// symtab.h -- the gold symbol table -*- C++ -*-
-// Copyright 2006, 2007 Free Software Foundation, Inc.
+// Copyright (C) 2006-2015 Free Software Foundation, Inc.
// Written by Ian Lance Taylor <iant@google.com>.
// This file is part of gold.
// Symbol_table
// The symbol table.
+#ifndef GOLD_SYMTAB_H
+#define GOLD_SYMTAB_H
+
#include <string>
#include <utility>
#include <vector>
#include "stringpool.h"
#include "object.h"
-#ifndef GOLD_SYMTAB_H
-#define GOLD_SYMTAB_H
-
namespace gold
{
+class Mapfile;
class Object;
class Relobj;
template<int size, bool big_endian>
-class Sized_relobj;
+class Sized_relobj_file;
+template<int size, bool big_endian>
+class Sized_pluginobj;
class Dynobj;
template<int size, bool big_endian>
class Sized_dynobj;
+template<int size, bool big_endian>
+class Sized_incrobj;
class Versions;
+class Version_script_info;
+class Input_objects;
class Output_data;
class Output_section;
class Output_segment;
class Output_file;
-class Target;
+class Output_symtab_xindex;
+class Garbage_collection;
+class Icf;
// The base class of an entry in the symbol table. The symbol table
-// can have a lot of entries, so we don't want this class to big.
+// can have a lot of entries, so we don't want this class too big.
// Size dependent fields can be found in the template class
// Sized_symbol. Targets may support their own derived classes.
// section.
IN_OUTPUT_SEGMENT,
// Symbol value is constant.
- CONSTANT
+ IS_CONSTANT,
+ // Symbol is undefined.
+ IS_UNDEFINED
};
// When the source is IN_OUTPUT_SEGMENT, we need to describe what
name() const
{ return this->name_; }
+ // Return the (ANSI) demangled version of the name, if
+ // parameters.demangle() is true. Otherwise, return the name. This
+ // is intended to be used only for logging errors, so it's not
+ // super-efficient.
+ std::string
+ demangled_name() const;
+
// Return the symbol version. This will return NULL for an
// unversioned symbol.
const char*
version() const
{ return this->version_; }
+ void
+ clear_version()
+ { this->version_ = NULL; }
+
+ // Return whether this version is the default for this symbol name
+ // (eg, "foo@@V2" is a default version; "foo@V1" is not). Only
+ // meaningful for versioned symbols.
+ bool
+ is_default() const
+ {
+ gold_assert(this->version_ != NULL);
+ return this->is_def_;
+ }
+
+ // Set that this version is the default for this symbol name.
+ void
+ set_is_default()
+ { this->is_def_ = true; }
+
+ // Return the symbol's name as name@version (or name@@version).
+ std::string
+ versioned_name() const;
+
// Return the symbol source.
Source
source() const
// Return the index of the section in the input relocatable or
// dynamic object file.
unsigned int
- shndx() const
+ shndx(bool* is_ordinary) const
{
gold_assert(this->source_ == FROM_OBJECT);
+ *is_ordinary = this->is_ordinary_shndx_;
return this->u_.from_object.shndx;
}
type() const
{ return this->type_; }
+ // Set the symbol type.
+ void
+ set_type(elfcpp::STT type)
+ { this->type_ = type; }
+
+ // Return true for function symbol.
+ bool
+ is_func() const
+ {
+ return (this->type_ == elfcpp::STT_FUNC
+ || this->type_ == elfcpp::STT_GNU_IFUNC);
+ }
+
// Return the symbol visibility.
elfcpp::STV
visibility() const
{ return this->visibility_; }
+ // Set the visibility.
+ void
+ set_visibility(elfcpp::STV visibility)
+ { this->visibility_ = visibility; }
+
+ // Override symbol visibility.
+ void
+ override_visibility(elfcpp::STV);
+
+ // Set whether the symbol was originally a weak undef or a regular undef
+ // when resolved by a dynamic def or by a special symbol.
+ inline void
+ set_undef_binding(elfcpp::STB bind)
+ {
+ if (!this->undef_binding_set_ || this->undef_binding_weak_)
+ {
+ this->undef_binding_weak_ = bind == elfcpp::STB_WEAK;
+ this->undef_binding_set_ = true;
+ }
+ }
+
+ // Return TRUE if a weak undef was resolved by a dynamic def or
+ // by a special symbol.
+ inline bool
+ is_undef_binding_weak() const
+ { return this->undef_binding_weak_; }
+
// Return the non-visibility part of the st_other field.
unsigned char
nonvis() const
{ return this->nonvis_; }
+ // Set the non-visibility part of the st_other field.
+ void
+ set_nonvis(unsigned int nonvis)
+ { this->nonvis_ = nonvis; }
+
// Return whether this symbol is a forwarder. This will never be
// true of a symbol found in the hash table, but may be true of
// symbol pointers attached to object files.
needs_dynsym_entry() const
{
return (this->needs_dynsym_entry_
- || (this->in_reg() && this->in_dyn()));
+ || (this->in_reg()
+ && this->in_dyn()
+ && this->is_externally_visible()));
}
// Mark this symbol as needing an entry in the dynamic symbol table.
// Return whether this symbol should be added to the dynamic symbol
// table.
bool
- should_add_dynsym_entry() const;
+ should_add_dynsym_entry(Symbol_table*) const;
// Return whether this symbol has been seen in a regular object.
bool
set_in_dyn()
{ this->in_dyn_ = true; }
+ // Return whether this symbol has been seen in a real ELF object.
+ // (IN_REG will return TRUE if the symbol has been seen in either
+ // a real ELF object or an object claimed by a plugin.)
+ bool
+ in_real_elf() const
+ { return this->in_real_elf_; }
+
+ // Mark this symbol as having been seen in a real ELF object.
+ void
+ set_in_real_elf()
+ { this->in_real_elf_ = true; }
+
+ // Return whether this symbol was defined in a section that was
+ // discarded from the link. This is used to control some error
+ // reporting.
+ bool
+ is_defined_in_discarded_section() const
+ { return this->is_defined_in_discarded_section_; }
+
+ // Mark this symbol as having been defined in a discarded section.
+ void
+ set_is_defined_in_discarded_section()
+ { this->is_defined_in_discarded_section_ = true; }
+
// Return the index of this symbol in the output file symbol table.
// A value of -1U means that this symbol is not going into the
// output file. This starts out as zero, and is set to a non-zero
{ return this->dynsym_index_ != 0; }
// Return whether this symbol has an entry in the GOT section.
+ // For a TLS symbol, this GOT entry will hold its tp-relative offset.
bool
- has_got_offset() const
- { return this->has_got_offset_; }
+ has_got_offset(unsigned int got_type) const
+ { return this->got_offsets_.get_offset(got_type) != -1U; }
// Return the offset into the GOT section of this symbol.
unsigned int
- got_offset() const
+ got_offset(unsigned int got_type) const
{
- gold_assert(this->has_got_offset());
- return this->got_offset_;
+ unsigned int got_offset = this->got_offsets_.get_offset(got_type);
+ gold_assert(got_offset != -1U);
+ return got_offset;
}
// Set the GOT offset of this symbol.
void
- set_got_offset(unsigned int got_offset)
- {
- this->has_got_offset_ = true;
- this->got_offset_ = got_offset;
- }
+ set_got_offset(unsigned int got_type, unsigned int got_offset)
+ { this->got_offsets_.set_offset(got_type, got_offset); }
+
+ // Return the GOT offset list.
+ const Got_offset_list*
+ got_offset_list() const
+ { return this->got_offsets_.get_list(); }
// Return whether this symbol has an entry in the PLT section.
bool
has_plt_offset() const
- { return this->has_plt_offset_; }
+ { return this->plt_offset_ != -1U; }
// Return the offset into the PLT section of this symbol.
unsigned int
void
set_plt_offset(unsigned int plt_offset)
{
- this->has_plt_offset_ = true;
+ gold_assert(plt_offset != -1U);
this->plt_offset_ = plt_offset;
}
bool
final_value_is_known() const;
+ // Return true if SHNDX represents a common symbol. This depends on
+ // the target.
+ static bool
+ is_common_shndx(unsigned int shndx);
+
// Return whether this is a defined symbol (not undefined or
// common).
bool
is_defined() const
{
- return (this->source_ != FROM_OBJECT
- || (this->shndx() != elfcpp::SHN_UNDEF
- && this->shndx() != elfcpp::SHN_COMMON));
+ bool is_ordinary;
+ if (this->source_ != FROM_OBJECT)
+ return this->source_ != IS_UNDEFINED;
+ unsigned int shndx = this->shndx(&is_ordinary);
+ return (is_ordinary
+ ? shndx != elfcpp::SHN_UNDEF
+ : !Symbol::is_common_shndx(shndx));
}
// Return true if this symbol is from a dynamic object.
return this->source_ == FROM_OBJECT && this->object()->is_dynamic();
}
+ // Return whether this is a placeholder symbol from a plugin object.
+ bool
+ is_placeholder() const
+ {
+ return this->source_ == FROM_OBJECT && this->object()->pluginobj() != NULL;
+ }
+
// Return whether this is an undefined symbol.
bool
is_undefined() const
{
- return this->source_ == FROM_OBJECT && this->shndx() == elfcpp::SHN_UNDEF;
+ bool is_ordinary;
+ return ((this->source_ == FROM_OBJECT
+ && this->shndx(&is_ordinary) == elfcpp::SHN_UNDEF
+ && is_ordinary)
+ || this->source_ == IS_UNDEFINED);
+ }
+
+ // Return whether this is a weak undefined symbol.
+ bool
+ is_weak_undefined() const
+ {
+ return (this->is_undefined()
+ && (this->binding() == elfcpp::STB_WEAK
+ || this->is_undef_binding_weak()));
+ }
+
+ // Return whether this is a strong undefined symbol.
+ bool
+ is_strong_undefined() const
+ {
+ return (this->is_undefined()
+ && this->binding() != elfcpp::STB_WEAK
+ && !this->is_undef_binding_weak());
+ }
+
+ // Return whether this is an absolute symbol.
+ bool
+ is_absolute() const
+ {
+ bool is_ordinary;
+ return ((this->source_ == FROM_OBJECT
+ && this->shndx(&is_ordinary) == elfcpp::SHN_ABS
+ && !is_ordinary)
+ || this->source_ == IS_CONSTANT);
}
// Return whether this is a common symbol.
bool
is_common() const
{
- return (this->source_ == FROM_OBJECT
- && (this->shndx() == elfcpp::SHN_COMMON
- || this->type_ == elfcpp::STT_COMMON));
+ if (this->source_ != FROM_OBJECT)
+ return false;
+ if (this->type_ == elfcpp::STT_COMMON)
+ return true;
+ bool is_ordinary;
+ unsigned int shndx = this->shndx(&is_ordinary);
+ return !is_ordinary && Symbol::is_common_shndx(shndx);
}
// Return whether this symbol can be seen outside this object.
bool
is_externally_visible() const
{
- return (this->visibility_ == elfcpp::STV_DEFAULT
- || this->visibility_ == elfcpp::STV_PROTECTED);
+ return ((this->visibility_ == elfcpp::STV_DEFAULT
+ || this->visibility_ == elfcpp::STV_PROTECTED)
+ && !this->is_forced_local_);
}
// Return true if this symbol can be preempted by a definition in
// another object is preemptible.
gold_assert(!this->is_from_dynobj());
- return (this->visibility_ != elfcpp::STV_INTERNAL
- && this->visibility_ != elfcpp::STV_HIDDEN
- && this->visibility_ != elfcpp::STV_PROTECTED
- && parameters->output_is_shared()
- && !parameters->symbolic());
+ // It doesn't make sense to ask whether an undefined symbol
+ // is preemptible.
+ gold_assert(!this->is_undefined());
+
+ // If a symbol does not have default visibility, it can not be
+ // seen outside this link unit and therefore is not preemptible.
+ if (this->visibility_ != elfcpp::STV_DEFAULT)
+ return false;
+
+ // If this symbol has been forced to be a local symbol by a
+ // version script, then it is not visible outside this link unit
+ // and is not preemptible.
+ if (this->is_forced_local_)
+ return false;
+
+ // If we are not producing a shared library, then nothing is
+ // preemptible.
+ if (!parameters->options().shared())
+ return false;
+
+ // If the symbol was named in a --dynamic-list script, it is preemptible.
+ if (parameters->options().in_dynamic_list(this->name()))
+ return true;
+
+ // If the user used -Bsymbolic or provided a --dynamic-list script,
+ // then nothing (else) is preemptible.
+ if (parameters->options().Bsymbolic()
+ || parameters->options().have_dynamic_list())
+ return false;
+
+ // If the user used -Bsymbolic-functions, then functions are not
+ // preemptible. We explicitly check for not being STT_OBJECT,
+ // rather than for being STT_FUNC, because that is what the GNU
+ // linker does.
+ if (this->type() != elfcpp::STT_OBJECT
+ && parameters->options().Bsymbolic_functions())
+ return false;
+
+ // Otherwise the symbol is preemptible.
+ return true;
}
// Return true if this symbol is a function that needs a PLT entry.
- // If the symbol is defined in a dynamic object or if it is subject
- // to pre-emption, we need to make a PLT entry.
bool
needs_plt_entry() const
{
- return (this->type() == elfcpp::STT_FUNC
- && (this->is_from_dynobj() || this->is_preemptible()));
+ // An undefined symbol from an executable does not need a PLT entry.
+ if (this->is_undefined() && !parameters->options().shared())
+ return false;
+
+ // An STT_GNU_IFUNC symbol always needs a PLT entry, even when
+ // doing a static link.
+ if (this->type() == elfcpp::STT_GNU_IFUNC)
+ return true;
+
+ // We only need a PLT entry for a function.
+ if (!this->is_func())
+ return false;
+
+ // If we're doing a static link or a -pie link, we don't create
+ // PLT entries.
+ if (parameters->doing_static_link()
+ || parameters->options().pie())
+ return false;
+
+ // We need a PLT entry if the function is defined in a dynamic
+ // object, or is undefined when building a shared object, or if it
+ // is subject to pre-emption.
+ return (this->is_from_dynobj()
+ || this->is_undefined()
+ || this->is_preemptible());
}
+ // When determining whether a reference to a symbol needs a dynamic
+ // relocation, we need to know several things about the reference.
+ // These flags may be or'ed together. 0 means that the symbol
+ // isn't referenced at all.
+ enum Reference_flags
+ {
+ // A reference to the symbol's absolute address. This includes
+ // references that cause an absolute address to be stored in the GOT.
+ ABSOLUTE_REF = 1,
+ // A reference that calculates the offset of the symbol from some
+ // anchor point, such as the PC or GOT.
+ RELATIVE_REF = 2,
+ // A TLS-related reference.
+ TLS_REF = 4,
+ // A reference that can always be treated as a function call.
+ FUNCTION_CALL = 8,
+ // When set, says that dynamic relocations are needed even if a
+ // symbol has a plt entry.
+ FUNC_DESC_ABI = 16,
+ };
+
// Given a direct absolute or pc-relative static relocation against
// the global symbol, this function returns whether a dynamic relocation
// is needed.
bool
- needs_dynamic_reloc(bool is_absolute_ref, bool is_function_call) const
+ needs_dynamic_reloc(int flags) const
{
+ // No dynamic relocations in a static link!
+ if (parameters->doing_static_link())
+ return false;
+
+ // A reference to an undefined symbol from an executable should be
+ // statically resolved to 0, and does not need a dynamic relocation.
+ // This matches gnu ld behavior.
+ if (this->is_undefined() && !parameters->options().shared())
+ return false;
+
+ // A reference to an absolute symbol does not need a dynamic relocation.
+ if (this->is_absolute())
+ return false;
+
// An absolute reference within a position-independent output file
- // will need a dynamic relocaion.
- if (is_absolute_ref && parameters->output_is_position_independent())
+ // will need a dynamic relocation.
+ if ((flags & ABSOLUTE_REF)
+ && parameters->options().output_is_position_independent())
return true;
// A function call that can branch to a local PLT entry does not need
// a dynamic relocation.
- if (is_function_call && this->has_plt_offset())
+ if ((flags & FUNCTION_CALL) && this->has_plt_offset())
return false;
// A reference to any PLT entry in a non-position-independent executable
// does not need a dynamic relocation.
- if (!parameters->output_is_position_independent()
+ if (!(flags & FUNC_DESC_ABI)
+ && !parameters->options().output_is_position_independent()
&& this->has_plt_offset())
return false;
// A reference to a symbol defined in a dynamic object or to a
// symbol that is preemptible will need a dynamic relocation.
- if (this->is_from_dynobj() || this->is_preemptible())
+ if (this->is_from_dynobj()
+ || this->is_undefined()
+ || this->is_preemptible())
return true;
// For all other cases, return FALSE.
return false;
}
+ // Whether we should use the PLT offset associated with a symbol for
+ // a relocation. FLAGS is a set of Reference_flags.
+
+ bool
+ use_plt_offset(int flags) const
+ {
+ // If the symbol doesn't have a PLT offset, then naturally we
+ // don't want to use it.
+ if (!this->has_plt_offset())
+ return false;
+
+ // For a STT_GNU_IFUNC symbol we always have to use the PLT entry.
+ if (this->type() == elfcpp::STT_GNU_IFUNC)
+ return true;
+
+ // If we are going to generate a dynamic relocation, then we will
+ // wind up using that, so no need to use the PLT entry.
+ if (this->needs_dynamic_reloc(flags))
+ return false;
+
+ // If the symbol is from a dynamic object, we need to use the PLT
+ // entry.
+ if (this->is_from_dynobj())
+ return true;
+
+ // If we are generating a shared object, and this symbol is
+ // undefined or preemptible, we need to use the PLT entry.
+ if (parameters->options().shared()
+ && (this->is_undefined() || this->is_preemptible()))
+ return true;
+
+ // If this is a call to a weak undefined symbol, we need to use
+ // the PLT entry; the symbol may be defined by a library loaded
+ // at runtime.
+ if ((flags & FUNCTION_CALL) && this->is_weak_undefined())
+ return true;
+
+ // Otherwise we can use the regular definition.
+ return false;
+ }
+
// Given a direct absolute static relocation against
// the global symbol, where a dynamic relocation is needed, this
// function returns whether a relative dynamic relocation can be used.
return true;
// A reference to a symbol defined in a dynamic object or to a
- // symbol that is preemptible can not use a RELATIVE relocaiton.
- if (this->is_from_dynobj() || this->is_preemptible())
+ // symbol that is preemptible can not use a RELATIVE relocation.
+ if (this->is_from_dynobj()
+ || this->is_undefined()
+ || this->is_preemptible())
return false;
// For all other cases, return TRUE.
return true;
}
+ // Return the output section where this symbol is defined. Return
+ // NULL if the symbol has an absolute value.
+ Output_section*
+ output_section() const;
+
+ // Set the symbol's output section. This is used for symbols
+ // defined in scripts. This should only be called after the symbol
+ // table has been finalized.
+ void
+ set_output_section(Output_section*);
+
+ // Set the symbol's output segment. This is used for pre-defined
+ // symbols whose segments aren't known until after layout is done
+ // (e.g., __ehdr_start).
+ void
+ set_output_segment(Output_segment*, Segment_offset_base);
+
+ // Set the symbol to undefined. This is used for pre-defined
+ // symbols whose segments aren't known until after layout is done
+ // (e.g., __ehdr_start).
+ void
+ set_undefined();
+
// Return whether there should be a warning for references to this
// symbol.
bool
set_is_copied_from_dynobj()
{ this->is_copied_from_dynobj_ = true; }
- // Mark this symbol as needing its value written to the GOT even when
- // the value is subject to dynamic relocation (e.g., when the target
- // uses a RELATIVE relocation for the GOT entry).
+ // Return whether this symbol is forced to visibility STB_LOCAL
+ // by a "local:" entry in a version script.
+ bool
+ is_forced_local() const
+ { return this->is_forced_local_; }
+
+ // Mark this symbol as forced to STB_LOCAL visibility.
void
- set_needs_value_in_got()
- { this->needs_value_in_got_ = true; }
+ set_is_forced_local()
+ { this->is_forced_local_ = true; }
- // Return whether this symbol needs its value written to the GOT even
- // when the value is subject to dynamic relocation.
+ // Return true if this may need a COPY relocation.
+ // References from an executable object to non-function symbols
+ // defined in a dynamic object may need a COPY relocation.
bool
- needs_value_in_got() const
- { return this->needs_value_in_got_; }
+ may_need_copy_reloc() const
+ {
+ return (parameters->options().copyreloc()
+ && this->is_from_dynobj()
+ && !this->is_func());
+ }
+
+ // Return true if this symbol was predefined by the linker.
+ bool
+ is_predefined() const
+ { return this->is_predefined_; }
+
+ // Return true if this is a C++ vtable symbol.
+ bool
+ is_cxx_vtable() const
+ { return is_prefix_of("_ZTV", this->name_); }
protected:
// Instances of this class should always be created at a specific
elfcpp::STT type, elfcpp::STB binding,
elfcpp::STV visibility, unsigned char nonvis);
- // Initialize fields from an ELF symbol in OBJECT.
+ // Initialize fields from an ELF symbol in OBJECT. ST_SHNDX is the
+ // section index, IS_ORDINARY is whether it is a normal section
+ // index rather than a special code.
template<int size, bool big_endian>
void
- init_base(const char *name, const char* version, Object* object,
- const elfcpp::Sym<size, big_endian>&);
+ init_base_object(const char* name, const char* version, Object* object,
+ const elfcpp::Sym<size, big_endian>&, unsigned int st_shndx,
+ bool is_ordinary);
// Initialize fields for an Output_data.
void
- init_base(const char* name, Output_data*, elfcpp::STT, elfcpp::STB,
- elfcpp::STV, unsigned char nonvis, bool offset_is_from_end);
+ init_base_output_data(const char* name, const char* version, Output_data*,
+ elfcpp::STT, elfcpp::STB, elfcpp::STV,
+ unsigned char nonvis, bool offset_is_from_end,
+ bool is_predefined);
// Initialize fields for an Output_segment.
void
- init_base(const char* name, Output_segment* os, elfcpp::STT type,
- elfcpp::STB binding, elfcpp::STV visibility,
- unsigned char nonvis, Segment_offset_base offset_base);
+ init_base_output_segment(const char* name, const char* version,
+ Output_segment* os, elfcpp::STT type,
+ elfcpp::STB binding, elfcpp::STV visibility,
+ unsigned char nonvis,
+ Segment_offset_base offset_base,
+ bool is_predefined);
// Initialize fields for a constant.
void
- init_base(const char* name, elfcpp::STT type, elfcpp::STB binding,
- elfcpp::STV visibility, unsigned char nonvis);
+ init_base_constant(const char* name, const char* version, elfcpp::STT type,
+ elfcpp::STB binding, elfcpp::STV visibility,
+ unsigned char nonvis, bool is_predefined);
+
+ // Initialize fields for an undefined symbol.
+ void
+ init_base_undefined(const char* name, const char* version, elfcpp::STT type,
+ elfcpp::STB binding, elfcpp::STV visibility,
+ unsigned char nonvis);
// Override existing symbol.
template<int size, bool big_endian>
void
- override_base(const elfcpp::Sym<size, big_endian>&, Object* object,
- const char* version);
+ override_base(const elfcpp::Sym<size, big_endian>&, unsigned int st_shndx,
+ bool is_ordinary, Object* object, const char* version);
// Override existing symbol with a special symbol.
void
override_base_with_special(const Symbol* from);
+ // Override symbol version.
+ void
+ override_version(const char* version);
+
+ // Allocate a common symbol by giving it a location in the output
+ // file.
+ void
+ allocate_base_common(Output_data*);
+
private:
Symbol(const Symbol&);
Symbol& operator=(const Symbol&);
// non-zero value during Layout::finalize.
unsigned int dynsym_index_;
- // If this symbol has an entry in the GOT section (has_got_offset_
- // is true), this is the offset from the start of the GOT section.
- unsigned int got_offset_;
+ // The GOT section entries for this symbol. A symbol may have more
+ // than one GOT offset (e.g., when mixing modules compiled with two
+ // different TLS models), but will usually have at most one.
+ Got_offset_list got_offsets_;
- // If this symbol has an entry in the PLT section (has_plt_offset_
- // is true), then this is the offset from the start of the PLT
- // section.
+ // If this symbol has an entry in the PLT section, then this is the
+ // offset from the start of the PLT section. This is -1U if there
+ // is no PLT entry.
unsigned int plt_offset_;
- // Symbol type.
+ // Symbol type (bits 0 to 3).
elfcpp::STT type_ : 4;
- // Symbol binding.
+ // Symbol binding (bits 4 to 7).
elfcpp::STB binding_ : 4;
- // Symbol visibility.
+ // Symbol visibility (bits 8 to 9).
elfcpp::STV visibility_ : 2;
- // Rest of symbol st_other field.
+ // Rest of symbol st_other field (bits 10 to 15).
unsigned int nonvis_ : 6;
- // The type of symbol.
+ // The type of symbol (bits 16 to 18).
Source source_ : 3;
- // True if this symbol always requires special target-specific
- // handling.
- bool is_target_special_ : 1;
- // True if this is the default version of the symbol.
+ // True if this is the default version of the symbol (bit 19).
bool is_def_ : 1;
// True if this symbol really forwards to another symbol. This is
// used when we discover after the fact that two different entries
// never be set for a symbol found in the hash table, but may be set
// for a symbol found in the list of symbols attached to an Object.
// It forwards to the symbol found in the forwarders_ map of
- // Symbol_table.
+ // Symbol_table (bit 20).
bool is_forwarder_ : 1;
// True if the symbol has an alias in the weak_aliases table in
- // Symbol_table.
+ // Symbol_table (bit 21).
bool has_alias_ : 1;
- // True if this symbol needs to be in the dynamic symbol table.
+ // True if this symbol needs to be in the dynamic symbol table (bit
+ // 22).
bool needs_dynsym_entry_ : 1;
- // True if we've seen this symbol in a regular object.
+ // True if we've seen this symbol in a regular object (bit 23).
bool in_reg_ : 1;
- // True if we've seen this symbol in a dynamic object.
+ // True if we've seen this symbol in a dynamic object (bit 24).
bool in_dyn_ : 1;
- // True if the symbol has an entry in the GOT section.
- bool has_got_offset_ : 1;
- // True if the symbol has an entry in the PLT section.
- bool has_plt_offset_ : 1;
// True if this is a dynamic symbol which needs a special value in
- // the dynamic symbol table.
+ // the dynamic symbol table (bit 25).
bool needs_dynsym_value_ : 1;
- // True if there is a warning for this symbol.
+ // True if there is a warning for this symbol (bit 26).
bool has_warning_ : 1;
// True if we are using a COPY reloc for this symbol, so that the
- // real definition lives in a dynamic object.
+ // real definition lives in a dynamic object (bit 27).
bool is_copied_from_dynobj_ : 1;
- // True if the static value should be written to the GOT even
- // when the final value is subject to dynamic relocation.
- bool needs_value_in_got_ : 1;
+ // True if this symbol was forced to local visibility by a version
+ // script (bit 28).
+ bool is_forced_local_ : 1;
+ // True if the field u_.from_object.shndx is an ordinary section
+ // index, not one of the special codes from SHN_LORESERVE to
+ // SHN_HIRESERVE (bit 29).
+ bool is_ordinary_shndx_ : 1;
+ // True if we've seen this symbol in a "real" ELF object (bit 30).
+ // If the symbol has been seen in a relocatable, non-IR, object file,
+ // it's known to be referenced from outside the IR. A reference from
+ // a dynamic object doesn't count as a "real" ELF, and we'll simply
+ // mark the symbol as "visible" from outside the IR. The compiler
+ // can use this distinction to guide its handling of COMDAT symbols.
+ bool in_real_elf_ : 1;
+ // True if this symbol is defined in a section which was discarded
+ // (bit 31).
+ bool is_defined_in_discarded_section_ : 1;
+ // True if UNDEF_BINDING_WEAK_ has been set (bit 32).
+ bool undef_binding_set_ : 1;
+ // True if this symbol was a weak undef resolved by a dynamic def
+ // or by a special symbol (bit 33).
+ bool undef_binding_weak_ : 1;
+ // True if this symbol is a predefined linker symbol (bit 34).
+ bool is_predefined_ : 1;
};
// The parts of a symbol which are size specific. Using a template
Sized_symbol()
{ }
- // Initialize fields from an ELF symbol in OBJECT.
+ // Initialize fields from an ELF symbol in OBJECT. ST_SHNDX is the
+ // section index, IS_ORDINARY is whether it is a normal section
+ // index rather than a special code.
template<bool big_endian>
void
- init(const char *name, const char* version, Object* object,
- const elfcpp::Sym<size, big_endian>&);
+ init_object(const char* name, const char* version, Object* object,
+ const elfcpp::Sym<size, big_endian>&, unsigned int st_shndx,
+ bool is_ordinary);
// Initialize fields for an Output_data.
void
- init(const char* name, Output_data*, Value_type value, Size_type symsize,
- elfcpp::STT, elfcpp::STB, elfcpp::STV, unsigned char nonvis,
- bool offset_is_from_end);
+ init_output_data(const char* name, const char* version, Output_data*,
+ Value_type value, Size_type symsize, elfcpp::STT,
+ elfcpp::STB, elfcpp::STV, unsigned char nonvis,
+ bool offset_is_from_end, bool is_predefined);
// Initialize fields for an Output_segment.
void
- init(const char* name, Output_segment*, Value_type value, Size_type symsize,
- elfcpp::STT, elfcpp::STB, elfcpp::STV, unsigned char nonvis,
- Segment_offset_base offset_base);
+ init_output_segment(const char* name, const char* version, Output_segment*,
+ Value_type value, Size_type symsize, elfcpp::STT,
+ elfcpp::STB, elfcpp::STV, unsigned char nonvis,
+ Segment_offset_base offset_base, bool is_predefined);
// Initialize fields for a constant.
void
- init(const char* name, Value_type value, Size_type symsize,
- elfcpp::STT, elfcpp::STB, elfcpp::STV, unsigned char nonvis);
+ init_constant(const char* name, const char* version, Value_type value,
+ Size_type symsize, elfcpp::STT, elfcpp::STB, elfcpp::STV,
+ unsigned char nonvis, bool is_predefined);
+
+ // Initialize fields for an undefined symbol.
+ void
+ init_undefined(const char* name, const char* version, elfcpp::STT,
+ elfcpp::STB, elfcpp::STV, unsigned char nonvis);
// Override existing symbol.
template<bool big_endian>
void
- override(const elfcpp::Sym<size, big_endian>&, Object* object,
- const char* version);
+ override(const elfcpp::Sym<size, big_endian>&, unsigned int st_shndx,
+ bool is_ordinary, Object* object, const char* version);
// Override existing symbol with a special symbol.
void
set_value(Value_type value)
{ this->value_ = value; }
+ // Allocate a common symbol by giving it a location in the output
+ // file.
+ void
+ allocate_common(Output_data*, Value_type value);
+
private:
Sized_symbol(const Sized_symbol&);
Sized_symbol& operator=(const Sized_symbol&);
bool only_if_ref;
};
+// Specify an object/section/offset location. Used by ODR code.
+
+struct Symbol_location
+{
+ // Object where the symbol is defined.
+ Object* object;
+ // Section-in-object where the symbol is defined.
+ unsigned int shndx;
+ // For relocatable objects, offset-in-section where the symbol is defined.
+ // For dynamic objects, address where the symbol is defined.
+ off_t offset;
+ bool operator==(const Symbol_location& that) const
+ {
+ return (this->object == that.object
+ && this->shndx == that.shndx
+ && this->offset == that.offset);
+ }
+};
+
// This class manages warnings. Warnings are a GNU extension. When
// we see a section named .gnu.warning.SYM in an object file, and if
// we wind using the definition of SYM from that object file, then we
: warnings_()
{ }
- // Add a warning for symbol NAME in section SHNDX in object OBJ.
+ // Add a warning for symbol NAME in object OBJ. WARNING is the text
+ // of the warning.
void
add_warning(Symbol_table* symtab, const char* name, Object* obj,
- unsigned int shndx);
+ const std::string& warning);
// For each symbol for which we should give a warning, make a note
// on the symbol.
{
// The object the warning is in.
Object* object;
- // The index of the warning section.
- unsigned int shndx;
- // The warning text if we have already loaded it.
+ // The warning text.
std::string text;
Warning_location()
- : object(NULL), shndx(0), text()
+ : object(NULL), text()
{ }
void
- set(Object* o, unsigned int s)
+ set(Object* o, const std::string& t)
{
this->object = o;
- this->shndx = s;
+ this->text = t;
}
-
- void
- set_text(const char* t, off_t l)
- { this->text.assign(t, l); }
};
// A mapping from warning symbol names (canonicalized in
class Symbol_table
{
public:
- Symbol_table();
+ // The different places where a symbol definition can come from.
+ enum Defined
+ {
+ // Defined in an object file--the normal case.
+ OBJECT,
+ // Defined for a COPY reloc.
+ COPY,
+ // Defined on the command line using --defsym.
+ DEFSYM,
+ // Defined (so to speak) on the command line using -u.
+ UNDEFINED,
+ // Defined in a linker script.
+ SCRIPT,
+ // Predefined by the linker.
+ PREDEFINED,
+ // Defined by the linker during an incremental base link, but not
+ // a predefined symbol (e.g., common, defined in script).
+ INCREMENTAL_BASE,
+ };
+
+ // The order in which we sort common symbols.
+ enum Sort_commons_order
+ {
+ SORT_COMMONS_BY_SIZE_DESCENDING,
+ SORT_COMMONS_BY_ALIGNMENT_DESCENDING,
+ SORT_COMMONS_BY_ALIGNMENT_ASCENDING
+ };
+
+ // COUNT is an estimate of how many symbols will be inserted in the
+ // symbol table. It's ok to put 0 if you don't know; a correct
+ // guess will just save some CPU by reducing hashtable resizes.
+ Symbol_table(unsigned int count, const Version_script_info& version_script);
~Symbol_table();
+ void
+ set_icf(Icf* icf)
+ { this->icf_ = icf;}
+
+ Icf*
+ icf() const
+ { return this->icf_; }
+
+ // Returns true if ICF determined that this is a duplicate section.
+ bool
+ is_section_folded(Object* obj, unsigned int shndx) const;
+
+ void
+ set_gc(Garbage_collection* gc)
+ { this->gc_ = gc; }
+
+ Garbage_collection*
+ gc() const
+ { return this->gc_; }
+
+ // During garbage collection, this keeps undefined symbols.
+ void
+ gc_mark_undef_symbols(Layout*);
+
+ // This tells garbage collection that this symbol is referenced.
+ void
+ gc_mark_symbol(Symbol* sym);
+
+ // During garbage collection, this keeps sections that correspond to
+ // symbols seen in dynamic objects.
+ inline void
+ gc_mark_dyn_syms(Symbol* sym);
+
// Add COUNT external symbols from the relocatable object RELOBJ to
- // the symbol table. SYMS is the symbols, SYM_NAMES is their names,
- // SYM_NAME_SIZE is the size of SYM_NAMES. This sets SYMPOINTERS to
- // point to the symbols in the symbol table.
+ // the symbol table. SYMS is the symbols, SYMNDX_OFFSET is the
+ // offset in the symbol table of the first symbol, SYM_NAMES is
+ // their names, SYM_NAME_SIZE is the size of SYM_NAMES. This sets
+ // SYMPOINTERS to point to the symbols in the symbol table. It sets
+ // *DEFINED to the number of defined symbols.
template<int size, bool big_endian>
void
- add_from_relobj(Sized_relobj<size, big_endian>* relobj,
+ add_from_relobj(Sized_relobj_file<size, big_endian>* relobj,
const unsigned char* syms, size_t count,
- const char* sym_names, size_t sym_name_size,
- typename Sized_relobj<size, big_endian>::Symbols*);
+ size_t symndx_offset, const char* sym_names,
+ size_t sym_name_size,
+ typename Sized_relobj_file<size, big_endian>::Symbols*,
+ size_t* defined);
+
+ // Add one external symbol from the plugin object OBJ to the symbol table.
+ // Returns a pointer to the resolved symbol in the symbol table.
+ template<int size, bool big_endian>
+ Symbol*
+ add_from_pluginobj(Sized_pluginobj<size, big_endian>* obj,
+ const char* name, const char* ver,
+ elfcpp::Sym<size, big_endian>* sym);
// Add COUNT dynamic symbols from the dynamic object DYNOBJ to the
// symbol table. SYMS is the symbols. SYM_NAMES is their names.
const unsigned char* syms, size_t count,
const char* sym_names, size_t sym_name_size,
const unsigned char* versym, size_t versym_size,
- const std::vector<const char*>*);
+ const std::vector<const char*>*,
+ typename Sized_relobj_file<size, big_endian>::Symbols*,
+ size_t* defined);
+
+ // Add one external symbol from the incremental object OBJ to the symbol
+ // table. Returns a pointer to the resolved symbol in the symbol table.
+ template<int size, bool big_endian>
+ Sized_symbol<size>*
+ add_from_incrobj(Object* obj, const char* name,
+ const char* ver, elfcpp::Sym<size, big_endian>* sym);
// Define a special symbol based on an Output_data. It is a
// multiple definition error if this symbol is already defined.
Symbol*
- define_in_output_data(const Target*, const char* name, const char* version,
+ define_in_output_data(const char* name, const char* version, Defined,
Output_data*, uint64_t value, uint64_t symsize,
elfcpp::STT type, elfcpp::STB binding,
elfcpp::STV visibility, unsigned char nonvis,
// Define a special symbol based on an Output_segment. It is a
// multiple definition error if this symbol is already defined.
Symbol*
- define_in_output_segment(const Target*, const char* name,
- const char* version, Output_segment*,
- uint64_t value, uint64_t symsize,
+ define_in_output_segment(const char* name, const char* version, Defined,
+ Output_segment*, uint64_t value, uint64_t symsize,
elfcpp::STT type, elfcpp::STB binding,
elfcpp::STV visibility, unsigned char nonvis,
Symbol::Segment_offset_base, bool only_if_ref);
// Define a special symbol with a constant value. It is a multiple
// definition error if this symbol is already defined.
Symbol*
- define_as_constant(const Target*, const char* name, const char* version,
+ define_as_constant(const char* name, const char* version, Defined,
uint64_t value, uint64_t symsize, elfcpp::STT type,
elfcpp::STB binding, elfcpp::STV visibility,
- unsigned char nonvis, bool only_if_ref);
+ unsigned char nonvis, bool only_if_ref,
+ bool force_override);
- // Define a set of symbols in output sections.
+ // Define a set of symbols in output sections. If ONLY_IF_REF is
+ // true, only define them if they are referenced.
void
- define_symbols(const Layout*, const Target*, int count,
- const Define_symbol_in_section*);
+ define_symbols(const Layout*, int count, const Define_symbol_in_section*,
+ bool only_if_ref);
- // Define a set of symbols in output segments.
+ // Define a set of symbols in output segments. If ONLY_IF_REF is
+ // true, only defined them if they are referenced.
void
- define_symbols(const Layout*, const Target*, int count,
- const Define_symbol_in_segment*);
+ define_symbols(const Layout*, int count, const Define_symbol_in_segment*,
+ bool only_if_ref);
// Define SYM using a COPY reloc. POSD is the Output_data where the
// symbol should be defined--typically a .dyn.bss section. VALUE is
// the offset within POSD.
template<int size>
void
- define_with_copy_reloc(const Target*, Sized_symbol<size>* sym,
- Output_data* posd, uint64_t value);
+ define_with_copy_reloc(Sized_symbol<size>* sym, Output_data* posd,
+ typename elfcpp::Elf_types<size>::Elf_Addr);
// Look up a symbol.
Symbol*
// Return the sized version of a symbol in this table.
template<int size>
Sized_symbol<size>*
- get_sized_symbol(Symbol* ACCEPT_SIZE) const;
+ get_sized_symbol(Symbol*) const;
template<int size>
const Sized_symbol<size>*
- get_sized_symbol(const Symbol* ACCEPT_SIZE) const;
+ get_sized_symbol(const Symbol*) const;
// Return the count of undefined symbols seen.
- int
+ size_t
saw_undefined() const
{ return this->saw_undefined_; }
// Allocate the common symbols
void
- allocate_commons(const General_options&, Layout*);
+ allocate_commons(Layout*, Mapfile*);
- // Add a warning for symbol NAME in section SHNDX in object OBJ.
+ // Add a warning for symbol NAME in object OBJ. WARNING is the text
+ // of the warning.
void
- add_warning(const char* name, Object* obj, unsigned int shndx)
- { this->warnings_.add_warning(this, name, obj, shndx); }
+ add_warning(const char* name, Object* obj, const std::string& warning)
+ { this->warnings_.add_warning(this, name, obj, warning); }
// Canonicalize a symbol name for use in the hash table.
const char*
// Check candidate_odr_violations_ to find symbols with the same name
// but apparently different definitions (different source-file/line-no).
void
- detect_odr_violations() const;
+ detect_odr_violations(const Task*, const char* output_file_name) const;
+
+ // Add any undefined symbols named on the command line to the symbol
+ // table.
+ void
+ add_undefined_symbols_from_command_line(Layout*);
// SYM is defined using a COPY reloc. Return the dynamic object
// where the original definition was found.
// the vector. The names are stored into the Stringpool. This
// returns an updated dynamic symbol index.
unsigned int
- set_dynsym_indexes(const Target*, unsigned int index,
- std::vector<Symbol*>*, Stringpool*, Versions*);
+ set_dynsym_indexes(unsigned int index, std::vector<Symbol*>*,
+ Stringpool*, Versions*);
// Finalize the symbol table after we have set the final addresses
// of all the input sections. This sets the final symbol indexes,
- // values and adds the names to *POOL. INDEX is the index of the
- // first global symbol. OFF is the file offset of the global symbol
- // table, DYNOFF is the offset of the globals in the dynamic symbol
- // table, DYN_GLOBAL_INDEX is the index of the first global dynamic
- // symbol, and DYNCOUNT is the number of global dynamic symbols.
- // This records the parameters, and returns the new file offset.
+ // values and adds the names to *POOL. *PLOCAL_SYMCOUNT is the
+ // index of the first global symbol. OFF is the file offset of the
+ // global symbol table, DYNOFF is the offset of the globals in the
+ // dynamic symbol table, DYN_GLOBAL_INDEX is the index of the first
+ // global dynamic symbol, and DYNCOUNT is the number of global
+ // dynamic symbols. This records the parameters, and returns the
+ // new file offset. It updates *PLOCAL_SYMCOUNT if it created any
+ // local symbols.
off_t
- finalize(unsigned int index, off_t off, off_t dynoff,
- size_t dyn_global_index, size_t dyncount, Stringpool* pool);
+ finalize(off_t off, off_t dynoff, size_t dyn_global_index, size_t dyncount,
+ Stringpool* pool, unsigned int* plocal_symcount);
+
+ // Set the final file offset of the symbol table.
+ void
+ set_file_offset(off_t off)
+ { this->offset_ = off; }
+
+ // Status code of Symbol_table::compute_final_value.
+ enum Compute_final_value_status
+ {
+ // No error.
+ CFVS_OK,
+ // Unsupported symbol section.
+ CFVS_UNSUPPORTED_SYMBOL_SECTION,
+ // No output section.
+ CFVS_NO_OUTPUT_SECTION
+ };
+
+ // Compute the final value of SYM and store status in location PSTATUS.
+ // During relaxation, this may be called multiple times for a symbol to
+ // compute its would-be final value in each relaxation pass.
+
+ template<int size>
+ typename Sized_symbol<size>::Value_type
+ compute_final_value(const Sized_symbol<size>* sym,
+ Compute_final_value_status* pstatus) const;
+
+ // Return the index of the first global symbol.
+ unsigned int
+ first_global_index() const
+ { return this->first_global_index_; }
+
+ // Return the total number of symbols in the symbol table.
+ unsigned int
+ output_count() const
+ { return this->output_count_; }
// Write out the global symbols.
void
- write_globals(const Target*, const Stringpool*, const Stringpool*,
+ write_globals(const Stringpool*, const Stringpool*,
+ Output_symtab_xindex*, Output_symtab_xindex*,
Output_file*) const;
// Write out a section symbol. Return the updated offset.
void
- write_section_symbol(const Output_section*, Output_file*, off_t) const;
+ write_section_symbol(const Output_section*, Output_symtab_xindex*,
+ Output_file*, off_t) const;
+
+ // Loop over all symbols, applying the function F to each.
+ template<int size, typename F>
+ void
+ for_all_symbols(F f) const
+ {
+ for (Symbol_table_type::const_iterator p = this->table_.begin();
+ p != this->table_.end();
+ ++p)
+ {
+ Sized_symbol<size>* sym = static_cast<Sized_symbol<size>*>(p->second);
+ f(sym);
+ }
+ }
+
+ // Dump statistical information to stderr.
+ void
+ print_stats() const;
+
+ // Return the version script information.
+ const Version_script_info&
+ version_script() const
+ { return version_script_; }
private:
Symbol_table(const Symbol_table&);
Symbol_table& operator=(const Symbol_table&);
+ // The type of the list of common symbols.
+ typedef std::vector<Symbol*> Commons_type;
+
+ // The type of the symbol hash table.
+
+ typedef std::pair<Stringpool::Key, Stringpool::Key> Symbol_table_key;
+
+ // The hash function. The key values are Stringpool keys.
+ struct Symbol_table_hash
+ {
+ inline size_t
+ operator()(const Symbol_table_key& key) const
+ {
+ return key.first ^ key.second;
+ }
+ };
+
+ struct Symbol_table_eq
+ {
+ bool
+ operator()(const Symbol_table_key&, const Symbol_table_key&) const;
+ };
+
+ typedef Unordered_map<Symbol_table_key, Symbol*, Symbol_table_hash,
+ Symbol_table_eq> Symbol_table_type;
+
+ // A map from symbol name (as a pointer into the namepool) to all
+ // the locations the symbols is (weakly) defined (and certain other
+ // conditions are met). This map will be used later to detect
+ // possible One Definition Rule (ODR) violations.
+ struct Symbol_location_hash
+ {
+ size_t operator()(const Symbol_location& loc) const
+ { return reinterpret_cast<uintptr_t>(loc.object) ^ loc.offset ^ loc.shndx; }
+ };
+
+ typedef Unordered_map<const char*,
+ Unordered_set<Symbol_location, Symbol_location_hash> >
+ Odr_map;
+
// Make FROM a forwarder symbol to TO.
void
make_forwarder(Symbol* from, Symbol* to);
// Add a symbol.
template<int size, bool big_endian>
Sized_symbol<size>*
- add_from_object(Object*, const char *name, Stringpool::Key name_key,
- const char *version, Stringpool::Key version_key,
+ add_from_object(Object*, const char* name, Stringpool::Key name_key,
+ const char* version, Stringpool::Key version_key,
bool def, const elfcpp::Sym<size, big_endian>& sym,
- const elfcpp::Sym<size, big_endian>& orig_sym);
+ unsigned int st_shndx, bool is_ordinary,
+ unsigned int orig_st_shndx);
+
+ // Define a default symbol.
+ template<int size, bool big_endian>
+ void
+ define_default_version(Sized_symbol<size>*, bool,
+ Symbol_table_type::iterator);
// Resolve symbols.
template<int size, bool big_endian>
void
resolve(Sized_symbol<size>* to,
const elfcpp::Sym<size, big_endian>& sym,
- const elfcpp::Sym<size, big_endian>& orig_sym,
+ unsigned int st_shndx, bool is_ordinary,
+ unsigned int orig_st_shndx,
Object*, const char* version);
template<int size, bool big_endian>
void
- resolve(Sized_symbol<size>* to, const Sized_symbol<size>* from,
- const char* version ACCEPT_SIZE_ENDIAN);
+ resolve(Sized_symbol<size>* to, const Sized_symbol<size>* from);
+
+ // Record that a symbol is forced to be local by a version script or
+ // by visibility.
+ void
+ force_local(Symbol*);
+
+ // Adjust NAME and *NAME_KEY for wrapping.
+ const char*
+ wrap_symbol(const char* name, Stringpool::Key* name_key);
// Whether we should override a symbol, based on flags in
// resolve.cc.
static bool
- should_override(const Symbol*, unsigned int, Object*, bool*);
+ should_override(const Symbol*, unsigned int, elfcpp::STT, Defined,
+ Object*, bool*, bool*);
+
+ // Report a problem in symbol resolution.
+ static void
+ report_resolve_problem(bool is_error, const char* msg, const Symbol* to,
+ Defined, Object* object);
// Override a symbol.
template<int size, bool big_endian>
void
override(Sized_symbol<size>* tosym,
const elfcpp::Sym<size, big_endian>& fromsym,
+ unsigned int st_shndx, bool is_ordinary,
Object* object, const char* version);
// Whether we should override a symbol with a special symbol which
// is automatically defined by the linker.
static bool
- should_override_with_special(const Symbol*);
+ should_override_with_special(const Symbol*, elfcpp::STT, Defined);
// Override a symbol with a special symbol.
template<int size>
// Define a special symbol.
template<int size, bool big_endian>
Sized_symbol<size>*
- define_special_symbol(const Target* target, const char** pname,
- const char** pversion, bool only_if_ref,
- Sized_symbol<size>** poldsym ACCEPT_SIZE_ENDIAN);
+ define_special_symbol(const char** pname, const char** pversion,
+ bool only_if_ref, Sized_symbol<size>** poldsym,
+ bool* resolve_oldsym);
// Define a symbol in an Output_data, sized version.
template<int size>
Sized_symbol<size>*
- do_define_in_output_data(const Target*, const char* name,
- const char* version, Output_data*,
+ do_define_in_output_data(const char* name, const char* version, Defined,
+ Output_data*,
typename elfcpp::Elf_types<size>::Elf_Addr value,
typename elfcpp::Elf_types<size>::Elf_WXword ssize,
elfcpp::STT type, elfcpp::STB binding,
template<int size>
Sized_symbol<size>*
do_define_in_output_segment(
- const Target*, const char* name, const char* version, Output_segment* os,
+ const char* name, const char* version, Defined, Output_segment* os,
typename elfcpp::Elf_types<size>::Elf_Addr value,
typename elfcpp::Elf_types<size>::Elf_WXword ssize,
elfcpp::STT type, elfcpp::STB binding,
template<int size>
Sized_symbol<size>*
do_define_as_constant(
- const Target*, const char* name, const char* version,
+ const char* name, const char* version, Defined,
typename elfcpp::Elf_types<size>::Elf_Addr value,
typename elfcpp::Elf_types<size>::Elf_WXword ssize,
elfcpp::STT type, elfcpp::STB binding,
elfcpp::STV visibility, unsigned char nonvis,
- bool only_if_ref);
+ bool only_if_ref, bool force_override);
+
+ // Add any undefined symbols named on the command line to the symbol
+ // table, sized version.
+ template<int size>
+ void
+ do_add_undefined_symbols_from_command_line(Layout*);
+
+ // Add one undefined symbol.
+ template<int size>
+ void
+ add_undefined_symbol_from_command_line(const char* name);
+
+ // Types of common symbols.
+
+ enum Commons_section_type
+ {
+ COMMONS_NORMAL,
+ COMMONS_TLS,
+ COMMONS_SMALL,
+ COMMONS_LARGE
+ };
// Allocate the common symbols, sized version.
template<int size>
void
- do_allocate_commons(const General_options&, Layout*);
+ do_allocate_commons(Layout*, Mapfile*, Sort_commons_order);
+
+ // Allocate the common symbols from one list.
+ template<int size>
+ void
+ do_allocate_commons_list(Layout*, Commons_section_type, Commons_type*,
+ Mapfile*, Sort_commons_order);
+
+ // Returns all of the lines attached to LOC, not just the one the
+ // instruction actually came from. This helps the ODR checker avoid
+ // false positives.
+ static std::vector<std::string>
+ linenos_from_loc(const Task* task, const Symbol_location& loc);
// Implement detect_odr_violations.
template<int size, bool big_endian>
// Finalize symbols specialized for size.
template<int size>
off_t
- sized_finalize(unsigned int, off_t, Stringpool*);
+ sized_finalize(off_t, Stringpool*, unsigned int*);
+
+ // Finalize a symbol. Return whether it should be added to the
+ // symbol table.
+ template<int size>
+ bool
+ sized_finalize_symbol(Symbol*);
+
+ // Add a symbol the final symtab by setting its index.
+ template<int size>
+ void
+ add_to_final_symtab(Symbol*, Stringpool*, unsigned int* pindex, off_t* poff);
// Write globals specialized for size and endianness.
template<int size, bool big_endian>
void
- sized_write_globals(const Target*, const Stringpool*, const Stringpool*,
+ sized_write_globals(const Stringpool*, const Stringpool*,
+ Output_symtab_xindex*, Output_symtab_xindex*,
Output_file*) const;
// Write out a symbol to P.
void
sized_write_symbol(Sized_symbol<size>*,
typename elfcpp::Elf_types<size>::Elf_Addr value,
- unsigned int shndx,
- const Stringpool*, unsigned char* p
- ACCEPT_SIZE_ENDIAN) const;
+ unsigned int shndx, elfcpp::STB,
+ const Stringpool*, unsigned char* p) const;
+
+ // Possibly warn about an undefined symbol from a dynamic object.
+ void
+ warn_about_undefined_dynobj_symbol(Symbol*) const;
// Write out a section symbol, specialized for size and endianness.
template<int size, bool big_endian>
void
- sized_write_section_symbol(const Output_section*, Output_file*, off_t) const;
+ sized_write_section_symbol(const Output_section*, Output_symtab_xindex*,
+ Output_file*, off_t) const;
- // The type of the symbol hash table.
-
- typedef std::pair<Stringpool::Key, Stringpool::Key> Symbol_table_key;
-
- struct Symbol_table_hash
- {
- size_t
- operator()(const Symbol_table_key&) const;
- };
-
- struct Symbol_table_eq
- {
- bool
- operator()(const Symbol_table_key&, const Symbol_table_key&) const;
- };
-
- typedef Unordered_map<Symbol_table_key, Symbol*, Symbol_table_hash,
- Symbol_table_eq> Symbol_table_type;
-
- // The type of the list of common symbols.
- typedef std::vector<Symbol*> Commons_type;
+ // The type of the list of symbols which have been forced local.
+ typedef std::vector<Symbol*> Forced_locals;
// A map from symbols with COPY relocs to the dynamic objects where
// they are defined.
typedef Unordered_map<const Symbol*, Dynobj*> Copied_symbol_dynobjs;
- // A map from symbol name (as a pointer into the namepool) to all
- // the locations the symbols is (weakly) defined (and certain other
- // conditions are met). This map will be used later to detect
- // possible One Definition Rule (ODR) violations.
- struct Symbol_location
- {
- Object* object; // Object where the symbol is defined.
- unsigned int shndx; // Section-in-object where the symbol is defined.
- off_t offset; // Offset-in-section where the symbol is defined.
- bool operator==(const Symbol_location& that) const
- {
- return (this->object == that.object
- && this->shndx == that.shndx
- && this->offset == that.offset);
- }
- };
-
- struct Symbol_location_hash
- {
- size_t operator()(const Symbol_location& loc) const
- { return reinterpret_cast<uintptr_t>(loc.object) ^ loc.offset ^ loc.shndx; }
- };
-
- typedef Unordered_map<const char*,
- Unordered_set<Symbol_location, Symbol_location_hash> >
- Odr_map;
-
// We increment this every time we see a new undefined symbol, for
// use in archive groups.
- int saw_undefined_;
+ size_t saw_undefined_;
// The index of the first global symbol in the output file.
unsigned int first_global_index_;
// The file offset within the output symtab section where we should
// write the table.
off_t offset_;
// The number of global symbols we want to write out.
- size_t output_count_;
+ unsigned int output_count_;
// The file offset of the global dynamic symbols, or 0 if none.
off_t dynamic_offset_;
// The index of the first global dynamic symbol.
unsigned int first_dynamic_global_index_;
// The number of global dynamic symbols, or 0 if none.
- off_t dynamic_count_;
+ unsigned int dynamic_count_;
// The symbol hash table.
Symbol_table_type table_;
// A pool of symbol names. This is used for all global symbols.
// symbol is no longer a common symbol. It may also have become a
// forwarder.
Commons_type commons_;
+ // This is like the commons_ field, except that it holds TLS common
+ // symbols.
+ Commons_type tls_commons_;
+ // This is for small common symbols.
+ Commons_type small_commons_;
+ // This is for large common symbols.
+ Commons_type large_commons_;
+ // A list of symbols which have been forced to be local. We don't
+ // expect there to be very many of them, so we keep a list of them
+ // rather than walking the whole table to find them.
+ Forced_locals forced_locals_;
// Manage symbol warnings.
Warnings warnings_;
// Manage potential One Definition Rule (ODR) violations.
// definition. This maps symbols with COPY relocs to the dynamic
// object where they were defined.
Copied_symbol_dynobjs copied_symbol_dynobjs_;
+ // Information parsed from the version script, if any.
+ const Version_script_info& version_script_;
+ Garbage_collection* gc_;
+ Icf* icf_;
};
// We inline get_sized_symbol for efficiency.
template<int size>
Sized_symbol<size>*
-Symbol_table::get_sized_symbol(Symbol* sym ACCEPT_SIZE) const
+Symbol_table::get_sized_symbol(Symbol* sym) const
{
- gold_assert(size == parameters->get_size());
+ gold_assert(size == parameters->target().get_size());
return static_cast<Sized_symbol<size>*>(sym);
}
template<int size>
const Sized_symbol<size>*
-Symbol_table::get_sized_symbol(const Symbol* sym ACCEPT_SIZE) const
+Symbol_table::get_sized_symbol(const Symbol* sym) const
{
- gold_assert(size == parameters->get_size());
+ gold_assert(size == parameters->target().get_size());
return static_cast<const Sized_symbol<size>*>(sym);
}
projects / deliverable / binutils-gdb.git / blobdiff