mirror of
https://github.com/rui314/mold.git
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191 lines
5.8 KiB
C++
191 lines
5.8 KiB
C++
// This file implements a mark-sweep garbage collector for -gc-sections.
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// In this algorithm, vertices are sections and edges are relocations.
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// Any section that is reachable from a root section is considered alive.
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#include "mold.h"
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#include <tbb/concurrent_vector.h>
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#include <tbb/parallel_for_each.h>
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template <typename E>
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using Feeder = tbb::parallel_do_feeder<InputSection<E> *>;
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template <typename E>
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static bool is_init_fini(const InputSection<E> &isec) {
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return isec.shdr.sh_type == SHT_INIT_ARRAY ||
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isec.shdr.sh_type == SHT_FINI_ARRAY ||
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isec.shdr.sh_type == SHT_PREINIT_ARRAY ||
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isec.name.starts_with(".ctors") ||
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isec.name.starts_with(".dtors") ||
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isec.name.starts_with(".init") ||
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isec.name.starts_with(".fini");
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}
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template <typename E>
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static bool mark_section(InputSection<E> *isec) {
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return isec && isec->is_alive && !isec->is_visited.exchange(true);
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}
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template <typename E>
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static void visit(Context<E> &ctx, InputSection<E> *isec,
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Feeder<E> &feeder, i64 depth) {
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assert(isec->is_visited);
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// A relocation can refer either a section fragment (i.e. a piece of
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// string in a mergeable string section) or a symbol. Mark all
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// section fragments as alive.
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for (SectionFragmentRef<E> &ref : isec->rel_fragments)
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ref.frag->is_alive = true;
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// If this is a text section, .eh_frame may contain records
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// describing how to handle exceptions for that function.
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// We want to keep associated .eh_frame records.
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for (FdeRecord<E> &fde : isec->fdes)
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for (EhReloc<E> &rel : std::span<EhReloc<E>>(fde.rels).subspan(1))
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if (InputSection<E> *isec = rel.sym.input_section)
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if (mark_section(isec))
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feeder.add(isec);
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for (ElfRel<E> &rel : isec->get_rels(ctx)) {
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Symbol<E> &sym = *isec->file.symbols[rel.r_sym];
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// Symbol can refer either a section fragment or an input section.
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// Mark a fragment as alive.
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if (SectionFragment<E> *frag = sym.get_frag()) {
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frag->is_alive = true;
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continue;
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}
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if (!mark_section(sym.input_section))
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continue;
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// Mark a section alive. For better performacne, we don't call
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// `feeder.add` too often.
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if (depth < 3)
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visit(ctx, sym.input_section, feeder, depth + 1);
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else
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feeder.add(sym.input_section);
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}
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}
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template <typename E>
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static tbb::concurrent_vector<InputSection<E> *>
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collect_root_set(Context<E> &ctx) {
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Timer t("collect_root_set");
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tbb::concurrent_vector<InputSection<E> *> roots;
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auto enqueue_section = [&](InputSection<E> *isec) {
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if (mark_section(isec))
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roots.push_back(isec);
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};
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auto enqueue_symbol = [&](Symbol<E> *sym) {
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if (sym) {
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if (SectionFragment<E> *frag = sym->get_frag())
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frag->is_alive = true;
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else
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enqueue_section(sym->input_section);
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}
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};
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// Add sections that are not subject to garbage collection.
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tbb::parallel_for_each(ctx.objs, [&](ObjectFile<E> *file) {
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for (InputSection<E> *isec : file->sections) {
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if (!isec)
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continue;
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// -gc-sections discards only SHF_ALLOC sections. If you want to
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// reduce the amount of non-memory-mapped segments, you should
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// use `strip` command, compile without debug info or use
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// -strip-all linker option.
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if (!(isec->shdr.sh_flags & SHF_ALLOC))
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isec->is_visited = true;
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if (is_init_fini(*isec) || isec->shdr.sh_type == SHT_NOTE)
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enqueue_section(isec);
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}
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});
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// Add sections containing exported symbols
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tbb::parallel_for_each(ctx.objs, [&](ObjectFile<E> *file) {
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for (Symbol<E> *sym : file->symbols)
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if (sym->file == file && sym->is_exported)
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enqueue_symbol(sym);
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});
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// Add sections referenced by root symbols.
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enqueue_symbol(Symbol<E>::intern(ctx, ctx.arg.entry));
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for (std::string_view name : ctx.arg.undefined)
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enqueue_symbol(Symbol<E>::intern(ctx, name));
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// .eh_frame consists of variable-length records called CIE and FDE
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// records, and they are a unit of inclusion or exclusion.
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// We just keep all CIEs and everything that are referenced by them.
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tbb::parallel_for_each(ctx.objs, [&](ObjectFile<E> *file) {
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for (CieRecord<E> &cie : file->cies)
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for (EhReloc<E> &rel : cie.rels)
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enqueue_section(rel.sym.input_section);
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});
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return roots;
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}
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// Mark all reachable sections
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template <typename E>
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static void mark(Context<E> &ctx,
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tbb::concurrent_vector<InputSection<E> *> &roots) {
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Timer t("mark");
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tbb::parallel_do(roots, [&](InputSection<E> *isec, Feeder<E> &feeder) {
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visit(ctx, isec, feeder, 0);
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});
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}
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// Remove unreachable sections
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template <typename E>
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static void sweep(Context<E> &ctx) {
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Timer t("sweep");
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static Counter counter("garbage_sections");
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tbb::parallel_for_each(ctx.objs, [&](ObjectFile<E> *file) {
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for (i64 i = 0; i < file->sections.size(); i++) {
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InputSection<E> *isec = file->sections[i];
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if (isec && isec->is_alive && !isec->is_visited) {
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if (ctx.arg.print_gc_sections)
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SyncOut(ctx) << "removing unused section " << *isec;
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isec->kill();
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counter++;
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}
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}
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});
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}
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// Non-alloc section fragments are not subject of garbage collection.
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// This function marks such fragments.
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template <typename E>
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static void mark_nonalloc_fragments(Context<E> &ctx) {
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Timer t("mark_nonalloc_fragments");
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tbb::parallel_for_each(ctx.objs, [](ObjectFile<E> *file) {
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for (SectionFragment<E> *frag : file->fragments)
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if (!(frag->output_section.shdr.sh_flags & SHF_ALLOC))
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frag->is_alive = true;
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});
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}
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template <typename E>
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void gc_sections(Context<E> &ctx) {
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Timer t("gc");
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mark_nonalloc_fragments(ctx);
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tbb::concurrent_vector<InputSection<E> *> roots = collect_root_set(ctx);
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mark(ctx, roots);
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sweep(ctx);
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}
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template void gc_sections(Context<X86_64> &ctx);
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template void gc_sections(Context<I386> &ctx);
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