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/* Copyright (C) 2007-2010 The Android Open Source Project
**
** This software is licensed under the terms of the GNU General Public
** License version 2, as published by the Free Software Foundation, and
** may be copied, distributed, and modified under those terms.
**
** 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.
*/
/*
* Contains declaration of ElfFile classes that encapsulate an ELF file.
*/
#ifndef ELFF_ELF_FILE_H_
#define ELFF_ELF_FILE_H_
#include "dwarf_die.h"
#include "elf_mapped_section.h"
#include "elff_api.h"
#include "android/utils/mapfile.h"
/* Encapsulates architecture-independent functionality of an ELF file.
*
* This class is a base class for templated ElfFileImpl. This class implements
* functionality around an ELF file that is independent from particulars of the
* ELF's CPU architectire, while ElfFileImpl handles all particulars of CPU
* architecture (namely, 32 or 64-bit), for which ELF file has been built.
*
* NOTE: This class operates on ELF sections that have been mapped to memory.
*
*/
class ElfFile {
public:
/* Constructs ElfFile instance. */
ElfFile();
/* Destructs ElfFile instance. */
virtual ~ElfFile();
/* Creates ElfFileImpl instance, depending on ELF file CPU architecture.
* This method will collect initial information about requested ELF file,
* and will instantiate appropriate ElfFileImpl class object for it.
* Param:
* path - Full path to the ELF file.
* Return:
* Initialized ElfFileImpl instance, typecasted back to ElfFile object on
* success, or NULL on failure, with errno providing extended error
* information.
*/
static ElfFile* Create(const char* path);
/* Checks if ELF file is a 64, or 32-bit ELF file. */
bool is_ELF_64() const {
return is_ELF_64_;
}
bool is_ELF_32() const {
return !is_ELF_64_;
}
/* Checks if ELF file data format is big, or little-endian. */
bool is_elf_big_endian() const {
return is_elf_big_endian_;
}
bool is_elf_little_endian() const {
return !is_elf_big_endian_;
}
/* Checks whether or not endianness of CPU this library is built for matches
* endianness of the ELF file that is represented with this instance. */
bool same_endianness() const {
return same_endianness_;
}
/* Checks if format of DWARF data in this file is 64, or 32-bit. */
bool is_DWARF_64() const {
return is_DWARF_64_;
}
bool is_DWARF_32() const {
return !is_DWARF_64_;
}
/* Gets DWARF objects allocator for this instance. */
class ElfAllocator* allocator() const {
return allocator_;
}
/* Gets head of compilation unit list, collected during parsing of this file.
* NOTE: list of collected compilation units returned from this method is
* in reverse order relatively to the order CUs have been added to the list
* during ELF file parsing.
*/
class DwarfCU* last_cu() const {
return last_cu_;
}
/* Gets number of compilation units, collected during parsing of
* this ELF file with parse_compilation_units() method.
*/
int cu_count() const {
return cu_count_;
}
/* Gets executable file flag */
bool is_exec() const {
return is_exec_;
}
protected:
/* Initializes ElfFile instance. This method is called from Create method of
* this class after appropriate ElfFileImpl instance has been created. Note,
* that Create() method will validate that requested file is an ELF file,
* prior to instantiating of an ElfFileImpl object, and calling this method.
* Param:
* elf_hdr - Address of the common ELF file header.
* path - See Create().
* Return:
* true on success, or false on failure, with errno containing extended
* error information.
*/
virtual bool initialize(const Elf_CommonHdr* elf_hdr, const char* path);
/*=============================================================================
* Endianness helper methods.
* Since endianness of ELF file may differ from the endianness of the CPU this
* library runs on, every time a value is required from a section of the ELF
* file, it must be first pulled out of that section to a local variable, and
* then used from that local variable. While value is pulled from ELF file
* section, it must be converted accordingly to the endianness of the CPU and
* ELF file. Routines bellow provide such functionality.
=============================================================================*/
public:
/* Pulls one byte value from ELF file. Note that for one byte we don't need
* to do any endianness conversion, and these two methods are provided purely
* for completness of the API.
* Param:
* val - References value inside ELF file buffer to pull data from.
* Return
* Pulled value with endianness appropriate for the CPU this library is
* running on.
*/
uint8_t pull_val(const uint8_t* val) const {
return *val;
}
uint8_t pull_val(const uint8_t& val) const {
return val;
}
int8_t pull_val(const int8_t* val) const {
return *val;
}
int8_t pull_val(const int8_t& val) const {
return val;
}
/* Pulls two byte value from ELF file.
* Param:
* val - References value inside ELF file buffer to pull data from.
* Return
* Pulled value with endianness appropriate for the CPU this library is
* running on.
*/
uint16_t pull_val(const uint16_t* val) const {
if (same_endianness()) {
return *val;
}
if (is_elf_big_endian()) {
return (uint16_t)get_byte(val, 0) << 8 | get_byte(val, 1);
} else {
return (uint16_t)get_byte(val, 1) << 8 | get_byte(val, 0);
}
}
uint16_t pull_val(const uint16_t& val) const {
return same_endianness() ? val : pull_val(&val);
}
int16_t pull_val(const int16_t* val) const {
return static_cast<int16_t>
(pull_val(reinterpret_cast<const uint16_t*>(val)));
}
int16_t pull_val(const int16_t& val) const {
return static_cast<int16_t>
(pull_val(reinterpret_cast<const uint16_t&>(val)));
}
/* Pulls four byte value from ELF file.
* Param:
* val - References value inside ELF file buffer to pull data from.
* Return
* Pulled value with endianness appropriate for the CPU this library is
* running on.
*/
uint32_t pull_val(const uint32_t* val) const {
if (same_endianness()) {
return *val;
}
if (is_elf_big_endian()) {
return (uint32_t)get_byte(val, 0) << 24 |
(uint32_t)get_byte(val, 1) << 16 |
(uint32_t)get_byte(val, 2) << 8 |
(uint32_t)get_byte(val, 3);
} else {
return (uint32_t)get_byte(val, 3) << 24 |
(uint32_t)get_byte(val, 2) << 16 |
(uint32_t)get_byte(val, 1) << 8 |
(uint32_t)get_byte(val, 0);
}
}
uint32_t pull_val(const uint32_t& val) const {
return same_endianness() ? val : pull_val(&val);
}
int32_t pull_val(const int32_t* val) const {
return static_cast<int32_t>
(pull_val(reinterpret_cast<const uint32_t*>(val)));
}
int32_t pull_val(const int32_t& val) const {
return static_cast<int32_t>
(pull_val(reinterpret_cast<const uint32_t&>(val)));
}
/* Pulls eight byte value from ELF file.
* Param:
* val - References value inside ELF file buffer to pull data from.
* Return
* Pulled value with endianness appropriate for the CPU this library is
* running on.
*/
uint64_t pull_val(const uint64_t* val) const {
if (same_endianness()) {
return *val;
}
if (is_elf_big_endian()) {
return (uint64_t)get_byte(val, 0) << 56 |
(uint64_t)get_byte(val, 1) << 48 |
(uint64_t)get_byte(val, 2) << 40 |
(uint64_t)get_byte(val, 3) << 32 |
(uint64_t)get_byte(val, 4) << 24 |
(uint64_t)get_byte(val, 5) << 16 |
(uint64_t)get_byte(val, 6) << 8 |
(uint64_t)get_byte(val, 7);
} else {
return (uint64_t)get_byte(val, 7) << 56 |
(uint64_t)get_byte(val, 6) << 48 |
(uint64_t)get_byte(val, 5) << 40 |
(uint64_t)get_byte(val, 4) << 32 |
(uint64_t)get_byte(val, 3) << 24 |
(uint64_t)get_byte(val, 2) << 16 |
(uint64_t)get_byte(val, 1) << 8 |
(uint64_t)get_byte(val, 0);
}
}
uint64_t pull_val(const uint64_t& val) const {
return same_endianness() ? val : pull_val(&val);
}
int64_t pull_val(const int64_t* val) const {
return static_cast<int64_t>
(pull_val(reinterpret_cast<const uint64_t*>(val)));
}
int64_t pull_val(const int64_t& val) const {
return static_cast<int64_t>
(pull_val(reinterpret_cast<const uint64_t&>(val)));
}
//=============================================================================
// ELF file section management.
//=============================================================================
public:
/* Gets a string contained in ELF's string section by index.
* Param:
* index - String index (byte offset) in the ELF's string section.
* Return:
* Pointer to the requested string, or NULL if string index exceeds ELF's
* string section size.
* NOTE: pointer returned from this method points to a mapped section of
* ELF file.
*/
const char* get_str_sec_str(Elf_Xword index) const {
assert(string_section_.is_mapped() && index < string_section_.size());
if (string_section_.is_mapped() && index < string_section_.size()) {
return INC_CPTR_T(char, string_section_.data(), index);
} else {
_set_errno(EINVAL);
return NULL;
}
}
/* Gets a string contained in ELF's debug string section (.debug_str)
* by index.
* Param:
* index - String index (byte offset) in the ELF's debug string section.
* Return:
* Pointer to the requested string, or NULL if string index exceeds ELF's
* debug string section size.
* NOTE: pointer returned from this method points to a mapped section of
* ELF file.
*/
const char* get_debug_str(Elf_Xword index) const {
assert(debug_str_.is_mapped() && index < debug_str_.size());
if (debug_str_.is_mapped() && index < debug_str_.size()) {
return INC_CPTR_T(char, debug_str_.data(), index);
} else {
_set_errno(EINVAL);
return NULL;
}
}
protected:
/* Gets pointer to a section header, given section index within ELF's
* section table.
* Param:
* index - Section index within ELF's section table.
* Return:
* Pointer to a section header (ElfXX_SHdr flavor, depending on ELF's CPU
* architecture) on success, or NULL if section index exceeds number of
* sections for this ELF file.
*/
const void* get_section_by_index(Elf_Half index) const {
assert(index < sec_count_);
if (index < sec_count_) {
return INC_CPTR(sec_table_, static_cast<size_t>(index) * sec_entry_size_);
} else {
_set_errno(EINVAL);
return NULL;
}
}
//=============================================================================
// DWARF management.
//=============================================================================
protected:
/* Parses DWARF, and buids a list of compilation units for this ELF file.
* Compilation unit, collected with this methods are linked together in a
* list, head of which is available via last_cu() method of this class.
* NOTE: CUs in the list returned via last_cu() method are in reverse order
* relatively to the order in which CUs are stored in .debug_info section.
* This is ELF and DWARF data format - dependent method.
* Param:
* parse_context - Parsing context that defines which tags, and which
* properties for which tag should be collected during parsing. NULL
* passed in this parameter indicates that all properties for all tags
* should be collected.
* Return:
* Number of compilation units, collected in this method on success,
* or -1 on failure.
*/
virtual int parse_compilation_units(const DwarfParseContext* parse_context) = 0;
public:
/* Gets PC address information.
* Param:
* address - PC address to get information for. The address must be relative
* to the beginning of ELF file represented by this class.
* address_info - Upon success contains information about routine(s) that
* contain the given address.
* Return:
* true if routine(s) containing has been found and its information has been
* saved into address_info, or false if no appropriate routine for that
* address has been found, or there was a memory error when collecting
* routine(s) information. In case of failure, errno contains extended error
* information.
*/
bool get_pc_address_info(Elf_Xword address, Elf_AddressInfo* address_info);
/* Frees resources aqcuired for address information in successful call to
* get_pc_address_info().
* Param:
* address_info - Address information structure, initialized in successful
* call to get_pc_address_info() routine.
*/
void free_pc_address_info(Elf_AddressInfo* address_info) const;
/* Gets beginning of the .debug_info section data.
* Return:
* Beginning of the .debug_info section data.
* NOTE: pointer returned from this method points to a mapped section of
* ELF file.
*/
const void* get_debug_info_data() const {
return debug_info_.data();
}
/* Gets beginning of the .debug_abbrev section data.
* Return:
* Beginning of the .debug_abbrev section data.
* NOTE: pointer returned from this method points to a mapped section of
* ELF file.
*/
const void* get_debug_abbrev_data() const {
return debug_abbrev_.data();
}
/* Gets beginning of the .debug_ranges section data.
* Return:
* Beginning of the .debug_ranges section data.
* NOTE: pointer returned from this method points to a mapped section of
* ELF file.
*/
const void* get_debug_ranges_data() const {
return debug_ranges_.data();
}
/* Gets beginning of the .debug_line section data.
* Return:
* Beginning of the .debug_line section data.
* NOTE: pointer returned from this method points to a mapped section of
* ELF file.
*/
const void* get_debug_line_data() const {
return debug_line_.data();
}
/* Checks, if given address range is contained in the mapped .debug_info
* section of this file.
* Param:
* ptr - Starting address of the range.
* size - Range size in bytes.
* Return:
* true if given address range is contained in the mapped .debug_info
* section of this file, or false if any part of the range doesn't belong
* to that section.
*/
bool is_valid_die_ptr(const void* ptr, size_t size) const {
return debug_info_.is_contained(ptr, size);
}
/* Checks, if given address range is contained in the mapped .debug_abbrev
* section of this file.
* Param:
* ptr - Starting address of the range.
* size - Range size in bytes.
* Return:
* true if given address range is contained in the mapped .debug_abbrev
* section of this file, or false if any part of the range doesn't belong
* to that section.
*/
bool is_valid_abbr_ptr(const void* ptr, size_t size) const {
return debug_abbrev_.is_contained(ptr, size);
}
/* Checks if given pointer addresses a valid compilation unit header in the
* mapped .debug_info section of the ELF file.
* Param:
* cu_header - Pointer to a compilation unit header to check.
* Return
* true, if given pointer addresses a valid compilation unit header, or
* false, if it's not. A valid CU header must be fully conained inside
* .debug_info section of the ELF file, and its size must not be zero.
*/
bool is_valid_cu(const void* cu_header) const {
if (is_DWARF_64()) {
return is_valid_die_ptr(cu_header, sizeof(Dwarf64_CUHdr)) &&
reinterpret_cast<const Dwarf64_CUHdr*>(cu_header)->size_hdr.size != 0;
} else {
return is_valid_die_ptr(cu_header, sizeof(Dwarf32_CUHdr)) &&
reinterpret_cast<const Dwarf32_CUHdr*>(cu_header)->size_hdr.size != 0;
}
}
/* Gets range's low and high pc for the given range reference in the mapped
* .debug_ranges section of an ELF file.
* Template param:
* AddrType - Defines pointer type for the CU the range belongs to. CU's
* pointer type can be defined independently from ELF and DWARF types,
* and is encoded in address_size field of the CU header in .debug_info
* section of ELF file.
* Param:
* offset - Byte offset within .debug_ranges section of the range record.
* low - Upon successful return contains value for range's low pc.
* high - Upon successful return contains value for range's high pc.
* Return:
* true on success, or false, if requested record is not fully contained
* in the .debug_ranges section.
*/
template<typename AddrType>
bool get_range(Elf_Word offset, AddrType* low, AddrType* high) {
const AddrType* ptr = INC_CPTR_T(AddrType, debug_ranges_.data(), offset);
assert(debug_ranges_.is_contained(ptr, sizeof(AddrType) * 2));
if (!debug_ranges_.is_contained(ptr, sizeof(AddrType) * 2)) {
_set_errno(EINVAL);
return false;
}
*low = pull_val(ptr);
*high = pull_val(ptr + 1);
return true;
}
protected:
/* Mapped ELF string section. */
ElfMappedSection string_section_;
/* Mapped .debug_info section. */
ElfMappedSection debug_info_;
/* Mapped .debug_abbrev section. */
ElfMappedSection debug_abbrev_;
/* Mapped .debug_str section. */
ElfMappedSection debug_str_;
/* Mapped .debug_line section. */
ElfMappedSection debug_line_;
/* Mapped .debug_ranges section. */
ElfMappedSection debug_ranges_;
/* Base address of the loaded module (if fixed), or 0 if module doesn't get
* loaded at fixed address. */
Elf_Xword fixed_base_address_;
/* Handle to the ELF file represented with this instance. */
MapFile* elf_handle_;
/* Path to the ELF file represented with this instance. */
char* elf_file_path_;
/* DWARF objects allocator for this instance. */
class ElfAllocator* allocator_;
/* Beginning of the cached ELF's section table. */
void* sec_table_;
/* Number of sections in the ELF file wrapped by this instance. */
Elf_Half sec_count_;
/* Byte size of an entry in the section table. */
Elf_Half sec_entry_size_;
/* Head of compilation unit list, collected during the parsing. */
class DwarfCU* last_cu_;
/* Number of compilation units in last_cu_ list. */
int cu_count_;
/* Flags ELF's CPU architecture: 64 (true), or 32 bits (false). */
bool is_ELF_64_;
/* Flags endianness of the processed ELF file. true indicates that ELF file
* data is stored in big-endian form, false indicates that ELF file data is
* stored in big-endian form.
*/
bool is_elf_big_endian_;
/* Flags whether or not endianness of CPU this library is built for matches
* endianness of the ELF file that is represented with this instance.
*/
bool same_endianness_;
/* Flags DWARF format: 64, or 32 bits. DWARF format is determined by looking
* at the first 4 bytes of .debug_info section (which is the beginning of the
* first compilation unit header). If first 4 bytes contain 0xFFFFFFFF, the
* DWARF is 64 bit. Otherwise, DWARF is 32 bit. */
bool is_DWARF_64_;
/* Flags executable file. If this member is 1, ELF file represented with this
* instance is an executable. If this member is 0, file is a shared library.
*/
bool is_exec_;
};
/* Encapsulates architecture-dependent functionality of an ELF file.
* Template param:
* Elf_Addr - type for an address field in ELF file. Must be:
* - Elf32_Addr for 32-bit CPU, or
* - Elf64_Addr for 64-bit CPU.
* Elf_Off - type for an offset field in ELF file. Must be:
* - Elf64_Off for 32-bit CPU, or
* - Elf64_Off for 64-bit CPU.
*/
template <typename Elf_Addr, typename Elf_Off>
class ElfFileImpl : protected ElfFile {
/* Instance of this class must be instantiated from
* ElfFile::Create() method only. */
friend class ElfFile;
protected:
/* Constructs ElfFileImpl instance. */
ElfFileImpl() {
};
/* Destructs ElfFileImpl instance. */
~ElfFileImpl() {
}
protected:
/* Initializes instance. This is an override of the base class method.
* See ElfFile::initialize().
*/
bool initialize(const Elf_CommonHdr* elf_hdr, const char* path);
/* Parses DWARF, and buids list of compilation units for this ELF file.
* This is an implementation of the base class' abstract method.
* See ElfFile::parse_compilation_units().
*/
virtual int parse_compilation_units(const DwarfParseContext* parse_context);
/* Gets section information by section name.
* Param:
* name - Name of the section to get information for.
* offset - Upon success contains offset of the section data in ELF file.
* size - Upon success contains size of the section data in ELF file.
* Return:
* true on sucess, or false if section with such name doesn't exist in
* this ELF file.
*/
bool get_section_info_by_name(const char* name,
Elf_Off* offset,
Elf_Word* size);
/* Maps section by its name.
* Param:
* name - Name of the section to map.
* section - Upon success contains section's mapping information.
* Return:
* true on sucess, or false if section with such name doesn't exist in
* this ELF file, or mapping has failed.
*/
bool map_section_by_name(const char* name, ElfMappedSection* section);
};
#endif // ELFF_ELF_FILE_H_