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|
// dynobj.cc -- dynamic object support for gold
#include "gold.h"
#include <vector>
#include <cstring>
#include "symtab.h"
#include "dynobj.h"
namespace gold
{
// Class Sized_dynobj.
template<int size, bool big_endian>
Sized_dynobj<size, big_endian>::Sized_dynobj(
const std::string& name,
Input_file* input_file,
off_t offset,
const elfcpp::Ehdr<size, big_endian>& ehdr)
: Dynobj(name, input_file, offset),
elf_file_(this, ehdr),
soname_()
{
}
// Set up the object.
template<int size, bool big_endian>
void
Sized_dynobj<size, big_endian>::setup(
const elfcpp::Ehdr<size, big_endian>& ehdr)
{
this->set_target(ehdr.get_e_machine(), size, big_endian,
ehdr.get_e_ident()[elfcpp::EI_OSABI],
ehdr.get_e_ident()[elfcpp::EI_ABIVERSION]);
const unsigned int shnum = this->elf_file_.shnum();
this->set_shnum(shnum);
}
// Find the SHT_DYNSYM section and the various version sections, and
// the dynamic section, given the section headers.
template<int size, bool big_endian>
void
Sized_dynobj<size, big_endian>::find_dynsym_sections(
const unsigned char* pshdrs,
unsigned int* pdynsym_shndx,
unsigned int* pversym_shndx,
unsigned int* pverdef_shndx,
unsigned int* pverneed_shndx,
unsigned int* pdynamic_shndx)
{
*pdynsym_shndx = -1U;
*pversym_shndx = -1U;
*pverdef_shndx = -1U;
*pverneed_shndx = -1U;
*pdynamic_shndx = -1U;
const unsigned int shnum = this->shnum();
const unsigned char* p = pshdrs;
for (unsigned int i = 0; i < shnum; ++i, p += This::shdr_size)
{
typename This::Shdr shdr(p);
unsigned int* pi;
switch (shdr.get_sh_type())
{
case elfcpp::SHT_DYNSYM:
pi = pdynsym_shndx;
break;
case elfcpp::SHT_GNU_versym:
pi = pversym_shndx;
break;
case elfcpp::SHT_GNU_verdef:
pi = pverdef_shndx;
break;
case elfcpp::SHT_GNU_verneed:
pi = pverneed_shndx;
break;
case elfcpp::SHT_DYNAMIC:
pi = pdynamic_shndx;
break;
default:
pi = NULL;
break;
}
if (pi == NULL)
continue;
if (*pi != -1U)
{
fprintf(stderr,
_("%s: %s: unexpected duplicate type %u section: %u, %u\n"),
program_name, this->name().c_str(), shdr.get_sh_type(),
*pi, i);
gold_exit(false);
}
*pi = i;
}
}
// Read the contents of section SHNDX. PSHDRS points to the section
// headers. TYPE is the expected section type. LINK is the expected
// section link. Store the data in *VIEW and *VIEW_SIZE. The
// section's sh_info field is stored in *VIEW_INFO.
template<int size, bool big_endian>
void
Sized_dynobj<size, big_endian>::read_dynsym_section(
const unsigned char* pshdrs,
unsigned int shndx,
elfcpp::SHT type,
unsigned int link,
File_view** view,
off_t* view_size,
unsigned int* view_info)
{
if (shndx == -1U)
{
*view = NULL;
*view_size = 0;
*view_info = 0;
return;
}
typename This::Shdr shdr(pshdrs + shndx * This::shdr_size);
assert(shdr.get_sh_type() == type);
if (shdr.get_sh_link() != link)
{
fprintf(stderr,
_("%s: %s: unexpected link in section %u header: %u != %u\n"),
program_name, this->name().c_str(), shndx,
shdr.get_sh_link(), link);
gold_exit(false);
}
*view = this->get_lasting_view(shdr.get_sh_offset(), shdr.get_sh_size());
*view_size = shdr.get_sh_size();
*view_info = shdr.get_sh_info();
}
// Set soname_ if this shared object has a DT_SONAME tag. PSHDRS
// points to the section headers. DYNAMIC_SHNDX is the section index
// of the SHT_DYNAMIC section. STRTAB_SHNDX, STRTAB, and STRTAB_SIZE
// are the section index and contents of a string table which may be
// the one associated with the SHT_DYNAMIC section.
template<int size, bool big_endian>
void
Sized_dynobj<size, big_endian>::set_soname(const unsigned char* pshdrs,
unsigned int dynamic_shndx,
unsigned int strtab_shndx,
const unsigned char* strtabu,
off_t strtab_size)
{
typename This::Shdr dynamicshdr(pshdrs + dynamic_shndx * This::shdr_size);
assert(dynamicshdr.get_sh_type() == elfcpp::SHT_DYNAMIC);
const off_t dynamic_size = dynamicshdr.get_sh_size();
const unsigned char* pdynamic = this->get_view(dynamicshdr.get_sh_offset(),
dynamic_size);
const unsigned int link = dynamicshdr.get_sh_link();
if (link != strtab_shndx)
{
if (link >= this->shnum())
{
fprintf(stderr,
_("%s: %s: DYNAMIC section %u link out of range: %u\n"),
program_name, this->name().c_str(),
dynamic_shndx, link);
gold_exit(false);
}
typename This::Shdr strtabshdr(pshdrs + link * This::shdr_size);
if (strtabshdr.get_sh_type() != elfcpp::SHT_STRTAB)
{
fprintf(stderr,
_("%s: %s: DYNAMIC section %u link %u is not a strtab\n"),
program_name, this->name().c_str(),
dynamic_shndx, link);
gold_exit(false);
}
strtab_size = strtabshdr.get_sh_size();
strtabu = this->get_view(strtabshdr.get_sh_offset(), strtab_size);
}
for (const unsigned char* p = pdynamic;
p < pdynamic + dynamic_size;
p += This::dyn_size)
{
typename This::Dyn dyn(p);
if (dyn.get_d_tag() == elfcpp::DT_SONAME)
{
off_t val = dyn.get_d_val();
if (val >= strtab_size)
{
fprintf(stderr,
_("%s: %s: DT_SONAME value out of range: "
"%lld >= %lld\n"),
program_name, this->name().c_str(),
static_cast<long long>(val),
static_cast<long long>(strtab_size));
gold_exit(false);
}
const char* strtab = reinterpret_cast<const char*>(strtabu);
this->soname_ = std::string(strtab + val);
return;
}
if (dyn.get_d_tag() == elfcpp::DT_NULL)
return;
}
fprintf(stderr, _("%s: %s: missing DT_NULL in dynamic segment\n"),
program_name, this->name().c_str());
gold_exit(false);
}
// Read the symbols and sections from a dynamic object. We read the
// dynamic symbols, not the normal symbols.
template<int size, bool big_endian>
void
Sized_dynobj<size, big_endian>::do_read_symbols(Read_symbols_data* sd)
{
this->read_section_data(&this->elf_file_, sd);
const unsigned char* const pshdrs = sd->section_headers->data();
unsigned int dynsym_shndx;
unsigned int versym_shndx;
unsigned int verdef_shndx;
unsigned int verneed_shndx;
unsigned int dynamic_shndx;
this->find_dynsym_sections(pshdrs, &dynsym_shndx, &versym_shndx,
&verdef_shndx, &verneed_shndx, &dynamic_shndx);
unsigned int strtab_shndx = -1U;
if (dynsym_shndx == -1U)
{
sd->symbols = NULL;
sd->symbols_size = 0;
sd->symbol_names = NULL;
sd->symbol_names_size = 0;
}
else
{
// Get the dynamic symbols.
typename This::Shdr dynsymshdr(pshdrs + dynsym_shndx * This::shdr_size);
assert(dynsymshdr.get_sh_type() == elfcpp::SHT_DYNSYM);
sd->symbols = this->get_lasting_view(dynsymshdr.get_sh_offset(),
dynsymshdr.get_sh_size());
sd->symbols_size = dynsymshdr.get_sh_size();
// Get the symbol names.
strtab_shndx = dynsymshdr.get_sh_link();
if (strtab_shndx >= this->shnum())
{
fprintf(stderr,
_("%s: %s: invalid dynamic symbol table name index: %u\n"),
program_name, this->name().c_str(), strtab_shndx);
gold_exit(false);
}
typename This::Shdr strtabshdr(pshdrs + strtab_shndx * This::shdr_size);
if (strtabshdr.get_sh_type() != elfcpp::SHT_STRTAB)
{
fprintf(stderr,
_("%s: %s: dynamic symbol table name section "
"has wrong type: %u\n"),
program_name, this->name().c_str(),
static_cast<unsigned int>(strtabshdr.get_sh_type()));
gold_exit(false);
}
sd->symbol_names = this->get_lasting_view(strtabshdr.get_sh_offset(),
strtabshdr.get_sh_size());
sd->symbol_names_size = strtabshdr.get_sh_size();
// Get the version information.
unsigned int dummy;
this->read_dynsym_section(pshdrs, versym_shndx, elfcpp::SHT_GNU_versym,
dynsym_shndx, &sd->versym, &sd->versym_size,
&dummy);
// We require that the version definition and need section link
// to the same string table as the dynamic symbol table. This
// is not a technical requirement, but it always happens in
// practice. We could change this if necessary.
this->read_dynsym_section(pshdrs, verdef_shndx, elfcpp::SHT_GNU_verdef,
strtab_shndx, &sd->verdef, &sd->verdef_size,
&sd->verdef_info);
this->read_dynsym_section(pshdrs, verneed_shndx, elfcpp::SHT_GNU_verneed,
strtab_shndx, &sd->verneed, &sd->verneed_size,
&sd->verneed_info);
}
// Read the SHT_DYNAMIC section to find whether this shared object
// has a DT_SONAME tag. This doesn't really have anything to do
// with reading the symbols, but this is a convenient place to do
// it.
if (dynamic_shndx != -1U)
this->set_soname(pshdrs, dynamic_shndx, strtab_shndx,
(sd->symbol_names == NULL
? NULL
: sd->symbol_names->data()),
sd->symbol_names_size);
}
// Lay out the input sections for a dynamic object. We don't want to
// include sections from a dynamic object, so all that we actually do
// here is check for .gnu.warning sections.
template<int size, bool big_endian>
void
Sized_dynobj<size, big_endian>::do_layout(const General_options&,
Symbol_table* symtab,
Layout*,
Read_symbols_data* sd)
{
const unsigned int shnum = this->shnum();
if (shnum == 0)
return;
// Get the section headers.
const unsigned char* pshdrs = sd->section_headers->data();
// Get the section names.
const unsigned char* pnamesu = sd->section_names->data();
const char* pnames = reinterpret_cast<const char*>(pnamesu);
// Skip the first, dummy, section.
pshdrs += This::shdr_size;
for (unsigned int i = 1; i < shnum; ++i, pshdrs += This::shdr_size)
{
typename This::Shdr shdr(pshdrs);
if (shdr.get_sh_name() >= sd->section_names_size)
{
fprintf(stderr,
_("%s: %s: bad section name offset for section %u: %lu\n"),
program_name, this->name().c_str(), i,
static_cast<unsigned long>(shdr.get_sh_name()));
gold_exit(false);
}
const char* name = pnames + shdr.get_sh_name();
this->handle_gnu_warning_section(name, i, symtab);
}
delete sd->section_headers;
sd->section_headers = NULL;
delete sd->section_names;
sd->section_names = NULL;
}
// Add an entry to the vector mapping version numbers to version
// strings.
template<int size, bool big_endian>
void
Sized_dynobj<size, big_endian>::set_version_map(
Version_map* version_map,
unsigned int ndx,
const char* name) const
{
assert(ndx < version_map->size());
if ((*version_map)[ndx] != NULL)
{
fprintf(stderr, _("%s: %s: duplicate definition for version %u\n"),
program_name, this->name().c_str(), ndx);
gold_exit(false);
}
(*version_map)[ndx] = name;
}
// Create a vector mapping version numbers to version strings.
template<int size, bool big_endian>
void
Sized_dynobj<size, big_endian>::make_version_map(
Read_symbols_data* sd,
Version_map* version_map) const
{
if (sd->verdef == NULL && sd->verneed == NULL)
return;
// First find the largest version index.
unsigned int maxver = 0;
if (sd->verdef != NULL)
{
const unsigned char* pverdef = sd->verdef->data();
off_t verdef_size = sd->verdef_size;
const unsigned int count = sd->verdef_info;
const unsigned char* p = pverdef;
for (unsigned int i = 0; i < count; ++i)
{
elfcpp::Verdef<size, big_endian> verdef(p);
const unsigned int vd_ndx = verdef.get_vd_ndx();
// The GNU linker clears the VERSYM_HIDDEN bit. I'm not
// sure why.
if (vd_ndx > maxver)
maxver = vd_ndx;
const unsigned int vd_next = verdef.get_vd_next();
if ((p - pverdef) + vd_next >= verdef_size)
{
fprintf(stderr,
_("%s: %s: verdef vd_next field out of range: %u\n"),
program_name, this->name().c_str(), vd_next);
gold_exit(false);
}
p += vd_next;
}
}
if (sd->verneed != NULL)
{
const unsigned char* pverneed = sd->verneed->data();
off_t verneed_size = sd->verneed_size;
const unsigned int count = sd->verneed_info;
const unsigned char* p = pverneed;
for (unsigned int i = 0; i < count; ++i)
{
elfcpp::Verneed<size, big_endian> verneed(p);
const unsigned int vn_aux = verneed.get_vn_aux();
if ((p - pverneed) + vn_aux >= verneed_size)
{
fprintf(stderr,
_("%s: %s: verneed vn_aux field out of range: %u\n"),
program_name, this->name().c_str(), vn_aux);
gold_exit(false);
}
const unsigned int vn_cnt = verneed.get_vn_cnt();
const unsigned char* pvna = p + vn_aux;
for (unsigned int j = 0; j < vn_cnt; ++j)
{
elfcpp::Vernaux<size, big_endian> vernaux(pvna);
const unsigned int vna_other = vernaux.get_vna_other();
if (vna_other > maxver)
maxver = vna_other;
const unsigned int vna_next = vernaux.get_vna_next();
if ((pvna - pverneed) + vna_next >= verneed_size)
{
fprintf(stderr,
_("%s: %s: verneed vna_next field "
"out of range: %u\n"),
program_name, this->name().c_str(), vna_next);
gold_exit(false);
}
pvna += vna_next;
}
const unsigned int vn_next = verneed.get_vn_next();
if ((p - pverneed) + vn_next >= verneed_size)
{
fprintf(stderr,
_("%s: %s: verneed vn_next field out of range: %u\n"),
program_name, this->name().c_str(), vn_next);
gold_exit(false);
}
p += vn_next;
}
}
// Now MAXVER is the largest version index we have seen.
version_map->resize(maxver + 1);
const char* names = reinterpret_cast<const char*>(sd->symbol_names->data());
off_t names_size = sd->symbol_names_size;
if (sd->verdef != NULL)
{
const unsigned char* pverdef = sd->verdef->data();
off_t verdef_size = sd->verdef_size;
const unsigned int count = sd->verdef_info;
const unsigned char* p = pverdef;
for (unsigned int i = 0; i < count; ++i)
{
elfcpp::Verdef<size, big_endian> verdef(p);
const unsigned int vd_cnt = verdef.get_vd_cnt();
if (vd_cnt < 1)
{
fprintf(stderr, _("%s: %s: verdef vd_cnt field too small: %u\n"),
program_name, this->name().c_str(), vd_cnt);
gold_exit(false);
}
const unsigned int vd_aux = verdef.get_vd_aux();
if ((p - pverdef) + vd_aux >= verdef_size)
{
fprintf(stderr,
_("%s: %s: verdef vd_aux field out of range: %u\n"),
program_name, this->name().c_str(), vd_aux);
gold_exit(false);
}
const unsigned char* pvda = p + vd_aux;
elfcpp::Verdaux<size, big_endian> verdaux(pvda);
const unsigned int vda_name = verdaux.get_vda_name();
if (vda_name >= names_size)
{
fprintf(stderr,
_("%s: %s: verdaux vda_name field out of range: %u\n"),
program_name, this->name().c_str(), vda_name);
gold_exit(false);
}
this->set_version_map(version_map, verdef.get_vd_ndx(),
names + vda_name);
const unsigned int vd_next = verdef.get_vd_next();
if ((p - pverdef) + vd_next >= verdef_size)
{
fprintf(stderr,
_("%s: %s: verdef vd_next field out of range: %u\n"),
program_name, this->name().c_str(), vd_next);
gold_exit(false);
}
p += vd_next;
}
}
if (sd->verneed != NULL)
{
const unsigned char* pverneed = sd->verneed->data();
const unsigned int count = sd->verneed_info;
const unsigned char* p = pverneed;
for (unsigned int i = 0; i < count; ++i)
{
elfcpp::Verneed<size, big_endian> verneed(p);
const unsigned int vn_aux = verneed.get_vn_aux();
const unsigned int vn_cnt = verneed.get_vn_cnt();
const unsigned char* pvna = p + vn_aux;
for (unsigned int j = 0; j < vn_cnt; ++j)
{
elfcpp::Vernaux<size, big_endian> vernaux(pvna);
const unsigned int vna_name = vernaux.get_vna_name();
if (vna_name >= names_size)
{
fprintf(stderr,
_("%s: %s: vernaux vna_name field "
"out of range: %u\n"),
program_name, this->name().c_str(), vna_name);
gold_exit(false);
}
this->set_version_map(version_map, vernaux.get_vna_other(),
names + vna_name);
pvna += vernaux.get_vna_next();
}
p += verneed.get_vn_next();
}
}
}
// Add the dynamic symbols to the symbol table.
template<int size, bool big_endian>
void
Sized_dynobj<size, big_endian>::do_add_symbols(Symbol_table* symtab,
Read_symbols_data* sd)
{
if (sd->symbols == NULL)
{
assert(sd->symbol_names == NULL);
assert(sd->versym == NULL && sd->verdef == NULL && sd->verneed == NULL);
return;
}
const int sym_size = This::sym_size;
const size_t symcount = sd->symbols_size / sym_size;
if (symcount * sym_size != sd->symbols_size)
{
fprintf(stderr,
_("%s: %s: size of dynamic symbols is not "
"multiple of symbol size\n"),
program_name, this->name().c_str());
gold_exit(false);
}
Version_map version_map;
this->make_version_map(sd, &version_map);
const char* sym_names =
reinterpret_cast<const char*>(sd->symbol_names->data());
symtab->add_from_dynobj(this, sd->symbols->data(), symcount,
sym_names, sd->symbol_names_size,
(sd->versym == NULL
? NULL
: sd->versym->data()),
sd->versym_size,
&version_map);
delete sd->symbols;
sd->symbols = NULL;
delete sd->symbol_names;
sd->symbol_names = NULL;
if (sd->versym != NULL)
{
delete sd->versym;
sd->versym = NULL;
}
if (sd->verdef != NULL)
{
delete sd->verdef;
sd->verdef = NULL;
}
if (sd->verneed != NULL)
{
delete sd->verneed;
sd->verneed = NULL;
}
}
// Instantiate the templates we need. We could use the configure
// script to restrict this to only the ones for implemented targets.
template
class Sized_dynobj<32, false>;
template
class Sized_dynobj<32, true>;
template
class Sized_dynobj<64, false>;
template
class Sized_dynobj<64, true>;
} // End namespace gold.
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