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- // layout.cc -- lay out output file sections for gold
- // Copyright (C) 2006-2022 Free Software Foundation, Inc.
- // Written by Ian Lance Taylor <iant@google.com>.
- // This file is part of gold.
- // This program is free software; you can redistribute it and/or modify
- // it under the terms of the GNU General Public License as published by
- // the Free Software Foundation; either version 3 of the License, or
- // (at your option) any later version.
- // This program is distributed in the hope that it will be useful,
- // but WITHOUT ANY WARRANTY; without even the implied warranty of
- // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- // GNU General Public License for more details.
- // You should have received a copy of the GNU General Public License
- // along with this program; if not, write to the Free Software
- // Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
- // MA 02110-1301, USA.
- #include "gold.h"
- #include <cerrno>
- #include <cstring>
- #include <algorithm>
- #include <iostream>
- #include <fstream>
- #include <utility>
- #include <fcntl.h>
- #include <fnmatch.h>
- #include <unistd.h>
- #include "libiberty.h"
- #include "md5.h"
- #include "sha1.h"
- #ifdef __MINGW32__
- #include <windows.h>
- #include <rpcdce.h>
- #endif
- #include "parameters.h"
- #include "options.h"
- #include "mapfile.h"
- #include "script.h"
- #include "script-sections.h"
- #include "output.h"
- #include "symtab.h"
- #include "dynobj.h"
- #include "ehframe.h"
- #include "gdb-index.h"
- #include "compressed_output.h"
- #include "reduced_debug_output.h"
- #include "object.h"
- #include "reloc.h"
- #include "descriptors.h"
- #include "plugin.h"
- #include "incremental.h"
- #include "layout.h"
- namespace gold
- {
- // Class Free_list.
- // The total number of free lists used.
- unsigned int Free_list::num_lists = 0;
- // The total number of free list nodes used.
- unsigned int Free_list::num_nodes = 0;
- // The total number of calls to Free_list::remove.
- unsigned int Free_list::num_removes = 0;
- // The total number of nodes visited during calls to Free_list::remove.
- unsigned int Free_list::num_remove_visits = 0;
- // The total number of calls to Free_list::allocate.
- unsigned int Free_list::num_allocates = 0;
- // The total number of nodes visited during calls to Free_list::allocate.
- unsigned int Free_list::num_allocate_visits = 0;
- // Initialize the free list. Creates a single free list node that
- // describes the entire region of length LEN. If EXTEND is true,
- // allocate() is allowed to extend the region beyond its initial
- // length.
- void
- Free_list::init(off_t len, bool extend)
- {
- this->list_.push_front(Free_list_node(0, len));
- this->last_remove_ = this->list_.begin();
- this->extend_ = extend;
- this->length_ = len;
- ++Free_list::num_lists;
- ++Free_list::num_nodes;
- }
- // Remove a chunk from the free list. Because we start with a single
- // node that covers the entire section, and remove chunks from it one
- // at a time, we do not need to coalesce chunks or handle cases that
- // span more than one free node. We expect to remove chunks from the
- // free list in order, and we expect to have only a few chunks of free
- // space left (corresponding to files that have changed since the last
- // incremental link), so a simple linear list should provide sufficient
- // performance.
- void
- Free_list::remove(off_t start, off_t end)
- {
- if (start == end)
- return;
- gold_assert(start < end);
- ++Free_list::num_removes;
- Iterator p = this->last_remove_;
- if (p->start_ > start)
- p = this->list_.begin();
- for (; p != this->list_.end(); ++p)
- {
- ++Free_list::num_remove_visits;
- // Find a node that wholly contains the indicated region.
- if (p->start_ <= start && p->end_ >= end)
- {
- // Case 1: the indicated region spans the whole node.
- // Add some fuzz to avoid creating tiny free chunks.
- if (p->start_ + 3 >= start && p->end_ <= end + 3)
- p = this->list_.erase(p);
- // Case 2: remove a chunk from the start of the node.
- else if (p->start_ + 3 >= start)
- p->start_ = end;
- // Case 3: remove a chunk from the end of the node.
- else if (p->end_ <= end + 3)
- p->end_ = start;
- // Case 4: remove a chunk from the middle, and split
- // the node into two.
- else
- {
- Free_list_node newnode(p->start_, start);
- p->start_ = end;
- this->list_.insert(p, newnode);
- ++Free_list::num_nodes;
- }
- this->last_remove_ = p;
- return;
- }
- }
- // Did not find a node containing the given chunk. This could happen
- // because a small chunk was already removed due to the fuzz.
- gold_debug(DEBUG_INCREMENTAL,
- "Free_list::remove(%d,%d) not found",
- static_cast<int>(start), static_cast<int>(end));
- }
- // Allocate a chunk of size LEN from the free list. Returns -1ULL
- // if a sufficiently large chunk of free space is not found.
- // We use a simple first-fit algorithm.
- off_t
- Free_list::allocate(off_t len, uint64_t align, off_t minoff)
- {
- gold_debug(DEBUG_INCREMENTAL,
- "Free_list::allocate(%08lx, %d, %08lx)",
- static_cast<long>(len), static_cast<int>(align),
- static_cast<long>(minoff));
- if (len == 0)
- return align_address(minoff, align);
- ++Free_list::num_allocates;
- // We usually want to drop free chunks smaller than 4 bytes.
- // If we need to guarantee a minimum hole size, though, we need
- // to keep track of all free chunks.
- const int fuzz = this->min_hole_ > 0 ? 0 : 3;
- for (Iterator p = this->list_.begin(); p != this->list_.end(); ++p)
- {
- ++Free_list::num_allocate_visits;
- off_t start = p->start_ > minoff ? p->start_ : minoff;
- start = align_address(start, align);
- off_t end = start + len;
- if (end > p->end_ && p->end_ == this->length_ && this->extend_)
- {
- this->length_ = end;
- p->end_ = end;
- }
- if (end == p->end_ || (end <= p->end_ - this->min_hole_))
- {
- if (p->start_ + fuzz >= start && p->end_ <= end + fuzz)
- this->list_.erase(p);
- else if (p->start_ + fuzz >= start)
- p->start_ = end;
- else if (p->end_ <= end + fuzz)
- p->end_ = start;
- else
- {
- Free_list_node newnode(p->start_, start);
- p->start_ = end;
- this->list_.insert(p, newnode);
- ++Free_list::num_nodes;
- }
- return start;
- }
- }
- if (this->extend_)
- {
- off_t start = align_address(this->length_, align);
- this->length_ = start + len;
- return start;
- }
- return -1;
- }
- // Dump the free list (for debugging).
- void
- Free_list::dump()
- {
- gold_info("Free list:\n start end length\n");
- for (Iterator p = this->list_.begin(); p != this->list_.end(); ++p)
- gold_info(" %08lx %08lx %08lx", static_cast<long>(p->start_),
- static_cast<long>(p->end_),
- static_cast<long>(p->end_ - p->start_));
- }
- // Print the statistics for the free lists.
- void
- Free_list::print_stats()
- {
- fprintf(stderr, _("%s: total free lists: %u\n"),
- program_name, Free_list::num_lists);
- fprintf(stderr, _("%s: total free list nodes: %u\n"),
- program_name, Free_list::num_nodes);
- fprintf(stderr, _("%s: calls to Free_list::remove: %u\n"),
- program_name, Free_list::num_removes);
- fprintf(stderr, _("%s: nodes visited: %u\n"),
- program_name, Free_list::num_remove_visits);
- fprintf(stderr, _("%s: calls to Free_list::allocate: %u\n"),
- program_name, Free_list::num_allocates);
- fprintf(stderr, _("%s: nodes visited: %u\n"),
- program_name, Free_list::num_allocate_visits);
- }
- // A Hash_task computes the MD5 checksum of an array of char.
- class Hash_task : public Task
- {
- public:
- Hash_task(Output_file* of,
- size_t offset,
- size_t size,
- unsigned char* dst,
- Task_token* final_blocker)
- : of_(of), offset_(offset), size_(size), dst_(dst),
- final_blocker_(final_blocker)
- { }
- void
- run(Workqueue*)
- {
- const unsigned char* iv =
- this->of_->get_input_view(this->offset_, this->size_);
- md5_buffer(reinterpret_cast<const char*>(iv), this->size_, this->dst_);
- this->of_->free_input_view(this->offset_, this->size_, iv);
- }
- Task_token*
- is_runnable()
- { return NULL; }
- // Unblock FINAL_BLOCKER_ when done.
- void
- locks(Task_locker* tl)
- { tl->add(this, this->final_blocker_); }
- std::string
- get_name() const
- { return "Hash_task"; }
- private:
- Output_file* of_;
- const size_t offset_;
- const size_t size_;
- unsigned char* const dst_;
- Task_token* const final_blocker_;
- };
- // Layout::Relaxation_debug_check methods.
- // Check that sections and special data are in reset states.
- // We do not save states for Output_sections and special Output_data.
- // So we check that they have not assigned any addresses or offsets.
- // clean_up_after_relaxation simply resets their addresses and offsets.
- void
- Layout::Relaxation_debug_check::check_output_data_for_reset_values(
- const Layout::Section_list& sections,
- const Layout::Data_list& special_outputs,
- const Layout::Data_list& relax_outputs)
- {
- for(Layout::Section_list::const_iterator p = sections.begin();
- p != sections.end();
- ++p)
- gold_assert((*p)->address_and_file_offset_have_reset_values());
- for(Layout::Data_list::const_iterator p = special_outputs.begin();
- p != special_outputs.end();
- ++p)
- gold_assert((*p)->address_and_file_offset_have_reset_values());
- gold_assert(relax_outputs.empty());
- }
- // Save information of SECTIONS for checking later.
- void
- Layout::Relaxation_debug_check::read_sections(
- const Layout::Section_list& sections)
- {
- for(Layout::Section_list::const_iterator p = sections.begin();
- p != sections.end();
- ++p)
- {
- Output_section* os = *p;
- Section_info info;
- info.output_section = os;
- info.address = os->is_address_valid() ? os->address() : 0;
- info.data_size = os->is_data_size_valid() ? os->data_size() : -1;
- info.offset = os->is_offset_valid()? os->offset() : -1 ;
- this->section_infos_.push_back(info);
- }
- }
- // Verify SECTIONS using previously recorded information.
- void
- Layout::Relaxation_debug_check::verify_sections(
- const Layout::Section_list& sections)
- {
- size_t i = 0;
- for(Layout::Section_list::const_iterator p = sections.begin();
- p != sections.end();
- ++p, ++i)
- {
- Output_section* os = *p;
- uint64_t address = os->is_address_valid() ? os->address() : 0;
- off_t data_size = os->is_data_size_valid() ? os->data_size() : -1;
- off_t offset = os->is_offset_valid()? os->offset() : -1 ;
- if (i >= this->section_infos_.size())
- {
- gold_fatal("Section_info of %s missing.\n", os->name());
- }
- const Section_info& info = this->section_infos_[i];
- if (os != info.output_section)
- gold_fatal("Section order changed. Expecting %s but see %s\n",
- info.output_section->name(), os->name());
- if (address != info.address
- || data_size != info.data_size
- || offset != info.offset)
- gold_fatal("Section %s changed.\n", os->name());
- }
- }
- // Layout_task_runner methods.
- // Lay out the sections. This is called after all the input objects
- // have been read.
- void
- Layout_task_runner::run(Workqueue* workqueue, const Task* task)
- {
- // See if any of the input definitions violate the One Definition Rule.
- // TODO: if this is too slow, do this as a task, rather than inline.
- this->symtab_->detect_odr_violations(task, this->options_.output_file_name());
- Layout* layout = this->layout_;
- off_t file_size = layout->finalize(this->input_objects_,
- this->symtab_,
- this->target_,
- task);
- // Now we know the final size of the output file and we know where
- // each piece of information goes.
- if (this->mapfile_ != NULL)
- {
- this->mapfile_->print_discarded_sections(this->input_objects_);
- layout->print_to_mapfile(this->mapfile_);
- }
- Output_file* of;
- if (layout->incremental_base() == NULL)
- {
- of = new Output_file(parameters->options().output_file_name());
- if (this->options_.oformat_enum() != General_options::OBJECT_FORMAT_ELF)
- of->set_is_temporary();
- of->open(file_size);
- }
- else
- {
- of = layout->incremental_base()->output_file();
- // Apply the incremental relocations for symbols whose values
- // have changed. We do this before we resize the file and start
- // writing anything else to it, so that we can read the old
- // incremental information from the file before (possibly)
- // overwriting it.
- if (parameters->incremental_update())
- layout->incremental_base()->apply_incremental_relocs(this->symtab_,
- this->layout_,
- of);
- of->resize(file_size);
- }
- // Queue up the final set of tasks.
- gold::queue_final_tasks(this->options_, this->input_objects_,
- this->symtab_, layout, workqueue, of);
- }
- // Layout methods.
- Layout::Layout(int number_of_input_files, Script_options* script_options)
- : number_of_input_files_(number_of_input_files),
- script_options_(script_options),
- namepool_(),
- sympool_(),
- dynpool_(),
- signatures_(),
- section_name_map_(),
- segment_list_(),
- section_list_(),
- unattached_section_list_(),
- special_output_list_(),
- relax_output_list_(),
- section_headers_(NULL),
- tls_segment_(NULL),
- relro_segment_(NULL),
- interp_segment_(NULL),
- increase_relro_(0),
- symtab_section_(NULL),
- symtab_xindex_(NULL),
- dynsym_section_(NULL),
- dynsym_xindex_(NULL),
- dynamic_section_(NULL),
- dynamic_symbol_(NULL),
- dynamic_data_(NULL),
- eh_frame_section_(NULL),
- eh_frame_data_(NULL),
- added_eh_frame_data_(false),
- eh_frame_hdr_section_(NULL),
- gdb_index_data_(NULL),
- build_id_note_(NULL),
- debug_abbrev_(NULL),
- debug_info_(NULL),
- group_signatures_(),
- output_file_size_(-1),
- have_added_input_section_(false),
- sections_are_attached_(false),
- input_requires_executable_stack_(false),
- input_with_gnu_stack_note_(false),
- input_without_gnu_stack_note_(false),
- has_static_tls_(false),
- any_postprocessing_sections_(false),
- resized_signatures_(false),
- have_stabstr_section_(false),
- section_ordering_specified_(false),
- unique_segment_for_sections_specified_(false),
- incremental_inputs_(NULL),
- record_output_section_data_from_script_(false),
- lto_slim_object_(false),
- script_output_section_data_list_(),
- segment_states_(NULL),
- relaxation_debug_check_(NULL),
- section_order_map_(),
- section_segment_map_(),
- input_section_position_(),
- input_section_glob_(),
- incremental_base_(NULL),
- free_list_(),
- gnu_properties_()
- {
- // Make space for more than enough segments for a typical file.
- // This is just for efficiency--it's OK if we wind up needing more.
- this->segment_list_.reserve(12);
- // We expect two unattached Output_data objects: the file header and
- // the segment headers.
- this->special_output_list_.reserve(2);
- // Initialize structure needed for an incremental build.
- if (parameters->incremental())
- this->incremental_inputs_ = new Incremental_inputs;
- // The section name pool is worth optimizing in all cases, because
- // it is small, but there are often overlaps due to .rel sections.
- this->namepool_.set_optimize();
- }
- // For incremental links, record the base file to be modified.
- void
- Layout::set_incremental_base(Incremental_binary* base)
- {
- this->incremental_base_ = base;
- this->free_list_.init(base->output_file()->filesize(), true);
- }
- // Hash a key we use to look up an output section mapping.
- size_t
- Layout::Hash_key::operator()(const Layout::Key& k) const
- {
- return k.first + k.second.first + k.second.second;
- }
- // These are the debug sections that are actually used by gdb.
- // Currently, we've checked versions of gdb up to and including 7.4.
- // We only check the part of the name that follows ".debug_" or
- // ".zdebug_".
- static const char* gdb_sections[] =
- {
- "abbrev",
- "addr", // Fission extension
- // "aranges", // not used by gdb as of 7.4
- "frame",
- "gdb_scripts",
- "info",
- "types",
- "line",
- "loc",
- "macinfo",
- "macro",
- // "pubnames", // not used by gdb as of 7.4
- // "pubtypes", // not used by gdb as of 7.4
- // "gnu_pubnames", // Fission extension
- // "gnu_pubtypes", // Fission extension
- "ranges",
- "str",
- "str_offsets",
- };
- // This is the minimum set of sections needed for line numbers.
- static const char* lines_only_debug_sections[] =
- {
- "abbrev",
- // "addr", // Fission extension
- // "aranges", // not used by gdb as of 7.4
- // "frame",
- // "gdb_scripts",
- "info",
- // "types",
- "line",
- // "loc",
- // "macinfo",
- // "macro",
- // "pubnames", // not used by gdb as of 7.4
- // "pubtypes", // not used by gdb as of 7.4
- // "gnu_pubnames", // Fission extension
- // "gnu_pubtypes", // Fission extension
- // "ranges",
- "str",
- "str_offsets", // Fission extension
- };
- // These sections are the DWARF fast-lookup tables, and are not needed
- // when building a .gdb_index section.
- static const char* gdb_fast_lookup_sections[] =
- {
- "aranges",
- "pubnames",
- "gnu_pubnames",
- "pubtypes",
- "gnu_pubtypes",
- };
- // Returns whether the given debug section is in the list of
- // debug-sections-used-by-some-version-of-gdb. SUFFIX is the
- // portion of the name following ".debug_" or ".zdebug_".
- static inline bool
- is_gdb_debug_section(const char* suffix)
- {
- // We can do this faster: binary search or a hashtable. But why bother?
- for (size_t i = 0; i < sizeof(gdb_sections)/sizeof(*gdb_sections); ++i)
- if (strcmp(suffix, gdb_sections[i]) == 0)
- return true;
- return false;
- }
- // Returns whether the given section is needed for lines-only debugging.
- static inline bool
- is_lines_only_debug_section(const char* suffix)
- {
- // We can do this faster: binary search or a hashtable. But why bother?
- for (size_t i = 0;
- i < sizeof(lines_only_debug_sections)/sizeof(*lines_only_debug_sections);
- ++i)
- if (strcmp(suffix, lines_only_debug_sections[i]) == 0)
- return true;
- return false;
- }
- // Returns whether the given section is a fast-lookup section that
- // will not be needed when building a .gdb_index section.
- static inline bool
- is_gdb_fast_lookup_section(const char* suffix)
- {
- // We can do this faster: binary search or a hashtable. But why bother?
- for (size_t i = 0;
- i < sizeof(gdb_fast_lookup_sections)/sizeof(*gdb_fast_lookup_sections);
- ++i)
- if (strcmp(suffix, gdb_fast_lookup_sections[i]) == 0)
- return true;
- return false;
- }
- // Sometimes we compress sections. This is typically done for
- // sections that are not part of normal program execution (such as
- // .debug_* sections), and where the readers of these sections know
- // how to deal with compressed sections. This routine doesn't say for
- // certain whether we'll compress -- it depends on commandline options
- // as well -- just whether this section is a candidate for compression.
- // (The Output_compressed_section class decides whether to compress
- // a given section, and picks the name of the compressed section.)
- static bool
- is_compressible_debug_section(const char* secname)
- {
- return (is_prefix_of(".debug", secname));
- }
- // We may see compressed debug sections in input files. Return TRUE
- // if this is the name of a compressed debug section.
- bool
- is_compressed_debug_section(const char* secname)
- {
- return (is_prefix_of(".zdebug", secname));
- }
- std::string
- corresponding_uncompressed_section_name(std::string secname)
- {
- gold_assert(secname[0] == '.' && secname[1] == 'z');
- std::string ret(".");
- ret.append(secname, 2, std::string::npos);
- return ret;
- }
- // Whether to include this section in the link.
- template<int size, bool big_endian>
- bool
- Layout::include_section(Sized_relobj_file<size, big_endian>*, const char* name,
- const elfcpp::Shdr<size, big_endian>& shdr)
- {
- if (!parameters->options().relocatable()
- && (shdr.get_sh_flags() & elfcpp::SHF_EXCLUDE))
- return false;
- elfcpp::Elf_Word sh_type = shdr.get_sh_type();
- if ((sh_type >= elfcpp::SHT_LOOS && sh_type <= elfcpp::SHT_HIOS)
- || (sh_type >= elfcpp::SHT_LOPROC && sh_type <= elfcpp::SHT_HIPROC))
- return parameters->target().should_include_section(sh_type);
- switch (sh_type)
- {
- case elfcpp::SHT_NULL:
- case elfcpp::SHT_SYMTAB:
- case elfcpp::SHT_DYNSYM:
- case elfcpp::SHT_HASH:
- case elfcpp::SHT_DYNAMIC:
- case elfcpp::SHT_SYMTAB_SHNDX:
- return false;
- case elfcpp::SHT_STRTAB:
- // Discard the sections which have special meanings in the ELF
- // ABI. Keep others (e.g., .stabstr). We could also do this by
- // checking the sh_link fields of the appropriate sections.
- return (strcmp(name, ".dynstr") != 0
- && strcmp(name, ".strtab") != 0
- && strcmp(name, ".shstrtab") != 0);
- case elfcpp::SHT_RELA:
- case elfcpp::SHT_REL:
- case elfcpp::SHT_GROUP:
- // If we are emitting relocations these should be handled
- // elsewhere.
- gold_assert(!parameters->options().relocatable());
- return false;
- case elfcpp::SHT_PROGBITS:
- if (parameters->options().strip_debug()
- && (shdr.get_sh_flags() & elfcpp::SHF_ALLOC) == 0)
- {
- if (is_debug_info_section(name))
- return false;
- }
- if (parameters->options().strip_debug_non_line()
- && (shdr.get_sh_flags() & elfcpp::SHF_ALLOC) == 0)
- {
- // Debugging sections can only be recognized by name.
- if (is_prefix_of(".debug_", name)
- && !is_lines_only_debug_section(name + 7))
- return false;
- if (is_prefix_of(".zdebug_", name)
- && !is_lines_only_debug_section(name + 8))
- return false;
- }
- if (parameters->options().strip_debug_gdb()
- && (shdr.get_sh_flags() & elfcpp::SHF_ALLOC) == 0)
- {
- // Debugging sections can only be recognized by name.
- if (is_prefix_of(".debug_", name)
- && !is_gdb_debug_section(name + 7))
- return false;
- if (is_prefix_of(".zdebug_", name)
- && !is_gdb_debug_section(name + 8))
- return false;
- }
- if (parameters->options().gdb_index()
- && (shdr.get_sh_flags() & elfcpp::SHF_ALLOC) == 0)
- {
- // When building .gdb_index, we can strip .debug_pubnames,
- // .debug_pubtypes, and .debug_aranges sections.
- if (is_prefix_of(".debug_", name)
- && is_gdb_fast_lookup_section(name + 7))
- return false;
- if (is_prefix_of(".zdebug_", name)
- && is_gdb_fast_lookup_section(name + 8))
- return false;
- }
- if (parameters->options().strip_lto_sections()
- && !parameters->options().relocatable()
- && (shdr.get_sh_flags() & elfcpp::SHF_ALLOC) == 0)
- {
- // Ignore LTO sections containing intermediate code.
- if (is_prefix_of(".gnu.lto_", name))
- return false;
- }
- // The GNU linker strips .gnu_debuglink sections, so we do too.
- // This is a feature used to keep debugging information in
- // separate files.
- if (strcmp(name, ".gnu_debuglink") == 0)
- return false;
- return true;
- default:
- return true;
- }
- }
- // Return an output section named NAME, or NULL if there is none.
- Output_section*
- Layout::find_output_section(const char* name) const
- {
- for (Section_list::const_iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- if (strcmp((*p)->name(), name) == 0)
- return *p;
- return NULL;
- }
- // Return an output segment of type TYPE, with segment flags SET set
- // and segment flags CLEAR clear. Return NULL if there is none.
- Output_segment*
- Layout::find_output_segment(elfcpp::PT type, elfcpp::Elf_Word set,
- elfcpp::Elf_Word clear) const
- {
- for (Segment_list::const_iterator p = this->segment_list_.begin();
- p != this->segment_list_.end();
- ++p)
- if (static_cast<elfcpp::PT>((*p)->type()) == type
- && ((*p)->flags() & set) == set
- && ((*p)->flags() & clear) == 0)
- return *p;
- return NULL;
- }
- // When we put a .ctors or .dtors section with more than one word into
- // a .init_array or .fini_array section, we need to reverse the words
- // in the .ctors/.dtors section. This is because .init_array executes
- // constructors front to back, where .ctors executes them back to
- // front, and vice-versa for .fini_array/.dtors. Although we do want
- // to remap .ctors/.dtors into .init_array/.fini_array because it can
- // be more efficient, we don't want to change the order in which
- // constructors/destructors are run. This set just keeps track of
- // these sections which need to be reversed. It is only changed by
- // Layout::layout. It should be a private member of Layout, but that
- // would require layout.h to #include object.h to get the definition
- // of Section_id.
- static Unordered_set<Section_id, Section_id_hash> ctors_sections_in_init_array;
- // Return whether OBJECT/SHNDX is a .ctors/.dtors section mapped to a
- // .init_array/.fini_array section.
- bool
- Layout::is_ctors_in_init_array(Relobj* relobj, unsigned int shndx) const
- {
- return (ctors_sections_in_init_array.find(Section_id(relobj, shndx))
- != ctors_sections_in_init_array.end());
- }
- // Return the output section to use for section NAME with type TYPE
- // and section flags FLAGS. NAME must be canonicalized in the string
- // pool, and NAME_KEY is the key. ORDER is where this should appear
- // in the output sections. IS_RELRO is true for a relro section.
- Output_section*
- Layout::get_output_section(const char* name, Stringpool::Key name_key,
- elfcpp::Elf_Word type, elfcpp::Elf_Xword flags,
- Output_section_order order, bool is_relro)
- {
- elfcpp::Elf_Word lookup_type = type;
- // For lookup purposes, treat INIT_ARRAY, FINI_ARRAY, and
- // PREINIT_ARRAY like PROGBITS. This ensures that we combine
- // .init_array, .fini_array, and .preinit_array sections by name
- // whatever their type in the input file. We do this because the
- // types are not always right in the input files.
- if (lookup_type == elfcpp::SHT_INIT_ARRAY
- || lookup_type == elfcpp::SHT_FINI_ARRAY
- || lookup_type == elfcpp::SHT_PREINIT_ARRAY)
- lookup_type = elfcpp::SHT_PROGBITS;
- elfcpp::Elf_Xword lookup_flags = flags;
- // Ignoring SHF_WRITE and SHF_EXECINSTR here means that we combine
- // read-write with read-only sections. Some other ELF linkers do
- // not do this. FIXME: Perhaps there should be an option
- // controlling this.
- lookup_flags &= ~(elfcpp::SHF_WRITE | elfcpp::SHF_EXECINSTR);
- const Key key(name_key, std::make_pair(lookup_type, lookup_flags));
- const std::pair<Key, Output_section*> v(key, NULL);
- std::pair<Section_name_map::iterator, bool> ins(
- this->section_name_map_.insert(v));
- if (!ins.second)
- return ins.first->second;
- else
- {
- // This is the first time we've seen this name/type/flags
- // combination. For compatibility with the GNU linker, we
- // combine sections with contents and zero flags with sections
- // with non-zero flags. This is a workaround for cases where
- // assembler code forgets to set section flags. FIXME: Perhaps
- // there should be an option to control this.
- Output_section* os = NULL;
- if (lookup_type == elfcpp::SHT_PROGBITS)
- {
- if (flags == 0)
- {
- Output_section* same_name = this->find_output_section(name);
- if (same_name != NULL
- && (same_name->type() == elfcpp::SHT_PROGBITS
- || same_name->type() == elfcpp::SHT_INIT_ARRAY
- || same_name->type() == elfcpp::SHT_FINI_ARRAY
- || same_name->type() == elfcpp::SHT_PREINIT_ARRAY)
- && (same_name->flags() & elfcpp::SHF_TLS) == 0)
- os = same_name;
- }
- else if ((flags & elfcpp::SHF_TLS) == 0)
- {
- elfcpp::Elf_Xword zero_flags = 0;
- const Key zero_key(name_key, std::make_pair(lookup_type,
- zero_flags));
- Section_name_map::iterator p =
- this->section_name_map_.find(zero_key);
- if (p != this->section_name_map_.end())
- os = p->second;
- }
- }
- if (os == NULL)
- os = this->make_output_section(name, type, flags, order, is_relro);
- ins.first->second = os;
- return os;
- }
- }
- // Returns TRUE iff NAME (an input section from RELOBJ) will
- // be mapped to an output section that should be KEPT.
- bool
- Layout::keep_input_section(const Relobj* relobj, const char* name)
- {
- if (! this->script_options_->saw_sections_clause())
- return false;
- Script_sections* ss = this->script_options_->script_sections();
- const char* file_name = relobj == NULL ? NULL : relobj->name().c_str();
- Output_section** output_section_slot;
- Script_sections::Section_type script_section_type;
- bool keep;
- name = ss->output_section_name(file_name, name, &output_section_slot,
- &script_section_type, &keep, true);
- return name != NULL && keep;
- }
- // Clear the input section flags that should not be copied to the
- // output section.
- elfcpp::Elf_Xword
- Layout::get_output_section_flags(elfcpp::Elf_Xword input_section_flags)
- {
- // Some flags in the input section should not be automatically
- // copied to the output section.
- input_section_flags &= ~ (elfcpp::SHF_INFO_LINK
- | elfcpp::SHF_GROUP
- | elfcpp::SHF_COMPRESSED
- | elfcpp::SHF_MERGE
- | elfcpp::SHF_STRINGS);
- // We only clear the SHF_LINK_ORDER flag in for
- // a non-relocatable link.
- if (!parameters->options().relocatable())
- input_section_flags &= ~elfcpp::SHF_LINK_ORDER;
- return input_section_flags;
- }
- // Pick the output section to use for section NAME, in input file
- // RELOBJ, with type TYPE and flags FLAGS. RELOBJ may be NULL for a
- // linker created section. IS_INPUT_SECTION is true if we are
- // choosing an output section for an input section found in a input
- // file. ORDER is where this section should appear in the output
- // sections. IS_RELRO is true for a relro section. This will return
- // NULL if the input section should be discarded. MATCH_INPUT_SPEC
- // is true if the section name should be matched against input specs
- // in a linker script.
- Output_section*
- Layout::choose_output_section(const Relobj* relobj, const char* name,
- elfcpp::Elf_Word type, elfcpp::Elf_Xword flags,
- bool is_input_section, Output_section_order order,
- bool is_relro, bool is_reloc,
- bool match_input_spec)
- {
- // We should not see any input sections after we have attached
- // sections to segments.
- gold_assert(!is_input_section || !this->sections_are_attached_);
- flags = this->get_output_section_flags(flags);
- if (this->script_options_->saw_sections_clause() && !is_reloc)
- {
- // We are using a SECTIONS clause, so the output section is
- // chosen based only on the name.
- Script_sections* ss = this->script_options_->script_sections();
- const char* file_name = relobj == NULL ? NULL : relobj->name().c_str();
- Output_section** output_section_slot;
- Script_sections::Section_type script_section_type;
- const char* orig_name = name;
- bool keep;
- name = ss->output_section_name(file_name, name, &output_section_slot,
- &script_section_type, &keep,
- match_input_spec);
- if (name == NULL)
- {
- gold_debug(DEBUG_SCRIPT, _("Unable to create output section '%s' "
- "because it is not allowed by the "
- "SECTIONS clause of the linker script"),
- orig_name);
- // The SECTIONS clause says to discard this input section.
- return NULL;
- }
- // We can only handle script section types ST_NONE and ST_NOLOAD.
- switch (script_section_type)
- {
- case Script_sections::ST_NONE:
- break;
- case Script_sections::ST_NOLOAD:
- flags &= elfcpp::SHF_ALLOC;
- break;
- default:
- gold_unreachable();
- }
- // If this is an orphan section--one not mentioned in the linker
- // script--then OUTPUT_SECTION_SLOT will be NULL, and we do the
- // default processing below.
- if (output_section_slot != NULL)
- {
- if (*output_section_slot != NULL)
- {
- (*output_section_slot)->update_flags_for_input_section(flags);
- return *output_section_slot;
- }
- // We don't put sections found in the linker script into
- // SECTION_NAME_MAP_. That keeps us from getting confused
- // if an orphan section is mapped to a section with the same
- // name as one in the linker script.
- name = this->namepool_.add(name, false, NULL);
- Output_section* os = this->make_output_section(name, type, flags,
- order, is_relro);
- os->set_found_in_sections_clause();
- // Special handling for NOLOAD sections.
- if (script_section_type == Script_sections::ST_NOLOAD)
- {
- os->set_is_noload();
- // The constructor of Output_section sets addresses of non-ALLOC
- // sections to 0 by default. We don't want that for NOLOAD
- // sections even if they have no SHF_ALLOC flag.
- if ((os->flags() & elfcpp::SHF_ALLOC) == 0
- && os->is_address_valid())
- {
- gold_assert(os->address() == 0
- && !os->is_offset_valid()
- && !os->is_data_size_valid());
- os->reset_address_and_file_offset();
- }
- }
- *output_section_slot = os;
- return os;
- }
- }
- // FIXME: Handle SHF_OS_NONCONFORMING somewhere.
- size_t len = strlen(name);
- std::string uncompressed_name;
- // Compressed debug sections should be mapped to the corresponding
- // uncompressed section.
- if (is_compressed_debug_section(name))
- {
- uncompressed_name =
- corresponding_uncompressed_section_name(std::string(name, len));
- name = uncompressed_name.c_str();
- len = uncompressed_name.length();
- }
- // Turn NAME from the name of the input section into the name of the
- // output section.
- if (is_input_section
- && !this->script_options_->saw_sections_clause()
- && !parameters->options().relocatable())
- {
- const char *orig_name = name;
- name = parameters->target().output_section_name(relobj, name, &len);
- if (name == NULL)
- name = Layout::output_section_name(relobj, orig_name, &len);
- }
- Stringpool::Key name_key;
- name = this->namepool_.add_with_length(name, len, true, &name_key);
- // Find or make the output section. The output section is selected
- // based on the section name, type, and flags.
- return this->get_output_section(name, name_key, type, flags, order, is_relro);
- }
- // For incremental links, record the initial fixed layout of a section
- // from the base file, and return a pointer to the Output_section.
- template<int size, bool big_endian>
- Output_section*
- Layout::init_fixed_output_section(const char* name,
- elfcpp::Shdr<size, big_endian>& shdr)
- {
- unsigned int sh_type = shdr.get_sh_type();
- // We preserve the layout of PROGBITS, NOBITS, INIT_ARRAY, FINI_ARRAY,
- // PRE_INIT_ARRAY, and NOTE sections.
- // All others will be created from scratch and reallocated.
- if (!can_incremental_update(sh_type))
- return NULL;
- // If we're generating a .gdb_index section, we need to regenerate
- // it from scratch.
- if (parameters->options().gdb_index()
- && sh_type == elfcpp::SHT_PROGBITS
- && strcmp(name, ".gdb_index") == 0)
- return NULL;
- typename elfcpp::Elf_types<size>::Elf_Addr sh_addr = shdr.get_sh_addr();
- typename elfcpp::Elf_types<size>::Elf_Off sh_offset = shdr.get_sh_offset();
- typename elfcpp::Elf_types<size>::Elf_WXword sh_size = shdr.get_sh_size();
- typename elfcpp::Elf_types<size>::Elf_WXword sh_flags =
- this->get_output_section_flags(shdr.get_sh_flags());
- typename elfcpp::Elf_types<size>::Elf_WXword sh_addralign =
- shdr.get_sh_addralign();
- // Make the output section.
- Stringpool::Key name_key;
- name = this->namepool_.add(name, true, &name_key);
- Output_section* os = this->get_output_section(name, name_key, sh_type,
- sh_flags, ORDER_INVALID, false);
- os->set_fixed_layout(sh_addr, sh_offset, sh_size, sh_addralign);
- if (sh_type != elfcpp::SHT_NOBITS)
- this->free_list_.remove(sh_offset, sh_offset + sh_size);
- return os;
- }
- // Return the index by which an input section should be ordered. This
- // is used to sort some .text sections, for compatibility with GNU ld.
- int
- Layout::special_ordering_of_input_section(const char* name)
- {
- // The GNU linker has some special handling for some sections that
- // wind up in the .text section. Sections that start with these
- // prefixes must appear first, and must appear in the order listed
- // here.
- static const char* const text_section_sort[] =
- {
- ".text.unlikely",
- ".text.exit",
- ".text.startup",
- ".text.hot",
- ".text.sorted"
- };
- for (size_t i = 0;
- i < sizeof(text_section_sort) / sizeof(text_section_sort[0]);
- i++)
- if (is_prefix_of(text_section_sort[i], name))
- return i;
- return -1;
- }
- // Return the output section to use for input section SHNDX, with name
- // NAME, with header HEADER, from object OBJECT. RELOC_SHNDX is the
- // index of a relocation section which applies to this section, or 0
- // if none, or -1U if more than one. RELOC_TYPE is the type of the
- // relocation section if there is one. Set *OFF to the offset of this
- // input section without the output section. Return NULL if the
- // section should be discarded. Set *OFF to -1 if the section
- // contents should not be written directly to the output file, but
- // will instead receive special handling.
- template<int size, bool big_endian>
- Output_section*
- Layout::layout(Sized_relobj_file<size, big_endian>* object, unsigned int shndx,
- const char* name, const elfcpp::Shdr<size, big_endian>& shdr,
- unsigned int sh_type, unsigned int reloc_shndx,
- unsigned int, off_t* off)
- {
- *off = 0;
- if (!this->include_section(object, name, shdr))
- return NULL;
- // In a relocatable link a grouped section must not be combined with
- // any other sections.
- Output_section* os;
- if (parameters->options().relocatable()
- && (shdr.get_sh_flags() & elfcpp::SHF_GROUP) != 0)
- {
- // Some flags in the input section should not be automatically
- // copied to the output section.
- elfcpp::Elf_Xword sh_flags = (shdr.get_sh_flags()
- & ~ elfcpp::SHF_COMPRESSED);
- name = this->namepool_.add(name, true, NULL);
- os = this->make_output_section(name, sh_type, sh_flags, ORDER_INVALID,
- false);
- }
- else
- {
- // Get the section flags and mask out any flags that do not
- // take part in section matching.
- elfcpp::Elf_Xword sh_flags
- = (this->get_output_section_flags(shdr.get_sh_flags())
- & ~object->osabi().ignored_sh_flags());
- // All ".text.unlikely.*" sections can be moved to a unique
- // segment with --text-unlikely-segment option.
- bool text_unlikely_segment
- = (parameters->options().text_unlikely_segment()
- && is_prefix_of(".text.unlikely",
- object->section_name(shndx).c_str()));
- if (text_unlikely_segment)
- {
- Stringpool::Key name_key;
- const char* os_name = this->namepool_.add(".text.unlikely", true,
- &name_key);
- os = this->get_output_section(os_name, name_key, sh_type, sh_flags,
- ORDER_INVALID, false);
- // Map this output section to a unique segment. This is done to
- // separate "text" that is not likely to be executed from "text"
- // that is likely executed.
- os->set_is_unique_segment();
- }
- else
- {
- // Plugins can choose to place one or more subsets of sections in
- // unique segments and this is done by mapping these section subsets
- // to unique output sections. Check if this section needs to be
- // remapped to a unique output section.
- Section_segment_map::iterator it
- = this->section_segment_map_.find(Const_section_id(object, shndx));
- if (it == this->section_segment_map_.end())
- {
- os = this->choose_output_section(object, name, sh_type,
- sh_flags, true, ORDER_INVALID,
- false, false, true);
- }
- else
- {
- // We know the name of the output section, directly call
- // get_output_section here by-passing choose_output_section.
- const char* os_name = it->second->name;
- Stringpool::Key name_key;
- os_name = this->namepool_.add(os_name, true, &name_key);
- os = this->get_output_section(os_name, name_key, sh_type,
- sh_flags, ORDER_INVALID, false);
- if (!os->is_unique_segment())
- {
- os->set_is_unique_segment();
- os->set_extra_segment_flags(it->second->flags);
- os->set_segment_alignment(it->second->align);
- }
- }
- }
- if (os == NULL)
- return NULL;
- }
- // By default the GNU linker sorts input sections whose names match
- // .ctors.*, .dtors.*, .init_array.*, or .fini_array.*. The
- // sections are sorted by name. This is used to implement
- // constructor priority ordering. We are compatible. When we put
- // .ctor sections in .init_array and .dtor sections in .fini_array,
- // we must also sort plain .ctor and .dtor sections.
- if (!this->script_options_->saw_sections_clause()
- && !parameters->options().relocatable()
- && (is_prefix_of(".ctors.", name)
- || is_prefix_of(".dtors.", name)
- || is_prefix_of(".init_array.", name)
- || is_prefix_of(".fini_array.", name)
- || (parameters->options().ctors_in_init_array()
- && (strcmp(name, ".ctors") == 0
- || strcmp(name, ".dtors") == 0))))
- os->set_must_sort_attached_input_sections();
- // By default the GNU linker sorts some special text sections ahead
- // of others. We are compatible.
- if (parameters->options().text_reorder()
- && !this->script_options_->saw_sections_clause()
- && !this->is_section_ordering_specified()
- && !parameters->options().relocatable()
- && Layout::special_ordering_of_input_section(name) >= 0)
- os->set_must_sort_attached_input_sections();
- // If this is a .ctors or .ctors.* section being mapped to a
- // .init_array section, or a .dtors or .dtors.* section being mapped
- // to a .fini_array section, we will need to reverse the words if
- // there is more than one. Record this section for later. See
- // ctors_sections_in_init_array above.
- if (!this->script_options_->saw_sections_clause()
- && !parameters->options().relocatable()
- && shdr.get_sh_size() > size / 8
- && (((strcmp(name, ".ctors") == 0
- || is_prefix_of(".ctors.", name))
- && strcmp(os->name(), ".init_array") == 0)
- || ((strcmp(name, ".dtors") == 0
- || is_prefix_of(".dtors.", name))
- && strcmp(os->name(), ".fini_array") == 0)))
- ctors_sections_in_init_array.insert(Section_id(object, shndx));
- // FIXME: Handle SHF_LINK_ORDER somewhere.
- elfcpp::Elf_Xword orig_flags = os->flags();
- *off = os->add_input_section(this, object, shndx, name, shdr, reloc_shndx,
- this->script_options_->saw_sections_clause());
- // If the flags changed, we may have to change the order.
- if ((orig_flags & elfcpp::SHF_ALLOC) != 0)
- {
- orig_flags &= (elfcpp::SHF_WRITE | elfcpp::SHF_EXECINSTR);
- elfcpp::Elf_Xword new_flags =
- os->flags() & (elfcpp::SHF_WRITE | elfcpp::SHF_EXECINSTR);
- if (orig_flags != new_flags)
- os->set_order(this->default_section_order(os, false));
- }
- this->have_added_input_section_ = true;
- return os;
- }
- // Maps section SECN to SEGMENT s.
- void
- Layout::insert_section_segment_map(Const_section_id secn,
- Unique_segment_info *s)
- {
- gold_assert(this->unique_segment_for_sections_specified_);
- this->section_segment_map_[secn] = s;
- }
- // Handle a relocation section when doing a relocatable link.
- template<int size, bool big_endian>
- Output_section*
- Layout::layout_reloc(Sized_relobj_file<size, big_endian>*,
- unsigned int,
- const elfcpp::Shdr<size, big_endian>& shdr,
- Output_section* data_section,
- Relocatable_relocs* rr)
- {
- gold_assert(parameters->options().relocatable()
- || parameters->options().emit_relocs());
- int sh_type = shdr.get_sh_type();
- std::string name;
- if (sh_type == elfcpp::SHT_REL)
- name = ".rel";
- else if (sh_type == elfcpp::SHT_RELA)
- name = ".rela";
- else
- gold_unreachable();
- name += data_section->name();
- // If the output data section already has a reloc section, use that;
- // otherwise, make a new one.
- Output_section* os = data_section->reloc_section();
- if (os == NULL)
- {
- const char* n = this->namepool_.add(name.c_str(), true, NULL);
- os = this->make_output_section(n, sh_type, shdr.get_sh_flags(),
- ORDER_INVALID, false);
- os->set_should_link_to_symtab();
- os->set_info_section(data_section);
- data_section->set_reloc_section(os);
- }
- Output_section_data* posd;
- if (sh_type == elfcpp::SHT_REL)
- {
- os->set_entsize(elfcpp::Elf_sizes<size>::rel_size);
- posd = new Output_relocatable_relocs<elfcpp::SHT_REL,
- size,
- big_endian>(rr);
- }
- else if (sh_type == elfcpp::SHT_RELA)
- {
- os->set_entsize(elfcpp::Elf_sizes<size>::rela_size);
- posd = new Output_relocatable_relocs<elfcpp::SHT_RELA,
- size,
- big_endian>(rr);
- }
- else
- gold_unreachable();
- os->add_output_section_data(posd);
- rr->set_output_data(posd);
- return os;
- }
- // Handle a group section when doing a relocatable link.
- template<int size, bool big_endian>
- void
- Layout::layout_group(Symbol_table* symtab,
- Sized_relobj_file<size, big_endian>* object,
- unsigned int,
- const char* group_section_name,
- const char* signature,
- const elfcpp::Shdr<size, big_endian>& shdr,
- elfcpp::Elf_Word flags,
- std::vector<unsigned int>* shndxes)
- {
- gold_assert(parameters->options().relocatable());
- gold_assert(shdr.get_sh_type() == elfcpp::SHT_GROUP);
- group_section_name = this->namepool_.add(group_section_name, true, NULL);
- Output_section* os = this->make_output_section(group_section_name,
- elfcpp::SHT_GROUP,
- shdr.get_sh_flags(),
- ORDER_INVALID, false);
- // We need to find a symbol with the signature in the symbol table.
- // If we don't find one now, we need to look again later.
- Symbol* sym = symtab->lookup(signature, NULL);
- if (sym != NULL)
- os->set_info_symndx(sym);
- else
- {
- // Reserve some space to minimize reallocations.
- if (this->group_signatures_.empty())
- this->group_signatures_.reserve(this->number_of_input_files_ * 16);
- // We will wind up using a symbol whose name is the signature.
- // So just put the signature in the symbol name pool to save it.
- signature = symtab->canonicalize_name(signature);
- this->group_signatures_.push_back(Group_signature(os, signature));
- }
- os->set_should_link_to_symtab();
- os->set_entsize(4);
- section_size_type entry_count =
- convert_to_section_size_type(shdr.get_sh_size() / 4);
- Output_section_data* posd =
- new Output_data_group<size, big_endian>(object, entry_count, flags,
- shndxes);
- os->add_output_section_data(posd);
- }
- // Special GNU handling of sections name .eh_frame. They will
- // normally hold exception frame data as defined by the C++ ABI
- // (http://codesourcery.com/cxx-abi/).
- template<int size, bool big_endian>
- Output_section*
- Layout::layout_eh_frame(Sized_relobj_file<size, big_endian>* object,
- const unsigned char* symbols,
- off_t symbols_size,
- const unsigned char* symbol_names,
- off_t symbol_names_size,
- unsigned int shndx,
- const elfcpp::Shdr<size, big_endian>& shdr,
- unsigned int reloc_shndx, unsigned int reloc_type,
- off_t* off)
- {
- const unsigned int unwind_section_type =
- parameters->target().unwind_section_type();
- gold_assert(shdr.get_sh_type() == elfcpp::SHT_PROGBITS
- || shdr.get_sh_type() == unwind_section_type);
- gold_assert((shdr.get_sh_flags() & elfcpp::SHF_ALLOC) != 0);
- Output_section* os = this->make_eh_frame_section(object);
- if (os == NULL)
- return NULL;
- gold_assert(this->eh_frame_section_ == os);
- elfcpp::Elf_Xword orig_flags = os->flags();
- Eh_frame::Eh_frame_section_disposition disp =
- Eh_frame::EH_UNRECOGNIZED_SECTION;
- if (!parameters->incremental())
- {
- disp = this->eh_frame_data_->add_ehframe_input_section(object,
- symbols,
- symbols_size,
- symbol_names,
- symbol_names_size,
- shndx,
- reloc_shndx,
- reloc_type);
- }
- if (disp == Eh_frame::EH_OPTIMIZABLE_SECTION)
- {
- os->update_flags_for_input_section(shdr.get_sh_flags());
- // A writable .eh_frame section is a RELRO section.
- if ((orig_flags & (elfcpp::SHF_WRITE | elfcpp::SHF_EXECINSTR))
- != (os->flags() & (elfcpp::SHF_WRITE | elfcpp::SHF_EXECINSTR)))
- {
- os->set_is_relro();
- os->set_order(ORDER_RELRO);
- }
- *off = -1;
- return os;
- }
- if (disp == Eh_frame::EH_END_MARKER_SECTION && !this->added_eh_frame_data_)
- {
- // We found the end marker section, so now we can add the set of
- // optimized sections to the output section. We need to postpone
- // adding this until we've found a section we can optimize so that
- // the .eh_frame section in crtbeginT.o winds up at the start of
- // the output section.
- os->add_output_section_data(this->eh_frame_data_);
- this->added_eh_frame_data_ = true;
- }
- // We couldn't handle this .eh_frame section for some reason.
- // Add it as a normal section.
- bool saw_sections_clause = this->script_options_->saw_sections_clause();
- *off = os->add_input_section(this, object, shndx, ".eh_frame", shdr,
- reloc_shndx, saw_sections_clause);
- this->have_added_input_section_ = true;
- if ((orig_flags & (elfcpp::SHF_WRITE | elfcpp::SHF_EXECINSTR))
- != (os->flags() & (elfcpp::SHF_WRITE | elfcpp::SHF_EXECINSTR)))
- os->set_order(this->default_section_order(os, false));
- return os;
- }
- void
- Layout::finalize_eh_frame_section()
- {
- // If we never found an end marker section, we need to add the
- // optimized eh sections to the output section now.
- if (!parameters->incremental()
- && this->eh_frame_section_ != NULL
- && !this->added_eh_frame_data_)
- {
- this->eh_frame_section_->add_output_section_data(this->eh_frame_data_);
- this->added_eh_frame_data_ = true;
- }
- }
- // Create and return the magic .eh_frame section. Create
- // .eh_frame_hdr also if appropriate. OBJECT is the object with the
- // input .eh_frame section; it may be NULL.
- Output_section*
- Layout::make_eh_frame_section(const Relobj* object)
- {
- const unsigned int unwind_section_type =
- parameters->target().unwind_section_type();
- Output_section* os = this->choose_output_section(object, ".eh_frame",
- unwind_section_type,
- elfcpp::SHF_ALLOC, false,
- ORDER_EHFRAME, false, false,
- false);
- if (os == NULL)
- return NULL;
- if (this->eh_frame_section_ == NULL)
- {
- this->eh_frame_section_ = os;
- this->eh_frame_data_ = new Eh_frame();
- // For incremental linking, we do not optimize .eh_frame sections
- // or create a .eh_frame_hdr section.
- if (parameters->options().eh_frame_hdr() && !parameters->incremental())
- {
- Output_section* hdr_os =
- this->choose_output_section(NULL, ".eh_frame_hdr",
- unwind_section_type,
- elfcpp::SHF_ALLOC, false,
- ORDER_EHFRAME, false, false,
- false);
- if (hdr_os != NULL)
- {
- Eh_frame_hdr* hdr_posd = new Eh_frame_hdr(os,
- this->eh_frame_data_);
- hdr_os->add_output_section_data(hdr_posd);
- hdr_os->set_after_input_sections();
- if (!this->script_options_->saw_phdrs_clause())
- {
- Output_segment* hdr_oseg;
- hdr_oseg = this->make_output_segment(elfcpp::PT_GNU_EH_FRAME,
- elfcpp::PF_R);
- hdr_oseg->add_output_section_to_nonload(hdr_os,
- elfcpp::PF_R);
- }
- this->eh_frame_data_->set_eh_frame_hdr(hdr_posd);
- }
- }
- }
- return os;
- }
- // Add an exception frame for a PLT. This is called from target code.
- void
- Layout::add_eh_frame_for_plt(Output_data* plt, const unsigned char* cie_data,
- size_t cie_length, const unsigned char* fde_data,
- size_t fde_length)
- {
- if (parameters->incremental())
- {
- // FIXME: Maybe this could work some day....
- return;
- }
- Output_section* os = this->make_eh_frame_section(NULL);
- if (os == NULL)
- return;
- this->eh_frame_data_->add_ehframe_for_plt(plt, cie_data, cie_length,
- fde_data, fde_length);
- if (!this->added_eh_frame_data_)
- {
- os->add_output_section_data(this->eh_frame_data_);
- this->added_eh_frame_data_ = true;
- }
- }
- // Remove all post-map .eh_frame information for a PLT.
- void
- Layout::remove_eh_frame_for_plt(Output_data* plt, const unsigned char* cie_data,
- size_t cie_length)
- {
- if (parameters->incremental())
- {
- // FIXME: Maybe this could work some day....
- return;
- }
- this->eh_frame_data_->remove_ehframe_for_plt(plt, cie_data, cie_length);
- }
- // Scan a .debug_info or .debug_types section, and add summary
- // information to the .gdb_index section.
- template<int size, bool big_endian>
- void
- Layout::add_to_gdb_index(bool is_type_unit,
- Sized_relobj<size, big_endian>* object,
- const unsigned char* symbols,
- off_t symbols_size,
- unsigned int shndx,
- unsigned int reloc_shndx,
- unsigned int reloc_type)
- {
- if (this->gdb_index_data_ == NULL)
- {
- Output_section* os = this->choose_output_section(NULL, ".gdb_index",
- elfcpp::SHT_PROGBITS, 0,
- false, ORDER_INVALID,
- false, false, false);
- if (os == NULL)
- return;
- this->gdb_index_data_ = new Gdb_index(os);
- os->add_output_section_data(this->gdb_index_data_);
- os->set_after_input_sections();
- }
- this->gdb_index_data_->scan_debug_info(is_type_unit, object, symbols,
- symbols_size, shndx, reloc_shndx,
- reloc_type);
- }
- // Add POSD to an output section using NAME, TYPE, and FLAGS. Return
- // the output section.
- Output_section*
- Layout::add_output_section_data(const char* name, elfcpp::Elf_Word type,
- elfcpp::Elf_Xword flags,
- Output_section_data* posd,
- Output_section_order order, bool is_relro)
- {
- Output_section* os = this->choose_output_section(NULL, name, type, flags,
- false, order, is_relro,
- false, false);
- if (os != NULL)
- os->add_output_section_data(posd);
- return os;
- }
- // Map section flags to segment flags.
- elfcpp::Elf_Word
- Layout::section_flags_to_segment(elfcpp::Elf_Xword flags)
- {
- elfcpp::Elf_Word ret = elfcpp::PF_R;
- if ((flags & elfcpp::SHF_WRITE) != 0)
- ret |= elfcpp::PF_W;
- if ((flags & elfcpp::SHF_EXECINSTR) != 0)
- ret |= elfcpp::PF_X;
- return ret;
- }
- // Make a new Output_section, and attach it to segments as
- // appropriate. ORDER is the order in which this section should
- // appear in the output segment. IS_RELRO is true if this is a relro
- // (read-only after relocations) section.
- Output_section*
- Layout::make_output_section(const char* name, elfcpp::Elf_Word type,
- elfcpp::Elf_Xword flags,
- Output_section_order order, bool is_relro)
- {
- Output_section* os;
- if ((flags & elfcpp::SHF_ALLOC) == 0
- && strcmp(parameters->options().compress_debug_sections(), "none") != 0
- && is_compressible_debug_section(name))
- os = new Output_compressed_section(¶meters->options(), name, type,
- flags);
- else if ((flags & elfcpp::SHF_ALLOC) == 0
- && parameters->options().strip_debug_non_line()
- && strcmp(".debug_abbrev", name) == 0)
- {
- os = this->debug_abbrev_ = new Output_reduced_debug_abbrev_section(
- name, type, flags);
- if (this->debug_info_)
- this->debug_info_->set_abbreviations(this->debug_abbrev_);
- }
- else if ((flags & elfcpp::SHF_ALLOC) == 0
- && parameters->options().strip_debug_non_line()
- && strcmp(".debug_info", name) == 0)
- {
- os = this->debug_info_ = new Output_reduced_debug_info_section(
- name, type, flags);
- if (this->debug_abbrev_)
- this->debug_info_->set_abbreviations(this->debug_abbrev_);
- }
- else
- {
- // Sometimes .init_array*, .preinit_array* and .fini_array* do
- // not have correct section types. Force them here.
- if (type == elfcpp::SHT_PROGBITS)
- {
- if (is_prefix_of(".init_array", name))
- type = elfcpp::SHT_INIT_ARRAY;
- else if (is_prefix_of(".preinit_array", name))
- type = elfcpp::SHT_PREINIT_ARRAY;
- else if (is_prefix_of(".fini_array", name))
- type = elfcpp::SHT_FINI_ARRAY;
- }
- // FIXME: const_cast is ugly.
- Target* target = const_cast<Target*>(¶meters->target());
- os = target->make_output_section(name, type, flags);
- }
- // With -z relro, we have to recognize the special sections by name.
- // There is no other way.
- bool is_relro_local = false;
- if (!this->script_options_->saw_sections_clause()
- && parameters->options().relro()
- && (flags & elfcpp::SHF_ALLOC) != 0
- && (flags & elfcpp::SHF_WRITE) != 0)
- {
- if (type == elfcpp::SHT_PROGBITS)
- {
- if ((flags & elfcpp::SHF_TLS) != 0)
- is_relro = true;
- else if (strcmp(name, ".data.rel.ro") == 0)
- is_relro = true;
- else if (strcmp(name, ".data.rel.ro.local") == 0)
- {
- is_relro = true;
- is_relro_local = true;
- }
- else if (strcmp(name, ".ctors") == 0
- || strcmp(name, ".dtors") == 0
- || strcmp(name, ".jcr") == 0)
- is_relro = true;
- }
- else if (type == elfcpp::SHT_INIT_ARRAY
- || type == elfcpp::SHT_FINI_ARRAY
- || type == elfcpp::SHT_PREINIT_ARRAY)
- is_relro = true;
- }
- if (is_relro)
- os->set_is_relro();
- if (order == ORDER_INVALID && (flags & elfcpp::SHF_ALLOC) != 0)
- order = this->default_section_order(os, is_relro_local);
- os->set_order(order);
- parameters->target().new_output_section(os);
- this->section_list_.push_back(os);
- // The GNU linker by default sorts some sections by priority, so we
- // do the same. We need to know that this might happen before we
- // attach any input sections.
- if (!this->script_options_->saw_sections_clause()
- && !parameters->options().relocatable()
- && (strcmp(name, ".init_array") == 0
- || strcmp(name, ".fini_array") == 0
- || (!parameters->options().ctors_in_init_array()
- && (strcmp(name, ".ctors") == 0
- || strcmp(name, ".dtors") == 0))))
- os->set_may_sort_attached_input_sections();
- // The GNU linker by default sorts .text.{unlikely,exit,startup,hot}
- // sections before other .text sections. We are compatible. We
- // need to know that this might happen before we attach any input
- // sections.
- if (parameters->options().text_reorder()
- && !this->script_options_->saw_sections_clause()
- && !this->is_section_ordering_specified()
- && !parameters->options().relocatable()
- && strcmp(name, ".text") == 0)
- os->set_may_sort_attached_input_sections();
- // GNU linker sorts section by name with --sort-section=name.
- if (strcmp(parameters->options().sort_section(), "name") == 0)
- os->set_must_sort_attached_input_sections();
- // Check for .stab*str sections, as .stab* sections need to link to
- // them.
- if (type == elfcpp::SHT_STRTAB
- && !this->have_stabstr_section_
- && strncmp(name, ".stab", 5) == 0
- && strcmp(name + strlen(name) - 3, "str") == 0)
- this->have_stabstr_section_ = true;
- // During a full incremental link, we add patch space to most
- // PROGBITS and NOBITS sections. Flag those that may be
- // arbitrarily padded.
- if ((type == elfcpp::SHT_PROGBITS || type == elfcpp::SHT_NOBITS)
- && order != ORDER_INTERP
- && order != ORDER_INIT
- && order != ORDER_PLT
- && order != ORDER_FINI
- && order != ORDER_RELRO_LAST
- && order != ORDER_NON_RELRO_FIRST
- && strcmp(name, ".eh_frame") != 0
- && strcmp(name, ".ctors") != 0
- && strcmp(name, ".dtors") != 0
- && strcmp(name, ".jcr") != 0)
- {
- os->set_is_patch_space_allowed();
- // Certain sections require "holes" to be filled with
- // specific fill patterns. These fill patterns may have
- // a minimum size, so we must prevent allocations from the
- // free list that leave a hole smaller than the minimum.
- if (strcmp(name, ".debug_info") == 0)
- os->set_free_space_fill(new Output_fill_debug_info(false));
- else if (strcmp(name, ".debug_types") == 0)
- os->set_free_space_fill(new Output_fill_debug_info(true));
- else if (strcmp(name, ".debug_line") == 0)
- os->set_free_space_fill(new Output_fill_debug_line());
- }
- // If we have already attached the sections to segments, then we
- // need to attach this one now. This happens for sections created
- // directly by the linker.
- if (this->sections_are_attached_)
- this->attach_section_to_segment(¶meters->target(), os);
- return os;
- }
- // Return the default order in which a section should be placed in an
- // output segment. This function captures a lot of the ideas in
- // ld/scripttempl/elf.sc in the GNU linker. Note that the order of a
- // linker created section is normally set when the section is created;
- // this function is used for input sections.
- Output_section_order
- Layout::default_section_order(Output_section* os, bool is_relro_local)
- {
- gold_assert((os->flags() & elfcpp::SHF_ALLOC) != 0);
- bool is_write = (os->flags() & elfcpp::SHF_WRITE) != 0;
- bool is_execinstr = (os->flags() & elfcpp::SHF_EXECINSTR) != 0;
- bool is_bss = false;
- switch (os->type())
- {
- default:
- case elfcpp::SHT_PROGBITS:
- break;
- case elfcpp::SHT_NOBITS:
- is_bss = true;
- break;
- case elfcpp::SHT_RELA:
- case elfcpp::SHT_REL:
- if (!is_write)
- return ORDER_DYNAMIC_RELOCS;
- break;
- case elfcpp::SHT_HASH:
- case elfcpp::SHT_DYNAMIC:
- case elfcpp::SHT_SHLIB:
- case elfcpp::SHT_DYNSYM:
- case elfcpp::SHT_GNU_HASH:
- case elfcpp::SHT_GNU_verdef:
- case elfcpp::SHT_GNU_verneed:
- case elfcpp::SHT_GNU_versym:
- if (!is_write)
- return ORDER_DYNAMIC_LINKER;
- break;
- case elfcpp::SHT_NOTE:
- return is_write ? ORDER_RW_NOTE : ORDER_RO_NOTE;
- }
- if ((os->flags() & elfcpp::SHF_TLS) != 0)
- return is_bss ? ORDER_TLS_BSS : ORDER_TLS_DATA;
- if (!is_bss && !is_write)
- {
- if (is_execinstr)
- {
- if (strcmp(os->name(), ".init") == 0)
- return ORDER_INIT;
- else if (strcmp(os->name(), ".fini") == 0)
- return ORDER_FINI;
- else if (parameters->options().keep_text_section_prefix())
- {
- // -z,keep-text-section-prefix introduces additional
- // output sections.
- if (strcmp(os->name(), ".text.hot") == 0)
- return ORDER_TEXT_HOT;
- else if (strcmp(os->name(), ".text.startup") == 0)
- return ORDER_TEXT_STARTUP;
- else if (strcmp(os->name(), ".text.exit") == 0)
- return ORDER_TEXT_EXIT;
- else if (strcmp(os->name(), ".text.unlikely") == 0)
- return ORDER_TEXT_UNLIKELY;
- }
- }
- return is_execinstr ? ORDER_TEXT : ORDER_READONLY;
- }
- if (os->is_relro())
- return is_relro_local ? ORDER_RELRO_LOCAL : ORDER_RELRO;
- if (os->is_small_section())
- return is_bss ? ORDER_SMALL_BSS : ORDER_SMALL_DATA;
- if (os->is_large_section())
- return is_bss ? ORDER_LARGE_BSS : ORDER_LARGE_DATA;
- return is_bss ? ORDER_BSS : ORDER_DATA;
- }
- // Attach output sections to segments. This is called after we have
- // seen all the input sections.
- void
- Layout::attach_sections_to_segments(const Target* target)
- {
- for (Section_list::iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- this->attach_section_to_segment(target, *p);
- this->sections_are_attached_ = true;
- }
- // Attach an output section to a segment.
- void
- Layout::attach_section_to_segment(const Target* target, Output_section* os)
- {
- if ((os->flags() & elfcpp::SHF_ALLOC) == 0)
- this->unattached_section_list_.push_back(os);
- else
- this->attach_allocated_section_to_segment(target, os);
- }
- // Attach an allocated output section to a segment.
- void
- Layout::attach_allocated_section_to_segment(const Target* target,
- Output_section* os)
- {
- elfcpp::Elf_Xword flags = os->flags();
- gold_assert((flags & elfcpp::SHF_ALLOC) != 0);
- if (parameters->options().relocatable())
- return;
- // If we have a SECTIONS clause, we can't handle the attachment to
- // segments until after we've seen all the sections.
- if (this->script_options_->saw_sections_clause())
- return;
- gold_assert(!this->script_options_->saw_phdrs_clause());
- // This output section goes into a PT_LOAD segment.
- elfcpp::Elf_Word seg_flags = Layout::section_flags_to_segment(flags);
- // If this output section's segment has extra flags that need to be set,
- // coming from a linker plugin, do that.
- seg_flags |= os->extra_segment_flags();
- // Check for --section-start.
- uint64_t addr;
- bool is_address_set = parameters->options().section_start(os->name(), &addr);
- // In general the only thing we really care about for PT_LOAD
- // segments is whether or not they are writable or executable,
- // so that is how we search for them.
- // Large data sections also go into their own PT_LOAD segment.
- // People who need segments sorted on some other basis will
- // have to use a linker script.
- Segment_list::const_iterator p;
- if (!os->is_unique_segment())
- {
- for (p = this->segment_list_.begin();
- p != this->segment_list_.end();
- ++p)
- {
- if ((*p)->type() != elfcpp::PT_LOAD)
- continue;
- if ((*p)->is_unique_segment())
- continue;
- if (!parameters->options().omagic()
- && ((*p)->flags() & elfcpp::PF_W) != (seg_flags & elfcpp::PF_W))
- continue;
- if ((target->isolate_execinstr() || parameters->options().rosegment())
- && ((*p)->flags() & elfcpp::PF_X) != (seg_flags & elfcpp::PF_X))
- continue;
- // If -Tbss was specified, we need to separate the data and BSS
- // segments.
- if (parameters->options().user_set_Tbss())
- {
- if ((os->type() == elfcpp::SHT_NOBITS)
- == (*p)->has_any_data_sections())
- continue;
- }
- if (os->is_large_data_section() && !(*p)->is_large_data_segment())
- continue;
- if (is_address_set)
- {
- if ((*p)->are_addresses_set())
- continue;
- (*p)->add_initial_output_data(os);
- (*p)->update_flags_for_output_section(seg_flags);
- (*p)->set_addresses(addr, addr);
- break;
- }
- (*p)->add_output_section_to_load(this, os, seg_flags);
- break;
- }
- }
- if (p == this->segment_list_.end()
- || os->is_unique_segment())
- {
- Output_segment* oseg = this->make_output_segment(elfcpp::PT_LOAD,
- seg_flags);
- if (os->is_large_data_section())
- oseg->set_is_large_data_segment();
- oseg->add_output_section_to_load(this, os, seg_flags);
- if (is_address_set)
- oseg->set_addresses(addr, addr);
- // Check if segment should be marked unique. For segments marked
- // unique by linker plugins, set the new alignment if specified.
- if (os->is_unique_segment())
- {
- oseg->set_is_unique_segment();
- if (os->segment_alignment() != 0)
- oseg->set_minimum_p_align(os->segment_alignment());
- }
- }
- // If we see a loadable SHT_NOTE section, we create a PT_NOTE
- // segment.
- if (os->type() == elfcpp::SHT_NOTE)
- {
- uint64_t os_align = os->addralign();
- // See if we already have an equivalent PT_NOTE segment.
- for (p = this->segment_list_.begin();
- p != segment_list_.end();
- ++p)
- {
- if ((*p)->type() == elfcpp::PT_NOTE
- && (*p)->align() == os_align
- && (((*p)->flags() & elfcpp::PF_W)
- == (seg_flags & elfcpp::PF_W)))
- {
- (*p)->add_output_section_to_nonload(os, seg_flags);
- break;
- }
- }
- if (p == this->segment_list_.end())
- {
- Output_segment* oseg = this->make_output_segment(elfcpp::PT_NOTE,
- seg_flags);
- oseg->add_output_section_to_nonload(os, seg_flags);
- oseg->set_align(os_align);
- }
- }
- // If we see a loadable SHF_TLS section, we create a PT_TLS
- // segment. There can only be one such segment.
- if ((flags & elfcpp::SHF_TLS) != 0)
- {
- if (this->tls_segment_ == NULL)
- this->make_output_segment(elfcpp::PT_TLS, seg_flags);
- this->tls_segment_->add_output_section_to_nonload(os, seg_flags);
- }
- // If -z relro is in effect, and we see a relro section, we create a
- // PT_GNU_RELRO segment. There can only be one such segment.
- if (os->is_relro() && parameters->options().relro())
- {
- gold_assert(seg_flags == (elfcpp::PF_R | elfcpp::PF_W));
- if (this->relro_segment_ == NULL)
- this->make_output_segment(elfcpp::PT_GNU_RELRO, seg_flags);
- this->relro_segment_->add_output_section_to_nonload(os, seg_flags);
- }
- // If we see a section named .interp, put it into a PT_INTERP
- // segment. This seems broken to me, but this is what GNU ld does,
- // and glibc expects it.
- if (strcmp(os->name(), ".interp") == 0
- && !this->script_options_->saw_phdrs_clause())
- {
- if (this->interp_segment_ == NULL)
- this->make_output_segment(elfcpp::PT_INTERP, seg_flags);
- else
- gold_warning(_("multiple '.interp' sections in input files "
- "may cause confusing PT_INTERP segment"));
- this->interp_segment_->add_output_section_to_nonload(os, seg_flags);
- }
- }
- // Make an output section for a script.
- Output_section*
- Layout::make_output_section_for_script(
- const char* name,
- Script_sections::Section_type section_type)
- {
- name = this->namepool_.add(name, false, NULL);
- elfcpp::Elf_Xword sh_flags = elfcpp::SHF_ALLOC;
- if (section_type == Script_sections::ST_NOLOAD)
- sh_flags = 0;
- Output_section* os = this->make_output_section(name, elfcpp::SHT_PROGBITS,
- sh_flags, ORDER_INVALID,
- false);
- os->set_found_in_sections_clause();
- if (section_type == Script_sections::ST_NOLOAD)
- os->set_is_noload();
- return os;
- }
- // Return the number of segments we expect to see.
- size_t
- Layout::expected_segment_count() const
- {
- size_t ret = this->segment_list_.size();
- // If we didn't see a SECTIONS clause in a linker script, we should
- // already have the complete list of segments. Otherwise we ask the
- // SECTIONS clause how many segments it expects, and add in the ones
- // we already have (PT_GNU_STACK, PT_GNU_EH_FRAME, etc.)
- if (!this->script_options_->saw_sections_clause())
- return ret;
- else
- {
- const Script_sections* ss = this->script_options_->script_sections();
- return ret + ss->expected_segment_count(this);
- }
- }
- // Handle the .note.GNU-stack section at layout time. SEEN_GNU_STACK
- // is whether we saw a .note.GNU-stack section in the object file.
- // GNU_STACK_FLAGS is the section flags. The flags give the
- // protection required for stack memory. We record this in an
- // executable as a PT_GNU_STACK segment. If an object file does not
- // have a .note.GNU-stack segment, we must assume that it is an old
- // object. On some targets that will force an executable stack.
- void
- Layout::layout_gnu_stack(bool seen_gnu_stack, uint64_t gnu_stack_flags,
- const Object* obj)
- {
- if (!seen_gnu_stack)
- {
- this->input_without_gnu_stack_note_ = true;
- if (parameters->options().warn_execstack()
- && parameters->target().is_default_stack_executable())
- gold_warning(_("%s: missing .note.GNU-stack section"
- " implies executable stack"),
- obj->name().c_str());
- }
- else
- {
- this->input_with_gnu_stack_note_ = true;
- if ((gnu_stack_flags & elfcpp::SHF_EXECINSTR) != 0)
- {
- this->input_requires_executable_stack_ = true;
- if (parameters->options().warn_execstack())
- gold_warning(_("%s: requires executable stack"),
- obj->name().c_str());
- }
- }
- }
- // Read a value with given size and endianness.
- static inline uint64_t
- read_sized_value(size_t size, const unsigned char* buf, bool is_big_endian,
- const Object* object)
- {
- uint64_t val = 0;
- if (size == 4)
- {
- if (is_big_endian)
- val = elfcpp::Swap<32, true>::readval(buf);
- else
- val = elfcpp::Swap<32, false>::readval(buf);
- }
- else if (size == 8)
- {
- if (is_big_endian)
- val = elfcpp::Swap<64, true>::readval(buf);
- else
- val = elfcpp::Swap<64, false>::readval(buf);
- }
- else
- {
- gold_warning(_("%s: in .note.gnu.property section, "
- "pr_datasz must be 4 or 8"),
- object->name().c_str());
- }
- return val;
- }
- // Write a value with given size and endianness.
- static inline void
- write_sized_value(uint64_t value, size_t size, unsigned char* buf,
- bool is_big_endian)
- {
- if (size == 4)
- {
- if (is_big_endian)
- elfcpp::Swap<32, true>::writeval(buf, static_cast<uint32_t>(value));
- else
- elfcpp::Swap<32, false>::writeval(buf, static_cast<uint32_t>(value));
- }
- else if (size == 8)
- {
- if (is_big_endian)
- elfcpp::Swap<64, true>::writeval(buf, value);
- else
- elfcpp::Swap<64, false>::writeval(buf, value);
- }
- else
- {
- // We will have already complained about this.
- }
- }
- // Handle the .note.gnu.property section at layout time.
- void
- Layout::layout_gnu_property(unsigned int note_type,
- unsigned int pr_type,
- size_t pr_datasz,
- const unsigned char* pr_data,
- const Object* object)
- {
- // We currently support only the one note type.
- gold_assert(note_type == elfcpp::NT_GNU_PROPERTY_TYPE_0);
- if (pr_type >= elfcpp::GNU_PROPERTY_LOPROC
- && pr_type < elfcpp::GNU_PROPERTY_HIPROC)
- {
- // Target-dependent property value; call the target to record.
- const int size = parameters->target().get_size();
- const bool is_big_endian = parameters->target().is_big_endian();
- if (size == 32)
- {
- if (is_big_endian)
- {
- #ifdef HAVE_TARGET_32_BIG
- parameters->sized_target<32, true>()->
- record_gnu_property(note_type, pr_type, pr_datasz, pr_data,
- object);
- #else
- gold_unreachable();
- #endif
- }
- else
- {
- #ifdef HAVE_TARGET_32_LITTLE
- parameters->sized_target<32, false>()->
- record_gnu_property(note_type, pr_type, pr_datasz, pr_data,
- object);
- #else
- gold_unreachable();
- #endif
- }
- }
- else if (size == 64)
- {
- if (is_big_endian)
- {
- #ifdef HAVE_TARGET_64_BIG
- parameters->sized_target<64, true>()->
- record_gnu_property(note_type, pr_type, pr_datasz, pr_data,
- object);
- #else
- gold_unreachable();
- #endif
- }
- else
- {
- #ifdef HAVE_TARGET_64_LITTLE
- parameters->sized_target<64, false>()->
- record_gnu_property(note_type, pr_type, pr_datasz, pr_data,
- object);
- #else
- gold_unreachable();
- #endif
- }
- }
- else
- gold_unreachable();
- return;
- }
- Gnu_properties::iterator pprop = this->gnu_properties_.find(pr_type);
- if (pprop == this->gnu_properties_.end())
- {
- Gnu_property prop;
- prop.pr_datasz = pr_datasz;
- prop.pr_data = new unsigned char[pr_datasz];
- memcpy(prop.pr_data, pr_data, pr_datasz);
- this->gnu_properties_[pr_type] = prop;
- }
- else
- {
- const bool is_big_endian = parameters->target().is_big_endian();
- switch (pr_type)
- {
- case elfcpp::GNU_PROPERTY_STACK_SIZE:
- // Record the maximum value seen.
- {
- uint64_t val1 = read_sized_value(pprop->second.pr_datasz,
- pprop->second.pr_data,
- is_big_endian, object);
- uint64_t val2 = read_sized_value(pr_datasz, pr_data,
- is_big_endian, object);
- if (val2 > val1)
- write_sized_value(val2, pprop->second.pr_datasz,
- pprop->second.pr_data, is_big_endian);
- }
- break;
- case elfcpp::GNU_PROPERTY_NO_COPY_ON_PROTECTED:
- // No data to merge.
- break;
- default:
- gold_warning(_("%s: unknown program property type %d "
- "in .note.gnu.property section"),
- object->name().c_str(), pr_type);
- }
- }
- }
- // Merge per-object properties with program properties.
- // This lets the target identify objects that are missing certain
- // properties, in cases where properties must be ANDed together.
- void
- Layout::merge_gnu_properties(const Object* object)
- {
- const int size = parameters->target().get_size();
- const bool is_big_endian = parameters->target().is_big_endian();
- if (size == 32)
- {
- if (is_big_endian)
- {
- #ifdef HAVE_TARGET_32_BIG
- parameters->sized_target<32, true>()->merge_gnu_properties(object);
- #else
- gold_unreachable();
- #endif
- }
- else
- {
- #ifdef HAVE_TARGET_32_LITTLE
- parameters->sized_target<32, false>()->merge_gnu_properties(object);
- #else
- gold_unreachable();
- #endif
- }
- }
- else if (size == 64)
- {
- if (is_big_endian)
- {
- #ifdef HAVE_TARGET_64_BIG
- parameters->sized_target<64, true>()->merge_gnu_properties(object);
- #else
- gold_unreachable();
- #endif
- }
- else
- {
- #ifdef HAVE_TARGET_64_LITTLE
- parameters->sized_target<64, false>()->merge_gnu_properties(object);
- #else
- gold_unreachable();
- #endif
- }
- }
- else
- gold_unreachable();
- }
- // Add a target-specific property for the output .note.gnu.property section.
- void
- Layout::add_gnu_property(unsigned int note_type,
- unsigned int pr_type,
- size_t pr_datasz,
- const unsigned char* pr_data)
- {
- gold_assert(note_type == elfcpp::NT_GNU_PROPERTY_TYPE_0);
- Gnu_property prop;
- prop.pr_datasz = pr_datasz;
- prop.pr_data = new unsigned char[pr_datasz];
- memcpy(prop.pr_data, pr_data, pr_datasz);
- this->gnu_properties_[pr_type] = prop;
- }
- // Create automatic note sections.
- void
- Layout::create_notes()
- {
- this->create_gnu_properties_note();
- this->create_gold_note();
- this->create_stack_segment();
- this->create_build_id();
- }
- // Create the dynamic sections which are needed before we read the
- // relocs.
- void
- Layout::create_initial_dynamic_sections(Symbol_table* symtab)
- {
- if (parameters->doing_static_link())
- return;
- this->dynamic_section_ = this->choose_output_section(NULL, ".dynamic",
- elfcpp::SHT_DYNAMIC,
- (elfcpp::SHF_ALLOC
- | elfcpp::SHF_WRITE),
- false, ORDER_RELRO,
- true, false, false);
- // A linker script may discard .dynamic, so check for NULL.
- if (this->dynamic_section_ != NULL)
- {
- this->dynamic_symbol_ =
- symtab->define_in_output_data("_DYNAMIC", NULL,
- Symbol_table::PREDEFINED,
- this->dynamic_section_, 0, 0,
- elfcpp::STT_OBJECT, elfcpp::STB_LOCAL,
- elfcpp::STV_HIDDEN, 0, false, false);
- this->dynamic_data_ = new Output_data_dynamic(&this->dynpool_);
- this->dynamic_section_->add_output_section_data(this->dynamic_data_);
- }
- }
- // For each output section whose name can be represented as C symbol,
- // define __start and __stop symbols for the section. This is a GNU
- // extension.
- void
- Layout::define_section_symbols(Symbol_table* symtab)
- {
- const elfcpp::STV visibility = parameters->options().start_stop_visibility_enum();
- for (Section_list::const_iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- {
- const char* const name = (*p)->name();
- if (is_cident(name))
- {
- const std::string name_string(name);
- const std::string start_name(cident_section_start_prefix
- + name_string);
- const std::string stop_name(cident_section_stop_prefix
- + name_string);
- symtab->define_in_output_data(start_name.c_str(),
- NULL, // version
- Symbol_table::PREDEFINED,
- *p,
- 0, // value
- 0, // symsize
- elfcpp::STT_NOTYPE,
- elfcpp::STB_GLOBAL,
- visibility,
- 0, // nonvis
- false, // offset_is_from_end
- true); // only_if_ref
- symtab->define_in_output_data(stop_name.c_str(),
- NULL, // version
- Symbol_table::PREDEFINED,
- *p,
- 0, // value
- 0, // symsize
- elfcpp::STT_NOTYPE,
- elfcpp::STB_GLOBAL,
- visibility,
- 0, // nonvis
- true, // offset_is_from_end
- true); // only_if_ref
- }
- }
- }
- // Define symbols for group signatures.
- void
- Layout::define_group_signatures(Symbol_table* symtab)
- {
- for (Group_signatures::iterator p = this->group_signatures_.begin();
- p != this->group_signatures_.end();
- ++p)
- {
- Symbol* sym = symtab->lookup(p->signature, NULL);
- if (sym != NULL)
- p->section->set_info_symndx(sym);
- else
- {
- // Force the name of the group section to the group
- // signature, and use the group's section symbol as the
- // signature symbol.
- if (strcmp(p->section->name(), p->signature) != 0)
- {
- const char* name = this->namepool_.add(p->signature,
- true, NULL);
- p->section->set_name(name);
- }
- p->section->set_needs_symtab_index();
- p->section->set_info_section_symndx(p->section);
- }
- }
- this->group_signatures_.clear();
- }
- // Find the first read-only PT_LOAD segment, creating one if
- // necessary.
- Output_segment*
- Layout::find_first_load_seg(const Target* target)
- {
- Output_segment* best = NULL;
- for (Segment_list::const_iterator p = this->segment_list_.begin();
- p != this->segment_list_.end();
- ++p)
- {
- if ((*p)->type() == elfcpp::PT_LOAD
- && ((*p)->flags() & elfcpp::PF_R) != 0
- && (parameters->options().omagic()
- || ((*p)->flags() & elfcpp::PF_W) == 0)
- && (!target->isolate_execinstr()
- || ((*p)->flags() & elfcpp::PF_X) == 0))
- {
- if (best == NULL || this->segment_precedes(*p, best))
- best = *p;
- }
- }
- if (best != NULL)
- return best;
- gold_assert(!this->script_options_->saw_phdrs_clause());
- Output_segment* load_seg = this->make_output_segment(elfcpp::PT_LOAD,
- elfcpp::PF_R);
- return load_seg;
- }
- // Save states of all current output segments. Store saved states
- // in SEGMENT_STATES.
- void
- Layout::save_segments(Segment_states* segment_states)
- {
- for (Segment_list::const_iterator p = this->segment_list_.begin();
- p != this->segment_list_.end();
- ++p)
- {
- Output_segment* segment = *p;
- // Shallow copy.
- Output_segment* copy = new Output_segment(*segment);
- (*segment_states)[segment] = copy;
- }
- }
- // Restore states of output segments and delete any segment not found in
- // SEGMENT_STATES.
- void
- Layout::restore_segments(const Segment_states* segment_states)
- {
- // Go through the segment list and remove any segment added in the
- // relaxation loop.
- this->tls_segment_ = NULL;
- this->relro_segment_ = NULL;
- Segment_list::iterator list_iter = this->segment_list_.begin();
- while (list_iter != this->segment_list_.end())
- {
- Output_segment* segment = *list_iter;
- Segment_states::const_iterator states_iter =
- segment_states->find(segment);
- if (states_iter != segment_states->end())
- {
- const Output_segment* copy = states_iter->second;
- // Shallow copy to restore states.
- *segment = *copy;
- // Also fix up TLS and RELRO segment pointers as appropriate.
- if (segment->type() == elfcpp::PT_TLS)
- this->tls_segment_ = segment;
- else if (segment->type() == elfcpp::PT_GNU_RELRO)
- this->relro_segment_ = segment;
- ++list_iter;
- }
- else
- {
- list_iter = this->segment_list_.erase(list_iter);
- // This is a segment created during section layout. It should be
- // safe to remove it since we should have removed all pointers to it.
- delete segment;
- }
- }
- }
- // Clean up after relaxation so that sections can be laid out again.
- void
- Layout::clean_up_after_relaxation()
- {
- // Restore the segments to point state just prior to the relaxation loop.
- Script_sections* script_section = this->script_options_->script_sections();
- script_section->release_segments();
- this->restore_segments(this->segment_states_);
- // Reset section addresses and file offsets
- for (Section_list::iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- {
- (*p)->restore_states();
- // If an input section changes size because of relaxation,
- // we need to adjust the section offsets of all input sections.
- // after such a section.
- if ((*p)->section_offsets_need_adjustment())
- (*p)->adjust_section_offsets();
- (*p)->reset_address_and_file_offset();
- }
- // Reset special output object address and file offsets.
- for (Data_list::iterator p = this->special_output_list_.begin();
- p != this->special_output_list_.end();
- ++p)
- (*p)->reset_address_and_file_offset();
- // A linker script may have created some output section data objects.
- // They are useless now.
- for (Output_section_data_list::const_iterator p =
- this->script_output_section_data_list_.begin();
- p != this->script_output_section_data_list_.end();
- ++p)
- delete *p;
- this->script_output_section_data_list_.clear();
- // Special-case fill output objects are recreated each time through
- // the relaxation loop.
- this->reset_relax_output();
- }
- void
- Layout::reset_relax_output()
- {
- for (Data_list::const_iterator p = this->relax_output_list_.begin();
- p != this->relax_output_list_.end();
- ++p)
- delete *p;
- this->relax_output_list_.clear();
- }
- // Prepare for relaxation.
- void
- Layout::prepare_for_relaxation()
- {
- // Create an relaxation debug check if in debugging mode.
- if (is_debugging_enabled(DEBUG_RELAXATION))
- this->relaxation_debug_check_ = new Relaxation_debug_check();
- // Save segment states.
- this->segment_states_ = new Segment_states();
- this->save_segments(this->segment_states_);
- for(Section_list::const_iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- (*p)->save_states();
- if (is_debugging_enabled(DEBUG_RELAXATION))
- this->relaxation_debug_check_->check_output_data_for_reset_values(
- this->section_list_, this->special_output_list_,
- this->relax_output_list_);
- // Also enable recording of output section data from scripts.
- this->record_output_section_data_from_script_ = true;
- }
- // If the user set the address of the text segment, that may not be
- // compatible with putting the segment headers and file headers into
- // that segment. For isolate_execinstr() targets, it's the rodata
- // segment rather than text where we might put the headers.
- static inline bool
- load_seg_unusable_for_headers(const Target* target)
- {
- const General_options& options = parameters->options();
- if (target->isolate_execinstr())
- return (options.user_set_Trodata_segment()
- && options.Trodata_segment() % target->abi_pagesize() != 0);
- else
- return (options.user_set_Ttext()
- && options.Ttext() % target->abi_pagesize() != 0);
- }
- // Relaxation loop body: If target has no relaxation, this runs only once
- // Otherwise, the target relaxation hook is called at the end of
- // each iteration. If the hook returns true, it means re-layout of
- // section is required.
- //
- // The number of segments created by a linking script without a PHDRS
- // clause may be affected by section sizes and alignments. There is
- // a remote chance that relaxation causes different number of PT_LOAD
- // segments are created and sections are attached to different segments.
- // Therefore, we always throw away all segments created during section
- // layout. In order to be able to restart the section layout, we keep
- // a copy of the segment list right before the relaxation loop and use
- // that to restore the segments.
- //
- // PASS is the current relaxation pass number.
- // SYMTAB is a symbol table.
- // PLOAD_SEG is the address of a pointer for the load segment.
- // PHDR_SEG is a pointer to the PHDR segment.
- // SEGMENT_HEADERS points to the output segment header.
- // FILE_HEADER points to the output file header.
- // PSHNDX is the address to store the output section index.
- off_t inline
- Layout::relaxation_loop_body(
- int pass,
- Target* target,
- Symbol_table* symtab,
- Output_segment** pload_seg,
- Output_segment* phdr_seg,
- Output_segment_headers* segment_headers,
- Output_file_header* file_header,
- unsigned int* pshndx)
- {
- // If this is not the first iteration, we need to clean up after
- // relaxation so that we can lay out the sections again.
- if (pass != 0)
- this->clean_up_after_relaxation();
- // If there is a SECTIONS clause, put all the input sections into
- // the required order.
- Output_segment* load_seg;
- if (this->script_options_->saw_sections_clause())
- load_seg = this->set_section_addresses_from_script(symtab);
- else if (parameters->options().relocatable())
- load_seg = NULL;
- else
- load_seg = this->find_first_load_seg(target);
- if (parameters->options().oformat_enum()
- != General_options::OBJECT_FORMAT_ELF)
- load_seg = NULL;
- if (load_seg_unusable_for_headers(target))
- {
- load_seg = NULL;
- phdr_seg = NULL;
- }
- gold_assert(phdr_seg == NULL
- || load_seg != NULL
- || this->script_options_->saw_sections_clause());
- // If the address of the load segment we found has been set by
- // --section-start rather than by a script, then adjust the VMA and
- // LMA downward if possible to include the file and section headers.
- uint64_t header_gap = 0;
- if (load_seg != NULL
- && load_seg->are_addresses_set()
- && !this->script_options_->saw_sections_clause()
- && !parameters->options().relocatable())
- {
- file_header->finalize_data_size();
- segment_headers->finalize_data_size();
- size_t sizeof_headers = (file_header->data_size()
- + segment_headers->data_size());
- const uint64_t abi_pagesize = target->abi_pagesize();
- uint64_t hdr_paddr = load_seg->paddr() - sizeof_headers;
- hdr_paddr &= ~(abi_pagesize - 1);
- uint64_t subtract = load_seg->paddr() - hdr_paddr;
- if (load_seg->paddr() < subtract || load_seg->vaddr() < subtract)
- load_seg = NULL;
- else
- {
- load_seg->set_addresses(load_seg->vaddr() - subtract,
- load_seg->paddr() - subtract);
- header_gap = subtract - sizeof_headers;
- }
- }
- // Lay out the segment headers.
- if (!parameters->options().relocatable())
- {
- gold_assert(segment_headers != NULL);
- if (header_gap != 0 && load_seg != NULL)
- {
- Output_data_zero_fill* z = new Output_data_zero_fill(header_gap, 1);
- load_seg->add_initial_output_data(z);
- }
- if (load_seg != NULL)
- load_seg->add_initial_output_data(segment_headers);
- if (phdr_seg != NULL)
- phdr_seg->add_initial_output_data(segment_headers);
- }
- // Lay out the file header.
- if (load_seg != NULL)
- load_seg->add_initial_output_data(file_header);
- if (this->script_options_->saw_phdrs_clause()
- && !parameters->options().relocatable())
- {
- // Support use of FILEHDRS and PHDRS attachments in a PHDRS
- // clause in a linker script.
- Script_sections* ss = this->script_options_->script_sections();
- ss->put_headers_in_phdrs(file_header, segment_headers);
- }
- // We set the output section indexes in set_segment_offsets and
- // set_section_indexes.
- *pshndx = 1;
- // Set the file offsets of all the segments, and all the sections
- // they contain.
- off_t off;
- if (!parameters->options().relocatable())
- off = this->set_segment_offsets(target, load_seg, pshndx);
- else
- off = this->set_relocatable_section_offsets(file_header, pshndx);
- // Verify that the dummy relaxation does not change anything.
- if (is_debugging_enabled(DEBUG_RELAXATION))
- {
- if (pass == 0)
- this->relaxation_debug_check_->read_sections(this->section_list_);
- else
- this->relaxation_debug_check_->verify_sections(this->section_list_);
- }
- *pload_seg = load_seg;
- return off;
- }
- // Search the list of patterns and find the position of the given section
- // name in the output section. If the section name matches a glob
- // pattern and a non-glob name, then the non-glob position takes
- // precedence. Return 0 if no match is found.
- unsigned int
- Layout::find_section_order_index(const std::string& section_name)
- {
- Unordered_map<std::string, unsigned int>::iterator map_it;
- map_it = this->input_section_position_.find(section_name);
- if (map_it != this->input_section_position_.end())
- return map_it->second;
- // Absolute match failed. Linear search the glob patterns.
- std::vector<std::string>::iterator it;
- for (it = this->input_section_glob_.begin();
- it != this->input_section_glob_.end();
- ++it)
- {
- if (fnmatch((*it).c_str(), section_name.c_str(), FNM_NOESCAPE) == 0)
- {
- map_it = this->input_section_position_.find(*it);
- gold_assert(map_it != this->input_section_position_.end());
- return map_it->second;
- }
- }
- return 0;
- }
- // Read the sequence of input sections from the file specified with
- // option --section-ordering-file.
- void
- Layout::read_layout_from_file()
- {
- const char* filename = parameters->options().section_ordering_file();
- std::ifstream in;
- std::string line;
- in.open(filename);
- if (!in)
- gold_fatal(_("unable to open --section-ordering-file file %s: %s"),
- filename, strerror(errno));
- File_read::record_file_read(filename);
- std::getline(in, line); // this chops off the trailing \n, if any
- unsigned int position = 1;
- this->set_section_ordering_specified();
- while (in)
- {
- if (!line.empty() && line[line.length() - 1] == '\r') // Windows
- line.resize(line.length() - 1);
- // Ignore comments, beginning with '#'
- if (line[0] == '#')
- {
- std::getline(in, line);
- continue;
- }
- this->input_section_position_[line] = position;
- // Store all glob patterns in a vector.
- if (is_wildcard_string(line.c_str()))
- this->input_section_glob_.push_back(line);
- position++;
- std::getline(in, line);
- }
- }
- // Finalize the layout. When this is called, we have created all the
- // output sections and all the output segments which are based on
- // input sections. We have several things to do, and we have to do
- // them in the right order, so that we get the right results correctly
- // and efficiently.
- // 1) Finalize the list of output segments and create the segment
- // table header.
- // 2) Finalize the dynamic symbol table and associated sections.
- // 3) Determine the final file offset of all the output segments.
- // 4) Determine the final file offset of all the SHF_ALLOC output
- // sections.
- // 5) Create the symbol table sections and the section name table
- // section.
- // 6) Finalize the symbol table: set symbol values to their final
- // value and make a final determination of which symbols are going
- // into the output symbol table.
- // 7) Create the section table header.
- // 8) Determine the final file offset of all the output sections which
- // are not SHF_ALLOC, including the section table header.
- // 9) Finalize the ELF file header.
- // This function returns the size of the output file.
- off_t
- Layout::finalize(const Input_objects* input_objects, Symbol_table* symtab,
- Target* target, const Task* task)
- {
- unsigned int local_dynamic_count = 0;
- unsigned int forced_local_dynamic_count = 0;
- target->finalize_sections(this, input_objects, symtab);
- this->count_local_symbols(task, input_objects);
- this->link_stabs_sections();
- Output_segment* phdr_seg = NULL;
- if (!parameters->options().relocatable() && !parameters->doing_static_link())
- {
- // There was a dynamic object in the link. We need to create
- // some information for the dynamic linker.
- // Create the PT_PHDR segment which will hold the program
- // headers.
- if (!this->script_options_->saw_phdrs_clause())
- phdr_seg = this->make_output_segment(elfcpp::PT_PHDR, elfcpp::PF_R);
- // Create the dynamic symbol table, including the hash table.
- Output_section* dynstr;
- std::vector<Symbol*> dynamic_symbols;
- Versions versions(*this->script_options()->version_script_info(),
- &this->dynpool_);
- this->create_dynamic_symtab(input_objects, symtab, &dynstr,
- &local_dynamic_count,
- &forced_local_dynamic_count,
- &dynamic_symbols,
- &versions);
- // Create the .interp section to hold the name of the
- // interpreter, and put it in a PT_INTERP segment. Don't do it
- // if we saw a .interp section in an input file.
- if ((!parameters->options().shared()
- || parameters->options().dynamic_linker() != NULL)
- && this->interp_segment_ == NULL)
- this->create_interp(target);
- // Finish the .dynamic section to hold the dynamic data, and put
- // it in a PT_DYNAMIC segment.
- this->finish_dynamic_section(input_objects, symtab);
- // We should have added everything we need to the dynamic string
- // table.
- this->dynpool_.set_string_offsets();
- // Create the version sections. We can't do this until the
- // dynamic string table is complete.
- this->create_version_sections(&versions, symtab,
- (local_dynamic_count
- + forced_local_dynamic_count),
- dynamic_symbols, dynstr);
- // Set the size of the _DYNAMIC symbol. We can't do this until
- // after we call create_version_sections.
- this->set_dynamic_symbol_size(symtab);
- }
- // Create segment headers.
- Output_segment_headers* segment_headers =
- (parameters->options().relocatable()
- ? NULL
- : new Output_segment_headers(this->segment_list_));
- // Lay out the file header.
- Output_file_header* file_header = new Output_file_header(target, symtab,
- segment_headers);
- this->special_output_list_.push_back(file_header);
- if (segment_headers != NULL)
- this->special_output_list_.push_back(segment_headers);
- // Find approriate places for orphan output sections if we are using
- // a linker script.
- if (this->script_options_->saw_sections_clause())
- this->place_orphan_sections_in_script();
- Output_segment* load_seg;
- off_t off;
- unsigned int shndx;
- int pass = 0;
- // Take a snapshot of the section layout as needed.
- if (target->may_relax())
- this->prepare_for_relaxation();
- // Run the relaxation loop to lay out sections.
- do
- {
- off = this->relaxation_loop_body(pass, target, symtab, &load_seg,
- phdr_seg, segment_headers, file_header,
- &shndx);
- pass++;
- }
- while (target->may_relax()
- && target->relax(pass, input_objects, symtab, this, task));
- // If there is a load segment that contains the file and program headers,
- // provide a symbol __ehdr_start pointing there.
- // A program can use this to examine itself robustly.
- Symbol *ehdr_start = symtab->lookup("__ehdr_start");
- if (ehdr_start != NULL && ehdr_start->is_predefined())
- {
- if (load_seg != NULL)
- ehdr_start->set_output_segment(load_seg, Symbol::SEGMENT_START);
- else
- ehdr_start->set_undefined();
- }
- // Set the file offsets of all the non-data sections we've seen so
- // far which don't have to wait for the input sections. We need
- // this in order to finalize local symbols in non-allocated
- // sections.
- off = this->set_section_offsets(off, BEFORE_INPUT_SECTIONS_PASS);
- // Set the section indexes of all unallocated sections seen so far,
- // in case any of them are somehow referenced by a symbol.
- shndx = this->set_section_indexes(shndx);
- // Create the symbol table sections.
- this->create_symtab_sections(input_objects, symtab, shndx, &off,
- local_dynamic_count);
- if (!parameters->doing_static_link())
- this->assign_local_dynsym_offsets(input_objects);
- // Process any symbol assignments from a linker script. This must
- // be called after the symbol table has been finalized.
- this->script_options_->finalize_symbols(symtab, this);
- // Create the incremental inputs sections.
- if (this->incremental_inputs_)
- {
- this->incremental_inputs_->finalize();
- this->create_incremental_info_sections(symtab);
- }
- // Create the .shstrtab section.
- Output_section* shstrtab_section = this->create_shstrtab();
- // Set the file offsets of the rest of the non-data sections which
- // don't have to wait for the input sections.
- off = this->set_section_offsets(off, BEFORE_INPUT_SECTIONS_PASS);
- // Now that all sections have been created, set the section indexes
- // for any sections which haven't been done yet.
- shndx = this->set_section_indexes(shndx);
- // Create the section table header.
- this->create_shdrs(shstrtab_section, &off);
- // If there are no sections which require postprocessing, we can
- // handle the section names now, and avoid a resize later.
- if (!this->any_postprocessing_sections_)
- {
- off = this->set_section_offsets(off,
- POSTPROCESSING_SECTIONS_PASS);
- off =
- this->set_section_offsets(off,
- STRTAB_AFTER_POSTPROCESSING_SECTIONS_PASS);
- }
- file_header->set_section_info(this->section_headers_, shstrtab_section);
- // Now we know exactly where everything goes in the output file
- // (except for non-allocated sections which require postprocessing).
- Output_data::layout_complete();
- this->output_file_size_ = off;
- return off;
- }
- // Create a note header following the format defined in the ELF ABI.
- // NAME is the name, NOTE_TYPE is the type, SECTION_NAME is the name
- // of the section to create, DESCSZ is the size of the descriptor.
- // ALLOCATE is true if the section should be allocated in memory.
- // This returns the new note section. It sets *TRAILING_PADDING to
- // the number of trailing zero bytes required.
- Output_section*
- Layout::create_note(const char* name, int note_type,
- const char* section_name, size_t descsz,
- bool allocate, size_t* trailing_padding)
- {
- // Authorities all agree that the values in a .note field should
- // be aligned on 4-byte boundaries for 32-bit binaries. However,
- // they differ on what the alignment is for 64-bit binaries.
- // The GABI says unambiguously they take 8-byte alignment:
- // http://sco.com/developers/gabi/latest/ch5.pheader.html#note_section
- // Other documentation says alignment should always be 4 bytes:
- // http://www.netbsd.org/docs/kernel/elf-notes.html#note-format
- // GNU ld and GNU readelf both support the latter (at least as of
- // version 2.16.91), and glibc always generates the latter for
- // .note.ABI-tag (as of version 1.6), so that's the one we go with
- // here.
- #ifdef GABI_FORMAT_FOR_DOTNOTE_SECTION // This is not defined by default.
- const int size = parameters->target().get_size();
- #else
- const int size = 32;
- #endif
- // The NT_GNU_PROPERTY_TYPE_0 note is aligned to the pointer size.
- const int addralign = ((note_type == elfcpp::NT_GNU_PROPERTY_TYPE_0
- ? parameters->target().get_size()
- : size) / 8);
- // The contents of the .note section.
- size_t namesz = strlen(name) + 1;
- size_t aligned_namesz = align_address(namesz, size / 8);
- size_t aligned_descsz = align_address(descsz, size / 8);
- size_t notehdrsz = 3 * (size / 8) + aligned_namesz;
- unsigned char* buffer = new unsigned char[notehdrsz];
- memset(buffer, 0, notehdrsz);
- bool is_big_endian = parameters->target().is_big_endian();
- if (size == 32)
- {
- if (!is_big_endian)
- {
- elfcpp::Swap<32, false>::writeval(buffer, namesz);
- elfcpp::Swap<32, false>::writeval(buffer + 4, descsz);
- elfcpp::Swap<32, false>::writeval(buffer + 8, note_type);
- }
- else
- {
- elfcpp::Swap<32, true>::writeval(buffer, namesz);
- elfcpp::Swap<32, true>::writeval(buffer + 4, descsz);
- elfcpp::Swap<32, true>::writeval(buffer + 8, note_type);
- }
- }
- else if (size == 64)
- {
- if (!is_big_endian)
- {
- elfcpp::Swap<64, false>::writeval(buffer, namesz);
- elfcpp::Swap<64, false>::writeval(buffer + 8, descsz);
- elfcpp::Swap<64, false>::writeval(buffer + 16, note_type);
- }
- else
- {
- elfcpp::Swap<64, true>::writeval(buffer, namesz);
- elfcpp::Swap<64, true>::writeval(buffer + 8, descsz);
- elfcpp::Swap<64, true>::writeval(buffer + 16, note_type);
- }
- }
- else
- gold_unreachable();
- memcpy(buffer + 3 * (size / 8), name, namesz);
- elfcpp::Elf_Xword flags = 0;
- Output_section_order order = ORDER_INVALID;
- if (allocate)
- {
- flags = elfcpp::SHF_ALLOC;
- order = (note_type == elfcpp::NT_GNU_PROPERTY_TYPE_0
- ? ORDER_PROPERTY_NOTE : ORDER_RO_NOTE);
- }
- Output_section* os = this->choose_output_section(NULL, section_name,
- elfcpp::SHT_NOTE,
- flags, false, order, false,
- false, true);
- if (os == NULL)
- return NULL;
- Output_section_data* posd = new Output_data_const_buffer(buffer, notehdrsz,
- addralign,
- "** note header");
- os->add_output_section_data(posd);
- *trailing_padding = aligned_descsz - descsz;
- return os;
- }
- // Create a .note.gnu.property section to record program properties
- // accumulated from the input files.
- void
- Layout::create_gnu_properties_note()
- {
- parameters->target().finalize_gnu_properties(this);
- if (this->gnu_properties_.empty())
- return;
- const unsigned int size = parameters->target().get_size();
- const bool is_big_endian = parameters->target().is_big_endian();
- // Compute the total size of the properties array.
- size_t descsz = 0;
- for (Gnu_properties::const_iterator prop = this->gnu_properties_.begin();
- prop != this->gnu_properties_.end();
- ++prop)
- {
- descsz = align_address(descsz + 8 + prop->second.pr_datasz, size / 8);
- }
- // Create the note section.
- size_t trailing_padding;
- Output_section* os = this->create_note("GNU", elfcpp::NT_GNU_PROPERTY_TYPE_0,
- ".note.gnu.property", descsz,
- true, &trailing_padding);
- if (os == NULL)
- return;
- gold_assert(trailing_padding == 0);
- // Allocate and fill the properties array.
- unsigned char* desc = new unsigned char[descsz];
- unsigned char* p = desc;
- for (Gnu_properties::const_iterator prop = this->gnu_properties_.begin();
- prop != this->gnu_properties_.end();
- ++prop)
- {
- size_t datasz = prop->second.pr_datasz;
- size_t aligned_datasz = align_address(prop->second.pr_datasz, size / 8);
- write_sized_value(prop->first, 4, p, is_big_endian);
- write_sized_value(datasz, 4, p + 4, is_big_endian);
- memcpy(p + 8, prop->second.pr_data, datasz);
- if (aligned_datasz > datasz)
- memset(p + 8 + datasz, 0, aligned_datasz - datasz);
- p += 8 + aligned_datasz;
- }
- Output_section_data* posd = new Output_data_const(desc, descsz, 4);
- os->add_output_section_data(posd);
- }
- // For an executable or shared library, create a note to record the
- // version of gold used to create the binary.
- void
- Layout::create_gold_note()
- {
- if (parameters->options().relocatable()
- || parameters->incremental_update())
- return;
- std::string desc = std::string("gold ") + gold::get_version_string();
- size_t trailing_padding;
- Output_section* os = this->create_note("GNU", elfcpp::NT_GNU_GOLD_VERSION,
- ".note.gnu.gold-version", desc.size(),
- false, &trailing_padding);
- if (os == NULL)
- return;
- Output_section_data* posd = new Output_data_const(desc, 4);
- os->add_output_section_data(posd);
- if (trailing_padding > 0)
- {
- posd = new Output_data_zero_fill(trailing_padding, 0);
- os->add_output_section_data(posd);
- }
- }
- // Record whether the stack should be executable. This can be set
- // from the command line using the -z execstack or -z noexecstack
- // options. Otherwise, if any input file has a .note.GNU-stack
- // section with the SHF_EXECINSTR flag set, the stack should be
- // executable. Otherwise, if at least one input file a
- // .note.GNU-stack section, and some input file has no .note.GNU-stack
- // section, we use the target default for whether the stack should be
- // executable. If -z stack-size was used to set a p_memsz value for
- // PT_GNU_STACK, we generate the segment regardless. Otherwise, we
- // don't generate a stack note. When generating a object file, we
- // create a .note.GNU-stack section with the appropriate marking.
- // When generating an executable or shared library, we create a
- // PT_GNU_STACK segment.
- void
- Layout::create_stack_segment()
- {
- bool is_stack_executable;
- if (parameters->options().is_execstack_set())
- {
- is_stack_executable = parameters->options().is_stack_executable();
- if (!is_stack_executable
- && this->input_requires_executable_stack_
- && parameters->options().warn_execstack())
- gold_warning(_("one or more inputs require executable stack, "
- "but -z noexecstack was given"));
- }
- else if (!this->input_with_gnu_stack_note_
- && (!parameters->options().user_set_stack_size()
- || parameters->options().relocatable()))
- return;
- else
- {
- if (this->input_requires_executable_stack_)
- is_stack_executable = true;
- else if (this->input_without_gnu_stack_note_)
- is_stack_executable =
- parameters->target().is_default_stack_executable();
- else
- is_stack_executable = false;
- }
- if (parameters->options().relocatable())
- {
- const char* name = this->namepool_.add(".note.GNU-stack", false, NULL);
- elfcpp::Elf_Xword flags = 0;
- if (is_stack_executable)
- flags |= elfcpp::SHF_EXECINSTR;
- this->make_output_section(name, elfcpp::SHT_PROGBITS, flags,
- ORDER_INVALID, false);
- }
- else
- {
- if (this->script_options_->saw_phdrs_clause())
- return;
- int flags = elfcpp::PF_R | elfcpp::PF_W;
- if (is_stack_executable)
- flags |= elfcpp::PF_X;
- Output_segment* seg =
- this->make_output_segment(elfcpp::PT_GNU_STACK, flags);
- seg->set_size(parameters->options().stack_size());
- // BFD lets targets override this default alignment, but the only
- // targets that do so are ones that Gold does not support so far.
- seg->set_minimum_p_align(16);
- }
- }
- // If --build-id was used, set up the build ID note.
- void
- Layout::create_build_id()
- {
- if (!parameters->options().user_set_build_id())
- return;
- const char* style = parameters->options().build_id();
- if (strcmp(style, "none") == 0)
- return;
- // Set DESCSZ to the size of the note descriptor. When possible,
- // set DESC to the note descriptor contents.
- size_t descsz;
- std::string desc;
- if (strcmp(style, "md5") == 0)
- descsz = 128 / 8;
- else if ((strcmp(style, "sha1") == 0) || (strcmp(style, "tree") == 0))
- descsz = 160 / 8;
- else if (strcmp(style, "uuid") == 0)
- {
- #ifndef __MINGW32__
- const size_t uuidsz = 128 / 8;
- char buffer[uuidsz];
- memset(buffer, 0, uuidsz);
- int descriptor = open_descriptor(-1, "/dev/urandom", O_RDONLY);
- if (descriptor < 0)
- gold_error(_("--build-id=uuid failed: could not open /dev/urandom: %s"),
- strerror(errno));
- else
- {
- ssize_t got = ::read(descriptor, buffer, uuidsz);
- release_descriptor(descriptor, true);
- if (got < 0)
- gold_error(_("/dev/urandom: read failed: %s"), strerror(errno));
- else if (static_cast<size_t>(got) != uuidsz)
- gold_error(_("/dev/urandom: expected %zu bytes, got %zd bytes"),
- uuidsz, got);
- }
- desc.assign(buffer, uuidsz);
- descsz = uuidsz;
- #else // __MINGW32__
- UUID uuid;
- typedef RPC_STATUS (RPC_ENTRY *UuidCreateFn)(UUID *Uuid);
- HMODULE rpc_library = LoadLibrary("rpcrt4.dll");
- if (!rpc_library)
- gold_error(_("--build-id=uuid failed: could not load rpcrt4.dll"));
- else
- {
- UuidCreateFn uuid_create = reinterpret_cast<UuidCreateFn>(
- GetProcAddress(rpc_library, "UuidCreate"));
- if (!uuid_create)
- gold_error(_("--build-id=uuid failed: could not find UuidCreate"));
- else if (uuid_create(&uuid) != RPC_S_OK)
- gold_error(_("__build_id=uuid failed: call UuidCreate() failed"));
- FreeLibrary(rpc_library);
- }
- desc.assign(reinterpret_cast<const char *>(&uuid), sizeof(UUID));
- descsz = sizeof(UUID);
- #endif // __MINGW32__
- }
- else if (strncmp(style, "0x", 2) == 0)
- {
- hex_init();
- const char* p = style + 2;
- while (*p != '\0')
- {
- if (hex_p(p[0]) && hex_p(p[1]))
- {
- char c = (hex_value(p[0]) << 4) | hex_value(p[1]);
- desc += c;
- p += 2;
- }
- else if (*p == '-' || *p == ':')
- ++p;
- else
- gold_fatal(_("--build-id argument '%s' not a valid hex number"),
- style);
- }
- descsz = desc.size();
- }
- else
- gold_fatal(_("unrecognized --build-id argument '%s'"), style);
- // Create the note.
- size_t trailing_padding;
- Output_section* os = this->create_note("GNU", elfcpp::NT_GNU_BUILD_ID,
- ".note.gnu.build-id", descsz, true,
- &trailing_padding);
- if (os == NULL)
- return;
- if (!desc.empty())
- {
- // We know the value already, so we fill it in now.
- gold_assert(desc.size() == descsz);
- Output_section_data* posd = new Output_data_const(desc, 4);
- os->add_output_section_data(posd);
- if (trailing_padding != 0)
- {
- posd = new Output_data_zero_fill(trailing_padding, 0);
- os->add_output_section_data(posd);
- }
- }
- else
- {
- // We need to compute a checksum after we have completed the
- // link.
- gold_assert(trailing_padding == 0);
- this->build_id_note_ = new Output_data_zero_fill(descsz, 4);
- os->add_output_section_data(this->build_id_note_);
- }
- }
- // If we have both .stabXX and .stabXXstr sections, then the sh_link
- // field of the former should point to the latter. I'm not sure who
- // started this, but the GNU linker does it, and some tools depend
- // upon it.
- void
- Layout::link_stabs_sections()
- {
- if (!this->have_stabstr_section_)
- return;
- for (Section_list::iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- {
- if ((*p)->type() != elfcpp::SHT_STRTAB)
- continue;
- const char* name = (*p)->name();
- if (strncmp(name, ".stab", 5) != 0)
- continue;
- size_t len = strlen(name);
- if (strcmp(name + len - 3, "str") != 0)
- continue;
- std::string stab_name(name, len - 3);
- Output_section* stab_sec;
- stab_sec = this->find_output_section(stab_name.c_str());
- if (stab_sec != NULL)
- stab_sec->set_link_section(*p);
- }
- }
- // Create .gnu_incremental_inputs and related sections needed
- // for the next run of incremental linking to check what has changed.
- void
- Layout::create_incremental_info_sections(Symbol_table* symtab)
- {
- Incremental_inputs* incr = this->incremental_inputs_;
- gold_assert(incr != NULL);
- // Create the .gnu_incremental_inputs, _symtab, and _relocs input sections.
- incr->create_data_sections(symtab);
- // Add the .gnu_incremental_inputs section.
- const char* incremental_inputs_name =
- this->namepool_.add(".gnu_incremental_inputs", false, NULL);
- Output_section* incremental_inputs_os =
- this->make_output_section(incremental_inputs_name,
- elfcpp::SHT_GNU_INCREMENTAL_INPUTS, 0,
- ORDER_INVALID, false);
- incremental_inputs_os->add_output_section_data(incr->inputs_section());
- // Add the .gnu_incremental_symtab section.
- const char* incremental_symtab_name =
- this->namepool_.add(".gnu_incremental_symtab", false, NULL);
- Output_section* incremental_symtab_os =
- this->make_output_section(incremental_symtab_name,
- elfcpp::SHT_GNU_INCREMENTAL_SYMTAB, 0,
- ORDER_INVALID, false);
- incremental_symtab_os->add_output_section_data(incr->symtab_section());
- incremental_symtab_os->set_entsize(4);
- // Add the .gnu_incremental_relocs section.
- const char* incremental_relocs_name =
- this->namepool_.add(".gnu_incremental_relocs", false, NULL);
- Output_section* incremental_relocs_os =
- this->make_output_section(incremental_relocs_name,
- elfcpp::SHT_GNU_INCREMENTAL_RELOCS, 0,
- ORDER_INVALID, false);
- incremental_relocs_os->add_output_section_data(incr->relocs_section());
- incremental_relocs_os->set_entsize(incr->relocs_entsize());
- // Add the .gnu_incremental_got_plt section.
- const char* incremental_got_plt_name =
- this->namepool_.add(".gnu_incremental_got_plt", false, NULL);
- Output_section* incremental_got_plt_os =
- this->make_output_section(incremental_got_plt_name,
- elfcpp::SHT_GNU_INCREMENTAL_GOT_PLT, 0,
- ORDER_INVALID, false);
- incremental_got_plt_os->add_output_section_data(incr->got_plt_section());
- // Add the .gnu_incremental_strtab section.
- const char* incremental_strtab_name =
- this->namepool_.add(".gnu_incremental_strtab", false, NULL);
- Output_section* incremental_strtab_os = this->make_output_section(incremental_strtab_name,
- elfcpp::SHT_STRTAB, 0,
- ORDER_INVALID, false);
- Output_data_strtab* strtab_data =
- new Output_data_strtab(incr->get_stringpool());
- incremental_strtab_os->add_output_section_data(strtab_data);
- incremental_inputs_os->set_after_input_sections();
- incremental_symtab_os->set_after_input_sections();
- incremental_relocs_os->set_after_input_sections();
- incremental_got_plt_os->set_after_input_sections();
- incremental_inputs_os->set_link_section(incremental_strtab_os);
- incremental_symtab_os->set_link_section(incremental_inputs_os);
- incremental_relocs_os->set_link_section(incremental_inputs_os);
- incremental_got_plt_os->set_link_section(incremental_inputs_os);
- }
- // Return whether SEG1 should be before SEG2 in the output file. This
- // is based entirely on the segment type and flags. When this is
- // called the segment addresses have normally not yet been set.
- bool
- Layout::segment_precedes(const Output_segment* seg1,
- const Output_segment* seg2)
- {
- // In order to produce a stable ordering if we're called with the same pointer
- // return false.
- if (seg1 == seg2)
- return false;
- elfcpp::Elf_Word type1 = seg1->type();
- elfcpp::Elf_Word type2 = seg2->type();
- // The single PT_PHDR segment is required to precede any loadable
- // segment. We simply make it always first.
- if (type1 == elfcpp::PT_PHDR)
- {
- gold_assert(type2 != elfcpp::PT_PHDR);
- return true;
- }
- if (type2 == elfcpp::PT_PHDR)
- return false;
- // The single PT_INTERP segment is required to precede any loadable
- // segment. We simply make it always second.
- if (type1 == elfcpp::PT_INTERP)
- {
- gold_assert(type2 != elfcpp::PT_INTERP);
- return true;
- }
- if (type2 == elfcpp::PT_INTERP)
- return false;
- // We then put PT_LOAD segments before any other segments.
- if (type1 == elfcpp::PT_LOAD && type2 != elfcpp::PT_LOAD)
- return true;
- if (type2 == elfcpp::PT_LOAD && type1 != elfcpp::PT_LOAD)
- return false;
- // We put the PT_TLS segment last except for the PT_GNU_RELRO
- // segment, because that is where the dynamic linker expects to find
- // it (this is just for efficiency; other positions would also work
- // correctly).
- if (type1 == elfcpp::PT_TLS
- && type2 != elfcpp::PT_TLS
- && type2 != elfcpp::PT_GNU_RELRO)
- return false;
- if (type2 == elfcpp::PT_TLS
- && type1 != elfcpp::PT_TLS
- && type1 != elfcpp::PT_GNU_RELRO)
- return true;
- // We put the PT_GNU_RELRO segment last, because that is where the
- // dynamic linker expects to find it (as with PT_TLS, this is just
- // for efficiency).
- if (type1 == elfcpp::PT_GNU_RELRO && type2 != elfcpp::PT_GNU_RELRO)
- return false;
- if (type2 == elfcpp::PT_GNU_RELRO && type1 != elfcpp::PT_GNU_RELRO)
- return true;
- const elfcpp::Elf_Word flags1 = seg1->flags();
- const elfcpp::Elf_Word flags2 = seg2->flags();
- // The order of non-PT_LOAD segments is unimportant. We simply sort
- // by the numeric segment type and flags values. There should not
- // be more than one segment with the same type and flags, except
- // when a linker script specifies such.
- if (type1 != elfcpp::PT_LOAD)
- {
- if (type1 != type2)
- return type1 < type2;
- uint64_t align1 = seg1->align();
- uint64_t align2 = seg2->align();
- // Place segments with larger alignments first.
- if (align1 != align2)
- return align1 > align2;
- gold_assert(flags1 != flags2
- || this->script_options_->saw_phdrs_clause());
- return flags1 < flags2;
- }
- // If the addresses are set already, sort by load address.
- if (seg1->are_addresses_set())
- {
- if (!seg2->are_addresses_set())
- return true;
- unsigned int section_count1 = seg1->output_section_count();
- unsigned int section_count2 = seg2->output_section_count();
- if (section_count1 == 0 && section_count2 > 0)
- return true;
- if (section_count1 > 0 && section_count2 == 0)
- return false;
- uint64_t paddr1 = (seg1->are_addresses_set()
- ? seg1->paddr()
- : seg1->first_section_load_address());
- uint64_t paddr2 = (seg2->are_addresses_set()
- ? seg2->paddr()
- : seg2->first_section_load_address());
- if (paddr1 != paddr2)
- return paddr1 < paddr2;
- }
- else if (seg2->are_addresses_set())
- return false;
- // A segment which holds large data comes after a segment which does
- // not hold large data.
- if (seg1->is_large_data_segment())
- {
- if (!seg2->is_large_data_segment())
- return false;
- }
- else if (seg2->is_large_data_segment())
- return true;
- // Otherwise, we sort PT_LOAD segments based on the flags. Readonly
- // segments come before writable segments. Then writable segments
- // with data come before writable segments without data. Then
- // executable segments come before non-executable segments. Then
- // the unlikely case of a non-readable segment comes before the
- // normal case of a readable segment. If there are multiple
- // segments with the same type and flags, we require that the
- // address be set, and we sort by virtual address and then physical
- // address.
- if ((flags1 & elfcpp::PF_W) != (flags2 & elfcpp::PF_W))
- return (flags1 & elfcpp::PF_W) == 0;
- if ((flags1 & elfcpp::PF_W) != 0
- && seg1->has_any_data_sections() != seg2->has_any_data_sections())
- return seg1->has_any_data_sections();
- if ((flags1 & elfcpp::PF_X) != (flags2 & elfcpp::PF_X))
- return (flags1 & elfcpp::PF_X) != 0;
- if ((flags1 & elfcpp::PF_R) != (flags2 & elfcpp::PF_R))
- return (flags1 & elfcpp::PF_R) == 0;
- // We shouldn't get here--we shouldn't create segments which we
- // can't distinguish. Unless of course we are using a weird linker
- // script or overlapping --section-start options. We could also get
- // here if plugins want unique segments for subsets of sections.
- gold_assert(this->script_options_->saw_phdrs_clause()
- || parameters->options().any_section_start()
- || this->is_unique_segment_for_sections_specified()
- || parameters->options().text_unlikely_segment());
- return false;
- }
- // Increase OFF so that it is congruent to ADDR modulo ABI_PAGESIZE.
- static off_t
- align_file_offset(off_t off, uint64_t addr, uint64_t abi_pagesize)
- {
- uint64_t unsigned_off = off;
- uint64_t aligned_off = ((unsigned_off & ~(abi_pagesize - 1))
- | (addr & (abi_pagesize - 1)));
- if (aligned_off < unsigned_off)
- aligned_off += abi_pagesize;
- return aligned_off;
- }
- // On targets where the text segment contains only executable code,
- // a non-executable segment is never the text segment.
- static inline bool
- is_text_segment(const Target* target, const Output_segment* seg)
- {
- elfcpp::Elf_Xword flags = seg->flags();
- if ((flags & elfcpp::PF_W) != 0)
- return false;
- if ((flags & elfcpp::PF_X) == 0)
- return !target->isolate_execinstr();
- return true;
- }
- // Set the file offsets of all the segments, and all the sections they
- // contain. They have all been created. LOAD_SEG must be laid out
- // first. Return the offset of the data to follow.
- off_t
- Layout::set_segment_offsets(const Target* target, Output_segment* load_seg,
- unsigned int* pshndx)
- {
- // Sort them into the final order. We use a stable sort so that we
- // don't randomize the order of indistinguishable segments created
- // by linker scripts.
- std::stable_sort(this->segment_list_.begin(), this->segment_list_.end(),
- Layout::Compare_segments(this));
- // Find the PT_LOAD segments, and set their addresses and offsets
- // and their section's addresses and offsets.
- uint64_t start_addr;
- if (parameters->options().user_set_Ttext())
- start_addr = parameters->options().Ttext();
- else if (parameters->options().output_is_position_independent())
- start_addr = 0;
- else
- start_addr = target->default_text_segment_address();
- uint64_t addr = start_addr;
- off_t off = 0;
- // If LOAD_SEG is NULL, then the file header and segment headers
- // will not be loadable. But they still need to be at offset 0 in
- // the file. Set their offsets now.
- if (load_seg == NULL)
- {
- for (Data_list::iterator p = this->special_output_list_.begin();
- p != this->special_output_list_.end();
- ++p)
- {
- off = align_address(off, (*p)->addralign());
- (*p)->set_address_and_file_offset(0, off);
- off += (*p)->data_size();
- }
- }
- unsigned int increase_relro = this->increase_relro_;
- if (this->script_options_->saw_sections_clause())
- increase_relro = 0;
- const bool check_sections = parameters->options().check_sections();
- Output_segment* last_load_segment = NULL;
- unsigned int shndx_begin = *pshndx;
- unsigned int shndx_load_seg = *pshndx;
- for (Segment_list::iterator p = this->segment_list_.begin();
- p != this->segment_list_.end();
- ++p)
- {
- if ((*p)->type() == elfcpp::PT_LOAD)
- {
- if (target->isolate_execinstr())
- {
- // When we hit the segment that should contain the
- // file headers, reset the file offset so we place
- // it and subsequent segments appropriately.
- // We'll fix up the preceding segments below.
- if (load_seg == *p)
- {
- if (off == 0)
- load_seg = NULL;
- else
- {
- off = 0;
- shndx_load_seg = *pshndx;
- }
- }
- }
- else
- {
- // Verify that the file headers fall into the first segment.
- if (load_seg != NULL && load_seg != *p)
- gold_unreachable();
- load_seg = NULL;
- }
- bool are_addresses_set = (*p)->are_addresses_set();
- if (are_addresses_set)
- {
- // When it comes to setting file offsets, we care about
- // the physical address.
- addr = (*p)->paddr();
- }
- else if (parameters->options().user_set_Ttext()
- && (parameters->options().omagic()
- || is_text_segment(target, *p)))
- {
- are_addresses_set = true;
- }
- else if (parameters->options().user_set_Trodata_segment()
- && ((*p)->flags() & (elfcpp::PF_W | elfcpp::PF_X)) == 0)
- {
- addr = parameters->options().Trodata_segment();
- are_addresses_set = true;
- }
- else if (parameters->options().user_set_Tdata()
- && ((*p)->flags() & elfcpp::PF_W) != 0
- && (!parameters->options().user_set_Tbss()
- || (*p)->has_any_data_sections()))
- {
- addr = parameters->options().Tdata();
- are_addresses_set = true;
- }
- else if (parameters->options().user_set_Tbss()
- && ((*p)->flags() & elfcpp::PF_W) != 0
- && !(*p)->has_any_data_sections())
- {
- addr = parameters->options().Tbss();
- are_addresses_set = true;
- }
- uint64_t orig_addr = addr;
- uint64_t orig_off = off;
- uint64_t aligned_addr = 0;
- uint64_t abi_pagesize = target->abi_pagesize();
- uint64_t common_pagesize = target->common_pagesize();
- if (!parameters->options().nmagic()
- && !parameters->options().omagic())
- (*p)->set_minimum_p_align(abi_pagesize);
- if (!are_addresses_set)
- {
- // Skip the address forward one page, maintaining the same
- // position within the page. This lets us store both segments
- // overlapping on a single page in the file, but the loader will
- // put them on different pages in memory. We will revisit this
- // decision once we know the size of the segment.
- uint64_t max_align = (*p)->maximum_alignment();
- if (max_align > abi_pagesize)
- addr = align_address(addr, max_align);
- aligned_addr = addr;
- if (load_seg == *p)
- {
- // This is the segment that will contain the file
- // headers, so its offset will have to be exactly zero.
- gold_assert(orig_off == 0);
- // If the target wants a fixed minimum distance from the
- // text segment to the read-only segment, move up now.
- uint64_t min_addr =
- start_addr + (parameters->options().user_set_rosegment_gap()
- ? parameters->options().rosegment_gap()
- : target->rosegment_gap());
- if (addr < min_addr)
- addr = min_addr;
- // But this is not the first segment! To make its
- // address congruent with its offset, that address better
- // be aligned to the ABI-mandated page size.
- addr = align_address(addr, abi_pagesize);
- aligned_addr = addr;
- }
- else
- {
- if ((addr & (abi_pagesize - 1)) != 0)
- addr = addr + abi_pagesize;
- off = orig_off + ((addr - orig_addr) & (abi_pagesize - 1));
- }
- }
- if (!parameters->options().nmagic()
- && !parameters->options().omagic())
- {
- // Here we are also taking care of the case when
- // the maximum segment alignment is larger than the page size.
- off = align_file_offset(off, addr,
- std::max(abi_pagesize,
- (*p)->maximum_alignment()));
- }
- else
- {
- // This is -N or -n with a section script which prevents
- // us from using a load segment. We need to ensure that
- // the file offset is aligned to the alignment of the
- // segment. This is because the linker script
- // implicitly assumed a zero offset. If we don't align
- // here, then the alignment of the sections in the
- // linker script may not match the alignment of the
- // sections in the set_section_addresses call below,
- // causing an error about dot moving backward.
- off = align_address(off, (*p)->maximum_alignment());
- }
- unsigned int shndx_hold = *pshndx;
- bool has_relro = false;
- uint64_t new_addr = (*p)->set_section_addresses(target, this,
- false, addr,
- &increase_relro,
- &has_relro,
- &off, pshndx);
- // Now that we know the size of this segment, we may be able
- // to save a page in memory, at the cost of wasting some
- // file space, by instead aligning to the start of a new
- // page. Here we use the real machine page size rather than
- // the ABI mandated page size. If the segment has been
- // aligned so that the relro data ends at a page boundary,
- // we do not try to realign it.
- if (!are_addresses_set
- && !has_relro
- && aligned_addr != addr
- && !parameters->incremental())
- {
- uint64_t first_off = (common_pagesize
- - (aligned_addr
- & (common_pagesize - 1)));
- uint64_t last_off = new_addr & (common_pagesize - 1);
- if (first_off > 0
- && last_off > 0
- && ((aligned_addr & ~ (common_pagesize - 1))
- != (new_addr & ~ (common_pagesize - 1)))
- && first_off + last_off <= common_pagesize)
- {
- *pshndx = shndx_hold;
- addr = align_address(aligned_addr, common_pagesize);
- addr = align_address(addr, (*p)->maximum_alignment());
- if ((addr & (abi_pagesize - 1)) != 0)
- addr = addr + abi_pagesize;
- off = orig_off + ((addr - orig_addr) & (abi_pagesize - 1));
- off = align_file_offset(off, addr, abi_pagesize);
- increase_relro = this->increase_relro_;
- if (this->script_options_->saw_sections_clause())
- increase_relro = 0;
- has_relro = false;
- new_addr = (*p)->set_section_addresses(target, this,
- true, addr,
- &increase_relro,
- &has_relro,
- &off, pshndx);
- }
- }
- addr = new_addr;
- // Implement --check-sections. We know that the segments
- // are sorted by LMA.
- if (check_sections && last_load_segment != NULL)
- {
- gold_assert(last_load_segment->paddr() <= (*p)->paddr());
- if (last_load_segment->paddr() + last_load_segment->memsz()
- > (*p)->paddr())
- {
- unsigned long long lb1 = last_load_segment->paddr();
- unsigned long long le1 = lb1 + last_load_segment->memsz();
- unsigned long long lb2 = (*p)->paddr();
- unsigned long long le2 = lb2 + (*p)->memsz();
- gold_error(_("load segment overlap [0x%llx -> 0x%llx] and "
- "[0x%llx -> 0x%llx]"),
- lb1, le1, lb2, le2);
- }
- }
- last_load_segment = *p;
- }
- }
- if (load_seg != NULL && target->isolate_execinstr())
- {
- // Process the early segments again, setting their file offsets
- // so they land after the segments starting at LOAD_SEG.
- off = align_file_offset(off, 0, target->abi_pagesize());
- this->reset_relax_output();
- for (Segment_list::iterator p = this->segment_list_.begin();
- *p != load_seg;
- ++p)
- {
- if ((*p)->type() == elfcpp::PT_LOAD)
- {
- // We repeat the whole job of assigning addresses and
- // offsets, but we really only want to change the offsets and
- // must ensure that the addresses all come out the same as
- // they did the first time through.
- bool has_relro = false;
- const uint64_t old_addr = (*p)->vaddr();
- const uint64_t old_end = old_addr + (*p)->memsz();
- uint64_t new_addr = (*p)->set_section_addresses(target, this,
- true, old_addr,
- &increase_relro,
- &has_relro,
- &off,
- &shndx_begin);
- gold_assert(new_addr == old_end);
- }
- }
- gold_assert(shndx_begin == shndx_load_seg);
- }
- // Handle the non-PT_LOAD segments, setting their offsets from their
- // section's offsets.
- for (Segment_list::iterator p = this->segment_list_.begin();
- p != this->segment_list_.end();
- ++p)
- {
- // PT_GNU_STACK was set up correctly when it was created.
- if ((*p)->type() != elfcpp::PT_LOAD
- && (*p)->type() != elfcpp::PT_GNU_STACK)
- (*p)->set_offset((*p)->type() == elfcpp::PT_GNU_RELRO
- ? increase_relro
- : 0);
- }
- // Set the TLS offsets for each section in the PT_TLS segment.
- if (this->tls_segment_ != NULL)
- this->tls_segment_->set_tls_offsets();
- return off;
- }
- // Set the offsets of all the allocated sections when doing a
- // relocatable link. This does the same jobs as set_segment_offsets,
- // only for a relocatable link.
- off_t
- Layout::set_relocatable_section_offsets(Output_data* file_header,
- unsigned int* pshndx)
- {
- off_t off = 0;
- file_header->set_address_and_file_offset(0, 0);
- off += file_header->data_size();
- for (Section_list::iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- {
- // We skip unallocated sections here, except that group sections
- // have to come first.
- if (((*p)->flags() & elfcpp::SHF_ALLOC) == 0
- && (*p)->type() != elfcpp::SHT_GROUP)
- continue;
- off = align_address(off, (*p)->addralign());
- // The linker script might have set the address.
- if (!(*p)->is_address_valid())
- (*p)->set_address(0);
- (*p)->set_file_offset(off);
- (*p)->finalize_data_size();
- if ((*p)->type() != elfcpp::SHT_NOBITS)
- off += (*p)->data_size();
- (*p)->set_out_shndx(*pshndx);
- ++*pshndx;
- }
- return off;
- }
- // Set the file offset of all the sections not associated with a
- // segment.
- off_t
- Layout::set_section_offsets(off_t off, Layout::Section_offset_pass pass)
- {
- off_t startoff = off;
- off_t maxoff = off;
- for (Section_list::iterator p = this->unattached_section_list_.begin();
- p != this->unattached_section_list_.end();
- ++p)
- {
- // The symtab section is handled in create_symtab_sections.
- if (*p == this->symtab_section_)
- continue;
- // If we've already set the data size, don't set it again.
- if ((*p)->is_offset_valid() && (*p)->is_data_size_valid())
- continue;
- if (pass == BEFORE_INPUT_SECTIONS_PASS
- && (*p)->requires_postprocessing())
- {
- (*p)->create_postprocessing_buffer();
- this->any_postprocessing_sections_ = true;
- }
- if (pass == BEFORE_INPUT_SECTIONS_PASS
- && (*p)->after_input_sections())
- continue;
- else if (pass == POSTPROCESSING_SECTIONS_PASS
- && (!(*p)->after_input_sections()
- || (*p)->type() == elfcpp::SHT_STRTAB))
- continue;
- else if (pass == STRTAB_AFTER_POSTPROCESSING_SECTIONS_PASS
- && (!(*p)->after_input_sections()
- || (*p)->type() != elfcpp::SHT_STRTAB))
- continue;
- if (!parameters->incremental_update())
- {
- off = align_address(off, (*p)->addralign());
- (*p)->set_file_offset(off);
- (*p)->finalize_data_size();
- }
- else
- {
- // Incremental update: allocate file space from free list.
- (*p)->pre_finalize_data_size();
- off_t current_size = (*p)->current_data_size();
- off = this->allocate(current_size, (*p)->addralign(), startoff);
- if (off == -1)
- {
- if (is_debugging_enabled(DEBUG_INCREMENTAL))
- this->free_list_.dump();
- gold_assert((*p)->output_section() != NULL);
- gold_fallback(_("out of patch space for section %s; "
- "relink with --incremental-full"),
- (*p)->output_section()->name());
- }
- (*p)->set_file_offset(off);
- (*p)->finalize_data_size();
- if ((*p)->data_size() > current_size)
- {
- gold_assert((*p)->output_section() != NULL);
- gold_fallback(_("%s: section changed size; "
- "relink with --incremental-full"),
- (*p)->output_section()->name());
- }
- gold_debug(DEBUG_INCREMENTAL,
- "set_section_offsets: %08lx %08lx %s",
- static_cast<long>(off),
- static_cast<long>((*p)->data_size()),
- ((*p)->output_section() != NULL
- ? (*p)->output_section()->name() : "(special)"));
- }
- off += (*p)->data_size();
- if (off > maxoff)
- maxoff = off;
- // At this point the name must be set.
- if (pass != STRTAB_AFTER_POSTPROCESSING_SECTIONS_PASS)
- this->namepool_.add((*p)->name(), false, NULL);
- }
- return maxoff;
- }
- // Set the section indexes of all the sections not associated with a
- // segment.
- unsigned int
- Layout::set_section_indexes(unsigned int shndx)
- {
- for (Section_list::iterator p = this->unattached_section_list_.begin();
- p != this->unattached_section_list_.end();
- ++p)
- {
- if (!(*p)->has_out_shndx())
- {
- (*p)->set_out_shndx(shndx);
- ++shndx;
- }
- }
- return shndx;
- }
- // Set the section addresses according to the linker script. This is
- // only called when we see a SECTIONS clause. This returns the
- // program segment which should hold the file header and segment
- // headers, if any. It will return NULL if they should not be in a
- // segment.
- Output_segment*
- Layout::set_section_addresses_from_script(Symbol_table* symtab)
- {
- Script_sections* ss = this->script_options_->script_sections();
- gold_assert(ss->saw_sections_clause());
- return this->script_options_->set_section_addresses(symtab, this);
- }
- // Place the orphan sections in the linker script.
- void
- Layout::place_orphan_sections_in_script()
- {
- Script_sections* ss = this->script_options_->script_sections();
- gold_assert(ss->saw_sections_clause());
- // Place each orphaned output section in the script.
- for (Section_list::iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- {
- if (!(*p)->found_in_sections_clause())
- ss->place_orphan(*p);
- }
- }
- // Count the local symbols in the regular symbol table and the dynamic
- // symbol table, and build the respective string pools.
- void
- Layout::count_local_symbols(const Task* task,
- const Input_objects* input_objects)
- {
- // First, figure out an upper bound on the number of symbols we'll
- // be inserting into each pool. This helps us create the pools with
- // the right size, to avoid unnecessary hashtable resizing.
- unsigned int symbol_count = 0;
- for (Input_objects::Relobj_iterator p = input_objects->relobj_begin();
- p != input_objects->relobj_end();
- ++p)
- symbol_count += (*p)->local_symbol_count();
- // Go from "upper bound" to "estimate." We overcount for two
- // reasons: we double-count symbols that occur in more than one
- // object file, and we count symbols that are dropped from the
- // output. Add it all together and assume we overcount by 100%.
- symbol_count /= 2;
- // We assume all symbols will go into both the sympool and dynpool.
- this->sympool_.reserve(symbol_count);
- this->dynpool_.reserve(symbol_count);
- for (Input_objects::Relobj_iterator p = input_objects->relobj_begin();
- p != input_objects->relobj_end();
- ++p)
- {
- Task_lock_obj<Object> tlo(task, *p);
- (*p)->count_local_symbols(&this->sympool_, &this->dynpool_);
- }
- }
- // Create the symbol table sections. Here we also set the final
- // values of the symbols. At this point all the loadable sections are
- // fully laid out. SHNUM is the number of sections so far.
- void
- Layout::create_symtab_sections(const Input_objects* input_objects,
- Symbol_table* symtab,
- unsigned int shnum,
- off_t* poff,
- unsigned int local_dynamic_count)
- {
- int symsize;
- unsigned int align;
- if (parameters->target().get_size() == 32)
- {
- symsize = elfcpp::Elf_sizes<32>::sym_size;
- align = 4;
- }
- else if (parameters->target().get_size() == 64)
- {
- symsize = elfcpp::Elf_sizes<64>::sym_size;
- align = 8;
- }
- else
- gold_unreachable();
- // Compute file offsets relative to the start of the symtab section.
- off_t off = 0;
- // Save space for the dummy symbol at the start of the section. We
- // never bother to write this out--it will just be left as zero.
- off += symsize;
- unsigned int local_symbol_index = 1;
- // Add STT_SECTION symbols for each Output section which needs one.
- for (Section_list::iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- {
- if (!(*p)->needs_symtab_index())
- (*p)->set_symtab_index(-1U);
- else
- {
- (*p)->set_symtab_index(local_symbol_index);
- ++local_symbol_index;
- off += symsize;
- }
- }
- for (Input_objects::Relobj_iterator p = input_objects->relobj_begin();
- p != input_objects->relobj_end();
- ++p)
- {
- unsigned int index = (*p)->finalize_local_symbols(local_symbol_index,
- off, symtab);
- off += (index - local_symbol_index) * symsize;
- local_symbol_index = index;
- }
- unsigned int local_symcount = local_symbol_index;
- gold_assert(static_cast<off_t>(local_symcount * symsize) == off);
- off_t dynoff;
- size_t dyncount;
- if (this->dynsym_section_ == NULL)
- {
- dynoff = 0;
- dyncount = 0;
- }
- else
- {
- off_t locsize = local_dynamic_count * this->dynsym_section_->entsize();
- dynoff = this->dynsym_section_->offset() + locsize;
- dyncount = (this->dynsym_section_->data_size() - locsize) / symsize;
- gold_assert(static_cast<off_t>(dyncount * symsize)
- == this->dynsym_section_->data_size() - locsize);
- }
- off_t global_off = off;
- off = symtab->finalize(off, dynoff, local_dynamic_count, dyncount,
- &this->sympool_, &local_symcount);
- if (!parameters->options().strip_all())
- {
- this->sympool_.set_string_offsets();
- const char* symtab_name = this->namepool_.add(".symtab", false, NULL);
- Output_section* osymtab = this->make_output_section(symtab_name,
- elfcpp::SHT_SYMTAB,
- 0, ORDER_INVALID,
- false);
- this->symtab_section_ = osymtab;
- Output_section_data* pos = new Output_data_fixed_space(off, align,
- "** symtab");
- osymtab->add_output_section_data(pos);
- // We generate a .symtab_shndx section if we have more than
- // SHN_LORESERVE sections. Technically it is possible that we
- // don't need one, because it is possible that there are no
- // symbols in any of sections with indexes larger than
- // SHN_LORESERVE. That is probably unusual, though, and it is
- // easier to always create one than to compute section indexes
- // twice (once here, once when writing out the symbols).
- if (shnum >= elfcpp::SHN_LORESERVE)
- {
- const char* symtab_xindex_name = this->namepool_.add(".symtab_shndx",
- false, NULL);
- Output_section* osymtab_xindex =
- this->make_output_section(symtab_xindex_name,
- elfcpp::SHT_SYMTAB_SHNDX, 0,
- ORDER_INVALID, false);
- size_t symcount = off / symsize;
- this->symtab_xindex_ = new Output_symtab_xindex(symcount);
- osymtab_xindex->add_output_section_data(this->symtab_xindex_);
- osymtab_xindex->set_link_section(osymtab);
- osymtab_xindex->set_addralign(4);
- osymtab_xindex->set_entsize(4);
- osymtab_xindex->set_after_input_sections();
- // This tells the driver code to wait until the symbol table
- // has written out before writing out the postprocessing
- // sections, including the .symtab_shndx section.
- this->any_postprocessing_sections_ = true;
- }
- const char* strtab_name = this->namepool_.add(".strtab", false, NULL);
- Output_section* ostrtab = this->make_output_section(strtab_name,
- elfcpp::SHT_STRTAB,
- 0, ORDER_INVALID,
- false);
- Output_section_data* pstr = new Output_data_strtab(&this->sympool_);
- ostrtab->add_output_section_data(pstr);
- off_t symtab_off;
- if (!parameters->incremental_update())
- symtab_off = align_address(*poff, align);
- else
- {
- symtab_off = this->allocate(off, align, *poff);
- if (off == -1)
- gold_fallback(_("out of patch space for symbol table; "
- "relink with --incremental-full"));
- gold_debug(DEBUG_INCREMENTAL,
- "create_symtab_sections: %08lx %08lx .symtab",
- static_cast<long>(symtab_off),
- static_cast<long>(off));
- }
- symtab->set_file_offset(symtab_off + global_off);
- osymtab->set_file_offset(symtab_off);
- osymtab->finalize_data_size();
- osymtab->set_link_section(ostrtab);
- osymtab->set_info(local_symcount);
- osymtab->set_entsize(symsize);
- if (symtab_off + off > *poff)
- *poff = symtab_off + off;
- }
- }
- // Create the .shstrtab section, which holds the names of the
- // sections. At the time this is called, we have created all the
- // output sections except .shstrtab itself.
- Output_section*
- Layout::create_shstrtab()
- {
- // FIXME: We don't need to create a .shstrtab section if we are
- // stripping everything.
- const char* name = this->namepool_.add(".shstrtab", false, NULL);
- Output_section* os = this->make_output_section(name, elfcpp::SHT_STRTAB, 0,
- ORDER_INVALID, false);
- if (strcmp(parameters->options().compress_debug_sections(), "none") != 0)
- {
- // We can't write out this section until we've set all the
- // section names, and we don't set the names of compressed
- // output sections until relocations are complete. FIXME: With
- // the current names we use, this is unnecessary.
- os->set_after_input_sections();
- }
- Output_section_data* posd = new Output_data_strtab(&this->namepool_);
- os->add_output_section_data(posd);
- return os;
- }
- // Create the section headers. SIZE is 32 or 64. OFF is the file
- // offset.
- void
- Layout::create_shdrs(const Output_section* shstrtab_section, off_t* poff)
- {
- Output_section_headers* oshdrs;
- oshdrs = new Output_section_headers(this,
- &this->segment_list_,
- &this->section_list_,
- &this->unattached_section_list_,
- &this->namepool_,
- shstrtab_section);
- off_t off;
- if (!parameters->incremental_update())
- off = align_address(*poff, oshdrs->addralign());
- else
- {
- oshdrs->pre_finalize_data_size();
- off = this->allocate(oshdrs->data_size(), oshdrs->addralign(), *poff);
- if (off == -1)
- gold_fallback(_("out of patch space for section header table; "
- "relink with --incremental-full"));
- gold_debug(DEBUG_INCREMENTAL,
- "create_shdrs: %08lx %08lx (section header table)",
- static_cast<long>(off),
- static_cast<long>(off + oshdrs->data_size()));
- }
- oshdrs->set_address_and_file_offset(0, off);
- off += oshdrs->data_size();
- if (off > *poff)
- *poff = off;
- this->section_headers_ = oshdrs;
- }
- // Count the allocated sections.
- size_t
- Layout::allocated_output_section_count() const
- {
- size_t section_count = 0;
- for (Segment_list::const_iterator p = this->segment_list_.begin();
- p != this->segment_list_.end();
- ++p)
- section_count += (*p)->output_section_count();
- return section_count;
- }
- // Create the dynamic symbol table.
- // *PLOCAL_DYNAMIC_COUNT will be set to the number of local symbols
- // from input objects, and *PFORCED_LOCAL_DYNAMIC_COUNT will be set
- // to the number of global symbols that have been forced local.
- // We need to remember the former because the forced-local symbols are
- // written along with the global symbols in Symtab::write_globals().
- void
- Layout::create_dynamic_symtab(const Input_objects* input_objects,
- Symbol_table* symtab,
- Output_section** pdynstr,
- unsigned int* plocal_dynamic_count,
- unsigned int* pforced_local_dynamic_count,
- std::vector<Symbol*>* pdynamic_symbols,
- Versions* pversions)
- {
- // Count all the symbols in the dynamic symbol table, and set the
- // dynamic symbol indexes.
- // Skip symbol 0, which is always all zeroes.
- unsigned int index = 1;
- // Add STT_SECTION symbols for each Output section which needs one.
- for (Section_list::iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- {
- if (!(*p)->needs_dynsym_index())
- (*p)->set_dynsym_index(-1U);
- else
- {
- (*p)->set_dynsym_index(index);
- ++index;
- }
- }
- // Count the local symbols that need to go in the dynamic symbol table,
- // and set the dynamic symbol indexes.
- for (Input_objects::Relobj_iterator p = input_objects->relobj_begin();
- p != input_objects->relobj_end();
- ++p)
- {
- unsigned int new_index = (*p)->set_local_dynsym_indexes(index);
- index = new_index;
- }
- unsigned int local_symcount = index;
- unsigned int forced_local_count = 0;
- index = symtab->set_dynsym_indexes(index, &forced_local_count,
- pdynamic_symbols, &this->dynpool_,
- pversions);
- *plocal_dynamic_count = local_symcount;
- *pforced_local_dynamic_count = forced_local_count;
- int symsize;
- unsigned int align;
- const int size = parameters->target().get_size();
- if (size == 32)
- {
- symsize = elfcpp::Elf_sizes<32>::sym_size;
- align = 4;
- }
- else if (size == 64)
- {
- symsize = elfcpp::Elf_sizes<64>::sym_size;
- align = 8;
- }
- else
- gold_unreachable();
- // Create the dynamic symbol table section.
- Output_section* dynsym = this->choose_output_section(NULL, ".dynsym",
- elfcpp::SHT_DYNSYM,
- elfcpp::SHF_ALLOC,
- false,
- ORDER_DYNAMIC_LINKER,
- false, false, false);
- // Check for NULL as a linker script may discard .dynsym.
- if (dynsym != NULL)
- {
- Output_section_data* odata = new Output_data_fixed_space(index * symsize,
- align,
- "** dynsym");
- dynsym->add_output_section_data(odata);
- dynsym->set_info(local_symcount + forced_local_count);
- dynsym->set_entsize(symsize);
- dynsym->set_addralign(align);
- this->dynsym_section_ = dynsym;
- }
- Output_data_dynamic* const odyn = this->dynamic_data_;
- if (odyn != NULL)
- {
- odyn->add_section_address(elfcpp::DT_SYMTAB, dynsym);
- odyn->add_constant(elfcpp::DT_SYMENT, symsize);
- }
- // If there are more than SHN_LORESERVE allocated sections, we
- // create a .dynsym_shndx section. It is possible that we don't
- // need one, because it is possible that there are no dynamic
- // symbols in any of the sections with indexes larger than
- // SHN_LORESERVE. This is probably unusual, though, and at this
- // time we don't know the actual section indexes so it is
- // inconvenient to check.
- if (this->allocated_output_section_count() >= elfcpp::SHN_LORESERVE)
- {
- Output_section* dynsym_xindex =
- this->choose_output_section(NULL, ".dynsym_shndx",
- elfcpp::SHT_SYMTAB_SHNDX,
- elfcpp::SHF_ALLOC,
- false, ORDER_DYNAMIC_LINKER, false, false,
- false);
- if (dynsym_xindex != NULL)
- {
- this->dynsym_xindex_ = new Output_symtab_xindex(index);
- dynsym_xindex->add_output_section_data(this->dynsym_xindex_);
- dynsym_xindex->set_link_section(dynsym);
- dynsym_xindex->set_addralign(4);
- dynsym_xindex->set_entsize(4);
- dynsym_xindex->set_after_input_sections();
- // This tells the driver code to wait until the symbol table
- // has written out before writing out the postprocessing
- // sections, including the .dynsym_shndx section.
- this->any_postprocessing_sections_ = true;
- }
- }
- // Create the dynamic string table section.
- Output_section* dynstr = this->choose_output_section(NULL, ".dynstr",
- elfcpp::SHT_STRTAB,
- elfcpp::SHF_ALLOC,
- false,
- ORDER_DYNAMIC_LINKER,
- false, false, false);
- *pdynstr = dynstr;
- if (dynstr != NULL)
- {
- Output_section_data* strdata = new Output_data_strtab(&this->dynpool_);
- dynstr->add_output_section_data(strdata);
- if (dynsym != NULL)
- dynsym->set_link_section(dynstr);
- if (this->dynamic_section_ != NULL)
- this->dynamic_section_->set_link_section(dynstr);
- if (odyn != NULL)
- {
- odyn->add_section_address(elfcpp::DT_STRTAB, dynstr);
- odyn->add_section_size(elfcpp::DT_STRSZ, dynstr);
- }
- }
- // Create the hash tables. The Gnu-style hash table must be
- // built first, because it changes the order of the symbols
- // in the dynamic symbol table.
- if (strcmp(parameters->options().hash_style(), "gnu") == 0
- || strcmp(parameters->options().hash_style(), "both") == 0)
- {
- unsigned char* phash;
- unsigned int hashlen;
- Dynobj::create_gnu_hash_table(*pdynamic_symbols,
- local_symcount + forced_local_count,
- &phash, &hashlen);
- Output_section* hashsec =
- this->choose_output_section(NULL, ".gnu.hash", elfcpp::SHT_GNU_HASH,
- elfcpp::SHF_ALLOC, false,
- ORDER_DYNAMIC_LINKER, false, false,
- false);
- Output_section_data* hashdata = new Output_data_const_buffer(phash,
- hashlen,
- align,
- "** hash");
- if (hashsec != NULL && hashdata != NULL)
- hashsec->add_output_section_data(hashdata);
- if (hashsec != NULL)
- {
- if (dynsym != NULL)
- hashsec->set_link_section(dynsym);
- // For a 64-bit target, the entries in .gnu.hash do not have
- // a uniform size, so we only set the entry size for a
- // 32-bit target.
- if (parameters->target().get_size() == 32)
- hashsec->set_entsize(4);
- if (odyn != NULL)
- odyn->add_section_address(elfcpp::DT_GNU_HASH, hashsec);
- }
- }
- if (strcmp(parameters->options().hash_style(), "sysv") == 0
- || strcmp(parameters->options().hash_style(), "both") == 0)
- {
- unsigned char* phash;
- unsigned int hashlen;
- Dynobj::create_elf_hash_table(*pdynamic_symbols,
- local_symcount + forced_local_count,
- &phash, &hashlen);
- Output_section* hashsec =
- this->choose_output_section(NULL, ".hash", elfcpp::SHT_HASH,
- elfcpp::SHF_ALLOC, false,
- ORDER_DYNAMIC_LINKER, false, false,
- false);
- Output_section_data* hashdata = new Output_data_const_buffer(phash,
- hashlen,
- align,
- "** hash");
- if (hashsec != NULL && hashdata != NULL)
- hashsec->add_output_section_data(hashdata);
- if (hashsec != NULL)
- {
- if (dynsym != NULL)
- hashsec->set_link_section(dynsym);
- hashsec->set_entsize(parameters->target().hash_entry_size() / 8);
- }
- if (odyn != NULL)
- odyn->add_section_address(elfcpp::DT_HASH, hashsec);
- }
- }
- // Assign offsets to each local portion of the dynamic symbol table.
- void
- Layout::assign_local_dynsym_offsets(const Input_objects* input_objects)
- {
- Output_section* dynsym = this->dynsym_section_;
- if (dynsym == NULL)
- return;
- off_t off = dynsym->offset();
- // Skip the dummy symbol at the start of the section.
- off += dynsym->entsize();
- for (Input_objects::Relobj_iterator p = input_objects->relobj_begin();
- p != input_objects->relobj_end();
- ++p)
- {
- unsigned int count = (*p)->set_local_dynsym_offset(off);
- off += count * dynsym->entsize();
- }
- }
- // Create the version sections.
- void
- Layout::create_version_sections(const Versions* versions,
- const Symbol_table* symtab,
- unsigned int local_symcount,
- const std::vector<Symbol*>& dynamic_symbols,
- const Output_section* dynstr)
- {
- if (!versions->any_defs() && !versions->any_needs())
- return;
- switch (parameters->size_and_endianness())
- {
- #ifdef HAVE_TARGET_32_LITTLE
- case Parameters::TARGET_32_LITTLE:
- this->sized_create_version_sections<32, false>(versions, symtab,
- local_symcount,
- dynamic_symbols, dynstr);
- break;
- #endif
- #ifdef HAVE_TARGET_32_BIG
- case Parameters::TARGET_32_BIG:
- this->sized_create_version_sections<32, true>(versions, symtab,
- local_symcount,
- dynamic_symbols, dynstr);
- break;
- #endif
- #ifdef HAVE_TARGET_64_LITTLE
- case Parameters::TARGET_64_LITTLE:
- this->sized_create_version_sections<64, false>(versions, symtab,
- local_symcount,
- dynamic_symbols, dynstr);
- break;
- #endif
- #ifdef HAVE_TARGET_64_BIG
- case Parameters::TARGET_64_BIG:
- this->sized_create_version_sections<64, true>(versions, symtab,
- local_symcount,
- dynamic_symbols, dynstr);
- break;
- #endif
- default:
- gold_unreachable();
- }
- }
- // Create the version sections, sized version.
- template<int size, bool big_endian>
- void
- Layout::sized_create_version_sections(
- const Versions* versions,
- const Symbol_table* symtab,
- unsigned int local_symcount,
- const std::vector<Symbol*>& dynamic_symbols,
- const Output_section* dynstr)
- {
- Output_section* vsec = this->choose_output_section(NULL, ".gnu.version",
- elfcpp::SHT_GNU_versym,
- elfcpp::SHF_ALLOC,
- false,
- ORDER_DYNAMIC_LINKER,
- false, false, false);
- // Check for NULL since a linker script may discard this section.
- if (vsec != NULL)
- {
- unsigned char* vbuf;
- unsigned int vsize;
- versions->symbol_section_contents<size, big_endian>(symtab,
- &this->dynpool_,
- local_symcount,
- dynamic_symbols,
- &vbuf, &vsize);
- Output_section_data* vdata = new Output_data_const_buffer(vbuf, vsize, 2,
- "** versions");
- vsec->add_output_section_data(vdata);
- vsec->set_entsize(2);
- vsec->set_link_section(this->dynsym_section_);
- }
- Output_data_dynamic* const odyn = this->dynamic_data_;
- if (odyn != NULL && vsec != NULL)
- odyn->add_section_address(elfcpp::DT_VERSYM, vsec);
- if (versions->any_defs())
- {
- Output_section* vdsec;
- vdsec = this->choose_output_section(NULL, ".gnu.version_d",
- elfcpp::SHT_GNU_verdef,
- elfcpp::SHF_ALLOC,
- false, ORDER_DYNAMIC_LINKER, false,
- false, false);
- if (vdsec != NULL)
- {
- unsigned char* vdbuf;
- unsigned int vdsize;
- unsigned int vdentries;
- versions->def_section_contents<size, big_endian>(&this->dynpool_,
- &vdbuf, &vdsize,
- &vdentries);
- Output_section_data* vddata =
- new Output_data_const_buffer(vdbuf, vdsize, 4, "** version defs");
- vdsec->add_output_section_data(vddata);
- vdsec->set_link_section(dynstr);
- vdsec->set_info(vdentries);
- if (odyn != NULL)
- {
- odyn->add_section_address(elfcpp::DT_VERDEF, vdsec);
- odyn->add_constant(elfcpp::DT_VERDEFNUM, vdentries);
- }
- }
- }
- if (versions->any_needs())
- {
- Output_section* vnsec;
- vnsec = this->choose_output_section(NULL, ".gnu.version_r",
- elfcpp::SHT_GNU_verneed,
- elfcpp::SHF_ALLOC,
- false, ORDER_DYNAMIC_LINKER, false,
- false, false);
- if (vnsec != NULL)
- {
- unsigned char* vnbuf;
- unsigned int vnsize;
- unsigned int vnentries;
- versions->need_section_contents<size, big_endian>(&this->dynpool_,
- &vnbuf, &vnsize,
- &vnentries);
- Output_section_data* vndata =
- new Output_data_const_buffer(vnbuf, vnsize, 4, "** version refs");
- vnsec->add_output_section_data(vndata);
- vnsec->set_link_section(dynstr);
- vnsec->set_info(vnentries);
- if (odyn != NULL)
- {
- odyn->add_section_address(elfcpp::DT_VERNEED, vnsec);
- odyn->add_constant(elfcpp::DT_VERNEEDNUM, vnentries);
- }
- }
- }
- }
- // Create the .interp section and PT_INTERP segment.
- void
- Layout::create_interp(const Target* target)
- {
- gold_assert(this->interp_segment_ == NULL);
- const char* interp = parameters->options().dynamic_linker();
- if (interp == NULL)
- {
- interp = target->dynamic_linker();
- gold_assert(interp != NULL);
- }
- size_t len = strlen(interp) + 1;
- Output_section_data* odata = new Output_data_const(interp, len, 1);
- Output_section* osec = this->choose_output_section(NULL, ".interp",
- elfcpp::SHT_PROGBITS,
- elfcpp::SHF_ALLOC,
- false, ORDER_INTERP,
- false, false, false);
- if (osec != NULL)
- osec->add_output_section_data(odata);
- }
- // Add dynamic tags for the PLT and the dynamic relocs. This is
- // called by the target-specific code. This does nothing if not doing
- // a dynamic link.
- // USE_REL is true for REL relocs rather than RELA relocs.
- // If PLT_GOT is not NULL, then DT_PLTGOT points to it.
- // If PLT_REL is not NULL, it is used for DT_PLTRELSZ, and DT_JMPREL,
- // and we also set DT_PLTREL. We use PLT_REL's output section, since
- // some targets have multiple reloc sections in PLT_REL.
- // If DYN_REL is not NULL, it is used for DT_REL/DT_RELA,
- // DT_RELSZ/DT_RELASZ, DT_RELENT/DT_RELAENT. Again we use the output
- // section.
- // If ADD_DEBUG is true, we add a DT_DEBUG entry when generating an
- // executable.
- void
- Layout::add_target_dynamic_tags(bool use_rel, const Output_data* plt_got,
- const Output_data* plt_rel,
- const Output_data_reloc_generic* dyn_rel,
- bool add_debug, bool dynrel_includes_plt)
- {
- Output_data_dynamic* odyn = this->dynamic_data_;
- if (odyn == NULL)
- return;
- if (plt_got != NULL && plt_got->output_section() != NULL)
- odyn->add_section_address(elfcpp::DT_PLTGOT, plt_got);
- if (plt_rel != NULL && plt_rel->output_section() != NULL)
- {
- odyn->add_section_size(elfcpp::DT_PLTRELSZ, plt_rel->output_section());
- odyn->add_section_address(elfcpp::DT_JMPREL, plt_rel->output_section());
- odyn->add_constant(elfcpp::DT_PLTREL,
- use_rel ? elfcpp::DT_REL : elfcpp::DT_RELA);
- }
- if ((dyn_rel != NULL && dyn_rel->output_section() != NULL)
- || (dynrel_includes_plt
- && plt_rel != NULL
- && plt_rel->output_section() != NULL))
- {
- bool have_dyn_rel = dyn_rel != NULL && dyn_rel->output_section() != NULL;
- bool have_plt_rel = plt_rel != NULL && plt_rel->output_section() != NULL;
- odyn->add_section_address(use_rel ? elfcpp::DT_REL : elfcpp::DT_RELA,
- (have_dyn_rel
- ? dyn_rel->output_section()
- : plt_rel->output_section()));
- elfcpp::DT size_tag = use_rel ? elfcpp::DT_RELSZ : elfcpp::DT_RELASZ;
- if (have_dyn_rel && have_plt_rel && dynrel_includes_plt)
- odyn->add_section_size(size_tag,
- dyn_rel->output_section(),
- plt_rel->output_section());
- else if (have_dyn_rel)
- odyn->add_section_size(size_tag, dyn_rel->output_section());
- else
- odyn->add_section_size(size_tag, plt_rel->output_section());
- const int size = parameters->target().get_size();
- elfcpp::DT rel_tag;
- int rel_size;
- if (use_rel)
- {
- rel_tag = elfcpp::DT_RELENT;
- if (size == 32)
- rel_size = Reloc_types<elfcpp::SHT_REL, 32, false>::reloc_size;
- else if (size == 64)
- rel_size = Reloc_types<elfcpp::SHT_REL, 64, false>::reloc_size;
- else
- gold_unreachable();
- }
- else
- {
- rel_tag = elfcpp::DT_RELAENT;
- if (size == 32)
- rel_size = Reloc_types<elfcpp::SHT_RELA, 32, false>::reloc_size;
- else if (size == 64)
- rel_size = Reloc_types<elfcpp::SHT_RELA, 64, false>::reloc_size;
- else
- gold_unreachable();
- }
- odyn->add_constant(rel_tag, rel_size);
- if (parameters->options().combreloc() && have_dyn_rel)
- {
- size_t c = dyn_rel->relative_reloc_count();
- if (c > 0)
- odyn->add_constant((use_rel
- ? elfcpp::DT_RELCOUNT
- : elfcpp::DT_RELACOUNT),
- c);
- }
- }
- if (add_debug && !parameters->options().shared())
- {
- // The value of the DT_DEBUG tag is filled in by the dynamic
- // linker at run time, and used by the debugger.
- odyn->add_constant(elfcpp::DT_DEBUG, 0);
- }
- }
- void
- Layout::add_target_specific_dynamic_tag(elfcpp::DT tag, unsigned int val)
- {
- Output_data_dynamic* odyn = this->dynamic_data_;
- if (odyn == NULL)
- return;
- odyn->add_constant(tag, val);
- }
- // Finish the .dynamic section and PT_DYNAMIC segment.
- void
- Layout::finish_dynamic_section(const Input_objects* input_objects,
- const Symbol_table* symtab)
- {
- if (!this->script_options_->saw_phdrs_clause()
- && this->dynamic_section_ != NULL)
- {
- Output_segment* oseg = this->make_output_segment(elfcpp::PT_DYNAMIC,
- (elfcpp::PF_R
- | elfcpp::PF_W));
- oseg->add_output_section_to_nonload(this->dynamic_section_,
- elfcpp::PF_R | elfcpp::PF_W);
- }
- Output_data_dynamic* const odyn = this->dynamic_data_;
- if (odyn == NULL)
- return;
- for (Input_objects::Dynobj_iterator p = input_objects->dynobj_begin();
- p != input_objects->dynobj_end();
- ++p)
- {
- if (!(*p)->is_needed() && (*p)->as_needed())
- {
- // This dynamic object was linked with --as-needed, but it
- // is not needed.
- continue;
- }
- odyn->add_string(elfcpp::DT_NEEDED, (*p)->soname());
- }
- if (parameters->options().shared())
- {
- const char* soname = parameters->options().soname();
- if (soname != NULL)
- odyn->add_string(elfcpp::DT_SONAME, soname);
- }
- Symbol* sym = symtab->lookup(parameters->options().init());
- if (sym != NULL && sym->is_defined() && !sym->is_from_dynobj())
- odyn->add_symbol(elfcpp::DT_INIT, sym);
- sym = symtab->lookup(parameters->options().fini());
- if (sym != NULL && sym->is_defined() && !sym->is_from_dynobj())
- odyn->add_symbol(elfcpp::DT_FINI, sym);
- // Look for .init_array, .preinit_array and .fini_array by checking
- // section types.
- for(Layout::Section_list::const_iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- switch((*p)->type())
- {
- case elfcpp::SHT_FINI_ARRAY:
- odyn->add_section_address(elfcpp::DT_FINI_ARRAY, *p);
- odyn->add_section_size(elfcpp::DT_FINI_ARRAYSZ, *p);
- break;
- case elfcpp::SHT_INIT_ARRAY:
- odyn->add_section_address(elfcpp::DT_INIT_ARRAY, *p);
- odyn->add_section_size(elfcpp::DT_INIT_ARRAYSZ, *p);
- break;
- case elfcpp::SHT_PREINIT_ARRAY:
- odyn->add_section_address(elfcpp::DT_PREINIT_ARRAY, *p);
- odyn->add_section_size(elfcpp::DT_PREINIT_ARRAYSZ, *p);
- break;
- default:
- break;
- }
- // Add a DT_RPATH entry if needed.
- const General_options::Dir_list& rpath(parameters->options().rpath());
- if (!rpath.empty())
- {
- std::string rpath_val;
- for (General_options::Dir_list::const_iterator p = rpath.begin();
- p != rpath.end();
- ++p)
- {
- if (rpath_val.empty())
- rpath_val = p->name();
- else
- {
- // Eliminate duplicates.
- General_options::Dir_list::const_iterator q;
- for (q = rpath.begin(); q != p; ++q)
- if (q->name() == p->name())
- break;
- if (q == p)
- {
- rpath_val += ':';
- rpath_val += p->name();
- }
- }
- }
- if (!parameters->options().enable_new_dtags())
- odyn->add_string(elfcpp::DT_RPATH, rpath_val);
- else
- odyn->add_string(elfcpp::DT_RUNPATH, rpath_val);
- }
- // Look for text segments that have dynamic relocations.
- bool have_textrel = false;
- if (!this->script_options_->saw_sections_clause())
- {
- for (Segment_list::const_iterator p = this->segment_list_.begin();
- p != this->segment_list_.end();
- ++p)
- {
- if ((*p)->type() == elfcpp::PT_LOAD
- && ((*p)->flags() & elfcpp::PF_W) == 0
- && (*p)->has_dynamic_reloc())
- {
- have_textrel = true;
- break;
- }
- }
- }
- else
- {
- // We don't know the section -> segment mapping, so we are
- // conservative and just look for readonly sections with
- // relocations. If those sections wind up in writable segments,
- // then we have created an unnecessary DT_TEXTREL entry.
- for (Section_list::const_iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- {
- if (((*p)->flags() & elfcpp::SHF_ALLOC) != 0
- && ((*p)->flags() & elfcpp::SHF_WRITE) == 0
- && (*p)->has_dynamic_reloc())
- {
- have_textrel = true;
- break;
- }
- }
- }
- if (parameters->options().filter() != NULL)
- odyn->add_string(elfcpp::DT_FILTER, parameters->options().filter());
- if (parameters->options().any_auxiliary())
- {
- for (options::String_set::const_iterator p =
- parameters->options().auxiliary_begin();
- p != parameters->options().auxiliary_end();
- ++p)
- odyn->add_string(elfcpp::DT_AUXILIARY, *p);
- }
- // Add a DT_FLAGS entry if necessary.
- unsigned int flags = 0;
- if (have_textrel)
- {
- // Add a DT_TEXTREL for compatibility with older loaders.
- odyn->add_constant(elfcpp::DT_TEXTREL, 0);
- flags |= elfcpp::DF_TEXTREL;
- if (parameters->options().text())
- gold_error(_("read-only segment has dynamic relocations"));
- else if (parameters->options().warn_shared_textrel()
- && parameters->options().shared())
- gold_warning(_("shared library text segment is not shareable"));
- }
- if (parameters->options().shared() && this->has_static_tls())
- flags |= elfcpp::DF_STATIC_TLS;
- if (parameters->options().origin())
- flags |= elfcpp::DF_ORIGIN;
- if (parameters->options().Bsymbolic()
- && !parameters->options().have_dynamic_list())
- {
- flags |= elfcpp::DF_SYMBOLIC;
- // Add DT_SYMBOLIC for compatibility with older loaders.
- odyn->add_constant(elfcpp::DT_SYMBOLIC, 0);
- }
- if (parameters->options().now())
- flags |= elfcpp::DF_BIND_NOW;
- if (flags != 0)
- odyn->add_constant(elfcpp::DT_FLAGS, flags);
- flags = 0;
- if (parameters->options().global())
- flags |= elfcpp::DF_1_GLOBAL;
- if (parameters->options().initfirst())
- flags |= elfcpp::DF_1_INITFIRST;
- if (parameters->options().interpose())
- flags |= elfcpp::DF_1_INTERPOSE;
- if (parameters->options().loadfltr())
- flags |= elfcpp::DF_1_LOADFLTR;
- if (parameters->options().nodefaultlib())
- flags |= elfcpp::DF_1_NODEFLIB;
- if (parameters->options().nodelete())
- flags |= elfcpp::DF_1_NODELETE;
- if (parameters->options().nodlopen())
- flags |= elfcpp::DF_1_NOOPEN;
- if (parameters->options().nodump())
- flags |= elfcpp::DF_1_NODUMP;
- if (!parameters->options().shared())
- flags &= ~(elfcpp::DF_1_INITFIRST
- | elfcpp::DF_1_NODELETE
- | elfcpp::DF_1_NOOPEN);
- if (parameters->options().origin())
- flags |= elfcpp::DF_1_ORIGIN;
- if (parameters->options().now())
- flags |= elfcpp::DF_1_NOW;
- if (parameters->options().Bgroup())
- flags |= elfcpp::DF_1_GROUP;
- if (parameters->options().pie())
- flags |= elfcpp::DF_1_PIE;
- if (flags != 0)
- odyn->add_constant(elfcpp::DT_FLAGS_1, flags);
- flags = 0;
- if (parameters->options().unique())
- flags |= elfcpp::DF_GNU_1_UNIQUE;
- if (flags != 0)
- odyn->add_constant(elfcpp::DT_GNU_FLAGS_1, flags);
- }
- // Set the size of the _DYNAMIC symbol table to be the size of the
- // dynamic data.
- void
- Layout::set_dynamic_symbol_size(const Symbol_table* symtab)
- {
- Output_data_dynamic* const odyn = this->dynamic_data_;
- if (odyn == NULL)
- return;
- odyn->finalize_data_size();
- if (this->dynamic_symbol_ == NULL)
- return;
- off_t data_size = odyn->data_size();
- const int size = parameters->target().get_size();
- if (size == 32)
- symtab->get_sized_symbol<32>(this->dynamic_symbol_)->set_symsize(data_size);
- else if (size == 64)
- symtab->get_sized_symbol<64>(this->dynamic_symbol_)->set_symsize(data_size);
- else
- gold_unreachable();
- }
- // The mapping of input section name prefixes to output section names.
- // In some cases one prefix is itself a prefix of another prefix; in
- // such a case the longer prefix must come first. These prefixes are
- // based on the GNU linker default ELF linker script.
- #define MAPPING_INIT(f, t) { f, sizeof(f) - 1, t, sizeof(t) - 1 }
- #define MAPPING_INIT_EXACT(f, t) { f, 0, t, sizeof(t) - 1 }
- const Layout::Section_name_mapping Layout::section_name_mapping[] =
- {
- MAPPING_INIT(".text.", ".text"),
- MAPPING_INIT(".rodata.", ".rodata"),
- MAPPING_INIT(".data.rel.ro.local.", ".data.rel.ro.local"),
- MAPPING_INIT_EXACT(".data.rel.ro.local", ".data.rel.ro.local"),
- MAPPING_INIT(".data.rel.ro.", ".data.rel.ro"),
- MAPPING_INIT_EXACT(".data.rel.ro", ".data.rel.ro"),
- MAPPING_INIT(".data.", ".data"),
- MAPPING_INIT(".bss.", ".bss"),
- MAPPING_INIT(".tdata.", ".tdata"),
- MAPPING_INIT(".tbss.", ".tbss"),
- MAPPING_INIT(".init_array.", ".init_array"),
- MAPPING_INIT(".fini_array.", ".fini_array"),
- MAPPING_INIT(".sdata.", ".sdata"),
- MAPPING_INIT(".sbss.", ".sbss"),
- // FIXME: In the GNU linker, .sbss2 and .sdata2 are handled
- // differently depending on whether it is creating a shared library.
- MAPPING_INIT(".sdata2.", ".sdata"),
- MAPPING_INIT(".sbss2.", ".sbss"),
- MAPPING_INIT(".lrodata.", ".lrodata"),
- MAPPING_INIT(".ldata.", ".ldata"),
- MAPPING_INIT(".lbss.", ".lbss"),
- MAPPING_INIT(".gcc_except_table.", ".gcc_except_table"),
- MAPPING_INIT(".gnu.linkonce.d.rel.ro.local.", ".data.rel.ro.local"),
- MAPPING_INIT(".gnu.linkonce.d.rel.ro.", ".data.rel.ro"),
- MAPPING_INIT(".gnu.linkonce.t.", ".text"),
- MAPPING_INIT(".gnu.linkonce.r.", ".rodata"),
- MAPPING_INIT(".gnu.linkonce.d.", ".data"),
- MAPPING_INIT(".gnu.linkonce.b.", ".bss"),
- MAPPING_INIT(".gnu.linkonce.s.", ".sdata"),
- MAPPING_INIT(".gnu.linkonce.sb.", ".sbss"),
- MAPPING_INIT(".gnu.linkonce.s2.", ".sdata"),
- MAPPING_INIT(".gnu.linkonce.sb2.", ".sbss"),
- MAPPING_INIT(".gnu.linkonce.wi.", ".debug_info"),
- MAPPING_INIT(".gnu.linkonce.td.", ".tdata"),
- MAPPING_INIT(".gnu.linkonce.tb.", ".tbss"),
- MAPPING_INIT(".gnu.linkonce.lr.", ".lrodata"),
- MAPPING_INIT(".gnu.linkonce.l.", ".ldata"),
- MAPPING_INIT(".gnu.linkonce.lb.", ".lbss"),
- MAPPING_INIT(".ARM.extab", ".ARM.extab"),
- MAPPING_INIT(".gnu.linkonce.armextab.", ".ARM.extab"),
- MAPPING_INIT(".ARM.exidx", ".ARM.exidx"),
- MAPPING_INIT(".gnu.linkonce.armexidx.", ".ARM.exidx"),
- MAPPING_INIT(".gnu.build.attributes.", ".gnu.build.attributes"),
- };
- // Mapping for ".text" section prefixes with -z,keep-text-section-prefix.
- const Layout::Section_name_mapping Layout::text_section_name_mapping[] =
- {
- MAPPING_INIT(".text.hot.", ".text.hot"),
- MAPPING_INIT_EXACT(".text.hot", ".text.hot"),
- MAPPING_INIT(".text.unlikely.", ".text.unlikely"),
- MAPPING_INIT_EXACT(".text.unlikely", ".text.unlikely"),
- MAPPING_INIT(".text.startup.", ".text.startup"),
- MAPPING_INIT_EXACT(".text.startup", ".text.startup"),
- MAPPING_INIT(".text.exit.", ".text.exit"),
- MAPPING_INIT_EXACT(".text.exit", ".text.exit"),
- MAPPING_INIT(".text.", ".text"),
- };
- #undef MAPPING_INIT
- #undef MAPPING_INIT_EXACT
- const int Layout::section_name_mapping_count =
- (sizeof(Layout::section_name_mapping)
- / sizeof(Layout::section_name_mapping[0]));
- const int Layout::text_section_name_mapping_count =
- (sizeof(Layout::text_section_name_mapping)
- / sizeof(Layout::text_section_name_mapping[0]));
- // Find section name NAME in PSNM and return the mapped name if found
- // with the length set in PLEN.
- const char *
- Layout::match_section_name(const Layout::Section_name_mapping* psnm,
- const int count,
- const char* name, size_t* plen)
- {
- for (int i = 0; i < count; ++i, ++psnm)
- {
- if (psnm->fromlen > 0)
- {
- if (strncmp(name, psnm->from, psnm->fromlen) == 0)
- {
- *plen = psnm->tolen;
- return psnm->to;
- }
- }
- else
- {
- if (strcmp(name, psnm->from) == 0)
- {
- *plen = psnm->tolen;
- return psnm->to;
- }
- }
- }
- return NULL;
- }
- // Choose the output section name to use given an input section name.
- // Set *PLEN to the length of the name. *PLEN is initialized to the
- // length of NAME.
- const char*
- Layout::output_section_name(const Relobj* relobj, const char* name,
- size_t* plen)
- {
- // gcc 4.3 generates the following sorts of section names when it
- // needs a section name specific to a function:
- // .text.FN
- // .rodata.FN
- // .sdata2.FN
- // .data.FN
- // .data.rel.FN
- // .data.rel.local.FN
- // .data.rel.ro.FN
- // .data.rel.ro.local.FN
- // .sdata.FN
- // .bss.FN
- // .sbss.FN
- // .tdata.FN
- // .tbss.FN
- // The GNU linker maps all of those to the part before the .FN,
- // except that .data.rel.local.FN is mapped to .data, and
- // .data.rel.ro.local.FN is mapped to .data.rel.ro. The sections
- // beginning with .data.rel.ro.local are grouped together.
- // For an anonymous namespace, the string FN can contain a '.'.
- // Also of interest: .rodata.strN.N, .rodata.cstN, both of which the
- // GNU linker maps to .rodata.
- // The .data.rel.ro sections are used with -z relro. The sections
- // are recognized by name. We use the same names that the GNU
- // linker does for these sections.
- // It is hard to handle this in a principled way, so we don't even
- // try. We use a table of mappings. If the input section name is
- // not found in the table, we simply use it as the output section
- // name.
- if (parameters->options().keep_text_section_prefix()
- && is_prefix_of(".text", name))
- {
- const char* match = match_section_name(text_section_name_mapping,
- text_section_name_mapping_count,
- name, plen);
- if (match != NULL)
- return match;
- }
- const char* match = match_section_name(section_name_mapping,
- section_name_mapping_count, name, plen);
- if (match != NULL)
- return match;
- // As an additional complication, .ctors sections are output in
- // either .ctors or .init_array sections, and .dtors sections are
- // output in either .dtors or .fini_array sections.
- if (is_prefix_of(".ctors.", name) || is_prefix_of(".dtors.", name))
- {
- if (parameters->options().ctors_in_init_array())
- {
- *plen = 11;
- return name[1] == 'c' ? ".init_array" : ".fini_array";
- }
- else
- {
- *plen = 6;
- return name[1] == 'c' ? ".ctors" : ".dtors";
- }
- }
- if (parameters->options().ctors_in_init_array()
- && (strcmp(name, ".ctors") == 0 || strcmp(name, ".dtors") == 0))
- {
- // To make .init_array/.fini_array work with gcc we must exclude
- // .ctors and .dtors sections from the crtbegin and crtend
- // files.
- if (relobj == NULL
- || (!Layout::match_file_name(relobj, "crtbegin")
- && !Layout::match_file_name(relobj, "crtend")))
- {
- *plen = 11;
- return name[1] == 'c' ? ".init_array" : ".fini_array";
- }
- }
- return name;
- }
- // Return true if RELOBJ is an input file whose base name matches
- // FILE_NAME. The base name must have an extension of ".o", and must
- // be exactly FILE_NAME.o or FILE_NAME, one character, ".o". This is
- // to match crtbegin.o as well as crtbeginS.o without getting confused
- // by other possibilities. Overall matching the file name this way is
- // a dreadful hack, but the GNU linker does it in order to better
- // support gcc, and we need to be compatible.
- bool
- Layout::match_file_name(const Relobj* relobj, const char* match)
- {
- const std::string& file_name(relobj->name());
- const char* base_name = lbasename(file_name.c_str());
- size_t match_len = strlen(match);
- if (strncmp(base_name, match, match_len) != 0)
- return false;
- size_t base_len = strlen(base_name);
- if (base_len != match_len + 2 && base_len != match_len + 3)
- return false;
- return memcmp(base_name + base_len - 2, ".o", 2) == 0;
- }
- // Check if a comdat group or .gnu.linkonce section with the given
- // NAME is selected for the link. If there is already a section,
- // *KEPT_SECTION is set to point to the existing section and the
- // function returns false. Otherwise, OBJECT, SHNDX, IS_COMDAT, and
- // IS_GROUP_NAME are recorded for this NAME in the layout object,
- // *KEPT_SECTION is set to the internal copy and the function returns
- // true.
- bool
- Layout::find_or_add_kept_section(const std::string& name,
- Relobj* object,
- unsigned int shndx,
- bool is_comdat,
- bool is_group_name,
- Kept_section** kept_section)
- {
- // It's normal to see a couple of entries here, for the x86 thunk
- // sections. If we see more than a few, we're linking a C++
- // program, and we resize to get more space to minimize rehashing.
- if (this->signatures_.size() > 4
- && !this->resized_signatures_)
- {
- reserve_unordered_map(&this->signatures_,
- this->number_of_input_files_ * 64);
- this->resized_signatures_ = true;
- }
- Kept_section candidate;
- std::pair<Signatures::iterator, bool> ins =
- this->signatures_.insert(std::make_pair(name, candidate));
- if (kept_section != NULL)
- *kept_section = &ins.first->second;
- if (ins.second)
- {
- // This is the first time we've seen this signature.
- ins.first->second.set_object(object);
- ins.first->second.set_shndx(shndx);
- if (is_comdat)
- ins.first->second.set_is_comdat();
- if (is_group_name)
- ins.first->second.set_is_group_name();
- return true;
- }
- // We have already seen this signature.
- if (ins.first->second.is_group_name())
- {
- // We've already seen a real section group with this signature.
- // If the kept group is from a plugin object, and we're in the
- // replacement phase, accept the new one as a replacement.
- if (ins.first->second.object() == NULL
- && parameters->options().plugins()->in_replacement_phase())
- {
- ins.first->second.set_object(object);
- ins.first->second.set_shndx(shndx);
- return true;
- }
- return false;
- }
- else if (is_group_name)
- {
- // This is a real section group, and we've already seen a
- // linkonce section with this signature. Record that we've seen
- // a section group, and don't include this section group.
- ins.first->second.set_is_group_name();
- return false;
- }
- else
- {
- // We've already seen a linkonce section and this is a linkonce
- // section. These don't block each other--this may be the same
- // symbol name with different section types.
- return true;
- }
- }
- // Store the allocated sections into the section list.
- void
- Layout::get_allocated_sections(Section_list* section_list) const
- {
- for (Section_list::const_iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- if (((*p)->flags() & elfcpp::SHF_ALLOC) != 0)
- section_list->push_back(*p);
- }
- // Store the executable sections into the section list.
- void
- Layout::get_executable_sections(Section_list* section_list) const
- {
- for (Section_list::const_iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- if (((*p)->flags() & (elfcpp::SHF_ALLOC | elfcpp::SHF_EXECINSTR))
- == (elfcpp::SHF_ALLOC | elfcpp::SHF_EXECINSTR))
- section_list->push_back(*p);
- }
- // Create an output segment.
- Output_segment*
- Layout::make_output_segment(elfcpp::Elf_Word type, elfcpp::Elf_Word flags)
- {
- gold_assert(!parameters->options().relocatable());
- Output_segment* oseg = new Output_segment(type, flags);
- this->segment_list_.push_back(oseg);
- if (type == elfcpp::PT_TLS)
- this->tls_segment_ = oseg;
- else if (type == elfcpp::PT_GNU_RELRO)
- this->relro_segment_ = oseg;
- else if (type == elfcpp::PT_INTERP)
- this->interp_segment_ = oseg;
- return oseg;
- }
- // Return the file offset of the normal symbol table.
- off_t
- Layout::symtab_section_offset() const
- {
- if (this->symtab_section_ != NULL)
- return this->symtab_section_->offset();
- return 0;
- }
- // Return the section index of the normal symbol table. It may have
- // been stripped by the -s/--strip-all option.
- unsigned int
- Layout::symtab_section_shndx() const
- {
- if (this->symtab_section_ != NULL)
- return this->symtab_section_->out_shndx();
- return 0;
- }
- // Write out the Output_sections. Most won't have anything to write,
- // since most of the data will come from input sections which are
- // handled elsewhere. But some Output_sections do have Output_data.
- void
- Layout::write_output_sections(Output_file* of) const
- {
- for (Section_list::const_iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- {
- if (!(*p)->after_input_sections())
- (*p)->write(of);
- }
- }
- // Write out data not associated with a section or the symbol table.
- void
- Layout::write_data(const Symbol_table* symtab, Output_file* of) const
- {
- if (!parameters->options().strip_all())
- {
- const Output_section* symtab_section = this->symtab_section_;
- for (Section_list::const_iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- {
- if ((*p)->needs_symtab_index())
- {
- gold_assert(symtab_section != NULL);
- unsigned int index = (*p)->symtab_index();
- gold_assert(index > 0 && index != -1U);
- off_t off = (symtab_section->offset()
- + index * symtab_section->entsize());
- symtab->write_section_symbol(*p, this->symtab_xindex_, of, off);
- }
- }
- }
- const Output_section* dynsym_section = this->dynsym_section_;
- for (Section_list::const_iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- {
- if ((*p)->needs_dynsym_index())
- {
- gold_assert(dynsym_section != NULL);
- unsigned int index = (*p)->dynsym_index();
- gold_assert(index > 0 && index != -1U);
- off_t off = (dynsym_section->offset()
- + index * dynsym_section->entsize());
- symtab->write_section_symbol(*p, this->dynsym_xindex_, of, off);
- }
- }
- // Write out the Output_data which are not in an Output_section.
- for (Data_list::const_iterator p = this->special_output_list_.begin();
- p != this->special_output_list_.end();
- ++p)
- (*p)->write(of);
- // Write out the Output_data which are not in an Output_section
- // and are regenerated in each iteration of relaxation.
- for (Data_list::const_iterator p = this->relax_output_list_.begin();
- p != this->relax_output_list_.end();
- ++p)
- (*p)->write(of);
- }
- // Write out the Output_sections which can only be written after the
- // input sections are complete.
- void
- Layout::write_sections_after_input_sections(Output_file* of)
- {
- // Determine the final section offsets, and thus the final output
- // file size. Note we finalize the .shstrab last, to allow the
- // after_input_section sections to modify their section-names before
- // writing.
- if (this->any_postprocessing_sections_)
- {
- off_t off = this->output_file_size_;
- off = this->set_section_offsets(off, POSTPROCESSING_SECTIONS_PASS);
- // Now that we've finalized the names, we can finalize the shstrab.
- off =
- this->set_section_offsets(off,
- STRTAB_AFTER_POSTPROCESSING_SECTIONS_PASS);
- if (off > this->output_file_size_)
- {
- of->resize(off);
- this->output_file_size_ = off;
- }
- }
- for (Section_list::const_iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- {
- if ((*p)->after_input_sections())
- (*p)->write(of);
- }
- this->section_headers_->write(of);
- }
- // If a tree-style build ID was requested, the parallel part of that computation
- // is already done, and the final hash-of-hashes is computed here. For other
- // types of build IDs, all the work is done here.
- void
- Layout::write_build_id(Output_file* of, unsigned char* array_of_hashes,
- size_t size_of_hashes) const
- {
- if (this->build_id_note_ == NULL)
- return;
- unsigned char* ov = of->get_output_view(this->build_id_note_->offset(),
- this->build_id_note_->data_size());
- if (array_of_hashes == NULL)
- {
- const size_t output_file_size = this->output_file_size();
- const unsigned char* iv = of->get_input_view(0, output_file_size);
- const char* style = parameters->options().build_id();
- // If we get here with style == "tree" then the output must be
- // too small for chunking, and we use SHA-1 in that case.
- if ((strcmp(style, "sha1") == 0) || (strcmp(style, "tree") == 0))
- sha1_buffer(reinterpret_cast<const char*>(iv), output_file_size, ov);
- else if (strcmp(style, "md5") == 0)
- md5_buffer(reinterpret_cast<const char*>(iv), output_file_size, ov);
- else
- gold_unreachable();
- of->free_input_view(0, output_file_size, iv);
- }
- else
- {
- // Non-overlapping substrings of the output file have been hashed.
- // Compute SHA-1 hash of the hashes.
- sha1_buffer(reinterpret_cast<const char*>(array_of_hashes),
- size_of_hashes, ov);
- delete[] array_of_hashes;
- }
- of->write_output_view(this->build_id_note_->offset(),
- this->build_id_note_->data_size(),
- ov);
- }
- // Write out a binary file. This is called after the link is
- // complete. IN is the temporary output file we used to generate the
- // ELF code. We simply walk through the segments, read them from
- // their file offset in IN, and write them to their load address in
- // the output file. FIXME: with a bit more work, we could support
- // S-records and/or Intel hex format here.
- void
- Layout::write_binary(Output_file* in) const
- {
- gold_assert(parameters->options().oformat_enum()
- == General_options::OBJECT_FORMAT_BINARY);
- // Get the size of the binary file.
- uint64_t max_load_address = 0;
- for (Segment_list::const_iterator p = this->segment_list_.begin();
- p != this->segment_list_.end();
- ++p)
- {
- if ((*p)->type() == elfcpp::PT_LOAD && (*p)->filesz() > 0)
- {
- uint64_t max_paddr = (*p)->paddr() + (*p)->filesz();
- if (max_paddr > max_load_address)
- max_load_address = max_paddr;
- }
- }
- Output_file out(parameters->options().output_file_name());
- out.open(max_load_address);
- for (Segment_list::const_iterator p = this->segment_list_.begin();
- p != this->segment_list_.end();
- ++p)
- {
- if ((*p)->type() == elfcpp::PT_LOAD && (*p)->filesz() > 0)
- {
- const unsigned char* vin = in->get_input_view((*p)->offset(),
- (*p)->filesz());
- unsigned char* vout = out.get_output_view((*p)->paddr(),
- (*p)->filesz());
- memcpy(vout, vin, (*p)->filesz());
- out.write_output_view((*p)->paddr(), (*p)->filesz(), vout);
- in->free_input_view((*p)->offset(), (*p)->filesz(), vin);
- }
- }
- out.close();
- }
- // Print the output sections to the map file.
- void
- Layout::print_to_mapfile(Mapfile* mapfile) const
- {
- for (Segment_list::const_iterator p = this->segment_list_.begin();
- p != this->segment_list_.end();
- ++p)
- (*p)->print_sections_to_mapfile(mapfile);
- for (Section_list::const_iterator p = this->unattached_section_list_.begin();
- p != this->unattached_section_list_.end();
- ++p)
- (*p)->print_to_mapfile(mapfile);
- }
- // Print statistical information to stderr. This is used for --stats.
- void
- Layout::print_stats() const
- {
- this->namepool_.print_stats("section name pool");
- this->sympool_.print_stats("output symbol name pool");
- this->dynpool_.print_stats("dynamic name pool");
- for (Section_list::const_iterator p = this->section_list_.begin();
- p != this->section_list_.end();
- ++p)
- (*p)->print_merge_stats();
- }
- // Write_sections_task methods.
- // We can always run this task.
- Task_token*
- Write_sections_task::is_runnable()
- {
- return NULL;
- }
- // We need to unlock both OUTPUT_SECTIONS_BLOCKER and FINAL_BLOCKER
- // when finished.
- void
- Write_sections_task::locks(Task_locker* tl)
- {
- tl->add(this, this->output_sections_blocker_);
- if (this->input_sections_blocker_ != NULL)
- tl->add(this, this->input_sections_blocker_);
- tl->add(this, this->final_blocker_);
- }
- // Run the task--write out the data.
- void
- Write_sections_task::run(Workqueue*)
- {
- this->layout_->write_output_sections(this->of_);
- }
- // Write_data_task methods.
- // We can always run this task.
- Task_token*
- Write_data_task::is_runnable()
- {
- return NULL;
- }
- // We need to unlock FINAL_BLOCKER when finished.
- void
- Write_data_task::locks(Task_locker* tl)
- {
- tl->add(this, this->final_blocker_);
- }
- // Run the task--write out the data.
- void
- Write_data_task::run(Workqueue*)
- {
- this->layout_->write_data(this->symtab_, this->of_);
- }
- // Write_symbols_task methods.
- // We can always run this task.
- Task_token*
- Write_symbols_task::is_runnable()
- {
- return NULL;
- }
- // We need to unlock FINAL_BLOCKER when finished.
- void
- Write_symbols_task::locks(Task_locker* tl)
- {
- tl->add(this, this->final_blocker_);
- }
- // Run the task--write out the symbols.
- void
- Write_symbols_task::run(Workqueue*)
- {
- this->symtab_->write_globals(this->sympool_, this->dynpool_,
- this->layout_->symtab_xindex(),
- this->layout_->dynsym_xindex(), this->of_);
- }
- // Write_after_input_sections_task methods.
- // We can only run this task after the input sections have completed.
- Task_token*
- Write_after_input_sections_task::is_runnable()
- {
- if (this->input_sections_blocker_->is_blocked())
- return this->input_sections_blocker_;
- return NULL;
- }
- // We need to unlock FINAL_BLOCKER when finished.
- void
- Write_after_input_sections_task::locks(Task_locker* tl)
- {
- tl->add(this, this->final_blocker_);
- }
- // Run the task.
- void
- Write_after_input_sections_task::run(Workqueue*)
- {
- this->layout_->write_sections_after_input_sections(this->of_);
- }
- // Build IDs can be computed as a "flat" sha1 or md5 of a string of bytes,
- // or as a "tree" where each chunk of the string is hashed and then those
- // hashes are put into a (much smaller) string which is hashed with sha1.
- // We compute a checksum over the entire file because that is simplest.
- void
- Build_id_task_runner::run(Workqueue* workqueue, const Task*)
- {
- Task_token* post_hash_tasks_blocker = new Task_token(true);
- const Layout* layout = this->layout_;
- Output_file* of = this->of_;
- const size_t filesize = (layout->output_file_size() <= 0 ? 0
- : static_cast<size_t>(layout->output_file_size()));
- unsigned char* array_of_hashes = NULL;
- size_t size_of_hashes = 0;
- if (strcmp(this->options_->build_id(), "tree") == 0
- && this->options_->build_id_chunk_size_for_treehash() > 0
- && filesize > 0
- && (filesize >= this->options_->build_id_min_file_size_for_treehash()))
- {
- static const size_t MD5_OUTPUT_SIZE_IN_BYTES = 16;
- const size_t chunk_size =
- this->options_->build_id_chunk_size_for_treehash();
- const size_t num_hashes = ((filesize - 1) / chunk_size) + 1;
- post_hash_tasks_blocker->add_blockers(num_hashes);
- size_of_hashes = num_hashes * MD5_OUTPUT_SIZE_IN_BYTES;
- array_of_hashes = new unsigned char[size_of_hashes];
- unsigned char *dst = array_of_hashes;
- for (size_t i = 0, src_offset = 0; i < num_hashes;
- i++, dst += MD5_OUTPUT_SIZE_IN_BYTES, src_offset += chunk_size)
- {
- size_t size = std::min(chunk_size, filesize - src_offset);
- workqueue->queue(new Hash_task(of,
- src_offset,
- size,
- dst,
- post_hash_tasks_blocker));
- }
- }
- // Queue the final task to write the build id and close the output file.
- workqueue->queue(new Task_function(new Close_task_runner(this->options_,
- layout,
- of,
- array_of_hashes,
- size_of_hashes),
- post_hash_tasks_blocker,
- "Task_function Close_task_runner"));
- }
- // Close_task_runner methods.
- // Finish up the build ID computation, if necessary, and write a binary file,
- // if necessary. Then close the output file.
- void
- Close_task_runner::run(Workqueue*, const Task*)
- {
- // At this point the multi-threaded part of the build ID computation,
- // if any, is done. See Build_id_task_runner.
- this->layout_->write_build_id(this->of_, this->array_of_hashes_,
- this->size_of_hashes_);
- // If we've been asked to create a binary file, we do so here.
- if (this->options_->oformat_enum() != General_options::OBJECT_FORMAT_ELF)
- this->layout_->write_binary(this->of_);
- if (this->options_->dependency_file())
- File_read::write_dependency_file(this->options_->dependency_file(),
- this->options_->output_file_name());
- this->of_->close();
- }
- // Instantiate the templates we need. We could use the configure
- // script to restrict this to only the ones for implemented targets.
- #ifdef HAVE_TARGET_32_LITTLE
- template
- Output_section*
- Layout::init_fixed_output_section<32, false>(
- const char* name,
- elfcpp::Shdr<32, false>& shdr);
- #endif
- #ifdef HAVE_TARGET_32_BIG
- template
- Output_section*
- Layout::init_fixed_output_section<32, true>(
- const char* name,
- elfcpp::Shdr<32, true>& shdr);
- #endif
- #ifdef HAVE_TARGET_64_LITTLE
- template
- Output_section*
- Layout::init_fixed_output_section<64, false>(
- const char* name,
- elfcpp::Shdr<64, false>& shdr);
- #endif
- #ifdef HAVE_TARGET_64_BIG
- template
- Output_section*
- Layout::init_fixed_output_section<64, true>(
- const char* name,
- elfcpp::Shdr<64, true>& shdr);
- #endif
- #ifdef HAVE_TARGET_32_LITTLE
- template
- Output_section*
- Layout::layout<32, false>(Sized_relobj_file<32, false>* object,
- unsigned int shndx,
- const char* name,
- const elfcpp::Shdr<32, false>& shdr,
- unsigned int, unsigned int, unsigned int, off_t*);
- #endif
- #ifdef HAVE_TARGET_32_BIG
- template
- Output_section*
- Layout::layout<32, true>(Sized_relobj_file<32, true>* object,
- unsigned int shndx,
- const char* name,
- const elfcpp::Shdr<32, true>& shdr,
- unsigned int, unsigned int, unsigned int, off_t*);
- #endif
- #ifdef HAVE_TARGET_64_LITTLE
- template
- Output_section*
- Layout::layout<64, false>(Sized_relobj_file<64, false>* object,
- unsigned int shndx,
- const char* name,
- const elfcpp::Shdr<64, false>& shdr,
- unsigned int, unsigned int, unsigned int, off_t*);
- #endif
- #ifdef HAVE_TARGET_64_BIG
- template
- Output_section*
- Layout::layout<64, true>(Sized_relobj_file<64, true>* object,
- unsigned int shndx,
- const char* name,
- const elfcpp::Shdr<64, true>& shdr,
- unsigned int, unsigned int, unsigned int, off_t*);
- #endif
- #ifdef HAVE_TARGET_32_LITTLE
- template
- Output_section*
- Layout::layout_reloc<32, false>(Sized_relobj_file<32, false>* object,
- unsigned int reloc_shndx,
- const elfcpp::Shdr<32, false>& shdr,
- Output_section* data_section,
- Relocatable_relocs* rr);
- #endif
- #ifdef HAVE_TARGET_32_BIG
- template
- Output_section*
- Layout::layout_reloc<32, true>(Sized_relobj_file<32, true>* object,
- unsigned int reloc_shndx,
- const elfcpp::Shdr<32, true>& shdr,
- Output_section* data_section,
- Relocatable_relocs* rr);
- #endif
- #ifdef HAVE_TARGET_64_LITTLE
- template
- Output_section*
- Layout::layout_reloc<64, false>(Sized_relobj_file<64, false>* object,
- unsigned int reloc_shndx,
- const elfcpp::Shdr<64, false>& shdr,
- Output_section* data_section,
- Relocatable_relocs* rr);
- #endif
- #ifdef HAVE_TARGET_64_BIG
- template
- Output_section*
- Layout::layout_reloc<64, true>(Sized_relobj_file<64, true>* object,
- unsigned int reloc_shndx,
- const elfcpp::Shdr<64, true>& shdr,
- Output_section* data_section,
- Relocatable_relocs* rr);
- #endif
- #ifdef HAVE_TARGET_32_LITTLE
- template
- void
- Layout::layout_group<32, false>(Symbol_table* symtab,
- Sized_relobj_file<32, false>* object,
- unsigned int,
- const char* group_section_name,
- const char* signature,
- const elfcpp::Shdr<32, false>& shdr,
- elfcpp::Elf_Word flags,
- std::vector<unsigned int>* shndxes);
- #endif
- #ifdef HAVE_TARGET_32_BIG
- template
- void
- Layout::layout_group<32, true>(Symbol_table* symtab,
- Sized_relobj_file<32, true>* object,
- unsigned int,
- const char* group_section_name,
- const char* signature,
- const elfcpp::Shdr<32, true>& shdr,
- elfcpp::Elf_Word flags,
- std::vector<unsigned int>* shndxes);
- #endif
- #ifdef HAVE_TARGET_64_LITTLE
- template
- void
- Layout::layout_group<64, false>(Symbol_table* symtab,
- Sized_relobj_file<64, false>* object,
- unsigned int,
- const char* group_section_name,
- const char* signature,
- const elfcpp::Shdr<64, false>& shdr,
- elfcpp::Elf_Word flags,
- std::vector<unsigned int>* shndxes);
- #endif
- #ifdef HAVE_TARGET_64_BIG
- template
- void
- Layout::layout_group<64, true>(Symbol_table* symtab,
- Sized_relobj_file<64, true>* object,
- unsigned int,
- const char* group_section_name,
- const char* signature,
- const elfcpp::Shdr<64, true>& shdr,
- elfcpp::Elf_Word flags,
- std::vector<unsigned int>* shndxes);
- #endif
- #ifdef HAVE_TARGET_32_LITTLE
- template
- Output_section*
- Layout::layout_eh_frame<32, false>(Sized_relobj_file<32, false>* object,
- const unsigned char* symbols,
- off_t symbols_size,
- const unsigned char* symbol_names,
- off_t symbol_names_size,
- unsigned int shndx,
- const elfcpp::Shdr<32, false>& shdr,
- unsigned int reloc_shndx,
- unsigned int reloc_type,
- off_t* off);
- #endif
- #ifdef HAVE_TARGET_32_BIG
- template
- Output_section*
- Layout::layout_eh_frame<32, true>(Sized_relobj_file<32, true>* object,
- const unsigned char* symbols,
- off_t symbols_size,
- const unsigned char* symbol_names,
- off_t symbol_names_size,
- unsigned int shndx,
- const elfcpp::Shdr<32, true>& shdr,
- unsigned int reloc_shndx,
- unsigned int reloc_type,
- off_t* off);
- #endif
- #ifdef HAVE_TARGET_64_LITTLE
- template
- Output_section*
- Layout::layout_eh_frame<64, false>(Sized_relobj_file<64, false>* object,
- const unsigned char* symbols,
- off_t symbols_size,
- const unsigned char* symbol_names,
- off_t symbol_names_size,
- unsigned int shndx,
- const elfcpp::Shdr<64, false>& shdr,
- unsigned int reloc_shndx,
- unsigned int reloc_type,
- off_t* off);
- #endif
- #ifdef HAVE_TARGET_64_BIG
- template
- Output_section*
- Layout::layout_eh_frame<64, true>(Sized_relobj_file<64, true>* object,
- const unsigned char* symbols,
- off_t symbols_size,
- const unsigned char* symbol_names,
- off_t symbol_names_size,
- unsigned int shndx,
- const elfcpp::Shdr<64, true>& shdr,
- unsigned int reloc_shndx,
- unsigned int reloc_type,
- off_t* off);
- #endif
- #ifdef HAVE_TARGET_32_LITTLE
- template
- void
- Layout::add_to_gdb_index(bool is_type_unit,
- Sized_relobj<32, false>* object,
- const unsigned char* symbols,
- off_t symbols_size,
- unsigned int shndx,
- unsigned int reloc_shndx,
- unsigned int reloc_type);
- #endif
- #ifdef HAVE_TARGET_32_BIG
- template
- void
- Layout::add_to_gdb_index(bool is_type_unit,
- Sized_relobj<32, true>* object,
- const unsigned char* symbols,
- off_t symbols_size,
- unsigned int shndx,
- unsigned int reloc_shndx,
- unsigned int reloc_type);
- #endif
- #ifdef HAVE_TARGET_64_LITTLE
- template
- void
- Layout::add_to_gdb_index(bool is_type_unit,
- Sized_relobj<64, false>* object,
- const unsigned char* symbols,
- off_t symbols_size,
- unsigned int shndx,
- unsigned int reloc_shndx,
- unsigned int reloc_type);
- #endif
- #ifdef HAVE_TARGET_64_BIG
- template
- void
- Layout::add_to_gdb_index(bool is_type_unit,
- Sized_relobj<64, true>* object,
- const unsigned char* symbols,
- off_t symbols_size,
- unsigned int shndx,
- unsigned int reloc_shndx,
- unsigned int reloc_type);
- #endif
- } // End namespace gold.
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