diff options
author | Cary Coutant <ccoutant@google.com> | 2012-03-21 19:02:22 +0000 |
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committer | Cary Coutant <ccoutant@google.com> | 2012-03-21 19:02:22 +0000 |
commit | c1027032c2fec15b7a334a09bab8882984716764 (patch) | |
tree | 5f0623fb4d01b2456a7a827e49daf53a6239cb2e /gold/gdb-index.cc | |
parent | bd0b9f9e12441312c46482764448a8a8ce236107 (diff) | |
download | gdb-c1027032c2fec15b7a334a09bab8882984716764.zip gdb-c1027032c2fec15b7a334a09bab8882984716764.tar.gz gdb-c1027032c2fec15b7a334a09bab8882984716764.tar.bz2 |
2012-03-21 Cary Coutant <ccoutant@google.com>
* Makefile.am: Add gdb-index.cc, gdb-index.h.
* Makefile.in: Regenerate.
* dwarf_reader.cc (Sized_elf_reloc_mapper::do_initialize): New function.
(Sized_elf_reloc_mapper::symbol_section): New function.
(Sized_elf_reloc_mapper::do_get_reloc_target): New function.
(make_elf_reloc_mapper): New function.
(Dwarf_abbrev_table::clear_abbrev_codes): New function.
(Dwarf_abbrev_table::do_read_abbrevs): New function.
(Dwarf_abbrev_table::do_get_abbrev): New function.
(Dwarf_ranges_table::read_ranges_table): New function.
(Dwarf_ranges_table::read_range_list): New function.
(Dwarf_pubnames_table::read_section): New function.
(Dwarf_pubnames_table::read_header): New function.
(Dwarf_pubnames_table::next_name): New function.
(Dwarf_die::Dwarf_die): New function.
(Dwarf_die::read_attributes): New function.
(Dwarf_die::skip_attributes): New function.
(Dwarf_die::set_name): New function.
(Dwarf_die::set_linkage_name): New function.
(Dwarf_die::attribute): New function.
(Dwarf_die::string_attribute): New function.
(Dwarf_die::int_attribute): New function.
(Dwarf_die::uint_attribute): New function.
(Dwarf_die::ref_attribute): New function.
(Dwarf_die::child_offset): New function.
(Dwarf_die::sibling_offset): New function.
(Dwarf_info_reader::check_buffer): New function.
(Dwarf_info_reader::parse): New function.
(Dwarf_info_reader::do_parse): New function.
(Dwarf_info_reader::do_read_string_table): New function.
(Dwarf_info_reader::lookup_reloc): New function.
(Dwarf_info_reader::get_string): New function.
(Dwarf_info_reader::visit_compilation_unit): New function.
(Dwarf_info_reader::visit_type_unit): New function.
(Sized_dwarf_line_info::Sized_dwarf_line_info): Use
Sized_elf_reloc_mapper.
(Sized_dwarf_line_info::symbol_section): Remove function.
(Sized_dwarf_line_info::read_relocs): Use Sized_elf_reloc_mapper.
(Sized_dwarf_line_info::read_line_mappings): Remove object
parameter, adjust callers.
(Sized_dwarf_line_info::format_file_lineno): Fix type of cast.
* dwarf_reader.h: Include <sys/types.h>.
(class Track_relocs): Remove forward declaration.
(class Elf_reloc_mapper): New class.
(class Sized_elf_reloc_mapper): New class.
(class Dwarf_abbrev_table): New class.
(class Dwarf_range_list): New class.
(class Dwarf_ranges_table): New class.
(class Dwarf_pubnames_table): New class.
(class Dwarf_die): New class.
(class Dwarf_info_reader): New class.
(Sized_dwarf_line_info::read_line_mappings): Remove object parameter.
(Sized_dwarf_line_info::symbol_section): Remove member function.
* dynobj.h (Sized_dynobj::do_section_contents): Refactor code from
base class.
* gdb-index.cc: New source file.
* gdb-index.h: New source file.
* incremental.cc (Sized_relobj_incr::do_layout): Track .debug_info
and .debug_types sections, call Layout::add_to_gdb_index.
(Sized_relobj_incr::do_section_name): Implement.
(Sized_relobj_incr::do_section_contents): Adjust parameter list and
return type; Implement.
(Sized_incr_dynobj::do_section_contents): Adjust parameter list and
return type.
* incremental.h (Sized_relobj_incr::do_section_contents): Adjust
parameter list and return type.
(Sized_incr_dynobj::do_section_contents): Likewise.
* layout.cc: Include gdb-index.h.
(Layout::Layout): Initialize gdb_index_data_.
(Layout::init_fixed_output_section): Check for .gdb_index section.
(Layout::add_to_gdb_index): New function. Instantiate.
* layout.h: Add forward declaration for class Gdb_index.
(Layout::add_to_gdb_index): New member function.
(Layout::gdb_index_data_): New data member.
* main.cc: Include gdb-index.h.
(main): Print statistics for gdb index.
* object.cc (Object::section_contents): Move code into
do_section_contents.
(need_decompressed_section): Check for sections needed when building
gdb index.
(build_compressed_section_map): Likewise.
(Sized_relobj_file::do_read_symbols): Need local symbols when building
gdb index.
(Sized_relobj_file::do_layout): Track .debug_info and .debug_types
sections; call Layout::add_to_gdb_index.
(Sized_relobj_file::do_decompressed_section_contents): Call
do_section_contents directly.
* object.h (Object::do_section_contents): Adjust parameter list and
return type.
(Object::do_decompressed_section_contents): Call do_section_contents
directly.
(Sized_relobj_file::do_section_contents): Adjust parameter list and
return type.
* options.h (class General_options): Add --gdb-index option.
* plugin.cc (Sized_pluginobj::do_section_contents): Adjust parameter
list and return type.
* plugin.h (Sized_pluginobj::do_section_contents): Likewise.
* reloc.h (Track_relocs::checkpoint): New function.
(Track_relocs::reset): New function.
* testsuite/Makefile.am (gdb_index_test_1.sh, gdb_index_test_2.sh):
New test cases.
* testsuite/Makefile.in: Regenerate.
* testsuite/gdb_index_test.cc: New test source file.
* testsuite/gdb_index_test_1.sh: New test source file.
* testsuite/gdb_index_test_2.sh: New test source file.
Diffstat (limited to 'gold/gdb-index.cc')
-rw-r--r-- | gold/gdb-index.cc | 1229 |
1 files changed, 1229 insertions, 0 deletions
diff --git a/gold/gdb-index.cc b/gold/gdb-index.cc new file mode 100644 index 0000000..11b732a --- /dev/null +++ b/gold/gdb-index.cc @@ -0,0 +1,1229 @@ +// gdb-index.cc -- generate .gdb_index section for fast debug lookup + +// Copyright 2012 Free Software Foundation, Inc. +// Written by Cary Coutant <ccoutant@google.com>. + +// This file is part of gold. + +// This program is free software; you can redistribute it and/or modify +// it under the terms of the GNU General Public License as published by +// the Free Software Foundation; either version 3 of the License, or +// (at your option) any later version. + +// This program is distributed in the hope that it will be useful, +// but WITHOUT ANY WARRANTY; without even the implied warranty of +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +// GNU General Public License for more details. + +// You should have received a copy of the GNU General Public License +// along with this program; if not, write to the Free Software +// Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, +// MA 02110-1301, USA. + +#include "gold.h" + +#include "gdb-index.h" +#include "dwarf_reader.h" +#include "dwarf.h" +#include "object.h" +#include "output.h" +#include "demangle.h" + +namespace gold +{ + +const int gdb_index_version = 5; + +// Sizes of various records in the .gdb_index section. +const int gdb_index_offset_size = 4; +const int gdb_index_hdr_size = 6 * gdb_index_offset_size; +const int gdb_index_cu_size = 16; +const int gdb_index_tu_size = 24; +const int gdb_index_addr_size = 16 + gdb_index_offset_size; +const int gdb_index_sym_size = 2 * gdb_index_offset_size; + +// This class manages the hashed symbol table for the .gdb_index section. +// It is essentially equivalent to the hashtab implementation in libiberty, +// but is copied into gdb sources and here for compatibility because its +// data structure is exposed on disk. + +template <typename T> +class Gdb_hashtab +{ + public: + Gdb_hashtab() + : size_(0), capacity_(0), hashtab_(NULL) + { } + + ~Gdb_hashtab() + { + for (size_t i = 0; i < this->capacity_; ++i) + if (this->hashtab_[i] != NULL) + delete this->hashtab_[i]; + delete[] this->hashtab_; + } + + // Add a symbol. + T* + add(T* symbol) + { + // Resize the hash table if necessary. + if (4 * this->size_ / 3 >= this->capacity_) + this->expand(); + + T** slot = this->find_slot(symbol); + if (*slot == NULL) + { + ++this->size_; + *slot = symbol; + } + + return *slot; + } + + // Return the current size. + size_t + size() const + { return this->size_; } + + // Return the current capacity. + size_t + capacity() const + { return this->capacity_; } + + // Return the contents of slot N. + T* + operator[](size_t n) + { return this->hashtab_[n]; } + + private: + // Find a symbol in the hash table, or return an empty slot if + // the symbol is not in the table. + T** + find_slot(T* symbol) + { + unsigned int index = symbol->hash() & (this->capacity_ - 1); + unsigned int step = ((symbol->hash() * 17) & (this->capacity_ - 1)) | 1; + + for (;;) + { + if (this->hashtab_[index] == NULL + || this->hashtab_[index]->equal(symbol)) + return &this->hashtab_[index]; + index = (index + step) & (this->capacity_ - 1); + } + } + + // Expand the hash table. + void + expand() + { + if (this->capacity_ == 0) + { + // Allocate the hash table for the first time. + this->capacity_ = Gdb_hashtab::initial_size; + this->hashtab_ = new T*[this->capacity_]; + memset(this->hashtab_, 0, this->capacity_ * sizeof(T*)); + } + else + { + // Expand and rehash. + unsigned int old_cap = this->capacity_; + T** old_hashtab = this->hashtab_; + this->capacity_ *= 2; + this->hashtab_ = new T*[this->capacity_]; + memset(this->hashtab_, 0, this->capacity_ * sizeof(T*)); + for (size_t i = 0; i < old_cap; ++i) + { + if (old_hashtab[i] != NULL) + { + T** slot = this->find_slot(old_hashtab[i]); + *slot = old_hashtab[i]; + } + } + delete[] old_hashtab; + } + } + + // Initial size of the hash table; must be a power of 2. + static const int initial_size = 1024; + size_t size_; + size_t capacity_; + T** hashtab_; +}; + +// The hash function for strings in the mapped index. This is copied +// directly from gdb/dwarf2read.c. + +static unsigned int +mapped_index_string_hash(const unsigned char* str) +{ + unsigned int r = 0; + unsigned char c; + + while ((c = *str++) != 0) + { + if (gdb_index_version >= 5) + c = tolower (c); + r = r * 67 + c - 113; + } + + return r; +} + +// A specialization of Dwarf_info_reader, for building the .gdb_index. + +class Gdb_index_info_reader : public Dwarf_info_reader +{ + public: + Gdb_index_info_reader(bool is_type_unit, + Relobj* object, + const unsigned char* symbols, + off_t symbols_size, + unsigned int shndx, + unsigned int reloc_shndx, + unsigned int reloc_type, + Gdb_index* gdb_index) + : Dwarf_info_reader(is_type_unit, object, symbols, symbols_size, shndx, + reloc_shndx, reloc_type), + gdb_index_(gdb_index), cu_index_(0), cu_language_(0) + { } + + ~Gdb_index_info_reader() + { this->clear_declarations(); } + + // Print usage statistics. + static void + print_stats(); + + protected: + // Visit a compilation unit. + virtual void + visit_compilation_unit(off_t cu_offset, off_t cu_length, Dwarf_die*); + + // Visit a type unit. + virtual void + visit_type_unit(off_t tu_offset, off_t type_offset, uint64_t signature, + Dwarf_die*); + + private: + // A map for recording DIEs we've seen that may be referred to be + // later DIEs (via DW_AT_specification or DW_AT_abstract_origin). + // The map is indexed by a DIE offset within the compile unit. + // PARENT_OFFSET_ is the offset of the DIE that represents the + // outer context, and NAME_ is a pointer to a component of the + // fully-qualified name. + // Normally, the names we point to are in a string table, so we don't + // have to manage them, but when we have a fully-qualified name + // computed, we put it in the table, and set PARENT_OFFSET_ to -1 + // indicate a string that we are managing. + struct Declaration_pair + { + Declaration_pair(off_t parent_offset, const char* name) + : parent_offset_(parent_offset), name_(name) + { } + + off_t parent_offset_; + const char* name_; + }; + typedef Unordered_map<off_t, Declaration_pair> Declaration_map; + + // Visit a top-level DIE. + void + visit_top_die(Dwarf_die* die); + + // Visit the children of a DIE. + void + visit_children(Dwarf_die* die, Dwarf_die* context); + + // Visit a DIE. + void + visit_die(Dwarf_die* die, Dwarf_die* context); + + // Visit the children of a DIE. + void + visit_children_for_decls(Dwarf_die* die); + + // Visit a DIE. + void + visit_die_for_decls(Dwarf_die* die, Dwarf_die* context); + + // Guess a fully-qualified name for a class type, based on member function + // linkage names. + std::string + guess_full_class_name(Dwarf_die* die); + + // Add a declaration DIE to the table of declarations. + void + add_declaration(Dwarf_die* die, Dwarf_die* context); + + // Add a declaration whose fully-qualified name is already known. + void + add_declaration_with_full_name(Dwarf_die* die, const char* full_name); + + // Return the context for a DIE whose parent is at DIE_OFFSET. + std::string + get_context(off_t die_offset); + + // Construct a fully-qualified name for DIE. + std::string + get_qualified_name(Dwarf_die* die, Dwarf_die* context); + + // Record the address ranges for a compilation unit. + void + record_cu_ranges(Dwarf_die* die); + + // Read the .debug_pubnames and .debug_pubtypes tables. + bool + read_pubnames_and_pubtypes(Dwarf_die* die); + + // Clear the declarations map. + void + clear_declarations(); + + // The Gdb_index section. + Gdb_index* gdb_index_; + // The current CU index (negative for a TU). + int cu_index_; + // The language of the current CU or TU. + unsigned int cu_language_; + // Map from DIE offset to (parent offset, name) pair, + // for DW_AT_specification. + Declaration_map declarations_; + + // Statistics. + // Total number of DWARF compilation units processed. + static unsigned int dwarf_cu_count; + // Number of DWARF compilation units with pubnames/pubtypes. + static unsigned int dwarf_cu_nopubnames_count; + // Total number of DWARF type units processed. + static unsigned int dwarf_tu_count; + // Number of DWARF type units with pubnames/pubtypes. + static unsigned int dwarf_tu_nopubnames_count; +}; + +// Total number of DWARF compilation units processed. +unsigned int Gdb_index_info_reader::dwarf_cu_count = 0; +// Number of DWARF compilation units without pubnames/pubtypes. +unsigned int Gdb_index_info_reader::dwarf_cu_nopubnames_count = 0; +// Total number of DWARF type units processed. +unsigned int Gdb_index_info_reader::dwarf_tu_count = 0; +// Number of DWARF type units without pubnames/pubtypes. +unsigned int Gdb_index_info_reader::dwarf_tu_nopubnames_count = 0; + +// Process a compilation unit and parse its child DIE. + +void +Gdb_index_info_reader::visit_compilation_unit(off_t cu_offset, off_t cu_length, + Dwarf_die* root_die) +{ + ++Gdb_index_info_reader::dwarf_cu_count; + this->cu_index_ = this->gdb_index_->add_comp_unit(cu_offset, cu_length); + this->visit_top_die(root_die); +} + +// Process a type unit and parse its child DIE. + +void +Gdb_index_info_reader::visit_type_unit(off_t tu_offset, off_t type_offset, + uint64_t signature, Dwarf_die* root_die) +{ + ++Gdb_index_info_reader::dwarf_tu_count; + // Use a negative index to flag this as a TU instead of a CU. + this->cu_index_ = -1 - this->gdb_index_->add_type_unit(tu_offset, type_offset, + signature); + this->visit_top_die(root_die); +} + +// Process a top-level DIE. +// For compile_unit DIEs, record the address ranges. For all +// interesting tags, add qualified names to the symbol table +// and process interesting children. We may need to process +// certain children just for saving declarations that might be +// referenced by later DIEs with a DW_AT_specification attribute. + +void +Gdb_index_info_reader::visit_top_die(Dwarf_die* die) +{ + this->clear_declarations(); + + switch (die->tag()) + { + case elfcpp::DW_TAG_compile_unit: + case elfcpp::DW_TAG_type_unit: + this->cu_language_ = die->int_attribute(elfcpp::DW_AT_language); + // Check for languages that require specialized knowledge to + // construct fully-qualified names, that we don't yet support. + if (this->cu_language_ == elfcpp::DW_LANG_Ada83 + || this->cu_language_ == elfcpp::DW_LANG_Fortran77 + || this->cu_language_ == elfcpp::DW_LANG_Fortran90 + || this->cu_language_ == elfcpp::DW_LANG_Java + || this->cu_language_ == elfcpp::DW_LANG_Ada95 + || this->cu_language_ == elfcpp::DW_LANG_Fortran95) + { + gold_warning(_("%s: --gdb-index currently supports " + "only C and C++ languages"), + this->object()->name().c_str()); + return; + } + if (die->tag() == elfcpp::DW_TAG_compile_unit) + this->record_cu_ranges(die); + // If there is a pubnames and/or pubtypes section for this + // compilation unit, use those; otherwise, parse the DWARF + // info to extract the names. + if (!this->read_pubnames_and_pubtypes(die)) + { + if (die->tag() == elfcpp::DW_TAG_compile_unit) + ++Gdb_index_info_reader::dwarf_cu_nopubnames_count; + else + ++Gdb_index_info_reader::dwarf_tu_nopubnames_count; + this->visit_children(die, NULL); + } + break; + default: + // The top level DIE should be one of the above. + gold_warning(_("%s: top level DIE is not DW_TAG_compile_unit " + "or DW_TAG_type_unit"), + this->object()->name().c_str()); + return; + } + +} + +// Visit the children of PARENT, looking for symbols to add to the index. +// CONTEXT points to the DIE to use for constructing the qualified name -- +// NULL if PARENT is the top-level DIE; otherwise it is the same as PARENT. + +void +Gdb_index_info_reader::visit_children(Dwarf_die* parent, Dwarf_die* context) +{ + off_t next_offset = 0; + for (off_t die_offset = parent->child_offset(); + die_offset != 0; + die_offset = next_offset) + { + Dwarf_die die(this, die_offset, parent); + if (die.tag() == 0) + break; + this->visit_die(&die, context); + next_offset = die.sibling_offset(); + } +} + +// Visit a child DIE, looking for symbols to add to the index. +// CONTEXT is the parent DIE, used for constructing the qualified name; +// it is NULL if the parent DIE is the top-level DIE. + +void +Gdb_index_info_reader::visit_die(Dwarf_die* die, Dwarf_die* context) +{ + switch (die->tag()) + { + case elfcpp::DW_TAG_subprogram: + case elfcpp::DW_TAG_constant: + case elfcpp::DW_TAG_variable: + case elfcpp::DW_TAG_enumerator: + case elfcpp::DW_TAG_base_type: + if (die->is_declaration()) + this->add_declaration(die, context); + else + { + // If the DIE is not a declaration, add it to the index. + std::string full_name = this->get_qualified_name(die, context); + if (!full_name.empty()) + this->gdb_index_->add_symbol(this->cu_index_, full_name.c_str()); + } + break; + case elfcpp::DW_TAG_typedef: + case elfcpp::DW_TAG_union_type: + case elfcpp::DW_TAG_class_type: + case elfcpp::DW_TAG_interface_type: + case elfcpp::DW_TAG_structure_type: + case elfcpp::DW_TAG_enumeration_type: + case elfcpp::DW_TAG_subrange_type: + case elfcpp::DW_TAG_namespace: + { + std::string full_name; + + // For classes at the top level, we need to look for a + // member function with a linkage name in order to get + // the properly-canonicalized name. + if (context == NULL + && (die->tag() == elfcpp::DW_TAG_class_type + || die->tag() == elfcpp::DW_TAG_structure_type + || die->tag() == elfcpp::DW_TAG_union_type)) + full_name.assign(this->guess_full_class_name(die)); + + // Because we will visit the children, we need to add this DIE + // to the declarations table. + if (full_name.empty()) + this->add_declaration(die, context); + else + this->add_declaration_with_full_name(die, full_name.c_str()); + + // If the DIE is not a declaration, add it to the index. + // Gdb stores a namespace in the index even when it is + // a declaration. + if (die->tag() == elfcpp::DW_TAG_namespace + || !die->is_declaration()) + { + if (full_name.empty()) + full_name = this->get_qualified_name(die, context); + if (!full_name.empty()) + this->gdb_index_->add_symbol(this->cu_index_, + full_name.c_str()); + } + + // We're interested in the children only for namespaces and + // enumeration types. For enumeration types, we do not include + // the enumeration tag as part of the full name. For other tags, + // visit the children only to collect declarations. + if (die->tag() == elfcpp::DW_TAG_namespace + || die->tag() == elfcpp::DW_TAG_enumeration_type) + this->visit_children(die, die); + else + this->visit_children_for_decls(die); + } + break; + default: + break; + } +} + +// Visit the children of PARENT, looking only for declarations that +// may be referenced by later specification DIEs. + +void +Gdb_index_info_reader::visit_children_for_decls(Dwarf_die* parent) +{ + off_t next_offset = 0; + for (off_t die_offset = parent->child_offset(); + die_offset != 0; + die_offset = next_offset) + { + Dwarf_die die(this, die_offset, parent); + if (die.tag() == 0) + break; + this->visit_die_for_decls(&die, parent); + next_offset = die.sibling_offset(); + } +} + +// Visit a child DIE, looking only for declarations that +// may be referenced by later specification DIEs. + +void +Gdb_index_info_reader::visit_die_for_decls(Dwarf_die* die, Dwarf_die* context) +{ + switch (die->tag()) + { + case elfcpp::DW_TAG_subprogram: + case elfcpp::DW_TAG_constant: + case elfcpp::DW_TAG_variable: + case elfcpp::DW_TAG_enumerator: + case elfcpp::DW_TAG_base_type: + { + if (die->is_declaration()) + this->add_declaration(die, context); + } + break; + case elfcpp::DW_TAG_typedef: + case elfcpp::DW_TAG_union_type: + case elfcpp::DW_TAG_class_type: + case elfcpp::DW_TAG_interface_type: + case elfcpp::DW_TAG_structure_type: + case elfcpp::DW_TAG_enumeration_type: + case elfcpp::DW_TAG_subrange_type: + case elfcpp::DW_TAG_namespace: + { + if (die->is_declaration()) + this->add_declaration(die, context); + this->visit_children_for_decls(die); + } + break; + default: + break; + } +} + +// Extract the class name from the linkage name of a member function. +// This code is adapted from ../gdb/cp-support.c. + +#define d_left(dc) (dc)->u.s_binary.left +#define d_right(dc) (dc)->u.s_binary.right + +static char* +class_name_from_linkage_name(const char* linkage_name) +{ + void* storage; + struct demangle_component* tree = + cplus_demangle_v3_components(linkage_name, DMGL_NO_OPTS, &storage); + if (tree == NULL) + return NULL; + + int done = 0; + + // First strip off any qualifiers, if we have a function or + // method. + while (!done) + switch (tree->type) + { + case DEMANGLE_COMPONENT_CONST: + case DEMANGLE_COMPONENT_RESTRICT: + case DEMANGLE_COMPONENT_VOLATILE: + case DEMANGLE_COMPONENT_CONST_THIS: + case DEMANGLE_COMPONENT_RESTRICT_THIS: + case DEMANGLE_COMPONENT_VOLATILE_THIS: + case DEMANGLE_COMPONENT_VENDOR_TYPE_QUAL: + tree = d_left(tree); + break; + default: + done = 1; + break; + } + + // If what we have now is a function, discard the argument list. + if (tree->type == DEMANGLE_COMPONENT_TYPED_NAME) + tree = d_left(tree); + + // If what we have now is a template, strip off the template + // arguments. The left subtree may be a qualified name. + if (tree->type == DEMANGLE_COMPONENT_TEMPLATE) + tree = d_left(tree); + + // What we have now should be a name, possibly qualified. + // Additional qualifiers could live in the left subtree or the right + // subtree. Find the last piece. + done = 0; + struct demangle_component* prev_comp = NULL; + struct demangle_component* cur_comp = tree; + while (!done) + switch (cur_comp->type) + { + case DEMANGLE_COMPONENT_QUAL_NAME: + case DEMANGLE_COMPONENT_LOCAL_NAME: + prev_comp = cur_comp; + cur_comp = d_right(cur_comp); + break; + case DEMANGLE_COMPONENT_TEMPLATE: + case DEMANGLE_COMPONENT_NAME: + case DEMANGLE_COMPONENT_CTOR: + case DEMANGLE_COMPONENT_DTOR: + case DEMANGLE_COMPONENT_OPERATOR: + case DEMANGLE_COMPONENT_EXTENDED_OPERATOR: + done = 1; + break; + default: + done = 1; + cur_comp = NULL; + break; + } + + char* ret = NULL; + if (cur_comp != NULL && prev_comp != NULL) + { + // We want to discard the rightmost child of PREV_COMP. + *prev_comp = *d_left(prev_comp); + size_t allocated_size; + ret = cplus_demangle_print(DMGL_NO_OPTS, tree, 30, &allocated_size); + } + + free(storage); + return ret; +} + +// Guess a fully-qualified name for a class type, based on member function +// linkage names. This is needed for class/struct/union types at the +// top level, because GCC does not always properly embed them within +// the namespace. As in gdb, we look for a member function with a linkage +// name and extract the qualified name from the demangled name. + +std::string +Gdb_index_info_reader::guess_full_class_name(Dwarf_die* die) +{ + std::string full_name; + off_t next_offset = 0; + + // This routine scans ahead in the DIE structure, possibly advancing + // the relocation tracker beyond the current DIE. We need to checkpoint + // the tracker and reset it when we're done. + uint64_t checkpoint = this->get_reloc_checkpoint(); + + for (off_t child_offset = die->child_offset(); + child_offset != 0; + child_offset = next_offset) + { + Dwarf_die child(this, child_offset, die); + if (child.tag() == 0) + break; + if (child.tag() == elfcpp::DW_TAG_subprogram) + { + const char* linkage_name = child.linkage_name(); + if (linkage_name != NULL) + { + char* guess = class_name_from_linkage_name(linkage_name); + if (guess != NULL) + { + full_name.assign(guess); + free(guess); + break; + } + } + } + next_offset = child.sibling_offset(); + } + + this->reset_relocs(checkpoint); + return full_name; +} + +// Add a declaration DIE to the table of declarations. + +void +Gdb_index_info_reader::add_declaration(Dwarf_die* die, Dwarf_die* context) +{ + const char* name = die->name(); + + off_t parent_offset = context != NULL ? context->offset() : 0; + + // If this DIE has a DW_AT_specification or DW_AT_abstract_origin + // attribute, use the parent and name from the earlier declaration. + off_t spec = die->specification(); + if (spec == 0) + spec = die->abstract_origin(); + if (spec > 0) + { + Declaration_map::iterator it = this->declarations_.find(spec); + if (it != this->declarations_.end()) + { + parent_offset = it->second.parent_offset_; + name = it->second.name_; + } + } + + if (name == NULL) + { + if (die->tag() == elfcpp::DW_TAG_namespace) + name = "(anonymous namespace)"; + else if (die->tag() == elfcpp::DW_TAG_union_type) + name = "(anonymous union)"; + else + name = "(unknown)"; + } + + Declaration_pair decl(parent_offset, name); + this->declarations_.insert(std::make_pair(die->offset(), decl)); +} + +// Add a declaration whose fully-qualified name is already known. +// In the case where we had to get the canonical name by demangling +// a linkage name, this ensures we use that name instead of the one +// provided in DW_AT_name. + +void +Gdb_index_info_reader::add_declaration_with_full_name( + Dwarf_die* die, + const char* full_name) +{ + // We need to copy the name. + int len = strlen(full_name); + char* copy = new char[len + 1]; + memcpy(copy, full_name, len + 1); + + // Flag that we now manage the memory this points to. + Declaration_pair decl(-1, copy); + this->declarations_.insert(std::make_pair(die->offset(), decl)); +} + +// Return the context for a DIE whose parent is at DIE_OFFSET. + +std::string +Gdb_index_info_reader::get_context(off_t die_offset) +{ + std::string context; + Declaration_map::iterator it = this->declarations_.find(die_offset); + if (it != this->declarations_.end()) + { + off_t parent_offset = it->second.parent_offset_; + if (parent_offset > 0) + { + context = get_context(parent_offset); + context.append("::"); + } + if (it->second.name_ != NULL) + context.append(it->second.name_); + } + return context; +} + +// Construct the fully-qualified name for DIE. + +std::string +Gdb_index_info_reader::get_qualified_name(Dwarf_die* die, Dwarf_die* context) +{ + std::string full_name; + const char* name = die->name(); + + off_t parent_offset = context != NULL ? context->offset() : 0; + + // If this DIE has a DW_AT_specification or DW_AT_abstract_origin + // attribute, use the parent and name from the earlier declaration. + off_t spec = die->specification(); + if (spec == 0) + spec = die->abstract_origin(); + if (spec > 0) + { + Declaration_map::iterator it = this->declarations_.find(spec); + if (it != this->declarations_.end()) + { + parent_offset = it->second.parent_offset_; + name = it->second.name_; + } + } + + if (name == NULL && die->tag() == elfcpp::DW_TAG_namespace) + name = "(anonymous namespace)"; + else if (name == NULL) + return full_name; + + // If this is an enumerator constant, skip the immediate parent, + // which is the enumeration tag. + if (die->tag() == elfcpp::DW_TAG_enumerator) + { + Declaration_map::iterator it = this->declarations_.find(parent_offset); + if (it != this->declarations_.end()) + parent_offset = it->second.parent_offset_; + } + + if (parent_offset > 0) + { + full_name.assign(this->get_context(parent_offset)); + full_name.append("::"); + } + full_name.append(name); + + return full_name; +} + +// Record the address ranges for a compilation unit. + +void +Gdb_index_info_reader::record_cu_ranges(Dwarf_die* die) +{ + unsigned int shndx; + unsigned int shndx2; + + off_t ranges_offset = die->ref_attribute(elfcpp::DW_AT_ranges, &shndx); + if (ranges_offset != -1) + { + Dwarf_range_list* ranges = this->read_range_list(shndx, ranges_offset); + if (ranges != NULL) + this->gdb_index_->add_address_range_list(this->object(), + this->cu_index_, ranges); + return; + } + + off_t low_pc = die->ref_attribute(elfcpp::DW_AT_low_pc, &shndx); + off_t high_pc = die->ref_attribute(elfcpp::DW_AT_high_pc, &shndx2); + if (low_pc != 0 && high_pc != 0 && low_pc != -1 && high_pc != -1) + { + if (shndx != shndx2) + { + gold_warning(_("%s: DWARF info may be corrupt; low_pc and high_pc " + "are in different sections"), + this->object()->name().c_str()); + return; + } + if (shndx == 0 || this->object()->is_section_included(shndx)) + { + Dwarf_range_list* ranges = new Dwarf_range_list(); + ranges->add(shndx, low_pc, high_pc); + this->gdb_index_->add_address_range_list(this->object(), + this->cu_index_, ranges); + } + } +} + +// Read the .debug_pubnames and .debug_pubtypes tables for the CU or TU. +// Returns TRUE if either a pubnames or pubtypes section was found. + +bool +Gdb_index_info_reader::read_pubnames_and_pubtypes(Dwarf_die* die) +{ + bool ret = false; + + // If we find a DW_AT_GNU_pubnames attribute, read the pubnames table. + unsigned int pubnames_shndx; + off_t pubnames_offset = die->ref_attribute(elfcpp::DW_AT_GNU_pubnames, + &pubnames_shndx); + if (pubnames_offset != -1) + { + if (this->gdb_index_->pubnames_read(pubnames_shndx, pubnames_offset)) + ret = true; + else + { + Dwarf_pubnames_table pubnames(false); + if (!pubnames.read_section(this->object(), pubnames_shndx)) + return false; + if (!pubnames.read_header(pubnames_offset)) + return false; + while (true) + { + const char* name = pubnames.next_name(); + if (name == NULL) + break; + this->gdb_index_->add_symbol(this->cu_index_, name); + } + ret = true; + } + } + + // If we find a DW_AT_GNU_pubtypes attribute, read the pubtypes table. + unsigned int pubtypes_shndx; + off_t pubtypes_offset = die->ref_attribute(elfcpp::DW_AT_GNU_pubtypes, + &pubtypes_shndx); + if (pubtypes_offset != -1) + { + if (this->gdb_index_->pubtypes_read(pubtypes_shndx, pubtypes_offset)) + ret = true; + else + { + Dwarf_pubnames_table pubtypes(true); + if (!pubtypes.read_section(this->object(), pubtypes_shndx)) + return false; + if (!pubtypes.read_header(pubtypes_offset)) + return false; + while (true) + { + const char* name = pubtypes.next_name(); + if (name == NULL) + break; + this->gdb_index_->add_symbol(this->cu_index_, name); + } + ret = true; + } + } + + return ret; +} + +// Clear the declarations map. +void +Gdb_index_info_reader::clear_declarations() +{ + // Free strings in memory we manage. + for (Declaration_map::iterator it = this->declarations_.begin(); + it != this->declarations_.end(); + ++it) + { + if (it->second.parent_offset_ == -1) + delete[] it->second.name_; + } + + this->declarations_.clear(); +} + +// Print usage statistics. +void +Gdb_index_info_reader::print_stats() +{ + fprintf(stderr, _("%s: DWARF CUs: %u\n"), + program_name, Gdb_index_info_reader::dwarf_cu_count); + fprintf(stderr, _("%s: DWARF CUs without pubnames/pubtypes: %u\n"), + program_name, Gdb_index_info_reader::dwarf_cu_nopubnames_count); + fprintf(stderr, _("%s: DWARF TUs: %u\n"), + program_name, Gdb_index_info_reader::dwarf_tu_count); + fprintf(stderr, _("%s: DWARF TUs without pubnames/pubtypes: %u\n"), + program_name, Gdb_index_info_reader::dwarf_tu_nopubnames_count); +} + +// Class Gdb_index. + +// Construct the .gdb_index section. + +Gdb_index::Gdb_index(Output_section* gdb_index_section) + : Output_section_data(4), + gdb_index_section_(gdb_index_section), + comp_units_(), + type_units_(), + ranges_(), + cu_vector_list_(), + cu_vector_offsets_(NULL), + stringpool_(), + tu_offset_(0), + addr_offset_(0), + symtab_offset_(0), + cu_pool_offset_(0), + stringpool_offset_(0), + pubnames_shndx_(0), + pubnames_offset_(0), + pubtypes_shndx_(0), + pubtypes_offset_(0) +{ + this->gdb_symtab_ = new Gdb_hashtab<Gdb_symbol>(); +} + +Gdb_index::~Gdb_index() +{ + // Free the memory used by the symbol table. + delete this->gdb_symtab_; + // Free the memory used by the CU vectors. + for (unsigned int i = 0; i < this->cu_vector_list_.size(); ++i) + delete this->cu_vector_list_[i]; +} + +// Scan a .debug_info or .debug_types input section. + +void +Gdb_index::scan_debug_info(bool is_type_unit, + Relobj* object, + const unsigned char* symbols, + off_t symbols_size, + unsigned int shndx, + unsigned int reloc_shndx, + unsigned int reloc_type) +{ + Gdb_index_info_reader dwinfo(is_type_unit, object, + symbols, symbols_size, + shndx, reloc_shndx, + reloc_type, this); + dwinfo.parse(); +} + +// Add a symbol. + +void +Gdb_index::add_symbol(int cu_index, const char* sym_name) +{ + unsigned int hash = mapped_index_string_hash( + reinterpret_cast<const unsigned char*>(sym_name)); + Gdb_symbol* sym = new Gdb_symbol(); + this->stringpool_.add(sym_name, true, &sym->name_key); + sym->hashval = hash; + sym->cu_vector_index = 0; + + Gdb_symbol* found = this->gdb_symtab_->add(sym); + if (found == sym) + { + // New symbol -- allocate a new CU index vector. + found->cu_vector_index = this->cu_vector_list_.size(); + this->cu_vector_list_.push_back(new Cu_vector()); + } + else + { + // Found an existing symbol -- append to the existing + // CU index vector. + delete sym; + } + + // Add the CU index to the vector list for this symbol, + // if it's not already on the list. We only need to + // check the last added entry. + Cu_vector* cu_vec = this->cu_vector_list_[found->cu_vector_index]; + if (cu_vec->size() == 0 || cu_vec->back() != cu_index) + cu_vec->push_back(cu_index); +} + +// Return TRUE if we have already processed the pubnames set at +// OFFSET in section SHNDX + +bool +Gdb_index::pubnames_read(unsigned int shndx, off_t offset) +{ + bool ret = (this->pubnames_shndx_ == shndx + && this->pubnames_offset_ == offset); + this->pubnames_shndx_ = shndx; + this->pubnames_offset_ = offset; + return ret; +} + +// Return TRUE if we have already processed the pubtypes set at +// OFFSET in section SHNDX + +bool +Gdb_index::pubtypes_read(unsigned int shndx, off_t offset) +{ + bool ret = (this->pubtypes_shndx_ == shndx + && this->pubtypes_offset_ == offset); + this->pubtypes_shndx_ = shndx; + this->pubtypes_offset_ = offset; + return ret; +} + +// Set the size of the .gdb_index section. + +void +Gdb_index::set_final_data_size() +{ + // Finalize the string pool. + this->stringpool_.set_string_offsets(); + + // Compute the total size of the CU vectors. + // For each CU vector, include one entry for the count at the + // beginning of the vector. + unsigned int cu_vector_count = this->cu_vector_list_.size(); + unsigned int cu_vector_size = 0; + this->cu_vector_offsets_ = new off_t[cu_vector_count]; + for (unsigned int i = 0; i < cu_vector_count; ++i) + { + Cu_vector* cu_vec = this->cu_vector_list_[i]; + cu_vector_offsets_[i] = cu_vector_size; + cu_vector_size += gdb_index_offset_size * (cu_vec->size() + 1); + } + + // Assign relative offsets to each portion of the index, + // and find the total size of the section. + section_size_type data_size = gdb_index_hdr_size; + data_size += this->comp_units_.size() * gdb_index_cu_size; + this->tu_offset_ = data_size; + data_size += this->type_units_.size() * gdb_index_tu_size; + this->addr_offset_ = data_size; + for (unsigned int i = 0; i < this->ranges_.size(); ++i) + data_size += this->ranges_[i].ranges->size() * gdb_index_addr_size; + this->symtab_offset_ = data_size; + data_size += this->gdb_symtab_->capacity() * gdb_index_sym_size; + this->cu_pool_offset_ = data_size; + data_size += cu_vector_size; + this->stringpool_offset_ = data_size; + data_size += this->stringpool_.get_strtab_size(); + + this->set_data_size(data_size); +} + +// Write the data to the file. + +void +Gdb_index::do_write(Output_file* of) +{ + const off_t off = this->offset(); + const off_t oview_size = this->data_size(); + unsigned char* const oview = of->get_output_view(off, oview_size); + unsigned char* pov = oview; + + // Write the file header. + // (1) Version number. + elfcpp::Swap<32, false>::writeval(pov, gdb_index_version); + pov += 4; + // (2) Offset of the CU list. + elfcpp::Swap<32, false>::writeval(pov, gdb_index_hdr_size); + pov += 4; + // (3) Offset of the types CU list. + elfcpp::Swap<32, false>::writeval(pov, this->tu_offset_); + pov += 4; + // (4) Offset of the address area. + elfcpp::Swap<32, false>::writeval(pov, this->addr_offset_); + pov += 4; + // (5) Offset of the symbol table. + elfcpp::Swap<32, false>::writeval(pov, this->symtab_offset_); + pov += 4; + // (6) Offset of the constant pool. + elfcpp::Swap<32, false>::writeval(pov, this->cu_pool_offset_); + pov += 4; + + gold_assert(pov - oview == gdb_index_hdr_size); + + // Write the CU list. + unsigned int comp_units_count = this->comp_units_.size(); + for (unsigned int i = 0; i < comp_units_count; ++i) + { + const Comp_unit& cu = this->comp_units_[i]; + elfcpp::Swap<64, false>::writeval(pov, cu.cu_offset); + elfcpp::Swap<64, false>::writeval(pov + 8, cu.cu_length); + pov += 16; + } + + gold_assert(pov - oview == this->tu_offset_); + + // Write the types CU list. + for (unsigned int i = 0; i < this->type_units_.size(); ++i) + { + const Type_unit& tu = this->type_units_[i]; + elfcpp::Swap<64, false>::writeval(pov, tu.tu_offset); + elfcpp::Swap<64, false>::writeval(pov + 8, tu.type_offset); + elfcpp::Swap<64, false>::writeval(pov + 16, tu.type_signature); + pov += 24; + } + + gold_assert(pov - oview == this->addr_offset_); + + // Write the address area. + for (unsigned int i = 0; i < this->ranges_.size(); ++i) + { + int cu_index = this->ranges_[i].cu_index; + // Translate negative indexes, which refer to a TU, to a + // logical index into a concatenated CU/TU list. + if (cu_index < 0) + cu_index = comp_units_count + (-1 - cu_index); + Relobj* object = this->ranges_[i].object; + const Dwarf_range_list& ranges = *this->ranges_[i].ranges; + for (unsigned int j = 0; j < ranges.size(); ++j) + { + const Dwarf_range_list::Range& range = ranges[j]; + uint64_t base = 0; + if (range.shndx > 0) + { + const Output_section* os = object->output_section(range.shndx); + base = (os->address() + + object->output_section_offset(range.shndx)); + } + elfcpp::Swap<64, false>::writeval(pov, base + range.start); + elfcpp::Swap<64, false>::writeval(pov + 8, base + range.end); + elfcpp::Swap<32, false>::writeval(pov + 16, cu_index); + pov += 20; + } + } + + gold_assert(pov - oview == this->symtab_offset_); + + // Write the symbol table. + for (unsigned int i = 0; i < this->gdb_symtab_->capacity(); ++i) + { + const Gdb_symbol* sym = (*this->gdb_symtab_)[i]; + section_offset_type name_offset = 0; + unsigned int cu_vector_offset = 0; + if (sym != NULL) + { + name_offset = (this->stringpool_.get_offset_from_key(sym->name_key) + + this->stringpool_offset_ - this->cu_pool_offset_); + cu_vector_offset = this->cu_vector_offsets_[sym->cu_vector_index]; + } + elfcpp::Swap<32, false>::writeval(pov, name_offset); + elfcpp::Swap<32, false>::writeval(pov + 4, cu_vector_offset); + pov += 8; + } + + gold_assert(pov - oview == this->cu_pool_offset_); + + // Write the CU vectors into the constant pool. + for (unsigned int i = 0; i < this->cu_vector_list_.size(); ++i) + { + Cu_vector* cu_vec = this->cu_vector_list_[i]; + elfcpp::Swap<32, false>::writeval(pov, cu_vec->size()); + pov += 4; + for (unsigned int j = 0; j < cu_vec->size(); ++j) + { + int cu_index = (*cu_vec)[j]; + if (cu_index < 0) + cu_index = comp_units_count + (-1 - cu_index); + elfcpp::Swap<32, false>::writeval(pov, cu_index); + pov += 4; + } + } + + gold_assert(pov - oview == this->stringpool_offset_); + + // Write the strings into the constant pool. + this->stringpool_.write_to_buffer(pov, oview_size - this->stringpool_offset_); + + of->write_output_view(off, oview_size, oview); +} + +// Print usage statistics. +void +Gdb_index::print_stats() +{ + if (parameters->options().gdb_index()) + Gdb_index_info_reader::print_stats(); +} + +} // End namespace gold. |