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4ec13fba1c
Re-applies c74900ca672 with fixes for the ThinLtoJIT example.
144 lines
5.8 KiB
C++
144 lines
5.8 KiB
C++
//===---------- speculation.cpp - Utilities for Speculation ----------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ExecutionEngine/Orc/Speculation.h"
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#include "llvm/IR/BasicBlock.h"
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#include "llvm/IR/Function.h"
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#include "llvm/IR/IRBuilder.h"
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#include "llvm/IR/Instruction.h"
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#include "llvm/IR/Instructions.h"
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#include "llvm/IR/LLVMContext.h"
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#include "llvm/IR/Module.h"
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#include "llvm/IR/Type.h"
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#include "llvm/IR/Verifier.h"
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namespace llvm {
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namespace orc {
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// ImplSymbolMap methods
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void ImplSymbolMap::trackImpls(SymbolAliasMap ImplMaps, JITDylib *SrcJD) {
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assert(SrcJD && "Tracking on Null Source .impl dylib");
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std::lock_guard<std::mutex> Lockit(ConcurrentAccess);
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for (auto &I : ImplMaps) {
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auto It = Maps.insert({I.first, {I.second.Aliasee, SrcJD}});
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// check rationale when independent dylibs have same symbol name?
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assert(It.second && "ImplSymbols are already tracked for this Symbol?");
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(void)(It);
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}
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}
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// Trigger Speculative Compiles.
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void Speculator::speculateForEntryPoint(Speculator *Ptr, uint64_t StubId) {
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assert(Ptr && " Null Address Received in orc_speculate_for ");
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Ptr->speculateFor(StubId);
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}
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Error Speculator::addSpeculationRuntime(JITDylib &JD,
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MangleAndInterner &Mangle) {
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JITEvaluatedSymbol ThisPtr(pointerToJITTargetAddress(this),
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JITSymbolFlags::Exported);
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JITEvaluatedSymbol SpeculateForEntryPtr(
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pointerToJITTargetAddress(&speculateForEntryPoint),
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JITSymbolFlags::Exported);
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return JD.define(absoluteSymbols({
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{Mangle("__orc_speculator"), ThisPtr}, // Data Symbol
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{Mangle("__orc_speculate_for"), SpeculateForEntryPtr} // Callable Symbol
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}));
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}
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// If two modules, share the same LLVMContext, different threads must
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// not access them concurrently without locking the associated LLVMContext
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// this implementation follows this contract.
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void IRSpeculationLayer::emit(std::unique_ptr<MaterializationResponsibility> R,
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ThreadSafeModule TSM) {
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assert(TSM && "Speculation Layer received Null Module ?");
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assert(TSM.getContext().getContext() != nullptr &&
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"Module with null LLVMContext?");
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// Instrumentation of runtime calls, lock the Module
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TSM.withModuleDo([this, &R](Module &M) {
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auto &MContext = M.getContext();
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auto SpeculatorVTy = StructType::create(MContext, "Class.Speculator");
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auto RuntimeCallTy = FunctionType::get(
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Type::getVoidTy(MContext),
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{SpeculatorVTy->getPointerTo(), Type::getInt64Ty(MContext)}, false);
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auto RuntimeCall =
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Function::Create(RuntimeCallTy, Function::LinkageTypes::ExternalLinkage,
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"__orc_speculate_for", &M);
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auto SpeclAddr = new GlobalVariable(
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M, SpeculatorVTy, false, GlobalValue::LinkageTypes::ExternalLinkage,
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nullptr, "__orc_speculator");
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IRBuilder<> Mutator(MContext);
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// QueryAnalysis allowed to transform the IR source, one such example is
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// Simplify CFG helps the static branch prediction heuristics!
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for (auto &Fn : M.getFunctionList()) {
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if (!Fn.isDeclaration()) {
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auto IRNames = QueryAnalysis(Fn);
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// Instrument and register if Query has result
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if (IRNames.hasValue()) {
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// Emit globals for each function.
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auto LoadValueTy = Type::getInt8Ty(MContext);
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auto SpeculatorGuard = new GlobalVariable(
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M, LoadValueTy, false, GlobalValue::LinkageTypes::InternalLinkage,
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ConstantInt::get(LoadValueTy, 0),
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"__orc_speculate.guard.for." + Fn.getName());
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SpeculatorGuard->setAlignment(Align(1));
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SpeculatorGuard->setUnnamedAddr(GlobalValue::UnnamedAddr::Local);
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BasicBlock &ProgramEntry = Fn.getEntryBlock();
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// Create BasicBlocks before the program's entry basicblock
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BasicBlock *SpeculateBlock = BasicBlock::Create(
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MContext, "__orc_speculate.block", &Fn, &ProgramEntry);
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BasicBlock *SpeculateDecisionBlock = BasicBlock::Create(
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MContext, "__orc_speculate.decision.block", &Fn, SpeculateBlock);
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assert(SpeculateDecisionBlock == &Fn.getEntryBlock() &&
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"SpeculateDecisionBlock not updated?");
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Mutator.SetInsertPoint(SpeculateDecisionBlock);
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auto LoadGuard =
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Mutator.CreateLoad(LoadValueTy, SpeculatorGuard, "guard.value");
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// if just loaded value equal to 0,return true.
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auto CanSpeculate =
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Mutator.CreateICmpEQ(LoadGuard, ConstantInt::get(LoadValueTy, 0),
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"compare.to.speculate");
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Mutator.CreateCondBr(CanSpeculate, SpeculateBlock, &ProgramEntry);
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Mutator.SetInsertPoint(SpeculateBlock);
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auto ImplAddrToUint =
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Mutator.CreatePtrToInt(&Fn, Type::getInt64Ty(MContext));
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Mutator.CreateCall(RuntimeCallTy, RuntimeCall,
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{SpeclAddr, ImplAddrToUint});
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Mutator.CreateStore(ConstantInt::get(LoadValueTy, 1),
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SpeculatorGuard);
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Mutator.CreateBr(&ProgramEntry);
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assert(Mutator.GetInsertBlock()->getParent() == &Fn &&
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"IR builder association mismatch?");
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S.registerSymbols(internToJITSymbols(IRNames.getValue()),
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&R->getTargetJITDylib());
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}
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}
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}
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});
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assert(!TSM.withModuleDo([](const Module &M) { return verifyModule(M); }) &&
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"Speculation Instrumentation breaks IR?");
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NextLayer.emit(std::move(R), std::move(TSM));
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}
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} // namespace orc
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} // namespace llvm
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