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7c61d651fd
If a script specifies both address and region for an output section declaration, gold ignores the region specification. This can lead to bogus "moves backward" errors. This patch fixes gold so that if a section specifies both address and region, it will place the section at the specified address in the region, and update the location counter within the region. gold/ PR gold/18847 * script-sections.cc (Memory_region::set_address): New method. (Script_sections::find_memory_region): Add explicit_only parameter. (Output_section_definition::set_section_addresses): Handle case where script specifies both address and vma region. * script-sections.h (Script_sections::find_memory_region): Add explicit_only parameter.
340 lines
10 KiB
C++
340 lines
10 KiB
C++
// script-sections.h -- linker script SECTIONS for gold -*- C++ -*-
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// Copyright (C) 2008-2015 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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// This is for the support of the SECTIONS clause in linker scripts.
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#ifndef GOLD_SCRIPT_SECTIONS_H
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#define GOLD_SCRIPT_SECTIONS_H
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#include <cstdio>
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#include <list>
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#include <vector>
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namespace gold
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{
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struct Parser_output_section_header;
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struct Parser_output_section_trailer;
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struct Input_section_spec;
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class Expression;
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class Sections_element;
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class Memory_region;
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class Phdrs_element;
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class Output_data;
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class Output_section_definition;
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class Output_section;
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class Output_segment;
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class Orphan_section_placement;
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class Script_sections
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{
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public:
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// This is a list, not a vector, because we insert orphan sections
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// in the middle.
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typedef std::list<Sections_element*> Sections_elements;
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// Logical script section types. We map section types returned by the
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// parser into these since some section types have the same semantics.
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enum Section_type
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{
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// No section type specified.
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ST_NONE,
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// Section is NOLOAD. We allocate space in the output but section
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// is not loaded in runtime.
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ST_NOLOAD,
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// No space is allocated to section.
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ST_NOALLOC
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};
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Script_sections();
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// Start a SECTIONS clause.
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void
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start_sections();
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// Finish a SECTIONS clause.
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void
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finish_sections();
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// Return whether we ever saw a SECTIONS clause. If we did, then
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// all section layout needs to go through this class.
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bool
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saw_sections_clause() const
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{ return this->saw_sections_clause_; }
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// Return whether we are currently processing a SECTIONS clause.
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bool
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in_sections_clause() const
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{ return this->in_sections_clause_; }
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// Return whether we ever saw a PHDRS clause. We ignore the PHDRS
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// clause unless we also saw a SECTIONS clause.
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bool
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saw_phdrs_clause() const
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{ return this->saw_sections_clause_ && this->phdrs_elements_ != NULL; }
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// Start processing entries for an output section.
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void
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start_output_section(const char* name, size_t namelen,
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const Parser_output_section_header*);
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// Finish processing entries for an output section.
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void
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finish_output_section(const Parser_output_section_trailer*);
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// Add a data item to the current output section.
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void
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add_data(int size, bool is_signed, Expression* val);
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// Add a symbol to be defined.
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void
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add_symbol_assignment(const char* name, size_t length, Expression* value,
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bool provide, bool hidden);
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// Add an assignment to the special dot symbol.
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void
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add_dot_assignment(Expression* value);
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// Add an assertion.
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void
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add_assertion(Expression* check, const char* message, size_t messagelen);
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// Add a setting for the fill value.
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void
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add_fill(Expression* val);
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// Add an input section specification.
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void
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add_input_section(const Input_section_spec* spec, bool keep);
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// Saw DATA_SEGMENT_ALIGN.
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void
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data_segment_align();
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// Saw DATA_SEGMENT_RELRO_END.
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void
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data_segment_relro_end();
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// Create any required sections.
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void
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create_sections(Layout*);
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// Add any symbols we are defining to the symbol table.
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void
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add_symbols_to_table(Symbol_table*);
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// Finalize symbol values and check assertions.
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void
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finalize_symbols(Symbol_table* symtab, const Layout* layout);
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// Find the name of the output section to use for an input file name
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// and section name. This returns a name, and sets
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// *OUTPUT_SECTION_SLOT to point to the address where the actual
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// output section may be stored.
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// 1) If the input section should be discarded, this returns NULL
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// and sets *OUTPUT_SECTION_SLOT to NULL.
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// 2) If the input section is mapped by the SECTIONS clause, this
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// returns the name to use for the output section (in permanent
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// storage), and sets *OUTPUT_SECTION_SLOT to point to where the
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// output section should be stored. **OUTPUT_SECTION_SLOT will be
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// non-NULL if we have seen this output section already.
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// 3) If the input section is not mapped by the SECTIONS clause,
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// this returns SECTION_NAME, and sets *OUTPUT_SECTION_SLOT to
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// NULL.
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// PSCRIPT_SECTION_TYPE points to a location for returning the section
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// type specified in script. This can be SCRIPT_SECTION_TYPE_NONE if
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// no type is specified.
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// *KEEP indicates whether the section should survive garbage collection.
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const char*
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output_section_name(const char* file_name, const char* section_name,
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Output_section*** output_section_slot,
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Section_type* pscript_section_type,
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bool* keep);
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// Place a marker for an orphan output section into the SECTIONS
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// clause.
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void
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place_orphan(Output_section* os);
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// Set the addresses of all the output sections. Return the segment
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// which holds the file header and segment headers, if any.
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Output_segment*
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set_section_addresses(Symbol_table*, Layout*);
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// Add a program header definition.
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void
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add_phdr(const char* name, size_t namelen, unsigned int type,
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bool filehdr, bool phdrs, bool is_flags_valid, unsigned int flags,
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Expression* load_address);
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// Return the number of segments we expect to create based on the
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// SECTIONS clause.
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size_t
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expected_segment_count(const Layout*) const;
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// Add the file header and segment header to non-load segments as
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// specified by the PHDRS clause.
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void
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put_headers_in_phdrs(Output_data* file_header, Output_data* segment_headers);
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// Look for an output section by name and return the address, the
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// load address, the alignment, and the size. This is used when an
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// expression refers to an output section which was not actually
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// created. This returns true if the section was found, false
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// otherwise.
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bool
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get_output_section_info(const char* name, uint64_t* address,
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uint64_t* load_address, uint64_t* addralign,
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uint64_t* size) const;
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// Release all Output_segments. This is used in relaxation.
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void
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release_segments();
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// Whether we ever saw a SEGMENT_START expression, the presence of which
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// changes the behaviour of -Ttext, -Tdata and -Tbss options.
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bool
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saw_segment_start_expression() const
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{ return this->saw_segment_start_expression_; }
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// Set the flag which indicates whether we saw a SEGMENT_START expression.
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void
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set_saw_segment_start_expression(bool value)
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{ this->saw_segment_start_expression_ = value; }
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// Add a memory region.
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void
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add_memory_region(const char*, size_t, unsigned int,
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Expression*, Expression*);
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// Find a memory region's origin.
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Expression*
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find_memory_region_origin(const char*, size_t);
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// Find a memory region's length.
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Expression*
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find_memory_region_length(const char*, size_t);
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// Find a memory region by name.
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Memory_region*
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find_memory_region(const char*, size_t);
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// Find a memory region that should be used by a given output section.
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Memory_region*
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find_memory_region(Output_section_definition*, bool, bool,
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Output_section_definition**);
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// Returns true if the provide block of memory is contained
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// within a memory region.
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bool
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block_in_region(Symbol_table*, Layout*, uint64_t, uint64_t) const;
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// Set the memory region of the section.
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void
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set_memory_region(Memory_region*, bool);
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// Print the contents to the FILE. This is for debugging.
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void
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print(FILE*) const;
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// Used for orphan sections.
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typedef Sections_elements::iterator Elements_iterator;
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private:
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typedef std::vector<Memory_region*> Memory_regions;
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typedef std::vector<Phdrs_element*> Phdrs_elements;
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// Create segments.
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Output_segment*
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create_segments(Layout*, uint64_t);
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// Create PT_NOTE and PT_TLS segments.
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void
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create_note_and_tls_segments(Layout*, const std::vector<Output_section*>*);
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// Return whether the section is a BSS section.
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static bool
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is_bss_section(const Output_section*);
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// Return the total size of the headers.
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size_t
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total_header_size(Layout* layout) const;
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// Return the amount we have to subtract from the LMA to accomodate
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// headers of the given size.
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uint64_t
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header_size_adjustment(uint64_t lma, size_t sizeof_headers) const;
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// Create the segments from a PHDRS clause.
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Output_segment*
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create_segments_from_phdrs_clause(Layout* layout, uint64_t);
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// Attach sections to segments from a PHDRS clause.
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void
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attach_sections_using_phdrs_clause(Layout*);
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// Set addresses of segments from a PHDRS clause.
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Output_segment*
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set_phdrs_clause_addresses(Layout*, uint64_t);
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// True if we ever saw a SECTIONS clause.
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bool saw_sections_clause_;
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// True if we are currently processing a SECTIONS clause.
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bool in_sections_clause_;
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// The list of elements in the SECTIONS clause.
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Sections_elements* sections_elements_;
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// The current output section, if there is one.
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Output_section_definition* output_section_;
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// The list of memory regions in the MEMORY clause.
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Memory_regions* memory_regions_;
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// The list of program headers in the PHDRS clause.
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Phdrs_elements* phdrs_elements_;
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// Where to put orphan sections.
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Orphan_section_placement* orphan_section_placement_;
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// A pointer to the last Sections_element when we see
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// DATA_SEGMENT_ALIGN.
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Sections_elements::iterator data_segment_align_start_;
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// Whether we have seen DATA_SEGMENT_ALIGN.
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bool saw_data_segment_align_;
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// Whether we have seen DATA_SEGMENT_RELRO_END.
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bool saw_relro_end_;
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// Whether we have seen SEGMENT_START.
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bool saw_segment_start_expression_;
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// Whether we have created all necessary segments.
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bool segments_created_;
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};
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// Attributes for memory regions.
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enum
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{
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MEM_EXECUTABLE = (1 << 0),
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MEM_WRITEABLE = (1 << 1),
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MEM_READABLE = (1 << 2),
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MEM_ALLOCATABLE = (1 << 3),
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MEM_INITIALIZED = (1 << 4),
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MEM_ATTR_MASK = (1 << 5) - 1
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};
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} // End namespace gold.
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#endif // !defined(GOLD_SCRIPT_SECTIONS_H
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