compiler/rustc_codegen_llvm/src/coverageinfo/mod.rs - rust-lang/rust - Git at Google

 use std::cell::{OnceCell, RefCell};
 use std::ffi::{CStr, CString};

 use rustc_codegen_ssa::traits::{
     ConstCodegenMethods, CoverageInfoBuilderMethods, MiscCodegenMethods,
 };
 use rustc_data_structures::fx::FxIndexMap;
 use rustc_middle::mir::coverage::CoverageKind;
 use rustc_middle::ty::Instance;
 use tracing::{debug, instrument};

 use crate::builder::Builder;
 use crate::common::CodegenCx;
 use crate::llvm;

 pub(crate) mod ffi;
 mod llvm_cov;
 mod mapgen;

 /// Extra per-CGU context/state needed for coverage instrumentation.
 pub(crate) struct CguCoverageContext<'ll, 'tcx> {
     /// Associates function instances with an LLVM global that holds the
     /// function's symbol name, as needed by LLVM coverage intrinsics.
     ///
     /// Instances in this map are also considered "used" for the purposes of
     /// emitting covfun records. Every covfun record holds a hash of its
     /// symbol name, and `llvm-cov` will exit fatally if it can't resolve that
     /// hash back to an entry in the binary's `__llvm_prf_names` linker section.
     pub(crate) pgo_func_name_var_map: RefCell<FxIndexMap<Instance<'tcx>, &'ll llvm::Value>>,

     covfun_section_name: OnceCell<CString>,
 }

 impl<'ll, 'tcx> CguCoverageContext<'ll, 'tcx> {
     pub(crate) fn new() -> Self {
         Self { pgo_func_name_var_map: Default::default(), covfun_section_name: Default::default() }
     }

     /// Returns the list of instances considered "used" in this CGU, as
     /// inferred from the keys of `pgo_func_name_var_map`.
     pub(crate) fn instances_used(&self) -> Vec<Instance<'tcx>> {
         // Collecting into a Vec is way easier than trying to juggle RefCell
         // projections, and this should only run once per CGU anyway.
         self.pgo_func_name_var_map.borrow().keys().copied().collect::<Vec<_>>()
     }
 }

 impl<'ll, 'tcx> CodegenCx<'ll, 'tcx> {
     pub(crate) fn coverageinfo_finalize(&mut self) {
         mapgen::finalize(self)
     }

     /// Returns the section name to use when embedding per-function coverage information
     /// in the object file, according to the target's object file format. LLVM's coverage
     /// tools use information from this section when producing coverage reports.
     ///
     /// Typical values are:
     /// - `__llvm_covfun` on Linux
     /// - `__LLVM_COV,__llvm_covfun` on macOS (includes `__LLVM_COV,` segment prefix)
     /// - `.lcovfun$M` on Windows (includes `$M` sorting suffix)
     fn covfun_section_name(&self) -> &CStr {
         self.coverage_cx()
             .covfun_section_name
             .get_or_init(|| llvm_cov::covfun_section_name(self.llmod))
     }

     /// For LLVM codegen, returns a function-specific `Value` for a global
     /// string, to hold the function name passed to LLVM intrinsic
     /// `instrprof.increment()`. The `Value` is only created once per instance.
     /// Multiple invocations with the same instance return the same `Value`.
     ///
     /// This has the side-effect of causing coverage codegen to consider this
     /// function "used", making it eligible to emit an associated covfun record.
     fn ensure_pgo_func_name_var(&self, instance: Instance<'tcx>) -> &'ll llvm::Value {
         debug!("getting pgo_func_name_var for instance={:?}", instance);
         let mut pgo_func_name_var_map = self.coverage_cx().pgo_func_name_var_map.borrow_mut();
         pgo_func_name_var_map.entry(instance).or_insert_with(|| {
             let llfn = self.get_fn(instance);
             let mangled_fn_name: &str = self.tcx.symbol_name(instance).name;
             llvm_cov::create_pgo_func_name_var(llfn, mangled_fn_name)
         })
     }
 }

 impl<'tcx> CoverageInfoBuilderMethods<'tcx> for Builder<'_, '_, 'tcx> {
     #[instrument(level = "debug", skip(self))]
     fn add_coverage(&mut self, instance: Instance<'tcx>, kind: &CoverageKind) {
         // Our caller should have already taken care of inlining subtleties,
         // so we can assume that counter/expression IDs in this coverage
         // statement are meaningful for the given instance.
         //
         // (Either the statement was not inlined and directly belongs to this
         // instance, or it was inlined *from* this instance.)

         let bx = self;

         // Due to LocalCopy instantiation or MIR inlining, coverage statements
         // can end up in a crate that isn't doing coverage instrumentation.
         // When that happens, we currently just discard those statements, so
         // the corresponding code will be undercounted.
         // FIXME(Zalathar): Find a better solution for mixed-coverage builds.
         let Some(_coverage_cx) = &bx.cx.coverage_cx else { return };

         let Some(function_coverage_info) =
             bx.tcx.instance_mir(instance.def).function_coverage_info.as_deref()
         else {
             debug!("function has a coverage statement but no coverage info");
             return;
         };
         let Some(ids_info) = bx.tcx.coverage_ids_info(instance.def) else {
             debug!("function has a coverage statement but no IDs info");
             return;
         };

         match *kind {
             CoverageKind::SpanMarker | CoverageKind::BlockMarker { .. } => unreachable!(
                 "marker statement {kind:?} should have been removed by CleanupPostBorrowck"
             ),
             CoverageKind::VirtualCounter { bcb }
                 if let Some(&id) = ids_info.phys_counter_for_node.get(&bcb) =>
             {
                 let fn_name = bx.ensure_pgo_func_name_var(instance);
                 let hash = bx.const_u64(function_coverage_info.function_source_hash);
                 let num_counters = bx.const_u32(ids_info.num_counters);
                 let index = bx.const_u32(id.as_u32());
                 debug!(
                     "codegen intrinsic instrprof.increment(fn_name={:?}, hash={:?}, num_counters={:?}, index={:?})",
                     fn_name, hash, num_counters, index,
                 );
                 bx.instrprof_increment(fn_name, hash, num_counters, index);
             }
             // If a BCB doesn't have an associated physical counter, there's nothing to codegen.
             CoverageKind::VirtualCounter { .. } => {}
         }
     }
 }
	use std::cell::{OnceCell, RefCell};
	use std::ffi::{CStr, CString};

	use rustc_codegen_ssa::traits::{
	ConstCodegenMethods, CoverageInfoBuilderMethods, MiscCodegenMethods,
	};
	use rustc_data_structures::fx::FxIndexMap;
	use rustc_middle::mir::coverage::CoverageKind;
	use rustc_middle::ty::Instance;
	use tracing::{debug, instrument};

	use crate::builder::Builder;
	use crate::common::CodegenCx;
	use crate::llvm;

	pub(crate) mod ffi;
	mod llvm_cov;
	mod mapgen;

	/// Extra per-CGU context/state needed for coverage instrumentation.
	pub(crate) struct CguCoverageContext<'ll, 'tcx> {
	/// Associates function instances with an LLVM global that holds the
	/// function's symbol name, as needed by LLVM coverage intrinsics.
	///
	/// Instances in this map are also considered "used" for the purposes of
	/// emitting covfun records. Every covfun record holds a hash of its
	/// symbol name, and `llvm-cov` will exit fatally if it can't resolve that
	/// hash back to an entry in the binary's `__llvm_prf_names` linker section.
	pub(crate) pgo_func_name_var_map: RefCell<FxIndexMap<Instance<'tcx>, &'ll llvm::Value>>,

	covfun_section_name: OnceCell<CString>,
	}

	impl<'ll, 'tcx> CguCoverageContext<'ll, 'tcx> {
	pub(crate) fn new() -> Self {
	Self { pgo_func_name_var_map: Default::default(), covfun_section_name: Default::default() }
	}

	/// Returns the list of instances considered "used" in this CGU, as
	/// inferred from the keys of `pgo_func_name_var_map`.
	pub(crate) fn instances_used(&self) -> Vec<Instance<'tcx>> {
	// Collecting into a Vec is way easier than trying to juggle RefCell
	// projections, and this should only run once per CGU anyway.
	self.pgo_func_name_var_map.borrow().keys().copied().collect::<Vec<_>>()
	}
	}

	impl<'ll, 'tcx> CodegenCx<'ll, 'tcx> {
	pub(crate) fn coverageinfo_finalize(&mut self) {
	mapgen::finalize(self)
	}

	/// Returns the section name to use when embedding per-function coverage information
	/// in the object file, according to the target's object file format. LLVM's coverage
	/// tools use information from this section when producing coverage reports.
	///
	/// Typical values are:
	/// - `__llvm_covfun` on Linux
	/// - `__LLVM_COV,__llvm_covfun` on macOS (includes `__LLVM_COV,` segment prefix)
	/// - `.lcovfun$M` on Windows (includes `$M` sorting suffix)
	fn covfun_section_name(&self) -> &CStr {
	self.coverage_cx()
	.covfun_section_name
	.get_or_init(\|\| llvm_cov::covfun_section_name(self.llmod))
	}

	/// For LLVM codegen, returns a function-specific `Value` for a global
	/// string, to hold the function name passed to LLVM intrinsic
	/// `instrprof.increment()`. The `Value` is only created once per instance.
	/// Multiple invocations with the same instance return the same `Value`.
	///
	/// This has the side-effect of causing coverage codegen to consider this
	/// function "used", making it eligible to emit an associated covfun record.
	fn ensure_pgo_func_name_var(&self, instance: Instance<'tcx>) -> &'ll llvm::Value {
	debug!("getting pgo_func_name_var for instance={:?}", instance);
	let mut pgo_func_name_var_map = self.coverage_cx().pgo_func_name_var_map.borrow_mut();
	pgo_func_name_var_map.entry(instance).or_insert_with(\|\| {
	let llfn = self.get_fn(instance);
	let mangled_fn_name: &str = self.tcx.symbol_name(instance).name;
	llvm_cov::create_pgo_func_name_var(llfn, mangled_fn_name)
	})
	}
	}

	impl<'tcx> CoverageInfoBuilderMethods<'tcx> for Builder<'_, '_, 'tcx> {
	#[instrument(level = "debug", skip(self))]
	fn add_coverage(&mut self, instance: Instance<'tcx>, kind: &CoverageKind) {
	// Our caller should have already taken care of inlining subtleties,
	// so we can assume that counter/expression IDs in this coverage
	// statement are meaningful for the given instance.
	//
	// (Either the statement was not inlined and directly belongs to this
	// instance, or it was inlined from this instance.)

	let bx = self;

	// Due to LocalCopy instantiation or MIR inlining, coverage statements
	// can end up in a crate that isn't doing coverage instrumentation.
	// When that happens, we currently just discard those statements, so
	// the corresponding code will be undercounted.
	// FIXME(Zalathar): Find a better solution for mixed-coverage builds.
	let Some(_coverage_cx) = &bx.cx.coverage_cx else { return };

	let Some(function_coverage_info) =
	bx.tcx.instance_mir(instance.def).function_coverage_info.as_deref()
	else {
	debug!("function has a coverage statement but no coverage info");
	return;
	};
	let Some(ids_info) = bx.tcx.coverage_ids_info(instance.def) else {
	debug!("function has a coverage statement but no IDs info");
	return;
	};

	match *kind {
	CoverageKind::SpanMarker \| CoverageKind::BlockMarker { .. } => unreachable!(
	"marker statement {kind:?} should have been removed by CleanupPostBorrowck"
	),
	CoverageKind::VirtualCounter { bcb }
	if let Some(&id) = ids_info.phys_counter_for_node.get(&bcb) =>
	{
	let fn_name = bx.ensure_pgo_func_name_var(instance);
	let hash = bx.const_u64(function_coverage_info.function_source_hash);
	let num_counters = bx.const_u32(ids_info.num_counters);
	let index = bx.const_u32(id.as_u32());
	debug!(
	"codegen intrinsic instrprof.increment(fn_name={:?}, hash={:?}, num_counters={:?}, index={:?})",
	fn_name, hash, num_counters, index,
	);
	bx.instrprof_increment(fn_name, hash, num_counters, index);
	}
	// If a BCB doesn't have an associated physical counter, there's nothing to codegen.
	CoverageKind::VirtualCounter { .. } => {}
	}
	}
	}