//===- MarkLive.cpp -------------------------------------------------------===// // // 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 // //===----------------------------------------------------------------------===// // // This file implements --gc-sections, which is a feature to remove unused // chunks from the output. Unused chunks are those that are not reachable from // known root symbols or chunks. This feature is implemented as a mark-sweep // garbage collector. // // Here's how it works. Each InputChunk has a "Live" bit. The bit is off by // default. Starting with the GC-roots, visit all reachable chunks and set their // Live bits. The Writer will then ignore chunks whose Live bits are off, so // that such chunk are not appear in the output. // //===----------------------------------------------------------------------===// #include "MarkLive.h" #include "Config.h" #include "InputChunks.h" #include "InputEvent.h" #include "InputGlobal.h" #include "InputTable.h" #include "SymbolTable.h" #include "Symbols.h" #define DEBUG_TYPE "lld" using namespace llvm; using namespace llvm::wasm; namespace lld { namespace wasm { namespace { class MarkLive { public: void run(); private: void enqueue(Symbol *sym); void enqueueInitFunctions(const ObjFile *sym); void mark(); bool isCallCtorsLive(); // A list of chunks to visit. SmallVector queue; }; } // namespace void MarkLive::enqueue(Symbol *sym) { if (!sym || sym->isLive()) return; LLVM_DEBUG(dbgs() << "markLive: " << sym->getName() << "\n"); InputFile *file = sym->getFile(); bool needInitFunctions = file && !file->isLive() && sym->isDefined(); sym->markLive(); // Mark ctor functions in the object that defines this symbol live. // The ctor functions are all referenced by the synthetic callCtors // function. However, this function does not contain relocations so we // have to manually mark the ctors as live. if (needInitFunctions) enqueueInitFunctions(cast(file)); if (InputChunk *chunk = sym->getChunk()) queue.push_back(chunk); } // The ctor functions are all referenced by the synthetic callCtors // function. However, this function does not contain relocations so we // have to manually mark the ctors as live. void MarkLive::enqueueInitFunctions(const ObjFile *obj) { const WasmLinkingData &l = obj->getWasmObj()->linkingData(); for (const WasmInitFunc &f : l.InitFunctions) { auto *initSym = obj->getFunctionSymbol(f.Symbol); if (!initSym->isDiscarded()) enqueue(initSym); } } void MarkLive::run() { // Add GC root symbols. if (!config->entry.empty()) enqueue(symtab->find(config->entry)); // We need to preserve any no-strip or exported symbol for (Symbol *sym : symtab->getSymbols()) if (sym->isNoStrip() || sym->isExported()) enqueue(sym); if (WasmSym::callDtors) enqueue(WasmSym::callDtors); // Enqueue constructors in objects explicitly live from the command-line. for (const ObjFile *obj : symtab->objectFiles) if (obj->isLive()) enqueueInitFunctions(obj); mark(); // If we have any non-discarded init functions, mark `__wasm_call_ctors` as // live so that we assign it an index and call it. if (isCallCtorsLive()) WasmSym::callCtors->markLive(); } void MarkLive::mark() { // Follow relocations to mark all reachable chunks. while (!queue.empty()) { InputChunk *c = queue.pop_back_val(); for (const WasmRelocation reloc : c->getRelocations()) { if (reloc.Type == R_WASM_TYPE_INDEX_LEB) continue; Symbol *sym = c->file->getSymbol(reloc.Index); // If the function has been assigned the special index zero in the table, // the relocation doesn't pull in the function body, since the function // won't actually go in the table (the runtime will trap attempts to call // that index, since we don't use it). A function with a table index of // zero is only reachable via "call", not via "call_indirect". The stub // functions used for weak-undefined symbols have this behaviour (compare // equal to null pointer, only reachable via direct call). if (reloc.Type == R_WASM_TABLE_INDEX_SLEB || reloc.Type == R_WASM_TABLE_INDEX_SLEB64 || reloc.Type == R_WASM_TABLE_INDEX_I32 || reloc.Type == R_WASM_TABLE_INDEX_I64) { auto *funcSym = cast(sym); if (funcSym->isStub) continue; } enqueue(sym); } } } void markLive() { if (!config->gcSections) return; LLVM_DEBUG(dbgs() << "markLive\n"); MarkLive marker; marker.run(); // Report garbage-collected sections. if (config->printGcSections) { for (const ObjFile *obj : symtab->objectFiles) { for (InputChunk *c : obj->functions) if (!c->live) message("removing unused section " + toString(c)); for (InputChunk *c : obj->segments) if (!c->live) message("removing unused section " + toString(c)); for (InputGlobal *g : obj->globals) if (!g->live) message("removing unused section " + toString(g)); for (InputEvent *e : obj->events) if (!e->live) message("removing unused section " + toString(e)); for (InputTable *t : obj->tables) if (!t->live) message("removing unused section " + toString(t)); } for (InputChunk *c : symtab->syntheticFunctions) if (!c->live) message("removing unused section " + toString(c)); for (InputGlobal *g : symtab->syntheticGlobals) if (!g->live) message("removing unused section " + toString(g)); for (InputTable *t : symtab->syntheticTables) if (!t->live) message("removing unused section " + toString(t)); } } bool MarkLive::isCallCtorsLive() { // In a reloctable link, we don't call `__wasm_call_ctors`. if (config->relocatable) return false; // In Emscripten-style PIC, we call `__wasm_call_ctors` which calls // `__wasm_apply_relocs`. if (config->isPic) return true; // If there are any init functions, mark `__wasm_call_ctors` live so that // it can call them. for (const ObjFile *file : symtab->objectFiles) { const WasmLinkingData &l = file->getWasmObj()->linkingData(); for (const WasmInitFunc &f : l.InitFunctions) { auto *sym = file->getFunctionSymbol(f.Symbol); if (!sym->isDiscarded() && sym->isLive()) return true; } } return false; } } // namespace wasm } // namespace lld