8a5e3e08a6
Target::new_output_section. (Layout::attach_allocated_section_to_segment): Put large section sections in a separate load segment with the large segment flag set. (Layout::segment_precedes): Sort large data segments after other load segments. (align_file_offset): New static function. (Layout::set_segment_offsets): Use align_file_offset. * output.h (class Output_section): Add is_small_section_ and is_large_section_ fields. (Output_section::is_small_section): New function. (Output_section::set_is_small_section): New function. (Output_section::is_large_section): New function. (Output_section::set_is_large_section): New function. (Output_section::is_large_data_section): New function. (class Output_segment): Add is_large_data_segment_ field. (Output_segment::is_large_data_segment): New function. (Output_segment::set_is_large_data_segment): New function. * output.cc (Output_section::Output_section): Initialize new fields. (Output_segment::Output_segment): Likewise. (Output_segment::add_output_section): Add assertion that large data sections always go in large data segments. Force small data sections to the end of the list of data sections. Force small BSS sections to the start of the list of BSS sections. For large BSS sections to the end of the list of BSS sections. * symtab.h (class Symbol): Declare is_common_shndx. (Symbol::is_defined): Check Symbol::is_common_shndx. (Symbol::is_common): Likewise. (class Symbol_table): Define enum Commons_section_type. Update declarations. Add small_commons_ and large_commons_ fields. * symtab.cc (Symbol::is_common_shndx): New function. (Symbol_table::Symbol_table): Initialize new fields. (Symbol_table::add_from_object): Put small and large common symbols in the right list. (Symbol_table::sized_finalized_symbol): Check Symbol::is_common_shndx. (Symbol_table::sized_write_globals): Likewise. * common.cc (Symbol_table::do_allocate_commons): Allocate new common symbol lists. Don't call do_allocate_commons_list if the list is empty. (Symbol_table::do_allocate_commons_list): Remove is_tls parameter. Add comons_section_type parameter. Change all callers. Handle small and large common symbols. * object.cc (Sized_relobj::do_finalize_local_symbols): Check Symbol::is_common_shndx. * resolve.cc (symbol_to_bits): Likewise. * target.h (Target::small_common_shndx): New function. (Target::small_common_section_flags): New function. (Target::large_common_shndx): New function. (Target::large_common_section_flags): New function. (Target::new_output_section): New function. (Target::Target_info): Add small_common_shndx, large_common_shndx, small_common_section_flags, and large_common_section_flags fields. (Target::do_new_output_section): New virtual function. * arm.cc (Target_arm::arm_info): Initialize new fields. * i386.cc (Target_i386::i386_info): Likewise. * powerpc.cc (Target_powerpc::powerpc_info) [all versions]: Likewise. * sparc.c (Target_sparc::sparc_info) [all versions]: Likewise. * x86_64.cc (Target_x86_64::x86_64_info): Likewise. (Target_x86_64::do_new_output_section): New function. * configure.ac: Define conditional MCMODEL_MEDIUM. * testsuite/Makefile.am (check_PROGRAMS): Add large. (large_SOURCES, large_CFLAGS, large_DEPENDENCIES): Define. (large_LDFLAGS): Define. * testsuite/large.c: New file. * testsuite/testfile.cc (Target_test::test_target_info): Initialize new fields. * configure, testsuite/Makefile.in: Rebuild.
452 lines
15 KiB
C++
452 lines
15 KiB
C++
// target.h -- target support for gold -*- C++ -*-
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// Copyright 2006, 2007, 2008, 2009 Free Software Foundation, Inc.
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// Written by Ian Lance Taylor <iant@google.com>.
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// This file is part of gold.
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// This program is free software; you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation; either version 3 of the License, or
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// (at your option) any later version.
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License
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// along with this program; if not, write to the Free Software
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// Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
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// MA 02110-1301, USA.
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// The abstract class Target is the interface for target specific
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// support. It defines abstract methods which each target must
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// implement. Typically there will be one target per processor, but
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// in some cases it may be necessary to have subclasses.
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// For speed and consistency we want to use inline functions to handle
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// relocation processing. So besides implementations of the abstract
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// methods, each target is expected to define a template
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// specialization of the relocation functions.
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#ifndef GOLD_TARGET_H
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#define GOLD_TARGET_H
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#include "elfcpp.h"
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#include "options.h"
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#include "parameters.h"
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namespace gold
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{
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class General_options;
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class Object;
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template<int size, bool big_endian>
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class Sized_relobj;
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class Relocatable_relocs;
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template<int size, bool big_endian>
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class Relocate_info;
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class Symbol;
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template<int size>
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class Sized_symbol;
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class Symbol_table;
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class Output_section;
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// The abstract class for target specific handling.
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class Target
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{
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public:
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virtual ~Target()
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{ }
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// Return the bit size that this target implements. This should
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// return 32 or 64.
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int
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get_size() const
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{ return this->pti_->size; }
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// Return whether this target is big-endian.
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bool
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is_big_endian() const
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{ return this->pti_->is_big_endian; }
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// Machine code to store in e_machine field of ELF header.
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elfcpp::EM
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machine_code() const
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{ return this->pti_->machine_code; }
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// Whether this target has a specific make_symbol function.
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bool
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has_make_symbol() const
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{ return this->pti_->has_make_symbol; }
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// Whether this target has a specific resolve function.
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bool
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has_resolve() const
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{ return this->pti_->has_resolve; }
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// Whether this target has a specific code fill function.
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bool
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has_code_fill() const
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{ return this->pti_->has_code_fill; }
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// Return the default name of the dynamic linker.
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const char*
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dynamic_linker() const
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{ return this->pti_->dynamic_linker; }
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// Return the default address to use for the text segment.
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uint64_t
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default_text_segment_address() const
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{ return this->pti_->default_text_segment_address; }
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// Return the ABI specified page size.
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uint64_t
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abi_pagesize() const
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{
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if (parameters->options().max_page_size() > 0)
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return parameters->options().max_page_size();
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else
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return this->pti_->abi_pagesize;
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}
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// Return the common page size used on actual systems.
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uint64_t
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common_pagesize() const
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{
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if (parameters->options().common_page_size() > 0)
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return std::min(parameters->options().common_page_size(),
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this->abi_pagesize());
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else
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return std::min(this->pti_->common_pagesize,
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this->abi_pagesize());
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}
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// If we see some object files with .note.GNU-stack sections, and
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// some objects files without them, this returns whether we should
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// consider the object files without them to imply that the stack
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// should be executable.
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bool
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is_default_stack_executable() const
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{ return this->pti_->is_default_stack_executable; }
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// Return a character which may appear as a prefix for a wrap
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// symbol. If this character appears, we strip it when checking for
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// wrapping and add it back when forming the final symbol name.
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// This should be '\0' if not special prefix is required, which is
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// the normal case.
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char
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wrap_char() const
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{ return this->pti_->wrap_char; }
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// Return the special section index which indicates a small common
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// symbol. This will return SHN_UNDEF if there are no small common
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// symbols.
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elfcpp::Elf_Half
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small_common_shndx() const
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{ return this->pti_->small_common_shndx; }
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// Return values to add to the section flags for the section holding
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// small common symbols.
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elfcpp::Elf_Xword
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small_common_section_flags() const
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{
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gold_assert(this->pti_->small_common_shndx != elfcpp::SHN_UNDEF);
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return this->pti_->small_common_section_flags;
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}
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// Return the special section index which indicates a large common
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// symbol. This will return SHN_UNDEF if there are no large common
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// symbols.
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elfcpp::Elf_Half
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large_common_shndx() const
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{ return this->pti_->large_common_shndx; }
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// Return values to add to the section flags for the section holding
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// large common symbols.
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elfcpp::Elf_Xword
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large_common_section_flags() const
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{
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gold_assert(this->pti_->large_common_shndx != elfcpp::SHN_UNDEF);
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return this->pti_->large_common_section_flags;
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}
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// This hook is called when an output section is created.
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void
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new_output_section(Output_section* os) const
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{ this->do_new_output_section(os); }
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// This is called to tell the target to complete any sections it is
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// handling. After this all sections must have their final size.
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void
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finalize_sections(Layout* layout)
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{ return this->do_finalize_sections(layout); }
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// Return the value to use for a global symbol which needs a special
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// value in the dynamic symbol table. This will only be called if
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// the backend first calls symbol->set_needs_dynsym_value().
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uint64_t
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dynsym_value(const Symbol* sym) const
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{ return this->do_dynsym_value(sym); }
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// Return a string to use to fill out a code section. This is
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// basically one or more NOPS which must fill out the specified
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// length in bytes.
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std::string
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code_fill(section_size_type length) const
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{ return this->do_code_fill(length); }
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// Return whether SYM is known to be defined by the ABI. This is
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// used to avoid inappropriate warnings about undefined symbols.
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bool
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is_defined_by_abi(const Symbol* sym) const
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{ return this->do_is_defined_by_abi(sym); }
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// Adjust the output file header before it is written out. VIEW
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// points to the header in external form. LEN is the length.
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void
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adjust_elf_header(unsigned char* view, int len) const
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{ return this->do_adjust_elf_header(view, len); }
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// Return whether NAME is a local label name. This is used to implement the
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// --discard-locals options.
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bool
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is_local_label_name(const char* name) const
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{ return this->do_is_local_label_name(name); }
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protected:
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// This struct holds the constant information for a child class. We
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// use a struct to avoid the overhead of virtual function calls for
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// simple information.
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struct Target_info
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{
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// Address size (32 or 64).
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int size;
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// Whether the target is big endian.
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bool is_big_endian;
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// The code to store in the e_machine field of the ELF header.
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elfcpp::EM machine_code;
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// Whether this target has a specific make_symbol function.
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bool has_make_symbol;
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// Whether this target has a specific resolve function.
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bool has_resolve;
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// Whether this target has a specific code fill function.
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bool has_code_fill;
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// Whether an object file with no .note.GNU-stack sections implies
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// that the stack should be executable.
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bool is_default_stack_executable;
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// Prefix character to strip when checking for wrapping.
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char wrap_char;
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// The default dynamic linker name.
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const char* dynamic_linker;
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// The default text segment address.
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uint64_t default_text_segment_address;
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// The ABI specified page size.
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uint64_t abi_pagesize;
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// The common page size used by actual implementations.
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uint64_t common_pagesize;
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// The special section index for small common symbols; SHN_UNDEF
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// if none.
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elfcpp::Elf_Half small_common_shndx;
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// The special section index for large common symbols; SHN_UNDEF
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// if none.
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elfcpp::Elf_Half large_common_shndx;
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// Section flags for small common section.
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elfcpp::Elf_Xword small_common_section_flags;
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// Section flags for large common section.
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elfcpp::Elf_Xword large_common_section_flags;
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};
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Target(const Target_info* pti)
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: pti_(pti)
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{ }
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// Virtual function which may be implemented by the child class.
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virtual void
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do_new_output_section(Output_section*) const
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{ }
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// Virtual function which may be implemented by the child class.
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virtual void
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do_finalize_sections(Layout*)
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{ }
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// Virtual function which may be implemented by the child class.
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virtual uint64_t
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do_dynsym_value(const Symbol*) const
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{ gold_unreachable(); }
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// Virtual function which must be implemented by the child class if
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// needed.
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virtual std::string
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do_code_fill(section_size_type) const
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{ gold_unreachable(); }
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// Virtual function which may be implemented by the child class.
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virtual bool
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do_is_defined_by_abi(const Symbol*) const
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{ return false; }
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// Adjust the output file header before it is written out. VIEW
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// points to the header in external form. LEN is the length, and
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// will be one of the values of elfcpp::Elf_sizes<size>::ehdr_size.
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// By default, we do nothing.
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virtual void
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do_adjust_elf_header(unsigned char*, int) const
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{ }
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// Virtual function which may be overriden by the child class.
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virtual bool
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do_is_local_label_name(const char*) const;
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private:
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Target(const Target&);
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Target& operator=(const Target&);
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// The target information.
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const Target_info* pti_;
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};
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// The abstract class for a specific size and endianness of target.
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// Each actual target implementation class should derive from an
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// instantiation of Sized_target.
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template<int size, bool big_endian>
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class Sized_target : public Target
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{
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public:
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// Make a new symbol table entry for the target. This should be
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// overridden by a target which needs additional information in the
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// symbol table. This will only be called if has_make_symbol()
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// returns true.
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virtual Sized_symbol<size>*
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make_symbol() const
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{ gold_unreachable(); }
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// Resolve a symbol for the target. This should be overridden by a
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// target which needs to take special action. TO is the
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// pre-existing symbol. SYM is the new symbol, seen in OBJECT.
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// VERSION is the version of SYM. This will only be called if
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// has_resolve() returns true.
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virtual void
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resolve(Symbol*, const elfcpp::Sym<size, big_endian>&, Object*,
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const char*)
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{ gold_unreachable(); }
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// Process the relocs for a section, and record information of the
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// mapping from source to destination sections. This mapping is later
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// used to determine unreferenced garbage sections. This procedure is
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// only called during garbage collection.
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virtual void
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gc_process_relocs(const General_options& options,
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Symbol_table* symtab,
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Layout* layout,
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Sized_relobj<size, big_endian>* object,
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unsigned int data_shndx,
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unsigned int sh_type,
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const unsigned char* prelocs,
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size_t reloc_count,
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Output_section* output_section,
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bool needs_special_offset_handling,
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size_t local_symbol_count,
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const unsigned char* plocal_symbols) = 0;
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// Scan the relocs for a section, and record any information
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// required for the symbol. OPTIONS is the command line options.
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// SYMTAB is the symbol table. OBJECT is the object in which the
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// section appears. DATA_SHNDX is the section index that these
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// relocs apply to. SH_TYPE is the type of the relocation section,
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// SHT_REL or SHT_RELA. PRELOCS points to the relocation data.
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// RELOC_COUNT is the number of relocs. LOCAL_SYMBOL_COUNT is the
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// number of local symbols. OUTPUT_SECTION is the output section.
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// NEEDS_SPECIAL_OFFSET_HANDLING is true if offsets to the output
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// sections are not mapped as usual. PLOCAL_SYMBOLS points to the
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// local symbol data from OBJECT. GLOBAL_SYMBOLS is the array of
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// pointers to the global symbol table from OBJECT.
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virtual void
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scan_relocs(const General_options& options,
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Symbol_table* symtab,
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Layout* layout,
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Sized_relobj<size, big_endian>* object,
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unsigned int data_shndx,
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unsigned int sh_type,
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const unsigned char* prelocs,
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size_t reloc_count,
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Output_section* output_section,
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bool needs_special_offset_handling,
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size_t local_symbol_count,
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const unsigned char* plocal_symbols) = 0;
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// Relocate section data. SH_TYPE is the type of the relocation
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// section, SHT_REL or SHT_RELA. PRELOCS points to the relocation
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// information. RELOC_COUNT is the number of relocs.
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// OUTPUT_SECTION is the output section.
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// NEEDS_SPECIAL_OFFSET_HANDLING is true if offsets must be mapped
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// to correspond to the output section. VIEW is a view into the
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// output file holding the section contents, VIEW_ADDRESS is the
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// virtual address of the view, and VIEW_SIZE is the size of the
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// view. If NEEDS_SPECIAL_OFFSET_HANDLING is true, the VIEW_xx
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// parameters refer to the complete output section data, not just
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// the input section data.
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virtual void
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relocate_section(const Relocate_info<size, big_endian>*,
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unsigned int sh_type,
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const unsigned char* prelocs,
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size_t reloc_count,
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Output_section* output_section,
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bool needs_special_offset_handling,
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unsigned char* view,
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typename elfcpp::Elf_types<size>::Elf_Addr view_address,
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section_size_type view_size) = 0;
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// Scan the relocs during a relocatable link. The parameters are
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// like scan_relocs, with an additional Relocatable_relocs
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// parameter, used to record the disposition of the relocs.
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virtual void
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scan_relocatable_relocs(const General_options& options,
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Symbol_table* symtab,
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Layout* layout,
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Sized_relobj<size, big_endian>* object,
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unsigned int data_shndx,
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unsigned int sh_type,
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const unsigned char* prelocs,
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size_t reloc_count,
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Output_section* output_section,
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bool needs_special_offset_handling,
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size_t local_symbol_count,
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const unsigned char* plocal_symbols,
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Relocatable_relocs*) = 0;
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// Relocate a section during a relocatable link. The parameters are
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// like relocate_section, with additional parameters for the view of
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// the output reloc section.
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virtual void
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relocate_for_relocatable(const Relocate_info<size, big_endian>*,
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unsigned int sh_type,
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const unsigned char* prelocs,
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size_t reloc_count,
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Output_section* output_section,
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off_t offset_in_output_section,
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const Relocatable_relocs*,
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unsigned char* view,
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typename elfcpp::Elf_types<size>::Elf_Addr
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view_address,
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section_size_type view_size,
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unsigned char* reloc_view,
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section_size_type reloc_view_size) = 0;
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protected:
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Sized_target(const Target::Target_info* pti)
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: Target(pti)
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{
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gold_assert(pti->size == size);
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gold_assert(pti->is_big_endian ? big_endian : !big_endian);
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}
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};
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} // End namespace gold.
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#endif // !defined(GOLD_TARGET_H)
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