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dwflpp.h
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dwflpp.h
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// C++ interface to dwfl
// Copyright (C) 2005-2015 Red Hat Inc.
// Copyright (C) 2005-2007 Intel Corporation.
// Copyright (C) 2008 [email protected]
//
// This file is part of systemtap, and is free software. You can
// redistribute it and/or modify it under the terms of the GNU General
// Public License (GPL); either version 2, or (at your option) any
// later version.
#ifndef DWFLPP_H
#define DWFLPP_H
#include "config.h"
#include "dwarf_wrappers.h"
#include "elaborate.h"
#include "session.h"
#include "unordered.h"
#include "setupdwfl.h"
#include "stringtable.h"
#include <cstring>
#include <iostream>
#include <map>
#include <set>
#include <string>
#include <vector>
// Old elf.h doesn't know about this machine type.
#ifndef EM_AARCH64
#define EM_AARCH64 183
#endif
extern "C" {
#include <elfutils/libdwfl.h>
#include <regex.h>
}
struct base_func_info;
struct func_info;
struct inline_instance_info;
struct symbol_table;
struct base_query;
struct external_function_query;
enum lineno_t { ABSOLUTE, RELATIVE, WILDCARD, ENUMERATED };
enum info_status { info_unknown, info_present, info_absent };
// module -> cu die[]
typedef unordered_map<Dwarf*, std::vector<Dwarf_Die>*> module_cu_cache_t;
// An instance of this type tracks whether the type units for a given
// Dwarf have been read.
typedef std::set<Dwarf*> module_tus_read_t;
// typename -> die
typedef unordered_map<std::string, Dwarf_Die> cu_type_cache_t;
// cu die -> (typename -> die)
typedef unordered_map<void*, cu_type_cache_t*> mod_cu_type_cache_t;
// function -> die
typedef unordered_multimap<interned_string, Dwarf_Die> cu_function_cache_t;
typedef std::pair<cu_function_cache_t::iterator,
cu_function_cache_t::iterator>
cu_function_cache_range_t;
// cu die -> (function -> die)
typedef unordered_map<void*, cu_function_cache_t*> mod_cu_function_cache_t;
// module -> (function -> die)
typedef unordered_map<Dwarf*, cu_function_cache_t*> mod_function_cache_t;
// inline function die -> instance die[]
typedef unordered_map<void*, std::vector<Dwarf_Die>*> cu_inl_function_cache_t;
// die -> parent die
typedef unordered_map<void*, Dwarf_Die> cu_die_parent_cache_t;
// cu die -> (die -> parent die)
typedef unordered_map<void*, cu_die_parent_cache_t*> mod_cu_die_parent_cache_t;
// Dwarf_Line[] (sorted by lineno)
typedef std::vector<Dwarf_Line*> lines_t;
typedef std::pair<lines_t::iterator,
lines_t::iterator>
lines_range_t;
// srcfile -> Dwarf_Line[]
typedef unordered_map<std::string, lines_t*> srcfile_lines_cache_t;
// cu die -> (srcfile -> Dwarf_Line[])
typedef unordered_map<void*, srcfile_lines_cache_t*> cu_lines_cache_t;
typedef std::vector<base_func_info> base_func_info_map_t;
typedef std::vector<func_info> func_info_map_t;
typedef std::vector<inline_instance_info> inline_instance_map_t;
struct
module_info
{
Dwfl_Module* mod;
const char* name;
std::string elf_path;
Dwarf_Addr addr;
Dwarf_Addr bias;
symbol_table *sym_table;
info_status dwarf_status; // module has dwarf info?
info_status symtab_status; // symbol table cached?
std::set<interned_string> inlined_funcs;
std::set<interned_string> plt_funcs;
std::set<std::pair<std::string,std::string> > marks; /* <provider,name> */
void get_symtab();
void update_symtab(cu_function_cache_t *funcs);
module_info(const char *name) :
mod(NULL),
name(name),
addr(0),
bias(0),
sym_table(NULL),
dwarf_status(info_unknown),
symtab_status(info_unknown)
{}
~module_info();
};
struct
module_cache
{
std::map<std::string, module_info*> cache;
bool paths_collected;
bool dwarf_collected;
module_cache() : paths_collected(false), dwarf_collected(false) {}
~module_cache();
};
struct base_func_info
{
base_func_info()
: decl_line(-1), entrypc(0)
{
std::memset(&die, 0, sizeof(die));
}
interned_string name;
interned_string decl_file;
int decl_line;
Dwarf_Die die;
Dwarf_Addr entrypc;
};
struct func_info : base_func_info
{
func_info()
: addr(0), prologue_end(0), weak(false), descriptor(false) {}
Dwarf_Addr addr;
Dwarf_Addr prologue_end;
bool weak, descriptor;
};
struct inline_instance_info : base_func_info
{
inline_instance_info() {}
bool operator<(const inline_instance_info& other) const;
};
/* We'll need some context when dwflpp::loc2c_error is called.
So we can attach some detailed information about (the location of)
the DWARF that failed to be translated. Needs updating before each
loc2c c_translate call. */
struct loc2c_context
{
Dwarf_Die *die;
Dwarf_Addr pc;
public:
loc2c_context(): die(0), pc(0) {}
};
struct dwflpp
{
systemtap_session & sess;
// These are "current" values we focus on.
Dwfl_Module * module;
Dwarf_Addr module_bias;
module_info * mod_info;
// These describe the current module's PC address range
Dwarf_Addr module_start;
Dwarf_Addr module_end;
Dwarf_Die * cu;
std::string module_name;
std::string function_name;
// Some context for dwflpp::loc2c_error callback.
// Needs updating before each loc2c c_translate call.
struct loc2c_context l2c_ctx;
dwflpp(systemtap_session & session, const std::string& user_module, bool kernel_p);
dwflpp(systemtap_session & session, const std::vector<std::string>& user_modules, bool kernel_p);
~dwflpp();
void get_module_dwarf(bool required = false, bool report = true);
void focus_on_module(Dwfl_Module * m, module_info * mi);
void focus_on_cu(Dwarf_Die * c);
void focus_on_function(Dwarf_Die * f);
std::string cu_name(void);
Dwarf_Die *query_cu_containing_address(Dwarf_Addr a);
bool module_name_matches(const std::string& pattern);
static bool name_has_wildcard(const std::string& pattern);
bool module_name_final_match(const std::string& pattern);
bool function_name_matches_pattern(const std::string& name, const std::string& pattern);
bool function_name_matches(const std::string& pattern);
bool function_scope_matches(const std::vector<std::string>& scopes);
template<typename T>
void iterate_over_modules(int (* callback)(Dwfl_Module*,
void**,
const char*,
Dwarf_Addr,
T*),
T *data)
{
/* We're using templates here to enforce type-safety between the data arg
* we're requested to pass to callback, and the data arg that the callback
* actually takes. Rather than putting the implementation here, we simply
* call the <void> specialization, which does the real work.
* As a result, we need to cast the data arg in the callback signature
* and the one passed to void* (which is what elfutils also works with).
* */
iterate_over_modules<void>((int (*)(Dwfl_Module*,
void**,
const char*,
Dwarf_Addr,
void *))callback,
(void*)data);
}
template<typename T>
void iterate_over_cus(int (* callback)(Dwarf_Die*, T*),
T *data,
bool want_types)
{
// See comment block in iterate_over_modules()
iterate_over_cus<void>((int (*)(Dwarf_Die*, void*))callback,
(void*)data,
want_types);
}
bool func_is_inline();
bool func_is_exported();
template<typename T>
void iterate_over_inline_instances(int (* callback)(Dwarf_Die*, T*),
T *data)
{
// See comment block in iterate_over_modules()
iterate_over_inline_instances<void>((int (*)(Dwarf_Die*, void*))callback,
(void*)data);
}
std::vector<Dwarf_Die> getscopes_die(Dwarf_Die* die);
std::vector<Dwarf_Die> getscopes(Dwarf_Die* die);
std::vector<Dwarf_Die> getscopes(Dwarf_Addr pc);
Dwarf_Die *declaration_resolve(Dwarf_Die *type);
Dwarf_Die *declaration_resolve(const std::string& name);
Dwarf_Die *declaration_resolve_other_cus(const std::string& name);
template<typename T>
int iterate_over_functions (int (* callback)(Dwarf_Die*, T*),
T *data, const std::string& function)
{
// See comment block in iterate_over_modules()
return iterate_over_functions<void>((int (*)(Dwarf_Die*, void*))callback,
(void*)data, function);
}
template<typename T>
int iterate_single_function (int (* callback)(Dwarf_Die*, T*),
T *data, const std::string& function)
{
// See comment block in iterate_over_modules()
return iterate_single_function<void>((int (*)(Dwarf_Die*, void*))callback,
(void*)data, function);
}
template<typename T>
int iterate_over_notes (T *object,
void (* callback)(T*, const std::string&,
const std::string&,
int, const char*, size_t))
{
// See comment block in iterate_over_modules()
return iterate_over_notes<void>((void*)object,
(void (*)(void*,
const std::string&,
const std::string&,
int,
const char*,
size_t))callback);
}
template<typename T>
void iterate_over_libraries (void (*callback)(T*, const char*), T *data)
{
// See comment block in iterate_over_modules()
iterate_over_libraries<void>((void (*)(void*,
const char*))callback,
(void*)data);
}
template<typename T>
int iterate_over_plt (T *object, void (*callback)(T*, const char*, size_t))
{
// See comment block in iterate_over_modules()
return iterate_over_plt<void>((void*)object,
(void (*)(void*,
const char*,
size_t))callback);
}
template<typename T>
void iterate_over_srcfile_lines (char const * srcfile,
const std::vector<int>& linenos,
enum lineno_t lineno_type,
base_func_info_map_t& funcs,
void (*callback) (Dwarf_Addr,
int, T*),
bool has_nearest,
T *data)
{
// See comment block in iterate_over_modules()
iterate_over_srcfile_lines<void>(srcfile,
linenos,
lineno_type,
funcs,
(void (*)(Dwarf_Addr,
int, void*))callback,
has_nearest,
(void*)data);
}
template<typename T>
void iterate_over_labels (Dwarf_Die *begin_die,
const std::string& sym,
const base_func_info& function,
const std::vector<int>& linenos,
enum lineno_t lineno_type,
T *data,
void (* callback)(const base_func_info&,
const char*,
const char*,
int,
Dwarf_Die*,
Dwarf_Addr,
T*))
{
// See comment block in iterate_over_modules()
iterate_over_labels<void>(begin_die,
sym,
function,
linenos,
lineno_type,
(void*)data,
(void (*)(const base_func_info&,
const char*,
const char*,
int,
Dwarf_Die*,
Dwarf_Addr,
void*))callback);
}
template<typename T>
void iterate_over_callees (Dwarf_Die *begin_die,
const std::string& sym,
long recursion_depth,
T *data,
void (* callback)(base_func_info&,
base_func_info&,
std::stack<Dwarf_Addr>*,
T*),
base_func_info& caller,
std::stack<Dwarf_Addr>*callers=NULL)
{
// See comment block in iterate_over_modules()
iterate_over_callees<void>(begin_die,
sym,
recursion_depth,
(void*)data,
(void (*)(base_func_info&,
base_func_info&,
std::stack<Dwarf_Addr>*,
void*))callback,
caller,
callers);
}
GElf_Shdr * get_section(std::string section_name, GElf_Shdr *shdr_mem,
Elf **elf_ret=NULL);
void collect_srcfiles_matching (std::string const & pattern,
std::set<std::string> & filtered_srcfiles);
void resolve_prologue_endings (func_info_map_t & funcs);
bool function_entrypc (Dwarf_Addr * addr) __attribute__((warn_unused_result));
bool die_entrypc (Dwarf_Die * die, Dwarf_Addr * addr) __attribute__((warn_unused_result));
void function_die (Dwarf_Die *d);
void function_file (char const ** c);
void function_line (int *linep);
bool die_has_pc (Dwarf_Die & die, Dwarf_Addr pc);
bool inner_die_containing_pc(Dwarf_Die& scope, Dwarf_Addr addr,
Dwarf_Die& result);
std::string literal_stmt_for_local (std::vector<Dwarf_Die>& scopes,
Dwarf_Addr pc,
std::string const & local,
const target_symbol *e,
bool lvalue,
Dwarf_Die *die_mem);
Dwarf_Die* type_die_for_local (std::vector<Dwarf_Die>& scopes,
Dwarf_Addr pc,
std::string const & local,
const target_symbol *e,
Dwarf_Die *die_mem);
std::string literal_stmt_for_return (Dwarf_Die *scope_die,
Dwarf_Addr pc,
const target_symbol *e,
bool lvalue,
Dwarf_Die *die_mem);
Dwarf_Die* type_die_for_return (Dwarf_Die *scope_die,
Dwarf_Addr pc,
const target_symbol *e,
Dwarf_Die *die_mem);
std::string literal_stmt_for_pointer (Dwarf_Die *type_die,
const target_symbol *e,
bool lvalue,
Dwarf_Die *die_mem);
Dwarf_Die* type_die_for_pointer (Dwarf_Die *type_die,
const target_symbol *e,
Dwarf_Die *die_mem);
enum blacklisted_type
{ blacklisted_none, // not blacklisted
blacklisted_section,
blacklisted_kprobes,
blacklisted_function,
blacklisted_function_return,
blacklisted_file
};
blacklisted_type blacklisted_p(interned_string funcname,
interned_string filename,
int line,
interned_string module,
Dwarf_Addr addr,
bool has_return);
Dwarf_Addr relocate_address(Dwarf_Addr addr, interned_string& reloc_section);
void resolve_unqualified_inner_typedie (Dwarf_Die *typedie,
Dwarf_Die *innerdie,
const target_symbol *e);
bool has_gnu_debugdata();
bool has_valid_locs();
private:
Dwfl * dwfl;
// These are "current" values we focus on.
Dwarf * module_dwarf;
Dwarf_Die * function;
void setup_kernel(const std::string& module_name, systemtap_session &s, bool debuginfo_needed = true);
void setup_kernel(const std::vector<std::string>& modules, bool debuginfo_needed = true);
void setup_user(const std::vector<std::string>& modules, bool debuginfo_needed = true);
module_cu_cache_t module_cu_cache;
module_tus_read_t module_tus_read;
mod_cu_function_cache_t cu_function_cache;
mod_function_cache_t mod_function_cache;
std::set<void*> cu_inl_function_cache_done; // CUs that are already cached
cu_inl_function_cache_t cu_inl_function_cache;
void cache_inline_instances (Dwarf_Die* die);
mod_cu_die_parent_cache_t cu_die_parent_cache;
void cache_die_parents(cu_die_parent_cache_t* parents, Dwarf_Die* die);
cu_die_parent_cache_t *get_die_parents();
// Cache for cu lines sorted by lineno
cu_lines_cache_t cu_lines_cache;
Dwarf_Die* get_parent_scope(Dwarf_Die* die);
/* The global alias cache is used to resolve any DIE found in a
* module that is stubbed out with DW_AT_declaration with a defining
* DIE found in a different module. The current assumption is that
* this only applies to structures and unions, which have a global
* namespace (it deliberately only traverses program scope), so this
* cache is indexed by name. If other declaration lookups were
* added to it, it would have to be indexed by name and tag
*/
mod_cu_type_cache_t global_alias_cache;
static int global_alias_caching_callback(Dwarf_Die *die, bool has_inner_types,
const std::string& prefix, cu_type_cache_t *cache);
static int global_alias_caching_callback_cus(Dwarf_Die *die, dwflpp *dw);
template<typename T>
static int iterate_over_globals (Dwarf_Die *cu_die,
int (* callback)(Dwarf_Die*,
bool,
const std::string&,
T*),
T *data)
{
// See comment block in iterate_over_modules()
return iterate_over_globals<void>(cu_die,
(int (*)(Dwarf_Die*,
bool,
const std::string&,
void*))callback,
(void*)data);
}
template<typename T>
static int iterate_over_types (Dwarf_Die *top_die,
bool has_inner_types,
const std::string& prefix,
int (* callback)(Dwarf_Die*,
bool,
const std::string&,
T*),
T *data)
{
// See comment block in iterate_over_modules()
return iterate_over_types<void>(top_die, has_inner_types, prefix,
(int (*)(Dwarf_Die*,
bool,
const std::string&,
void*))callback,
(void*)data);
}
static int mod_function_caching_callback (Dwarf_Die* func, cu_function_cache_t *v);
static int cu_function_caching_callback (Dwarf_Die* func, cu_function_cache_t *v);
lines_t* get_cu_lines_sorted_by_lineno(const char *srcfile);
void collect_lines_for_single_lineno(char const * srcfile,
int lineno,
bool is_relative,
base_func_info_map_t& funcs,
lines_t& matching_lines);
void collect_all_lines(char const * srcfile,
base_func_info_map_t& funcs,
lines_t& matching_lines);
std::pair<int,int> get_nearest_linenos(char const * srcfile,
int lineno,
base_func_info_map_t& funcs);
int get_nearest_lineno(char const * srcfile,
int lineno,
base_func_info_map_t& funcs);
void suggest_alternative_linenos(char const * srcfile,
int lineno,
base_func_info_map_t& funcs);
static int external_function_cu_callback (Dwarf_Die* cu, external_function_query *efq);
static int external_function_func_callback (Dwarf_Die* func, external_function_query *efq);
static void loc2c_error (void *, const char *fmt, ...) __attribute__ ((noreturn));
// This function generates code used for addressing computations of
// target variables.
void emit_address (struct obstack *pool, Dwarf_Addr address);
static void loc2c_emit_address (void *arg, struct obstack *pool,
Dwarf_Addr address);
void get_locals(std::vector<Dwarf_Die>& scopes, std::set<std::string>& locals);
void get_locals_die(Dwarf_Die &die, std::set<std::string>& locals);
void get_members(Dwarf_Die *vardie, std::set<std::string>& members,
std::set<std::string> &dupes);
Dwarf_Attribute *find_variable_and_frame_base (std::vector<Dwarf_Die>& scopes,
Dwarf_Addr pc,
std::string const & local,
const target_symbol *e,
Dwarf_Die *vardie,
Dwarf_Attribute *fb_attr_mem);
std::string die_location_as_string(Dwarf_Addr, Dwarf_Die*);
std::string die_location_as_function_string(Dwarf_Addr, Dwarf_Die*);
std::string pc_die_line_string(Dwarf_Addr, Dwarf_Die*);
/* source file name, line and column info for pc in current cu. */
const char *pc_line (Dwarf_Addr, int *, int *);
struct location *translate_location(struct obstack *pool,
Dwarf_Attribute *attr,
Dwarf_Die *die,
Dwarf_Addr pc,
Dwarf_Attribute *fb_attr,
struct location **tail,
const target_symbol *e);
bool find_struct_member(const target_symbol::component& c,
Dwarf_Die *parentdie,
Dwarf_Die *memberdie,
std::vector<Dwarf_Die>& dies,
std::vector<Dwarf_Attribute>& locs);
void translate_components(struct obstack *pool,
struct location **tail,
Dwarf_Addr pc,
const target_symbol *e,
Dwarf_Die *vardie,
Dwarf_Die *typedie,
unsigned first=0);
void translate_final_fetch_or_store (struct obstack *pool,
struct location **tail,
Dwarf_Addr module_bias,
Dwarf_Die *vardie,
Dwarf_Die *typedie,
bool lvalue,
const target_symbol *e,
std::string &,
std::string &,
Dwarf_Die *enddie);
std::string express_as_string (std::string prelude,
std::string postlude,
struct location *head);
regex_t blacklist_func; // function/statement probes
regex_t blacklist_func_ret; // only for .return probes
regex_t blacklist_file; // file name
regex_t blacklist_section; // init/exit sections
bool blacklist_enabled;
void build_kernel_blacklist();
void build_user_blacklist();
std::string get_blacklist_section(Dwarf_Addr addr);
// Returns the call frame address operations for the given program counter.
Dwarf_Op *get_cfa_ops (Dwarf_Addr pc);
Dwarf_Addr vardie_from_symtable(Dwarf_Die *vardie, Dwarf_Addr *addr);
static int add_module_build_id_to_hash (Dwfl_Module *m,
void **userdata __attribute__ ((unused)),
const char *name,
Dwarf_Addr base,
void *arg);
static bool is_gcc_producer(Dwarf_Die *cudie, std::string& producer,
std::string& version);
public:
Dwarf_Addr pr15123_retry_addr (Dwarf_Addr pc, Dwarf_Die* var);
};
// Template <void> specializations for iterate_over_* functions
template<> void
dwflpp::iterate_over_modules<void>(int (*callback)(Dwfl_Module*,
void**,
const char*,
Dwarf_Addr,
void*),
void *data);
template<> void
dwflpp::iterate_over_cus<void>(int (*callback)(Dwarf_Die*, void*),
void *data,
bool want_types);
template<> void
dwflpp::iterate_over_inline_instances<void>(int (*callback)(Dwarf_Die*, void*),
void *data);
template<> int
dwflpp::iterate_over_functions<void>(int (*callback)(Dwarf_Die*, void*),
void *data, const std::string& function);
template<> int
dwflpp::iterate_single_function<void>(int (*callback)(Dwarf_Die*, void*),
void *data, const std::string& function);
template<> int
dwflpp::iterate_over_globals<void>(Dwarf_Die *cu_die,
int (*callback)(Dwarf_Die*,
bool,
const std::string&,
void*),
void *data);
template<> int
dwflpp::iterate_over_types<void>(Dwarf_Die *top_die,
bool has_inner_types,
const std::string& prefix,
int (* callback)(Dwarf_Die*,
bool,
const std::string&,
void*),
void *data);
template<> int
dwflpp::iterate_over_notes<void>(void *object, void (*callback)(void*,
const std::string&,
const std::string&,
int,
const char*,
size_t));
template<> void
dwflpp::iterate_over_libraries<void>(void (*callback)(void*, const char*),
void *data);
template<> int
dwflpp::iterate_over_plt<void>(void *object, void (*callback)(void*,
const char*,
size_t));
template<> void
dwflpp::iterate_over_srcfile_lines<void>(char const * srcfile,
const std::vector<int>& linenos,
enum lineno_t lineno_type,
base_func_info_map_t& funcs,
void (* callback) (Dwarf_Addr,
int, void*),
bool has_nearest,
void *data);
template<> void
dwflpp::iterate_over_labels<void>(Dwarf_Die *begin_die,
const std::string& sym,
const base_func_info& function,
const std::vector<int>& linenos,
enum lineno_t lineno_type,
void *data,
void (* callback)(const base_func_info&,
const char*,
const char*,
int,
Dwarf_Die*,
Dwarf_Addr,
void*));
template<> void
dwflpp::iterate_over_callees<void>(Dwarf_Die *begin_die,
const std::string& sym,
long recursion_depth,
void *data,
void (* callback)(base_func_info&,
base_func_info&,
std::stack<Dwarf_Addr>*,
void*),
base_func_info& caller,
std::stack<Dwarf_Addr> *callers);
#endif // DWFLPP_H
/* vim: set sw=2 ts=8 cino=>4,n-2,{2,^-2,t0,(0,u0,w1,M1 : */