mirror of
https://github.com/rust-lang/rust.git
synced 2024-11-22 06:44:35 +00:00
Rollup merge of #125345 - durin42:thin-link-bitcode, r=bjorn3
rustc_codegen_llvm: add support for writing summary bitcode Typical uses of ThinLTO don't have any use for this as a standalone file, but distributed ThinLTO uses this to make the linker phase more efficient. With clang you'd do something like `clang -flto=thin -fthin-link-bitcode=foo.indexing.o -c foo.c` and then get both foo.o (full of bitcode) and foo.indexing.o (just the summary or index part of the bitcode). That's then usable by a two-stage linking process that's more friendly to distributed build systems like bazel, which is why I'm working on this area. I talked some to `@teresajohnson` about naming in this area, as things seem to be a little confused between various blog posts and build systems. "bitcode index" and "bitcode summary" tend to be a little too ambiguous, and she tends to use "thin link bitcode" and "minimized bitcode" (which matches the descriptions in LLVM). Since the clang option is thin-link-bitcode, I went with that to try and not add a new spelling in the world. Per `@dtolnay,` you can work around the lack of this by using `lld --thinlto-index-only` to do the indexing on regular .o files of bitcode, but that is a bit wasteful on actions when we already have all the information in rustc and could just write out the matching minimized bitcode. I didn't test that at all in our infrastructure, because by the time I learned that I already had this patch largely written.
This commit is contained in:
commit
4ee97fc3db
@ -200,7 +200,7 @@ fn produce_final_output_artifacts(
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// to get rid of it.
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for output_type in crate_output.outputs.keys() {
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match *output_type {
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OutputType::Bitcode => {
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OutputType::Bitcode | OutputType::ThinLinkBitcode => {
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// Cranelift doesn't have bitcode
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// user_wants_bitcode = true;
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// // Copy to .bc, but always keep the .0.bc. There is a later
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@ -335,6 +335,10 @@ impl ThinBufferMethods for ThinBuffer {
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fn data(&self) -> &[u8] {
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unimplemented!();
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}
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fn thin_link_data(&self) -> &[u8] {
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unimplemented!();
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}
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}
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pub struct GccContext {
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@ -414,7 +418,7 @@ impl WriteBackendMethods for GccCodegenBackend {
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back::write::codegen(cgcx, dcx, module, config)
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}
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fn prepare_thin(_module: ModuleCodegen<Self::Module>) -> (String, Self::ThinBuffer) {
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fn prepare_thin(_module: ModuleCodegen<Self::Module>, _emit_summary: bool) -> (String, Self::ThinBuffer) {
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unimplemented!();
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}
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@ -229,9 +229,12 @@ pub(crate) fn run_thin(
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thin_lto(cgcx, &dcx, modules, upstream_modules, cached_modules, &symbols_below_threshold)
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}
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pub(crate) fn prepare_thin(module: ModuleCodegen<ModuleLlvm>) -> (String, ThinBuffer) {
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pub(crate) fn prepare_thin(
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module: ModuleCodegen<ModuleLlvm>,
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emit_summary: bool,
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) -> (String, ThinBuffer) {
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let name = module.name;
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let buffer = ThinBuffer::new(module.module_llvm.llmod(), true);
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let buffer = ThinBuffer::new(module.module_llvm.llmod(), true, emit_summary);
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(name, buffer)
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}
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@ -671,9 +674,9 @@ unsafe impl Send for ThinBuffer {}
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unsafe impl Sync for ThinBuffer {}
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impl ThinBuffer {
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pub fn new(m: &llvm::Module, is_thin: bool) -> ThinBuffer {
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pub fn new(m: &llvm::Module, is_thin: bool, emit_summary: bool) -> ThinBuffer {
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unsafe {
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let buffer = llvm::LLVMRustThinLTOBufferCreate(m, is_thin);
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let buffer = llvm::LLVMRustThinLTOBufferCreate(m, is_thin, emit_summary);
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ThinBuffer(buffer)
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}
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}
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@ -687,6 +690,14 @@ impl ThinBufferMethods for ThinBuffer {
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slice::from_raw_parts(ptr, len)
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}
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}
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fn thin_link_data(&self) -> &[u8] {
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unsafe {
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let ptr = llvm::LLVMRustThinLTOBufferThinLinkDataPtr(self.0) as *const _;
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let len = llvm::LLVMRustThinLTOBufferThinLinkDataLen(self.0);
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slice::from_raw_parts(ptr, len)
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}
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}
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}
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impl Drop for ThinBuffer {
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@ -708,13 +708,15 @@ pub(crate) unsafe fn codegen(
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// asm from LLVM and use `gcc` to create the object file.
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let bc_out = cgcx.output_filenames.temp_path(OutputType::Bitcode, module_name);
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let bc_summary_out =
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cgcx.output_filenames.temp_path(OutputType::ThinLinkBitcode, module_name);
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let obj_out = cgcx.output_filenames.temp_path(OutputType::Object, module_name);
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if config.bitcode_needed() {
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let _timer = cgcx
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.prof
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.generic_activity_with_arg("LLVM_module_codegen_make_bitcode", &*module.name);
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let thin = ThinBuffer::new(llmod, config.emit_thin_lto);
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let thin = ThinBuffer::new(llmod, config.emit_thin_lto, config.emit_thin_lto_summary);
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let data = thin.data();
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if let Some(bitcode_filename) = bc_out.file_name() {
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@ -725,6 +727,25 @@ pub(crate) unsafe fn codegen(
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);
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}
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if config.emit_thin_lto_summary
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&& let Some(thin_link_bitcode_filename) = bc_summary_out.file_name()
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{
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let summary_data = thin.thin_link_data();
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cgcx.prof.artifact_size(
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"llvm_bitcode_summary",
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thin_link_bitcode_filename.to_string_lossy(),
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summary_data.len() as u64,
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);
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let _timer = cgcx.prof.generic_activity_with_arg(
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"LLVM_module_codegen_emit_bitcode_summary",
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&*module.name,
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);
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if let Err(err) = fs::write(&bc_summary_out, summary_data) {
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dcx.emit_err(WriteBytecode { path: &bc_summary_out, err });
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}
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}
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if config.emit_bc || config.emit_obj == EmitObj::Bitcode {
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let _timer = cgcx
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.prof
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@ -240,8 +240,11 @@ impl WriteBackendMethods for LlvmCodegenBackend {
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) -> Result<CompiledModule, FatalError> {
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back::write::codegen(cgcx, dcx, module, config)
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}
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fn prepare_thin(module: ModuleCodegen<Self::Module>) -> (String, Self::ThinBuffer) {
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back::lto::prepare_thin(module)
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fn prepare_thin(
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module: ModuleCodegen<Self::Module>,
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emit_summary: bool,
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) -> (String, Self::ThinBuffer) {
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back::lto::prepare_thin(module, emit_summary)
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}
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fn serialize_module(module: ModuleCodegen<Self::Module>) -> (String, Self::ModuleBuffer) {
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(module.name, back::lto::ModuleBuffer::new(module.module_llvm.llmod()))
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@ -2350,10 +2350,16 @@ extern "C" {
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#[allow(improper_ctypes)]
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pub fn LLVMRustModuleInstructionStats(M: &Module, Str: &RustString);
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pub fn LLVMRustThinLTOBufferCreate(M: &Module, is_thin: bool) -> &'static mut ThinLTOBuffer;
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pub fn LLVMRustThinLTOBufferCreate(
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M: &Module,
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is_thin: bool,
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emit_summary: bool,
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) -> &'static mut ThinLTOBuffer;
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pub fn LLVMRustThinLTOBufferFree(M: &'static mut ThinLTOBuffer);
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pub fn LLVMRustThinLTOBufferPtr(M: &ThinLTOBuffer) -> *const c_char;
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pub fn LLVMRustThinLTOBufferLen(M: &ThinLTOBuffer) -> size_t;
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pub fn LLVMRustThinLTOBufferThinLinkDataPtr(M: &ThinLTOBuffer) -> *const c_char;
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pub fn LLVMRustThinLTOBufferThinLinkDataLen(M: &ThinLTOBuffer) -> size_t;
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pub fn LLVMRustCreateThinLTOData(
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Modules: *const ThinLTOModule,
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NumModules: c_uint,
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@ -107,6 +107,7 @@ pub struct ModuleConfig {
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pub emit_asm: bool,
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pub emit_obj: EmitObj,
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pub emit_thin_lto: bool,
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pub emit_thin_lto_summary: bool,
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pub bc_cmdline: String,
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// Miscellaneous flags. These are mostly copied from command-line
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@ -231,6 +232,10 @@ impl ModuleConfig {
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),
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emit_obj,
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emit_thin_lto: sess.opts.unstable_opts.emit_thin_lto,
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emit_thin_lto_summary: if_regular!(
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sess.opts.output_types.contains_key(&OutputType::ThinLinkBitcode),
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false
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),
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bc_cmdline: sess.target.bitcode_llvm_cmdline.to_string(),
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verify_llvm_ir: sess.verify_llvm_ir(),
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@ -282,6 +287,7 @@ impl ModuleConfig {
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pub fn bitcode_needed(&self) -> bool {
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self.emit_bc
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|| self.emit_thin_lto_summary
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|| self.emit_obj == EmitObj::Bitcode
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|| self.emit_obj == EmitObj::ObjectCode(BitcodeSection::Full)
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}
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@ -629,6 +635,9 @@ fn produce_final_output_artifacts(
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// them for making an rlib.
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copy_if_one_unit(OutputType::Bitcode, true);
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}
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OutputType::ThinLinkBitcode => {
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copy_if_one_unit(OutputType::ThinLinkBitcode, false);
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}
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OutputType::LlvmAssembly => {
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copy_if_one_unit(OutputType::LlvmAssembly, false);
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}
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@ -882,7 +891,7 @@ fn execute_optimize_work_item<B: ExtraBackendMethods>(
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match lto_type {
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ComputedLtoType::No => finish_intra_module_work(cgcx, module, module_config),
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ComputedLtoType::Thin => {
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let (name, thin_buffer) = B::prepare_thin(module);
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let (name, thin_buffer) = B::prepare_thin(module, false);
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if let Some(path) = bitcode {
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fs::write(&path, thin_buffer.data()).unwrap_or_else(|e| {
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panic!("Error writing pre-lto-bitcode file `{}`: {}", path.display(), e);
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@ -56,12 +56,16 @@ pub trait WriteBackendMethods: 'static + Sized + Clone {
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module: ModuleCodegen<Self::Module>,
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config: &ModuleConfig,
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) -> Result<CompiledModule, FatalError>;
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fn prepare_thin(module: ModuleCodegen<Self::Module>) -> (String, Self::ThinBuffer);
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fn prepare_thin(
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module: ModuleCodegen<Self::Module>,
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want_summary: bool,
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) -> (String, Self::ThinBuffer);
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fn serialize_module(module: ModuleCodegen<Self::Module>) -> (String, Self::ModuleBuffer);
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}
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pub trait ThinBufferMethods: Send + Sync {
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fn data(&self) -> &[u8];
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fn thin_link_data(&self) -> &[u8];
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}
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pub trait ModuleBufferMethods: Send + Sync {
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@ -1488,13 +1488,15 @@ LLVMRustPrepareThinLTOImport(const LLVMRustThinLTOData *Data, LLVMModuleRef M,
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// a ThinLTO summary attached.
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struct LLVMRustThinLTOBuffer {
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std::string data;
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std::string thin_link_data;
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};
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extern "C" LLVMRustThinLTOBuffer*
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LLVMRustThinLTOBufferCreate(LLVMModuleRef M, bool is_thin) {
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LLVMRustThinLTOBufferCreate(LLVMModuleRef M, bool is_thin, bool emit_summary) {
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auto Ret = std::make_unique<LLVMRustThinLTOBuffer>();
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{
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auto OS = raw_string_ostream(Ret->data);
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auto ThinLinkOS = raw_string_ostream(Ret->thin_link_data);
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{
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if (is_thin) {
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PassBuilder PB;
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@ -1508,7 +1510,10 @@ LLVMRustThinLTOBufferCreate(LLVMModuleRef M, bool is_thin) {
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PB.registerLoopAnalyses(LAM);
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PB.crossRegisterProxies(LAM, FAM, CGAM, MAM);
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ModulePassManager MPM;
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MPM.addPass(ThinLTOBitcodeWriterPass(OS, nullptr));
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// We only pass ThinLinkOS to be filled in if we want the summary,
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// because otherwise LLVM does extra work and may double-emit some
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// errors or warnings.
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MPM.addPass(ThinLTOBitcodeWriterPass(OS, emit_summary ? &ThinLinkOS : nullptr));
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MPM.run(*unwrap(M), MAM);
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} else {
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WriteBitcodeToFile(*unwrap(M), OS);
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@ -1533,6 +1538,16 @@ LLVMRustThinLTOBufferLen(const LLVMRustThinLTOBuffer *Buffer) {
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return Buffer->data.length();
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}
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extern "C" const void*
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LLVMRustThinLTOBufferThinLinkDataPtr(const LLVMRustThinLTOBuffer *Buffer) {
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return Buffer->thin_link_data.data();
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}
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extern "C" size_t
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LLVMRustThinLTOBufferThinLinkDataLen(const LLVMRustThinLTOBuffer *Buffer) {
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return Buffer->thin_link_data.length();
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}
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// This is what we used to parse upstream bitcode for actual ThinLTO
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// processing. We'll call this once per module optimized through ThinLTO, and
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// it'll be called concurrently on many threads.
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@ -465,6 +465,7 @@ impl FromStr for SplitDwarfKind {
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#[derive(Encodable, Decodable)]
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pub enum OutputType {
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Bitcode,
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ThinLinkBitcode,
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Assembly,
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LlvmAssembly,
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Mir,
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@ -492,6 +493,7 @@ impl OutputType {
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match *self {
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OutputType::Exe | OutputType::DepInfo | OutputType::Metadata => true,
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OutputType::Bitcode
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| OutputType::ThinLinkBitcode
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| OutputType::Assembly
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| OutputType::LlvmAssembly
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| OutputType::Mir
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@ -502,6 +504,7 @@ impl OutputType {
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pub fn shorthand(&self) -> &'static str {
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match *self {
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OutputType::Bitcode => "llvm-bc",
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OutputType::ThinLinkBitcode => "thin-link-bitcode",
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OutputType::Assembly => "asm",
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OutputType::LlvmAssembly => "llvm-ir",
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OutputType::Mir => "mir",
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@ -518,6 +521,7 @@ impl OutputType {
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"llvm-ir" => OutputType::LlvmAssembly,
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"mir" => OutputType::Mir,
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"llvm-bc" => OutputType::Bitcode,
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"thin-link-bitcode" => OutputType::ThinLinkBitcode,
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"obj" => OutputType::Object,
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"metadata" => OutputType::Metadata,
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"link" => OutputType::Exe,
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@ -528,8 +532,9 @@ impl OutputType {
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fn shorthands_display() -> String {
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format!(
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"`{}`, `{}`, `{}`, `{}`, `{}`, `{}`, `{}`, `{}`",
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"`{}`, `{}`, `{}`, `{}`, `{}`, `{}`, `{}`, `{}`, `{}`",
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OutputType::Bitcode.shorthand(),
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OutputType::ThinLinkBitcode.shorthand(),
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OutputType::Assembly.shorthand(),
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OutputType::LlvmAssembly.shorthand(),
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OutputType::Mir.shorthand(),
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@ -543,6 +548,7 @@ impl OutputType {
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pub fn extension(&self) -> &'static str {
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match *self {
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OutputType::Bitcode => "bc",
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OutputType::ThinLinkBitcode => "indexing.o",
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OutputType::Assembly => "s",
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OutputType::LlvmAssembly => "ll",
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OutputType::Mir => "mir",
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@ -559,9 +565,11 @@ impl OutputType {
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| OutputType::LlvmAssembly
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| OutputType::Mir
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| OutputType::DepInfo => true,
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OutputType::Bitcode | OutputType::Object | OutputType::Metadata | OutputType::Exe => {
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false
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}
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OutputType::Bitcode
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| OutputType::ThinLinkBitcode
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| OutputType::Object
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| OutputType::Metadata
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| OutputType::Exe => false,
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}
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}
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}
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@ -644,6 +652,7 @@ impl OutputTypes {
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pub fn should_codegen(&self) -> bool {
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self.0.keys().any(|k| match *k {
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OutputType::Bitcode
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| OutputType::ThinLinkBitcode
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| OutputType::Assembly
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| OutputType::LlvmAssembly
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| OutputType::Mir
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@ -657,6 +666,7 @@ impl OutputTypes {
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pub fn should_link(&self) -> bool {
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self.0.keys().any(|k| match *k {
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OutputType::Bitcode
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| OutputType::ThinLinkBitcode
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| OutputType::Assembly
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| OutputType::LlvmAssembly
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| OutputType::Mir
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@ -1769,6 +1779,12 @@ fn parse_output_types(
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display = OutputType::shorthands_display(),
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))
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});
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if output_type == OutputType::ThinLinkBitcode && !unstable_opts.unstable_options {
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early_dcx.early_fatal(format!(
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"{} requested but -Zunstable-options not specified",
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OutputType::ThinLinkBitcode.shorthand()
|
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));
|
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}
|
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output_types.insert(output_type, path);
|
||||
}
|
||||
}
|
||||
|
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Block a user