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dwarf_loader.c
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dwarf_loader.c
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/*
SPDX-License-Identifier: GPL-2.0-only
Copyright (C) 2008 Arnaldo Carvalho de Melo <[email protected]>
*/
#include <assert.h>
#include <dirent.h>
#include <dwarf.h>
#include <elfutils/libdwfl.h>
#include <errno.h>
#include <fcntl.h>
#include <fnmatch.h>
#include <libelf.h>
#include <limits.h>
#include <pthread.h>
#include <search.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "config.h"
#include "list.h"
#include "dwarves.h"
#include "dutil.h"
#include "hash.h"
#ifndef DW_AT_alignment
#define DW_AT_alignment 0x88
#endif
#ifndef DW_AT_GNU_vector
#define DW_AT_GNU_vector 0x2107
#endif
#ifndef DW_TAG_GNU_call_site
#define DW_TAG_GNU_call_site 0x4109
#define DW_TAG_GNU_call_site_parameter 0x410a
#endif
#ifndef DW_TAG_call_site
#define DW_TAG_call_site 0x48
#define DW_TAG_call_site_parameter 0x49
#endif
#ifndef DW_FORM_implicit_const
#define DW_FORM_implicit_const 0x21
#endif
#ifndef DW_OP_addrx
#define DW_OP_addrx 0xa1
#endif
static pthread_mutex_t libdw__lock = PTHREAD_MUTEX_INITIALIZER;
static uint32_t hashtags__bits = 12;
static uint32_t max_hashtags__bits = 21;
static uint32_t hashtags__fn(Dwarf_Off key)
{
return hash_64(key, hashtags__bits);
}
bool no_bitfield_type_recode = true;
static void __tag__print_not_supported(uint32_t tag, const char *func)
{
static bool dwarf_tags_warned[DW_TAG_GNU_call_site_parameter + 64];
if (tag < sizeof(dwarf_tags_warned)) {
if (dwarf_tags_warned[tag])
return;
dwarf_tags_warned[tag] = true;
}
fprintf(stderr, "%s: tag not supported %#x (%s)!\n", func,
tag, dwarf_tag_name(tag));
}
#define tag__print_not_supported(tag) \
__tag__print_not_supported(tag, __func__)
struct dwarf_off_ref {
unsigned int from_types : 1;
Dwarf_Off off;
};
typedef struct dwarf_off_ref dwarf_off_ref;
struct dwarf_tag {
struct hlist_node hash_node;
dwarf_off_ref type;
Dwarf_Off id;
union {
dwarf_off_ref abstract_origin;
dwarf_off_ref containing_type;
};
struct tag *tag;
uint32_t small_id;
uint16_t decl_line;
const char *decl_file;
};
static dwarf_off_ref dwarf_tag__spec(struct dwarf_tag *dtag)
{
return *(dwarf_off_ref *)(dtag + 1);
}
static void dwarf_tag__set_spec(struct dwarf_tag *dtag, dwarf_off_ref spec)
{
*(dwarf_off_ref *)(dtag + 1) = spec;
}
struct dwarf_cu {
struct hlist_head *hash_tags;
struct hlist_head *hash_types;
struct dwarf_tag *last_type_lookup;
struct cu *cu;
struct dwarf_cu *type_unit;
};
static int dwarf_cu__init(struct dwarf_cu *dcu, struct cu *cu)
{
static struct dwarf_tag sentinel_dtag = { .id = ULLONG_MAX, };
uint64_t hashtags_size = 1UL << hashtags__bits;
dcu->cu = cu;
dcu->hash_tags = cu__malloc(cu, sizeof(struct hlist_head) * hashtags_size);
if (!dcu->hash_tags)
return -ENOMEM;
dcu->hash_types = cu__malloc(cu, sizeof(struct hlist_head) * hashtags_size);
if (!dcu->hash_types) {
cu__free(cu, dcu->hash_tags);
return -ENOMEM;
}
unsigned int i;
for (i = 0; i < hashtags_size; ++i) {
INIT_HLIST_HEAD(&dcu->hash_tags[i]);
INIT_HLIST_HEAD(&dcu->hash_types[i]);
}
dcu->type_unit = NULL;
// To avoid a per-lookup check against NULL in dwarf_cu__find_type_by_ref()
dcu->last_type_lookup = &sentinel_dtag;
return 0;
}
static struct dwarf_cu *dwarf_cu__new(struct cu *cu)
{
struct dwarf_cu *dwarf_cu = cu__zalloc(cu, sizeof(*dwarf_cu));
if (dwarf_cu != NULL && dwarf_cu__init(dwarf_cu, cu) != 0) {
cu__free(cu, dwarf_cu);
dwarf_cu = NULL;
}
return dwarf_cu;
}
static void dwarf_cu__delete(struct cu *cu)
{
if (cu == NULL || cu->priv == NULL)
return;
struct dwarf_cu *dcu = cu->priv;
// dcu->hash_tags & dcu->hash_types are on cu->obstack
cu__free(cu, dcu);
cu->priv = NULL;
}
static void __tag__print_type_not_found(struct tag *tag, const char *func)
{
struct dwarf_tag *dtag = tag->priv;
fprintf(stderr, "%s: couldn't find %#llx type for %#llx (%s)!\n", func,
(unsigned long long)dtag->type.off, (unsigned long long)dtag->id,
dwarf_tag_name(tag->tag));
}
#define tag__print_type_not_found(tag) \
__tag__print_type_not_found(tag, __func__)
static void hashtags__hash(struct hlist_head *hashtable,
struct dwarf_tag *dtag)
{
struct hlist_head *head = hashtable + hashtags__fn(dtag->id);
hlist_add_head(&dtag->hash_node, head);
}
static struct dwarf_tag *hashtags__find(const struct hlist_head *hashtable,
const Dwarf_Off id)
{
if (id == 0)
return NULL;
struct dwarf_tag *tpos;
struct hlist_node *pos;
uint32_t bucket = hashtags__fn(id);
const struct hlist_head *head = hashtable + bucket;
hlist_for_each_entry(tpos, pos, head, hash_node) {
if (tpos->id == id)
return tpos;
}
return NULL;
}
static void cu__hash(struct cu *cu, struct tag *tag)
{
struct dwarf_cu *dcu = cu->priv;
struct hlist_head *hashtable = tag__is_tag_type(tag) ?
dcu->hash_types :
dcu->hash_tags;
hashtags__hash(hashtable, tag->priv);
}
static struct dwarf_tag *dwarf_cu__find_tag_by_ref(const struct dwarf_cu *cu,
const struct dwarf_off_ref *ref)
{
if (cu == NULL)
return NULL;
if (ref->from_types) {
return NULL;
}
return hashtags__find(cu->hash_tags, ref->off);
}
static struct dwarf_tag *dwarf_cu__find_type_by_ref(struct dwarf_cu *dcu,
const struct dwarf_off_ref *ref)
{
if (dcu == NULL)
return NULL;
if (ref->from_types) {
dcu = dcu->type_unit;
if (dcu == NULL) {
return NULL;
}
}
if (dcu->last_type_lookup->id == ref->off)
return dcu->last_type_lookup;
struct dwarf_tag *dtag = hashtags__find(dcu->hash_types, ref->off);
if (dtag)
dcu->last_type_lookup = dtag;
return dtag;
}
static void *memdup(const void *src, size_t len, struct cu *cu)
{
void *s = cu__malloc(cu, len);
if (s != NULL)
memcpy(s, src, len);
return s;
}
/* Number decoding macros. See 7.6 Variable Length Data. */
#define get_uleb128_step(var, addr, nth, break) \
__b = *(addr)++; \
var |= (uintmax_t) (__b & 0x7f) << (nth * 7); \
if ((__b & 0x80) == 0) \
break
#define get_uleb128_rest_return(var, i, addrp) \
do { \
for (; i < 10; ++i) { \
get_uleb128_step(var, *addrp, i, \
return var); \
} \
/* Other implementations set VALUE to UINT_MAX in this \
case. So we better do this as well. */ \
return UINT64_MAX; \
} while (0)
static uint64_t __libdw_get_uleb128(uint64_t acc, uint32_t i,
const uint8_t **addrp)
{
uint8_t __b;
get_uleb128_rest_return (acc, i, addrp);
}
#define get_uleb128(var, addr) \
do { \
uint8_t __b; \
var = 0; \
get_uleb128_step(var, addr, 0, break); \
var = __libdw_get_uleb128 (var, 1, &(addr)); \
} while (0)
static uint64_t attr_numeric(Dwarf_Die *die, uint32_t name)
{
Dwarf_Attribute attr;
uint32_t form;
if (dwarf_attr(die, name, &attr) == NULL)
return 0;
form = dwarf_whatform(&attr);
switch (form) {
case DW_FORM_addr: {
Dwarf_Addr addr;
if (dwarf_formaddr(&attr, &addr) == 0)
return addr;
}
break;
case DW_FORM_implicit_const:
case DW_FORM_data1:
case DW_FORM_data2:
case DW_FORM_data4:
case DW_FORM_data8:
case DW_FORM_sdata:
case DW_FORM_udata: {
Dwarf_Word value;
if (dwarf_formudata(&attr, &value) == 0)
return value;
}
break;
case DW_FORM_flag:
case DW_FORM_flag_present: {
bool value;
if (dwarf_formflag(&attr, &value) == 0)
return value;
}
break;
default:
fprintf(stderr, "DW_AT_<0x%x>=0x%x\n", name, form);
break;
}
return 0;
}
static uint64_t attr_alignment(Dwarf_Die *die, struct conf_load *conf)
{
return conf->ignore_alignment_attr ? 0 : attr_numeric(die, DW_AT_alignment);
}
static uint64_t dwarf_expr(const uint8_t *expr, uint32_t len __maybe_unused)
{
/* Common case: offset from start of the class */
if (expr[0] == DW_OP_plus_uconst ||
expr[0] == DW_OP_constu) {
uint64_t result;
++expr;
get_uleb128(result, expr);
return result;
}
fprintf(stderr, "%s: unhandled %#x DW_OP_ operation\n",
__func__, *expr);
return UINT64_MAX;
}
static Dwarf_Off __attr_offset(Dwarf_Attribute *attr)
{
Dwarf_Block block;
switch (dwarf_whatform(attr)) {
case DW_FORM_implicit_const:
case DW_FORM_data1:
case DW_FORM_data2:
case DW_FORM_data4:
case DW_FORM_data8:
case DW_FORM_sdata:
case DW_FORM_udata: {
Dwarf_Word value;
if (dwarf_formudata(attr, &value) == 0)
return value;
break;
}
default:
if (dwarf_formblock(attr, &block) == 0)
return dwarf_expr(block.data, block.length);
}
return 0;
}
static Dwarf_Off attr_offset(Dwarf_Die *die, const uint32_t name)
{
Dwarf_Attribute attr;
if (dwarf_attr(die, name, &attr) == NULL)
return 0;
return __attr_offset(&attr);
}
static const char *attr_string(Dwarf_Die *die, uint32_t name, struct conf_load *conf __maybe_unused)
{
const char *str = NULL;
Dwarf_Attribute attr;
if (dwarf_attr(die, name, &attr) != NULL) {
str = dwarf_formstring(&attr);
if (conf && conf->kabi_prefix && str && strncmp(str, conf->kabi_prefix, conf->kabi_prefix_len) == 0)
return conf->kabi_prefix;
}
return str;
}
static struct dwarf_off_ref attr_type(Dwarf_Die *die, uint32_t attr_name)
{
Dwarf_Attribute attr;
struct dwarf_off_ref ref;
if (dwarf_attr(die, attr_name, &attr) != NULL) {
Dwarf_Die type_die;
if (dwarf_formref_die(&attr, &type_die) != NULL) {
ref.from_types = attr.form == DW_FORM_ref_sig8;
ref.off = dwarf_dieoffset(&type_die);
return ref;
}
}
memset(&ref, 0, sizeof(ref));
return ref;
}
static int attr_location(Dwarf_Die *die, Dwarf_Op **expr, size_t *exprlen)
{
Dwarf_Attribute attr;
if (dwarf_attr(die, DW_AT_location, &attr) != NULL) {
if (dwarf_getlocation(&attr, expr, exprlen) == 0) {
/* DW_OP_addrx needs additional lookup for real addr. */
if (*exprlen != 0 && expr[0]->atom == DW_OP_addrx) {
Dwarf_Attribute addr_attr;
dwarf_getlocation_attr(&attr, expr[0], &addr_attr);
Dwarf_Addr address;
dwarf_formaddr (&addr_attr, &address);
expr[0]->number = address;
}
return 0;
}
}
return 1;
}
static void *__tag__alloc(struct dwarf_cu *dcu, size_t size, bool spec)
{
struct dwarf_tag *dtag = cu__zalloc(dcu->cu, (sizeof(*dtag) + (spec ? sizeof(dwarf_off_ref) : 0)));
if (dtag == NULL)
return NULL;
struct tag *tag = cu__zalloc(dcu->cu, size);
if (tag == NULL)
return NULL;
dtag->tag = tag;
tag->priv = dtag;
tag->type = 0;
tag->top_level = 0;
return tag;
}
static void *tag__alloc(struct cu *cu, size_t size)
{
return __tag__alloc(cu->priv, size, false);
}
static void *tag__alloc_with_spec(struct cu *cu, size_t size)
{
return __tag__alloc(cu->priv, size, true);
}
static void tag__init(struct tag *tag, struct cu *cu, Dwarf_Die *die)
{
struct dwarf_tag *dtag = tag->priv;
tag->tag = dwarf_tag(die);
dtag->id = dwarf_dieoffset(die);
if (tag->tag == DW_TAG_imported_module ||
tag->tag == DW_TAG_imported_declaration)
dtag->type = attr_type(die, DW_AT_import);
else
dtag->type = attr_type(die, DW_AT_type);
dtag->abstract_origin = attr_type(die, DW_AT_abstract_origin);
tag->recursivity_level = 0;
if (cu->extra_dbg_info) {
pthread_mutex_lock(&libdw__lock);
int32_t decl_line;
const char *decl_file = dwarf_decl_file(die);
static const char *last_decl_file, *last_decl_file_ptr;
if (decl_file != last_decl_file_ptr) {
last_decl_file = decl_file ? strdup(decl_file) : NULL;
last_decl_file_ptr = decl_file;
}
dtag->decl_file = last_decl_file;
dwarf_decl_line(die, &decl_line);
dtag->decl_line = decl_line;
pthread_mutex_unlock(&libdw__lock);
}
INIT_LIST_HEAD(&tag->node);
}
static struct tag *tag__new(Dwarf_Die *die, struct cu *cu)
{
struct tag *tag = tag__alloc(cu, sizeof(*tag));
if (tag != NULL)
tag__init(tag, cu, die);
return tag;
}
static struct ptr_to_member_type *ptr_to_member_type__new(Dwarf_Die *die,
struct cu *cu)
{
struct ptr_to_member_type *ptr = tag__alloc(cu, sizeof(*ptr));
if (ptr != NULL) {
tag__init(&ptr->tag, cu, die);
struct dwarf_tag *dtag = ptr->tag.priv;
dtag->containing_type = attr_type(die, DW_AT_containing_type);
}
return ptr;
}
static uint8_t encoding_to_float_type(uint64_t encoding)
{
switch (encoding) {
case DW_ATE_complex_float: return BT_FP_CMPLX;
case DW_ATE_float: return BT_FP_SINGLE;
case DW_ATE_imaginary_float: return BT_FP_IMGRY;
default: return 0;
}
}
static struct base_type *base_type__new(Dwarf_Die *die, struct cu *cu, struct conf_load *conf)
{
struct base_type *bt = tag__alloc(cu, sizeof(*bt));
if (bt != NULL) {
tag__init(&bt->tag, cu, die);
bt->name = attr_string(die, DW_AT_name, conf);
bt->bit_size = attr_numeric(die, DW_AT_byte_size) * 8;
uint64_t encoding = attr_numeric(die, DW_AT_encoding);
bt->is_bool = encoding == DW_ATE_boolean;
bt->is_signed = encoding == DW_ATE_signed;
bt->is_varargs = false;
bt->name_has_encoding = true;
bt->float_type = encoding_to_float_type(encoding);
}
return bt;
}
static struct array_type *array_type__new(Dwarf_Die *die, struct cu *cu)
{
struct array_type *at = tag__alloc(cu, sizeof(*at));
if (at != NULL) {
tag__init(&at->tag, cu, die);
at->dimensions = 0;
at->nr_entries = NULL;
at->is_vector = dwarf_hasattr(die, DW_AT_GNU_vector);
}
return at;
}
static struct string_type *string_type__new(Dwarf_Die *die, struct cu *cu)
{
struct string_type *st = tag__alloc(cu, sizeof(*st));
if (st != NULL) {
tag__init(&st->tag, cu, die);
st->nr_entries = attr_numeric(die, DW_AT_byte_size);
if (st->nr_entries == 0)
st->nr_entries = 1;
}
return st;
}
static void namespace__init(struct namespace *namespace, Dwarf_Die *die,
struct cu *cu, struct conf_load *conf)
{
tag__init(&namespace->tag, cu, die);
INIT_LIST_HEAD(&namespace->tags);
INIT_LIST_HEAD(&namespace->annots);
namespace->name = attr_string(die, DW_AT_name, conf);
namespace->nr_tags = 0;
namespace->shared_tags = 0;
}
static struct namespace *namespace__new(Dwarf_Die *die, struct cu *cu, struct conf_load *conf)
{
struct namespace *namespace = tag__alloc(cu, sizeof(*namespace));
if (namespace != NULL)
namespace__init(namespace, die, cu, conf);
return namespace;
}
static void type__init(struct type *type, Dwarf_Die *die, struct cu *cu, struct conf_load *conf)
{
namespace__init(&type->namespace, die, cu, conf);
__type__init(type);
type->size = attr_numeric(die, DW_AT_byte_size);
type->alignment = attr_alignment(die, conf);
type->declaration = attr_numeric(die, DW_AT_declaration);
dwarf_tag__set_spec(type->namespace.tag.priv,
attr_type(die, DW_AT_specification));
type->definition_emitted = 0;
type->fwd_decl_emitted = 0;
type->resized = 0;
type->nr_members = 0;
type->nr_static_members = 0;
}
static struct type *type__new(Dwarf_Die *die, struct cu *cu, struct conf_load *conf)
{
struct type *type = tag__alloc_with_spec(cu, sizeof(*type));
if (type != NULL)
type__init(type, die, cu, conf);
return type;
}
static struct enumerator *enumerator__new(Dwarf_Die *die, struct cu *cu, struct conf_load *conf)
{
struct enumerator *enumerator = tag__alloc(cu, sizeof(*enumerator));
if (enumerator != NULL) {
tag__init(&enumerator->tag, cu, die);
enumerator->name = attr_string(die, DW_AT_name, conf);
enumerator->value = attr_numeric(die, DW_AT_const_value);
}
return enumerator;
}
static enum vscope dwarf__location(Dwarf_Die *die, uint64_t *addr, struct location *location)
{
enum vscope scope = VSCOPE_UNKNOWN;
if (attr_location(die, &location->expr, &location->exprlen) != 0)
scope = VSCOPE_OPTIMIZED;
else if (location->exprlen != 0) {
Dwarf_Op *expr = location->expr;
switch (expr->atom) {
case DW_OP_addr:
case DW_OP_addrx:
scope = VSCOPE_GLOBAL;
*addr = expr[0].number;
break;
case DW_OP_reg1 ... DW_OP_reg31:
case DW_OP_breg0 ... DW_OP_breg31:
scope = VSCOPE_REGISTER; break;
case DW_OP_fbreg:
scope = VSCOPE_LOCAL; break;
}
}
return scope;
}
enum vscope variable__scope(const struct variable *var)
{
return var->scope;
}
const char *variable__scope_str(const struct variable *var)
{
switch (var->scope) {
case VSCOPE_LOCAL: return "local";
case VSCOPE_GLOBAL: return "global";
case VSCOPE_REGISTER: return "register";
case VSCOPE_OPTIMIZED: return "optimized";
default: break;
};
return "unknown";
}
static struct variable *variable__new(Dwarf_Die *die, struct cu *cu, struct conf_load *conf)
{
struct variable *var;
bool has_specification;
has_specification = dwarf_hasattr(die, DW_AT_specification);
if (has_specification) {
var = tag__alloc_with_spec(cu, sizeof(*var));
} else {
var = tag__alloc(cu, sizeof(*var));
}
if (var != NULL) {
tag__init(&var->ip.tag, cu, die);
var->name = attr_string(die, DW_AT_name, conf);
/* variable is visible outside of its enclosing cu */
var->external = dwarf_hasattr(die, DW_AT_external);
/* non-defining declaration of an object */
var->declaration = dwarf_hasattr(die, DW_AT_declaration);
var->has_specification = has_specification;
var->scope = VSCOPE_UNKNOWN;
INIT_LIST_HEAD(&var->annots);
var->ip.addr = 0;
if (!var->declaration && cu->has_addr_info)
var->scope = dwarf__location(die, &var->ip.addr, &var->location);
if (has_specification) {
dwarf_tag__set_spec(var->ip.tag.priv,
attr_type(die, DW_AT_specification));
}
}
return var;
}
static int tag__recode_dwarf_bitfield(struct tag *tag, struct cu *cu, uint16_t bit_size)
{
int id;
type_id_t short_id;
struct tag *recoded;
/* in all the cases the name is at the same offset */
const char *name = namespace__name(tag__namespace(tag));
switch (tag->tag) {
case DW_TAG_typedef: {
const struct dwarf_tag *dtag = tag->priv;
struct dwarf_tag *dtype = dwarf_cu__find_type_by_ref(cu->priv, &dtag->type);
if (dtype == NULL) {
tag__print_type_not_found(tag);
return -ENOENT;
}
struct tag *type = dtype->tag;
id = tag__recode_dwarf_bitfield(type, cu, bit_size);
if (id < 0)
return id;
struct type *new_typedef = cu__zalloc(cu, sizeof(*new_typedef));
if (new_typedef == NULL)
return -ENOMEM;
recoded = (struct tag *)new_typedef;
recoded->tag = DW_TAG_typedef;
recoded->type = id;
new_typedef->namespace.name = tag__namespace(tag)->name;
}
break;
case DW_TAG_const_type:
case DW_TAG_volatile_type: {
const struct dwarf_tag *dtag = tag->priv;
struct dwarf_tag *dtype = dwarf_cu__find_type_by_ref(cu->priv, &dtag->type);
if (dtype == NULL) {
tag__print_type_not_found(tag);
return -ENOENT;
}
struct tag *type = dtype->tag;
id = tag__recode_dwarf_bitfield(type, cu, bit_size);
if (id >= 0 && (uint32_t)id == tag->type)
return id;
recoded = cu__zalloc(cu, sizeof(*recoded));
if (recoded == NULL)
return -ENOMEM;
recoded->tag = DW_TAG_volatile_type;
recoded->type = id;
}
break;
case DW_TAG_base_type:
/*
* Here we must search on the final, core cu, not on
* the dwarf_cu as in dwarf there are no such things
* as base_types of less than 8 bits, etc.
*/
recoded = cu__find_base_type_by_name_and_size(cu, name, bit_size, &short_id);
if (recoded != NULL)
return short_id;
struct base_type *new_bt = cu__zalloc(cu, sizeof(*new_bt));
if (new_bt == NULL)
return -ENOMEM;
recoded = (struct tag *)new_bt;
recoded->tag = DW_TAG_base_type;
recoded->top_level = 1;
new_bt->name = strdup(name);
new_bt->bit_size = bit_size;
break;
case DW_TAG_enumeration_type:
/*
* Here we must search on the final, core cu, not on
* the dwarf_cu as in dwarf there are no such things
* as enumeration_types of less than 8 bits, etc.
*/
recoded = cu__find_enumeration_by_name_and_size(cu, name, bit_size, &short_id);
if (recoded != NULL)
return short_id;
struct type *alias = tag__type(tag);
struct type *new_enum = cu__zalloc(cu, sizeof(*new_enum));
if (new_enum == NULL)
return -ENOMEM;
recoded = (struct tag *)new_enum;
recoded->tag = DW_TAG_enumeration_type;
recoded->top_level = 1;
new_enum->nr_members = alias->nr_members;
/*
* Share the tags
*/
new_enum->namespace.tags.next = &alias->namespace.tags;
new_enum->namespace.shared_tags = 1;
new_enum->namespace.name = strdup(name);
new_enum->size = bit_size;
break;
default:
fprintf(stderr, "%s: tag=%s, name=%s, bit_size=%d\n",
__func__, dwarf_tag_name(tag->tag),
name, bit_size);
return -EINVAL;
}
uint32_t new_id;
if (cu__add_tag(cu, recoded, &new_id) == 0)
return new_id;
free(recoded);
return -ENOMEM;
}
static int add_llvm_annotation(Dwarf_Die *die, int component_idx, struct conf_load *conf,
struct list_head *head)
{
struct llvm_annotation *annot;
const char *name;
if (conf->skip_encoding_btf_decl_tag)
return 0;
/* Only handle btf_decl_tag annotation for now. */
name = attr_string(die, DW_AT_name, conf);
if (strcmp(name, "btf_decl_tag") != 0)
return 0;
annot = zalloc(sizeof(*annot));
if (!annot)
return -ENOMEM;
annot->value = attr_string(die, DW_AT_const_value, conf);
annot->component_idx = component_idx;
list_add_tail(&annot->node, head);
return 0;
}
static int add_child_llvm_annotations(Dwarf_Die *die, int component_idx,
struct conf_load *conf, struct list_head *head)
{
Dwarf_Die child;
int ret;
if (!dwarf_haschildren(die) || dwarf_child(die, &child) != 0)
return 0;
die = &child;
do {
if (dwarf_tag(die) == DW_TAG_LLVM_annotation) {
ret = add_llvm_annotation(die, component_idx, conf, head);
if (ret)
return ret;
}
} while (dwarf_siblingof(die, die) == 0);
return 0;
}
int class_member__dwarf_recode_bitfield(struct class_member *member,
struct cu *cu)
{
struct dwarf_tag *dtag = member->tag.priv;
struct dwarf_tag *type = dwarf_cu__find_type_by_ref(cu->priv, &dtag->type);
int recoded_type_id;
if (type == NULL)
return -ENOENT;
recoded_type_id = tag__recode_dwarf_bitfield(type->tag, cu, member->bitfield_size);
if (recoded_type_id < 0)
return recoded_type_id;
member->tag.type = recoded_type_id;
return 0;
}
static struct class_member *class_member__new(Dwarf_Die *die, struct cu *cu,
bool in_union, struct conf_load *conf)
{
struct class_member *member = tag__alloc(cu, sizeof(*member));
if (member != NULL) {
tag__init(&member->tag, cu, die);
member->name = attr_string(die, DW_AT_name, conf);
member->alignment = attr_alignment(die, conf);
Dwarf_Attribute attr;
member->has_bit_offset = dwarf_attr(die, DW_AT_data_bit_offset, &attr) != NULL;
if (member->has_bit_offset) {
member->bit_offset = __attr_offset(&attr);
// byte_offset and bitfield_offset will be recalculated later, when
// we discover the size of this bitfield base type.
} else {
if (dwarf_attr(die, DW_AT_data_member_location, &attr) != NULL) {
member->byte_offset = __attr_offset(&attr);
} else {
member->is_static = !in_union;
}
/*
* Bit offset calculated here is valid only for byte-aligned
* fields. For bitfields on little-endian archs we need to
* adjust them taking into account byte size of the field,
* which might not be yet known. So we'll re-calculate bit
* offset later, in class_member__cache_byte_size.
*/
member->bit_offset = member->byte_offset * 8;
member->bitfield_offset = attr_numeric(die, DW_AT_bit_offset);
}
/*
* If DW_AT_byte_size is not present, byte size will be
* determined later in class_member__cache_byte_size using
* base integer/enum type
*/
member->byte_size = attr_numeric(die, DW_AT_byte_size);
member->bitfield_size = attr_numeric(die, DW_AT_bit_size);
member->bit_hole = 0;
member->bitfield_end = 0;
member->visited = 0;
if (!cu__is_c(cu)) {
member->accessibility = attr_numeric(die, DW_AT_accessibility);
member->const_value = attr_numeric(die, DW_AT_const_value);
member->virtuality = attr_numeric(die, DW_AT_virtuality);
}
member->hole = 0;
}
return member;
}
static struct parameter *parameter__new(Dwarf_Die *die, struct cu *cu, struct conf_load *conf)
{
struct parameter *parm = tag__alloc(cu, sizeof(*parm));
if (parm != NULL) {
tag__init(&parm->tag, cu, die);
parm->name = attr_string(die, DW_AT_name, conf);
}
return parm;
}
static struct inline_expansion *inline_expansion__new(Dwarf_Die *die, struct cu *cu, struct conf_load *conf)
{
struct inline_expansion *exp = tag__alloc(cu, sizeof(*exp));
if (exp != NULL) {
struct dwarf_tag *dtag = exp->ip.tag.priv;
tag__init(&exp->ip.tag, cu, die);