//===--------- JITLinkGeneric.cpp - Generic JIT linker utilities ----------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // Generic JITLinker utility class. // //===----------------------------------------------------------------------===// #include "JITLinkGeneric.h" #include "llvm/Support/BinaryStreamReader.h" #include "llvm/Support/MemoryBuffer.h" #define DEBUG_TYPE "jitlink" namespace llvm { namespace jitlink { JITLinkerBase::~JITLinkerBase() = default; void JITLinkerBase::linkPhase1(std::unique_ptr Self) { LLVM_DEBUG({ dbgs() << "Starting link phase 1 for graph " << G->getName() << "\n"; }); // Prune and optimize the graph. if (auto Err = runPasses(Passes.PrePrunePasses)) return Ctx->notifyFailed(std::move(Err)); LLVM_DEBUG({ dbgs() << "Link graph \"" << G->getName() << "\" pre-pruning:\n"; G->dump(dbgs()); }); prune(*G); LLVM_DEBUG({ dbgs() << "Link graph \"" << G->getName() << "\" post-pruning:\n"; G->dump(dbgs()); }); // Run post-pruning passes. if (auto Err = runPasses(Passes.PostPrunePasses)) return Ctx->notifyFailed(std::move(Err)); Ctx->getMemoryManager().allocate( Ctx->getJITLinkDylib(), *G, [S = std::move(Self)](AllocResult AR) mutable { // FIXME: Once MSVC implements c++17 order of evaluation rules for calls // this can be simplified to // S->linkPhase2(std::move(S), std::move(AR)); auto *TmpSelf = S.get(); TmpSelf->linkPhase2(std::move(S), std::move(AR)); }); } void JITLinkerBase::linkPhase2(std::unique_ptr Self, AllocResult AR) { if (AR) Alloc = std::move(*AR); else return abandonAllocAndBailOut(std::move(Self), AR.takeError()); LLVM_DEBUG({ dbgs() << "Link graph \"" << G->getName() << "\" before post-allocation passes:\n"; G->dump(dbgs()); }); // Run post-allocation passes. if (auto Err = runPasses(Passes.PostAllocationPasses)) return abandonAllocAndBailOut(std::move(Self), std::move(Err)); // Notify client that the defined symbols have been assigned addresses. LLVM_DEBUG(dbgs() << "Resolving symbols defined in " << G->getName() << "\n"); if (auto Err = Ctx->notifyResolved(*G)) return abandonAllocAndBailOut(std::move(Self), std::move(Err)); auto ExternalSymbols = getExternalSymbolNames(); // If there are no external symbols then proceed immediately with phase 3. if (ExternalSymbols.empty()) { LLVM_DEBUG({ dbgs() << "No external symbols for " << G->getName() << ". Proceeding immediately with link phase 3.\n"; }); // FIXME: Once MSVC implements c++17 order of evaluation rules for calls // this can be simplified. See below. auto &TmpSelf = *Self; TmpSelf.linkPhase3(std::move(Self), AsyncLookupResult()); return; } // Otherwise look up the externals. LLVM_DEBUG({ dbgs() << "Issuing lookup for external symbols for " << G->getName() << " (may trigger materialization/linking of other graphs)...\n"; }); // We're about to hand off ownership of ourself to the continuation. Grab a // pointer to the context so that we can call it to initiate the lookup. // // FIXME: Once MSVC implements c++17 order of evaluation rules for calls this // can be simplified to: // // Ctx->lookup(std::move(UnresolvedExternals), // [Self=std::move(Self)](Expected Result) { // Self->linkPhase3(std::move(Self), std::move(Result)); // }); Ctx->lookup(std::move(ExternalSymbols), createLookupContinuation( [S = std::move(Self)]( Expected LookupResult) mutable { auto &TmpSelf = *S; TmpSelf.linkPhase3(std::move(S), std::move(LookupResult)); })); } void JITLinkerBase::linkPhase3(std::unique_ptr Self, Expected LR) { LLVM_DEBUG({ dbgs() << "Starting link phase 3 for graph " << G->getName() << "\n"; }); // If the lookup failed, bail out. if (!LR) return abandonAllocAndBailOut(std::move(Self), LR.takeError()); // Assign addresses to external addressables. applyLookupResult(*LR); LLVM_DEBUG({ dbgs() << "Link graph \"" << G->getName() << "\" before pre-fixup passes:\n"; G->dump(dbgs()); }); if (auto Err = runPasses(Passes.PreFixupPasses)) return abandonAllocAndBailOut(std::move(Self), std::move(Err)); LLVM_DEBUG({ dbgs() << "Link graph \"" << G->getName() << "\" before copy-and-fixup:\n"; G->dump(dbgs()); }); // Fix up block content. if (auto Err = fixUpBlocks(*G)) return abandonAllocAndBailOut(std::move(Self), std::move(Err)); LLVM_DEBUG({ dbgs() << "Link graph \"" << G->getName() << "\" after copy-and-fixup:\n"; G->dump(dbgs()); }); if (auto Err = runPasses(Passes.PostFixupPasses)) return abandonAllocAndBailOut(std::move(Self), std::move(Err)); Alloc->finalize([S = std::move(Self)](FinalizeResult FR) mutable { // FIXME: Once MSVC implements c++17 order of evaluation rules for calls // this can be simplified to // S->linkPhase2(std::move(S), std::move(AR)); auto *TmpSelf = S.get(); TmpSelf->linkPhase4(std::move(S), std::move(FR)); }); } void JITLinkerBase::linkPhase4(std::unique_ptr Self, FinalizeResult FR) { LLVM_DEBUG({ dbgs() << "Starting link phase 4 for graph " << G->getName() << "\n"; }); if (!FR) return Ctx->notifyFailed(FR.takeError()); Ctx->notifyFinalized(std::move(*FR)); LLVM_DEBUG({ dbgs() << "Link of graph " << G->getName() << " complete\n"; }); } Error JITLinkerBase::runPasses(LinkGraphPassList &Passes) { for (auto &P : Passes) if (auto Err = P(*G)) return Err; return Error::success(); } JITLinkContext::LookupMap JITLinkerBase::getExternalSymbolNames() const { // Identify unresolved external symbols. JITLinkContext::LookupMap UnresolvedExternals; for (auto *Sym : G->external_symbols()) { assert(!Sym->getAddress() && "External has already been assigned an address"); assert(Sym->getName() != StringRef() && Sym->getName() != "" && "Externals must be named"); SymbolLookupFlags LookupFlags = Sym->isWeaklyReferenced() ? SymbolLookupFlags::WeaklyReferencedSymbol : SymbolLookupFlags::RequiredSymbol; UnresolvedExternals[Sym->getName()] = LookupFlags; } return UnresolvedExternals; } void JITLinkerBase::applyLookupResult(AsyncLookupResult Result) { for (auto *Sym : G->external_symbols()) { assert(Sym->getOffset() == 0 && "External symbol is not at the start of its addressable block"); assert(!Sym->getAddress() && "Symbol already resolved"); assert(!Sym->isDefined() && "Symbol being resolved is already defined"); auto ResultI = Result.find(Sym->getName()); if (ResultI != Result.end()) { Sym->getAddressable().setAddress(ResultI->second.getAddress()); Sym->setLinkage(ResultI->second.getFlags().isWeak() ? Linkage::Weak : Linkage::Strong); Sym->setScope(ResultI->second.getFlags().isExported() ? Scope::Default : Scope::Hidden); } else assert(Sym->isWeaklyReferenced() && "Failed to resolve non-weak reference"); } LLVM_DEBUG({ dbgs() << "Externals after applying lookup result:\n"; for (auto *Sym : G->external_symbols()) { dbgs() << " " << Sym->getName() << ": " << formatv("{0:x16}", Sym->getAddress().getValue()); switch (Sym->getLinkage()) { case Linkage::Strong: break; case Linkage::Weak: dbgs() << " (weak)"; break; } switch (Sym->getScope()) { case Scope::Local: llvm_unreachable("External symbol should not have local linkage"); case Scope::Hidden: break; case Scope::Default: dbgs() << " (exported)"; break; } dbgs() << "\n"; } }); } void JITLinkerBase::abandonAllocAndBailOut(std::unique_ptr Self, Error Err) { assert(Err && "Should not be bailing out on success value"); assert(Alloc && "can not call abandonAllocAndBailOut before allocation"); Alloc->abandon([S = std::move(Self), E1 = std::move(Err)](Error E2) mutable { S->Ctx->notifyFailed(joinErrors(std::move(E1), std::move(E2))); }); } void prune(LinkGraph &G) { std::vector Worklist; DenseSet VisitedBlocks; // Build the initial worklist from all symbols initially live. for (auto *Sym : G.defined_symbols()) if (Sym->isLive()) Worklist.push_back(Sym); // Propagate live flags to all symbols reachable from the initial live set. while (!Worklist.empty()) { auto *Sym = Worklist.back(); Worklist.pop_back(); auto &B = Sym->getBlock(); // Skip addressables that we've visited before. if (VisitedBlocks.count(&B)) continue; VisitedBlocks.insert(&B); for (auto &E : Sym->getBlock().edges()) { // If the edge target is a defined symbol that is being newly marked live // then add it to the worklist. if (E.getTarget().isDefined() && !E.getTarget().isLive()) Worklist.push_back(&E.getTarget()); // Mark the target live. E.getTarget().setLive(true); } } // Collect all defined symbols to remove, then remove them. { LLVM_DEBUG(dbgs() << "Dead-stripping defined symbols:\n"); std::vector SymbolsToRemove; for (auto *Sym : G.defined_symbols()) if (!Sym->isLive()) SymbolsToRemove.push_back(Sym); for (auto *Sym : SymbolsToRemove) { LLVM_DEBUG(dbgs() << " " << *Sym << "...\n"); G.removeDefinedSymbol(*Sym); } } // Delete any unused blocks. { LLVM_DEBUG(dbgs() << "Dead-stripping blocks:\n"); std::vector BlocksToRemove; for (auto *B : G.blocks()) if (!VisitedBlocks.count(B)) BlocksToRemove.push_back(B); for (auto *B : BlocksToRemove) { LLVM_DEBUG(dbgs() << " " << *B << "...\n"); G.removeBlock(*B); } } // Collect all external symbols to remove, then remove them. { LLVM_DEBUG(dbgs() << "Removing unused external symbols:\n"); std::vector SymbolsToRemove; for (auto *Sym : G.external_symbols()) if (!Sym->isLive()) SymbolsToRemove.push_back(Sym); for (auto *Sym : SymbolsToRemove) { LLVM_DEBUG(dbgs() << " " << *Sym << "...\n"); G.removeExternalSymbol(*Sym); } } } } // end namespace jitlink } // end namespace llvm