22398) if let Some(version) = cx.sess().target.options.dwarf_version { llvm::LLVMRustAddModuleFlag(cx.llmod, "Dwarf Version\0".as_ptr().cast(), version) } // Indicate that we want CodeView debug information on MSVC if cx.sess().target.options.is_like_msvc { llvm::LLVMRustAddModuleFlag(cx.llmod, "CodeView\0".as_ptr().cast(), 1) } // Prevent bitcode readers from deleting the debug info. let ptr = "Debug Info Version\0".as_ptr(); llvm::LLVMRustAddModuleFlag(cx.llmod, ptr.cast(), llvm::LLVMRustDebugMetadataVersion()); }; } impl DebugInfoBuilderMethods for Builder<'a, 'll, 'tcx> { // FIXME(eddyb) find a common convention for all of the debuginfo-related // names (choose between `dbg`, `debug`, `debuginfo`, `debug_info` etc.). fn dbg_var_addr( &mut self, dbg_var: &'ll DIVariable, dbg_loc: &'ll DILocation, variable_alloca: Self::Value, direct_offset: Size, indirect_offsets: &[Size], ) { // Convert the direct and indirect offsets to address ops. // FIXME(eddyb) use `const`s instead of getting the values via FFI, // the values should match the ones in the DWARF standard anyway. let op_deref = || unsafe { llvm::LLVMRustDIBuilderCreateOpDeref() }; let op_plus_uconst = || unsafe { llvm::LLVMRustDIBuilderCreateOpPlusUconst() }; let mut addr_ops = SmallVec::<[_; 8]>::new(); if direct_offset.bytes() > 0 { addr_ops.push(op_plus_uconst()); addr_ops.push(direct_offset.bytes() as i64); } for &offset in indirect_offsets { addr_ops.push(op_deref()); if offset.bytes() > 0 { addr_ops.push(op_plus_uconst()); addr_ops.push(offset.bytes() as i64); } } unsafe { // FIXME(eddyb) replace `llvm.dbg.declare` with `llvm.dbg.addr`. llvm::LLVMRustDIBuilderInsertDeclareAtEnd( DIB(self.cx()), variable_alloca, dbg_var, addr_ops.as_ptr(), addr_ops.len() as c_uint, dbg_loc, self.llbb(), ); } } fn set_dbg_loc(&mut self, dbg_loc: &'ll DILocation) { unsafe { let dbg_loc_as_llval = llvm::LLVMRustMetadataAsValue(self.cx().llcx, dbg_loc); llvm::LLVMSetCurrentDebugLocation(self.llbuilder, dbg_loc_as_llval); } } fn insert_reference_to_gdb_debug_scripts_section_global(&mut self) { gdb::insert_reference_to_gdb_debug_scripts_section_global(self) } fn set_var_name(&mut self, value: &'ll Value, name: &str) { // Avoid wasting time if LLVM value names aren't even enabled. if self.sess().fewer_names() { return; } // Only function parameters and instructions are local to a function, // don't change the name of anything else (e.g. globals). let param_or_inst = unsafe { llvm::LLVMIsAArgument(value).is_some() || llvm::LLVMIsAInstruction(value).is_some() }; if !param_or_inst { return; } // Avoid replacing the name if it already exists. // While we could combine the names somehow, it'd // get noisy quick, and the usefulness is dubious. if llvm::get_value_name(value).is_empty() { llvm::set_value_name(value, name.as_bytes()); } } } /// A source code location used to generate debug information. // FIXME(eddyb) rename this to better indicate it's a duplicate of // `rustc_span::Loc` rather than `DILocation`, perhaps by making // `lookup_char_pos` return the right information instead. pub struct DebugLoc { /// Information about the original source file. pub file: Lrc, /// The (1-based) line number. pub line: Option, /// The (1-based) column number. pub col: Option, } impl CodegenCx<'ll, '_> { /// Looks up debug source information about a `BytePos`. // FIXME(eddyb) rename this to better indicate it's a duplicate of // `lookup_char_pos` rather than `dbg_loc`, perhaps by making // `lookup_char_pos` return the right information instead. pub fn lookup_debug_loc(&self, pos: BytePos) -> DebugLoc { let (file, line, col) = match self.sess().source_map().lookup_line(pos) { Ok(SourceFileAndLine { sf: file, line }) => { let line_pos = file.line_begin_pos(pos); // Use 1-based indexing. let line = (line + 1) as u32; let col = (pos - line_pos).to_u32() + 1; (file, Some(line), Some(col)) } Err(file) => (file, None, None), }; // For MSVC, omit the column number. // Otherwise, emit it. This mimics clang behaviour. // See discussion in https://github.com/rust-lang/rust/issues/42921 if self.sess().target.options.is_like_msvc { DebugLoc { file, line, col: None } } else { DebugLoc { file, line, col } } } } impl DebugInfoMethods<'tcx> for CodegenCx<'ll, 'tcx> { fn create_function_debug_context( &self, instance: Instance<'tcx>, fn_abi: &FnAbi<'tcx, Ty<'tcx>>, llfn: &'ll Value, mir: &mir::Body<'_>, ) -> Option> { if self.sess().opts.debuginfo == DebugInfo::None { return None; } // Initialize fn debug context (including scopes). // FIXME(eddyb) figure out a way to not need `Option` for `dbg_scope`. let empty_scope = DebugScope { dbg_scope: None, file_start_pos: BytePos(0), file_end_pos: BytePos(0) }; let mut fn_debug_context = FunctionDebugContext { scopes: IndexVec::from_elem(empty_scope, &mir.source_scopes) }; // Fill in all the scopes, with the information from the MIR body. compute_mir_scopes( self, mir, self.dbg_scope_fn(instance, fn_abi, Some(llfn)), &mut fn_debug_context, ); Some(fn_debug_context) } fn dbg_scope_fn( &self, instance: Instance<'tcx>, fn_abi: &FnAbi<'tcx, Ty<'tcx>>, maybe_definition_llfn: Option<&'ll Value>, ) -> &'ll DIScope { let def_id = instance.def_id(); let containing_scope = get_containing_scope(self, instance); let span = self.tcx.def_span(def_id); let loc = self.lookup_debug_loc(span.lo()); let file_metadata = file_metadata(self, &loc.file); let function_type_metadata = unsafe { let fn_signature = get_function_signature(self, fn_abi); llvm::LLVMRustDIBuilderCreateSubroutineType(DIB(self), fn_signature) }; // Find the enclosing function, in case this is a closure. let def_key = self.tcx().def_key(def_id); let mut name = def_key.disambiguated_data.data.to_string(); let enclosing_fn_def_id = self.tcx().closure_base_def_id(def_id); // Get_template_parameters() will append a `<...>` clause to the function // name if necessary. let generics = self.tcx().generics_of(enclosing_fn_def_id); let substs = instance.substs.truncate_to(self.tcx(), generics); let template_parameters = get_template_parameters(self, &generics, substs, &mut name); let linkage_name = &mangled_name_of_instance(self, instance).name; // Omit the linkage_name if it is the same as subprogram name. let linkage_name = if &name == linkage_name { "" } else { linkage_name }; // FIXME(eddyb) does this need to be separate from `loc.line` for some reason? let scope_line = loc.line; let mut flags = DIFlags::FlagPrototyped; if fn_abi.ret.layout.abi.is_uninhabited() { flags |= DIFlags::FlagNoReturn; } let mut spflags = DISPFlags::SPFlagDefinition; if is_node_local_to_unit(self, def_id) { spflags |= DISPFlags::SPFlagLocalToUnit; } if self.sess().opts.optimize != config::OptLevel::No { spflags |= DISPFlags::SPFlagOptimized; } if let Some((id, _)) = self.tcx.entry_fn(LOCAL_CRATE) { if id.to_def_id() == def_id { spflags |= DISPFlags::SPFlagMainSubprogram; } } unsafe { return llvm::LLVMRustDIBuilderCreateFunction( DIB(self), containing_scope, name.as_ptr().cast(), name.len(), linkage_name.as_ptr().cast(), linkage_name.len(), file_metadata, loc.line.unwrap_or(UNKNOWN_LINE_NUMBER), function_type_metadata, scope_line.unwrap_or(UNKNOWN_LINE_NUMBER), flags, spflags, maybe_definition_llfn, template_parameters, None, ); } fn get_function_signature<'ll, 'tcx>( cx: &CodegenCx<'ll, 'tcx>, fn_abi: &FnAbi<'tcx, Ty<'tcx>>, ) -> &'ll DIArray { if cx.sess().opts.debuginfo == DebugInfo::Limited { return create_DIArray(DIB(cx), &[]); } let mut signature = Vec::with_capacity(fn_abi.args.len() + 1); // Return type -- llvm::DIBuilder wants this at index 0 signature.push(if fn_abi.ret.is_ignore() { None } else { Some(type_metadata(cx, fn_abi.ret.layout.ty, rustc_span::DUMMY_SP)) }); // Arguments types if cx.sess().target.options.is_like_msvc { // FIXME(#42800): // There is a bug in MSDIA that leads to a crash when it encounters // a fixed-size array of `u8` or something zero-sized in a // function-type (see #40477). // As a workaround, we replace those fixed-size arrays with a // pointer-type. So a function `fn foo(a: u8, b: [u8; 4])` would // appear as `fn foo(a: u8, b: *const u8)` in debuginfo, // and a function `fn bar(x: [(); 7])` as `fn bar(x: *const ())`. // This transformed type is wrong, but these function types are // already inaccurate due to ABI adjustments (see #42800). signature.extend(fn_abi.args.iter().map(|arg| { let t = arg.layout.ty; let t = match t.kind() { ty::Array(ct, _) if (*ct == cx.tcx.types.u8) || cx.layout_of(ct).is_zst() => { cx.tcx.mk_imm_ptr(ct) } _ => t, }; Some(type_metadata(cx, t, rustc_span::DUMMY_SP)) })); } else { signature.extend( fn_abi .args .iter() .map(|arg| Some(type_metadata(cx, arg.layout.ty, rustc_span::DUMMY_SP))), ); } create_DIArray(DIB(cx), &signature[..]) } fn get_template_parameters<'ll, 'tcx>( cx: &CodegenCx<'ll, 'tcx>, generics: &ty::Generics, substs: SubstsRef<'tcx>, name_to_append_suffix_to: &mut String, ) -> &'ll DIArray { if substs.types().next().is_none() { return create_DIArray(DIB(cx), &[]); } name_to_append_suffix_to.push('<'); for (i, actual_type) in substs.types().enumerate() { if i != 0 { name_to_append_suffix_to.push_str(","); } let actual_type = cx.tcx.normalize_erasing_regions(ParamEnv::reveal_all(), actual_type); // Add actual type name to <...> clause of function name let actual_type_name = compute_debuginfo_type_name(cx.tcx(), actual_type, true); name_to_append_suffix_to.push_str(&actual_type_name[..]); } name_to_append_suffix_to.push('>'); // Again, only create type information if full debuginfo is enabled let template_params: Vec<_> = if cx.sess().opts.debuginfo == DebugInfo::Full { let names = get_parameter_names(cx, generics); substs .iter() .zip(names) .filter_map(|(kind, name)| { if let GenericArgKind::Type(ty) = kind.unpack() { let actual_type = cx.tcx.normalize_erasing_regions(ParamEnv::reveal_all(), ty); let actual_type_metadata = type_metadata(cx, actual_type, rustc_span::DUMMY_SP); let name = name.as_str(); Some(unsafe { Some(llvm::LLVMRustDIBuilderCreateTemplateTypeParameter( DIB(cx), None, name.as_ptr().cast(), name.len(), actual_type_metadata, )) }) } else { None } }) .collect() } else { vec![] }; create_DIArray(DIB(cx), &template_params[..]) } fn get_parameter_names(cx: &CodegenCx<'_, '_>, generics: &ty::Generics) -> Vec { let mut names = generics .parent .map_or(vec![], |def_id| get_parameter_names(cx, cx.tcx.generics_of(def_id))); names.extend(generics.params.iter().map(|param| param.name)); names } fn get_containing_scope<'ll, 'tcx>( cx: &CodegenCx<'ll, 'tcx>, instance: Instance<'tcx>, ) -> &'ll DIScope { // First, let's see if this is a method within an inherent impl. Because // if yes, we want to make the result subroutine DIE a child of the // subroutine's self-type. let self_type = cx.tcx.impl_of_method(instance.def_id()).and_then(|impl_def_id| { // If the method does *not* belong to a trait, proceed if cx.tcx.trait_id_of_impl(impl_def_id).is_none() { let impl_self_ty = cx.tcx.subst_and_normalize_erasing_regions( instance.substs, ty::ParamEnv::reveal_all(), &cx.tcx.type_of(impl_def_id), ); // Only "class" methods are generally understood by LLVM, // so avoid methods on other types (e.g., `<*mut T>::null`). match impl_self_ty.kind() { ty::Adt(def, ..) if !def.is_box() => { // Again, only create type information if full debuginfo is enabled if cx.sess().opts.debuginfo == DebugInfo::Full && !impl_self_ty.needs_subst() { Some(type_metadata(cx, impl_self_ty, rustc_span::DUMMY_SP)) } else { Some(namespace::item_namespace(cx, def.did)) } } _ => None, } } else { // For trait method impls we still use the "parallel namespace" // strategy None } }); self_type.unwrap_or_else(|| { namespace::item_namespace( cx, DefId { krate: instance.def_id().krate, index: cx .tcx .def_key(instance.def_id()) .parent .expect("get_containing_scope: missing parent?"), }, ) }) } } fn dbg_loc(&self, scope: &'ll DIScope, span: Span) -> &'ll DILocation { let DebugLoc { line, col, .. } = self.lookup_debug_loc(span.lo()); unsafe { llvm::LLVMRustDIBuilderCreateDebugLocation( utils::debug_context(self).llcontext, line.unwrap_or(UNKNOWN_LINE_NUMBER), col.unwrap_or(UNKNOWN_COLUMN_NUMBER), scope, None, ) } } fn create_vtable_metadata(&self, ty: Ty<'tcx>, vtable: Self::Value) { metadata::create_vtable_metadata(self, ty, vtable) } fn extend_scope_to_file( &self, scope_metadata: &'ll DIScope, file: &rustc_span::SourceFile, ) -> &'ll DILexicalBlock { metadata::extend_scope_to_file(&self, scope_metadata, file) } fn debuginfo_finalize(&self) { finalize(self) } // FIXME(eddyb) find a common convention for all of the debuginfo-related // names (choose between `dbg`, `debug`, `debuginfo`, `debug_info` etc.). fn create_dbg_var( &self, variable_name: Symbol, variable_type: Ty<'tcx>, scope_metadata: &'ll DIScope, variable_kind: VariableKind, span: Span, ) -> &'ll DIVariable { let loc = self.lookup_debug_loc(span.lo()); let file_metadata = file_metadata(self, &loc.file); let type_metadata = type_metadata(self, variable_type, span); let (argument_index, dwarf_tag) = match variable_kind { ArgumentVariable(index) => (index as c_uint, DW_TAG_arg_variable), LocalVariable => (0, DW_TAG_auto_variable), }; let align = self.align_of(variable_type); let name = variable_name.as_str(); unsafe { llvm::LLVMRustDIBuilderCreateVariable( DIB(self), dwarf_tag, scope_metadata, name.as_ptr().cast(), name.len(), file_metadata, loc.line.unwrap_or(UNKNOWN_LINE_NUMBER), type_metadata, true, DIFlags::FlagZero, argument_index, align.bytes() as u32, ) } } }