//! The JIT driver uses [`cranelift_jit`] to JIT execute programs without writing any object //! files. use std::cell::RefCell; use std::ffi::CString; use std::os::raw::{c_char, c_int}; use std::sync::{mpsc, Mutex}; use rustc_codegen_ssa::CrateInfo; use rustc_middle::mir::mono::MonoItem; use rustc_session::Session; use rustc_span::Symbol; use cranelift_jit::{JITBuilder, JITModule}; // FIXME use std::sync::OnceLock once it stabilizes use once_cell::sync::OnceCell; use crate::{prelude::*, BackendConfig}; use crate::{CodegenCx, CodegenMode}; struct JitState { backend_config: BackendConfig, jit_module: JITModule, } thread_local! { static LAZY_JIT_STATE: RefCell> = const { RefCell::new(None) }; } /// The Sender owned by the rustc thread static GLOBAL_MESSAGE_SENDER: OnceCell>> = OnceCell::new(); /// A message that is sent from the jitted runtime to the rustc thread. /// Senders are responsible for upholding `Send` semantics. enum UnsafeMessage { /// Request that the specified `Instance` be lazily jitted. /// /// Nothing accessible through `instance_ptr` may be moved or mutated by the sender after /// this message is sent. JitFn { instance_ptr: *const Instance<'static>, trampoline_ptr: *const u8, tx: mpsc::Sender<*const u8>, }, } unsafe impl Send for UnsafeMessage {} impl UnsafeMessage { /// Send the message. fn send(self) -> Result<(), mpsc::SendError> { thread_local! { /// The Sender owned by the local thread static LOCAL_MESSAGE_SENDER: mpsc::Sender = GLOBAL_MESSAGE_SENDER .get().unwrap() .lock().unwrap() .clone(); } LOCAL_MESSAGE_SENDER.with(|sender| sender.send(self)) } } fn create_jit_module( tcx: TyCtxt<'_>, backend_config: &BackendConfig, hotswap: bool, ) -> (JITModule, CodegenCx) { let crate_info = CrateInfo::new(tcx, "dummy_target_cpu".to_string()); let isa = crate::build_isa(tcx.sess, backend_config); let mut jit_builder = JITBuilder::with_isa(isa, cranelift_module::default_libcall_names()); jit_builder.hotswap(hotswap); crate::compiler_builtins::register_functions_for_jit(&mut jit_builder); jit_builder.symbol_lookup_fn(dep_symbol_lookup_fn(tcx.sess, crate_info)); jit_builder.symbol("__clif_jit_fn", clif_jit_fn as *const u8); let mut jit_module = JITModule::new(jit_builder); let mut cx = crate::CodegenCx::new( tcx, backend_config.clone(), jit_module.isa(), false, Symbol::intern("dummy_cgu_name"), ); crate::allocator::codegen(tcx, &mut jit_module, &mut cx.unwind_context); crate::main_shim::maybe_create_entry_wrapper( tcx, &mut jit_module, &mut cx.unwind_context, true, true, ); (jit_module, cx) } pub(crate) fn run_jit(tcx: TyCtxt<'_>, backend_config: BackendConfig) -> ! { if !tcx.sess.opts.output_types.should_codegen() { tcx.sess.fatal("JIT mode doesn't work with `cargo check`"); } if !tcx.sess.crate_types().contains(&rustc_session::config::CrateType::Executable) { tcx.sess.fatal("can't jit non-executable crate"); } let (mut jit_module, mut cx) = create_jit_module( tcx, &backend_config, matches!(backend_config.codegen_mode, CodegenMode::JitLazy), ); let mut cached_context = Context::new(); let (_, cgus) = tcx.collect_and_partition_mono_items(()); let mono_items = cgus .iter() .map(|cgu| cgu.items_in_deterministic_order(tcx).into_iter()) .flatten() .collect::>() .into_iter() .collect::>(); tcx.sess.time("codegen mono items", || { super::predefine_mono_items(tcx, &mut jit_module, &mono_items); for (mono_item, _) in mono_items { match mono_item { MonoItem::Fn(inst) => match backend_config.codegen_mode { CodegenMode::Aot => unreachable!(), CodegenMode::Jit => { codegen_and_compile_fn( tcx, &mut cx, &mut cached_context, &mut jit_module, inst, ); } CodegenMode::JitLazy => { codegen_shim(tcx, &mut cx, &mut cached_context, &mut jit_module, inst) } }, MonoItem::Static(def_id) => { crate::constant::codegen_static(tcx, &mut jit_module, def_id); } MonoItem::GlobalAsm(item_id) => { let item = tcx.hir().item(item_id); tcx.sess.span_fatal(item.span, "Global asm is not supported in JIT mode"); } } } }); if !cx.global_asm.is_empty() { tcx.sess.fatal("Inline asm is not supported in JIT mode"); } tcx.sess.abort_if_errors(); jit_module.finalize_definitions().unwrap(); unsafe { cx.unwind_context.register_jit(&jit_module) }; println!( "Rustc codegen cranelift will JIT run the executable, because -Cllvm-args=mode=jit was passed" ); let args = std::iter::once(&*tcx.crate_name(LOCAL_CRATE).as_str().to_string()) .chain(backend_config.jit_args.iter().map(|arg| &**arg)) .map(|arg| CString::new(arg).unwrap()) .collect::>(); let start_sig = Signature { params: vec![ AbiParam::new(jit_module.target_config().pointer_type()), AbiParam::new(jit_module.target_config().pointer_type()), ], returns: vec![AbiParam::new(jit_module.target_config().pointer_type() /*isize*/)], call_conv: jit_module.target_config().default_call_conv, }; let start_func_id = jit_module.declare_function("main", Linkage::Import, &start_sig).unwrap(); let finalized_start: *const u8 = jit_module.get_finalized_function(start_func_id); LAZY_JIT_STATE.with(|lazy_jit_state| { let mut lazy_jit_state = lazy_jit_state.borrow_mut(); assert!(lazy_jit_state.is_none()); *lazy_jit_state = Some(JitState { backend_config, jit_module }); }); let f: extern "C" fn(c_int, *const *const c_char) -> c_int = unsafe { ::std::mem::transmute(finalized_start) }; let (tx, rx) = mpsc::channel(); GLOBAL_MESSAGE_SENDER.set(Mutex::new(tx)).unwrap(); // Spawn the jitted runtime in a new thread so that this rustc thread can handle messages // (eg to lazily JIT further functions as required) std::thread::spawn(move || { let mut argv = args.iter().map(|arg| arg.as_ptr()).collect::>(); // Push a null pointer as a terminating argument. This is required by POSIX and // useful as some dynamic linkers use it as a marker to jump over. argv.push(std::ptr::null()); let ret = f(args.len() as c_int, argv.as_ptr()); std::process::exit(ret); }); // Handle messages loop { match rx.recv().unwrap() { // lazy JIT compilation request - compile requested instance and return pointer to result UnsafeMessage::JitFn { instance_ptr, trampoline_ptr, tx } => { tx.send(jit_fn(instance_ptr, trampoline_ptr)) .expect("jitted runtime hung up before response to lazy JIT request was sent"); } } } } pub(crate) fn codegen_and_compile_fn<'tcx>( tcx: TyCtxt<'tcx>, cx: &mut crate::CodegenCx, cached_context: &mut Context, module: &mut dyn Module, instance: Instance<'tcx>, ) { tcx.prof.generic_activity("codegen and compile fn").run(|| { let _inst_guard = crate::PrintOnPanic(|| format!("{:?} {}", instance, tcx.symbol_name(instance).name)); let cached_func = std::mem::replace(&mut cached_context.func, Function::new()); let codegened_func = crate::base::codegen_fn(tcx, cx, cached_func, module, instance); crate::base::compile_fn(cx, cached_context, module, codegened_func); }); } extern "C" fn clif_jit_fn( instance_ptr: *const Instance<'static>, trampoline_ptr: *const u8, ) -> *const u8 { // send the JIT request to the rustc thread, with a channel for the response let (tx, rx) = mpsc::channel(); UnsafeMessage::JitFn { instance_ptr, trampoline_ptr, tx } .send() .expect("rustc thread hung up before lazy JIT request was sent"); // block on JIT compilation result rx.recv().expect("rustc thread hung up before responding to sent lazy JIT request") } fn jit_fn(instance_ptr: *const Instance<'static>, trampoline_ptr: *const u8) -> *const u8 { rustc_middle::ty::tls::with(|tcx| { // lift is used to ensure the correct lifetime for instance. let instance = tcx.lift(unsafe { *instance_ptr }).unwrap(); LAZY_JIT_STATE.with(|lazy_jit_state| { let mut lazy_jit_state = lazy_jit_state.borrow_mut(); let lazy_jit_state = lazy_jit_state.as_mut().unwrap(); let jit_module = &mut lazy_jit_state.jit_module; let backend_config = lazy_jit_state.backend_config.clone(); let name = tcx.symbol_name(instance).name; let sig = crate::abi::get_function_sig( tcx, jit_module.target_config().default_call_conv, instance, ); let func_id = jit_module.declare_function(name, Linkage::Export, &sig).unwrap(); let current_ptr = jit_module.read_got_entry(func_id); // If the function's GOT entry has already been updated to point at something other // than the shim trampoline, don't re-jit but just return the new pointer instead. // This does not need synchronization as this code is executed only by a sole rustc // thread. if current_ptr != trampoline_ptr { return current_ptr; } jit_module.prepare_for_function_redefine(func_id).unwrap(); let mut cx = crate::CodegenCx::new( tcx, backend_config, jit_module.isa(), false, Symbol::intern("dummy_cgu_name"), ); codegen_and_compile_fn(tcx, &mut cx, &mut Context::new(), jit_module, instance); assert!(cx.global_asm.is_empty()); jit_module.finalize_definitions().unwrap(); unsafe { cx.unwind_context.register_jit(&jit_module) }; jit_module.get_finalized_function(func_id) }) }) } fn dep_symbol_lookup_fn( sess: &Session, crate_info: CrateInfo, ) -> Box Option<*const u8>> { use rustc_middle::middle::dependency_format::Linkage; let mut dylib_paths = Vec::new(); let data = &crate_info .dependency_formats .iter() .find(|(crate_type, _data)| *crate_type == rustc_session::config::CrateType::Executable) .unwrap() .1; for &cnum in &crate_info.used_crates { let src = &crate_info.used_crate_source[&cnum]; match data[cnum.as_usize() - 1] { Linkage::NotLinked | Linkage::IncludedFromDylib => {} Linkage::Static => { let name = crate_info.crate_name[&cnum]; let mut err = sess.struct_err(&format!("Can't load static lib {}", name)); err.note("rustc_codegen_cranelift can only load dylibs in JIT mode."); err.emit(); } Linkage::Dynamic => { dylib_paths.push(src.dylib.as_ref().unwrap().0.clone()); } } } let imported_dylibs = Box::leak( dylib_paths .into_iter() .map(|path| unsafe { libloading::Library::new(&path).unwrap() }) .collect::>(), ); sess.abort_if_errors(); Box::new(move |sym_name| { for dylib in &*imported_dylibs { if let Ok(sym) = unsafe { dylib.get::<*const u8>(sym_name.as_bytes()) } { return Some(*sym); } } None }) } fn codegen_shim<'tcx>( tcx: TyCtxt<'tcx>, cx: &mut CodegenCx, cached_context: &mut Context, module: &mut JITModule, inst: Instance<'tcx>, ) { let pointer_type = module.target_config().pointer_type(); let name = tcx.symbol_name(inst).name; let sig = crate::abi::get_function_sig(tcx, module.target_config().default_call_conv, inst); let func_id = module.declare_function(name, Linkage::Export, &sig).unwrap(); let instance_ptr = Box::into_raw(Box::new(inst)); let jit_fn = module .declare_function( "__clif_jit_fn", Linkage::Import, &Signature { call_conv: module.target_config().default_call_conv, params: vec![AbiParam::new(pointer_type), AbiParam::new(pointer_type)], returns: vec![AbiParam::new(pointer_type)], }, ) .unwrap(); let context = cached_context; context.clear(); let trampoline = &mut context.func; trampoline.signature = sig.clone(); let mut builder_ctx = FunctionBuilderContext::new(); let mut trampoline_builder = FunctionBuilder::new(trampoline, &mut builder_ctx); let trampoline_fn = module.declare_func_in_func(func_id, trampoline_builder.func); let jit_fn = module.declare_func_in_func(jit_fn, trampoline_builder.func); let sig_ref = trampoline_builder.func.import_signature(sig); let entry_block = trampoline_builder.create_block(); trampoline_builder.append_block_params_for_function_params(entry_block); let fn_args = trampoline_builder.func.dfg.block_params(entry_block).to_vec(); trampoline_builder.switch_to_block(entry_block); let instance_ptr = trampoline_builder.ins().iconst(pointer_type, instance_ptr as u64 as i64); let trampoline_ptr = trampoline_builder.ins().func_addr(pointer_type, trampoline_fn); let jitted_fn = trampoline_builder.ins().call(jit_fn, &[instance_ptr, trampoline_ptr]); let jitted_fn = trampoline_builder.func.dfg.inst_results(jitted_fn)[0]; let call_inst = trampoline_builder.ins().call_indirect(sig_ref, jitted_fn, &fn_args); let ret_vals = trampoline_builder.func.dfg.inst_results(call_inst).to_vec(); trampoline_builder.ins().return_(&ret_vals); module.define_function(func_id, context).unwrap(); cx.unwind_context.add_function(func_id, context, module.isa()); }