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rust/compiler/rustc_codegen_llvm/src/lib.rs
Nikita Popov 6a454edce9 Dispose LLVM context after TargetMachine 
The TargetMachine may be referencing data in the context. In
particular, at least the GlobalISel instruction selector stored
in the TM may reference a TrackedMDNode DebugLoc that destruction
of the TargetMachine will try to untrack.
2021-08-16 18:28:18 +02:00

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//! The Rust compiler.
//!
//! # Note
//!
//! This API is completely unstable and subject to change.
#![doc(html_root_url = "https://doc.rust-lang.org/nightly/nightly-rustc/")]
#![feature(bool_to_option)]
#![feature(const_cstr_unchecked)]
#![feature(crate_visibility_modifier)]
#![feature(extern_types)]
#![feature(in_band_lifetimes)]
#![feature(iter_zip)]
#![feature(nll)]
#![recursion_limit = "256"]
use back::write::{create_informational_target_machine, create_target_machine};
pub use llvm_util::target_features;
use rustc_ast::expand::allocator::AllocatorKind;
use rustc_codegen_ssa::back::lto::{LtoModuleCodegen, SerializedModule, ThinModule};
use rustc_codegen_ssa::back::write::{
CodegenContext, FatLTOInput, ModuleConfig, TargetMachineFactoryConfig, TargetMachineFactoryFn,
};
use rustc_codegen_ssa::traits::*;
use rustc_codegen_ssa::ModuleCodegen;
use rustc_codegen_ssa::{CodegenResults, CompiledModule};
use rustc_data_structures::fx::FxHashMap;
use rustc_errors::{ErrorReported, FatalError, Handler};
use rustc_middle::dep_graph::{WorkProduct, WorkProductId};
use rustc_middle::middle::cstore::EncodedMetadata;
use rustc_middle::ty::TyCtxt;
use rustc_session::config::{OptLevel, OutputFilenames, PrintRequest};
use rustc_session::Session;
use rustc_span::symbol::Symbol;
use std::any::Any;
use std::ffi::CStr;
mod back {
pub mod archive;
pub mod lto;
mod profiling;
pub mod write;
}
mod abi;
mod allocator;
mod asm;
mod attributes;
mod base;
mod builder;
mod callee;
mod common;
mod consts;
mod context;
mod coverageinfo;
mod debuginfo;
mod declare;
mod intrinsic;
// The following is a work around that replaces `pub mod llvm;` and that fixes issue 53912.
#[path = "llvm/mod.rs"]
mod llvm_;
pub mod llvm {
pub use super::llvm_::*;
}
mod llvm_util;
mod mono_item;
mod type_;
mod type_of;
mod va_arg;
mod value;
#[derive(Clone)]
pub struct LlvmCodegenBackend(());
impl ExtraBackendMethods for LlvmCodegenBackend {
fn new_metadata(&self, tcx: TyCtxt<'_>, mod_name: &str) -> ModuleLlvm {
ModuleLlvm::new_metadata(tcx, mod_name)
}
fn write_compressed_metadata<'tcx>(
&self,
tcx: TyCtxt<'tcx>,
metadata: &EncodedMetadata,
llvm_module: &mut ModuleLlvm,
) {
base::write_compressed_metadata(tcx, metadata, llvm_module)
}
fn codegen_allocator<'tcx>(
&self,
tcx: TyCtxt<'tcx>,
mods: &mut ModuleLlvm,
kind: AllocatorKind,
has_alloc_error_handler: bool,
) {
unsafe { allocator::codegen(tcx, mods, kind, has_alloc_error_handler) }
}
fn compile_codegen_unit(
&self,
tcx: TyCtxt<'_>,
cgu_name: Symbol,
) -> (ModuleCodegen<ModuleLlvm>, u64) {
base::compile_codegen_unit(tcx, cgu_name)
}
fn target_machine_factory(
&self,
sess: &Session,
optlvl: OptLevel,
) -> TargetMachineFactoryFn<Self> {
back::write::target_machine_factory(sess, optlvl)
}
fn target_cpu<'b>(&self, sess: &'b Session) -> &'b str {
llvm_util::target_cpu(sess)
}
fn tune_cpu<'b>(&self, sess: &'b Session) -> Option<&'b str> {
llvm_util::tune_cpu(sess)
}
}
impl WriteBackendMethods for LlvmCodegenBackend {
type Module = ModuleLlvm;
type ModuleBuffer = back::lto::ModuleBuffer;
type Context = llvm::Context;
type TargetMachine = &'static mut llvm::TargetMachine;
type ThinData = back::lto::ThinData;
type ThinBuffer = back::lto::ThinBuffer;
fn print_pass_timings(&self) {
unsafe {
llvm::LLVMRustPrintPassTimings();
}
}
fn run_link(
cgcx: &CodegenContext<Self>,
diag_handler: &Handler,
modules: Vec<ModuleCodegen<Self::Module>>,
) -> Result<ModuleCodegen<Self::Module>, FatalError> {
back::write::link(cgcx, diag_handler, modules)
}
fn run_fat_lto(
cgcx: &CodegenContext<Self>,
modules: Vec<FatLTOInput<Self>>,
cached_modules: Vec<(SerializedModule<Self::ModuleBuffer>, WorkProduct)>,
) -> Result<LtoModuleCodegen<Self>, FatalError> {
back::lto::run_fat(cgcx, modules, cached_modules)
}
fn run_thin_lto(
cgcx: &CodegenContext<Self>,
modules: Vec<(String, Self::ThinBuffer)>,
cached_modules: Vec<(SerializedModule<Self::ModuleBuffer>, WorkProduct)>,
) -> Result<(Vec<LtoModuleCodegen<Self>>, Vec<WorkProduct>), FatalError> {
back::lto::run_thin(cgcx, modules, cached_modules)
}
unsafe fn optimize(
cgcx: &CodegenContext<Self>,
diag_handler: &Handler,
module: &ModuleCodegen<Self::Module>,
config: &ModuleConfig,
) -> Result<(), FatalError> {
back::write::optimize(cgcx, diag_handler, module, config)
}
unsafe fn optimize_thin(
cgcx: &CodegenContext<Self>,
thin: &mut ThinModule<Self>,
) -> Result<ModuleCodegen<Self::Module>, FatalError> {
back::lto::optimize_thin_module(thin, cgcx)
}
unsafe fn codegen(
cgcx: &CodegenContext<Self>,
diag_handler: &Handler,
module: ModuleCodegen<Self::Module>,
config: &ModuleConfig,
) -> Result<CompiledModule, FatalError> {
back::write::codegen(cgcx, diag_handler, module, config)
}
fn prepare_thin(module: ModuleCodegen<Self::Module>) -> (String, Self::ThinBuffer) {
back::lto::prepare_thin(module)
}
fn serialize_module(module: ModuleCodegen<Self::Module>) -> (String, Self::ModuleBuffer) {
(module.name, back::lto::ModuleBuffer::new(module.module_llvm.llmod()))
}
fn run_lto_pass_manager(
cgcx: &CodegenContext<Self>,
module: &ModuleCodegen<Self::Module>,
config: &ModuleConfig,
thin: bool,
) -> Result<(), FatalError> {
let diag_handler = cgcx.create_diag_handler();
back::lto::run_pass_manager(cgcx, &diag_handler, module, config, thin)
}
}
unsafe impl Send for LlvmCodegenBackend {} // Llvm is on a per-thread basis
unsafe impl Sync for LlvmCodegenBackend {}
impl LlvmCodegenBackend {
pub fn new() -> Box<dyn CodegenBackend> {
Box::new(LlvmCodegenBackend(()))
}
}
impl CodegenBackend for LlvmCodegenBackend {
fn init(&self, sess: &Session) {
llvm_util::init(sess); // Make sure llvm is inited
}
fn print(&self, req: PrintRequest, sess: &Session) {
match req {
PrintRequest::RelocationModels => {
println!("Available relocation models:");
for name in
&["static", "pic", "dynamic-no-pic", "ropi", "rwpi", "ropi-rwpi", "default"]
{
println!(" {}", name);
}
println!();
}
PrintRequest::CodeModels => {
println!("Available code models:");
for name in &["tiny", "small", "kernel", "medium", "large"] {
println!(" {}", name);
}
println!();
}
PrintRequest::TlsModels => {
println!("Available TLS models:");
for name in &["global-dynamic", "local-dynamic", "initial-exec", "local-exec"] {
println!(" {}", name);
}
println!();
}
req => llvm_util::print(req, sess),
}
}
fn print_passes(&self) {
llvm_util::print_passes();
}
fn print_version(&self) {
llvm_util::print_version();
}
fn target_features(&self, sess: &Session) -> Vec<Symbol> {
target_features(sess)
}
fn codegen_crate<'tcx>(
&self,
tcx: TyCtxt<'tcx>,
metadata: EncodedMetadata,
need_metadata_module: bool,
) -> Box<dyn Any> {
Box::new(rustc_codegen_ssa::base::codegen_crate(
LlvmCodegenBackend(()),
tcx,
crate::llvm_util::target_cpu(tcx.sess).to_string(),
metadata,
need_metadata_module,
))
}
fn join_codegen(
&self,
ongoing_codegen: Box<dyn Any>,
sess: &Session,
) -> Result<(CodegenResults, FxHashMap<WorkProductId, WorkProduct>), ErrorReported> {
let (codegen_results, work_products) = ongoing_codegen
.downcast::<rustc_codegen_ssa::back::write::OngoingCodegen<LlvmCodegenBackend>>()
.expect("Expected LlvmCodegenBackend's OngoingCodegen, found Box<Any>")
.join(sess);
sess.time("llvm_dump_timing_file", || {
if sess.opts.debugging_opts.llvm_time_trace {
llvm_util::time_trace_profiler_finish("llvm_timings.json");
}
});
Ok((codegen_results, work_products))
}
fn link(
&self,
sess: &Session,
codegen_results: CodegenResults,
outputs: &OutputFilenames,
) -> Result<(), ErrorReported> {
use crate::back::archive::LlvmArchiveBuilder;
use rustc_codegen_ssa::back::link::link_binary;
// Run the linker on any artifacts that resulted from the LLVM run.
// This should produce either a finished executable or library.
link_binary::<LlvmArchiveBuilder<'_>>(sess, &codegen_results, outputs)
}
}
pub struct ModuleLlvm {
llcx: &'static mut llvm::Context,
llmod_raw: *const llvm::Module,
tm: &'static mut llvm::TargetMachine,
}
unsafe impl Send for ModuleLlvm {}
unsafe impl Sync for ModuleLlvm {}
impl ModuleLlvm {
fn new(tcx: TyCtxt<'_>, mod_name: &str) -> Self {
unsafe {
let llcx = llvm::LLVMRustContextCreate(tcx.sess.fewer_names());
let llmod_raw = context::create_module(tcx, llcx, mod_name) as *const _;
ModuleLlvm { llmod_raw, llcx, tm: create_target_machine(tcx, mod_name) }
}
}
fn new_metadata(tcx: TyCtxt<'_>, mod_name: &str) -> Self {
unsafe {
let llcx = llvm::LLVMRustContextCreate(tcx.sess.fewer_names());
let llmod_raw = context::create_module(tcx, llcx, mod_name) as *const _;
ModuleLlvm { llmod_raw, llcx, tm: create_informational_target_machine(tcx.sess) }
}
}
fn parse(
cgcx: &CodegenContext<LlvmCodegenBackend>,
name: &CStr,
buffer: &[u8],
handler: &Handler,
) -> Result<Self, FatalError> {
unsafe {
let llcx = llvm::LLVMRustContextCreate(cgcx.fewer_names);
let llmod_raw = back::lto::parse_module(llcx, name, buffer, handler)?;
let tm_factory_config = TargetMachineFactoryConfig::new(&cgcx, name.to_str().unwrap());
let tm = match (cgcx.tm_factory)(tm_factory_config) {
Ok(m) => m,
Err(e) => {
handler.struct_err(&e).emit();
return Err(FatalError);
}
};
Ok(ModuleLlvm { llmod_raw, llcx, tm })
}
}
fn llmod(&self) -> &llvm::Module {
unsafe { &*self.llmod_raw }
}
}
impl Drop for ModuleLlvm {
fn drop(&mut self) {
unsafe {
llvm::LLVMRustDisposeTargetMachine(&mut *(self.tm as *mut _));
llvm::LLVMContextDispose(&mut *(self.llcx as *mut _));
}
}
}
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