// SPDX-License-Identifier: (LGPL-2.1 OR BSD-2-Clause) /* * resolve_btfids scans Elf object for .BTF_ids section and resolves * its symbols with BTF ID values. * * Each symbol points to 4 bytes data and is expected to have * following name syntax: * * __BTF_ID____[__] * * type is: * * func - lookup BTF_KIND_FUNC symbol with name * and store its ID into the data: * * __BTF_ID__func__vfs_close__1: * .zero 4 * * struct - lookup BTF_KIND_STRUCT symbol with name * and store its ID into the data: * * __BTF_ID__struct__sk_buff__1: * .zero 4 * * union - lookup BTF_KIND_UNION symbol with name * and store its ID into the data: * * __BTF_ID__union__thread_union__1: * .zero 4 * * typedef - lookup BTF_KIND_TYPEDEF symbol with name * and store its ID into the data: * * __BTF_ID__typedef__pid_t__1: * .zero 4 * * set - store symbol size into first 4 bytes and sort following * ID list * * __BTF_ID__set__list: * .zero 4 * list: * __BTF_ID__func__vfs_getattr__3: * .zero 4 * __BTF_ID__func__vfs_fallocate__4: * .zero 4 */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define BTF_IDS_SECTION ".BTF_ids" #define BTF_ID "__BTF_ID__" #define BTF_STRUCT "struct" #define BTF_UNION "union" #define BTF_TYPEDEF "typedef" #define BTF_FUNC "func" #define BTF_SET "set" #define ADDR_CNT 100 struct btf_id { struct rb_node rb_node; char *name; union { int id; int cnt; }; int addr_cnt; Elf64_Addr addr[ADDR_CNT]; }; struct object { const char *path; const char *btf; struct { int fd; Elf *elf; Elf_Data *symbols; Elf_Data *idlist; int symbols_shndx; int idlist_shndx; size_t strtabidx; unsigned long idlist_addr; } efile; struct rb_root sets; struct rb_root structs; struct rb_root unions; struct rb_root typedefs; struct rb_root funcs; int nr_funcs; int nr_structs; int nr_unions; int nr_typedefs; }; static int verbose; static int eprintf(int level, int var, const char *fmt, ...) { va_list args; int ret = 0; if (var >= level) { va_start(args, fmt); ret = vfprintf(stderr, fmt, args); va_end(args); } return ret; } #ifndef pr_fmt #define pr_fmt(fmt) fmt #endif #define pr_debug(fmt, ...) \ eprintf(1, verbose, pr_fmt(fmt), ##__VA_ARGS__) #define pr_debugN(n, fmt, ...) \ eprintf(n, verbose, pr_fmt(fmt), ##__VA_ARGS__) #define pr_debug2(fmt, ...) pr_debugN(2, pr_fmt(fmt), ##__VA_ARGS__) #define pr_err(fmt, ...) \ eprintf(0, verbose, pr_fmt(fmt), ##__VA_ARGS__) #define pr_info(fmt, ...) \ eprintf(0, verbose, pr_fmt(fmt), ##__VA_ARGS__) static bool is_btf_id(const char *name) { return name && !strncmp(name, BTF_ID, sizeof(BTF_ID) - 1); } static struct btf_id *btf_id__find(struct rb_root *root, const char *name) { struct rb_node *p = root->rb_node; struct btf_id *id; int cmp; while (p) { id = rb_entry(p, struct btf_id, rb_node); cmp = strcmp(id->name, name); if (cmp < 0) p = p->rb_left; else if (cmp > 0) p = p->rb_right; else return id; } return NULL; } static struct btf_id* btf_id__add(struct rb_root *root, char *name, bool unique) { struct rb_node **p = &root->rb_node; struct rb_node *parent = NULL; struct btf_id *id; int cmp; while (*p != NULL) { parent = *p; id = rb_entry(parent, struct btf_id, rb_node); cmp = strcmp(id->name, name); if (cmp < 0) p = &(*p)->rb_left; else if (cmp > 0) p = &(*p)->rb_right; else return unique ? NULL : id; } id = zalloc(sizeof(*id)); if (id) { pr_debug("adding symbol %s\n", name); id->name = name; rb_link_node(&id->rb_node, parent, p); rb_insert_color(&id->rb_node, root); } return id; } static char *get_id(const char *prefix_end) { /* * __BTF_ID__func__vfs_truncate__0 * prefix_end = ^ * pos = ^ */ int len = strlen(prefix_end); int pos = sizeof("__") - 1; char *p, *id; if (pos >= len) return NULL; id = strdup(prefix_end + pos); if (id) { /* * __BTF_ID__func__vfs_truncate__0 * id = ^ * * cut the unique id part */ p = strrchr(id, '_'); p--; if (*p != '_') { free(id); return NULL; } *p = '\0'; } return id; } static struct btf_id *add_set(struct object *obj, char *name) { /* * __BTF_ID__set__name * name = ^ * id = ^ */ char *id = name + sizeof(BTF_SET "__") - 1; int len = strlen(name); if (id >= name + len) { pr_err("FAILED to parse set name: %s\n", name); return NULL; } return btf_id__add(&obj->sets, id, true); } static struct btf_id *add_symbol(struct rb_root *root, char *name, size_t size) { char *id; id = get_id(name + size); if (!id) { pr_err("FAILED to parse symbol name: %s\n", name); return NULL; } return btf_id__add(root, id, false); } /* Older libelf.h and glibc elf.h might not yet define the ELF compression types. */ #ifndef SHF_COMPRESSED #define SHF_COMPRESSED (1 << 11) /* Section with compressed data. */ #endif /* * The data of compressed section should be aligned to 4 * (for 32bit) or 8 (for 64 bit) bytes. The binutils ld * sets sh_addralign to 1, which makes libelf fail with * misaligned section error during the update: * FAILED elf_update(WRITE): invalid section alignment * * While waiting for ld fix, we fix the compressed sections * sh_addralign value manualy. */ static int compressed_section_fix(Elf *elf, Elf_Scn *scn, GElf_Shdr *sh) { int expected = gelf_getclass(elf) == ELFCLASS32 ? 4 : 8; if (!(sh->sh_flags & SHF_COMPRESSED)) return 0; if (sh->sh_addralign == expected) return 0; pr_debug2(" - fixing wrong alignment sh_addralign %u, expected %u\n", sh->sh_addralign, expected); sh->sh_addralign = expected; if (gelf_update_shdr(scn, sh) == 0) { pr_err("FAILED cannot update section header: %s\n", elf_errmsg(-1)); return -1; } return 0; } static int elf_collect(struct object *obj) { Elf_Scn *scn = NULL; size_t shdrstrndx; int idx = 0; Elf *elf; int fd; fd = open(obj->path, O_RDWR, 0666); if (fd == -1) { pr_err("FAILED cannot open %s: %s\n", obj->path, strerror(errno)); return -1; } elf_version(EV_CURRENT); elf = elf_begin(fd, ELF_C_RDWR_MMAP, NULL); if (!elf) { close(fd); pr_err("FAILED cannot create ELF descriptor: %s\n", elf_errmsg(-1)); return -1; } obj->efile.fd = fd; obj->efile.elf = elf; elf_flagelf(elf, ELF_C_SET, ELF_F_LAYOUT); if (elf_getshdrstrndx(elf, &shdrstrndx) != 0) { pr_err("FAILED cannot get shdr str ndx\n"); return -1; } /* * Scan all the elf sections and look for save data * from .BTF_ids section and symbols. */ while ((scn = elf_nextscn(elf, scn)) != NULL) { Elf_Data *data; GElf_Shdr sh; char *name; idx++; if (gelf_getshdr(scn, &sh) != &sh) { pr_err("FAILED get section(%d) header\n", idx); return -1; } name = elf_strptr(elf, shdrstrndx, sh.sh_name); if (!name) { pr_err("FAILED get section(%d) name\n", idx); return -1; } data = elf_getdata(scn, 0); if (!data) { pr_err("FAILED to get section(%d) data from %s\n", idx, name); return -1; } pr_debug2("section(%d) %s, size %ld, link %d, flags %lx, type=%d\n", idx, name, (unsigned long) data->d_size, (int) sh.sh_link, (unsigned long) sh.sh_flags, (int) sh.sh_type); if (sh.sh_type == SHT_SYMTAB) { obj->efile.symbols = data; obj->efile.symbols_shndx = idx; obj->efile.strtabidx = sh.sh_link; } else if (!strcmp(name, BTF_IDS_SECTION)) { obj->efile.idlist = data; obj->efile.idlist_shndx = idx; obj->efile.idlist_addr = sh.sh_addr; } if (compressed_section_fix(elf, scn, &sh)) return -1; } return 0; } static int symbols_collect(struct object *obj) { Elf_Scn *scn = NULL; int n, i; GElf_Shdr sh; char *name; scn = elf_getscn(obj->efile.elf, obj->efile.symbols_shndx); if (!scn) return -1; if (gelf_getshdr(scn, &sh) != &sh) return -1; n = sh.sh_size / sh.sh_entsize; /* * Scan symbols and look for the ones starting with * __BTF_ID__* over .BTF_ids section. */ for (i = 0; i < n; i++) { char *prefix; struct btf_id *id; GElf_Sym sym; if (!gelf_getsym(obj->efile.symbols, i, &sym)) return -1; if (sym.st_shndx != obj->efile.idlist_shndx) continue; name = elf_strptr(obj->efile.elf, obj->efile.strtabidx, sym.st_name); if (!is_btf_id(name)) continue; /* * __BTF_ID__TYPE__vfs_truncate__0 * prefix = ^ */ prefix = name + sizeof(BTF_ID) - 1; /* struct */ if (!strncmp(prefix, BTF_STRUCT, sizeof(BTF_STRUCT) - 1)) { obj->nr_structs++; id = add_symbol(&obj->structs, prefix, sizeof(BTF_STRUCT) - 1); /* union */ } else if (!strncmp(prefix, BTF_UNION, sizeof(BTF_UNION) - 1)) { obj->nr_unions++; id = add_symbol(&obj->unions, prefix, sizeof(BTF_UNION) - 1); /* typedef */ } else if (!strncmp(prefix, BTF_TYPEDEF, sizeof(BTF_TYPEDEF) - 1)) { obj->nr_typedefs++; id = add_symbol(&obj->typedefs, prefix, sizeof(BTF_TYPEDEF) - 1); /* func */ } else if (!strncmp(prefix, BTF_FUNC, sizeof(BTF_FUNC) - 1)) { obj->nr_funcs++; id = add_symbol(&obj->funcs, prefix, sizeof(BTF_FUNC) - 1); /* set */ } else if (!strncmp(prefix, BTF_SET, sizeof(BTF_SET) - 1)) { id = add_set(obj, prefix); /* * SET objects store list's count, which is encoded * in symbol's size, together with 'cnt' field hence * that - 1. */ if (id) id->cnt = sym.st_size / sizeof(int) - 1; } else { pr_err("FAILED unsupported prefix %s\n", prefix); return -1; } if (!id) return -ENOMEM; if (id->addr_cnt >= ADDR_CNT) { pr_err("FAILED symbol %s crossed the number of allowed lists\n", id->name); return -1; } id->addr[id->addr_cnt++] = sym.st_value; } return 0; } static int symbols_resolve(struct object *obj) { int nr_typedefs = obj->nr_typedefs; int nr_structs = obj->nr_structs; int nr_unions = obj->nr_unions; int nr_funcs = obj->nr_funcs; int err, type_id; struct btf *btf; __u32 nr_types; btf = btf__parse(obj->btf ?: obj->path, NULL); err = libbpf_get_error(btf); if (err) { pr_err("FAILED: load BTF from %s: %s\n", obj->btf ?: obj->path, strerror(-err)); return -1; } err = -1; nr_types = btf__get_nr_types(btf); /* * Iterate all the BTF types and search for collected symbol IDs. */ for (type_id = 1; type_id <= nr_types; type_id++) { const struct btf_type *type; struct rb_root *root; struct btf_id *id; const char *str; int *nr; type = btf__type_by_id(btf, type_id); if (!type) { pr_err("FAILED: malformed BTF, can't resolve type for ID %d\n", type_id); goto out; } if (btf_is_func(type) && nr_funcs) { nr = &nr_funcs; root = &obj->funcs; } else if (btf_is_struct(type) && nr_structs) { nr = &nr_structs; root = &obj->structs; } else if (btf_is_union(type) && nr_unions) { nr = &nr_unions; root = &obj->unions; } else if (btf_is_typedef(type) && nr_typedefs) { nr = &nr_typedefs; root = &obj->typedefs; } else continue; str = btf__name_by_offset(btf, type->name_off); if (!str) { pr_err("FAILED: malformed BTF, can't resolve name for ID %d\n", type_id); goto out; } id = btf_id__find(root, str); if (id) { if (id->id) { pr_info("WARN: multiple IDs found for '%s': %d, %d - using %d\n", str, id->id, type_id, id->id); } else { id->id = type_id; (*nr)--; } } } err = 0; out: btf__free(btf); return err; } static int id_patch(struct object *obj, struct btf_id *id) { Elf_Data *data = obj->efile.idlist; int *ptr = data->d_buf; int i; if (!id->id) { pr_err("WARN: resolve_btfids: unresolved symbol %s\n", id->name); } for (i = 0; i < id->addr_cnt; i++) { unsigned long addr = id->addr[i]; unsigned long idx = addr - obj->efile.idlist_addr; pr_debug("patching addr %5lu: ID %7d [%s]\n", idx, id->id, id->name); if (idx >= data->d_size) { pr_err("FAILED patching index %lu out of bounds %lu\n", idx, data->d_size); return -1; } idx = idx / sizeof(int); ptr[idx] = id->id; } return 0; } static int __symbols_patch(struct object *obj, struct rb_root *root) { struct rb_node *next; struct btf_id *id; next = rb_first(root); while (next) { id = rb_entry(next, struct btf_id, rb_node); if (id_patch(obj, id)) return -1; next = rb_next(next); } return 0; } static int cmp_id(const void *pa, const void *pb) { const int *a = pa, *b = pb; return *a - *b; } static int sets_patch(struct object *obj) { Elf_Data *data = obj->efile.idlist; int *ptr = data->d_buf; struct rb_node *next; next = rb_first(&obj->sets); while (next) { unsigned long addr, idx; struct btf_id *id; int *base; int cnt; id = rb_entry(next, struct btf_id, rb_node); addr = id->addr[0]; idx = addr - obj->efile.idlist_addr; /* sets are unique */ if (id->addr_cnt != 1) { pr_err("FAILED malformed data for set '%s'\n", id->name); return -1; } idx = idx / sizeof(int); base = &ptr[idx] + 1; cnt = ptr[idx]; pr_debug("sorting addr %5lu: cnt %6d [%s]\n", (idx + 1) * sizeof(int), cnt, id->name); qsort(base, cnt, sizeof(int), cmp_id); next = rb_next(next); } return 0; } static int symbols_patch(struct object *obj) { int err; if (__symbols_patch(obj, &obj->structs) || __symbols_patch(obj, &obj->unions) || __symbols_patch(obj, &obj->typedefs) || __symbols_patch(obj, &obj->funcs) || __symbols_patch(obj, &obj->sets)) return -1; if (sets_patch(obj)) return -1; /* Set type to ensure endian translation occurs. */ obj->efile.idlist->d_type = ELF_T_WORD; elf_flagdata(obj->efile.idlist, ELF_C_SET, ELF_F_DIRTY); err = elf_update(obj->efile.elf, ELF_C_WRITE); if (err < 0) { pr_err("FAILED elf_update(WRITE): %s\n", elf_errmsg(-1)); } pr_debug("update %s for %s\n", err >= 0 ? "ok" : "failed", obj->path); return err < 0 ? -1 : 0; } static const char * const resolve_btfids_usage[] = { "resolve_btfids [] ", NULL }; int main(int argc, const char **argv) { bool no_fail = false; struct object obj = { .efile = { .idlist_shndx = -1, .symbols_shndx = -1, }, .structs = RB_ROOT, .unions = RB_ROOT, .typedefs = RB_ROOT, .funcs = RB_ROOT, .sets = RB_ROOT, }; struct option btfid_options[] = { OPT_INCR('v', "verbose", &verbose, "be more verbose (show errors, etc)"), OPT_STRING(0, "btf", &obj.btf, "BTF data", "BTF data"), OPT_BOOLEAN(0, "no-fail", &no_fail, "do not fail if " BTF_IDS_SECTION " section is not found"), OPT_END() }; int err = -1; argc = parse_options(argc, argv, btfid_options, resolve_btfids_usage, PARSE_OPT_STOP_AT_NON_OPTION); if (argc != 1) usage_with_options(resolve_btfids_usage, btfid_options); obj.path = argv[0]; if (elf_collect(&obj)) goto out; /* * We did not find .BTF_ids section or symbols section, * nothing to do.. */ if (obj.efile.idlist_shndx == -1 || obj.efile.symbols_shndx == -1) { if (no_fail) return 0; pr_err("FAILED to find needed sections\n"); return -1; } if (symbols_collect(&obj)) goto out; if (symbols_resolve(&obj)) goto out; if (symbols_patch(&obj)) goto out; err = 0; out: if (obj.efile.elf) { elf_end(obj.efile.elf); close(obj.efile.fd); } return err; }