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dwarves/dwarves.c

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/*
Copyright (C) 2006 Mandriva Conectiva S.A.
Copyright (C) 2006 Arnaldo Carvalho de Melo <acme@mandriva.com>
Copyright (C) 2007 Red Hat Inc.
Copyright (C) 2007 Arnaldo Carvalho de Melo <acme@redhat.com>
This program is free software; you can redistribute it and/or modify it
under the terms of version 2 of the GNU General Public License as
published by the Free Software Foundation.
*/
#include <assert.h>
#include <dirent.h>
#include <dwarf.h>
#include <errno.h>
#include <fcntl.h>
#include <fnmatch.h>
#include <libelf.h>
#include <search.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "config.h"
#include "ctf_loader.h"
#include "dwarf_loader.h"
#include "list.h"
#include "dwarves.h"
#include "dutil.h"
#include "strings.h"
struct strings *strings;
static inline const char *s(strings_t i)
{
return strings__ptr(strings, i);
}
static const char *dwarf_tag_names[] = {
[DW_TAG_array_type] = "array_type",
[DW_TAG_class_type] = "class_type",
[DW_TAG_entry_point] = "entry_point",
[DW_TAG_enumeration_type] = "enumeration_type",
[DW_TAG_formal_parameter] = "formal_parameter",
[DW_TAG_imported_declaration] = "imported_declaration",
[DW_TAG_label] = "label",
[DW_TAG_lexical_block] = "lexical_block",
[DW_TAG_member] = "member",
[DW_TAG_pointer_type] = "pointer_type",
[DW_TAG_reference_type] = "reference_type",
[DW_TAG_compile_unit] = "compile_unit",
[DW_TAG_string_type] = "string_type",
[DW_TAG_structure_type] = "structure_type",
[DW_TAG_subroutine_type] = "subroutine_type",
[DW_TAG_typedef] = "typedef",
[DW_TAG_union_type] = "union_type",
[DW_TAG_unspecified_parameters] = "unspecified_parameters",
[DW_TAG_variant] = "variant",
[DW_TAG_common_block] = "common_block",
[DW_TAG_common_inclusion] = "common_inclusion",
[DW_TAG_inheritance] = "inheritance",
[DW_TAG_inlined_subroutine] = "inlined_subroutine",
[DW_TAG_module] = "module",
[DW_TAG_ptr_to_member_type] = "ptr_to_member_type",
[DW_TAG_set_type] = "set_type",
[DW_TAG_subrange_type] = "subrange_type",
[DW_TAG_with_stmt] = "with_stmt",
[DW_TAG_access_declaration] = "access_declaration",
[DW_TAG_base_type] = "base_type",
[DW_TAG_catch_block] = "catch_block",
[DW_TAG_const_type] = "const_type",
[DW_TAG_constant] = "constant",
[DW_TAG_enumerator] = "enumerator",
[DW_TAG_file_type] = "file_type",
[DW_TAG_friend] = "friend",
[DW_TAG_namelist] = "namelist",
[DW_TAG_namelist_item] = "namelist_item",
[DW_TAG_packed_type] = "packed_type",
[DW_TAG_subprogram] = "subprogram",
[DW_TAG_template_type_parameter] = "template_type_parameter",
[DW_TAG_template_value_parameter] = "template_value_parameter",
[DW_TAG_thrown_type] = "thrown_type",
[DW_TAG_try_block] = "try_block",
[DW_TAG_variant_part] = "variant_part",
[DW_TAG_variable] = "variable",
[DW_TAG_volatile_type] = "volatile_type",
[DW_TAG_dwarf_procedure] = "dwarf_procedure",
[DW_TAG_restrict_type] = "restrict_type",
[DW_TAG_interface_type] = "interface_type",
[DW_TAG_namespace] = "namespace",
[DW_TAG_imported_module] = "imported_module",
[DW_TAG_unspecified_type] = "unspecified_type",
[DW_TAG_partial_unit] = "partial_unit",
[DW_TAG_imported_unit] = "imported_unit",
[DW_TAG_mutable_type] = "mutable_type",
[DW_TAG_condition] = "condition",
[DW_TAG_shared_type] = "shared_type",
};
const char *dwarf_tag_name(const uint32_t tag)
{
if (tag >= DW_TAG_array_type && tag <= DW_TAG_shared_type)
return dwarf_tag_names[tag];
return "INVALID";
}
static const struct conf_fprintf conf_fprintf__defaults = {
.name_spacing = 23,
.type_spacing = 26,
.emit_stats = 1,
};
static const char tabs[] = "\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t";
static size_t cacheline_size;
void tag__delete(struct tag *self)
{
assert(list_empty(&self->node));
free(self);
}
void tag__not_found_die(const char *file, int line, const char *func)
{
fprintf(stderr, "%s::%s(%d): tag not found, please report to "
"acme@ghostprotocols.net\n", file, func, line);
exit(1);
}
struct tag *tag__follow_typedef(struct tag *tag, const struct cu *cu)
{
struct tag *type = cu__find_type_by_id(cu, tag->type);
if (type != NULL && tag__is_typedef(type))
return tag__follow_typedef(type, cu);
return type;
}
static const char *tag__accessibility(const struct tag *self)
{
int a;
switch (self->tag) {
case DW_TAG_inheritance:
case DW_TAG_member:
a = tag__class_member(self)->accessibility;
break;
case DW_TAG_subprogram:
a = tag__function(self)->accessibility;
break;
default:
return NULL;
}
switch (a) {
case DW_ACCESS_public: return "public";
case DW_ACCESS_private: return "private";
case DW_ACCESS_protected: return "protected";
}
return NULL;
}
size_t tag__nr_cachelines(const struct tag *self, const struct cu *cu)
{
return (tag__size(self, cu) + cacheline_size - 1) / cacheline_size;
}
static size_t __tag__id_not_found_snprintf(char *bf, size_t len, Dwarf_Off id,
const char *fn)
{
return snprintf(bf, len, "<ERROR(%s): %#llx not found!>", fn,
(unsigned long long)id);
}
#define tag__id_not_found_snprintf(bf, len, id) \
__tag__id_not_found_snprintf(bf, len, id, __func__)
static size_t __tag__id_not_found_fprintf(FILE *fp, Dwarf_Off id,
const char *fn)
{
return fprintf(fp, "<ERROR(%s): %#llx not found!>", fn,
(unsigned long long)id);
}
#define tag__id_not_found_fprintf(fp, id) \
__tag__id_not_found_fprintf(fp, id, __func__)
size_t tag__fprintf_decl_info(const struct tag *self,
const struct cu *cu, FILE *fp)
{
return fprintf(fp, "/* <%llx> %s:%u */\n", tag__orig_id(self, cu),
tag__decl_file(self, cu), tag__decl_line(self, cu));
return 0;
}
static size_t type__fprintf(struct tag *type, const struct cu *cu,
const char *name, const struct conf_fprintf *conf,
FILE *fp);
static size_t array_type__fprintf(const struct tag *tag_self,
const struct cu *cu, const char *name,
const struct conf_fprintf *conf,
FILE *fp)
{
struct array_type *self = tag__array_type(tag_self);
struct tag *type = cu__find_type_by_id(cu, tag_self->type);
size_t printed;
int i;
if (type == NULL)
return tag__id_not_found_fprintf(fp, tag_self->type);
printed = type__fprintf(type, cu, name, conf, fp);
for (i = 0; i < self->dimensions; ++i)
printed += fprintf(fp, "[%u]", self->nr_entries[i]);
return printed;
}
void namespace__delete(struct namespace *self)
{
struct tag *pos, *n;
namespace__for_each_tag_safe(self, pos, n) {
list_del_init(&pos->node);
/* Look for nested namespaces */
if (tag__has_namespace(pos))
namespace__delete(tag__namespace(pos));
tag__delete(pos);
}
tag__delete(&self->tag);
}
struct class_member *
type__find_first_biggest_size_base_type_member(struct type *self,
const struct cu *cu)
{
struct class_member *pos, *result = NULL;
size_t result_size = 0;
type__for_each_data_member(self, pos) {
struct tag *type = cu__find_type_by_id(cu, pos->tag.type);
size_t member_size = 0, power2;
struct class_member *inner = NULL;
if (type == NULL) {
tag__id_not_found_fprintf(stderr, pos->tag.type);
continue;
}
reevaluate:
switch (type->tag) {
case DW_TAG_base_type:
member_size = base_type__size(type);
break;
case DW_TAG_pointer_type:
case DW_TAG_reference_type:
member_size = cu->addr_size;
break;
case DW_TAG_class_type:
case DW_TAG_union_type:
case DW_TAG_structure_type:
if (tag__type(type)->nr_members == 0)
continue;
inner = type__find_first_biggest_size_base_type_member(tag__type(type), cu);
member_size = class_member__size(inner, cu);
break;
case DW_TAG_array_type:
case DW_TAG_const_type:
case DW_TAG_typedef:
case DW_TAG_volatile_type: {
struct tag *tag = type;
type = cu__find_type_by_id(cu, tag->type);
if (type == NULL) {
tag__id_not_found_fprintf(stderr, tag->type);
continue;
}
}
goto reevaluate;
case DW_TAG_enumeration_type:
member_size = tag__type(type)->size;
break;
}
/* long long */
if (member_size > cu->addr_size)
return pos;
for (power2 = cu->addr_size; power2 > result_size; power2 /= 2)
if (member_size >= power2) {
if (power2 == cu->addr_size)
return inner ?: pos;
result_size = power2;
result = inner ?: pos;
}
}
return result;
}
size_t typedef__fprintf(const struct tag *tag_self, const struct cu *cu,
const struct conf_fprintf *conf, FILE *fp)
{
struct type *self = tag__type(tag_self);
const struct conf_fprintf *pconf = conf ?: &conf_fprintf__defaults;
const struct tag *type;
const struct tag *ptr_type;
char bf[512];
int is_pointer = 0;
size_t printed;
/*
* Check for void (humm, perhaps we should have a fake void tag instance
* to avoid all these checks?
*/
if (tag_self->type == 0)
return fprintf(fp, "typedef void %s", type__name(self));
type = cu__find_type_by_id(cu, tag_self->type);
if (type == NULL) {
printed = fprintf(fp, "typedef ");
printed += tag__id_not_found_fprintf(fp, tag_self->type);
return printed + fprintf(fp, " %s", type__name(self));
}
switch (type->tag) {
case DW_TAG_array_type:
printed = fprintf(fp, "typedef ");
return printed + array_type__fprintf(type, cu,
type__name(self),
pconf, fp);
case DW_TAG_pointer_type:
if (type->type == 0) /* void pointer */
break;
ptr_type = cu__find_type_by_id(cu, type->type);
if (ptr_type == NULL) {
printed = fprintf(fp, "typedef ");
printed += tag__id_not_found_fprintf(fp, type->type);
return printed + fprintf(fp, " *%s", type__name(self));
}
if (ptr_type->tag != DW_TAG_subroutine_type)
break;
type = ptr_type;
is_pointer = 1;
/* Fall thru */
case DW_TAG_subroutine_type:
printed = fprintf(fp, "typedef ");
return printed + ftype__fprintf(tag__ftype(type), cu,
type__name(self),
0, is_pointer, 0,
fp);
case DW_TAG_class_type:
case DW_TAG_structure_type: {
struct type *ctype = tag__type(type);
if (type__name(ctype) != NULL)
return fprintf(fp, "typedef struct %s %s",
type__name(ctype),
type__name(self));
}
}
return fprintf(fp, "typedef %s %s",
tag__name(type, cu, bf, sizeof(bf)),
type__name(self));
}
static size_t imported_declaration__fprintf(const struct tag *self,
const struct cu *cu, FILE *fp)
{
char bf[512];
size_t printed = fprintf(fp, "using ::");
const struct tag *decl = cu__find_tag_by_id(cu, self->type);
if (decl == NULL)
return printed + tag__id_not_found_fprintf(fp, self->type);
return printed + fprintf(fp, "%s", tag__name(decl, cu, bf, sizeof(bf)));
}
static size_t imported_module__fprintf(const struct tag *self,
const struct cu *cu, FILE *fp)
{
const struct tag *module = cu__find_tag_by_id(cu, self->type);
const char *name = "<IMPORTED MODULE ERROR!>";
if (tag__is_namespace(module))
name = s(tag__namespace(module)->name);
return fprintf(fp, "using namespace %s", name);
}
size_t enumeration__fprintf(const struct tag *tag_self,
const struct conf_fprintf *conf, FILE *fp)
{
struct type *self = tag__type(tag_self);
struct enumerator *pos;
size_t printed = fprintf(fp, "enum%s%s {\n",
type__name(self) ? " " : "",
type__name(self) ?: "");
int indent = conf->indent;
if (indent >= (int)sizeof(tabs))
indent = sizeof(tabs) - 1;
type__for_each_enumerator(self, pos)
printed += fprintf(fp, "%.*s\t%s = %u,\n", indent, tabs,
s(pos->name), pos->value);
return printed + fprintf(fp, "%.*s}%s%s", indent, tabs,
conf->suffix ? " " : "", conf->suffix ?: "");
}
static void cu__find_class_holes(struct cu *self)
{
uint16_t id;
struct class *pos;
cu__for_each_struct(self, id, pos)
class__find_holes(pos, self);
}
void cus__add(struct cus *self, struct cu *cu)
{
list_add_tail(&cu->node, &self->cus);
cu__find_class_holes(cu);
}
static void ptr_table__init(struct ptr_table *self)
{
self->entries = NULL;
self->nr_entries = self->allocated_entries = 0;
}
static void ptr_table__exit(struct ptr_table *self)
{
free(self->entries);
self->entries = NULL;
}
static long ptr_table__add(struct ptr_table *self, void *ptr)
{
const uint32_t nr_entries = self->nr_entries + 1;
const long rc = self->nr_entries;
if (nr_entries > self->allocated_entries) {
uint32_t allocated_entries = self->allocated_entries + 256;
void *entries = realloc(self->entries,
sizeof(void *) * allocated_entries);
if (entries == NULL)
return -ENOMEM;
self->allocated_entries = allocated_entries;
self->entries = entries;
}
self->entries[rc] = ptr;
self->nr_entries = nr_entries;
return rc;
}
static int ptr_table__add_with_id(struct ptr_table *self, void *ptr,
uint32_t id)
{
/* Assume we won't be fed with the same id more than once */
if (id >= self->allocated_entries) {
uint32_t allocated_entries = roundup(id + 1, 256);
void *entries = realloc(self->entries,
sizeof(void *) * allocated_entries);
if (entries == NULL)
return -ENOMEM;
self->allocated_entries = allocated_entries;
self->entries = entries;
}
self->entries[id] = ptr;
++self->nr_entries;
return 0;
}
static void *ptr_table__entry(const struct ptr_table *self, uint32_t id)
{
return id >= self->nr_entries ? NULL : self->entries[id];
}
int cu__table_add_tag(struct cu *self, struct tag *tag, long *id)
{
struct ptr_table *pt = tag__is_tag_type(tag) ?
&self->types_table :
&self->tags_table;
if (*id < 0) {
*id = ptr_table__add(pt, tag);
if (*id < 0)
return -ENOMEM;
} else if (ptr_table__add_with_id(pt, tag, *id) < 0)
return -ENOMEM;
return 0;
}
int cu__table_nullify_type_entry(struct cu *self, uint32_t id)
{
return ptr_table__add_with_id(&self->types_table, NULL, id);
}
int cu__add_tag(struct cu *self, struct tag *tag, long *id)
{
int err = cu__table_add_tag(self, tag, id);
if (err == 0)
list_add_tail(&tag->node, &self->tags);
return err;
}
struct cu *cu__new(const char *name, uint8_t addr_size,
const unsigned char *build_id, int build_id_len)
{
struct cu *self = malloc(sizeof(*self) + build_id_len);
if (self != NULL) {
self->name = strdup(name);
if (self->name == NULL)
goto out_free;
ptr_table__init(&self->tags_table);
ptr_table__init(&self->types_table);
/*
* the first entry is historically associated with void,
* so make sure we don't use it
*/
if (ptr_table__add(&self->types_table, NULL) < 0)
goto out_free_name;
self->orig_info = NULL;
INIT_LIST_HEAD(&self->tags);
INIT_LIST_HEAD(&self->tool_list);
self->addr_size = addr_size;
self->extra_dbg_info = 0;
self->nr_inline_expansions = 0;
self->size_inline_expansions = 0;
self->nr_structures_changed = 0;
self->nr_functions_changed = 0;
self->max_len_changed_item = 0;
self->function_bytes_added = 0;
self->function_bytes_removed = 0;
self->build_id_len = build_id_len;
if (build_id_len > 0)
memcpy(self->build_id, build_id, build_id_len);
}
out:
return self;
out_free_name:
free(self->name);
out_free:
free(self);
self = NULL;
goto out;
}
static void array_type__delete(struct tag *self)
{
free(tag__array_type(self)->nr_entries);
free(self);
}
static int cu__delete_tag(struct tag *self, struct cu *cu __unused,
void *cookie __unused)
{
tag__free_orig_info(self, cu);
switch (self->tag) {
case DW_TAG_array_type:
array_type__delete(self); break;
default:
free(self); break;
}
return 0;
}
void cu__delete(struct cu *self)
{
cu__for_all_tags(self, cu__delete_tag, NULL);
ptr_table__exit(&self->tags_table);
ptr_table__exit(&self->types_table);
free(self->name);
free(self);
}
bool cu__same_build_id(const struct cu *self, const struct cu *other)
{
return self->build_id_len != 0 &&
self->build_id_len == other->build_id_len &&
memcmp(self->build_id, other->build_id, self->build_id_len) == 0;
}
static const char *tag__prefix(const struct cu *cu, const uint32_t tag)
{
switch (tag) {
case DW_TAG_enumeration_type: return "enum ";
case DW_TAG_structure_type:
return cu->language == DW_LANG_C_plus_plus ? "class " :
"struct ";
case DW_TAG_class_type: return "class";
case DW_TAG_union_type: return "union ";
case DW_TAG_pointer_type: return " *";
case DW_TAG_reference_type: return " &";
}
return "";
}
struct tag *cu__find_tag_by_id(const struct cu *self, const uint32_t id)
{
return self ? ptr_table__entry(&self->tags_table, id) : NULL;
}
struct tag *cu__find_type_by_id(const struct cu *self, const uint16_t id)
{
return self ? ptr_table__entry(&self->types_table, id) : NULL;
}
struct tag *cu__find_first_typedef_of_type(const struct cu *self,
const Dwarf_Off type)
{
uint16_t id;
struct tag *pos;
if (self == NULL || type == 0)
return NULL;
cu__for_each_type(self, id, pos)
if (tag__is_typedef(pos) && pos->type == type)
return pos;
return NULL;
}
struct tag *cu__find_base_type_by_name(const struct cu *self,
const char *name, uint16_t *idp)
{
uint16_t id;
struct tag *pos;
if (self == NULL || name == NULL)
return NULL;
strings_t sname = strings__find(strings, name);
if (sname == 0)
return NULL;
cu__for_each_type(self, id, pos) {
if (pos->tag == DW_TAG_base_type) {
const struct base_type *bt = tag__base_type(pos);
if (bt->name == sname) {
if (idp != NULL)
*idp = id;
return pos;
}
}
}
return NULL;
}
struct tag *cu__find_base_type_by_sname_and_size(const struct cu *self,
strings_t sname,
uint16_t bit_size,
uint16_t *idp)
{
uint16_t id;
struct tag *pos;
if (sname == 0)
return NULL;
cu__for_each_type(self, id, pos) {
if (pos->tag == DW_TAG_base_type) {
const struct base_type *bt = tag__base_type(pos);
if (bt->bit_size == bit_size &&
bt->name == sname) {
if (idp != NULL)
*idp = id;
return pos;
}
}
}
return NULL;
}
struct tag *cu__find_base_type_by_name_and_size(const struct cu *self,
const char *name,
uint16_t bit_size,
uint16_t *idp)
{
if (self == NULL || name == NULL)
return NULL;
strings_t sname = strings__find(strings, name);
return cu__find_base_type_by_sname_and_size(self, sname, bit_size, idp);
}
struct tag *cu__find_struct_by_sname(const struct cu *self, strings_t sname,
const int include_decls, uint16_t *idp)
{
uint16_t id;
struct tag *pos;
if (sname == 0)
return NULL;
cu__for_each_type(self, id, pos) {
struct type *type;
if (!tag__is_struct(pos))
continue;
type = tag__type(pos);
if (type->namespace.name == sname) {
if (!type->declaration)
goto found;
if (include_decls)
goto found;
}
}
return NULL;
found:
if (idp != NULL)
*idp = id;
return pos;
}
struct tag *cu__find_struct_by_name(const struct cu *self, const char *name,
const int include_decls, uint16_t *idp)
{
if (self == NULL || name == NULL)
return NULL;
strings_t sname = strings__find(strings, name);
if (sname == 0)
return NULL;
return cu__find_struct_by_sname(self, sname, include_decls, idp);
}
struct tag *cus__find_struct_by_name(const struct cus *self,
struct cu **cu, const char *name,
const int include_decls, uint16_t *id)
{
struct cu *pos;
list_for_each_entry(pos, &self->cus, node) {
struct tag *tag = cu__find_struct_by_name(pos, name,
include_decls,
id);
if (tag != NULL) {
if (cu != NULL)
*cu = pos;
return tag;
}
}
return NULL;
}
struct tag *cus__find_function_by_name(const struct cus *self,
struct cu **cu, const char *name)
{
struct cu *pos;
list_for_each_entry(pos, &self->cus, node) {
struct tag *function = cu__find_function_by_name(pos, name);
if (function != NULL) {
if (cu != NULL)
*cu = pos;
return function;
}
}
return NULL;
}
struct tag *cus__find_tag_by_id(const struct cus *self,
struct cu **cu, const Dwarf_Off id)
{
struct cu *pos;
list_for_each_entry(pos, &self->cus, node) {
struct tag *tag = cu__find_type_by_id(pos, id);
if (tag == NULL)
tag = cu__find_tag_by_id(pos, id);
if (tag != NULL) {
if (cu != NULL)
*cu = pos;
return tag;
}
}
return NULL;
}
struct cu *cus__find_cu_by_name(const struct cus *self, const char *name)
{
struct cu *pos;
list_for_each_entry(pos, &self->cus, node)
if (pos->name && strcmp(pos->name, name) == 0)
return pos;
return NULL;
}
struct tag *cu__find_function_by_name(const struct cu *self, const char *name)
{
struct tag *pos;
if (self == NULL || name == NULL)
return NULL;
strings_t sname = strings__find(strings, name);
if (sname == 0)
return NULL;
list_for_each_entry(pos, &self->tags, node)
if (tag__is_function(pos) &&
tag__function(pos)->name == sname)
return pos;
return NULL;
}
static size_t array_type__nr_entries(const struct array_type *self)
{
int i;
size_t nr_entries = 1;
for (i = 0; i < self->dimensions; ++i)
nr_entries *= self->nr_entries[i];
return nr_entries;
}
size_t tag__size(const struct tag *self, const struct cu *cu)
{
size_t size;
switch (self->tag) {
case DW_TAG_pointer_type:
case DW_TAG_reference_type: return cu->addr_size;
case DW_TAG_base_type: return base_type__size(self);
case DW_TAG_enumeration_type: return tag__type(self)->size;
}
if (self->type == 0) { /* struct class: unions, structs */
struct type *type = tag__type(self);
/* empty base optimization trick */
if (type->size == 1 && type->nr_members == 0)
size = 0;
else
size = tag__type(self)->size;
} else {
const struct tag *type = cu__find_type_by_id(cu, self->type);
if (type == NULL) {
tag__id_not_found_fprintf(stderr, self->type);
return -1;
}
size = tag__size(type, cu);
}
if (self->tag == DW_TAG_array_type)
return size * array_type__nr_entries(tag__array_type(self));
return size;
}
static const char *tag__ptr_name(const struct tag *self, const struct cu *cu,
char *bf, size_t len, const char *ptr_suffix)
{
if (self->type == 0) /* No type == void */
snprintf(bf, len, "void %s", ptr_suffix);
else {
const struct tag *type = cu__find_type_by_id(cu, self->type);
if (type == NULL) {
size_t l = tag__id_not_found_snprintf(bf, len,
self->type);
snprintf(bf + l, len - l, " %s", ptr_suffix);
} else {
char tmpbf[1024];
snprintf(bf, len, "%s %s",
tag__name(type, cu,
tmpbf, sizeof(tmpbf)), ptr_suffix);
}
}
return bf;
}
const char *tag__name(const struct tag *self, const struct cu *cu,
char *bf, size_t len)
{
struct tag *type;
if (self == NULL)
strncpy(bf, "void", len);
else switch (self->tag) {
case DW_TAG_base_type: {
const struct base_type *bt = tag__base_type(self);
const char *name = "nameless base type!";
if (bt->name)
name = s(bt->name);
strncpy(bf, name, len);
}
break;
case DW_TAG_subprogram:
strncpy(bf, function__name(tag__function(self), cu), len);
break;
case DW_TAG_pointer_type:
return tag__ptr_name(self, cu, bf, len, "*");
case DW_TAG_reference_type:
return tag__ptr_name(self, cu, bf, len, "&");
case DW_TAG_ptr_to_member_type: {
char suffix[512];
Dwarf_Off id = tag__ptr_to_member_type(self)->containing_type;
type = cu__find_type_by_id(cu, id);
if (type != NULL)
snprintf(suffix, sizeof(suffix), "%s::*",
class__name(tag__class(type)));
else {
size_t l = tag__id_not_found_snprintf(suffix,
sizeof(suffix),
id);
snprintf(suffix + l, sizeof(suffix) - l, "::*");
}
return tag__ptr_name(self, cu, bf, len, suffix);
}
case DW_TAG_volatile_type:
case DW_TAG_const_type:
type = cu__find_type_by_id(cu, self->type);
if (type == NULL && self->type != 0)
tag__id_not_found_snprintf(bf, len, self->type);
else {
char tmpbf[128];
snprintf(bf, len, "%s %s ",
self->tag == DW_TAG_volatile_type ?
"volatile" : "const",
tag__name(type, cu, tmpbf, sizeof(tmpbf)));
}
break;
case DW_TAG_array_type:
type = cu__find_type_by_id(cu, self->type);
if (type == NULL)
tag__id_not_found_snprintf(bf, len, self->type);
else
return tag__name(type, cu, bf, len);
break;
case DW_TAG_subroutine_type: {
FILE *bfp = fmemopen(bf, len, "w");
if (bfp != NULL) {
ftype__fprintf(tag__ftype(self), cu, NULL, 0, 0, 0, bfp);
fclose(bfp);
} else
snprintf(bf, len, "<ERROR(%s): fmemopen failed!>",
__func__);
}
break;
default:
snprintf(bf, len, "%s%s", tag__prefix(cu, self->tag),
type__name(tag__type(self)) ?: "");
break;
}
return bf;
}
static struct tag *variable__type(const struct variable *self,
const struct cu *cu)
{
struct tag *var;
if (self->tag.type != 0)
return cu__find_type_by_id(cu, self->tag.type);
else if (self->abstract_origin != 0) {
var = cu__find_tag_by_id(cu, self->abstract_origin);
if (var)
return variable__type(tag__variable(var), cu);
}
return NULL;
}
const char *variable__type_name(const struct variable *self,
const struct cu *cu,
char *bf, size_t len)
{
const struct tag *tag = variable__type(self, cu);
return tag != NULL ? tag__name(tag, cu, bf, len) : NULL;
}
const char *variable__name(const struct variable *self, const struct cu *cu)
{
if (self->name)
return s(self->name);
if (self->abstract_origin != 0) {
struct tag *var =
cu__find_tag_by_id(cu, self->abstract_origin);
if (var != NULL)
return s(tag__variable(var)->name);
}
return NULL;
}
static const char *variable__prefix(const struct variable *var)
{
switch (var->location) {
case LOCATION_REGISTER:
return "register ";
case LOCATION_UNKNOWN:
if (var->external && var->declaration)
return "extern ";
break;
case LOCATION_GLOBAL:
if (!var->external)
return "static ";
break;
case LOCATION_LOCAL:
case LOCATION_OPTIMIZED:
break;
}
return NULL;
}
void class_member__delete(struct class_member *self)
{
free(self);
}
static struct class_member *class_member__clone(const struct class_member *from)
{
struct class_member *self = malloc(sizeof(*self));
if (self != NULL)
memcpy(self, from, sizeof(*self));
return self;
}
size_t class_member__size(const struct class_member *self,
const struct cu *cu)
{
struct tag *type = cu__find_type_by_id(cu, self->tag.type);
if (type == NULL) {
tag__id_not_found_fprintf(stderr, self->tag.type);
return -1;
}
return tag__size(type, cu);
}
static size_t union__fprintf(struct type *self, const struct cu *cu,
const struct conf_fprintf *conf, FILE *fp);
static size_t type__fprintf(struct tag *type, const struct cu *cu,
const char *name, const struct conf_fprintf *conf,
FILE *fp)
{
char tbf[128];
char namebf[256];
struct type *ctype;
struct conf_fprintf tconf;
size_t printed = 0;
int expand_types = conf->expand_types;
int suppress_offset_comment = conf->suppress_offset_comment;
if (type == NULL)
goto out_type_not_found;
if (conf->expand_pointers) {
int nr_indirections = 0;
while (type->tag == DW_TAG_pointer_type && type->type != 0) {
type = cu__find_type_by_id(cu, type->type);
if (type == NULL)
goto out_type_not_found;
++nr_indirections;
}
if (nr_indirections > 0) {
const size_t len = strlen(name);
if (len + nr_indirections >= sizeof(namebf))
goto out_type_not_found;
memset(namebf, '*', nr_indirections);
memcpy(namebf + nr_indirections, name, len);
namebf[len + nr_indirections] = '\0';
name = namebf;
}
expand_types = nr_indirections;
if (!suppress_offset_comment)
suppress_offset_comment = !!nr_indirections;
/* Avoid loops */
if (type->recursivity_level != 0)
expand_types = 0;
++type->recursivity_level;
}
if (expand_types) {
int typedef_expanded = 0;
while (tag__is_typedef(type)) {
ctype = tag__type(type);
if (typedef_expanded)
printed += fprintf(fp, " -> %s",
type__name(ctype));
else {
printed += fprintf(fp, "/* typedef %s",
type__name(ctype));
typedef_expanded = 1;
}
type = cu__find_type_by_id(cu, type->type);
if (type == NULL)
goto out_type_not_found;
}
if (typedef_expanded)
printed += fprintf(fp, " */ ");
}
if (tag__is_struct(type) || tag__is_union(type) ||
tag__is_enumeration(type)) {
tconf = *conf;
tconf.type_spacing -= 8;
tconf.prefix = NULL;
tconf.suffix = name;
tconf.emit_stats = 0;
tconf.suppress_offset_comment = suppress_offset_comment;
}
switch (type->tag) {
case DW_TAG_pointer_type:
if (type->type != 0) {
struct tag *ptype = cu__find_type_by_id(cu, type->type);
if (ptype == NULL)
goto out_type_not_found;
if (ptype->tag == DW_TAG_subroutine_type) {
printed += ftype__fprintf(tag__ftype(ptype),
cu, name, 0, 1,
conf->type_spacing,
fp);
break;
}
}
/* Fall Thru */
default:
printed += fprintf(fp, "%-*s %s", conf->type_spacing,
tag__name(type, cu, tbf, sizeof(tbf)), name);
break;
case DW_TAG_subroutine_type:
printed += ftype__fprintf(tag__ftype(type), cu, name, 0, 0,
conf->type_spacing, fp);
break;
case DW_TAG_array_type:
printed += array_type__fprintf(type, cu, name, conf, fp);
break;
case DW_TAG_class_type:
case DW_TAG_structure_type:
ctype = tag__type(type);
if (type__name(ctype) != NULL && !expand_types)
printed += fprintf(fp, "%s %-*s %s",
type->tag == DW_TAG_class_type ? "class" : "struct",
conf->type_spacing - 7,
type__name(ctype), name);
else
printed += class__fprintf(tag__class(type),
cu, &tconf, fp);
break;
case DW_TAG_union_type:
ctype = tag__type(type);
if (type__name(ctype) != NULL && !expand_types)
printed += fprintf(fp, "union %-*s %s",
conf->type_spacing - 6,
type__name(ctype), name);
else
printed += union__fprintf(ctype, cu, &tconf, fp);
break;
case DW_TAG_enumeration_type:
ctype = tag__type(type);
if (type__name(ctype) != NULL)
printed += fprintf(fp, "enum %-*s %s",
conf->type_spacing - 5,
type__name(ctype), name);
else
printed += enumeration__fprintf(type, &tconf, fp);
break;
}
out:
if (conf->expand_types)
--type->recursivity_level;
return printed;
out_type_not_found:
printed = fprintf(fp, "%-*s %s", conf->type_spacing, "<ERROR>", name);
goto out;
}
static size_t struct_member__fprintf(struct class_member *self,
struct tag *type, const struct cu *cu,
const struct conf_fprintf *conf, FILE *fp)
{
const int size = tag__size(type, cu);
struct conf_fprintf sconf = *conf;
uint32_t offset = self->offset;
size_t printed = 0;
const char *name = s(self->name);
if (!sconf.rel_offset) {
sconf.base_offset += self->offset;
offset = sconf.base_offset;
}
if (self->tag.tag == DW_TAG_inheritance) {
name = "<ancestor>";
printed += fprintf(fp, "/* ");
}
printed += type__fprintf(type, cu, name, &sconf, fp);
if (self->bit_size != 0)
printed += fprintf(fp, ":%u;", self->bit_size);
else {
fputc(';', fp);
++printed;
}
if ((tag__is_union(type) || tag__is_struct(type) ||
tag__is_enumeration(type)) &&
/* Look if is a type defined inline */
type__name(tag__type(type)) == NULL) {
if (!sconf.suppress_offset_comment) {
/* Check if this is a anonymous union */
const int slen = self->name ?
(int)strlen(s(self->name)) : -1;
printed += fprintf(fp, "%*s/* %5u %5u */",
(sconf.type_spacing +
sconf.name_spacing - slen - 3),
" ", offset, size);
}
} else {
int spacing = sconf.type_spacing + sconf.name_spacing - printed;
if (self->tag.tag == DW_TAG_inheritance) {
const size_t p = fprintf(fp, " */");
printed += p;
spacing -= p;
}
if (!sconf.suppress_offset_comment) {
int size_spacing = 5;
printed += fprintf(fp, "%*s/* %5u",
spacing > 0 ? spacing : 0, " ",
offset);
if (self->bit_size != 0) {
printed += fprintf(fp, ":%2d", self->bit_offset);
size_spacing -= 3;
}
printed += fprintf(fp, " %*u */", size_spacing, size);
}
}
return printed;
}
static size_t union_member__fprintf(struct class_member *self,
struct tag *type, const struct cu *cu,
const struct conf_fprintf *conf, FILE *fp)
{
const size_t size = tag__size(type, cu);
size_t printed = type__fprintf(type, cu, s(self->name), conf, fp);
if ((tag__is_union(type) || tag__is_struct(type) ||
tag__is_enumeration(type)) &&
/* Look if is a type defined inline */
type__name(tag__type(type)) == NULL) {
if (!conf->suppress_offset_comment) {
/* Check if this is a anonymous union */
const int slen = self->name ? (int)strlen(s(self->name)) : -1;
/*
* Add the comment with the union size after padding the
* '} member_name;' last line of the type printed in the
* above call to type__fprintf.
*/
printed += fprintf(fp, ";%*s/* %11zd */",
(conf->type_spacing +
conf->name_spacing - slen - 3), " ", size);
}
} else {
printed += fprintf(fp, ";");
if (!conf->suppress_offset_comment) {
const int spacing = conf->type_spacing + conf->name_spacing - printed;
printed += fprintf(fp, "%*s/* %11zd */",
spacing > 0 ? spacing : 0, " ", size);
}
}
return printed;
}
static size_t union__fprintf(struct type *self, const struct cu *cu,
const struct conf_fprintf *conf, FILE *fp)
{
struct class_member *pos;
size_t printed = 0;
int indent = conf->indent;
struct conf_fprintf uconf;
if (indent >= (int)sizeof(tabs))
indent = sizeof(tabs) - 1;
if (conf->prefix != NULL)
printed += fprintf(fp, "%s ", conf->prefix);
printed += fprintf(fp, "union%s%s {\n", type__name(self) ? " " : "",
type__name(self) ?: "");
uconf = *conf;
uconf.indent = indent + 1;
type__for_each_member(self, pos) {
struct tag *type = cu__find_type_by_id(cu, pos->tag.type);
if (type == NULL) {
printed += fprintf(fp, "%.*s", uconf.indent, tabs);
printed += tag__id_not_found_fprintf(fp, pos->tag.type);
continue;
}
printed += fprintf(fp, "%.*s", uconf.indent, tabs);
printed += union_member__fprintf(pos, type, cu, &uconf, fp);
fputc('\n', fp);
++printed;
}
return printed + fprintf(fp, "%.*s}%s%s", indent, tabs,
conf->suffix ? " " : "", conf->suffix ?: "");
}
void class__delete(struct class *self)
{
struct class_member *pos, *next;
type__for_each_member_safe(&self->type, pos, next)
class_member__delete(pos);
free(self);
}
void class__add_vtable_entry(struct class *self, struct function *vtable_entry)
{
++self->nr_vtable_entries;
list_add_tail(&vtable_entry->vtable_node, &self->vtable);
}
void namespace__add_tag(struct namespace *self, struct tag *tag)
{
++self->nr_tags;
list_add_tail(&tag->node, &self->tags);
}
void type__add_member(struct type *self, struct class_member *member)
{
++self->nr_members;
namespace__add_tag(&self->namespace, &member->tag);
}
struct class_member *type__last_member(struct type *self)
{
struct class_member *pos;
list_for_each_entry_reverse(pos, &self->namespace.tags, tag.node)
if (pos->tag.tag == DW_TAG_member)
return pos;
return NULL;
}
static int type__clone_members(struct type *self, const struct type *from)
{
struct class_member *pos;
self->nr_members = 0;
INIT_LIST_HEAD(&self->namespace.tags);
type__for_each_member(from, pos) {
struct class_member *member_clone = class_member__clone(pos);
if (member_clone == NULL)
return -1;
type__add_member(self, member_clone);
}
return 0;
}
struct class *class__clone(const struct class *from,
const char *new_class_name)
{
struct class *self = malloc(sizeof(*self));
if (self != NULL) {
memcpy(self, from, sizeof(*self));
if (type__clone_members(&self->type, &from->type) != 0) {
class__delete(self);
self = NULL;
}
if (new_class_name != NULL)
self->type.namespace.name = strings__add(strings,
new_class_name);
}
return self;
}
void enumeration__add(struct type *self, struct enumerator *enumerator)
{
++self->nr_members;
namespace__add_tag(&self->namespace, &enumerator->tag);
}
void lexblock__add_lexblock(struct lexblock *self, struct lexblock *child)
{
++self->nr_lexblocks;
list_add_tail(&child->tag.node, &self->tags);
}
const char *function__name(struct function *self, const struct cu *cu __unused)
{
return s(self->name);
}
const char *function__prototype(const struct function *self,
const struct cu *cu, char *bf, size_t len)
{
FILE *bfp = fmemopen(bf, len, "w");
if (bfp != NULL) {
ftype__fprintf(&self->proto, cu, NULL, 0, 0, 0, bfp);
fclose(bfp);
} else
snprintf(bf, len, "<ERROR(%s): fmemopen failed!>", __func__);
return bf;
}
int ftype__has_parm_of_type(const struct ftype *self, const uint16_t target,
const struct cu *cu)
{
struct parameter *pos;
ftype__for_each_parameter(self, pos) {
struct tag *type = cu__find_type_by_id(cu, pos->tag.type);
if (type != NULL && type->tag == DW_TAG_pointer_type) {
if (type->type == target)
return 1;
}
}
return 0;
}
void ftype__add_parameter(struct ftype *self, struct parameter *parm)
{
++self->nr_parms;
list_add_tail(&parm->tag.node, &self->parms);
}
void lexblock__add_tag(struct lexblock *self, struct tag *tag)
{
list_add_tail(&tag->node, &self->tags);
}
void lexblock__add_inline_expansion(struct lexblock *self,
struct inline_expansion *exp)
{
++self->nr_inline_expansions;
self->size_inline_expansions += exp->size;
lexblock__add_tag(self, &exp->tag);
}
void lexblock__add_variable(struct lexblock *self, struct variable *var)
{
++self->nr_variables;
lexblock__add_tag(self, &var->tag);
}
void lexblock__add_label(struct lexblock *self, struct label *label)
{
++self->nr_labels;
lexblock__add_tag(self, &label->tag);
}
const struct class_member *class__find_bit_hole(const struct class *self,
const struct class_member *trailer,
const uint16_t bit_hole_size)
{
struct class_member *pos;
const size_t byte_hole_size = bit_hole_size / 8;
type__for_each_data_member(&self->type, pos)
if (pos == trailer)
break;
else if (pos->hole >= byte_hole_size ||
pos->bit_hole >= bit_hole_size)
return pos;
return NULL;
}
void class__find_holes(struct class *self, const struct cu *cu)
{
const struct type *ctype = &self->type;
struct class_member *pos, *last = NULL;
size_t last_size = 0, size;
uint32_t bit_sum = 0;
uint32_t bitfield_real_offset = 0;
self->nr_holes = 0;
self->nr_bit_holes = 0;
type__for_each_member(ctype, pos) {
/* XXX for now just skip these */
if (pos->tag.tag == DW_TAG_inheritance &&
pos->virtuality == DW_VIRTUALITY_virtual)
continue;
if (last != NULL) {
/*
* We have to cast both offsets to int64_t because
* the current offset can be before the last offset
* when we are starting a bitfield that combines with
* the previous, small size fields.
*/
const ssize_t cc_last_size = ((int64_t)pos->offset -
(int64_t)last->offset);
/*
* If the offset is the same this better be a bitfield
* or an empty struct (see rwlock_t in the Linux kernel
* sources when compiled for UP) or...
*/
if (cc_last_size > 0) {
/*
* Check if the DWARF byte_size info is smaller
* than the size used by the compiler, i.e.
* when combining small bitfields with the next
* member.
*/
if ((size_t)cc_last_size < last_size)
last_size = cc_last_size;
last->hole = cc_last_size - last_size;
if (last->hole > 0)
++self->nr_holes;
if (bit_sum != 0) {
if (bitfield_real_offset != 0) {
last_size = bitfield_real_offset - last->offset;
bitfield_real_offset = 0;
}
last->bit_hole = (last_size * 8) -
bit_sum;
if (last->bit_hole != 0)
++self->nr_bit_holes;
last->bitfield_end = 1;
bit_sum = 0;
}
} else if (cc_last_size < 0 && bit_sum == 0)
bitfield_real_offset = last->offset + last_size;
}
bit_sum += pos->bit_size;
size = class_member__size(pos, cu);
/*
* check for bitfields, accounting for only the biggest of the
* byte_size in the fields in each bitfield set.
*/
if (last == NULL || last->offset != pos->offset ||
pos->bit_size == 0 || last->bit_size == 0) {
last_size = size;
} else if (size > last_size)
last_size = size;
last = pos;
}
if (last != NULL) {
if (last->offset + last_size != ctype->size)
self->padding = ctype->size -
(last->offset + last_size);
if (last->bit_size != 0)
self->bit_padding = (last_size * 8) - bit_sum;
} else
/* No members? Zero sized C++ class */
self->padding = 0;
}
/** class__has_hole_ge - check if class has a hole greater or equal to @size
* @self - class instance
* @size - hole size to check
*/
int class__has_hole_ge(const struct class *self, const uint16_t size)
{
struct class_member *pos;
if (self->nr_holes == 0)
return 0;
type__for_each_data_member(&self->type, pos)
if (pos->hole >= size)
return 1;
return 0;
}
struct class_member *type__find_member_by_name(const struct type *self,
const char *name)
{
if (name == NULL)
return NULL;
strings_t sname = strings__find(strings, name);
if (sname == 0)
return NULL;
struct class_member *pos;
type__for_each_data_member(self, pos)
if (pos->name == sname)
return pos;
return NULL;
}
uint32_t type__nr_members_of_type(const struct type *self, const Dwarf_Off type)
{
struct class_member *pos;
uint32_t nr_members_of_type = 0;
type__for_each_member(self, pos)
if (pos->tag.type == type)
++nr_members_of_type;
return nr_members_of_type;
}
static void lexblock__account_inline_expansions(struct lexblock *self,
const struct cu *cu)
{
struct tag *pos, *type;
if (self->nr_inline_expansions == 0)
return;
list_for_each_entry(pos, &self->tags, node) {
if (pos->tag == DW_TAG_lexical_block) {
lexblock__account_inline_expansions(tag__lexblock(pos),
cu);
continue;
} else if (pos->tag != DW_TAG_inlined_subroutine)
continue;
type = cu__find_tag_by_id(cu, pos->type);
if (type != NULL) {
struct function *ftype = tag__function(type);
ftype->cu_total_nr_inline_expansions++;
ftype->cu_total_size_inline_expansions +=
tag__inline_expansion(pos)->size;
}
}
}
void cu__account_inline_expansions(struct cu *self)
{
struct tag *pos;
struct function *fpos;
list_for_each_entry(pos, &self->tags, node) {
if (!tag__is_function(pos))
continue;
fpos = tag__function(pos);
lexblock__account_inline_expansions(&fpos->lexblock, self);
self->nr_inline_expansions += fpos->lexblock.nr_inline_expansions;
self->size_inline_expansions += fpos->lexblock.size_inline_expansions;
}
}
static size_t ftype__fprintf_parms(const struct ftype *self,
const struct cu *cu, int indent,
FILE *fp)
{
struct parameter *pos;
int first_parm = 1;
char sbf[128];
struct tag *type;
const char *name, *stype;
size_t printed = fprintf(fp, "(");
ftype__for_each_parameter(self, pos) {
if (!first_parm) {
if (indent == 0)
printed += fprintf(fp, ", ");
else
printed += fprintf(fp, ",\n%.*s",
indent, tabs);
} else
first_parm = 0;
name = parameter__name(pos);
type = cu__find_type_by_id(cu, pos->tag.type);
if (type == NULL) {
snprintf(sbf, sizeof(sbf),
"<ERROR: type %d not found>", pos->tag.type);
stype = sbf;
goto print_it;
}
if (type->tag == DW_TAG_pointer_type) {
if (type->type != 0) {
struct tag *ptype =
cu__find_type_by_id(cu, type->type);
if (ptype == NULL) {
printed +=
tag__id_not_found_fprintf(fp, type->type);
continue;
}
if (ptype->tag == DW_TAG_subroutine_type) {
printed +=
ftype__fprintf(tag__ftype(ptype),
cu, name, 0, 1, 0,
fp);
continue;
}
}
} else if (type->tag == DW_TAG_subroutine_type) {
printed += ftype__fprintf(tag__ftype(type), cu, name,
0, 0, 0, fp);
continue;
}
stype = tag__name(type, cu, sbf, sizeof(sbf));
print_it:
printed += fprintf(fp, "%s%s%s", stype, name ? " " : "",
name ?: "");
}
/* No parameters? */
if (first_parm)
printed += fprintf(fp, "void)");
else if (self->unspec_parms)
printed += fprintf(fp, ", ...)");
else
printed += fprintf(fp, ")");
return printed;
}
static size_t function__tag_fprintf(const struct tag *tag, const struct cu *cu,
struct function *function,
uint16_t indent, FILE *fp)
{
char bf[512];
size_t printed = 0, n;
const void *vtag = tag;
int c;
if (indent >= sizeof(tabs))
indent = sizeof(tabs) - 1;
c = indent * 8;
switch (tag->tag) {
case DW_TAG_inlined_subroutine: {
const struct inline_expansion *exp = vtag;
const struct tag *talias =
cu__find_tag_by_id(cu, exp->tag.type);
struct function *alias = tag__function(talias);
const char *name;
if (alias == NULL) {
printed += tag__id_not_found_fprintf(fp, exp->tag.type);
break;
}
printed = fprintf(fp, "%.*s", indent, tabs);
name = function__name(alias, cu);
n = fprintf(fp, "%s", name);
n += ftype__fprintf_parms(&alias->proto, cu,
indent + (strlen(name) + 7) / 8,
fp);
n += fprintf(fp, "; /* size=%zd, low_pc=%#llx */",
exp->size, (unsigned long long)exp->low_pc);
#if 0
n = fprintf(fp, "%s(); /* size=%zd, low_pc=%#llx */",
function__name(alias, cu), exp->size,
(unsigned long long)exp->low_pc);
#endif
c = 69;
printed += n;
}
break;
case DW_TAG_variable:
printed = fprintf(fp, "%.*s", indent, tabs);
n = fprintf(fp, "%s %s;",
variable__type_name(vtag, cu, bf, sizeof(bf)),
variable__name(vtag, cu));
c += n;
printed += n;
break;
case DW_TAG_label: {
const struct label *label = vtag;
printed = fprintf(fp, "%.*s", indent, tabs);
fputc('\n', fp);
++printed;
c = fprintf(fp, "%s:", s(label->name));
printed += c;
}
break;
case DW_TAG_lexical_block:
printed = lexblock__fprintf(vtag, cu, function, indent, fp);
fputc('\n', fp);
return printed + 1;
default:
printed = fprintf(fp, "%.*s", indent, tabs);
n = fprintf(fp, "%s <%llx>", dwarf_tag_name(tag->tag),
tag__orig_id(tag, cu));
c += n;
printed += n;
break;
}
return printed + fprintf(fp, "%-*.*s// %5u\n", 70 - c, 70 - c, " ",
tag__decl_line(tag, cu));
}
size_t lexblock__fprintf(const struct lexblock *self, const struct cu *cu,
struct function *function, uint16_t indent, FILE *fp)
{
struct tag *pos;
size_t printed;
if (indent >= sizeof(tabs))
indent = sizeof(tabs) - 1;
printed = fprintf(fp, "%.*s{", indent, tabs);
if (self->low_pc != 0) {
Dwarf_Off offset = self->low_pc - function->lexblock.low_pc;
if (offset == 0)
printed += fprintf(fp, " /* low_pc=%#llx */",
(unsigned long long)self->low_pc);
else
printed += fprintf(fp, " /* %s+%#llx */",
function__name(function, cu),
(unsigned long long)offset);
}
printed += fprintf(fp, "\n");
list_for_each_entry(pos, &self->tags, node)
printed += function__tag_fprintf(pos, cu, function, indent + 1, fp);
printed += fprintf(fp, "%.*s}", indent, tabs);
if (function->lexblock.low_pc != self->low_pc)
printed += fprintf(fp, " /* lexblock size=%d */", self->size);
return printed;
}
size_t ftype__fprintf(const struct ftype *self, const struct cu *cu,
const char *name, const int inlined,
const int is_pointer, int type_spacing, FILE *fp)
{
struct tag *type = cu__find_type_by_id(cu, self->tag.type);
char sbf[128];
const char *stype = tag__name(type, cu, sbf, sizeof(sbf));
size_t printed = fprintf(fp, "%s%-*s %s%s%s%s",
inlined ? "inline " : "",
type_spacing, stype,
self->tag.tag == DW_TAG_subroutine_type ?
"(" : "",
is_pointer ? "*" : "", name ?: "",
self->tag.tag == DW_TAG_subroutine_type ?
")" : "");
return printed + ftype__fprintf_parms(self, cu, 0, fp);
}
static size_t function__fprintf(const struct tag *tag_self,
const struct cu *cu, FILE *fp)
{
struct function *self = tag__function(tag_self);
size_t printed = 0;
if (self->virtuality == DW_VIRTUALITY_virtual ||
self->virtuality == DW_VIRTUALITY_pure_virtual)
printed += fprintf(fp, "virtual ");
printed += ftype__fprintf(&self->proto, cu, function__name(self, cu),
function__declared_inline(self), 0, 0, fp);
if (self->virtuality == DW_VIRTUALITY_pure_virtual)
printed += fprintf(fp, " = 0");
return printed;
}
size_t function__fprintf_stats(const struct tag *tag_self,
const struct cu *cu, FILE *fp)
{
struct function *self = tag__function(tag_self);
size_t printed = lexblock__fprintf(&self->lexblock, cu, self, 0, fp);
printed += fprintf(fp, "/* size: %d", function__size(self));
if (self->lexblock.nr_variables > 0)
printed += fprintf(fp, ", variables: %u",
self->lexblock.nr_variables);
if (self->lexblock.nr_labels > 0)
printed += fprintf(fp, ", goto labels: %u",
self->lexblock.nr_labels);
if (self->lexblock.nr_inline_expansions > 0)
printed += fprintf(fp, ", inline expansions: %u (%d bytes)",
self->lexblock.nr_inline_expansions,
self->lexblock.size_inline_expansions);
return printed + fprintf(fp, " */\n");
}
static size_t class__fprintf_cacheline_boundary(uint32_t last_cacheline,
size_t sum, size_t sum_holes,
uint8_t *newline,
uint32_t *cacheline,
int indent, FILE *fp)
{
const size_t real_sum = sum + sum_holes;
size_t printed = 0;
*cacheline = real_sum / cacheline_size;
if (*cacheline > last_cacheline) {
const uint32_t cacheline_pos = real_sum % cacheline_size;
const uint32_t cacheline_in_bytes = real_sum - cacheline_pos;
if (*newline) {
fputc('\n', fp);
*newline = 0;
++printed;
}
printed += fprintf(fp, "%.*s", indent, tabs);
if (cacheline_pos == 0)
printed += fprintf(fp, "/* --- cacheline %u boundary "
"(%u bytes) --- */\n", *cacheline,
cacheline_in_bytes);
else
printed += fprintf(fp, "/* --- cacheline %u boundary "
"(%u bytes) was %u bytes ago --- "
"*/\n", *cacheline,
cacheline_in_bytes, cacheline_pos);
}
return printed;
}
static size_t class__vtable_fprintf(struct class *self,
const struct conf_fprintf *conf, FILE *fp)
{
struct function *pos;
size_t printed = 0;
if (self->nr_vtable_entries == 0)
goto out;
printed += fprintf(fp, "%.*s/* vtable has %u entries: {\n",
conf->indent, tabs, self->nr_vtable_entries);
list_for_each_entry(pos, &self->vtable, vtable_node) {
printed += fprintf(fp, "%.*s [%d] = %s(%s), \n",
conf->indent, tabs, pos->vtable_entry,
s(pos->name),
s(pos->linkage_name));
}
printed += fprintf(fp, "%.*s} */", conf->indent, tabs);
out:
return printed;
}
size_t class__fprintf(struct class *self, const struct cu *cu,
const struct conf_fprintf *conf, FILE *fp)
{
struct type *tself = &self->type;
size_t last_size = 0, size;
uint8_t newline = 0;
uint16_t nr_paddings = 0;
uint32_t sum = 0;
uint32_t sum_holes = 0;
uint32_t sum_paddings = 0;
uint32_t sum_bit_holes = 0;
uint32_t last_cacheline = 0;
uint32_t bitfield_real_offset = 0;
int first = 1;
struct class_member *pos, *last = NULL;
struct tag *tag_pos;
const char *current_accessibility = NULL;
struct conf_fprintf cconf = conf ? *conf : conf_fprintf__defaults;
size_t printed = fprintf(fp, "%s%s%s%s%s",
cconf.prefix ?: "", cconf.prefix ? " " : "",
tself->namespace.tag.tag == DW_TAG_class_type ? "class" : "struct",
type__name(tself) ? " " : "",
type__name(tself) ?: "");
int indent = cconf.indent;
if (indent >= (int)sizeof(tabs))
indent = sizeof(tabs) - 1;
cconf.indent = indent + 1;
cconf.no_semicolon = 0;
/* First look if we have DW_TAG_inheritance */
type__for_each_tag(tself, tag_pos) {
struct tag *type;
const char *accessibility;
if (tag_pos->tag != DW_TAG_inheritance)
continue;
if (first) {
printed += fprintf(fp, " :");
first = 0;
} else
printed += fprintf(fp, ",");
pos = tag__class_member(tag_pos);
if (pos->virtuality == DW_VIRTUALITY_virtual)
printed += fprintf(fp, " virtual");
accessibility = tag__accessibility(tag_pos);
if (accessibility != NULL)
printed += fprintf(fp, " %s", accessibility);
type = cu__find_type_by_id(cu, tag_pos->type);
if (type != NULL)
printed += fprintf(fp, " %s", type__name(tag__type(type)));
else
printed += tag__id_not_found_fprintf(fp, tag_pos->type);
}
printed += fprintf(fp, " {\n");
type__for_each_tag(tself, tag_pos) {
struct tag *type;
const char *accessibility = tag__accessibility(tag_pos);
if (accessibility != NULL &&
accessibility != current_accessibility) {
current_accessibility = accessibility;
printed += fprintf(fp, "%.*s%s:\n\n",
cconf.indent - 1, tabs,
accessibility);
}
if (tag_pos->tag != DW_TAG_member &&
tag_pos->tag != DW_TAG_inheritance) {
if (!cconf.show_only_data_members) {
printed += tag__fprintf(tag_pos, cu, &cconf, fp);
printed += fprintf(fp, "\n\n");
}
continue;
}
pos = tag__class_member(tag_pos);
if (last != NULL &&
pos->offset != last->offset &&
!cconf.suppress_comments)
printed +=
class__fprintf_cacheline_boundary(last_cacheline,
sum, sum_holes,
&newline,
&last_cacheline,
cconf.indent,
fp);
/*
* These paranoid checks doesn't make much sense on
* DW_TAG_inheritance, have to understand why virtual public
* ancestors make the offset go backwards...
*/
if (last != NULL && tag_pos->tag == DW_TAG_member) {
if (pos->offset < last->offset ||
(pos->offset == last->offset &&
last->bit_size == 0 &&
/*
* This is just when transitioning from a non-bitfield to
* a bitfield, think about zero sized arrays in the middle
* of a struct.
*/
pos->bit_size != 0)) {
if (!cconf.suppress_comments) {
if (!newline++) {
fputc('\n', fp);
++printed;
}
printed += fprintf(fp, "%.*s/* Bitfield combined"
" with previous fields */\n",
cconf.indent, tabs);
}
if (pos->offset != last->offset)
bitfield_real_offset = last->offset + last_size;
} else {
const ssize_t cc_last_size = ((ssize_t)pos->offset -
(ssize_t)last->offset);
if (cc_last_size > 0 &&
(size_t)cc_last_size < last_size) {
if (!cconf.suppress_comments) {
if (!newline++) {
fputc('\n', fp);
++printed;
}
printed += fprintf(fp, "%.*s/* Bitfield combined"
" with next fields */\n",
cconf.indent, tabs);
}
sum -= last_size;
sum += cc_last_size;
}
}
}
if (newline) {
fputc('\n', fp);
newline = 0;
++printed;
}
type = cu__find_type_by_id(cu, pos->tag.type);
if (type == NULL) {
printed += fprintf(fp, "%.*s", cconf.indent, tabs);
printed += tag__id_not_found_fprintf(fp, pos->tag.type);
continue;
}
size = tag__size(type, cu);
printed += fprintf(fp, "%.*s", cconf.indent, tabs);
printed += struct_member__fprintf(pos, type, cu, &cconf, fp);
if (tag__is_struct(type) && !cconf.suppress_comments) {
const uint16_t padding = tag__class(type)->padding;
if (padding > 0) {
++nr_paddings;
sum_paddings += padding;
if (!newline++) {
fputc('\n', fp);
++printed;
}
printed += fprintf(fp, "\n%.*s/* XXX last "
"struct has %d byte%s of "
"padding */", cconf.indent,
tabs, padding,
padding != 1 ? "s" : "");
}
}
if (pos->bit_hole != 0 && !cconf.suppress_comments) {
if (!newline++) {
fputc('\n', fp);
++printed;
}
printed += fprintf(fp, "\n%.*s/* XXX %d bit%s hole, "
"try to pack */", cconf.indent, tabs,
pos->bit_hole,
pos->bit_hole != 1 ? "s" : "");
sum_bit_holes += pos->bit_hole;
}
if (pos->hole > 0 && !cconf.suppress_comments) {
if (!newline++) {
fputc('\n', fp);
++printed;
}
printed += fprintf(fp, "\n%.*s/* XXX %d byte%s hole, "
"try to pack */",
cconf.indent, tabs, pos->hole,
pos->hole != 1 ? "s" : "");
sum_holes += pos->hole;
}
fputc('\n', fp);
++printed;
/* XXX for now just skip these */
if (tag_pos->tag == DW_TAG_inheritance &&
pos->virtuality == DW_VIRTUALITY_virtual)
continue;
/*
* Check if we have to adjust size because bitfields were
* combined with previous fields.
*/
if (bitfield_real_offset != 0 && last->bitfield_end) {
size_t real_last_size = pos->offset - bitfield_real_offset;
sum -= last_size;
sum += real_last_size;
bitfield_real_offset = 0;
}
if (last == NULL || /* First member */
/*
* Last member was a zero sized array, typedef, struct, etc
*/
last_size == 0 ||
/*
* We moved to a new offset
*/
last->offset != pos->offset) {
sum += size;
last_size = size;
} else if (last->bit_size == 0 && pos->bit_size != 0) {
/*
* Transitioned from from a non-bitfield to a
* bitfield sharing the same offset
*/
/*
* Compensate by removing the size of the
* last member that is "inside" this new
* member at the same offset.
*
* E.g.:
* struct foo {
* u8 a; / 0 1 /
* int b:1; / 0:23 4 /
* }
*/
sum += size - last_size;
last_size = size;
}
last = pos;
}
/*
* Check if we have to adjust size because bitfields were
* combined with previous fields and were the last fields
* in the struct.
*/
if (bitfield_real_offset != 0) {
size_t real_last_size = tself->size - bitfield_real_offset;
sum -= last_size;
sum += real_last_size;
bitfield_real_offset = 0;
}
if (!cconf.suppress_comments)
printed += class__fprintf_cacheline_boundary(last_cacheline,
sum, sum_holes,
&newline,
&last_cacheline,
cconf.indent, fp);
class__vtable_fprintf(self, &cconf, fp);
if (!cconf.emit_stats)
goto out;
printed += fprintf(fp, "\n%.*s/* size: %zd, cachelines: %zd, members: %u */",
cconf.indent, tabs,
tag__size(class__tag(self), cu),
tag__nr_cachelines(class__tag(self), cu),
tself->nr_members);
if (sum_holes > 0)
printed += fprintf(fp, "\n%.*s/* sum members: %u, holes: %d, "
"sum holes: %u */",
cconf.indent, tabs,
sum, self->nr_holes, sum_holes);
if (sum_bit_holes > 0)
printed += fprintf(fp, "\n%.*s/* bit holes: %d, sum bit "
"holes: %u bits */",
cconf.indent, tabs,
self->nr_bit_holes, sum_bit_holes);
if (self->padding > 0)
printed += fprintf(fp, "\n%.*s/* padding: %u */",
cconf.indent,
tabs, self->padding);
if (nr_paddings > 0)
printed += fprintf(fp, "\n%.*s/* paddings: %u, sum paddings: "
"%u */",
cconf.indent, tabs,
nr_paddings, sum_paddings);
if (self->bit_padding > 0)
printed += fprintf(fp, "\n%.*s/* bit_padding: %u bits */",
cconf.indent, tabs,
self->bit_padding);
last_cacheline = tself->size % cacheline_size;
if (last_cacheline != 0)
printed += fprintf(fp, "\n%.*s/* last cacheline: %u bytes */",
cconf.indent, tabs,
last_cacheline);
if (cconf.show_first_biggest_size_base_type_member &&
tself->nr_members != 0) {
struct class_member *m = type__find_first_biggest_size_base_type_member(tself, cu);
printed += fprintf(fp, "\n%.*s/* first biggest size base type member: %s %u %zd */",
cconf.indent, tabs,
s(m->name), m->offset,
class_member__size(m, cu));
}
if (sum + sum_holes != tself->size - self->padding &&
tself->nr_members != 0)
printed += fprintf(fp, "\n\n%.*s/* BRAIN FART ALERT! %d != %u "
"+ %u(holes), diff = %d */\n",
cconf.indent, tabs,
tself->size, sum, sum_holes,
tself->size - (sum + sum_holes));
fputc('\n', fp);
out:
return printed + fprintf(fp, "%.*s}%s%s", indent, tabs,
cconf.suffix ? " ": "", cconf.suffix ?: "");
}
static size_t variable__fprintf(const struct tag *tag, const struct cu *cu,
const struct conf_fprintf *conf, FILE *fp)
{
const struct variable *var = tag__variable(tag);
const char *name = variable__name(var, cu);
size_t printed = 0;
if (name != NULL) {
struct tag *type = variable__type(var, cu);
if (type != NULL) {
const char *varprefix = variable__prefix(var);
if (varprefix != NULL)
printed += fprintf(fp, "%s", varprefix);
printed += type__fprintf(type, cu, name, conf, fp);
}
}
return printed;
}
static size_t namespace__fprintf(const struct tag *tself, const struct cu *cu,
const struct conf_fprintf *conf, FILE *fp)
{
struct namespace *self = tag__namespace(tself);
struct conf_fprintf cconf = *conf;
size_t printed = fprintf(fp, "namespace %s {\n", s(self->name));
struct tag *pos;
++cconf.indent;
cconf.no_semicolon = 0;
namespace__for_each_tag(self, pos) {
printed += tag__fprintf(pos, cu, &cconf, fp);
printed += fprintf(fp, "\n\n");
}
return printed + fprintf(fp, "}");
}
size_t tag__fprintf(struct tag *self, const struct cu *cu,
const struct conf_fprintf *conf, FILE *fp)
{
size_t printed = 0;
struct conf_fprintf tconf;
const struct conf_fprintf *pconf = conf;
if (conf == NULL) {
tconf = conf_fprintf__defaults;
pconf = &tconf;
if (tconf.expand_types)
tconf.name_spacing = 55;
else if (tag__is_union(self))
tconf.name_spacing = 21;
} else if (conf->name_spacing == 0 || conf->type_spacing == 0) {
tconf = *conf;
pconf = &tconf;
if (tconf.name_spacing == 0) {
if (tconf.expand_types)
tconf.name_spacing = 55;
else
tconf.name_spacing =
tag__is_union(self) ? 21 : 23;
}
if (tconf.type_spacing == 0)
tconf.type_spacing = 26;
}
if (pconf->expand_types)
++self->recursivity_level;
if (pconf->show_decl_info) {
printed += fprintf(fp, "%.*s", pconf->indent, tabs);
printed += tag__fprintf_decl_info(self, cu, fp);
}
printed += fprintf(fp, "%.*s", pconf->indent, tabs);
switch (self->tag) {
case DW_TAG_array_type:
printed += array_type__fprintf(self, cu, "array", pconf, fp);
break;
case DW_TAG_enumeration_type:
printed += enumeration__fprintf(self, pconf, fp);
break;
case DW_TAG_typedef:
printed += typedef__fprintf(self, cu, pconf, fp);
break;
case DW_TAG_class_type:
case DW_TAG_structure_type:
printed += class__fprintf(tag__class(self), cu, pconf, fp);
break;
case DW_TAG_namespace:
printed += namespace__fprintf(self, cu, pconf, fp);
break;
case DW_TAG_subprogram:
printed += function__fprintf(self, cu, fp);
break;
case DW_TAG_union_type:
printed += union__fprintf(tag__type(self), cu, pconf, fp);
break;
case DW_TAG_variable:
printed += variable__fprintf(self, cu, pconf, fp);
break;
case DW_TAG_imported_declaration:
printed += imported_declaration__fprintf(self, cu, fp);
break;
case DW_TAG_imported_module:
printed += imported_module__fprintf(self, cu, fp);
break;
default:
printed += fprintf(fp, "/* %s: %s tag not supported! */", __func__,
dwarf_tag_name(self->tag));
break;
}
if (!pconf->no_semicolon) {
fputc(';', fp);
++printed;
}
if (tag__is_function(self) && !pconf->suppress_comments) {
const struct function *fself = tag__function(self);
if (fself->linkage_name)
printed += fprintf(fp, " /* linkage=%s */",
s(fself->linkage_name));
}
if (pconf->expand_types)
--self->recursivity_level;
return printed;
}
int cu__for_each_tag(struct cu *self,
int (*iterator)(struct tag *tag,
struct cu *cu, void *cookie),
void *cookie,
struct tag *(*filter)(struct tag *tag,
struct cu *cu, void *cookie))
{
struct tag *pos;
list_for_each_entry(pos, &self->tags, node) {
struct tag *tag = pos;
if (filter != NULL) {
tag = filter(pos, self, cookie);
if (tag == NULL)
continue;
}
if (iterator(tag, self, cookie))
return 1;
}
return 0;
}
static int list__for_all_tags(struct list_head *self, struct cu *cu,
int (*iterator)(struct tag *tag,
struct cu *cu, void *cookie),
void *cookie)
{
struct tag *pos, *n;
list_for_each_entry_safe(pos, n, self, node) {
if (tag__has_namespace(pos)) {
if (list__for_all_tags(&tag__namespace(pos)->tags,
cu, iterator, cookie))
return 1;
if (tag__is_struct(pos)) {
if (list__for_all_tags(&tag__class(pos)->vtable,
cu, iterator, cookie))
return 1;
}
} else if (tag__is_function(pos)) {
if (list__for_all_tags(&tag__ftype(pos)->parms,
cu, iterator, cookie))
return 1;
if (list__for_all_tags(&tag__function(pos)->lexblock.tags,
cu, iterator, cookie))
return 1;
} else if (pos->tag == DW_TAG_subroutine_type) {
if (list__for_all_tags(&tag__ftype(pos)->parms,
cu, iterator, cookie))
return 1;
} else if (pos->tag == DW_TAG_lexical_block) {
if (list__for_all_tags(&tag__lexblock(pos)->tags,
cu, iterator, cookie))
return 1;
}
if (iterator(pos, cu, cookie))
return 1;
}
return 0;
}
int cu__for_all_tags(struct cu *self,
int (*iterator)(struct tag *tag,
struct cu *cu, void *cookie),
void *cookie)
{
return list__for_all_tags(&self->tags, self, iterator, cookie);
}
void cus__for_each_cu(struct cus *self,
int (*iterator)(struct cu *cu, void *cookie),
void *cookie,
struct cu *(*filter)(struct cu *cu))
{
struct cu *pos;
list_for_each_entry(pos, &self->cus, node) {
struct cu *cu = pos;
if (filter != NULL) {
cu = filter(pos);
if (cu == NULL)
continue;
}
if (iterator(cu, cookie))
break;
}
}
int cus__load_dir(struct cus *self, struct conf_load *conf,
const char *dirname, const char *filename_mask,
const int recursive)
{
struct dirent *entry;
int err = -1;
DIR *dir = opendir(dirname);
if (dir == NULL)
goto out;
err = 0;
while ((entry = readdir(dir)) != NULL) {
char pathname[PATH_MAX];
struct stat st;
if (strcmp(entry->d_name, ".") == 0 ||
strcmp(entry->d_name, "..") == 0)
continue;
snprintf(pathname, sizeof(pathname), "%s/%s",
dirname, entry->d_name);
err = lstat(pathname, &st);
if (err != 0)
break;
if (S_ISDIR(st.st_mode)) {
if (!recursive)
continue;
err = cus__load_dir(self, conf, pathname,
filename_mask, recursive);
if (err != 0)
break;
} else if (fnmatch(filename_mask, entry->d_name, 0) == 0) {
err = cus__load(self, conf, pathname);
if (err != 0)
break;
}
}
if (err == -1)
puts(dirname);
closedir(dir);
out:
return err;
}
int cus__load(struct cus *self, struct conf_load *conf, char *filename)
{
int err = dwarf__load(self, conf, filename);
/*
* If dwarf__load fails, try ctf__load. Eventually we should just
* register all the shared objects at some directory and ask them
* for the magic types they support or just pass them the file,
* unloading the shared object if it says its not the type they
* support.
*/
if (err != 0)
err = ctf__load(self, conf, filename);
return err;
}
int cus__load_files(struct cus *self, struct conf_load *conf,
char *filenames[])
{
int i = 0;
while (filenames[i] != NULL) {
if (cus__load(self, conf, filenames[i]))
return -i;
++i;
}
return 0;
}
void cus__print_error_msg(const char *progname, const struct cus *cus,
const char *filename, const int err)
{
if (err == -EINVAL || (cus != NULL && list_empty(&cus->cus)))
fprintf(stderr, "%s: couldn't load debugging info from %s\n",
progname, filename);
else
fprintf(stderr, "%s: %s\n", progname, strerror(err));
}
struct cus *cus__new(void)
{
struct cus *self = malloc(sizeof(*self));
if (self != NULL)
INIT_LIST_HEAD(&self->cus);
return self;
}
void cus__delete(struct cus *self)
{
struct cu *pos, *n;
if (self == NULL)
return;
list_for_each_entry_safe(pos, n, &self->cus, node) {
list_del_init(&pos->node);
cu__delete(pos);
}
free(self);
}
int dwarves__init(uint16_t user_cacheline_size)
{
strings = strings__new();
if (strings == NULL)
return -ENOMEM;
if (user_cacheline_size == 0) {
long sys_cacheline_size = sysconf(_SC_LEVEL1_DCACHE_LINESIZE);
if (sys_cacheline_size > 0)
cacheline_size = sys_cacheline_size;
else
cacheline_size = 64; /* Fall back to a sane value */
} else
cacheline_size = user_cacheline_size;
return 0;
}
void dwarves__exit(void)
{
strings__delete(strings);
strings = NULL;
}
struct argp_state;
void dwarves_print_version(FILE *fp, struct argp_state *state __unused)
{
fprintf(fp, "%s\n", DWARVES_VERSION);
}
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