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// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (C) 2024 Google LLC
*/
#define _GNU_SOURCE
#include <inttypes.h>
#include <stdio.h>
#include <zlib.h>
#include "gendwarfksyms.h"
static struct cache expansion_cache;
/*
* A simple linked list of shared or owned strings to avoid copying strings
* around when not necessary.
*/
struct type_list_entry {
const char *str;
void *owned;
struct list_head list;
};
static void type_list_free(struct list_head *list)
{
struct type_list_entry *entry;
struct type_list_entry *tmp;
list_for_each_entry_safe(entry, tmp, list, list) {
if (entry->owned)
free(entry->owned);
free(entry);
}
INIT_LIST_HEAD(list);
}
static int type_list_append(struct list_head *list, const char *s, void *owned)
{
struct type_list_entry *entry;
if (!s)
return 0;
entry = xmalloc(sizeof(struct type_list_entry));
entry->str = s;
entry->owned = owned;
list_add_tail(&entry->list, list);
return strlen(entry->str);
}
static void type_list_write(struct list_head *list, FILE *file)
{
struct type_list_entry *entry;
list_for_each_entry(entry, list, list) {
if (entry->str)
checkp(fputs(entry->str, file));
}
}
/*
* An expanded type string in symtypes format.
*/
struct type_expansion {
char *name;
size_t len;
struct list_head expanded;
struct hlist_node hash;
};
static void type_expansion_init(struct type_expansion *type)
{
type->name = NULL;
type->len = 0;
INIT_LIST_HEAD(&type->expanded);
}
static inline void type_expansion_free(struct type_expansion *type)
{
free(type->name);
type->name = NULL;
type->len = 0;
type_list_free(&type->expanded);
}
static void type_expansion_append(struct type_expansion *type, const char *s,
void *owned)
{
type->len += type_list_append(&type->expanded, s, owned);
}
/*
* type_map -- the longest expansions for each type.
*
* const char *name -> struct type_expansion *
*/
#define TYPE_HASH_BITS 12
static HASHTABLE_DEFINE(type_map, 1 << TYPE_HASH_BITS);
static int type_map_get(const char *name, struct type_expansion **res)
{
struct type_expansion *e;
hash_for_each_possible(type_map, e, hash, hash_str(name)) {
if (!strcmp(name, e->name)) {
*res = e;
return 0;
}
}
return -1;
}
static void type_map_add(const char *name, struct type_expansion *type)
{
struct type_expansion *e;
if (type_map_get(name, &e)) {
e = xmalloc(sizeof(struct type_expansion));
type_expansion_init(e);
e->name = xstrdup(name);
hash_add(type_map, &e->hash, hash_str(e->name));
if (dump_types)
debug("adding %s", e->name);
} else {
/* Use the longest available expansion */
if (type->len <= e->len)
return;
type_list_free(&e->expanded);
if (dump_types)
debug("replacing %s", e->name);
}
/* Take ownership of type->expanded */
list_replace_init(&type->expanded, &e->expanded);
e->len = type->len;
if (dump_types) {
checkp(fputs(e->name, stderr));
checkp(fputs(" ", stderr));
type_list_write(&e->expanded, stderr);
checkp(fputs("\n", stderr));
}
}
static void type_map_write(FILE *file)
{
struct type_expansion *e;
struct hlist_node *tmp;
if (!file)
return;
hash_for_each_safe(type_map, e, tmp, hash) {
checkp(fputs(e->name, file));
checkp(fputs(" ", file));
type_list_write(&e->expanded, file);
checkp(fputs("\n", file));
}
}
static void type_map_free(void)
{
struct type_expansion *e;
struct hlist_node *tmp;
hash_for_each_safe(type_map, e, tmp, hash) {
type_expansion_free(e);
free(e);
}
hash_init(type_map);
}
/*
* CRC for a type, with an optional fully expanded type string for
* debugging.
*/
struct version {
struct type_expansion type;
unsigned long crc;
};
static void version_init(struct version *version)
{
version->crc = crc32(0, NULL, 0);
type_expansion_init(&version->type);
}
static void version_free(struct version *version)
{
type_expansion_free(&version->type);
}
static void version_add(struct version *version, const char *s)
{
version->crc = crc32(version->crc, (void *)s, strlen(s));
if (dump_versions)
type_expansion_append(&version->type, s, NULL);
}
/*
* Type reference format: <prefix>#<name>, where prefix:
* s -> structure
* u -> union
* e -> enum
* t -> typedef
*
* Names with spaces are additionally wrapped in single quotes.
*/
static inline bool is_type_prefix(const char *s)
{
return (s[0] == 's' || s[0] == 'u' || s[0] == 'e' || s[0] == 't') &&
s[1] == '#';
}
static char get_type_prefix(int tag)
{
switch (tag) {
case DW_TAG_class_type:
case DW_TAG_structure_type:
return 's';
case DW_TAG_union_type:
return 'u';
case DW_TAG_enumeration_type:
return 'e';
case DW_TAG_typedef_type:
return 't';
default:
return 0;
}
}
static char *get_type_name(struct die *cache)
{
const char *quote;
char prefix;
char *name;
if (cache->state == DIE_INCOMPLETE) {
warn("found incomplete cache entry: %p", cache);
return NULL;
}
if (cache->state == DIE_SYMBOL || cache->state == DIE_FQN)
return NULL;
if (!cache->fqn || !*cache->fqn)
return NULL;
prefix = get_type_prefix(cache->tag);
if (!prefix)
return NULL;
/* Wrap names with spaces in single quotes */
quote = strstr(cache->fqn, " ") ? "'" : "";
/* <prefix>#<type_name>\0 */
if (asprintf(&name, "%c#%s%s%s", prefix, quote, cache->fqn, quote) < 0)
error("asprintf failed for '%s'", cache->fqn);
return name;
}
static void __calculate_version(struct version *version, struct list_head *list)
{
struct type_list_entry *entry;
struct type_expansion *e;
/* Calculate a CRC over an expanded type string */
list_for_each_entry(entry, list, list) {
if (is_type_prefix(entry->str)) {
check(type_map_get(entry->str, &e));
/*
* It's sufficient to expand each type reference just
* once to detect changes.
*/
if (cache_was_expanded(&expansion_cache, e)) {
version_add(version, entry->str);
} else {
cache_mark_expanded(&expansion_cache, e);
__calculate_version(version, &e->expanded);
}
} else {
version_add(version, entry->str);
}
}
}
static void calculate_version(struct version *version, struct list_head *list)
{
version_init(version);
__calculate_version(version, list);
cache_free(&expansion_cache);
}
static void __type_expand(struct die *cache, struct type_expansion *type,
bool recursive);
static void type_expand_child(struct die *cache, struct type_expansion *type,
bool recursive)
{
struct type_expansion child;
char *name;
name = get_type_name(cache);
if (!name) {
__type_expand(cache, type, recursive);
return;
}
if (recursive && !__cache_was_expanded(&expansion_cache, cache->addr)) {
__cache_mark_expanded(&expansion_cache, cache->addr);
type_expansion_init(&child);
__type_expand(cache, &child, true);
type_map_add(name, &child);
type_expansion_free(&child);
}
type_expansion_append(type, name, name);
}
static void __type_expand(struct die *cache, struct type_expansion *type,
bool recursive)
{
struct die_fragment *df;
struct die *child;
list_for_each_entry(df, &cache->fragments, list) {
switch (df->type) {
case FRAGMENT_STRING:
type_expansion_append(type, df->data.str, NULL);
break;
case FRAGMENT_DIE:
/* Use a complete die_map expansion if available */
if (__die_map_get(df->data.addr, DIE_COMPLETE,
&child) &&
__die_map_get(df->data.addr, DIE_UNEXPANDED,
&child))
error("unknown child: %" PRIxPTR,
df->data.addr);
type_expand_child(child, type, recursive);
break;
case FRAGMENT_LINEBREAK:
/*
* Keep whitespace in the symtypes format, but avoid
* repeated spaces.
*/
if (list_is_last(&df->list, &cache->fragments) ||
list_next_entry(df, list)->type !=
FRAGMENT_LINEBREAK)
type_expansion_append(type, " ", NULL);
break;
default:
error("empty die_fragment in %p", cache);
}
}
}
static void type_expand(struct die *cache, struct type_expansion *type,
bool recursive)
{
type_expansion_init(type);
__type_expand(cache, type, recursive);
cache_free(&expansion_cache);
}
static void expand_type(struct die *cache, void *arg)
{
struct type_expansion type;
char *name;
if (cache->mapped)
return;
cache->mapped = true;
/*
* Skip unexpanded die_map entries if there's a complete
* expansion available for this DIE.
*/
if (cache->state == DIE_UNEXPANDED &&
!__die_map_get(cache->addr, DIE_COMPLETE, &cache)) {
if (cache->mapped)
return;
cache->mapped = true;
}
name = get_type_name(cache);
if (!name)
return;
debug("%s", name);
type_expand(cache, &type, true);
type_map_add(name, &type);
type_expansion_free(&type);
free(name);
}
static void expand_symbol(struct symbol *sym, void *arg)
{
struct type_expansion type;
struct version version;
struct die *cache;
/*
* No need to expand again unless we want a symtypes file entry
* for the symbol. Note that this means `sym` has the same address
* as another symbol that was already processed.
*/
if (!symtypes && sym->state == SYMBOL_PROCESSED)
return;
if (__die_map_get(sym->die_addr, DIE_SYMBOL, &cache))
return; /* We'll warn about missing CRCs later. */
type_expand(cache, &type, false);
/* If the symbol already has a version, don't calculate it again. */
if (sym->state != SYMBOL_PROCESSED) {
calculate_version(&version, &type.expanded);
symbol_set_crc(sym, version.crc);
debug("%s = %lx", sym->name, version.crc);
if (dump_versions) {
checkp(fputs(sym->name, stderr));
checkp(fputs(" ", stderr));
type_list_write(&version.type.expanded, stderr);
checkp(fputs("\n", stderr));
}
version_free(&version);
}
/* These aren't needed in type_map unless we want a symtypes file. */
if (symtypes)
type_map_add(sym->name, &type);
type_expansion_free(&type);
}
void generate_symtypes_and_versions(FILE *file)
{
cache_init(&expansion_cache);
/*
* die_map processing:
*
* 1. die_map contains all types referenced in exported symbol
* signatures, but can contain duplicates just like the original
* DWARF, and some references may not be fully expanded depending
* on how far we processed the DIE tree for that specific symbol.
*
* For each die_map entry, find the longest available expansion,
* and add it to type_map.
*/
die_map_for_each(expand_type, NULL);
/*
* 2. For each exported symbol, expand the die_map type, and use
* type_map expansions to calculate a symbol version from the
* fully expanded type string.
*/
symbol_for_each(expand_symbol, NULL);
/*
* 3. If a symtypes file is requested, write type_map contents to
* the file.
*/
type_map_write(file);
type_map_free();
}
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