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|
// Copyright (c) 2006, Google Inc.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include <a.out.h>
#include <cstdarg>
#include <cstdlib>
#include <cxxabi.h>
#include <elf.h>
#include <errno.h>
#include <fcntl.h>
#include <link.h>
#include <sys/mman.h>
#include <stab.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include <functional>
#include <vector>
#include "common/linux/dump_symbols.h"
#include "common/linux/file_id.h"
#include "common/linux/guid_creator.h"
#include "processor/scoped_ptr.h"
// This namespace contains helper functions.
namespace {
// Infomation of a line.
struct LineInfo {
// The index into string table for the name of the source file which
// this line belongs to.
// Load from stab symbol.
uint32_t source_name_index;
// Offset from start of the function.
// Load from stab symbol.
ElfW(Off) rva_to_func;
// Offset from base of the loading binary.
ElfW(Off) rva_to_base;
// Size of the line.
// It is the difference of the starting address of the line and starting
// address of the next N_SLINE, N_FUN or N_SO.
uint32_t size;
// Line number.
uint32_t line_num;
// Id of the source file for this line.
int source_id;
};
// Information of a function.
struct FuncInfo {
// Name of the function.
const char *name;
// Offset from the base of the loading address.
ElfW(Off) rva_to_base;
// Virtual address of the function.
// Load from stab symbol.
ElfW(Addr) addr;
// Size of the function.
// It is the difference of the starting address of the function and starting
// address of the next N_FUN or N_SO.
uint32_t size;
// Total size of stack parameters.
uint32_t stack_param_size;
// Is there any lines included from other files?
bool has_sol;
// Line information array.
std::vector<struct LineInfo> line_info;
};
// Information of a source file.
struct SourceFileInfo {
// Name string index into the string table.
uint32_t name_index;
// Name of the source file.
const char *name;
// Starting address of the source file.
ElfW(Addr) addr;
// Id of the source file.
int source_id;
// Functions information.
std::vector<struct FuncInfo> func_info;
};
// Information of a symbol table.
// This is the root of all types of symbol.
struct SymbolInfo {
std::vector<struct SourceFileInfo> source_file_info;
// The next source id for newly found source file.
int next_source_id;
};
// Stab section name.
static const char *kStabName = ".stab";
// Demangle using abi call.
// Older GCC may not support it.
static std::string Demangle(const char *mangled) {
int status = 0;
char *demangled = abi::__cxa_demangle(mangled, NULL, NULL, &status);
if (status == 0 && demangled != NULL) {
std::string str(demangled);
free(demangled);
return str;
}
return std::string(mangled);
}
// Fix offset into virtual address by adding the mapped base into offsets.
// Make life easier when want to find something by offset.
static void FixAddress(void *obj_base) {
ElfW(Word) base = reinterpret_cast<ElfW(Word)>(obj_base);
ElfW(Ehdr) *elf_header = static_cast<ElfW(Ehdr) *>(obj_base);
elf_header->e_phoff += base;
elf_header->e_shoff += base;
ElfW(Shdr) *sections = reinterpret_cast<ElfW(Shdr) *>(elf_header->e_shoff);
for (int i = 0; i < elf_header->e_shnum; ++i)
sections[i].sh_offset += base;
}
// Find the prefered loading address of the binary.
static ElfW(Addr) GetLoadingAddress(const ElfW(Phdr) *program_headers,
int nheader) {
for (int i = 0; i < nheader; ++i) {
const ElfW(Phdr) &header = program_headers[i];
// For executable, it is the PT_LOAD segment with offset to zero.
if (header.p_type == PT_LOAD &&
header.p_offset == 0)
return header.p_vaddr;
}
// For other types of ELF, return 0.
return 0;
}
static bool WriteFormat(int fd, const char *fmt, ...) {
va_list list;
char buffer[4096];
ssize_t expected, written;
va_start(list, fmt);
vsnprintf(buffer, sizeof(buffer), fmt, list);
expected = strlen(buffer);
written = write(fd, buffer, strlen(buffer));
va_end(list);
return expected == written;
}
static bool IsValidElf(const ElfW(Ehdr) *elf_header) {
return memcmp(elf_header, ELFMAG, SELFMAG) == 0;
}
static const ElfW(Shdr) *FindSectionByName(const char *name,
const ElfW(Shdr) *sections,
const ElfW(Shdr) *strtab,
int nsection) {
assert(name != NULL);
assert(sections != NULL);
assert(nsection > 0);
int name_len = strlen(name);
if (name_len == 0)
return NULL;
for (int i = 0; i < nsection; ++i) {
const char *section_name =
(char*)(strtab->sh_offset + sections[i].sh_name);
if (!strncmp(name, section_name, name_len))
return sections + i;
}
return NULL;
}
// TODO(liuli): Computer the stack parameter size.
// Expect parameter variables are immediately following the N_FUN symbol.
// Will need to parse the type information to get a correct size.
static int LoadStackParamSize(struct nlist *list,
struct nlist *list_end,
struct FuncInfo *func_info) {
struct nlist *cur_list = list;
assert(cur_list->n_type == N_FUN);
++cur_list;
int step = 1;
while (cur_list < list_end && cur_list->n_type == N_PSYM) {
++cur_list;
++step;
}
func_info->stack_param_size = 0;
return step;
}
static int LoadLineInfo(struct nlist *list,
struct nlist *list_end,
const struct SourceFileInfo &source_file_info,
struct FuncInfo *func_info) {
struct nlist *cur_list = list;
func_info->has_sol = false;
// Records which source file the following lines belongs. Default
// to the file we are handling. This helps us handling inlined source.
// When encountering N_SOL, we will change this to the source file
// specified by N_SOL.
int current_source_name_index = source_file_info.name_index;
do {
// Skip non line information.
while (cur_list < list_end && cur_list->n_type != N_SLINE) {
// Only exit when got another function, or source file.
if (cur_list->n_type == N_FUN || cur_list->n_type == N_SO)
return cur_list - list;
// N_SOL means source lines following it will be from
// another source file.
if (cur_list->n_type == N_SOL) {
func_info->has_sol = true;
if (cur_list->n_un.n_strx > 0 &&
cur_list->n_un.n_strx != current_source_name_index) {
// The following lines will be from this source file.
current_source_name_index = cur_list->n_un.n_strx;
}
}
++cur_list;
}
struct LineInfo line;
while (cur_list < list_end && cur_list->n_type == N_SLINE) {
line.source_name_index = current_source_name_index;
line.rva_to_func = cur_list->n_value;
// n_desc is a signed short
line.line_num = (unsigned short)cur_list->n_desc;
// Don't set it here.
// Will be processed in later pass.
line.source_id = -1;
func_info->line_info.push_back(line);
++cur_list;
}
} while (list < list_end);
return cur_list - list;
}
static int LoadFuncSymbols(struct nlist *list,
struct nlist *list_end,
const ElfW(Shdr) *stabstr_section,
struct SourceFileInfo *source_file_info) {
struct nlist *cur_list = list;
assert(cur_list->n_type == N_SO);
++cur_list;
source_file_info->func_info.clear();
while (cur_list < list_end) {
// Go until the function symbol.
while (cur_list < list_end && cur_list->n_type != N_FUN) {
if (cur_list->n_type == N_SO) {
return cur_list - list;
}
++cur_list;
continue;
}
if (cur_list->n_type == N_FUN) {
struct FuncInfo func_info;
memset(&func_info, 0, sizeof(func_info));
func_info.name =
reinterpret_cast<char *>(cur_list->n_un.n_strx +
stabstr_section->sh_offset);
func_info.addr = cur_list->n_value;
// Stack parameter size.
cur_list += LoadStackParamSize(cur_list, list_end, &func_info);
// Line info.
cur_list += LoadLineInfo(cur_list,
list_end,
*source_file_info,
&func_info);
// Functions in this module should have address bigger than the module
// startring address.
// There maybe a lot of duplicated entry for a function in the symbol,
// only one of them can met this.
if (func_info.addr >= source_file_info->addr) {
source_file_info->func_info.push_back(func_info);
}
}
}
return cur_list - list;
}
// Comapre the address.
// The argument should have a memeber named "addr"
template<class T1, class T2>
static bool CompareAddress(T1 *a, T2 *b) {
return a->addr < b->addr;
}
// Sort the array into increasing ordered array based on the virtual address.
// Return vector of pointers to the elements in the incoming array. So caller
// should make sure the returned vector lives longer than the incoming vector.
template<class T>
static std::vector<T *> SortByAddress(std::vector<T> *array) {
std::vector<T *> sorted_array_ptr;
sorted_array_ptr.reserve(array->size());
for (size_t i = 0; i < array->size(); ++i)
sorted_array_ptr.push_back(&(array->at(i)));
std::sort(sorted_array_ptr.begin(),
sorted_array_ptr.end(),
std::ptr_fun(CompareAddress<T, T>));
return sorted_array_ptr;
}
// Find the address of the next function or source file symbol in the symbol
// table. The address should be bigger than the current function's address.
static ElfW(Addr) NextAddress(
std::vector<struct FuncInfo *> *sorted_functions,
std::vector<struct SourceFileInfo *> *sorted_files,
const struct FuncInfo &func_info) {
std::vector<struct FuncInfo *>::iterator next_func_iter =
std::find_if(sorted_functions->begin(),
sorted_functions->end(),
std::bind1st(
std::ptr_fun(
CompareAddress<struct FuncInfo,
struct FuncInfo>
),
&func_info)
);
if (next_func_iter != sorted_functions->end())
return (*next_func_iter)->addr;
std::vector<struct SourceFileInfo *>::iterator next_file_iter =
std::find_if(sorted_files->begin(),
sorted_files->end(),
std::bind1st(
std::ptr_fun(
CompareAddress<struct FuncInfo,
struct SourceFileInfo>
),
&func_info)
);
if (next_file_iter != sorted_files->end()) {
return (*next_file_iter)->addr;
}
return 0;
}
static int FindFileByNameIdx(uint32_t name_index,
const std::vector<SourceFileInfo> &files) {
for (size_t i = 0; i < files.size(); ++i) {
if (files[i].name_index == name_index)
return files[i].source_id;
}
return -1;
}
// Add included file information.
// Also fix the source id for the line info.
static void AddIncludedFiles(struct SymbolInfo *symbols,
const ElfW(Shdr) *stabstr_section) {
size_t source_file_size = symbols->source_file_info.size();
for (size_t i = 0; i < source_file_size; ++i) {
struct SourceFileInfo &source_file = symbols->source_file_info[i];
for (size_t j = 0; j < source_file.func_info.size(); ++j) {
struct FuncInfo &func_info = source_file.func_info[j];
for (size_t k = 0; k < func_info.line_info.size(); ++k) {
struct LineInfo &line_info = func_info.line_info[k];
assert(line_info.source_name_index > 0);
assert(source_file.name_index > 0);
// Check if the line belongs to the source file by comparing the
// name index into string table.
if (line_info.source_name_index != source_file.name_index) {
// This line is not from the current source file, check if this
// source file has been added before.
int found_source_id = FindFileByNameIdx(line_info.source_name_index,
symbols->source_file_info);
if (found_source_id < 0) {
// Got a new included file.
// Those included files don't have address or line information.
SourceFileInfo new_file;
new_file.name_index = line_info.source_name_index;
new_file.name = reinterpret_cast<char *>(new_file.name_index +
stabstr_section->sh_offset);
new_file.addr = 0;
new_file.source_id = symbols->next_source_id++;
line_info.source_id = new_file.source_id;
symbols->source_file_info.push_back(new_file);
} else {
// The file has been added.
line_info.source_id = found_source_id;
}
} else {
// The line belongs to the file.
line_info.source_id = source_file.source_id;
}
} // for each line.
} // for each function.
} // for each source file.
}
// Compute size and rva information based on symbols loaded from stab section.
static bool ComputeSizeAndRVA(ElfW(Addr) loading_addr,
struct SymbolInfo *symbols) {
std::vector<struct SourceFileInfo *> sorted_files =
SortByAddress(&(symbols->source_file_info));
for (size_t i = 0; i < sorted_files.size(); ++i) {
struct SourceFileInfo &source_file = *sorted_files[i];
std::vector<struct FuncInfo *> sorted_functions =
SortByAddress(&(source_file.func_info));
for (size_t j = 0; j < sorted_functions.size(); ++j) {
struct FuncInfo &func_info = *sorted_functions[j];
assert(func_info.addr >= loading_addr);
func_info.rva_to_base = func_info.addr - loading_addr;
func_info.size = 0;
ElfW(Addr) next_addr = NextAddress(&sorted_functions,
&sorted_files,
func_info);
// I've noticed functions with an address bigger than any other functions
// and source files modules, this is probably the last function in the
// module, due to limitions of Linux stab symbol, it is impossible to get
// the exact size of this kind of function, thus we give it a default
// very big value. This should be safe since this is the last function.
// But it is a ugly hack.....
// The following code can reproduce the case:
// template<class T>
// void Foo(T value) {
// }
//
// int main(void) {
// Foo(10);
// Foo(std::string("hello"));
// return 0;
// }
// TODO(liuli): Find a better solution.
static const int kDefaultSize = 0x10000000;
static int no_next_addr_count = 0;
if (next_addr != 0) {
func_info.size = next_addr - func_info.addr;
} else {
if (no_next_addr_count > 1) {
fprintf(stderr, "Got more than one funtion without the \
following symbol. Igore this function.\n");
fprintf(stderr, "The dumped symbol may not correct.\n");
assert(!"This should not happen!\n");
func_info.size = 0;
continue;
}
no_next_addr_count++;
func_info.size = kDefaultSize;
}
// Compute line size.
for (size_t k = 0; k < func_info.line_info.size(); ++k) {
struct LineInfo &line_info = func_info.line_info[k];
line_info.size = 0;
if (k + 1 < func_info.line_info.size()) {
line_info.size =
func_info.line_info[k + 1].rva_to_func - line_info.rva_to_func;
} else {
// The last line in the function.
// If we can find a function or source file symbol immediately
// following the line, we can get the size of the line by computing
// the difference of the next address to the starting address of this
// line.
// Otherwise, we need to set a default big enough value. This occurs
// mostly because the this function is the last one in the module.
if (next_addr != 0) {
ElfW(Off) next_addr_offset = next_addr - func_info.addr;
line_info.size = next_addr_offset - line_info.rva_to_func;
} else {
line_info.size = kDefaultSize;
}
}
line_info.rva_to_base = line_info.rva_to_func + func_info.rva_to_base;
} // for each line.
} // for each function.
} // for each source file.
return true;
}
static bool LoadSymbols(const ElfW(Shdr) *stab_section,
const ElfW(Shdr) *stabstr_section,
ElfW(Addr) loading_addr,
struct SymbolInfo *symbols) {
if (stab_section == NULL || stabstr_section == NULL)
return false;
struct nlist *lists =
reinterpret_cast<struct nlist *>(stab_section->sh_offset);
int nstab = stab_section->sh_size / sizeof(struct nlist);
// First pass, load all symbols from the object file.
for (int i = 0; i < nstab; ) {
int step = 1;
struct nlist *cur_list = lists + i;
if (cur_list->n_type == N_SO) {
// FUNC <address> <length> <param_stack_size> <function>
struct SourceFileInfo source_file_info;
source_file_info.name_index = cur_list->n_un.n_strx;
source_file_info.name = reinterpret_cast<char *>(cur_list->n_un.n_strx +
stabstr_section->sh_offset);
source_file_info.addr = cur_list->n_value;
if (strchr(source_file_info.name, '.'))
source_file_info.source_id = symbols->next_source_id++;
else
source_file_info.source_id = -1;
step = LoadFuncSymbols(cur_list, lists + nstab,
stabstr_section, &source_file_info);
symbols->source_file_info.push_back(source_file_info);
}
i += step;
}
// Second pass, compute the size of functions and lines.
if (ComputeSizeAndRVA(loading_addr, symbols)) {
// Third pass, check for included source code, especially for header files.
// Until now, we only have compiling unit information, but they can
// have code from include files, add them here.
AddIncludedFiles(symbols, stabstr_section);
return true;
}
return false;
}
static bool LoadSymbols(ElfW(Ehdr) *elf_header, struct SymbolInfo *symbols) {
// Translate all offsets in section headers into address.
FixAddress(elf_header);
ElfW(Addr) loading_addr = GetLoadingAddress(
reinterpret_cast<ElfW(Phdr) *>(elf_header->e_phoff),
elf_header->e_phnum);
const ElfW(Shdr) *sections =
reinterpret_cast<ElfW(Shdr) *>(elf_header->e_shoff);
const ElfW(Shdr) *strtab = sections + elf_header->e_shstrndx;
const ElfW(Shdr) *stab_section =
FindSectionByName(kStabName, sections, strtab, elf_header->e_shnum);
if (stab_section == NULL) {
fprintf(stderr, "Stab section not found.\n");
return false;
}
const ElfW(Shdr) *stabstr_section = stab_section->sh_link + sections;
// Load symbols.
return LoadSymbols(stab_section, stabstr_section, loading_addr, symbols);
}
static bool WriteModuleInfo(int fd,
ElfW(Half) arch,
const std::string &obj_file) {
const char *arch_name = NULL;
if (arch == EM_386)
arch_name = "x86";
else if (arch == EM_X86_64)
arch_name = "x86_64";
else
return false;
unsigned char identifier[16];
google_breakpad::FileID file_id(obj_file.c_str());
if (file_id.ElfFileIdentifier(identifier)) {
char identifier_str[40];
file_id.ConvertIdentifierToString(identifier,
identifier_str, sizeof(identifier_str));
char id_no_dash[40];
int id_no_dash_len = 0;
memset(id_no_dash, 0, sizeof(id_no_dash));
for (int i = 0; identifier_str[i] != '\0'; ++i)
if (identifier_str[i] != '-')
id_no_dash[id_no_dash_len++] = identifier_str[i];
// Add an extra "0" by the end.
id_no_dash[id_no_dash_len++] = '0';
std::string filename = obj_file;
size_t slash_pos = obj_file.find_last_of("/");
if (slash_pos != std::string::npos)
filename = obj_file.substr(slash_pos + 1);
return WriteFormat(fd, "MODULE Linux %s %s %s\n", arch_name,
id_no_dash, filename.c_str());
}
return false;
}
static bool WriteSourceFileInfo(int fd, const struct SymbolInfo &symbols) {
for (size_t i = 0; i < symbols.source_file_info.size(); ++i) {
if (symbols.source_file_info[i].source_id != -1) {
const char *name = symbols.source_file_info[i].name;
if (!WriteFormat(fd, "FILE %d %s\n",
symbols.source_file_info[i].source_id, name))
return false;
}
}
return true;
}
static bool WriteOneFunction(int fd,
const struct FuncInfo &func_info){
// Discard the ending part of the name.
std::string func_name(func_info.name);
std::string::size_type last_colon = func_name.find_last_of(':');
if (last_colon != std::string::npos)
func_name = func_name.substr(0, last_colon);
func_name = Demangle(func_name.c_str());
if (func_info.size <= 0)
return true;
if (WriteFormat(fd, "FUNC %lx %lx %d %s\n",
func_info.rva_to_base,
func_info.size,
func_info.stack_param_size,
func_name.c_str())) {
for (size_t i = 0; i < func_info.line_info.size(); ++i) {
const struct LineInfo &line_info = func_info.line_info[i];
if (!WriteFormat(fd, "%lx %lx %d %d\n",
line_info.rva_to_base,
line_info.size,
line_info.line_num,
line_info.source_id))
return false;
}
return true;
}
return false;
}
static bool WriteFunctionInfo(int fd, const struct SymbolInfo &symbols) {
for (size_t i = 0; i < symbols.source_file_info.size(); ++i) {
const struct SourceFileInfo &file_info = symbols.source_file_info[i];
for (size_t j = 0; j < file_info.func_info.size(); ++j) {
const struct FuncInfo &func_info = file_info.func_info[j];
if (!WriteOneFunction(fd, func_info))
return false;
}
}
return true;
}
static bool DumpStabSymbols(int fd, const struct SymbolInfo &symbols) {
return WriteSourceFileInfo(fd, symbols) &&
WriteFunctionInfo(fd, symbols);
}
//
// FDWrapper
//
// Wrapper class to make sure opened file is closed.
//
class FDWrapper {
public:
explicit FDWrapper(int fd) :
fd_(fd) {
}
~FDWrapper() {
if (fd_ != -1)
close(fd_);
}
int get() {
return fd_;
}
int release() {
int fd = fd_;
fd_ = -1;
return fd;
}
private:
int fd_;
};
//
// MmapWrapper
//
// Wrapper class to make sure mapped regions are unmapped.
//
class MmapWrapper {
public:
MmapWrapper(void *mapped_address, size_t mapped_size) :
base_(mapped_address), size_(mapped_size) {
}
~MmapWrapper() {
if (base_ != NULL) {
assert(size_ > 0);
munmap(base_, size_);
}
}
void release() {
base_ = NULL;
size_ = 0;
}
private:
void *base_;
size_t size_;
};
} // namespace
namespace google_breakpad {
bool DumpSymbols::WriteSymbolFile(const std::string &obj_file,
int sym_fd) {
int obj_fd = open(obj_file.c_str(), O_RDONLY);
if (obj_fd < 0)
return false;
FDWrapper obj_fd_wrapper(obj_fd);
struct stat st;
if (fstat(obj_fd, &st) != 0 && st.st_size <= 0)
return false;
void *obj_base = mmap(NULL, st.st_size,
PROT_READ | PROT_WRITE, MAP_PRIVATE, obj_fd, 0);
if (!obj_base)
return false;
MmapWrapper map_wrapper(obj_base, st.st_size);
ElfW(Ehdr) *elf_header = reinterpret_cast<ElfW(Ehdr) *>(obj_base);
if (!IsValidElf(elf_header))
return false;
struct SymbolInfo symbols;
symbols.next_source_id = 0;
if (!LoadSymbols(elf_header, &symbols))
return false;
// Write to symbol file.
if (WriteModuleInfo(sym_fd, elf_header->e_machine, obj_file) &&
DumpStabSymbols(sym_fd, symbols))
return true;
return false;
}
} // namespace google_breakpad
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