11bc38b8fSAlexei Starovoitov // SPDX-License-Identifier: (LGPL-2.1 OR BSD-2-Clause) 28a138aedSMartin KaFai Lau /* Copyright (c) 2018 Facebook */ 38a138aedSMartin KaFai Lau 4cdb2f920SArnaldo Carvalho de Melo #include <endian.h> 596408c43SYonghong Song #include <stdio.h> 68a138aedSMartin KaFai Lau #include <stdlib.h> 78a138aedSMartin KaFai Lau #include <string.h> 8e6c64855SAndrii Nakryiko #include <fcntl.h> 98a138aedSMartin KaFai Lau #include <unistd.h> 108a138aedSMartin KaFai Lau #include <errno.h> 118a138aedSMartin KaFai Lau #include <linux/err.h> 128a138aedSMartin KaFai Lau #include <linux/btf.h> 13e6c64855SAndrii Nakryiko #include <gelf.h> 148a138aedSMartin KaFai Lau #include "btf.h" 158a138aedSMartin KaFai Lau #include "bpf.h" 168461ef8bSYonghong Song #include "libbpf.h" 17d72386feSAndrii Nakryiko #include "libbpf_internal.h" 182fc3fc0bSAndrii Nakryiko #include "hashmap.h" 198a138aedSMartin KaFai Lau 205aab392cSAndrii Nakryiko #define BTF_MAX_NR_TYPES 0x7fffffff 215aab392cSAndrii Nakryiko #define BTF_MAX_STR_OFFSET 0x7fffffff 228a138aedSMartin KaFai Lau 238a138aedSMartin KaFai Lau static struct btf_type btf_void; 248a138aedSMartin KaFai Lau 258a138aedSMartin KaFai Lau struct btf { 268a138aedSMartin KaFai Lau union { 278a138aedSMartin KaFai Lau struct btf_header *hdr; 288a138aedSMartin KaFai Lau void *data; 298a138aedSMartin KaFai Lau }; 308a138aedSMartin KaFai Lau struct btf_type **types; 318a138aedSMartin KaFai Lau const char *strings; 328a138aedSMartin KaFai Lau void *nohdr_data; 335b891af7SMartin KaFai Lau __u32 nr_types; 345b891af7SMartin KaFai Lau __u32 types_size; 355b891af7SMartin KaFai Lau __u32 data_size; 368a138aedSMartin KaFai Lau int fd; 378a138aedSMartin KaFai Lau }; 388a138aedSMartin KaFai Lau 39d7f5b5e0SYonghong Song static inline __u64 ptr_to_u64(const void *ptr) 40d7f5b5e0SYonghong Song { 41d7f5b5e0SYonghong Song return (__u64) (unsigned long) ptr; 42d7f5b5e0SYonghong Song } 43d7f5b5e0SYonghong Song 448a138aedSMartin KaFai Lau static int btf_add_type(struct btf *btf, struct btf_type *t) 458a138aedSMartin KaFai Lau { 468a138aedSMartin KaFai Lau if (btf->types_size - btf->nr_types < 2) { 478a138aedSMartin KaFai Lau struct btf_type **new_types; 485b891af7SMartin KaFai Lau __u32 expand_by, new_size; 498a138aedSMartin KaFai Lau 508a138aedSMartin KaFai Lau if (btf->types_size == BTF_MAX_NR_TYPES) 518a138aedSMartin KaFai Lau return -E2BIG; 528a138aedSMartin KaFai Lau 538a138aedSMartin KaFai Lau expand_by = max(btf->types_size >> 2, 16); 548a138aedSMartin KaFai Lau new_size = min(BTF_MAX_NR_TYPES, btf->types_size + expand_by); 558a138aedSMartin KaFai Lau 568a138aedSMartin KaFai Lau new_types = realloc(btf->types, sizeof(*new_types) * new_size); 578a138aedSMartin KaFai Lau if (!new_types) 588a138aedSMartin KaFai Lau return -ENOMEM; 598a138aedSMartin KaFai Lau 608a138aedSMartin KaFai Lau if (btf->nr_types == 0) 618a138aedSMartin KaFai Lau new_types[0] = &btf_void; 628a138aedSMartin KaFai Lau 638a138aedSMartin KaFai Lau btf->types = new_types; 648a138aedSMartin KaFai Lau btf->types_size = new_size; 658a138aedSMartin KaFai Lau } 668a138aedSMartin KaFai Lau 678a138aedSMartin KaFai Lau btf->types[++(btf->nr_types)] = t; 688a138aedSMartin KaFai Lau 698a138aedSMartin KaFai Lau return 0; 708a138aedSMartin KaFai Lau } 718a138aedSMartin KaFai Lau 728461ef8bSYonghong Song static int btf_parse_hdr(struct btf *btf) 738a138aedSMartin KaFai Lau { 748a138aedSMartin KaFai Lau const struct btf_header *hdr = btf->hdr; 755b891af7SMartin KaFai Lau __u32 meta_left; 768a138aedSMartin KaFai Lau 778a138aedSMartin KaFai Lau if (btf->data_size < sizeof(struct btf_header)) { 788461ef8bSYonghong Song pr_debug("BTF header not found\n"); 798a138aedSMartin KaFai Lau return -EINVAL; 808a138aedSMartin KaFai Lau } 818a138aedSMartin KaFai Lau 828a138aedSMartin KaFai Lau if (hdr->magic != BTF_MAGIC) { 838461ef8bSYonghong Song pr_debug("Invalid BTF magic:%x\n", hdr->magic); 848a138aedSMartin KaFai Lau return -EINVAL; 858a138aedSMartin KaFai Lau } 868a138aedSMartin KaFai Lau 878a138aedSMartin KaFai Lau if (hdr->version != BTF_VERSION) { 888461ef8bSYonghong Song pr_debug("Unsupported BTF version:%u\n", hdr->version); 898a138aedSMartin KaFai Lau return -ENOTSUP; 908a138aedSMartin KaFai Lau } 918a138aedSMartin KaFai Lau 928a138aedSMartin KaFai Lau if (hdr->flags) { 938461ef8bSYonghong Song pr_debug("Unsupported BTF flags:%x\n", hdr->flags); 948a138aedSMartin KaFai Lau return -ENOTSUP; 958a138aedSMartin KaFai Lau } 968a138aedSMartin KaFai Lau 978a138aedSMartin KaFai Lau meta_left = btf->data_size - sizeof(*hdr); 988a138aedSMartin KaFai Lau if (!meta_left) { 998461ef8bSYonghong Song pr_debug("BTF has no data\n"); 1008a138aedSMartin KaFai Lau return -EINVAL; 1018a138aedSMartin KaFai Lau } 1028a138aedSMartin KaFai Lau 1038a138aedSMartin KaFai Lau if (meta_left < hdr->type_off) { 1048461ef8bSYonghong Song pr_debug("Invalid BTF type section offset:%u\n", hdr->type_off); 1058a138aedSMartin KaFai Lau return -EINVAL; 1068a138aedSMartin KaFai Lau } 1078a138aedSMartin KaFai Lau 1088a138aedSMartin KaFai Lau if (meta_left < hdr->str_off) { 1098461ef8bSYonghong Song pr_debug("Invalid BTF string section offset:%u\n", hdr->str_off); 1108a138aedSMartin KaFai Lau return -EINVAL; 1118a138aedSMartin KaFai Lau } 1128a138aedSMartin KaFai Lau 1138a138aedSMartin KaFai Lau if (hdr->type_off >= hdr->str_off) { 1148461ef8bSYonghong Song pr_debug("BTF type section offset >= string section offset. No type?\n"); 1158a138aedSMartin KaFai Lau return -EINVAL; 1168a138aedSMartin KaFai Lau } 1178a138aedSMartin KaFai Lau 1188a138aedSMartin KaFai Lau if (hdr->type_off & 0x02) { 1198461ef8bSYonghong Song pr_debug("BTF type section is not aligned to 4 bytes\n"); 1208a138aedSMartin KaFai Lau return -EINVAL; 1218a138aedSMartin KaFai Lau } 1228a138aedSMartin KaFai Lau 1238a138aedSMartin KaFai Lau btf->nohdr_data = btf->hdr + 1; 1248a138aedSMartin KaFai Lau 1258a138aedSMartin KaFai Lau return 0; 1268a138aedSMartin KaFai Lau } 1278a138aedSMartin KaFai Lau 1288461ef8bSYonghong Song static int btf_parse_str_sec(struct btf *btf) 1298a138aedSMartin KaFai Lau { 1308a138aedSMartin KaFai Lau const struct btf_header *hdr = btf->hdr; 1318a138aedSMartin KaFai Lau const char *start = btf->nohdr_data + hdr->str_off; 1328a138aedSMartin KaFai Lau const char *end = start + btf->hdr->str_len; 1338a138aedSMartin KaFai Lau 1345aab392cSAndrii Nakryiko if (!hdr->str_len || hdr->str_len - 1 > BTF_MAX_STR_OFFSET || 1358a138aedSMartin KaFai Lau start[0] || end[-1]) { 1368461ef8bSYonghong Song pr_debug("Invalid BTF string section\n"); 1378a138aedSMartin KaFai Lau return -EINVAL; 1388a138aedSMartin KaFai Lau } 1398a138aedSMartin KaFai Lau 1408a138aedSMartin KaFai Lau btf->strings = start; 1418a138aedSMartin KaFai Lau 1428a138aedSMartin KaFai Lau return 0; 1438a138aedSMartin KaFai Lau } 1448a138aedSMartin KaFai Lau 14569eaab04SAndrii Nakryiko static int btf_type_size(struct btf_type *t) 14669eaab04SAndrii Nakryiko { 14769eaab04SAndrii Nakryiko int base_size = sizeof(struct btf_type); 148b03bc685SAndrii Nakryiko __u16 vlen = btf_vlen(t); 14969eaab04SAndrii Nakryiko 150b03bc685SAndrii Nakryiko switch (btf_kind(t)) { 15169eaab04SAndrii Nakryiko case BTF_KIND_FWD: 15269eaab04SAndrii Nakryiko case BTF_KIND_CONST: 15369eaab04SAndrii Nakryiko case BTF_KIND_VOLATILE: 15469eaab04SAndrii Nakryiko case BTF_KIND_RESTRICT: 15569eaab04SAndrii Nakryiko case BTF_KIND_PTR: 15669eaab04SAndrii Nakryiko case BTF_KIND_TYPEDEF: 15769eaab04SAndrii Nakryiko case BTF_KIND_FUNC: 15869eaab04SAndrii Nakryiko return base_size; 15969eaab04SAndrii Nakryiko case BTF_KIND_INT: 16069eaab04SAndrii Nakryiko return base_size + sizeof(__u32); 16169eaab04SAndrii Nakryiko case BTF_KIND_ENUM: 16269eaab04SAndrii Nakryiko return base_size + vlen * sizeof(struct btf_enum); 16369eaab04SAndrii Nakryiko case BTF_KIND_ARRAY: 16469eaab04SAndrii Nakryiko return base_size + sizeof(struct btf_array); 16569eaab04SAndrii Nakryiko case BTF_KIND_STRUCT: 16669eaab04SAndrii Nakryiko case BTF_KIND_UNION: 16769eaab04SAndrii Nakryiko return base_size + vlen * sizeof(struct btf_member); 16869eaab04SAndrii Nakryiko case BTF_KIND_FUNC_PROTO: 16969eaab04SAndrii Nakryiko return base_size + vlen * sizeof(struct btf_param); 1701713d68bSDaniel Borkmann case BTF_KIND_VAR: 1711713d68bSDaniel Borkmann return base_size + sizeof(struct btf_var); 1721713d68bSDaniel Borkmann case BTF_KIND_DATASEC: 1731713d68bSDaniel Borkmann return base_size + vlen * sizeof(struct btf_var_secinfo); 17469eaab04SAndrii Nakryiko default: 175b03bc685SAndrii Nakryiko pr_debug("Unsupported BTF_KIND:%u\n", btf_kind(t)); 17669eaab04SAndrii Nakryiko return -EINVAL; 17769eaab04SAndrii Nakryiko } 17869eaab04SAndrii Nakryiko } 17969eaab04SAndrii Nakryiko 1808461ef8bSYonghong Song static int btf_parse_type_sec(struct btf *btf) 1818a138aedSMartin KaFai Lau { 1828a138aedSMartin KaFai Lau struct btf_header *hdr = btf->hdr; 1838a138aedSMartin KaFai Lau void *nohdr_data = btf->nohdr_data; 1848a138aedSMartin KaFai Lau void *next_type = nohdr_data + hdr->type_off; 1858a138aedSMartin KaFai Lau void *end_type = nohdr_data + hdr->str_off; 1868a138aedSMartin KaFai Lau 1878a138aedSMartin KaFai Lau while (next_type < end_type) { 1888a138aedSMartin KaFai Lau struct btf_type *t = next_type; 18969eaab04SAndrii Nakryiko int type_size; 1908a138aedSMartin KaFai Lau int err; 1918a138aedSMartin KaFai Lau 19269eaab04SAndrii Nakryiko type_size = btf_type_size(t); 19369eaab04SAndrii Nakryiko if (type_size < 0) 19469eaab04SAndrii Nakryiko return type_size; 19569eaab04SAndrii Nakryiko next_type += type_size; 1968a138aedSMartin KaFai Lau err = btf_add_type(btf, t); 1978a138aedSMartin KaFai Lau if (err) 1988a138aedSMartin KaFai Lau return err; 1998a138aedSMartin KaFai Lau } 2008a138aedSMartin KaFai Lau 2018a138aedSMartin KaFai Lau return 0; 2028a138aedSMartin KaFai Lau } 2038a138aedSMartin KaFai Lau 2049c651127SAndrii Nakryiko __u32 btf__get_nr_types(const struct btf *btf) 2059c651127SAndrii Nakryiko { 2069c651127SAndrii Nakryiko return btf->nr_types; 2079c651127SAndrii Nakryiko } 2089c651127SAndrii Nakryiko 20938d5d3b3SMartin KaFai Lau const struct btf_type *btf__type_by_id(const struct btf *btf, __u32 type_id) 2108a138aedSMartin KaFai Lau { 2118a138aedSMartin KaFai Lau if (type_id > btf->nr_types) 2128a138aedSMartin KaFai Lau return NULL; 2138a138aedSMartin KaFai Lau 2148a138aedSMartin KaFai Lau return btf->types[type_id]; 2158a138aedSMartin KaFai Lau } 2168a138aedSMartin KaFai Lau 2178a138aedSMartin KaFai Lau static bool btf_type_is_void(const struct btf_type *t) 2188a138aedSMartin KaFai Lau { 219b03bc685SAndrii Nakryiko return t == &btf_void || btf_is_fwd(t); 2208a138aedSMartin KaFai Lau } 2218a138aedSMartin KaFai Lau 2228a138aedSMartin KaFai Lau static bool btf_type_is_void_or_null(const struct btf_type *t) 2238a138aedSMartin KaFai Lau { 2248a138aedSMartin KaFai Lau return !t || btf_type_is_void(t); 2258a138aedSMartin KaFai Lau } 2268a138aedSMartin KaFai Lau 2278a138aedSMartin KaFai Lau #define MAX_RESOLVE_DEPTH 32 2288a138aedSMartin KaFai Lau 2295b891af7SMartin KaFai Lau __s64 btf__resolve_size(const struct btf *btf, __u32 type_id) 2308a138aedSMartin KaFai Lau { 2318a138aedSMartin KaFai Lau const struct btf_array *array; 2328a138aedSMartin KaFai Lau const struct btf_type *t; 2335b891af7SMartin KaFai Lau __u32 nelems = 1; 2345b891af7SMartin KaFai Lau __s64 size = -1; 2358a138aedSMartin KaFai Lau int i; 2368a138aedSMartin KaFai Lau 23792b57121SOkash Khawaja t = btf__type_by_id(btf, type_id); 2388a138aedSMartin KaFai Lau for (i = 0; i < MAX_RESOLVE_DEPTH && !btf_type_is_void_or_null(t); 2398a138aedSMartin KaFai Lau i++) { 240b03bc685SAndrii Nakryiko switch (btf_kind(t)) { 24169eaab04SAndrii Nakryiko case BTF_KIND_INT: 24269eaab04SAndrii Nakryiko case BTF_KIND_STRUCT: 24369eaab04SAndrii Nakryiko case BTF_KIND_UNION: 24469eaab04SAndrii Nakryiko case BTF_KIND_ENUM: 2451713d68bSDaniel Borkmann case BTF_KIND_DATASEC: 24669eaab04SAndrii Nakryiko size = t->size; 24769eaab04SAndrii Nakryiko goto done; 24869eaab04SAndrii Nakryiko case BTF_KIND_PTR: 24969eaab04SAndrii Nakryiko size = sizeof(void *); 25069eaab04SAndrii Nakryiko goto done; 2518a138aedSMartin KaFai Lau case BTF_KIND_TYPEDEF: 2528a138aedSMartin KaFai Lau case BTF_KIND_VOLATILE: 2538a138aedSMartin KaFai Lau case BTF_KIND_CONST: 2548a138aedSMartin KaFai Lau case BTF_KIND_RESTRICT: 2551713d68bSDaniel Borkmann case BTF_KIND_VAR: 2568a138aedSMartin KaFai Lau type_id = t->type; 2578a138aedSMartin KaFai Lau break; 2588a138aedSMartin KaFai Lau case BTF_KIND_ARRAY: 259b03bc685SAndrii Nakryiko array = btf_array(t); 2608a138aedSMartin KaFai Lau if (nelems && array->nelems > UINT32_MAX / nelems) 2618a138aedSMartin KaFai Lau return -E2BIG; 2628a138aedSMartin KaFai Lau nelems *= array->nelems; 2638a138aedSMartin KaFai Lau type_id = array->type; 2648a138aedSMartin KaFai Lau break; 2658a138aedSMartin KaFai Lau default: 2668a138aedSMartin KaFai Lau return -EINVAL; 2678a138aedSMartin KaFai Lau } 2688a138aedSMartin KaFai Lau 26992b57121SOkash Khawaja t = btf__type_by_id(btf, type_id); 2708a138aedSMartin KaFai Lau } 2718a138aedSMartin KaFai Lau 2728a138aedSMartin KaFai Lau if (size < 0) 2738a138aedSMartin KaFai Lau return -EINVAL; 2748a138aedSMartin KaFai Lau 27569eaab04SAndrii Nakryiko done: 2768a138aedSMartin KaFai Lau if (nelems && size > UINT32_MAX / nelems) 2778a138aedSMartin KaFai Lau return -E2BIG; 2788a138aedSMartin KaFai Lau 2798a138aedSMartin KaFai Lau return nelems * size; 2808a138aedSMartin KaFai Lau } 2818a138aedSMartin KaFai Lau 28292b57121SOkash Khawaja int btf__resolve_type(const struct btf *btf, __u32 type_id) 28392b57121SOkash Khawaja { 28492b57121SOkash Khawaja const struct btf_type *t; 28592b57121SOkash Khawaja int depth = 0; 28692b57121SOkash Khawaja 28792b57121SOkash Khawaja t = btf__type_by_id(btf, type_id); 28892b57121SOkash Khawaja while (depth < MAX_RESOLVE_DEPTH && 28992b57121SOkash Khawaja !btf_type_is_void_or_null(t) && 290b03bc685SAndrii Nakryiko (btf_is_mod(t) || btf_is_typedef(t) || btf_is_var(t))) { 29192b57121SOkash Khawaja type_id = t->type; 29292b57121SOkash Khawaja t = btf__type_by_id(btf, type_id); 29392b57121SOkash Khawaja depth++; 29492b57121SOkash Khawaja } 29592b57121SOkash Khawaja 29692b57121SOkash Khawaja if (depth == MAX_RESOLVE_DEPTH || btf_type_is_void_or_null(t)) 29792b57121SOkash Khawaja return -EINVAL; 29892b57121SOkash Khawaja 29992b57121SOkash Khawaja return type_id; 30092b57121SOkash Khawaja } 30192b57121SOkash Khawaja 3025b891af7SMartin KaFai Lau __s32 btf__find_by_name(const struct btf *btf, const char *type_name) 3038a138aedSMartin KaFai Lau { 3045b891af7SMartin KaFai Lau __u32 i; 3058a138aedSMartin KaFai Lau 3068a138aedSMartin KaFai Lau if (!strcmp(type_name, "void")) 3078a138aedSMartin KaFai Lau return 0; 3088a138aedSMartin KaFai Lau 3098a138aedSMartin KaFai Lau for (i = 1; i <= btf->nr_types; i++) { 3108a138aedSMartin KaFai Lau const struct btf_type *t = btf->types[i]; 31192b57121SOkash Khawaja const char *name = btf__name_by_offset(btf, t->name_off); 3128a138aedSMartin KaFai Lau 3138a138aedSMartin KaFai Lau if (name && !strcmp(type_name, name)) 3148a138aedSMartin KaFai Lau return i; 3158a138aedSMartin KaFai Lau } 3168a138aedSMartin KaFai Lau 3178a138aedSMartin KaFai Lau return -ENOENT; 3188a138aedSMartin KaFai Lau } 3198a138aedSMartin KaFai Lau 3208a138aedSMartin KaFai Lau void btf__free(struct btf *btf) 3218a138aedSMartin KaFai Lau { 3228a138aedSMartin KaFai Lau if (!btf) 3238a138aedSMartin KaFai Lau return; 3248a138aedSMartin KaFai Lau 3258a138aedSMartin KaFai Lau if (btf->fd != -1) 3268a138aedSMartin KaFai Lau close(btf->fd); 3278a138aedSMartin KaFai Lau 3288a138aedSMartin KaFai Lau free(btf->data); 3298a138aedSMartin KaFai Lau free(btf->types); 3308a138aedSMartin KaFai Lau free(btf); 3318a138aedSMartin KaFai Lau } 3328a138aedSMartin KaFai Lau 3338461ef8bSYonghong Song struct btf *btf__new(__u8 *data, __u32 size) 3348a138aedSMartin KaFai Lau { 3358a138aedSMartin KaFai Lau struct btf *btf; 3368a138aedSMartin KaFai Lau int err; 3378a138aedSMartin KaFai Lau 3388a138aedSMartin KaFai Lau btf = calloc(1, sizeof(struct btf)); 3398a138aedSMartin KaFai Lau if (!btf) 3408a138aedSMartin KaFai Lau return ERR_PTR(-ENOMEM); 3418a138aedSMartin KaFai Lau 3428a138aedSMartin KaFai Lau btf->fd = -1; 3438a138aedSMartin KaFai Lau 3448a138aedSMartin KaFai Lau btf->data = malloc(size); 3458a138aedSMartin KaFai Lau if (!btf->data) { 3468a138aedSMartin KaFai Lau err = -ENOMEM; 3478a138aedSMartin KaFai Lau goto done; 3488a138aedSMartin KaFai Lau } 3498a138aedSMartin KaFai Lau 3508a138aedSMartin KaFai Lau memcpy(btf->data, data, size); 3518a138aedSMartin KaFai Lau btf->data_size = size; 3528a138aedSMartin KaFai Lau 3538461ef8bSYonghong Song err = btf_parse_hdr(btf); 3548a138aedSMartin KaFai Lau if (err) 3558a138aedSMartin KaFai Lau goto done; 3568a138aedSMartin KaFai Lau 3578461ef8bSYonghong Song err = btf_parse_str_sec(btf); 3588a138aedSMartin KaFai Lau if (err) 3598a138aedSMartin KaFai Lau goto done; 3608a138aedSMartin KaFai Lau 3618461ef8bSYonghong Song err = btf_parse_type_sec(btf); 3628a138aedSMartin KaFai Lau 3638a138aedSMartin KaFai Lau done: 3648a138aedSMartin KaFai Lau if (err) { 3658a138aedSMartin KaFai Lau btf__free(btf); 3668a138aedSMartin KaFai Lau return ERR_PTR(err); 3678a138aedSMartin KaFai Lau } 3688a138aedSMartin KaFai Lau 3698a138aedSMartin KaFai Lau return btf; 3708a138aedSMartin KaFai Lau } 3718a138aedSMartin KaFai Lau 372e6c64855SAndrii Nakryiko static bool btf_check_endianness(const GElf_Ehdr *ehdr) 373e6c64855SAndrii Nakryiko { 374cdb2f920SArnaldo Carvalho de Melo #if __BYTE_ORDER == __LITTLE_ENDIAN 375e6c64855SAndrii Nakryiko return ehdr->e_ident[EI_DATA] == ELFDATA2LSB; 376cdb2f920SArnaldo Carvalho de Melo #elif __BYTE_ORDER == __BIG_ENDIAN 377e6c64855SAndrii Nakryiko return ehdr->e_ident[EI_DATA] == ELFDATA2MSB; 378e6c64855SAndrii Nakryiko #else 379e6c64855SAndrii Nakryiko # error "Unrecognized __BYTE_ORDER__" 380e6c64855SAndrii Nakryiko #endif 381e6c64855SAndrii Nakryiko } 382e6c64855SAndrii Nakryiko 383e6c64855SAndrii Nakryiko struct btf *btf__parse_elf(const char *path, struct btf_ext **btf_ext) 384e6c64855SAndrii Nakryiko { 385e6c64855SAndrii Nakryiko Elf_Data *btf_data = NULL, *btf_ext_data = NULL; 386e6c64855SAndrii Nakryiko int err = 0, fd = -1, idx = 0; 387e6c64855SAndrii Nakryiko struct btf *btf = NULL; 388e6c64855SAndrii Nakryiko Elf_Scn *scn = NULL; 389e6c64855SAndrii Nakryiko Elf *elf = NULL; 390e6c64855SAndrii Nakryiko GElf_Ehdr ehdr; 391e6c64855SAndrii Nakryiko 392e6c64855SAndrii Nakryiko if (elf_version(EV_CURRENT) == EV_NONE) { 393*be18010eSKefeng Wang pr_warn("failed to init libelf for %s\n", path); 394e6c64855SAndrii Nakryiko return ERR_PTR(-LIBBPF_ERRNO__LIBELF); 395e6c64855SAndrii Nakryiko } 396e6c64855SAndrii Nakryiko 397e6c64855SAndrii Nakryiko fd = open(path, O_RDONLY); 398e6c64855SAndrii Nakryiko if (fd < 0) { 399e6c64855SAndrii Nakryiko err = -errno; 400*be18010eSKefeng Wang pr_warn("failed to open %s: %s\n", path, strerror(errno)); 401e6c64855SAndrii Nakryiko return ERR_PTR(err); 402e6c64855SAndrii Nakryiko } 403e6c64855SAndrii Nakryiko 404e6c64855SAndrii Nakryiko err = -LIBBPF_ERRNO__FORMAT; 405e6c64855SAndrii Nakryiko 406e6c64855SAndrii Nakryiko elf = elf_begin(fd, ELF_C_READ, NULL); 407e6c64855SAndrii Nakryiko if (!elf) { 408*be18010eSKefeng Wang pr_warn("failed to open %s as ELF file\n", path); 409e6c64855SAndrii Nakryiko goto done; 410e6c64855SAndrii Nakryiko } 411e6c64855SAndrii Nakryiko if (!gelf_getehdr(elf, &ehdr)) { 412*be18010eSKefeng Wang pr_warn("failed to get EHDR from %s\n", path); 413e6c64855SAndrii Nakryiko goto done; 414e6c64855SAndrii Nakryiko } 415e6c64855SAndrii Nakryiko if (!btf_check_endianness(&ehdr)) { 416*be18010eSKefeng Wang pr_warn("non-native ELF endianness is not supported\n"); 417e6c64855SAndrii Nakryiko goto done; 418e6c64855SAndrii Nakryiko } 419e6c64855SAndrii Nakryiko if (!elf_rawdata(elf_getscn(elf, ehdr.e_shstrndx), NULL)) { 420*be18010eSKefeng Wang pr_warn("failed to get e_shstrndx from %s\n", path); 421e6c64855SAndrii Nakryiko goto done; 422e6c64855SAndrii Nakryiko } 423e6c64855SAndrii Nakryiko 424e6c64855SAndrii Nakryiko while ((scn = elf_nextscn(elf, scn)) != NULL) { 425e6c64855SAndrii Nakryiko GElf_Shdr sh; 426e6c64855SAndrii Nakryiko char *name; 427e6c64855SAndrii Nakryiko 428e6c64855SAndrii Nakryiko idx++; 429e6c64855SAndrii Nakryiko if (gelf_getshdr(scn, &sh) != &sh) { 430*be18010eSKefeng Wang pr_warn("failed to get section(%d) header from %s\n", 431e6c64855SAndrii Nakryiko idx, path); 432e6c64855SAndrii Nakryiko goto done; 433e6c64855SAndrii Nakryiko } 434e6c64855SAndrii Nakryiko name = elf_strptr(elf, ehdr.e_shstrndx, sh.sh_name); 435e6c64855SAndrii Nakryiko if (!name) { 436*be18010eSKefeng Wang pr_warn("failed to get section(%d) name from %s\n", 437e6c64855SAndrii Nakryiko idx, path); 438e6c64855SAndrii Nakryiko goto done; 439e6c64855SAndrii Nakryiko } 440e6c64855SAndrii Nakryiko if (strcmp(name, BTF_ELF_SEC) == 0) { 441e6c64855SAndrii Nakryiko btf_data = elf_getdata(scn, 0); 442e6c64855SAndrii Nakryiko if (!btf_data) { 443*be18010eSKefeng Wang pr_warn("failed to get section(%d, %s) data from %s\n", 444e6c64855SAndrii Nakryiko idx, name, path); 445e6c64855SAndrii Nakryiko goto done; 446e6c64855SAndrii Nakryiko } 447e6c64855SAndrii Nakryiko continue; 448e6c64855SAndrii Nakryiko } else if (btf_ext && strcmp(name, BTF_EXT_ELF_SEC) == 0) { 449e6c64855SAndrii Nakryiko btf_ext_data = elf_getdata(scn, 0); 450e6c64855SAndrii Nakryiko if (!btf_ext_data) { 451*be18010eSKefeng Wang pr_warn("failed to get section(%d, %s) data from %s\n", 452e6c64855SAndrii Nakryiko idx, name, path); 453e6c64855SAndrii Nakryiko goto done; 454e6c64855SAndrii Nakryiko } 455e6c64855SAndrii Nakryiko continue; 456e6c64855SAndrii Nakryiko } 457e6c64855SAndrii Nakryiko } 458e6c64855SAndrii Nakryiko 459e6c64855SAndrii Nakryiko err = 0; 460e6c64855SAndrii Nakryiko 461e6c64855SAndrii Nakryiko if (!btf_data) { 462e6c64855SAndrii Nakryiko err = -ENOENT; 463e6c64855SAndrii Nakryiko goto done; 464e6c64855SAndrii Nakryiko } 465e6c64855SAndrii Nakryiko btf = btf__new(btf_data->d_buf, btf_data->d_size); 466e6c64855SAndrii Nakryiko if (IS_ERR(btf)) 467e6c64855SAndrii Nakryiko goto done; 468e6c64855SAndrii Nakryiko 469e6c64855SAndrii Nakryiko if (btf_ext && btf_ext_data) { 470e6c64855SAndrii Nakryiko *btf_ext = btf_ext__new(btf_ext_data->d_buf, 471e6c64855SAndrii Nakryiko btf_ext_data->d_size); 472e6c64855SAndrii Nakryiko if (IS_ERR(*btf_ext)) 473e6c64855SAndrii Nakryiko goto done; 474e6c64855SAndrii Nakryiko } else if (btf_ext) { 475e6c64855SAndrii Nakryiko *btf_ext = NULL; 476e6c64855SAndrii Nakryiko } 477e6c64855SAndrii Nakryiko done: 478e6c64855SAndrii Nakryiko if (elf) 479e6c64855SAndrii Nakryiko elf_end(elf); 480e6c64855SAndrii Nakryiko close(fd); 481e6c64855SAndrii Nakryiko 482e6c64855SAndrii Nakryiko if (err) 483e6c64855SAndrii Nakryiko return ERR_PTR(err); 484e6c64855SAndrii Nakryiko /* 485e6c64855SAndrii Nakryiko * btf is always parsed before btf_ext, so no need to clean up 486e6c64855SAndrii Nakryiko * btf_ext, if btf loading failed 487e6c64855SAndrii Nakryiko */ 488e6c64855SAndrii Nakryiko if (IS_ERR(btf)) 489e6c64855SAndrii Nakryiko return btf; 490e6c64855SAndrii Nakryiko if (btf_ext && IS_ERR(*btf_ext)) { 491e6c64855SAndrii Nakryiko btf__free(btf); 492e6c64855SAndrii Nakryiko err = PTR_ERR(*btf_ext); 493e6c64855SAndrii Nakryiko return ERR_PTR(err); 494e6c64855SAndrii Nakryiko } 495e6c64855SAndrii Nakryiko return btf; 496e6c64855SAndrii Nakryiko } 497e6c64855SAndrii Nakryiko 4981713d68bSDaniel Borkmann static int compare_vsi_off(const void *_a, const void *_b) 4991713d68bSDaniel Borkmann { 5001713d68bSDaniel Borkmann const struct btf_var_secinfo *a = _a; 5011713d68bSDaniel Borkmann const struct btf_var_secinfo *b = _b; 5021713d68bSDaniel Borkmann 5031713d68bSDaniel Borkmann return a->offset - b->offset; 5041713d68bSDaniel Borkmann } 5051713d68bSDaniel Borkmann 5061713d68bSDaniel Borkmann static int btf_fixup_datasec(struct bpf_object *obj, struct btf *btf, 5071713d68bSDaniel Borkmann struct btf_type *t) 5081713d68bSDaniel Borkmann { 509b03bc685SAndrii Nakryiko __u32 size = 0, off = 0, i, vars = btf_vlen(t); 5101713d68bSDaniel Borkmann const char *name = btf__name_by_offset(btf, t->name_off); 5111713d68bSDaniel Borkmann const struct btf_type *t_var; 5121713d68bSDaniel Borkmann struct btf_var_secinfo *vsi; 513b03bc685SAndrii Nakryiko const struct btf_var *var; 5141713d68bSDaniel Borkmann int ret; 5151713d68bSDaniel Borkmann 5161713d68bSDaniel Borkmann if (!name) { 5171713d68bSDaniel Borkmann pr_debug("No name found in string section for DATASEC kind.\n"); 5181713d68bSDaniel Borkmann return -ENOENT; 5191713d68bSDaniel Borkmann } 5201713d68bSDaniel Borkmann 5211713d68bSDaniel Borkmann ret = bpf_object__section_size(obj, name, &size); 5221713d68bSDaniel Borkmann if (ret || !size || (t->size && t->size != size)) { 5231713d68bSDaniel Borkmann pr_debug("Invalid size for section %s: %u bytes\n", name, size); 5241713d68bSDaniel Borkmann return -ENOENT; 5251713d68bSDaniel Borkmann } 5261713d68bSDaniel Borkmann 5271713d68bSDaniel Borkmann t->size = size; 5281713d68bSDaniel Borkmann 529b03bc685SAndrii Nakryiko for (i = 0, vsi = btf_var_secinfos(t); i < vars; i++, vsi++) { 5301713d68bSDaniel Borkmann t_var = btf__type_by_id(btf, vsi->type); 531b03bc685SAndrii Nakryiko var = btf_var(t_var); 5321713d68bSDaniel Borkmann 533b03bc685SAndrii Nakryiko if (!btf_is_var(t_var)) { 5341713d68bSDaniel Borkmann pr_debug("Non-VAR type seen in section %s\n", name); 5351713d68bSDaniel Borkmann return -EINVAL; 5361713d68bSDaniel Borkmann } 5371713d68bSDaniel Borkmann 5381713d68bSDaniel Borkmann if (var->linkage == BTF_VAR_STATIC) 5391713d68bSDaniel Borkmann continue; 5401713d68bSDaniel Borkmann 5411713d68bSDaniel Borkmann name = btf__name_by_offset(btf, t_var->name_off); 5421713d68bSDaniel Borkmann if (!name) { 5431713d68bSDaniel Borkmann pr_debug("No name found in string section for VAR kind\n"); 5441713d68bSDaniel Borkmann return -ENOENT; 5451713d68bSDaniel Borkmann } 5461713d68bSDaniel Borkmann 5471713d68bSDaniel Borkmann ret = bpf_object__variable_offset(obj, name, &off); 5481713d68bSDaniel Borkmann if (ret) { 549b03bc685SAndrii Nakryiko pr_debug("No offset found in symbol table for VAR %s\n", 550b03bc685SAndrii Nakryiko name); 5511713d68bSDaniel Borkmann return -ENOENT; 5521713d68bSDaniel Borkmann } 5531713d68bSDaniel Borkmann 5541713d68bSDaniel Borkmann vsi->offset = off; 5551713d68bSDaniel Borkmann } 5561713d68bSDaniel Borkmann 5571713d68bSDaniel Borkmann qsort(t + 1, vars, sizeof(*vsi), compare_vsi_off); 5581713d68bSDaniel Borkmann return 0; 5591713d68bSDaniel Borkmann } 5601713d68bSDaniel Borkmann 5611713d68bSDaniel Borkmann int btf__finalize_data(struct bpf_object *obj, struct btf *btf) 5621713d68bSDaniel Borkmann { 5631713d68bSDaniel Borkmann int err = 0; 5641713d68bSDaniel Borkmann __u32 i; 5651713d68bSDaniel Borkmann 5661713d68bSDaniel Borkmann for (i = 1; i <= btf->nr_types; i++) { 5671713d68bSDaniel Borkmann struct btf_type *t = btf->types[i]; 5681713d68bSDaniel Borkmann 5691713d68bSDaniel Borkmann /* Loader needs to fix up some of the things compiler 5701713d68bSDaniel Borkmann * couldn't get its hands on while emitting BTF. This 5711713d68bSDaniel Borkmann * is section size and global variable offset. We use 5721713d68bSDaniel Borkmann * the info from the ELF itself for this purpose. 5731713d68bSDaniel Borkmann */ 574b03bc685SAndrii Nakryiko if (btf_is_datasec(t)) { 5751713d68bSDaniel Borkmann err = btf_fixup_datasec(obj, btf, t); 5761713d68bSDaniel Borkmann if (err) 5771713d68bSDaniel Borkmann break; 5781713d68bSDaniel Borkmann } 5791713d68bSDaniel Borkmann } 5801713d68bSDaniel Borkmann 5811713d68bSDaniel Borkmann return err; 5821713d68bSDaniel Borkmann } 5831713d68bSDaniel Borkmann 584d29d87f7SAndrii Nakryiko int btf__load(struct btf *btf) 585d29d87f7SAndrii Nakryiko { 586d29d87f7SAndrii Nakryiko __u32 log_buf_size = BPF_LOG_BUF_SIZE; 587d29d87f7SAndrii Nakryiko char *log_buf = NULL; 588d29d87f7SAndrii Nakryiko int err = 0; 589d29d87f7SAndrii Nakryiko 590d29d87f7SAndrii Nakryiko if (btf->fd >= 0) 591d29d87f7SAndrii Nakryiko return -EEXIST; 592d29d87f7SAndrii Nakryiko 593d29d87f7SAndrii Nakryiko log_buf = malloc(log_buf_size); 594d29d87f7SAndrii Nakryiko if (!log_buf) 595d29d87f7SAndrii Nakryiko return -ENOMEM; 596d29d87f7SAndrii Nakryiko 597d29d87f7SAndrii Nakryiko *log_buf = 0; 598d29d87f7SAndrii Nakryiko 599d29d87f7SAndrii Nakryiko btf->fd = bpf_load_btf(btf->data, btf->data_size, 600d29d87f7SAndrii Nakryiko log_buf, log_buf_size, false); 601d29d87f7SAndrii Nakryiko if (btf->fd < 0) { 602d29d87f7SAndrii Nakryiko err = -errno; 603*be18010eSKefeng Wang pr_warn("Error loading BTF: %s(%d)\n", strerror(errno), errno); 604d29d87f7SAndrii Nakryiko if (*log_buf) 605*be18010eSKefeng Wang pr_warn("%s\n", log_buf); 606d29d87f7SAndrii Nakryiko goto done; 607d29d87f7SAndrii Nakryiko } 608d29d87f7SAndrii Nakryiko 609d29d87f7SAndrii Nakryiko done: 610d29d87f7SAndrii Nakryiko free(log_buf); 611d29d87f7SAndrii Nakryiko return err; 612d29d87f7SAndrii Nakryiko } 613d29d87f7SAndrii Nakryiko 6148a138aedSMartin KaFai Lau int btf__fd(const struct btf *btf) 6158a138aedSMartin KaFai Lau { 6168a138aedSMartin KaFai Lau return btf->fd; 6178a138aedSMartin KaFai Lau } 61892b57121SOkash Khawaja 61902c87446SAndrii Nakryiko const void *btf__get_raw_data(const struct btf *btf, __u32 *size) 62002c87446SAndrii Nakryiko { 62102c87446SAndrii Nakryiko *size = btf->data_size; 62202c87446SAndrii Nakryiko return btf->data; 62302c87446SAndrii Nakryiko } 62402c87446SAndrii Nakryiko 62592b57121SOkash Khawaja const char *btf__name_by_offset(const struct btf *btf, __u32 offset) 62692b57121SOkash Khawaja { 62792b57121SOkash Khawaja if (offset < btf->hdr->str_len) 62892b57121SOkash Khawaja return &btf->strings[offset]; 62992b57121SOkash Khawaja else 63092b57121SOkash Khawaja return NULL; 63192b57121SOkash Khawaja } 6322993e051SYonghong Song 6331d2f44caSMartin KaFai Lau int btf__get_from_id(__u32 id, struct btf **btf) 634d7f5b5e0SYonghong Song { 635d7f5b5e0SYonghong Song struct bpf_btf_info btf_info = { 0 }; 636d7f5b5e0SYonghong Song __u32 len = sizeof(btf_info); 637d7f5b5e0SYonghong Song __u32 last_size; 638d7f5b5e0SYonghong Song int btf_fd; 639d7f5b5e0SYonghong Song void *ptr; 640d7f5b5e0SYonghong Song int err; 641d7f5b5e0SYonghong Song 642d7f5b5e0SYonghong Song err = 0; 643d7f5b5e0SYonghong Song *btf = NULL; 644d7f5b5e0SYonghong Song btf_fd = bpf_btf_get_fd_by_id(id); 645d7f5b5e0SYonghong Song if (btf_fd < 0) 646d7f5b5e0SYonghong Song return 0; 647d7f5b5e0SYonghong Song 648d7f5b5e0SYonghong Song /* we won't know btf_size until we call bpf_obj_get_info_by_fd(). so 649d7f5b5e0SYonghong Song * let's start with a sane default - 4KiB here - and resize it only if 650d7f5b5e0SYonghong Song * bpf_obj_get_info_by_fd() needs a bigger buffer. 651d7f5b5e0SYonghong Song */ 652d7f5b5e0SYonghong Song btf_info.btf_size = 4096; 653d7f5b5e0SYonghong Song last_size = btf_info.btf_size; 654d7f5b5e0SYonghong Song ptr = malloc(last_size); 655d7f5b5e0SYonghong Song if (!ptr) { 656d7f5b5e0SYonghong Song err = -ENOMEM; 657d7f5b5e0SYonghong Song goto exit_free; 658d7f5b5e0SYonghong Song } 659d7f5b5e0SYonghong Song 6601ad9cbb8SAndrii Nakryiko memset(ptr, 0, last_size); 661d7f5b5e0SYonghong Song btf_info.btf = ptr_to_u64(ptr); 662d7f5b5e0SYonghong Song err = bpf_obj_get_info_by_fd(btf_fd, &btf_info, &len); 663d7f5b5e0SYonghong Song 664d7f5b5e0SYonghong Song if (!err && btf_info.btf_size > last_size) { 665d7f5b5e0SYonghong Song void *temp_ptr; 666d7f5b5e0SYonghong Song 667d7f5b5e0SYonghong Song last_size = btf_info.btf_size; 668d7f5b5e0SYonghong Song temp_ptr = realloc(ptr, last_size); 669d7f5b5e0SYonghong Song if (!temp_ptr) { 670d7f5b5e0SYonghong Song err = -ENOMEM; 671d7f5b5e0SYonghong Song goto exit_free; 672d7f5b5e0SYonghong Song } 673d7f5b5e0SYonghong Song ptr = temp_ptr; 6741ad9cbb8SAndrii Nakryiko memset(ptr, 0, last_size); 675d7f5b5e0SYonghong Song btf_info.btf = ptr_to_u64(ptr); 676d7f5b5e0SYonghong Song err = bpf_obj_get_info_by_fd(btf_fd, &btf_info, &len); 677d7f5b5e0SYonghong Song } 678d7f5b5e0SYonghong Song 679d7f5b5e0SYonghong Song if (err || btf_info.btf_size > last_size) { 680d7f5b5e0SYonghong Song err = errno; 681d7f5b5e0SYonghong Song goto exit_free; 682d7f5b5e0SYonghong Song } 683d7f5b5e0SYonghong Song 6848461ef8bSYonghong Song *btf = btf__new((__u8 *)(long)btf_info.btf, btf_info.btf_size); 685d7f5b5e0SYonghong Song if (IS_ERR(*btf)) { 686d7f5b5e0SYonghong Song err = PTR_ERR(*btf); 687d7f5b5e0SYonghong Song *btf = NULL; 688d7f5b5e0SYonghong Song } 689d7f5b5e0SYonghong Song 690d7f5b5e0SYonghong Song exit_free: 691d7f5b5e0SYonghong Song close(btf_fd); 692d7f5b5e0SYonghong Song free(ptr); 693d7f5b5e0SYonghong Song 694d7f5b5e0SYonghong Song return err; 695d7f5b5e0SYonghong Song } 696d7f5b5e0SYonghong Song 697a6c109a6SYonghong Song int btf__get_map_kv_tids(const struct btf *btf, const char *map_name, 69896408c43SYonghong Song __u32 expected_key_size, __u32 expected_value_size, 69996408c43SYonghong Song __u32 *key_type_id, __u32 *value_type_id) 70096408c43SYonghong Song { 70196408c43SYonghong Song const struct btf_type *container_type; 70296408c43SYonghong Song const struct btf_member *key, *value; 70396408c43SYonghong Song const size_t max_name = 256; 70496408c43SYonghong Song char container_name[max_name]; 70596408c43SYonghong Song __s64 key_size, value_size; 70696408c43SYonghong Song __s32 container_id; 70796408c43SYonghong Song 70896408c43SYonghong Song if (snprintf(container_name, max_name, "____btf_map_%s", map_name) == 70996408c43SYonghong Song max_name) { 710*be18010eSKefeng Wang pr_warn("map:%s length of '____btf_map_%s' is too long\n", 71196408c43SYonghong Song map_name, map_name); 71296408c43SYonghong Song return -EINVAL; 71396408c43SYonghong Song } 71496408c43SYonghong Song 71596408c43SYonghong Song container_id = btf__find_by_name(btf, container_name); 71696408c43SYonghong Song if (container_id < 0) { 717f7748e29SYonghong Song pr_debug("map:%s container_name:%s cannot be found in BTF. Missing BPF_ANNOTATE_KV_PAIR?\n", 71896408c43SYonghong Song map_name, container_name); 71996408c43SYonghong Song return container_id; 72096408c43SYonghong Song } 72196408c43SYonghong Song 72296408c43SYonghong Song container_type = btf__type_by_id(btf, container_id); 72396408c43SYonghong Song if (!container_type) { 724*be18010eSKefeng Wang pr_warn("map:%s cannot find BTF type for container_id:%u\n", 72596408c43SYonghong Song map_name, container_id); 72696408c43SYonghong Song return -EINVAL; 72796408c43SYonghong Song } 72896408c43SYonghong Song 729b03bc685SAndrii Nakryiko if (!btf_is_struct(container_type) || btf_vlen(container_type) < 2) { 730*be18010eSKefeng Wang pr_warn("map:%s container_name:%s is an invalid container struct\n", 73196408c43SYonghong Song map_name, container_name); 73296408c43SYonghong Song return -EINVAL; 73396408c43SYonghong Song } 73496408c43SYonghong Song 735b03bc685SAndrii Nakryiko key = btf_members(container_type); 73696408c43SYonghong Song value = key + 1; 73796408c43SYonghong Song 73896408c43SYonghong Song key_size = btf__resolve_size(btf, key->type); 73996408c43SYonghong Song if (key_size < 0) { 740*be18010eSKefeng Wang pr_warn("map:%s invalid BTF key_type_size\n", map_name); 74196408c43SYonghong Song return key_size; 74296408c43SYonghong Song } 74396408c43SYonghong Song 74496408c43SYonghong Song if (expected_key_size != key_size) { 745*be18010eSKefeng Wang pr_warn("map:%s btf_key_type_size:%u != map_def_key_size:%u\n", 74696408c43SYonghong Song map_name, (__u32)key_size, expected_key_size); 74796408c43SYonghong Song return -EINVAL; 74896408c43SYonghong Song } 74996408c43SYonghong Song 75096408c43SYonghong Song value_size = btf__resolve_size(btf, value->type); 75196408c43SYonghong Song if (value_size < 0) { 752*be18010eSKefeng Wang pr_warn("map:%s invalid BTF value_type_size\n", map_name); 75396408c43SYonghong Song return value_size; 75496408c43SYonghong Song } 75596408c43SYonghong Song 75696408c43SYonghong Song if (expected_value_size != value_size) { 757*be18010eSKefeng Wang pr_warn("map:%s btf_value_type_size:%u != map_def_value_size:%u\n", 75896408c43SYonghong Song map_name, (__u32)value_size, expected_value_size); 75996408c43SYonghong Song return -EINVAL; 76096408c43SYonghong Song } 76196408c43SYonghong Song 76296408c43SYonghong Song *key_type_id = key->type; 76396408c43SYonghong Song *value_type_id = value->type; 76496408c43SYonghong Song 76596408c43SYonghong Song return 0; 76696408c43SYonghong Song } 76796408c43SYonghong Song 768ae4ab4b4SAndrii Nakryiko struct btf_ext_sec_setup_param { 7693d650141SMartin KaFai Lau __u32 off; 7703d650141SMartin KaFai Lau __u32 len; 7713d650141SMartin KaFai Lau __u32 min_rec_size; 7723d650141SMartin KaFai Lau struct btf_ext_info *ext_info; 7733d650141SMartin KaFai Lau const char *desc; 7743d650141SMartin KaFai Lau }; 7753d650141SMartin KaFai Lau 776ae4ab4b4SAndrii Nakryiko static int btf_ext_setup_info(struct btf_ext *btf_ext, 777ae4ab4b4SAndrii Nakryiko struct btf_ext_sec_setup_param *ext_sec) 7782993e051SYonghong Song { 7793d650141SMartin KaFai Lau const struct btf_ext_info_sec *sinfo; 7803d650141SMartin KaFai Lau struct btf_ext_info *ext_info; 781f0187f0bSMartin KaFai Lau __u32 info_left, record_size; 782f0187f0bSMartin KaFai Lau /* The start of the info sec (including the __u32 record_size). */ 783ae4ab4b4SAndrii Nakryiko void *info; 784f0187f0bSMartin KaFai Lau 7854cedc0daSAndrii Nakryiko if (ext_sec->len == 0) 7864cedc0daSAndrii Nakryiko return 0; 7874cedc0daSAndrii Nakryiko 7883d650141SMartin KaFai Lau if (ext_sec->off & 0x03) { 7898461ef8bSYonghong Song pr_debug(".BTF.ext %s section is not aligned to 4 bytes\n", 7903d650141SMartin KaFai Lau ext_sec->desc); 791f0187f0bSMartin KaFai Lau return -EINVAL; 792f0187f0bSMartin KaFai Lau } 793f0187f0bSMartin KaFai Lau 794ae4ab4b4SAndrii Nakryiko info = btf_ext->data + btf_ext->hdr->hdr_len + ext_sec->off; 795ae4ab4b4SAndrii Nakryiko info_left = ext_sec->len; 796ae4ab4b4SAndrii Nakryiko 797ae4ab4b4SAndrii Nakryiko if (btf_ext->data + btf_ext->data_size < info + ext_sec->len) { 7988461ef8bSYonghong Song pr_debug("%s section (off:%u len:%u) is beyond the end of the ELF section .BTF.ext\n", 7993d650141SMartin KaFai Lau ext_sec->desc, ext_sec->off, ext_sec->len); 800f0187f0bSMartin KaFai Lau return -EINVAL; 801f0187f0bSMartin KaFai Lau } 802f0187f0bSMartin KaFai Lau 8033d650141SMartin KaFai Lau /* At least a record size */ 804f0187f0bSMartin KaFai Lau if (info_left < sizeof(__u32)) { 8058461ef8bSYonghong Song pr_debug(".BTF.ext %s record size not found\n", ext_sec->desc); 8062993e051SYonghong Song return -EINVAL; 8072993e051SYonghong Song } 8082993e051SYonghong Song 809f0187f0bSMartin KaFai Lau /* The record size needs to meet the minimum standard */ 810f0187f0bSMartin KaFai Lau record_size = *(__u32 *)info; 8113d650141SMartin KaFai Lau if (record_size < ext_sec->min_rec_size || 812f0187f0bSMartin KaFai Lau record_size & 0x03) { 8138461ef8bSYonghong Song pr_debug("%s section in .BTF.ext has invalid record size %u\n", 8143d650141SMartin KaFai Lau ext_sec->desc, record_size); 8152993e051SYonghong Song return -EINVAL; 8162993e051SYonghong Song } 8172993e051SYonghong Song 818f0187f0bSMartin KaFai Lau sinfo = info + sizeof(__u32); 819f0187f0bSMartin KaFai Lau info_left -= sizeof(__u32); 8202993e051SYonghong Song 8213d650141SMartin KaFai Lau /* If no records, return failure now so .BTF.ext won't be used. */ 822f0187f0bSMartin KaFai Lau if (!info_left) { 8238461ef8bSYonghong Song pr_debug("%s section in .BTF.ext has no records", ext_sec->desc); 8242993e051SYonghong Song return -EINVAL; 8252993e051SYonghong Song } 8262993e051SYonghong Song 827f0187f0bSMartin KaFai Lau while (info_left) { 8283d650141SMartin KaFai Lau unsigned int sec_hdrlen = sizeof(struct btf_ext_info_sec); 829f0187f0bSMartin KaFai Lau __u64 total_record_size; 830f0187f0bSMartin KaFai Lau __u32 num_records; 831f0187f0bSMartin KaFai Lau 832f0187f0bSMartin KaFai Lau if (info_left < sec_hdrlen) { 8338461ef8bSYonghong Song pr_debug("%s section header is not found in .BTF.ext\n", 8343d650141SMartin KaFai Lau ext_sec->desc); 8352993e051SYonghong Song return -EINVAL; 8362993e051SYonghong Song } 8372993e051SYonghong Song 8383d650141SMartin KaFai Lau num_records = sinfo->num_info; 8392993e051SYonghong Song if (num_records == 0) { 8408461ef8bSYonghong Song pr_debug("%s section has incorrect num_records in .BTF.ext\n", 8413d650141SMartin KaFai Lau ext_sec->desc); 8422993e051SYonghong Song return -EINVAL; 8432993e051SYonghong Song } 8442993e051SYonghong Song 8452993e051SYonghong Song total_record_size = sec_hdrlen + 8462993e051SYonghong Song (__u64)num_records * record_size; 847f0187f0bSMartin KaFai Lau if (info_left < total_record_size) { 8488461ef8bSYonghong Song pr_debug("%s section has incorrect num_records in .BTF.ext\n", 8493d650141SMartin KaFai Lau ext_sec->desc); 8502993e051SYonghong Song return -EINVAL; 8512993e051SYonghong Song } 8522993e051SYonghong Song 853f0187f0bSMartin KaFai Lau info_left -= total_record_size; 8542993e051SYonghong Song sinfo = (void *)sinfo + total_record_size; 8552993e051SYonghong Song } 8562993e051SYonghong Song 8573d650141SMartin KaFai Lau ext_info = ext_sec->ext_info; 8583d650141SMartin KaFai Lau ext_info->len = ext_sec->len - sizeof(__u32); 8593d650141SMartin KaFai Lau ext_info->rec_size = record_size; 860ae4ab4b4SAndrii Nakryiko ext_info->info = info + sizeof(__u32); 861f0187f0bSMartin KaFai Lau 8622993e051SYonghong Song return 0; 8632993e051SYonghong Song } 8642993e051SYonghong Song 865ae4ab4b4SAndrii Nakryiko static int btf_ext_setup_func_info(struct btf_ext *btf_ext) 8663d650141SMartin KaFai Lau { 867ae4ab4b4SAndrii Nakryiko struct btf_ext_sec_setup_param param = { 868ae4ab4b4SAndrii Nakryiko .off = btf_ext->hdr->func_info_off, 869ae4ab4b4SAndrii Nakryiko .len = btf_ext->hdr->func_info_len, 8703d650141SMartin KaFai Lau .min_rec_size = sizeof(struct bpf_func_info_min), 8713d650141SMartin KaFai Lau .ext_info = &btf_ext->func_info, 8723d650141SMartin KaFai Lau .desc = "func_info" 8733d650141SMartin KaFai Lau }; 8743d650141SMartin KaFai Lau 875ae4ab4b4SAndrii Nakryiko return btf_ext_setup_info(btf_ext, ¶m); 8763d650141SMartin KaFai Lau } 8773d650141SMartin KaFai Lau 878ae4ab4b4SAndrii Nakryiko static int btf_ext_setup_line_info(struct btf_ext *btf_ext) 8793d650141SMartin KaFai Lau { 880ae4ab4b4SAndrii Nakryiko struct btf_ext_sec_setup_param param = { 881ae4ab4b4SAndrii Nakryiko .off = btf_ext->hdr->line_info_off, 882ae4ab4b4SAndrii Nakryiko .len = btf_ext->hdr->line_info_len, 8833d650141SMartin KaFai Lau .min_rec_size = sizeof(struct bpf_line_info_min), 8843d650141SMartin KaFai Lau .ext_info = &btf_ext->line_info, 8853d650141SMartin KaFai Lau .desc = "line_info", 8863d650141SMartin KaFai Lau }; 8873d650141SMartin KaFai Lau 888ae4ab4b4SAndrii Nakryiko return btf_ext_setup_info(btf_ext, ¶m); 8893d650141SMartin KaFai Lau } 8903d650141SMartin KaFai Lau 891511bb008SAndrii Nakryiko static int btf_ext_setup_field_reloc(struct btf_ext *btf_ext) 8924cedc0daSAndrii Nakryiko { 8934cedc0daSAndrii Nakryiko struct btf_ext_sec_setup_param param = { 894511bb008SAndrii Nakryiko .off = btf_ext->hdr->field_reloc_off, 895511bb008SAndrii Nakryiko .len = btf_ext->hdr->field_reloc_len, 896511bb008SAndrii Nakryiko .min_rec_size = sizeof(struct bpf_field_reloc), 897511bb008SAndrii Nakryiko .ext_info = &btf_ext->field_reloc_info, 898511bb008SAndrii Nakryiko .desc = "field_reloc", 8994cedc0daSAndrii Nakryiko }; 9004cedc0daSAndrii Nakryiko 9014cedc0daSAndrii Nakryiko return btf_ext_setup_info(btf_ext, ¶m); 9024cedc0daSAndrii Nakryiko } 9034cedc0daSAndrii Nakryiko 9048461ef8bSYonghong Song static int btf_ext_parse_hdr(__u8 *data, __u32 data_size) 9052993e051SYonghong Song { 9062993e051SYonghong Song const struct btf_ext_header *hdr = (struct btf_ext_header *)data; 9072993e051SYonghong Song 9084cedc0daSAndrii Nakryiko if (data_size < offsetofend(struct btf_ext_header, hdr_len) || 9092993e051SYonghong Song data_size < hdr->hdr_len) { 9108461ef8bSYonghong Song pr_debug("BTF.ext header not found"); 9112993e051SYonghong Song return -EINVAL; 9122993e051SYonghong Song } 9132993e051SYonghong Song 9142993e051SYonghong Song if (hdr->magic != BTF_MAGIC) { 9158461ef8bSYonghong Song pr_debug("Invalid BTF.ext magic:%x\n", hdr->magic); 9162993e051SYonghong Song return -EINVAL; 9172993e051SYonghong Song } 9182993e051SYonghong Song 9192993e051SYonghong Song if (hdr->version != BTF_VERSION) { 9208461ef8bSYonghong Song pr_debug("Unsupported BTF.ext version:%u\n", hdr->version); 9212993e051SYonghong Song return -ENOTSUP; 9222993e051SYonghong Song } 9232993e051SYonghong Song 9242993e051SYonghong Song if (hdr->flags) { 9258461ef8bSYonghong Song pr_debug("Unsupported BTF.ext flags:%x\n", hdr->flags); 9262993e051SYonghong Song return -ENOTSUP; 9272993e051SYonghong Song } 9282993e051SYonghong Song 929f0187f0bSMartin KaFai Lau if (data_size == hdr->hdr_len) { 9308461ef8bSYonghong Song pr_debug("BTF.ext has no data\n"); 9312993e051SYonghong Song return -EINVAL; 9322993e051SYonghong Song } 9332993e051SYonghong Song 934f0187f0bSMartin KaFai Lau return 0; 9352993e051SYonghong Song } 9362993e051SYonghong Song 9372993e051SYonghong Song void btf_ext__free(struct btf_ext *btf_ext) 9382993e051SYonghong Song { 9392993e051SYonghong Song if (!btf_ext) 9402993e051SYonghong Song return; 941ae4ab4b4SAndrii Nakryiko free(btf_ext->data); 9422993e051SYonghong Song free(btf_ext); 9432993e051SYonghong Song } 9442993e051SYonghong Song 9458461ef8bSYonghong Song struct btf_ext *btf_ext__new(__u8 *data, __u32 size) 9462993e051SYonghong Song { 9472993e051SYonghong Song struct btf_ext *btf_ext; 9482993e051SYonghong Song int err; 9492993e051SYonghong Song 9508461ef8bSYonghong Song err = btf_ext_parse_hdr(data, size); 9512993e051SYonghong Song if (err) 9522993e051SYonghong Song return ERR_PTR(err); 9532993e051SYonghong Song 9542993e051SYonghong Song btf_ext = calloc(1, sizeof(struct btf_ext)); 9552993e051SYonghong Song if (!btf_ext) 9562993e051SYonghong Song return ERR_PTR(-ENOMEM); 9572993e051SYonghong Song 958ae4ab4b4SAndrii Nakryiko btf_ext->data_size = size; 959ae4ab4b4SAndrii Nakryiko btf_ext->data = malloc(size); 960ae4ab4b4SAndrii Nakryiko if (!btf_ext->data) { 961ae4ab4b4SAndrii Nakryiko err = -ENOMEM; 962ae4ab4b4SAndrii Nakryiko goto done; 9632993e051SYonghong Song } 964ae4ab4b4SAndrii Nakryiko memcpy(btf_ext->data, data, size); 9652993e051SYonghong Song 9664cedc0daSAndrii Nakryiko if (btf_ext->hdr->hdr_len < 9674cedc0daSAndrii Nakryiko offsetofend(struct btf_ext_header, line_info_len)) 9684cedc0daSAndrii Nakryiko goto done; 969ae4ab4b4SAndrii Nakryiko err = btf_ext_setup_func_info(btf_ext); 970ae4ab4b4SAndrii Nakryiko if (err) 971ae4ab4b4SAndrii Nakryiko goto done; 972ae4ab4b4SAndrii Nakryiko 973ae4ab4b4SAndrii Nakryiko err = btf_ext_setup_line_info(btf_ext); 974ae4ab4b4SAndrii Nakryiko if (err) 975ae4ab4b4SAndrii Nakryiko goto done; 976ae4ab4b4SAndrii Nakryiko 9774cedc0daSAndrii Nakryiko if (btf_ext->hdr->hdr_len < 978511bb008SAndrii Nakryiko offsetofend(struct btf_ext_header, field_reloc_len)) 9794cedc0daSAndrii Nakryiko goto done; 980511bb008SAndrii Nakryiko err = btf_ext_setup_field_reloc(btf_ext); 9814cedc0daSAndrii Nakryiko if (err) 9824cedc0daSAndrii Nakryiko goto done; 9834cedc0daSAndrii Nakryiko 984ae4ab4b4SAndrii Nakryiko done: 9853d650141SMartin KaFai Lau if (err) { 9863d650141SMartin KaFai Lau btf_ext__free(btf_ext); 9873d650141SMartin KaFai Lau return ERR_PTR(err); 9883d650141SMartin KaFai Lau } 9893d650141SMartin KaFai Lau 9902993e051SYonghong Song return btf_ext; 9912993e051SYonghong Song } 9922993e051SYonghong Song 993ae4ab4b4SAndrii Nakryiko const void *btf_ext__get_raw_data(const struct btf_ext *btf_ext, __u32 *size) 994ae4ab4b4SAndrii Nakryiko { 995ae4ab4b4SAndrii Nakryiko *size = btf_ext->data_size; 996ae4ab4b4SAndrii Nakryiko return btf_ext->data; 997ae4ab4b4SAndrii Nakryiko } 998ae4ab4b4SAndrii Nakryiko 9993d650141SMartin KaFai Lau static int btf_ext_reloc_info(const struct btf *btf, 10003d650141SMartin KaFai Lau const struct btf_ext_info *ext_info, 10012993e051SYonghong Song const char *sec_name, __u32 insns_cnt, 10023d650141SMartin KaFai Lau void **info, __u32 *cnt) 10032993e051SYonghong Song { 10043d650141SMartin KaFai Lau __u32 sec_hdrlen = sizeof(struct btf_ext_info_sec); 10053d650141SMartin KaFai Lau __u32 i, record_size, existing_len, records_len; 10063d650141SMartin KaFai Lau struct btf_ext_info_sec *sinfo; 10072993e051SYonghong Song const char *info_sec_name; 10082993e051SYonghong Song __u64 remain_len; 10092993e051SYonghong Song void *data; 10102993e051SYonghong Song 10113d650141SMartin KaFai Lau record_size = ext_info->rec_size; 10123d650141SMartin KaFai Lau sinfo = ext_info->info; 10133d650141SMartin KaFai Lau remain_len = ext_info->len; 10142993e051SYonghong Song while (remain_len > 0) { 10153d650141SMartin KaFai Lau records_len = sinfo->num_info * record_size; 10162993e051SYonghong Song info_sec_name = btf__name_by_offset(btf, sinfo->sec_name_off); 10172993e051SYonghong Song if (strcmp(info_sec_name, sec_name)) { 10182993e051SYonghong Song remain_len -= sec_hdrlen + records_len; 10192993e051SYonghong Song sinfo = (void *)sinfo + sec_hdrlen + records_len; 10202993e051SYonghong Song continue; 10212993e051SYonghong Song } 10222993e051SYonghong Song 10233d650141SMartin KaFai Lau existing_len = (*cnt) * record_size; 10243d650141SMartin KaFai Lau data = realloc(*info, existing_len + records_len); 10252993e051SYonghong Song if (!data) 10262993e051SYonghong Song return -ENOMEM; 10272993e051SYonghong Song 10283d650141SMartin KaFai Lau memcpy(data + existing_len, sinfo->data, records_len); 102984ecc1f9SMartin KaFai Lau /* adjust insn_off only, the rest data will be passed 10302993e051SYonghong Song * to the kernel. 10312993e051SYonghong Song */ 10323d650141SMartin KaFai Lau for (i = 0; i < sinfo->num_info; i++) { 10333d650141SMartin KaFai Lau __u32 *insn_off; 10342993e051SYonghong Song 10353d650141SMartin KaFai Lau insn_off = data + existing_len + (i * record_size); 10363d650141SMartin KaFai Lau *insn_off = *insn_off / sizeof(struct bpf_insn) + 10372993e051SYonghong Song insns_cnt; 10382993e051SYonghong Song } 10393d650141SMartin KaFai Lau *info = data; 10403d650141SMartin KaFai Lau *cnt += sinfo->num_info; 10412993e051SYonghong Song return 0; 10422993e051SYonghong Song } 10432993e051SYonghong Song 1044f0187f0bSMartin KaFai Lau return -ENOENT; 1045f0187f0bSMartin KaFai Lau } 1046f0187f0bSMartin KaFai Lau 1047ae4ab4b4SAndrii Nakryiko int btf_ext__reloc_func_info(const struct btf *btf, 1048ae4ab4b4SAndrii Nakryiko const struct btf_ext *btf_ext, 10493d650141SMartin KaFai Lau const char *sec_name, __u32 insns_cnt, 10503d650141SMartin KaFai Lau void **func_info, __u32 *cnt) 10513d650141SMartin KaFai Lau { 10523d650141SMartin KaFai Lau return btf_ext_reloc_info(btf, &btf_ext->func_info, sec_name, 10533d650141SMartin KaFai Lau insns_cnt, func_info, cnt); 10543d650141SMartin KaFai Lau } 10553d650141SMartin KaFai Lau 1056ae4ab4b4SAndrii Nakryiko int btf_ext__reloc_line_info(const struct btf *btf, 1057ae4ab4b4SAndrii Nakryiko const struct btf_ext *btf_ext, 10583d650141SMartin KaFai Lau const char *sec_name, __u32 insns_cnt, 10593d650141SMartin KaFai Lau void **line_info, __u32 *cnt) 10603d650141SMartin KaFai Lau { 10613d650141SMartin KaFai Lau return btf_ext_reloc_info(btf, &btf_ext->line_info, sec_name, 10623d650141SMartin KaFai Lau insns_cnt, line_info, cnt); 10633d650141SMartin KaFai Lau } 10643d650141SMartin KaFai Lau 1065f0187f0bSMartin KaFai Lau __u32 btf_ext__func_info_rec_size(const struct btf_ext *btf_ext) 1066f0187f0bSMartin KaFai Lau { 10673d650141SMartin KaFai Lau return btf_ext->func_info.rec_size; 10683d650141SMartin KaFai Lau } 10693d650141SMartin KaFai Lau 10703d650141SMartin KaFai Lau __u32 btf_ext__line_info_rec_size(const struct btf_ext *btf_ext) 10713d650141SMartin KaFai Lau { 10723d650141SMartin KaFai Lau return btf_ext->line_info.rec_size; 10732993e051SYonghong Song } 1074d5caef5bSAndrii Nakryiko 1075d5caef5bSAndrii Nakryiko struct btf_dedup; 1076d5caef5bSAndrii Nakryiko 1077d5caef5bSAndrii Nakryiko static struct btf_dedup *btf_dedup_new(struct btf *btf, struct btf_ext *btf_ext, 1078d5caef5bSAndrii Nakryiko const struct btf_dedup_opts *opts); 1079d5caef5bSAndrii Nakryiko static void btf_dedup_free(struct btf_dedup *d); 1080d5caef5bSAndrii Nakryiko static int btf_dedup_strings(struct btf_dedup *d); 1081d5caef5bSAndrii Nakryiko static int btf_dedup_prim_types(struct btf_dedup *d); 1082d5caef5bSAndrii Nakryiko static int btf_dedup_struct_types(struct btf_dedup *d); 1083d5caef5bSAndrii Nakryiko static int btf_dedup_ref_types(struct btf_dedup *d); 1084d5caef5bSAndrii Nakryiko static int btf_dedup_compact_types(struct btf_dedup *d); 1085d5caef5bSAndrii Nakryiko static int btf_dedup_remap_types(struct btf_dedup *d); 1086d5caef5bSAndrii Nakryiko 1087d5caef5bSAndrii Nakryiko /* 1088d5caef5bSAndrii Nakryiko * Deduplicate BTF types and strings. 1089d5caef5bSAndrii Nakryiko * 1090d5caef5bSAndrii Nakryiko * BTF dedup algorithm takes as an input `struct btf` representing `.BTF` ELF 1091d5caef5bSAndrii Nakryiko * section with all BTF type descriptors and string data. It overwrites that 1092d5caef5bSAndrii Nakryiko * memory in-place with deduplicated types and strings without any loss of 1093d5caef5bSAndrii Nakryiko * information. If optional `struct btf_ext` representing '.BTF.ext' ELF section 1094d5caef5bSAndrii Nakryiko * is provided, all the strings referenced from .BTF.ext section are honored 1095d5caef5bSAndrii Nakryiko * and updated to point to the right offsets after deduplication. 1096d5caef5bSAndrii Nakryiko * 1097d5caef5bSAndrii Nakryiko * If function returns with error, type/string data might be garbled and should 1098d5caef5bSAndrii Nakryiko * be discarded. 1099d5caef5bSAndrii Nakryiko * 1100d5caef5bSAndrii Nakryiko * More verbose and detailed description of both problem btf_dedup is solving, 1101d5caef5bSAndrii Nakryiko * as well as solution could be found at: 1102d5caef5bSAndrii Nakryiko * https://facebookmicrosites.github.io/bpf/blog/2018/11/14/btf-enhancement.html 1103d5caef5bSAndrii Nakryiko * 1104d5caef5bSAndrii Nakryiko * Problem description and justification 1105d5caef5bSAndrii Nakryiko * ===================================== 1106d5caef5bSAndrii Nakryiko * 1107d5caef5bSAndrii Nakryiko * BTF type information is typically emitted either as a result of conversion 1108d5caef5bSAndrii Nakryiko * from DWARF to BTF or directly by compiler. In both cases, each compilation 1109d5caef5bSAndrii Nakryiko * unit contains information about a subset of all the types that are used 1110d5caef5bSAndrii Nakryiko * in an application. These subsets are frequently overlapping and contain a lot 1111d5caef5bSAndrii Nakryiko * of duplicated information when later concatenated together into a single 1112d5caef5bSAndrii Nakryiko * binary. This algorithm ensures that each unique type is represented by single 1113d5caef5bSAndrii Nakryiko * BTF type descriptor, greatly reducing resulting size of BTF data. 1114d5caef5bSAndrii Nakryiko * 1115d5caef5bSAndrii Nakryiko * Compilation unit isolation and subsequent duplication of data is not the only 1116d5caef5bSAndrii Nakryiko * problem. The same type hierarchy (e.g., struct and all the type that struct 1117d5caef5bSAndrii Nakryiko * references) in different compilation units can be represented in BTF to 1118d5caef5bSAndrii Nakryiko * various degrees of completeness (or, rather, incompleteness) due to 1119d5caef5bSAndrii Nakryiko * struct/union forward declarations. 1120d5caef5bSAndrii Nakryiko * 1121d5caef5bSAndrii Nakryiko * Let's take a look at an example, that we'll use to better understand the 1122d5caef5bSAndrii Nakryiko * problem (and solution). Suppose we have two compilation units, each using 1123d5caef5bSAndrii Nakryiko * same `struct S`, but each of them having incomplete type information about 1124d5caef5bSAndrii Nakryiko * struct's fields: 1125d5caef5bSAndrii Nakryiko * 1126d5caef5bSAndrii Nakryiko * // CU #1: 1127d5caef5bSAndrii Nakryiko * struct S; 1128d5caef5bSAndrii Nakryiko * struct A { 1129d5caef5bSAndrii Nakryiko * int a; 1130d5caef5bSAndrii Nakryiko * struct A* self; 1131d5caef5bSAndrii Nakryiko * struct S* parent; 1132d5caef5bSAndrii Nakryiko * }; 1133d5caef5bSAndrii Nakryiko * struct B; 1134d5caef5bSAndrii Nakryiko * struct S { 1135d5caef5bSAndrii Nakryiko * struct A* a_ptr; 1136d5caef5bSAndrii Nakryiko * struct B* b_ptr; 1137d5caef5bSAndrii Nakryiko * }; 1138d5caef5bSAndrii Nakryiko * 1139d5caef5bSAndrii Nakryiko * // CU #2: 1140d5caef5bSAndrii Nakryiko * struct S; 1141d5caef5bSAndrii Nakryiko * struct A; 1142d5caef5bSAndrii Nakryiko * struct B { 1143d5caef5bSAndrii Nakryiko * int b; 1144d5caef5bSAndrii Nakryiko * struct B* self; 1145d5caef5bSAndrii Nakryiko * struct S* parent; 1146d5caef5bSAndrii Nakryiko * }; 1147d5caef5bSAndrii Nakryiko * struct S { 1148d5caef5bSAndrii Nakryiko * struct A* a_ptr; 1149d5caef5bSAndrii Nakryiko * struct B* b_ptr; 1150d5caef5bSAndrii Nakryiko * }; 1151d5caef5bSAndrii Nakryiko * 1152d5caef5bSAndrii Nakryiko * In case of CU #1, BTF data will know only that `struct B` exist (but no 1153d5caef5bSAndrii Nakryiko * more), but will know the complete type information about `struct A`. While 1154d5caef5bSAndrii Nakryiko * for CU #2, it will know full type information about `struct B`, but will 1155d5caef5bSAndrii Nakryiko * only know about forward declaration of `struct A` (in BTF terms, it will 1156d5caef5bSAndrii Nakryiko * have `BTF_KIND_FWD` type descriptor with name `B`). 1157d5caef5bSAndrii Nakryiko * 1158d5caef5bSAndrii Nakryiko * This compilation unit isolation means that it's possible that there is no 1159d5caef5bSAndrii Nakryiko * single CU with complete type information describing structs `S`, `A`, and 1160d5caef5bSAndrii Nakryiko * `B`. Also, we might get tons of duplicated and redundant type information. 1161d5caef5bSAndrii Nakryiko * 1162d5caef5bSAndrii Nakryiko * Additional complication we need to keep in mind comes from the fact that 1163d5caef5bSAndrii Nakryiko * types, in general, can form graphs containing cycles, not just DAGs. 1164d5caef5bSAndrii Nakryiko * 1165d5caef5bSAndrii Nakryiko * While algorithm does deduplication, it also merges and resolves type 1166d5caef5bSAndrii Nakryiko * information (unless disabled throught `struct btf_opts`), whenever possible. 1167d5caef5bSAndrii Nakryiko * E.g., in the example above with two compilation units having partial type 1168d5caef5bSAndrii Nakryiko * information for structs `A` and `B`, the output of algorithm will emit 1169d5caef5bSAndrii Nakryiko * a single copy of each BTF type that describes structs `A`, `B`, and `S` 1170d5caef5bSAndrii Nakryiko * (as well as type information for `int` and pointers), as if they were defined 1171d5caef5bSAndrii Nakryiko * in a single compilation unit as: 1172d5caef5bSAndrii Nakryiko * 1173d5caef5bSAndrii Nakryiko * struct A { 1174d5caef5bSAndrii Nakryiko * int a; 1175d5caef5bSAndrii Nakryiko * struct A* self; 1176d5caef5bSAndrii Nakryiko * struct S* parent; 1177d5caef5bSAndrii Nakryiko * }; 1178d5caef5bSAndrii Nakryiko * struct B { 1179d5caef5bSAndrii Nakryiko * int b; 1180d5caef5bSAndrii Nakryiko * struct B* self; 1181d5caef5bSAndrii Nakryiko * struct S* parent; 1182d5caef5bSAndrii Nakryiko * }; 1183d5caef5bSAndrii Nakryiko * struct S { 1184d5caef5bSAndrii Nakryiko * struct A* a_ptr; 1185d5caef5bSAndrii Nakryiko * struct B* b_ptr; 1186d5caef5bSAndrii Nakryiko * }; 1187d5caef5bSAndrii Nakryiko * 1188d5caef5bSAndrii Nakryiko * Algorithm summary 1189d5caef5bSAndrii Nakryiko * ================= 1190d5caef5bSAndrii Nakryiko * 1191d5caef5bSAndrii Nakryiko * Algorithm completes its work in 6 separate passes: 1192d5caef5bSAndrii Nakryiko * 1193d5caef5bSAndrii Nakryiko * 1. Strings deduplication. 1194d5caef5bSAndrii Nakryiko * 2. Primitive types deduplication (int, enum, fwd). 1195d5caef5bSAndrii Nakryiko * 3. Struct/union types deduplication. 1196d5caef5bSAndrii Nakryiko * 4. Reference types deduplication (pointers, typedefs, arrays, funcs, func 1197d5caef5bSAndrii Nakryiko * protos, and const/volatile/restrict modifiers). 1198d5caef5bSAndrii Nakryiko * 5. Types compaction. 1199d5caef5bSAndrii Nakryiko * 6. Types remapping. 1200d5caef5bSAndrii Nakryiko * 1201d5caef5bSAndrii Nakryiko * Algorithm determines canonical type descriptor, which is a single 1202d5caef5bSAndrii Nakryiko * representative type for each truly unique type. This canonical type is the 1203d5caef5bSAndrii Nakryiko * one that will go into final deduplicated BTF type information. For 1204d5caef5bSAndrii Nakryiko * struct/unions, it is also the type that algorithm will merge additional type 1205d5caef5bSAndrii Nakryiko * information into (while resolving FWDs), as it discovers it from data in 1206d5caef5bSAndrii Nakryiko * other CUs. Each input BTF type eventually gets either mapped to itself, if 1207d5caef5bSAndrii Nakryiko * that type is canonical, or to some other type, if that type is equivalent 1208d5caef5bSAndrii Nakryiko * and was chosen as canonical representative. This mapping is stored in 1209d5caef5bSAndrii Nakryiko * `btf_dedup->map` array. This map is also used to record STRUCT/UNION that 1210d5caef5bSAndrii Nakryiko * FWD type got resolved to. 1211d5caef5bSAndrii Nakryiko * 1212d5caef5bSAndrii Nakryiko * To facilitate fast discovery of canonical types, we also maintain canonical 1213d5caef5bSAndrii Nakryiko * index (`btf_dedup->dedup_table`), which maps type descriptor's signature hash 1214d5caef5bSAndrii Nakryiko * (i.e., hashed kind, name, size, fields, etc) into a list of canonical types 1215d5caef5bSAndrii Nakryiko * that match that signature. With sufficiently good choice of type signature 1216d5caef5bSAndrii Nakryiko * hashing function, we can limit number of canonical types for each unique type 1217d5caef5bSAndrii Nakryiko * signature to a very small number, allowing to find canonical type for any 1218d5caef5bSAndrii Nakryiko * duplicated type very quickly. 1219d5caef5bSAndrii Nakryiko * 1220d5caef5bSAndrii Nakryiko * Struct/union deduplication is the most critical part and algorithm for 1221d5caef5bSAndrii Nakryiko * deduplicating structs/unions is described in greater details in comments for 1222d5caef5bSAndrii Nakryiko * `btf_dedup_is_equiv` function. 1223d5caef5bSAndrii Nakryiko */ 1224d5caef5bSAndrii Nakryiko int btf__dedup(struct btf *btf, struct btf_ext *btf_ext, 1225d5caef5bSAndrii Nakryiko const struct btf_dedup_opts *opts) 1226d5caef5bSAndrii Nakryiko { 1227d5caef5bSAndrii Nakryiko struct btf_dedup *d = btf_dedup_new(btf, btf_ext, opts); 1228d5caef5bSAndrii Nakryiko int err; 1229d5caef5bSAndrii Nakryiko 1230d5caef5bSAndrii Nakryiko if (IS_ERR(d)) { 1231d5caef5bSAndrii Nakryiko pr_debug("btf_dedup_new failed: %ld", PTR_ERR(d)); 1232d5caef5bSAndrii Nakryiko return -EINVAL; 1233d5caef5bSAndrii Nakryiko } 1234d5caef5bSAndrii Nakryiko 1235d5caef5bSAndrii Nakryiko err = btf_dedup_strings(d); 1236d5caef5bSAndrii Nakryiko if (err < 0) { 1237d5caef5bSAndrii Nakryiko pr_debug("btf_dedup_strings failed:%d\n", err); 1238d5caef5bSAndrii Nakryiko goto done; 1239d5caef5bSAndrii Nakryiko } 1240d5caef5bSAndrii Nakryiko err = btf_dedup_prim_types(d); 1241d5caef5bSAndrii Nakryiko if (err < 0) { 1242d5caef5bSAndrii Nakryiko pr_debug("btf_dedup_prim_types failed:%d\n", err); 1243d5caef5bSAndrii Nakryiko goto done; 1244d5caef5bSAndrii Nakryiko } 1245d5caef5bSAndrii Nakryiko err = btf_dedup_struct_types(d); 1246d5caef5bSAndrii Nakryiko if (err < 0) { 1247d5caef5bSAndrii Nakryiko pr_debug("btf_dedup_struct_types failed:%d\n", err); 1248d5caef5bSAndrii Nakryiko goto done; 1249d5caef5bSAndrii Nakryiko } 1250d5caef5bSAndrii Nakryiko err = btf_dedup_ref_types(d); 1251d5caef5bSAndrii Nakryiko if (err < 0) { 1252d5caef5bSAndrii Nakryiko pr_debug("btf_dedup_ref_types failed:%d\n", err); 1253d5caef5bSAndrii Nakryiko goto done; 1254d5caef5bSAndrii Nakryiko } 1255d5caef5bSAndrii Nakryiko err = btf_dedup_compact_types(d); 1256d5caef5bSAndrii Nakryiko if (err < 0) { 1257d5caef5bSAndrii Nakryiko pr_debug("btf_dedup_compact_types failed:%d\n", err); 1258d5caef5bSAndrii Nakryiko goto done; 1259d5caef5bSAndrii Nakryiko } 1260d5caef5bSAndrii Nakryiko err = btf_dedup_remap_types(d); 1261d5caef5bSAndrii Nakryiko if (err < 0) { 1262d5caef5bSAndrii Nakryiko pr_debug("btf_dedup_remap_types failed:%d\n", err); 1263d5caef5bSAndrii Nakryiko goto done; 1264d5caef5bSAndrii Nakryiko } 1265d5caef5bSAndrii Nakryiko 1266d5caef5bSAndrii Nakryiko done: 1267d5caef5bSAndrii Nakryiko btf_dedup_free(d); 1268d5caef5bSAndrii Nakryiko return err; 1269d5caef5bSAndrii Nakryiko } 1270d5caef5bSAndrii Nakryiko 1271d5caef5bSAndrii Nakryiko #define BTF_UNPROCESSED_ID ((__u32)-1) 1272d5caef5bSAndrii Nakryiko #define BTF_IN_PROGRESS_ID ((__u32)-2) 1273d5caef5bSAndrii Nakryiko 1274d5caef5bSAndrii Nakryiko struct btf_dedup { 1275d5caef5bSAndrii Nakryiko /* .BTF section to be deduped in-place */ 1276d5caef5bSAndrii Nakryiko struct btf *btf; 1277d5caef5bSAndrii Nakryiko /* 1278d5caef5bSAndrii Nakryiko * Optional .BTF.ext section. When provided, any strings referenced 1279d5caef5bSAndrii Nakryiko * from it will be taken into account when deduping strings 1280d5caef5bSAndrii Nakryiko */ 1281d5caef5bSAndrii Nakryiko struct btf_ext *btf_ext; 1282d5caef5bSAndrii Nakryiko /* 1283d5caef5bSAndrii Nakryiko * This is a map from any type's signature hash to a list of possible 1284d5caef5bSAndrii Nakryiko * canonical representative type candidates. Hash collisions are 1285d5caef5bSAndrii Nakryiko * ignored, so even types of various kinds can share same list of 1286d5caef5bSAndrii Nakryiko * candidates, which is fine because we rely on subsequent 1287d5caef5bSAndrii Nakryiko * btf_xxx_equal() checks to authoritatively verify type equality. 1288d5caef5bSAndrii Nakryiko */ 12892fc3fc0bSAndrii Nakryiko struct hashmap *dedup_table; 1290d5caef5bSAndrii Nakryiko /* Canonical types map */ 1291d5caef5bSAndrii Nakryiko __u32 *map; 1292d5caef5bSAndrii Nakryiko /* Hypothetical mapping, used during type graph equivalence checks */ 1293d5caef5bSAndrii Nakryiko __u32 *hypot_map; 1294d5caef5bSAndrii Nakryiko __u32 *hypot_list; 1295d5caef5bSAndrii Nakryiko size_t hypot_cnt; 1296d5caef5bSAndrii Nakryiko size_t hypot_cap; 1297d5caef5bSAndrii Nakryiko /* Various option modifying behavior of algorithm */ 1298d5caef5bSAndrii Nakryiko struct btf_dedup_opts opts; 1299d5caef5bSAndrii Nakryiko }; 1300d5caef5bSAndrii Nakryiko 1301d5caef5bSAndrii Nakryiko struct btf_str_ptr { 1302d5caef5bSAndrii Nakryiko const char *str; 1303d5caef5bSAndrii Nakryiko __u32 new_off; 1304d5caef5bSAndrii Nakryiko bool used; 1305d5caef5bSAndrii Nakryiko }; 1306d5caef5bSAndrii Nakryiko 1307d5caef5bSAndrii Nakryiko struct btf_str_ptrs { 1308d5caef5bSAndrii Nakryiko struct btf_str_ptr *ptrs; 1309d5caef5bSAndrii Nakryiko const char *data; 1310d5caef5bSAndrii Nakryiko __u32 cnt; 1311d5caef5bSAndrii Nakryiko __u32 cap; 1312d5caef5bSAndrii Nakryiko }; 1313d5caef5bSAndrii Nakryiko 13142fc3fc0bSAndrii Nakryiko static long hash_combine(long h, long value) 1315d5caef5bSAndrii Nakryiko { 13162fc3fc0bSAndrii Nakryiko return h * 31 + value; 1317d5caef5bSAndrii Nakryiko } 1318d5caef5bSAndrii Nakryiko 13192fc3fc0bSAndrii Nakryiko #define for_each_dedup_cand(d, node, hash) \ 13202fc3fc0bSAndrii Nakryiko hashmap__for_each_key_entry(d->dedup_table, node, (void *)hash) 1321d5caef5bSAndrii Nakryiko 13222fc3fc0bSAndrii Nakryiko static int btf_dedup_table_add(struct btf_dedup *d, long hash, __u32 type_id) 1323d5caef5bSAndrii Nakryiko { 13242fc3fc0bSAndrii Nakryiko return hashmap__append(d->dedup_table, 13252fc3fc0bSAndrii Nakryiko (void *)hash, (void *)(long)type_id); 1326d5caef5bSAndrii Nakryiko } 1327d5caef5bSAndrii Nakryiko 1328d5caef5bSAndrii Nakryiko static int btf_dedup_hypot_map_add(struct btf_dedup *d, 1329d5caef5bSAndrii Nakryiko __u32 from_id, __u32 to_id) 1330d5caef5bSAndrii Nakryiko { 1331d5caef5bSAndrii Nakryiko if (d->hypot_cnt == d->hypot_cap) { 1332d5caef5bSAndrii Nakryiko __u32 *new_list; 1333d5caef5bSAndrii Nakryiko 1334d5caef5bSAndrii Nakryiko d->hypot_cap += max(16, d->hypot_cap / 2); 1335d5caef5bSAndrii Nakryiko new_list = realloc(d->hypot_list, sizeof(__u32) * d->hypot_cap); 1336d5caef5bSAndrii Nakryiko if (!new_list) 1337d5caef5bSAndrii Nakryiko return -ENOMEM; 1338d5caef5bSAndrii Nakryiko d->hypot_list = new_list; 1339d5caef5bSAndrii Nakryiko } 1340d5caef5bSAndrii Nakryiko d->hypot_list[d->hypot_cnt++] = from_id; 1341d5caef5bSAndrii Nakryiko d->hypot_map[from_id] = to_id; 1342d5caef5bSAndrii Nakryiko return 0; 1343d5caef5bSAndrii Nakryiko } 1344d5caef5bSAndrii Nakryiko 1345d5caef5bSAndrii Nakryiko static void btf_dedup_clear_hypot_map(struct btf_dedup *d) 1346d5caef5bSAndrii Nakryiko { 1347d5caef5bSAndrii Nakryiko int i; 1348d5caef5bSAndrii Nakryiko 1349d5caef5bSAndrii Nakryiko for (i = 0; i < d->hypot_cnt; i++) 1350d5caef5bSAndrii Nakryiko d->hypot_map[d->hypot_list[i]] = BTF_UNPROCESSED_ID; 1351d5caef5bSAndrii Nakryiko d->hypot_cnt = 0; 1352d5caef5bSAndrii Nakryiko } 1353d5caef5bSAndrii Nakryiko 1354d5caef5bSAndrii Nakryiko static void btf_dedup_free(struct btf_dedup *d) 1355d5caef5bSAndrii Nakryiko { 13562fc3fc0bSAndrii Nakryiko hashmap__free(d->dedup_table); 13572fc3fc0bSAndrii Nakryiko d->dedup_table = NULL; 1358d5caef5bSAndrii Nakryiko 1359d5caef5bSAndrii Nakryiko free(d->map); 1360d5caef5bSAndrii Nakryiko d->map = NULL; 1361d5caef5bSAndrii Nakryiko 1362d5caef5bSAndrii Nakryiko free(d->hypot_map); 1363d5caef5bSAndrii Nakryiko d->hypot_map = NULL; 1364d5caef5bSAndrii Nakryiko 1365d5caef5bSAndrii Nakryiko free(d->hypot_list); 1366d5caef5bSAndrii Nakryiko d->hypot_list = NULL; 1367d5caef5bSAndrii Nakryiko 1368d5caef5bSAndrii Nakryiko free(d); 1369d5caef5bSAndrii Nakryiko } 1370d5caef5bSAndrii Nakryiko 13712fc3fc0bSAndrii Nakryiko static size_t btf_dedup_identity_hash_fn(const void *key, void *ctx) 137251edf5f6SAndrii Nakryiko { 13732fc3fc0bSAndrii Nakryiko return (size_t)key; 137451edf5f6SAndrii Nakryiko } 137551edf5f6SAndrii Nakryiko 13762fc3fc0bSAndrii Nakryiko static size_t btf_dedup_collision_hash_fn(const void *key, void *ctx) 13772fc3fc0bSAndrii Nakryiko { 13782fc3fc0bSAndrii Nakryiko return 0; 13792fc3fc0bSAndrii Nakryiko } 13802fc3fc0bSAndrii Nakryiko 13812fc3fc0bSAndrii Nakryiko static bool btf_dedup_equal_fn(const void *k1, const void *k2, void *ctx) 13822fc3fc0bSAndrii Nakryiko { 13832fc3fc0bSAndrii Nakryiko return k1 == k2; 13842fc3fc0bSAndrii Nakryiko } 138551edf5f6SAndrii Nakryiko 1386d5caef5bSAndrii Nakryiko static struct btf_dedup *btf_dedup_new(struct btf *btf, struct btf_ext *btf_ext, 1387d5caef5bSAndrii Nakryiko const struct btf_dedup_opts *opts) 1388d5caef5bSAndrii Nakryiko { 1389d5caef5bSAndrii Nakryiko struct btf_dedup *d = calloc(1, sizeof(struct btf_dedup)); 13902fc3fc0bSAndrii Nakryiko hashmap_hash_fn hash_fn = btf_dedup_identity_hash_fn; 1391d5caef5bSAndrii Nakryiko int i, err = 0; 1392d5caef5bSAndrii Nakryiko 1393d5caef5bSAndrii Nakryiko if (!d) 1394d5caef5bSAndrii Nakryiko return ERR_PTR(-ENOMEM); 1395d5caef5bSAndrii Nakryiko 139651edf5f6SAndrii Nakryiko d->opts.dont_resolve_fwds = opts && opts->dont_resolve_fwds; 13972fc3fc0bSAndrii Nakryiko /* dedup_table_size is now used only to force collisions in tests */ 13982fc3fc0bSAndrii Nakryiko if (opts && opts->dedup_table_size == 1) 13992fc3fc0bSAndrii Nakryiko hash_fn = btf_dedup_collision_hash_fn; 140051edf5f6SAndrii Nakryiko 1401d5caef5bSAndrii Nakryiko d->btf = btf; 1402d5caef5bSAndrii Nakryiko d->btf_ext = btf_ext; 1403d5caef5bSAndrii Nakryiko 14042fc3fc0bSAndrii Nakryiko d->dedup_table = hashmap__new(hash_fn, btf_dedup_equal_fn, NULL); 14052fc3fc0bSAndrii Nakryiko if (IS_ERR(d->dedup_table)) { 14062fc3fc0bSAndrii Nakryiko err = PTR_ERR(d->dedup_table); 14072fc3fc0bSAndrii Nakryiko d->dedup_table = NULL; 1408d5caef5bSAndrii Nakryiko goto done; 1409d5caef5bSAndrii Nakryiko } 1410d5caef5bSAndrii Nakryiko 1411d5caef5bSAndrii Nakryiko d->map = malloc(sizeof(__u32) * (1 + btf->nr_types)); 1412d5caef5bSAndrii Nakryiko if (!d->map) { 1413d5caef5bSAndrii Nakryiko err = -ENOMEM; 1414d5caef5bSAndrii Nakryiko goto done; 1415d5caef5bSAndrii Nakryiko } 1416d5caef5bSAndrii Nakryiko /* special BTF "void" type is made canonical immediately */ 1417d5caef5bSAndrii Nakryiko d->map[0] = 0; 1418189cf5a4SAndrii Nakryiko for (i = 1; i <= btf->nr_types; i++) { 1419189cf5a4SAndrii Nakryiko struct btf_type *t = d->btf->types[i]; 1420189cf5a4SAndrii Nakryiko 1421189cf5a4SAndrii Nakryiko /* VAR and DATASEC are never deduped and are self-canonical */ 1422b03bc685SAndrii Nakryiko if (btf_is_var(t) || btf_is_datasec(t)) 1423189cf5a4SAndrii Nakryiko d->map[i] = i; 1424189cf5a4SAndrii Nakryiko else 1425d5caef5bSAndrii Nakryiko d->map[i] = BTF_UNPROCESSED_ID; 1426189cf5a4SAndrii Nakryiko } 1427d5caef5bSAndrii Nakryiko 1428d5caef5bSAndrii Nakryiko d->hypot_map = malloc(sizeof(__u32) * (1 + btf->nr_types)); 1429d5caef5bSAndrii Nakryiko if (!d->hypot_map) { 1430d5caef5bSAndrii Nakryiko err = -ENOMEM; 1431d5caef5bSAndrii Nakryiko goto done; 1432d5caef5bSAndrii Nakryiko } 1433d5caef5bSAndrii Nakryiko for (i = 0; i <= btf->nr_types; i++) 1434d5caef5bSAndrii Nakryiko d->hypot_map[i] = BTF_UNPROCESSED_ID; 1435d5caef5bSAndrii Nakryiko 1436d5caef5bSAndrii Nakryiko done: 1437d5caef5bSAndrii Nakryiko if (err) { 1438d5caef5bSAndrii Nakryiko btf_dedup_free(d); 1439d5caef5bSAndrii Nakryiko return ERR_PTR(err); 1440d5caef5bSAndrii Nakryiko } 1441d5caef5bSAndrii Nakryiko 1442d5caef5bSAndrii Nakryiko return d; 1443d5caef5bSAndrii Nakryiko } 1444d5caef5bSAndrii Nakryiko 1445d5caef5bSAndrii Nakryiko typedef int (*str_off_fn_t)(__u32 *str_off_ptr, void *ctx); 1446d5caef5bSAndrii Nakryiko 1447d5caef5bSAndrii Nakryiko /* 1448d5caef5bSAndrii Nakryiko * Iterate over all possible places in .BTF and .BTF.ext that can reference 1449d5caef5bSAndrii Nakryiko * string and pass pointer to it to a provided callback `fn`. 1450d5caef5bSAndrii Nakryiko */ 1451d5caef5bSAndrii Nakryiko static int btf_for_each_str_off(struct btf_dedup *d, str_off_fn_t fn, void *ctx) 1452d5caef5bSAndrii Nakryiko { 1453d5caef5bSAndrii Nakryiko void *line_data_cur, *line_data_end; 1454d5caef5bSAndrii Nakryiko int i, j, r, rec_size; 1455d5caef5bSAndrii Nakryiko struct btf_type *t; 1456d5caef5bSAndrii Nakryiko 1457d5caef5bSAndrii Nakryiko for (i = 1; i <= d->btf->nr_types; i++) { 1458d5caef5bSAndrii Nakryiko t = d->btf->types[i]; 1459d5caef5bSAndrii Nakryiko r = fn(&t->name_off, ctx); 1460d5caef5bSAndrii Nakryiko if (r) 1461d5caef5bSAndrii Nakryiko return r; 1462d5caef5bSAndrii Nakryiko 1463b03bc685SAndrii Nakryiko switch (btf_kind(t)) { 1464d5caef5bSAndrii Nakryiko case BTF_KIND_STRUCT: 1465d5caef5bSAndrii Nakryiko case BTF_KIND_UNION: { 1466b03bc685SAndrii Nakryiko struct btf_member *m = btf_members(t); 1467b03bc685SAndrii Nakryiko __u16 vlen = btf_vlen(t); 1468d5caef5bSAndrii Nakryiko 1469d5caef5bSAndrii Nakryiko for (j = 0; j < vlen; j++) { 1470d5caef5bSAndrii Nakryiko r = fn(&m->name_off, ctx); 1471d5caef5bSAndrii Nakryiko if (r) 1472d5caef5bSAndrii Nakryiko return r; 1473d5caef5bSAndrii Nakryiko m++; 1474d5caef5bSAndrii Nakryiko } 1475d5caef5bSAndrii Nakryiko break; 1476d5caef5bSAndrii Nakryiko } 1477d5caef5bSAndrii Nakryiko case BTF_KIND_ENUM: { 1478b03bc685SAndrii Nakryiko struct btf_enum *m = btf_enum(t); 1479b03bc685SAndrii Nakryiko __u16 vlen = btf_vlen(t); 1480d5caef5bSAndrii Nakryiko 1481d5caef5bSAndrii Nakryiko for (j = 0; j < vlen; j++) { 1482d5caef5bSAndrii Nakryiko r = fn(&m->name_off, ctx); 1483d5caef5bSAndrii Nakryiko if (r) 1484d5caef5bSAndrii Nakryiko return r; 1485d5caef5bSAndrii Nakryiko m++; 1486d5caef5bSAndrii Nakryiko } 1487d5caef5bSAndrii Nakryiko break; 1488d5caef5bSAndrii Nakryiko } 1489d5caef5bSAndrii Nakryiko case BTF_KIND_FUNC_PROTO: { 1490b03bc685SAndrii Nakryiko struct btf_param *m = btf_params(t); 1491b03bc685SAndrii Nakryiko __u16 vlen = btf_vlen(t); 1492d5caef5bSAndrii Nakryiko 1493d5caef5bSAndrii Nakryiko for (j = 0; j < vlen; j++) { 1494d5caef5bSAndrii Nakryiko r = fn(&m->name_off, ctx); 1495d5caef5bSAndrii Nakryiko if (r) 1496d5caef5bSAndrii Nakryiko return r; 1497d5caef5bSAndrii Nakryiko m++; 1498d5caef5bSAndrii Nakryiko } 1499d5caef5bSAndrii Nakryiko break; 1500d5caef5bSAndrii Nakryiko } 1501d5caef5bSAndrii Nakryiko default: 1502d5caef5bSAndrii Nakryiko break; 1503d5caef5bSAndrii Nakryiko } 1504d5caef5bSAndrii Nakryiko } 1505d5caef5bSAndrii Nakryiko 1506d5caef5bSAndrii Nakryiko if (!d->btf_ext) 1507d5caef5bSAndrii Nakryiko return 0; 1508d5caef5bSAndrii Nakryiko 1509d5caef5bSAndrii Nakryiko line_data_cur = d->btf_ext->line_info.info; 1510d5caef5bSAndrii Nakryiko line_data_end = d->btf_ext->line_info.info + d->btf_ext->line_info.len; 1511d5caef5bSAndrii Nakryiko rec_size = d->btf_ext->line_info.rec_size; 1512d5caef5bSAndrii Nakryiko 1513d5caef5bSAndrii Nakryiko while (line_data_cur < line_data_end) { 1514d5caef5bSAndrii Nakryiko struct btf_ext_info_sec *sec = line_data_cur; 1515d5caef5bSAndrii Nakryiko struct bpf_line_info_min *line_info; 1516d5caef5bSAndrii Nakryiko __u32 num_info = sec->num_info; 1517d5caef5bSAndrii Nakryiko 1518d5caef5bSAndrii Nakryiko r = fn(&sec->sec_name_off, ctx); 1519d5caef5bSAndrii Nakryiko if (r) 1520d5caef5bSAndrii Nakryiko return r; 1521d5caef5bSAndrii Nakryiko 1522d5caef5bSAndrii Nakryiko line_data_cur += sizeof(struct btf_ext_info_sec); 1523d5caef5bSAndrii Nakryiko for (i = 0; i < num_info; i++) { 1524d5caef5bSAndrii Nakryiko line_info = line_data_cur; 1525d5caef5bSAndrii Nakryiko r = fn(&line_info->file_name_off, ctx); 1526d5caef5bSAndrii Nakryiko if (r) 1527d5caef5bSAndrii Nakryiko return r; 1528d5caef5bSAndrii Nakryiko r = fn(&line_info->line_off, ctx); 1529d5caef5bSAndrii Nakryiko if (r) 1530d5caef5bSAndrii Nakryiko return r; 1531d5caef5bSAndrii Nakryiko line_data_cur += rec_size; 1532d5caef5bSAndrii Nakryiko } 1533d5caef5bSAndrii Nakryiko } 1534d5caef5bSAndrii Nakryiko 1535d5caef5bSAndrii Nakryiko return 0; 1536d5caef5bSAndrii Nakryiko } 1537d5caef5bSAndrii Nakryiko 1538d5caef5bSAndrii Nakryiko static int str_sort_by_content(const void *a1, const void *a2) 1539d5caef5bSAndrii Nakryiko { 1540d5caef5bSAndrii Nakryiko const struct btf_str_ptr *p1 = a1; 1541d5caef5bSAndrii Nakryiko const struct btf_str_ptr *p2 = a2; 1542d5caef5bSAndrii Nakryiko 1543d5caef5bSAndrii Nakryiko return strcmp(p1->str, p2->str); 1544d5caef5bSAndrii Nakryiko } 1545d5caef5bSAndrii Nakryiko 1546d5caef5bSAndrii Nakryiko static int str_sort_by_offset(const void *a1, const void *a2) 1547d5caef5bSAndrii Nakryiko { 1548d5caef5bSAndrii Nakryiko const struct btf_str_ptr *p1 = a1; 1549d5caef5bSAndrii Nakryiko const struct btf_str_ptr *p2 = a2; 1550d5caef5bSAndrii Nakryiko 1551d5caef5bSAndrii Nakryiko if (p1->str != p2->str) 1552d5caef5bSAndrii Nakryiko return p1->str < p2->str ? -1 : 1; 1553d5caef5bSAndrii Nakryiko return 0; 1554d5caef5bSAndrii Nakryiko } 1555d5caef5bSAndrii Nakryiko 1556d5caef5bSAndrii Nakryiko static int btf_dedup_str_ptr_cmp(const void *str_ptr, const void *pelem) 1557d5caef5bSAndrii Nakryiko { 1558d5caef5bSAndrii Nakryiko const struct btf_str_ptr *p = pelem; 1559d5caef5bSAndrii Nakryiko 1560d5caef5bSAndrii Nakryiko if (str_ptr != p->str) 1561d5caef5bSAndrii Nakryiko return (const char *)str_ptr < p->str ? -1 : 1; 1562d5caef5bSAndrii Nakryiko return 0; 1563d5caef5bSAndrii Nakryiko } 1564d5caef5bSAndrii Nakryiko 1565d5caef5bSAndrii Nakryiko static int btf_str_mark_as_used(__u32 *str_off_ptr, void *ctx) 1566d5caef5bSAndrii Nakryiko { 1567d5caef5bSAndrii Nakryiko struct btf_str_ptrs *strs; 1568d5caef5bSAndrii Nakryiko struct btf_str_ptr *s; 1569d5caef5bSAndrii Nakryiko 1570d5caef5bSAndrii Nakryiko if (*str_off_ptr == 0) 1571d5caef5bSAndrii Nakryiko return 0; 1572d5caef5bSAndrii Nakryiko 1573d5caef5bSAndrii Nakryiko strs = ctx; 1574d5caef5bSAndrii Nakryiko s = bsearch(strs->data + *str_off_ptr, strs->ptrs, strs->cnt, 1575d5caef5bSAndrii Nakryiko sizeof(struct btf_str_ptr), btf_dedup_str_ptr_cmp); 1576d5caef5bSAndrii Nakryiko if (!s) 1577d5caef5bSAndrii Nakryiko return -EINVAL; 1578d5caef5bSAndrii Nakryiko s->used = true; 1579d5caef5bSAndrii Nakryiko return 0; 1580d5caef5bSAndrii Nakryiko } 1581d5caef5bSAndrii Nakryiko 1582d5caef5bSAndrii Nakryiko static int btf_str_remap_offset(__u32 *str_off_ptr, void *ctx) 1583d5caef5bSAndrii Nakryiko { 1584d5caef5bSAndrii Nakryiko struct btf_str_ptrs *strs; 1585d5caef5bSAndrii Nakryiko struct btf_str_ptr *s; 1586d5caef5bSAndrii Nakryiko 1587d5caef5bSAndrii Nakryiko if (*str_off_ptr == 0) 1588d5caef5bSAndrii Nakryiko return 0; 1589d5caef5bSAndrii Nakryiko 1590d5caef5bSAndrii Nakryiko strs = ctx; 1591d5caef5bSAndrii Nakryiko s = bsearch(strs->data + *str_off_ptr, strs->ptrs, strs->cnt, 1592d5caef5bSAndrii Nakryiko sizeof(struct btf_str_ptr), btf_dedup_str_ptr_cmp); 1593d5caef5bSAndrii Nakryiko if (!s) 1594d5caef5bSAndrii Nakryiko return -EINVAL; 1595d5caef5bSAndrii Nakryiko *str_off_ptr = s->new_off; 1596d5caef5bSAndrii Nakryiko return 0; 1597d5caef5bSAndrii Nakryiko } 1598d5caef5bSAndrii Nakryiko 1599d5caef5bSAndrii Nakryiko /* 1600d5caef5bSAndrii Nakryiko * Dedup string and filter out those that are not referenced from either .BTF 1601d5caef5bSAndrii Nakryiko * or .BTF.ext (if provided) sections. 1602d5caef5bSAndrii Nakryiko * 1603d5caef5bSAndrii Nakryiko * This is done by building index of all strings in BTF's string section, 1604d5caef5bSAndrii Nakryiko * then iterating over all entities that can reference strings (e.g., type 1605d5caef5bSAndrii Nakryiko * names, struct field names, .BTF.ext line info, etc) and marking corresponding 1606d5caef5bSAndrii Nakryiko * strings as used. After that all used strings are deduped and compacted into 1607d5caef5bSAndrii Nakryiko * sequential blob of memory and new offsets are calculated. Then all the string 1608d5caef5bSAndrii Nakryiko * references are iterated again and rewritten using new offsets. 1609d5caef5bSAndrii Nakryiko */ 1610d5caef5bSAndrii Nakryiko static int btf_dedup_strings(struct btf_dedup *d) 1611d5caef5bSAndrii Nakryiko { 1612d5caef5bSAndrii Nakryiko const struct btf_header *hdr = d->btf->hdr; 1613d5caef5bSAndrii Nakryiko char *start = (char *)d->btf->nohdr_data + hdr->str_off; 1614d5caef5bSAndrii Nakryiko char *end = start + d->btf->hdr->str_len; 1615d5caef5bSAndrii Nakryiko char *p = start, *tmp_strs = NULL; 1616d5caef5bSAndrii Nakryiko struct btf_str_ptrs strs = { 1617d5caef5bSAndrii Nakryiko .cnt = 0, 1618d5caef5bSAndrii Nakryiko .cap = 0, 1619d5caef5bSAndrii Nakryiko .ptrs = NULL, 1620d5caef5bSAndrii Nakryiko .data = start, 1621d5caef5bSAndrii Nakryiko }; 1622d5caef5bSAndrii Nakryiko int i, j, err = 0, grp_idx; 1623d5caef5bSAndrii Nakryiko bool grp_used; 1624d5caef5bSAndrii Nakryiko 1625d5caef5bSAndrii Nakryiko /* build index of all strings */ 1626d5caef5bSAndrii Nakryiko while (p < end) { 1627d5caef5bSAndrii Nakryiko if (strs.cnt + 1 > strs.cap) { 1628d5caef5bSAndrii Nakryiko struct btf_str_ptr *new_ptrs; 1629d5caef5bSAndrii Nakryiko 1630d5caef5bSAndrii Nakryiko strs.cap += max(strs.cnt / 2, 16); 1631d5caef5bSAndrii Nakryiko new_ptrs = realloc(strs.ptrs, 1632d5caef5bSAndrii Nakryiko sizeof(strs.ptrs[0]) * strs.cap); 1633d5caef5bSAndrii Nakryiko if (!new_ptrs) { 1634d5caef5bSAndrii Nakryiko err = -ENOMEM; 1635d5caef5bSAndrii Nakryiko goto done; 1636d5caef5bSAndrii Nakryiko } 1637d5caef5bSAndrii Nakryiko strs.ptrs = new_ptrs; 1638d5caef5bSAndrii Nakryiko } 1639d5caef5bSAndrii Nakryiko 1640d5caef5bSAndrii Nakryiko strs.ptrs[strs.cnt].str = p; 1641d5caef5bSAndrii Nakryiko strs.ptrs[strs.cnt].used = false; 1642d5caef5bSAndrii Nakryiko 1643d5caef5bSAndrii Nakryiko p += strlen(p) + 1; 1644d5caef5bSAndrii Nakryiko strs.cnt++; 1645d5caef5bSAndrii Nakryiko } 1646d5caef5bSAndrii Nakryiko 1647d5caef5bSAndrii Nakryiko /* temporary storage for deduplicated strings */ 1648d5caef5bSAndrii Nakryiko tmp_strs = malloc(d->btf->hdr->str_len); 1649d5caef5bSAndrii Nakryiko if (!tmp_strs) { 1650d5caef5bSAndrii Nakryiko err = -ENOMEM; 1651d5caef5bSAndrii Nakryiko goto done; 1652d5caef5bSAndrii Nakryiko } 1653d5caef5bSAndrii Nakryiko 1654d5caef5bSAndrii Nakryiko /* mark all used strings */ 1655d5caef5bSAndrii Nakryiko strs.ptrs[0].used = true; 1656d5caef5bSAndrii Nakryiko err = btf_for_each_str_off(d, btf_str_mark_as_used, &strs); 1657d5caef5bSAndrii Nakryiko if (err) 1658d5caef5bSAndrii Nakryiko goto done; 1659d5caef5bSAndrii Nakryiko 1660d5caef5bSAndrii Nakryiko /* sort strings by context, so that we can identify duplicates */ 1661d5caef5bSAndrii Nakryiko qsort(strs.ptrs, strs.cnt, sizeof(strs.ptrs[0]), str_sort_by_content); 1662d5caef5bSAndrii Nakryiko 1663d5caef5bSAndrii Nakryiko /* 1664d5caef5bSAndrii Nakryiko * iterate groups of equal strings and if any instance in a group was 1665d5caef5bSAndrii Nakryiko * referenced, emit single instance and remember new offset 1666d5caef5bSAndrii Nakryiko */ 1667d5caef5bSAndrii Nakryiko p = tmp_strs; 1668d5caef5bSAndrii Nakryiko grp_idx = 0; 1669d5caef5bSAndrii Nakryiko grp_used = strs.ptrs[0].used; 1670d5caef5bSAndrii Nakryiko /* iterate past end to avoid code duplication after loop */ 1671d5caef5bSAndrii Nakryiko for (i = 1; i <= strs.cnt; i++) { 1672d5caef5bSAndrii Nakryiko /* 1673d5caef5bSAndrii Nakryiko * when i == strs.cnt, we want to skip string comparison and go 1674d5caef5bSAndrii Nakryiko * straight to handling last group of strings (otherwise we'd 1675d5caef5bSAndrii Nakryiko * need to handle last group after the loop w/ duplicated code) 1676d5caef5bSAndrii Nakryiko */ 1677d5caef5bSAndrii Nakryiko if (i < strs.cnt && 1678d5caef5bSAndrii Nakryiko !strcmp(strs.ptrs[i].str, strs.ptrs[grp_idx].str)) { 1679d5caef5bSAndrii Nakryiko grp_used = grp_used || strs.ptrs[i].used; 1680d5caef5bSAndrii Nakryiko continue; 1681d5caef5bSAndrii Nakryiko } 1682d5caef5bSAndrii Nakryiko 1683d5caef5bSAndrii Nakryiko /* 1684d5caef5bSAndrii Nakryiko * this check would have been required after the loop to handle 1685d5caef5bSAndrii Nakryiko * last group of strings, but due to <= condition in a loop 1686d5caef5bSAndrii Nakryiko * we avoid that duplication 1687d5caef5bSAndrii Nakryiko */ 1688d5caef5bSAndrii Nakryiko if (grp_used) { 1689d5caef5bSAndrii Nakryiko int new_off = p - tmp_strs; 1690d5caef5bSAndrii Nakryiko __u32 len = strlen(strs.ptrs[grp_idx].str); 1691d5caef5bSAndrii Nakryiko 1692d5caef5bSAndrii Nakryiko memmove(p, strs.ptrs[grp_idx].str, len + 1); 1693d5caef5bSAndrii Nakryiko for (j = grp_idx; j < i; j++) 1694d5caef5bSAndrii Nakryiko strs.ptrs[j].new_off = new_off; 1695d5caef5bSAndrii Nakryiko p += len + 1; 1696d5caef5bSAndrii Nakryiko } 1697d5caef5bSAndrii Nakryiko 1698d5caef5bSAndrii Nakryiko if (i < strs.cnt) { 1699d5caef5bSAndrii Nakryiko grp_idx = i; 1700d5caef5bSAndrii Nakryiko grp_used = strs.ptrs[i].used; 1701d5caef5bSAndrii Nakryiko } 1702d5caef5bSAndrii Nakryiko } 1703d5caef5bSAndrii Nakryiko 1704d5caef5bSAndrii Nakryiko /* replace original strings with deduped ones */ 1705d5caef5bSAndrii Nakryiko d->btf->hdr->str_len = p - tmp_strs; 1706d5caef5bSAndrii Nakryiko memmove(start, tmp_strs, d->btf->hdr->str_len); 1707d5caef5bSAndrii Nakryiko end = start + d->btf->hdr->str_len; 1708d5caef5bSAndrii Nakryiko 1709d5caef5bSAndrii Nakryiko /* restore original order for further binary search lookups */ 1710d5caef5bSAndrii Nakryiko qsort(strs.ptrs, strs.cnt, sizeof(strs.ptrs[0]), str_sort_by_offset); 1711d5caef5bSAndrii Nakryiko 1712d5caef5bSAndrii Nakryiko /* remap string offsets */ 1713d5caef5bSAndrii Nakryiko err = btf_for_each_str_off(d, btf_str_remap_offset, &strs); 1714d5caef5bSAndrii Nakryiko if (err) 1715d5caef5bSAndrii Nakryiko goto done; 1716d5caef5bSAndrii Nakryiko 1717d5caef5bSAndrii Nakryiko d->btf->hdr->str_len = end - start; 1718d5caef5bSAndrii Nakryiko 1719d5caef5bSAndrii Nakryiko done: 1720d5caef5bSAndrii Nakryiko free(tmp_strs); 1721d5caef5bSAndrii Nakryiko free(strs.ptrs); 1722d5caef5bSAndrii Nakryiko return err; 1723d5caef5bSAndrii Nakryiko } 1724d5caef5bSAndrii Nakryiko 17252fc3fc0bSAndrii Nakryiko static long btf_hash_common(struct btf_type *t) 1726d5caef5bSAndrii Nakryiko { 17272fc3fc0bSAndrii Nakryiko long h; 1728d5caef5bSAndrii Nakryiko 1729d5caef5bSAndrii Nakryiko h = hash_combine(0, t->name_off); 1730d5caef5bSAndrii Nakryiko h = hash_combine(h, t->info); 1731d5caef5bSAndrii Nakryiko h = hash_combine(h, t->size); 1732d5caef5bSAndrii Nakryiko return h; 1733d5caef5bSAndrii Nakryiko } 1734d5caef5bSAndrii Nakryiko 1735d5caef5bSAndrii Nakryiko static bool btf_equal_common(struct btf_type *t1, struct btf_type *t2) 1736d5caef5bSAndrii Nakryiko { 1737d5caef5bSAndrii Nakryiko return t1->name_off == t2->name_off && 1738d5caef5bSAndrii Nakryiko t1->info == t2->info && 1739d5caef5bSAndrii Nakryiko t1->size == t2->size; 1740d5caef5bSAndrii Nakryiko } 1741d5caef5bSAndrii Nakryiko 1742d5caef5bSAndrii Nakryiko /* Calculate type signature hash of INT. */ 17432fc3fc0bSAndrii Nakryiko static long btf_hash_int(struct btf_type *t) 1744d5caef5bSAndrii Nakryiko { 1745d5caef5bSAndrii Nakryiko __u32 info = *(__u32 *)(t + 1); 17462fc3fc0bSAndrii Nakryiko long h; 1747d5caef5bSAndrii Nakryiko 1748d5caef5bSAndrii Nakryiko h = btf_hash_common(t); 1749d5caef5bSAndrii Nakryiko h = hash_combine(h, info); 1750d5caef5bSAndrii Nakryiko return h; 1751d5caef5bSAndrii Nakryiko } 1752d5caef5bSAndrii Nakryiko 1753d5caef5bSAndrii Nakryiko /* Check structural equality of two INTs. */ 1754d5caef5bSAndrii Nakryiko static bool btf_equal_int(struct btf_type *t1, struct btf_type *t2) 1755d5caef5bSAndrii Nakryiko { 1756d5caef5bSAndrii Nakryiko __u32 info1, info2; 1757d5caef5bSAndrii Nakryiko 1758d5caef5bSAndrii Nakryiko if (!btf_equal_common(t1, t2)) 1759d5caef5bSAndrii Nakryiko return false; 1760d5caef5bSAndrii Nakryiko info1 = *(__u32 *)(t1 + 1); 1761d5caef5bSAndrii Nakryiko info2 = *(__u32 *)(t2 + 1); 1762d5caef5bSAndrii Nakryiko return info1 == info2; 1763d5caef5bSAndrii Nakryiko } 1764d5caef5bSAndrii Nakryiko 1765d5caef5bSAndrii Nakryiko /* Calculate type signature hash of ENUM. */ 17662fc3fc0bSAndrii Nakryiko static long btf_hash_enum(struct btf_type *t) 1767d5caef5bSAndrii Nakryiko { 17682fc3fc0bSAndrii Nakryiko long h; 1769d5caef5bSAndrii Nakryiko 17709768095bSAndrii Nakryiko /* don't hash vlen and enum members to support enum fwd resolving */ 17719768095bSAndrii Nakryiko h = hash_combine(0, t->name_off); 17729768095bSAndrii Nakryiko h = hash_combine(h, t->info & ~0xffff); 17739768095bSAndrii Nakryiko h = hash_combine(h, t->size); 1774d5caef5bSAndrii Nakryiko return h; 1775d5caef5bSAndrii Nakryiko } 1776d5caef5bSAndrii Nakryiko 1777d5caef5bSAndrii Nakryiko /* Check structural equality of two ENUMs. */ 1778d5caef5bSAndrii Nakryiko static bool btf_equal_enum(struct btf_type *t1, struct btf_type *t2) 1779d5caef5bSAndrii Nakryiko { 1780b03bc685SAndrii Nakryiko const struct btf_enum *m1, *m2; 1781d5caef5bSAndrii Nakryiko __u16 vlen; 1782d5caef5bSAndrii Nakryiko int i; 1783d5caef5bSAndrii Nakryiko 1784d5caef5bSAndrii Nakryiko if (!btf_equal_common(t1, t2)) 1785d5caef5bSAndrii Nakryiko return false; 1786d5caef5bSAndrii Nakryiko 1787b03bc685SAndrii Nakryiko vlen = btf_vlen(t1); 1788b03bc685SAndrii Nakryiko m1 = btf_enum(t1); 1789b03bc685SAndrii Nakryiko m2 = btf_enum(t2); 1790d5caef5bSAndrii Nakryiko for (i = 0; i < vlen; i++) { 1791d5caef5bSAndrii Nakryiko if (m1->name_off != m2->name_off || m1->val != m2->val) 1792d5caef5bSAndrii Nakryiko return false; 1793d5caef5bSAndrii Nakryiko m1++; 1794d5caef5bSAndrii Nakryiko m2++; 1795d5caef5bSAndrii Nakryiko } 1796d5caef5bSAndrii Nakryiko return true; 1797d5caef5bSAndrii Nakryiko } 1798d5caef5bSAndrii Nakryiko 17999768095bSAndrii Nakryiko static inline bool btf_is_enum_fwd(struct btf_type *t) 18009768095bSAndrii Nakryiko { 1801b03bc685SAndrii Nakryiko return btf_is_enum(t) && btf_vlen(t) == 0; 18029768095bSAndrii Nakryiko } 18039768095bSAndrii Nakryiko 18049768095bSAndrii Nakryiko static bool btf_compat_enum(struct btf_type *t1, struct btf_type *t2) 18059768095bSAndrii Nakryiko { 18069768095bSAndrii Nakryiko if (!btf_is_enum_fwd(t1) && !btf_is_enum_fwd(t2)) 18079768095bSAndrii Nakryiko return btf_equal_enum(t1, t2); 18089768095bSAndrii Nakryiko /* ignore vlen when comparing */ 18099768095bSAndrii Nakryiko return t1->name_off == t2->name_off && 18109768095bSAndrii Nakryiko (t1->info & ~0xffff) == (t2->info & ~0xffff) && 18119768095bSAndrii Nakryiko t1->size == t2->size; 18129768095bSAndrii Nakryiko } 18139768095bSAndrii Nakryiko 1814d5caef5bSAndrii Nakryiko /* 1815d5caef5bSAndrii Nakryiko * Calculate type signature hash of STRUCT/UNION, ignoring referenced type IDs, 1816d5caef5bSAndrii Nakryiko * as referenced type IDs equivalence is established separately during type 1817d5caef5bSAndrii Nakryiko * graph equivalence check algorithm. 1818d5caef5bSAndrii Nakryiko */ 18192fc3fc0bSAndrii Nakryiko static long btf_hash_struct(struct btf_type *t) 1820d5caef5bSAndrii Nakryiko { 1821b03bc685SAndrii Nakryiko const struct btf_member *member = btf_members(t); 1822b03bc685SAndrii Nakryiko __u32 vlen = btf_vlen(t); 18232fc3fc0bSAndrii Nakryiko long h = btf_hash_common(t); 1824d5caef5bSAndrii Nakryiko int i; 1825d5caef5bSAndrii Nakryiko 1826d5caef5bSAndrii Nakryiko for (i = 0; i < vlen; i++) { 1827d5caef5bSAndrii Nakryiko h = hash_combine(h, member->name_off); 1828d5caef5bSAndrii Nakryiko h = hash_combine(h, member->offset); 1829d5caef5bSAndrii Nakryiko /* no hashing of referenced type ID, it can be unresolved yet */ 1830d5caef5bSAndrii Nakryiko member++; 1831d5caef5bSAndrii Nakryiko } 1832d5caef5bSAndrii Nakryiko return h; 1833d5caef5bSAndrii Nakryiko } 1834d5caef5bSAndrii Nakryiko 1835d5caef5bSAndrii Nakryiko /* 1836d5caef5bSAndrii Nakryiko * Check structural compatibility of two FUNC_PROTOs, ignoring referenced type 1837d5caef5bSAndrii Nakryiko * IDs. This check is performed during type graph equivalence check and 1838d5caef5bSAndrii Nakryiko * referenced types equivalence is checked separately. 1839d5caef5bSAndrii Nakryiko */ 184091097fbeSAndrii Nakryiko static bool btf_shallow_equal_struct(struct btf_type *t1, struct btf_type *t2) 1841d5caef5bSAndrii Nakryiko { 1842b03bc685SAndrii Nakryiko const struct btf_member *m1, *m2; 1843d5caef5bSAndrii Nakryiko __u16 vlen; 1844d5caef5bSAndrii Nakryiko int i; 1845d5caef5bSAndrii Nakryiko 1846d5caef5bSAndrii Nakryiko if (!btf_equal_common(t1, t2)) 1847d5caef5bSAndrii Nakryiko return false; 1848d5caef5bSAndrii Nakryiko 1849b03bc685SAndrii Nakryiko vlen = btf_vlen(t1); 1850b03bc685SAndrii Nakryiko m1 = btf_members(t1); 1851b03bc685SAndrii Nakryiko m2 = btf_members(t2); 1852d5caef5bSAndrii Nakryiko for (i = 0; i < vlen; i++) { 1853d5caef5bSAndrii Nakryiko if (m1->name_off != m2->name_off || m1->offset != m2->offset) 1854d5caef5bSAndrii Nakryiko return false; 1855d5caef5bSAndrii Nakryiko m1++; 1856d5caef5bSAndrii Nakryiko m2++; 1857d5caef5bSAndrii Nakryiko } 1858d5caef5bSAndrii Nakryiko return true; 1859d5caef5bSAndrii Nakryiko } 1860d5caef5bSAndrii Nakryiko 1861d5caef5bSAndrii Nakryiko /* 1862d5caef5bSAndrii Nakryiko * Calculate type signature hash of ARRAY, including referenced type IDs, 1863d5caef5bSAndrii Nakryiko * under assumption that they were already resolved to canonical type IDs and 1864d5caef5bSAndrii Nakryiko * are not going to change. 1865d5caef5bSAndrii Nakryiko */ 18662fc3fc0bSAndrii Nakryiko static long btf_hash_array(struct btf_type *t) 1867d5caef5bSAndrii Nakryiko { 1868b03bc685SAndrii Nakryiko const struct btf_array *info = btf_array(t); 18692fc3fc0bSAndrii Nakryiko long h = btf_hash_common(t); 1870d5caef5bSAndrii Nakryiko 1871d5caef5bSAndrii Nakryiko h = hash_combine(h, info->type); 1872d5caef5bSAndrii Nakryiko h = hash_combine(h, info->index_type); 1873d5caef5bSAndrii Nakryiko h = hash_combine(h, info->nelems); 1874d5caef5bSAndrii Nakryiko return h; 1875d5caef5bSAndrii Nakryiko } 1876d5caef5bSAndrii Nakryiko 1877d5caef5bSAndrii Nakryiko /* 1878d5caef5bSAndrii Nakryiko * Check exact equality of two ARRAYs, taking into account referenced 1879d5caef5bSAndrii Nakryiko * type IDs, under assumption that they were already resolved to canonical 1880d5caef5bSAndrii Nakryiko * type IDs and are not going to change. 1881d5caef5bSAndrii Nakryiko * This function is called during reference types deduplication to compare 1882d5caef5bSAndrii Nakryiko * ARRAY to potential canonical representative. 1883d5caef5bSAndrii Nakryiko */ 1884d5caef5bSAndrii Nakryiko static bool btf_equal_array(struct btf_type *t1, struct btf_type *t2) 1885d5caef5bSAndrii Nakryiko { 1886b03bc685SAndrii Nakryiko const struct btf_array *info1, *info2; 1887d5caef5bSAndrii Nakryiko 1888d5caef5bSAndrii Nakryiko if (!btf_equal_common(t1, t2)) 1889d5caef5bSAndrii Nakryiko return false; 1890d5caef5bSAndrii Nakryiko 1891b03bc685SAndrii Nakryiko info1 = btf_array(t1); 1892b03bc685SAndrii Nakryiko info2 = btf_array(t2); 1893d5caef5bSAndrii Nakryiko return info1->type == info2->type && 1894d5caef5bSAndrii Nakryiko info1->index_type == info2->index_type && 1895d5caef5bSAndrii Nakryiko info1->nelems == info2->nelems; 1896d5caef5bSAndrii Nakryiko } 1897d5caef5bSAndrii Nakryiko 1898d5caef5bSAndrii Nakryiko /* 1899d5caef5bSAndrii Nakryiko * Check structural compatibility of two ARRAYs, ignoring referenced type 1900d5caef5bSAndrii Nakryiko * IDs. This check is performed during type graph equivalence check and 1901d5caef5bSAndrii Nakryiko * referenced types equivalence is checked separately. 1902d5caef5bSAndrii Nakryiko */ 1903d5caef5bSAndrii Nakryiko static bool btf_compat_array(struct btf_type *t1, struct btf_type *t2) 1904d5caef5bSAndrii Nakryiko { 1905d5caef5bSAndrii Nakryiko if (!btf_equal_common(t1, t2)) 1906d5caef5bSAndrii Nakryiko return false; 1907d5caef5bSAndrii Nakryiko 1908b03bc685SAndrii Nakryiko return btf_array(t1)->nelems == btf_array(t2)->nelems; 1909d5caef5bSAndrii Nakryiko } 1910d5caef5bSAndrii Nakryiko 1911d5caef5bSAndrii Nakryiko /* 1912d5caef5bSAndrii Nakryiko * Calculate type signature hash of FUNC_PROTO, including referenced type IDs, 1913d5caef5bSAndrii Nakryiko * under assumption that they were already resolved to canonical type IDs and 1914d5caef5bSAndrii Nakryiko * are not going to change. 1915d5caef5bSAndrii Nakryiko */ 19162fc3fc0bSAndrii Nakryiko static long btf_hash_fnproto(struct btf_type *t) 1917d5caef5bSAndrii Nakryiko { 1918b03bc685SAndrii Nakryiko const struct btf_param *member = btf_params(t); 1919b03bc685SAndrii Nakryiko __u16 vlen = btf_vlen(t); 19202fc3fc0bSAndrii Nakryiko long h = btf_hash_common(t); 1921d5caef5bSAndrii Nakryiko int i; 1922d5caef5bSAndrii Nakryiko 1923d5caef5bSAndrii Nakryiko for (i = 0; i < vlen; i++) { 1924d5caef5bSAndrii Nakryiko h = hash_combine(h, member->name_off); 1925d5caef5bSAndrii Nakryiko h = hash_combine(h, member->type); 1926d5caef5bSAndrii Nakryiko member++; 1927d5caef5bSAndrii Nakryiko } 1928d5caef5bSAndrii Nakryiko return h; 1929d5caef5bSAndrii Nakryiko } 1930d5caef5bSAndrii Nakryiko 1931d5caef5bSAndrii Nakryiko /* 1932d5caef5bSAndrii Nakryiko * Check exact equality of two FUNC_PROTOs, taking into account referenced 1933d5caef5bSAndrii Nakryiko * type IDs, under assumption that they were already resolved to canonical 1934d5caef5bSAndrii Nakryiko * type IDs and are not going to change. 1935d5caef5bSAndrii Nakryiko * This function is called during reference types deduplication to compare 1936d5caef5bSAndrii Nakryiko * FUNC_PROTO to potential canonical representative. 1937d5caef5bSAndrii Nakryiko */ 19382fc3fc0bSAndrii Nakryiko static bool btf_equal_fnproto(struct btf_type *t1, struct btf_type *t2) 1939d5caef5bSAndrii Nakryiko { 1940b03bc685SAndrii Nakryiko const struct btf_param *m1, *m2; 1941d5caef5bSAndrii Nakryiko __u16 vlen; 1942d5caef5bSAndrii Nakryiko int i; 1943d5caef5bSAndrii Nakryiko 1944d5caef5bSAndrii Nakryiko if (!btf_equal_common(t1, t2)) 1945d5caef5bSAndrii Nakryiko return false; 1946d5caef5bSAndrii Nakryiko 1947b03bc685SAndrii Nakryiko vlen = btf_vlen(t1); 1948b03bc685SAndrii Nakryiko m1 = btf_params(t1); 1949b03bc685SAndrii Nakryiko m2 = btf_params(t2); 1950d5caef5bSAndrii Nakryiko for (i = 0; i < vlen; i++) { 1951d5caef5bSAndrii Nakryiko if (m1->name_off != m2->name_off || m1->type != m2->type) 1952d5caef5bSAndrii Nakryiko return false; 1953d5caef5bSAndrii Nakryiko m1++; 1954d5caef5bSAndrii Nakryiko m2++; 1955d5caef5bSAndrii Nakryiko } 1956d5caef5bSAndrii Nakryiko return true; 1957d5caef5bSAndrii Nakryiko } 1958d5caef5bSAndrii Nakryiko 1959d5caef5bSAndrii Nakryiko /* 1960d5caef5bSAndrii Nakryiko * Check structural compatibility of two FUNC_PROTOs, ignoring referenced type 1961d5caef5bSAndrii Nakryiko * IDs. This check is performed during type graph equivalence check and 1962d5caef5bSAndrii Nakryiko * referenced types equivalence is checked separately. 1963d5caef5bSAndrii Nakryiko */ 19642fc3fc0bSAndrii Nakryiko static bool btf_compat_fnproto(struct btf_type *t1, struct btf_type *t2) 1965d5caef5bSAndrii Nakryiko { 1966b03bc685SAndrii Nakryiko const struct btf_param *m1, *m2; 1967d5caef5bSAndrii Nakryiko __u16 vlen; 1968d5caef5bSAndrii Nakryiko int i; 1969d5caef5bSAndrii Nakryiko 1970d5caef5bSAndrii Nakryiko /* skip return type ID */ 1971d5caef5bSAndrii Nakryiko if (t1->name_off != t2->name_off || t1->info != t2->info) 1972d5caef5bSAndrii Nakryiko return false; 1973d5caef5bSAndrii Nakryiko 1974b03bc685SAndrii Nakryiko vlen = btf_vlen(t1); 1975b03bc685SAndrii Nakryiko m1 = btf_params(t1); 1976b03bc685SAndrii Nakryiko m2 = btf_params(t2); 1977d5caef5bSAndrii Nakryiko for (i = 0; i < vlen; i++) { 1978d5caef5bSAndrii Nakryiko if (m1->name_off != m2->name_off) 1979d5caef5bSAndrii Nakryiko return false; 1980d5caef5bSAndrii Nakryiko m1++; 1981d5caef5bSAndrii Nakryiko m2++; 1982d5caef5bSAndrii Nakryiko } 1983d5caef5bSAndrii Nakryiko return true; 1984d5caef5bSAndrii Nakryiko } 1985d5caef5bSAndrii Nakryiko 1986d5caef5bSAndrii Nakryiko /* 1987d5caef5bSAndrii Nakryiko * Deduplicate primitive types, that can't reference other types, by calculating 1988d5caef5bSAndrii Nakryiko * their type signature hash and comparing them with any possible canonical 1989d5caef5bSAndrii Nakryiko * candidate. If no canonical candidate matches, type itself is marked as 1990d5caef5bSAndrii Nakryiko * canonical and is added into `btf_dedup->dedup_table` as another candidate. 1991d5caef5bSAndrii Nakryiko */ 1992d5caef5bSAndrii Nakryiko static int btf_dedup_prim_type(struct btf_dedup *d, __u32 type_id) 1993d5caef5bSAndrii Nakryiko { 1994d5caef5bSAndrii Nakryiko struct btf_type *t = d->btf->types[type_id]; 19952fc3fc0bSAndrii Nakryiko struct hashmap_entry *hash_entry; 1996d5caef5bSAndrii Nakryiko struct btf_type *cand; 1997d5caef5bSAndrii Nakryiko /* if we don't find equivalent type, then we are canonical */ 1998d5caef5bSAndrii Nakryiko __u32 new_id = type_id; 19992fc3fc0bSAndrii Nakryiko __u32 cand_id; 20002fc3fc0bSAndrii Nakryiko long h; 2001d5caef5bSAndrii Nakryiko 2002b03bc685SAndrii Nakryiko switch (btf_kind(t)) { 2003d5caef5bSAndrii Nakryiko case BTF_KIND_CONST: 2004d5caef5bSAndrii Nakryiko case BTF_KIND_VOLATILE: 2005d5caef5bSAndrii Nakryiko case BTF_KIND_RESTRICT: 2006d5caef5bSAndrii Nakryiko case BTF_KIND_PTR: 2007d5caef5bSAndrii Nakryiko case BTF_KIND_TYPEDEF: 2008d5caef5bSAndrii Nakryiko case BTF_KIND_ARRAY: 2009d5caef5bSAndrii Nakryiko case BTF_KIND_STRUCT: 2010d5caef5bSAndrii Nakryiko case BTF_KIND_UNION: 2011d5caef5bSAndrii Nakryiko case BTF_KIND_FUNC: 2012d5caef5bSAndrii Nakryiko case BTF_KIND_FUNC_PROTO: 2013189cf5a4SAndrii Nakryiko case BTF_KIND_VAR: 2014189cf5a4SAndrii Nakryiko case BTF_KIND_DATASEC: 2015d5caef5bSAndrii Nakryiko return 0; 2016d5caef5bSAndrii Nakryiko 2017d5caef5bSAndrii Nakryiko case BTF_KIND_INT: 2018d5caef5bSAndrii Nakryiko h = btf_hash_int(t); 20192fc3fc0bSAndrii Nakryiko for_each_dedup_cand(d, hash_entry, h) { 20202fc3fc0bSAndrii Nakryiko cand_id = (__u32)(long)hash_entry->value; 20212fc3fc0bSAndrii Nakryiko cand = d->btf->types[cand_id]; 2022d5caef5bSAndrii Nakryiko if (btf_equal_int(t, cand)) { 20232fc3fc0bSAndrii Nakryiko new_id = cand_id; 2024d5caef5bSAndrii Nakryiko break; 2025d5caef5bSAndrii Nakryiko } 2026d5caef5bSAndrii Nakryiko } 2027d5caef5bSAndrii Nakryiko break; 2028d5caef5bSAndrii Nakryiko 2029d5caef5bSAndrii Nakryiko case BTF_KIND_ENUM: 2030d5caef5bSAndrii Nakryiko h = btf_hash_enum(t); 20312fc3fc0bSAndrii Nakryiko for_each_dedup_cand(d, hash_entry, h) { 20322fc3fc0bSAndrii Nakryiko cand_id = (__u32)(long)hash_entry->value; 20332fc3fc0bSAndrii Nakryiko cand = d->btf->types[cand_id]; 2034d5caef5bSAndrii Nakryiko if (btf_equal_enum(t, cand)) { 20352fc3fc0bSAndrii Nakryiko new_id = cand_id; 2036d5caef5bSAndrii Nakryiko break; 2037d5caef5bSAndrii Nakryiko } 20389768095bSAndrii Nakryiko if (d->opts.dont_resolve_fwds) 20399768095bSAndrii Nakryiko continue; 20409768095bSAndrii Nakryiko if (btf_compat_enum(t, cand)) { 20419768095bSAndrii Nakryiko if (btf_is_enum_fwd(t)) { 20429768095bSAndrii Nakryiko /* resolve fwd to full enum */ 20432fc3fc0bSAndrii Nakryiko new_id = cand_id; 20449768095bSAndrii Nakryiko break; 20459768095bSAndrii Nakryiko } 20469768095bSAndrii Nakryiko /* resolve canonical enum fwd to full enum */ 20472fc3fc0bSAndrii Nakryiko d->map[cand_id] = type_id; 20489768095bSAndrii Nakryiko } 2049d5caef5bSAndrii Nakryiko } 2050d5caef5bSAndrii Nakryiko break; 2051d5caef5bSAndrii Nakryiko 2052d5caef5bSAndrii Nakryiko case BTF_KIND_FWD: 2053d5caef5bSAndrii Nakryiko h = btf_hash_common(t); 20542fc3fc0bSAndrii Nakryiko for_each_dedup_cand(d, hash_entry, h) { 20552fc3fc0bSAndrii Nakryiko cand_id = (__u32)(long)hash_entry->value; 20562fc3fc0bSAndrii Nakryiko cand = d->btf->types[cand_id]; 2057d5caef5bSAndrii Nakryiko if (btf_equal_common(t, cand)) { 20582fc3fc0bSAndrii Nakryiko new_id = cand_id; 2059d5caef5bSAndrii Nakryiko break; 2060d5caef5bSAndrii Nakryiko } 2061d5caef5bSAndrii Nakryiko } 2062d5caef5bSAndrii Nakryiko break; 2063d5caef5bSAndrii Nakryiko 2064d5caef5bSAndrii Nakryiko default: 2065d5caef5bSAndrii Nakryiko return -EINVAL; 2066d5caef5bSAndrii Nakryiko } 2067d5caef5bSAndrii Nakryiko 2068d5caef5bSAndrii Nakryiko d->map[type_id] = new_id; 2069d5caef5bSAndrii Nakryiko if (type_id == new_id && btf_dedup_table_add(d, h, type_id)) 2070d5caef5bSAndrii Nakryiko return -ENOMEM; 2071d5caef5bSAndrii Nakryiko 2072d5caef5bSAndrii Nakryiko return 0; 2073d5caef5bSAndrii Nakryiko } 2074d5caef5bSAndrii Nakryiko 2075d5caef5bSAndrii Nakryiko static int btf_dedup_prim_types(struct btf_dedup *d) 2076d5caef5bSAndrii Nakryiko { 2077d5caef5bSAndrii Nakryiko int i, err; 2078d5caef5bSAndrii Nakryiko 2079d5caef5bSAndrii Nakryiko for (i = 1; i <= d->btf->nr_types; i++) { 2080d5caef5bSAndrii Nakryiko err = btf_dedup_prim_type(d, i); 2081d5caef5bSAndrii Nakryiko if (err) 2082d5caef5bSAndrii Nakryiko return err; 2083d5caef5bSAndrii Nakryiko } 2084d5caef5bSAndrii Nakryiko return 0; 2085d5caef5bSAndrii Nakryiko } 2086d5caef5bSAndrii Nakryiko 2087d5caef5bSAndrii Nakryiko /* 2088d5caef5bSAndrii Nakryiko * Check whether type is already mapped into canonical one (could be to itself). 2089d5caef5bSAndrii Nakryiko */ 2090d5caef5bSAndrii Nakryiko static inline bool is_type_mapped(struct btf_dedup *d, uint32_t type_id) 2091d5caef5bSAndrii Nakryiko { 20925aab392cSAndrii Nakryiko return d->map[type_id] <= BTF_MAX_NR_TYPES; 2093d5caef5bSAndrii Nakryiko } 2094d5caef5bSAndrii Nakryiko 2095d5caef5bSAndrii Nakryiko /* 2096d5caef5bSAndrii Nakryiko * Resolve type ID into its canonical type ID, if any; otherwise return original 2097d5caef5bSAndrii Nakryiko * type ID. If type is FWD and is resolved into STRUCT/UNION already, follow 2098d5caef5bSAndrii Nakryiko * STRUCT/UNION link and resolve it into canonical type ID as well. 2099d5caef5bSAndrii Nakryiko */ 2100d5caef5bSAndrii Nakryiko static inline __u32 resolve_type_id(struct btf_dedup *d, __u32 type_id) 2101d5caef5bSAndrii Nakryiko { 2102d5caef5bSAndrii Nakryiko while (is_type_mapped(d, type_id) && d->map[type_id] != type_id) 2103d5caef5bSAndrii Nakryiko type_id = d->map[type_id]; 2104d5caef5bSAndrii Nakryiko return type_id; 2105d5caef5bSAndrii Nakryiko } 2106d5caef5bSAndrii Nakryiko 2107d5caef5bSAndrii Nakryiko /* 2108d5caef5bSAndrii Nakryiko * Resolve FWD to underlying STRUCT/UNION, if any; otherwise return original 2109d5caef5bSAndrii Nakryiko * type ID. 2110d5caef5bSAndrii Nakryiko */ 2111d5caef5bSAndrii Nakryiko static uint32_t resolve_fwd_id(struct btf_dedup *d, uint32_t type_id) 2112d5caef5bSAndrii Nakryiko { 2113d5caef5bSAndrii Nakryiko __u32 orig_type_id = type_id; 2114d5caef5bSAndrii Nakryiko 2115b03bc685SAndrii Nakryiko if (!btf_is_fwd(d->btf->types[type_id])) 2116d5caef5bSAndrii Nakryiko return type_id; 2117d5caef5bSAndrii Nakryiko 2118d5caef5bSAndrii Nakryiko while (is_type_mapped(d, type_id) && d->map[type_id] != type_id) 2119d5caef5bSAndrii Nakryiko type_id = d->map[type_id]; 2120d5caef5bSAndrii Nakryiko 2121b03bc685SAndrii Nakryiko if (!btf_is_fwd(d->btf->types[type_id])) 2122d5caef5bSAndrii Nakryiko return type_id; 2123d5caef5bSAndrii Nakryiko 2124d5caef5bSAndrii Nakryiko return orig_type_id; 2125d5caef5bSAndrii Nakryiko } 2126d5caef5bSAndrii Nakryiko 2127d5caef5bSAndrii Nakryiko 2128d5caef5bSAndrii Nakryiko static inline __u16 btf_fwd_kind(struct btf_type *t) 2129d5caef5bSAndrii Nakryiko { 2130b03bc685SAndrii Nakryiko return btf_kflag(t) ? BTF_KIND_UNION : BTF_KIND_STRUCT; 2131d5caef5bSAndrii Nakryiko } 2132d5caef5bSAndrii Nakryiko 2133d5caef5bSAndrii Nakryiko /* 2134d5caef5bSAndrii Nakryiko * Check equivalence of BTF type graph formed by candidate struct/union (we'll 2135d5caef5bSAndrii Nakryiko * call it "candidate graph" in this description for brevity) to a type graph 2136d5caef5bSAndrii Nakryiko * formed by (potential) canonical struct/union ("canonical graph" for brevity 2137d5caef5bSAndrii Nakryiko * here, though keep in mind that not all types in canonical graph are 2138d5caef5bSAndrii Nakryiko * necessarily canonical representatives themselves, some of them might be 2139d5caef5bSAndrii Nakryiko * duplicates or its uniqueness might not have been established yet). 2140d5caef5bSAndrii Nakryiko * Returns: 2141d5caef5bSAndrii Nakryiko * - >0, if type graphs are equivalent; 2142d5caef5bSAndrii Nakryiko * - 0, if not equivalent; 2143d5caef5bSAndrii Nakryiko * - <0, on error. 2144d5caef5bSAndrii Nakryiko * 2145d5caef5bSAndrii Nakryiko * Algorithm performs side-by-side DFS traversal of both type graphs and checks 2146d5caef5bSAndrii Nakryiko * equivalence of BTF types at each step. If at any point BTF types in candidate 2147d5caef5bSAndrii Nakryiko * and canonical graphs are not compatible structurally, whole graphs are 2148d5caef5bSAndrii Nakryiko * incompatible. If types are structurally equivalent (i.e., all information 2149d5caef5bSAndrii Nakryiko * except referenced type IDs is exactly the same), a mapping from `canon_id` to 2150d5caef5bSAndrii Nakryiko * a `cand_id` is recored in hypothetical mapping (`btf_dedup->hypot_map`). 2151d5caef5bSAndrii Nakryiko * If a type references other types, then those referenced types are checked 2152d5caef5bSAndrii Nakryiko * for equivalence recursively. 2153d5caef5bSAndrii Nakryiko * 2154d5caef5bSAndrii Nakryiko * During DFS traversal, if we find that for current `canon_id` type we 2155d5caef5bSAndrii Nakryiko * already have some mapping in hypothetical map, we check for two possible 2156d5caef5bSAndrii Nakryiko * situations: 2157d5caef5bSAndrii Nakryiko * - `canon_id` is mapped to exactly the same type as `cand_id`. This will 2158d5caef5bSAndrii Nakryiko * happen when type graphs have cycles. In this case we assume those two 2159d5caef5bSAndrii Nakryiko * types are equivalent. 2160d5caef5bSAndrii Nakryiko * - `canon_id` is mapped to different type. This is contradiction in our 2161d5caef5bSAndrii Nakryiko * hypothetical mapping, because same graph in canonical graph corresponds 2162d5caef5bSAndrii Nakryiko * to two different types in candidate graph, which for equivalent type 2163d5caef5bSAndrii Nakryiko * graphs shouldn't happen. This condition terminates equivalence check 2164d5caef5bSAndrii Nakryiko * with negative result. 2165d5caef5bSAndrii Nakryiko * 2166d5caef5bSAndrii Nakryiko * If type graphs traversal exhausts types to check and find no contradiction, 2167d5caef5bSAndrii Nakryiko * then type graphs are equivalent. 2168d5caef5bSAndrii Nakryiko * 2169d5caef5bSAndrii Nakryiko * When checking types for equivalence, there is one special case: FWD types. 2170d5caef5bSAndrii Nakryiko * If FWD type resolution is allowed and one of the types (either from canonical 2171d5caef5bSAndrii Nakryiko * or candidate graph) is FWD and other is STRUCT/UNION (depending on FWD's kind 2172d5caef5bSAndrii Nakryiko * flag) and their names match, hypothetical mapping is updated to point from 2173d5caef5bSAndrii Nakryiko * FWD to STRUCT/UNION. If graphs will be determined as equivalent successfully, 2174d5caef5bSAndrii Nakryiko * this mapping will be used to record FWD -> STRUCT/UNION mapping permanently. 2175d5caef5bSAndrii Nakryiko * 2176d5caef5bSAndrii Nakryiko * Technically, this could lead to incorrect FWD to STRUCT/UNION resolution, 2177d5caef5bSAndrii Nakryiko * if there are two exactly named (or anonymous) structs/unions that are 2178d5caef5bSAndrii Nakryiko * compatible structurally, one of which has FWD field, while other is concrete 2179d5caef5bSAndrii Nakryiko * STRUCT/UNION, but according to C sources they are different structs/unions 2180d5caef5bSAndrii Nakryiko * that are referencing different types with the same name. This is extremely 2181d5caef5bSAndrii Nakryiko * unlikely to happen, but btf_dedup API allows to disable FWD resolution if 2182d5caef5bSAndrii Nakryiko * this logic is causing problems. 2183d5caef5bSAndrii Nakryiko * 2184d5caef5bSAndrii Nakryiko * Doing FWD resolution means that both candidate and/or canonical graphs can 2185d5caef5bSAndrii Nakryiko * consists of portions of the graph that come from multiple compilation units. 2186d5caef5bSAndrii Nakryiko * This is due to the fact that types within single compilation unit are always 2187d5caef5bSAndrii Nakryiko * deduplicated and FWDs are already resolved, if referenced struct/union 2188d5caef5bSAndrii Nakryiko * definiton is available. So, if we had unresolved FWD and found corresponding 2189d5caef5bSAndrii Nakryiko * STRUCT/UNION, they will be from different compilation units. This 2190d5caef5bSAndrii Nakryiko * consequently means that when we "link" FWD to corresponding STRUCT/UNION, 2191d5caef5bSAndrii Nakryiko * type graph will likely have at least two different BTF types that describe 2192d5caef5bSAndrii Nakryiko * same type (e.g., most probably there will be two different BTF types for the 2193d5caef5bSAndrii Nakryiko * same 'int' primitive type) and could even have "overlapping" parts of type 2194d5caef5bSAndrii Nakryiko * graph that describe same subset of types. 2195d5caef5bSAndrii Nakryiko * 2196d5caef5bSAndrii Nakryiko * This in turn means that our assumption that each type in canonical graph 2197d5caef5bSAndrii Nakryiko * must correspond to exactly one type in candidate graph might not hold 2198d5caef5bSAndrii Nakryiko * anymore and will make it harder to detect contradictions using hypothetical 2199d5caef5bSAndrii Nakryiko * map. To handle this problem, we allow to follow FWD -> STRUCT/UNION 2200d5caef5bSAndrii Nakryiko * resolution only in canonical graph. FWDs in candidate graphs are never 2201d5caef5bSAndrii Nakryiko * resolved. To see why it's OK, let's check all possible situations w.r.t. FWDs 2202d5caef5bSAndrii Nakryiko * that can occur: 2203d5caef5bSAndrii Nakryiko * - Both types in canonical and candidate graphs are FWDs. If they are 2204d5caef5bSAndrii Nakryiko * structurally equivalent, then they can either be both resolved to the 2205d5caef5bSAndrii Nakryiko * same STRUCT/UNION or not resolved at all. In both cases they are 2206d5caef5bSAndrii Nakryiko * equivalent and there is no need to resolve FWD on candidate side. 2207d5caef5bSAndrii Nakryiko * - Both types in canonical and candidate graphs are concrete STRUCT/UNION, 2208d5caef5bSAndrii Nakryiko * so nothing to resolve as well, algorithm will check equivalence anyway. 2209d5caef5bSAndrii Nakryiko * - Type in canonical graph is FWD, while type in candidate is concrete 2210d5caef5bSAndrii Nakryiko * STRUCT/UNION. In this case candidate graph comes from single compilation 2211d5caef5bSAndrii Nakryiko * unit, so there is exactly one BTF type for each unique C type. After 2212d5caef5bSAndrii Nakryiko * resolving FWD into STRUCT/UNION, there might be more than one BTF type 2213d5caef5bSAndrii Nakryiko * in canonical graph mapping to single BTF type in candidate graph, but 2214d5caef5bSAndrii Nakryiko * because hypothetical mapping maps from canonical to candidate types, it's 2215d5caef5bSAndrii Nakryiko * alright, and we still maintain the property of having single `canon_id` 2216d5caef5bSAndrii Nakryiko * mapping to single `cand_id` (there could be two different `canon_id` 2217d5caef5bSAndrii Nakryiko * mapped to the same `cand_id`, but it's not contradictory). 2218d5caef5bSAndrii Nakryiko * - Type in canonical graph is concrete STRUCT/UNION, while type in candidate 2219d5caef5bSAndrii Nakryiko * graph is FWD. In this case we are just going to check compatibility of 2220d5caef5bSAndrii Nakryiko * STRUCT/UNION and corresponding FWD, and if they are compatible, we'll 2221d5caef5bSAndrii Nakryiko * assume that whatever STRUCT/UNION FWD resolves to must be equivalent to 2222d5caef5bSAndrii Nakryiko * a concrete STRUCT/UNION from canonical graph. If the rest of type graphs 2223d5caef5bSAndrii Nakryiko * turn out equivalent, we'll re-resolve FWD to concrete STRUCT/UNION from 2224d5caef5bSAndrii Nakryiko * canonical graph. 2225d5caef5bSAndrii Nakryiko */ 2226d5caef5bSAndrii Nakryiko static int btf_dedup_is_equiv(struct btf_dedup *d, __u32 cand_id, 2227d5caef5bSAndrii Nakryiko __u32 canon_id) 2228d5caef5bSAndrii Nakryiko { 2229d5caef5bSAndrii Nakryiko struct btf_type *cand_type; 2230d5caef5bSAndrii Nakryiko struct btf_type *canon_type; 2231d5caef5bSAndrii Nakryiko __u32 hypot_type_id; 2232d5caef5bSAndrii Nakryiko __u16 cand_kind; 2233d5caef5bSAndrii Nakryiko __u16 canon_kind; 2234d5caef5bSAndrii Nakryiko int i, eq; 2235d5caef5bSAndrii Nakryiko 2236d5caef5bSAndrii Nakryiko /* if both resolve to the same canonical, they must be equivalent */ 2237d5caef5bSAndrii Nakryiko if (resolve_type_id(d, cand_id) == resolve_type_id(d, canon_id)) 2238d5caef5bSAndrii Nakryiko return 1; 2239d5caef5bSAndrii Nakryiko 2240d5caef5bSAndrii Nakryiko canon_id = resolve_fwd_id(d, canon_id); 2241d5caef5bSAndrii Nakryiko 2242d5caef5bSAndrii Nakryiko hypot_type_id = d->hypot_map[canon_id]; 22435aab392cSAndrii Nakryiko if (hypot_type_id <= BTF_MAX_NR_TYPES) 2244d5caef5bSAndrii Nakryiko return hypot_type_id == cand_id; 2245d5caef5bSAndrii Nakryiko 2246d5caef5bSAndrii Nakryiko if (btf_dedup_hypot_map_add(d, canon_id, cand_id)) 2247d5caef5bSAndrii Nakryiko return -ENOMEM; 2248d5caef5bSAndrii Nakryiko 2249d5caef5bSAndrii Nakryiko cand_type = d->btf->types[cand_id]; 2250d5caef5bSAndrii Nakryiko canon_type = d->btf->types[canon_id]; 2251b03bc685SAndrii Nakryiko cand_kind = btf_kind(cand_type); 2252b03bc685SAndrii Nakryiko canon_kind = btf_kind(canon_type); 2253d5caef5bSAndrii Nakryiko 2254d5caef5bSAndrii Nakryiko if (cand_type->name_off != canon_type->name_off) 2255d5caef5bSAndrii Nakryiko return 0; 2256d5caef5bSAndrii Nakryiko 2257d5caef5bSAndrii Nakryiko /* FWD <--> STRUCT/UNION equivalence check, if enabled */ 2258d5caef5bSAndrii Nakryiko if (!d->opts.dont_resolve_fwds 2259d5caef5bSAndrii Nakryiko && (cand_kind == BTF_KIND_FWD || canon_kind == BTF_KIND_FWD) 2260d5caef5bSAndrii Nakryiko && cand_kind != canon_kind) { 2261d5caef5bSAndrii Nakryiko __u16 real_kind; 2262d5caef5bSAndrii Nakryiko __u16 fwd_kind; 2263d5caef5bSAndrii Nakryiko 2264d5caef5bSAndrii Nakryiko if (cand_kind == BTF_KIND_FWD) { 2265d5caef5bSAndrii Nakryiko real_kind = canon_kind; 2266d5caef5bSAndrii Nakryiko fwd_kind = btf_fwd_kind(cand_type); 2267d5caef5bSAndrii Nakryiko } else { 2268d5caef5bSAndrii Nakryiko real_kind = cand_kind; 2269d5caef5bSAndrii Nakryiko fwd_kind = btf_fwd_kind(canon_type); 2270d5caef5bSAndrii Nakryiko } 2271d5caef5bSAndrii Nakryiko return fwd_kind == real_kind; 2272d5caef5bSAndrii Nakryiko } 2273d5caef5bSAndrii Nakryiko 22749ec71c1cSAndrii Nakryiko if (cand_kind != canon_kind) 22759ec71c1cSAndrii Nakryiko return 0; 22769ec71c1cSAndrii Nakryiko 2277d5caef5bSAndrii Nakryiko switch (cand_kind) { 2278d5caef5bSAndrii Nakryiko case BTF_KIND_INT: 2279d5caef5bSAndrii Nakryiko return btf_equal_int(cand_type, canon_type); 2280d5caef5bSAndrii Nakryiko 2281d5caef5bSAndrii Nakryiko case BTF_KIND_ENUM: 22829768095bSAndrii Nakryiko if (d->opts.dont_resolve_fwds) 2283d5caef5bSAndrii Nakryiko return btf_equal_enum(cand_type, canon_type); 22849768095bSAndrii Nakryiko else 22859768095bSAndrii Nakryiko return btf_compat_enum(cand_type, canon_type); 2286d5caef5bSAndrii Nakryiko 2287d5caef5bSAndrii Nakryiko case BTF_KIND_FWD: 2288d5caef5bSAndrii Nakryiko return btf_equal_common(cand_type, canon_type); 2289d5caef5bSAndrii Nakryiko 2290d5caef5bSAndrii Nakryiko case BTF_KIND_CONST: 2291d5caef5bSAndrii Nakryiko case BTF_KIND_VOLATILE: 2292d5caef5bSAndrii Nakryiko case BTF_KIND_RESTRICT: 2293d5caef5bSAndrii Nakryiko case BTF_KIND_PTR: 2294d5caef5bSAndrii Nakryiko case BTF_KIND_TYPEDEF: 2295d5caef5bSAndrii Nakryiko case BTF_KIND_FUNC: 22969768095bSAndrii Nakryiko if (cand_type->info != canon_type->info) 22979768095bSAndrii Nakryiko return 0; 2298d5caef5bSAndrii Nakryiko return btf_dedup_is_equiv(d, cand_type->type, canon_type->type); 2299d5caef5bSAndrii Nakryiko 2300d5caef5bSAndrii Nakryiko case BTF_KIND_ARRAY: { 2301b03bc685SAndrii Nakryiko const struct btf_array *cand_arr, *canon_arr; 2302d5caef5bSAndrii Nakryiko 2303d5caef5bSAndrii Nakryiko if (!btf_compat_array(cand_type, canon_type)) 2304d5caef5bSAndrii Nakryiko return 0; 2305b03bc685SAndrii Nakryiko cand_arr = btf_array(cand_type); 2306b03bc685SAndrii Nakryiko canon_arr = btf_array(canon_type); 2307d5caef5bSAndrii Nakryiko eq = btf_dedup_is_equiv(d, 2308d5caef5bSAndrii Nakryiko cand_arr->index_type, canon_arr->index_type); 2309d5caef5bSAndrii Nakryiko if (eq <= 0) 2310d5caef5bSAndrii Nakryiko return eq; 2311d5caef5bSAndrii Nakryiko return btf_dedup_is_equiv(d, cand_arr->type, canon_arr->type); 2312d5caef5bSAndrii Nakryiko } 2313d5caef5bSAndrii Nakryiko 2314d5caef5bSAndrii Nakryiko case BTF_KIND_STRUCT: 2315d5caef5bSAndrii Nakryiko case BTF_KIND_UNION: { 2316b03bc685SAndrii Nakryiko const struct btf_member *cand_m, *canon_m; 2317d5caef5bSAndrii Nakryiko __u16 vlen; 2318d5caef5bSAndrii Nakryiko 231991097fbeSAndrii Nakryiko if (!btf_shallow_equal_struct(cand_type, canon_type)) 2320d5caef5bSAndrii Nakryiko return 0; 2321b03bc685SAndrii Nakryiko vlen = btf_vlen(cand_type); 2322b03bc685SAndrii Nakryiko cand_m = btf_members(cand_type); 2323b03bc685SAndrii Nakryiko canon_m = btf_members(canon_type); 2324d5caef5bSAndrii Nakryiko for (i = 0; i < vlen; i++) { 2325d5caef5bSAndrii Nakryiko eq = btf_dedup_is_equiv(d, cand_m->type, canon_m->type); 2326d5caef5bSAndrii Nakryiko if (eq <= 0) 2327d5caef5bSAndrii Nakryiko return eq; 2328d5caef5bSAndrii Nakryiko cand_m++; 2329d5caef5bSAndrii Nakryiko canon_m++; 2330d5caef5bSAndrii Nakryiko } 2331d5caef5bSAndrii Nakryiko 2332d5caef5bSAndrii Nakryiko return 1; 2333d5caef5bSAndrii Nakryiko } 2334d5caef5bSAndrii Nakryiko 2335d5caef5bSAndrii Nakryiko case BTF_KIND_FUNC_PROTO: { 2336b03bc685SAndrii Nakryiko const struct btf_param *cand_p, *canon_p; 2337d5caef5bSAndrii Nakryiko __u16 vlen; 2338d5caef5bSAndrii Nakryiko 2339d5caef5bSAndrii Nakryiko if (!btf_compat_fnproto(cand_type, canon_type)) 2340d5caef5bSAndrii Nakryiko return 0; 2341d5caef5bSAndrii Nakryiko eq = btf_dedup_is_equiv(d, cand_type->type, canon_type->type); 2342d5caef5bSAndrii Nakryiko if (eq <= 0) 2343d5caef5bSAndrii Nakryiko return eq; 2344b03bc685SAndrii Nakryiko vlen = btf_vlen(cand_type); 2345b03bc685SAndrii Nakryiko cand_p = btf_params(cand_type); 2346b03bc685SAndrii Nakryiko canon_p = btf_params(canon_type); 2347d5caef5bSAndrii Nakryiko for (i = 0; i < vlen; i++) { 2348d5caef5bSAndrii Nakryiko eq = btf_dedup_is_equiv(d, cand_p->type, canon_p->type); 2349d5caef5bSAndrii Nakryiko if (eq <= 0) 2350d5caef5bSAndrii Nakryiko return eq; 2351d5caef5bSAndrii Nakryiko cand_p++; 2352d5caef5bSAndrii Nakryiko canon_p++; 2353d5caef5bSAndrii Nakryiko } 2354d5caef5bSAndrii Nakryiko return 1; 2355d5caef5bSAndrii Nakryiko } 2356d5caef5bSAndrii Nakryiko 2357d5caef5bSAndrii Nakryiko default: 2358d5caef5bSAndrii Nakryiko return -EINVAL; 2359d5caef5bSAndrii Nakryiko } 2360d5caef5bSAndrii Nakryiko return 0; 2361d5caef5bSAndrii Nakryiko } 2362d5caef5bSAndrii Nakryiko 2363d5caef5bSAndrii Nakryiko /* 2364d5caef5bSAndrii Nakryiko * Use hypothetical mapping, produced by successful type graph equivalence 2365d5caef5bSAndrii Nakryiko * check, to augment existing struct/union canonical mapping, where possible. 2366d5caef5bSAndrii Nakryiko * 2367d5caef5bSAndrii Nakryiko * If BTF_KIND_FWD resolution is allowed, this mapping is also used to record 2368d5caef5bSAndrii Nakryiko * FWD -> STRUCT/UNION correspondence as well. FWD resolution is bidirectional: 2369d5caef5bSAndrii Nakryiko * it doesn't matter if FWD type was part of canonical graph or candidate one, 2370d5caef5bSAndrii Nakryiko * we are recording the mapping anyway. As opposed to carefulness required 2371d5caef5bSAndrii Nakryiko * for struct/union correspondence mapping (described below), for FWD resolution 2372d5caef5bSAndrii Nakryiko * it's not important, as by the time that FWD type (reference type) will be 2373d5caef5bSAndrii Nakryiko * deduplicated all structs/unions will be deduped already anyway. 2374d5caef5bSAndrii Nakryiko * 2375d5caef5bSAndrii Nakryiko * Recording STRUCT/UNION mapping is purely a performance optimization and is 2376d5caef5bSAndrii Nakryiko * not required for correctness. It needs to be done carefully to ensure that 2377d5caef5bSAndrii Nakryiko * struct/union from candidate's type graph is not mapped into corresponding 2378d5caef5bSAndrii Nakryiko * struct/union from canonical type graph that itself hasn't been resolved into 2379d5caef5bSAndrii Nakryiko * canonical representative. The only guarantee we have is that canonical 2380d5caef5bSAndrii Nakryiko * struct/union was determined as canonical and that won't change. But any 2381d5caef5bSAndrii Nakryiko * types referenced through that struct/union fields could have been not yet 2382d5caef5bSAndrii Nakryiko * resolved, so in case like that it's too early to establish any kind of 2383d5caef5bSAndrii Nakryiko * correspondence between structs/unions. 2384d5caef5bSAndrii Nakryiko * 2385d5caef5bSAndrii Nakryiko * No canonical correspondence is derived for primitive types (they are already 2386d5caef5bSAndrii Nakryiko * deduplicated completely already anyway) or reference types (they rely on 2387d5caef5bSAndrii Nakryiko * stability of struct/union canonical relationship for equivalence checks). 2388d5caef5bSAndrii Nakryiko */ 2389d5caef5bSAndrii Nakryiko static void btf_dedup_merge_hypot_map(struct btf_dedup *d) 2390d5caef5bSAndrii Nakryiko { 2391d5caef5bSAndrii Nakryiko __u32 cand_type_id, targ_type_id; 2392d5caef5bSAndrii Nakryiko __u16 t_kind, c_kind; 2393d5caef5bSAndrii Nakryiko __u32 t_id, c_id; 2394d5caef5bSAndrii Nakryiko int i; 2395d5caef5bSAndrii Nakryiko 2396d5caef5bSAndrii Nakryiko for (i = 0; i < d->hypot_cnt; i++) { 2397d5caef5bSAndrii Nakryiko cand_type_id = d->hypot_list[i]; 2398d5caef5bSAndrii Nakryiko targ_type_id = d->hypot_map[cand_type_id]; 2399d5caef5bSAndrii Nakryiko t_id = resolve_type_id(d, targ_type_id); 2400d5caef5bSAndrii Nakryiko c_id = resolve_type_id(d, cand_type_id); 2401b03bc685SAndrii Nakryiko t_kind = btf_kind(d->btf->types[t_id]); 2402b03bc685SAndrii Nakryiko c_kind = btf_kind(d->btf->types[c_id]); 2403d5caef5bSAndrii Nakryiko /* 2404d5caef5bSAndrii Nakryiko * Resolve FWD into STRUCT/UNION. 2405d5caef5bSAndrii Nakryiko * It's ok to resolve FWD into STRUCT/UNION that's not yet 2406d5caef5bSAndrii Nakryiko * mapped to canonical representative (as opposed to 2407d5caef5bSAndrii Nakryiko * STRUCT/UNION <--> STRUCT/UNION mapping logic below), because 2408d5caef5bSAndrii Nakryiko * eventually that struct is going to be mapped and all resolved 2409d5caef5bSAndrii Nakryiko * FWDs will automatically resolve to correct canonical 2410d5caef5bSAndrii Nakryiko * representative. This will happen before ref type deduping, 2411d5caef5bSAndrii Nakryiko * which critically depends on stability of these mapping. This 2412d5caef5bSAndrii Nakryiko * stability is not a requirement for STRUCT/UNION equivalence 2413d5caef5bSAndrii Nakryiko * checks, though. 2414d5caef5bSAndrii Nakryiko */ 2415d5caef5bSAndrii Nakryiko if (t_kind != BTF_KIND_FWD && c_kind == BTF_KIND_FWD) 2416d5caef5bSAndrii Nakryiko d->map[c_id] = t_id; 2417d5caef5bSAndrii Nakryiko else if (t_kind == BTF_KIND_FWD && c_kind != BTF_KIND_FWD) 2418d5caef5bSAndrii Nakryiko d->map[t_id] = c_id; 2419d5caef5bSAndrii Nakryiko 2420d5caef5bSAndrii Nakryiko if ((t_kind == BTF_KIND_STRUCT || t_kind == BTF_KIND_UNION) && 2421d5caef5bSAndrii Nakryiko c_kind != BTF_KIND_FWD && 2422d5caef5bSAndrii Nakryiko is_type_mapped(d, c_id) && 2423d5caef5bSAndrii Nakryiko !is_type_mapped(d, t_id)) { 2424d5caef5bSAndrii Nakryiko /* 2425d5caef5bSAndrii Nakryiko * as a perf optimization, we can map struct/union 2426d5caef5bSAndrii Nakryiko * that's part of type graph we just verified for 2427d5caef5bSAndrii Nakryiko * equivalence. We can do that for struct/union that has 2428d5caef5bSAndrii Nakryiko * canonical representative only, though. 2429d5caef5bSAndrii Nakryiko */ 2430d5caef5bSAndrii Nakryiko d->map[t_id] = c_id; 2431d5caef5bSAndrii Nakryiko } 2432d5caef5bSAndrii Nakryiko } 2433d5caef5bSAndrii Nakryiko } 2434d5caef5bSAndrii Nakryiko 2435d5caef5bSAndrii Nakryiko /* 2436d5caef5bSAndrii Nakryiko * Deduplicate struct/union types. 2437d5caef5bSAndrii Nakryiko * 2438d5caef5bSAndrii Nakryiko * For each struct/union type its type signature hash is calculated, taking 2439d5caef5bSAndrii Nakryiko * into account type's name, size, number, order and names of fields, but 2440d5caef5bSAndrii Nakryiko * ignoring type ID's referenced from fields, because they might not be deduped 2441d5caef5bSAndrii Nakryiko * completely until after reference types deduplication phase. This type hash 2442d5caef5bSAndrii Nakryiko * is used to iterate over all potential canonical types, sharing same hash. 2443d5caef5bSAndrii Nakryiko * For each canonical candidate we check whether type graphs that they form 2444d5caef5bSAndrii Nakryiko * (through referenced types in fields and so on) are equivalent using algorithm 2445d5caef5bSAndrii Nakryiko * implemented in `btf_dedup_is_equiv`. If such equivalence is found and 2446d5caef5bSAndrii Nakryiko * BTF_KIND_FWD resolution is allowed, then hypothetical mapping 2447d5caef5bSAndrii Nakryiko * (btf_dedup->hypot_map) produced by aforementioned type graph equivalence 2448d5caef5bSAndrii Nakryiko * algorithm is used to record FWD -> STRUCT/UNION mapping. It's also used to 2449d5caef5bSAndrii Nakryiko * potentially map other structs/unions to their canonical representatives, 2450d5caef5bSAndrii Nakryiko * if such relationship hasn't yet been established. This speeds up algorithm 2451d5caef5bSAndrii Nakryiko * by eliminating some of the duplicate work. 2452d5caef5bSAndrii Nakryiko * 2453d5caef5bSAndrii Nakryiko * If no matching canonical representative was found, struct/union is marked 2454d5caef5bSAndrii Nakryiko * as canonical for itself and is added into btf_dedup->dedup_table hash map 2455d5caef5bSAndrii Nakryiko * for further look ups. 2456d5caef5bSAndrii Nakryiko */ 2457d5caef5bSAndrii Nakryiko static int btf_dedup_struct_type(struct btf_dedup *d, __u32 type_id) 2458d5caef5bSAndrii Nakryiko { 245991097fbeSAndrii Nakryiko struct btf_type *cand_type, *t; 24602fc3fc0bSAndrii Nakryiko struct hashmap_entry *hash_entry; 2461d5caef5bSAndrii Nakryiko /* if we don't find equivalent type, then we are canonical */ 2462d5caef5bSAndrii Nakryiko __u32 new_id = type_id; 2463d5caef5bSAndrii Nakryiko __u16 kind; 24642fc3fc0bSAndrii Nakryiko long h; 2465d5caef5bSAndrii Nakryiko 2466d5caef5bSAndrii Nakryiko /* already deduped or is in process of deduping (loop detected) */ 24675aab392cSAndrii Nakryiko if (d->map[type_id] <= BTF_MAX_NR_TYPES) 2468d5caef5bSAndrii Nakryiko return 0; 2469d5caef5bSAndrii Nakryiko 2470d5caef5bSAndrii Nakryiko t = d->btf->types[type_id]; 2471b03bc685SAndrii Nakryiko kind = btf_kind(t); 2472d5caef5bSAndrii Nakryiko 2473d5caef5bSAndrii Nakryiko if (kind != BTF_KIND_STRUCT && kind != BTF_KIND_UNION) 2474d5caef5bSAndrii Nakryiko return 0; 2475d5caef5bSAndrii Nakryiko 2476d5caef5bSAndrii Nakryiko h = btf_hash_struct(t); 24772fc3fc0bSAndrii Nakryiko for_each_dedup_cand(d, hash_entry, h) { 24782fc3fc0bSAndrii Nakryiko __u32 cand_id = (__u32)(long)hash_entry->value; 2479d5caef5bSAndrii Nakryiko int eq; 2480d5caef5bSAndrii Nakryiko 248191097fbeSAndrii Nakryiko /* 248291097fbeSAndrii Nakryiko * Even though btf_dedup_is_equiv() checks for 248391097fbeSAndrii Nakryiko * btf_shallow_equal_struct() internally when checking two 248491097fbeSAndrii Nakryiko * structs (unions) for equivalence, we need to guard here 248591097fbeSAndrii Nakryiko * from picking matching FWD type as a dedup candidate. 248691097fbeSAndrii Nakryiko * This can happen due to hash collision. In such case just 248791097fbeSAndrii Nakryiko * relying on btf_dedup_is_equiv() would lead to potentially 248891097fbeSAndrii Nakryiko * creating a loop (FWD -> STRUCT and STRUCT -> FWD), because 248991097fbeSAndrii Nakryiko * FWD and compatible STRUCT/UNION are considered equivalent. 249091097fbeSAndrii Nakryiko */ 24912fc3fc0bSAndrii Nakryiko cand_type = d->btf->types[cand_id]; 249291097fbeSAndrii Nakryiko if (!btf_shallow_equal_struct(t, cand_type)) 249391097fbeSAndrii Nakryiko continue; 249491097fbeSAndrii Nakryiko 2495d5caef5bSAndrii Nakryiko btf_dedup_clear_hypot_map(d); 24962fc3fc0bSAndrii Nakryiko eq = btf_dedup_is_equiv(d, type_id, cand_id); 2497d5caef5bSAndrii Nakryiko if (eq < 0) 2498d5caef5bSAndrii Nakryiko return eq; 2499d5caef5bSAndrii Nakryiko if (!eq) 2500d5caef5bSAndrii Nakryiko continue; 25012fc3fc0bSAndrii Nakryiko new_id = cand_id; 2502d5caef5bSAndrii Nakryiko btf_dedup_merge_hypot_map(d); 2503d5caef5bSAndrii Nakryiko break; 2504d5caef5bSAndrii Nakryiko } 2505d5caef5bSAndrii Nakryiko 2506d5caef5bSAndrii Nakryiko d->map[type_id] = new_id; 2507d5caef5bSAndrii Nakryiko if (type_id == new_id && btf_dedup_table_add(d, h, type_id)) 2508d5caef5bSAndrii Nakryiko return -ENOMEM; 2509d5caef5bSAndrii Nakryiko 2510d5caef5bSAndrii Nakryiko return 0; 2511d5caef5bSAndrii Nakryiko } 2512d5caef5bSAndrii Nakryiko 2513d5caef5bSAndrii Nakryiko static int btf_dedup_struct_types(struct btf_dedup *d) 2514d5caef5bSAndrii Nakryiko { 2515d5caef5bSAndrii Nakryiko int i, err; 2516d5caef5bSAndrii Nakryiko 2517d5caef5bSAndrii Nakryiko for (i = 1; i <= d->btf->nr_types; i++) { 2518d5caef5bSAndrii Nakryiko err = btf_dedup_struct_type(d, i); 2519d5caef5bSAndrii Nakryiko if (err) 2520d5caef5bSAndrii Nakryiko return err; 2521d5caef5bSAndrii Nakryiko } 2522d5caef5bSAndrii Nakryiko return 0; 2523d5caef5bSAndrii Nakryiko } 2524d5caef5bSAndrii Nakryiko 2525d5caef5bSAndrii Nakryiko /* 2526d5caef5bSAndrii Nakryiko * Deduplicate reference type. 2527d5caef5bSAndrii Nakryiko * 2528d5caef5bSAndrii Nakryiko * Once all primitive and struct/union types got deduplicated, we can easily 2529d5caef5bSAndrii Nakryiko * deduplicate all other (reference) BTF types. This is done in two steps: 2530d5caef5bSAndrii Nakryiko * 2531d5caef5bSAndrii Nakryiko * 1. Resolve all referenced type IDs into their canonical type IDs. This 2532d5caef5bSAndrii Nakryiko * resolution can be done either immediately for primitive or struct/union types 2533d5caef5bSAndrii Nakryiko * (because they were deduped in previous two phases) or recursively for 2534d5caef5bSAndrii Nakryiko * reference types. Recursion will always terminate at either primitive or 2535d5caef5bSAndrii Nakryiko * struct/union type, at which point we can "unwind" chain of reference types 2536d5caef5bSAndrii Nakryiko * one by one. There is no danger of encountering cycles because in C type 2537d5caef5bSAndrii Nakryiko * system the only way to form type cycle is through struct/union, so any chain 2538d5caef5bSAndrii Nakryiko * of reference types, even those taking part in a type cycle, will inevitably 2539d5caef5bSAndrii Nakryiko * reach struct/union at some point. 2540d5caef5bSAndrii Nakryiko * 2541d5caef5bSAndrii Nakryiko * 2. Once all referenced type IDs are resolved into canonical ones, BTF type 2542d5caef5bSAndrii Nakryiko * becomes "stable", in the sense that no further deduplication will cause 2543d5caef5bSAndrii Nakryiko * any changes to it. With that, it's now possible to calculate type's signature 2544d5caef5bSAndrii Nakryiko * hash (this time taking into account referenced type IDs) and loop over all 2545d5caef5bSAndrii Nakryiko * potential canonical representatives. If no match was found, current type 2546d5caef5bSAndrii Nakryiko * will become canonical representative of itself and will be added into 2547d5caef5bSAndrii Nakryiko * btf_dedup->dedup_table as another possible canonical representative. 2548d5caef5bSAndrii Nakryiko */ 2549d5caef5bSAndrii Nakryiko static int btf_dedup_ref_type(struct btf_dedup *d, __u32 type_id) 2550d5caef5bSAndrii Nakryiko { 25512fc3fc0bSAndrii Nakryiko struct hashmap_entry *hash_entry; 25522fc3fc0bSAndrii Nakryiko __u32 new_id = type_id, cand_id; 2553d5caef5bSAndrii Nakryiko struct btf_type *t, *cand; 2554d5caef5bSAndrii Nakryiko /* if we don't find equivalent type, then we are representative type */ 25553d8669e6SDan Carpenter int ref_type_id; 25562fc3fc0bSAndrii Nakryiko long h; 2557d5caef5bSAndrii Nakryiko 2558d5caef5bSAndrii Nakryiko if (d->map[type_id] == BTF_IN_PROGRESS_ID) 2559d5caef5bSAndrii Nakryiko return -ELOOP; 25605aab392cSAndrii Nakryiko if (d->map[type_id] <= BTF_MAX_NR_TYPES) 2561d5caef5bSAndrii Nakryiko return resolve_type_id(d, type_id); 2562d5caef5bSAndrii Nakryiko 2563d5caef5bSAndrii Nakryiko t = d->btf->types[type_id]; 2564d5caef5bSAndrii Nakryiko d->map[type_id] = BTF_IN_PROGRESS_ID; 2565d5caef5bSAndrii Nakryiko 2566b03bc685SAndrii Nakryiko switch (btf_kind(t)) { 2567d5caef5bSAndrii Nakryiko case BTF_KIND_CONST: 2568d5caef5bSAndrii Nakryiko case BTF_KIND_VOLATILE: 2569d5caef5bSAndrii Nakryiko case BTF_KIND_RESTRICT: 2570d5caef5bSAndrii Nakryiko case BTF_KIND_PTR: 2571d5caef5bSAndrii Nakryiko case BTF_KIND_TYPEDEF: 2572d5caef5bSAndrii Nakryiko case BTF_KIND_FUNC: 2573d5caef5bSAndrii Nakryiko ref_type_id = btf_dedup_ref_type(d, t->type); 2574d5caef5bSAndrii Nakryiko if (ref_type_id < 0) 2575d5caef5bSAndrii Nakryiko return ref_type_id; 2576d5caef5bSAndrii Nakryiko t->type = ref_type_id; 2577d5caef5bSAndrii Nakryiko 2578d5caef5bSAndrii Nakryiko h = btf_hash_common(t); 25792fc3fc0bSAndrii Nakryiko for_each_dedup_cand(d, hash_entry, h) { 25802fc3fc0bSAndrii Nakryiko cand_id = (__u32)(long)hash_entry->value; 25812fc3fc0bSAndrii Nakryiko cand = d->btf->types[cand_id]; 2582d5caef5bSAndrii Nakryiko if (btf_equal_common(t, cand)) { 25832fc3fc0bSAndrii Nakryiko new_id = cand_id; 2584d5caef5bSAndrii Nakryiko break; 2585d5caef5bSAndrii Nakryiko } 2586d5caef5bSAndrii Nakryiko } 2587d5caef5bSAndrii Nakryiko break; 2588d5caef5bSAndrii Nakryiko 2589d5caef5bSAndrii Nakryiko case BTF_KIND_ARRAY: { 2590b03bc685SAndrii Nakryiko struct btf_array *info = btf_array(t); 2591d5caef5bSAndrii Nakryiko 2592d5caef5bSAndrii Nakryiko ref_type_id = btf_dedup_ref_type(d, info->type); 2593d5caef5bSAndrii Nakryiko if (ref_type_id < 0) 2594d5caef5bSAndrii Nakryiko return ref_type_id; 2595d5caef5bSAndrii Nakryiko info->type = ref_type_id; 2596d5caef5bSAndrii Nakryiko 2597d5caef5bSAndrii Nakryiko ref_type_id = btf_dedup_ref_type(d, info->index_type); 2598d5caef5bSAndrii Nakryiko if (ref_type_id < 0) 2599d5caef5bSAndrii Nakryiko return ref_type_id; 2600d5caef5bSAndrii Nakryiko info->index_type = ref_type_id; 2601d5caef5bSAndrii Nakryiko 2602d5caef5bSAndrii Nakryiko h = btf_hash_array(t); 26032fc3fc0bSAndrii Nakryiko for_each_dedup_cand(d, hash_entry, h) { 26042fc3fc0bSAndrii Nakryiko cand_id = (__u32)(long)hash_entry->value; 26052fc3fc0bSAndrii Nakryiko cand = d->btf->types[cand_id]; 2606d5caef5bSAndrii Nakryiko if (btf_equal_array(t, cand)) { 26072fc3fc0bSAndrii Nakryiko new_id = cand_id; 2608d5caef5bSAndrii Nakryiko break; 2609d5caef5bSAndrii Nakryiko } 2610d5caef5bSAndrii Nakryiko } 2611d5caef5bSAndrii Nakryiko break; 2612d5caef5bSAndrii Nakryiko } 2613d5caef5bSAndrii Nakryiko 2614d5caef5bSAndrii Nakryiko case BTF_KIND_FUNC_PROTO: { 2615d5caef5bSAndrii Nakryiko struct btf_param *param; 2616d5caef5bSAndrii Nakryiko __u16 vlen; 2617d5caef5bSAndrii Nakryiko int i; 2618d5caef5bSAndrii Nakryiko 2619d5caef5bSAndrii Nakryiko ref_type_id = btf_dedup_ref_type(d, t->type); 2620d5caef5bSAndrii Nakryiko if (ref_type_id < 0) 2621d5caef5bSAndrii Nakryiko return ref_type_id; 2622d5caef5bSAndrii Nakryiko t->type = ref_type_id; 2623d5caef5bSAndrii Nakryiko 2624b03bc685SAndrii Nakryiko vlen = btf_vlen(t); 2625b03bc685SAndrii Nakryiko param = btf_params(t); 2626d5caef5bSAndrii Nakryiko for (i = 0; i < vlen; i++) { 2627d5caef5bSAndrii Nakryiko ref_type_id = btf_dedup_ref_type(d, param->type); 2628d5caef5bSAndrii Nakryiko if (ref_type_id < 0) 2629d5caef5bSAndrii Nakryiko return ref_type_id; 2630d5caef5bSAndrii Nakryiko param->type = ref_type_id; 2631d5caef5bSAndrii Nakryiko param++; 2632d5caef5bSAndrii Nakryiko } 2633d5caef5bSAndrii Nakryiko 2634d5caef5bSAndrii Nakryiko h = btf_hash_fnproto(t); 26352fc3fc0bSAndrii Nakryiko for_each_dedup_cand(d, hash_entry, h) { 26362fc3fc0bSAndrii Nakryiko cand_id = (__u32)(long)hash_entry->value; 26372fc3fc0bSAndrii Nakryiko cand = d->btf->types[cand_id]; 2638d5caef5bSAndrii Nakryiko if (btf_equal_fnproto(t, cand)) { 26392fc3fc0bSAndrii Nakryiko new_id = cand_id; 2640d5caef5bSAndrii Nakryiko break; 2641d5caef5bSAndrii Nakryiko } 2642d5caef5bSAndrii Nakryiko } 2643d5caef5bSAndrii Nakryiko break; 2644d5caef5bSAndrii Nakryiko } 2645d5caef5bSAndrii Nakryiko 2646d5caef5bSAndrii Nakryiko default: 2647d5caef5bSAndrii Nakryiko return -EINVAL; 2648d5caef5bSAndrii Nakryiko } 2649d5caef5bSAndrii Nakryiko 2650d5caef5bSAndrii Nakryiko d->map[type_id] = new_id; 2651d5caef5bSAndrii Nakryiko if (type_id == new_id && btf_dedup_table_add(d, h, type_id)) 2652d5caef5bSAndrii Nakryiko return -ENOMEM; 2653d5caef5bSAndrii Nakryiko 2654d5caef5bSAndrii Nakryiko return new_id; 2655d5caef5bSAndrii Nakryiko } 2656d5caef5bSAndrii Nakryiko 2657d5caef5bSAndrii Nakryiko static int btf_dedup_ref_types(struct btf_dedup *d) 2658d5caef5bSAndrii Nakryiko { 2659d5caef5bSAndrii Nakryiko int i, err; 2660d5caef5bSAndrii Nakryiko 2661d5caef5bSAndrii Nakryiko for (i = 1; i <= d->btf->nr_types; i++) { 2662d5caef5bSAndrii Nakryiko err = btf_dedup_ref_type(d, i); 2663d5caef5bSAndrii Nakryiko if (err < 0) 2664d5caef5bSAndrii Nakryiko return err; 2665d5caef5bSAndrii Nakryiko } 26662fc3fc0bSAndrii Nakryiko /* we won't need d->dedup_table anymore */ 26672fc3fc0bSAndrii Nakryiko hashmap__free(d->dedup_table); 26682fc3fc0bSAndrii Nakryiko d->dedup_table = NULL; 2669d5caef5bSAndrii Nakryiko return 0; 2670d5caef5bSAndrii Nakryiko } 2671d5caef5bSAndrii Nakryiko 2672d5caef5bSAndrii Nakryiko /* 2673d5caef5bSAndrii Nakryiko * Compact types. 2674d5caef5bSAndrii Nakryiko * 2675d5caef5bSAndrii Nakryiko * After we established for each type its corresponding canonical representative 2676d5caef5bSAndrii Nakryiko * type, we now can eliminate types that are not canonical and leave only 2677d5caef5bSAndrii Nakryiko * canonical ones layed out sequentially in memory by copying them over 2678d5caef5bSAndrii Nakryiko * duplicates. During compaction btf_dedup->hypot_map array is reused to store 2679d5caef5bSAndrii Nakryiko * a map from original type ID to a new compacted type ID, which will be used 2680d5caef5bSAndrii Nakryiko * during next phase to "fix up" type IDs, referenced from struct/union and 2681d5caef5bSAndrii Nakryiko * reference types. 2682d5caef5bSAndrii Nakryiko */ 2683d5caef5bSAndrii Nakryiko static int btf_dedup_compact_types(struct btf_dedup *d) 2684d5caef5bSAndrii Nakryiko { 2685d5caef5bSAndrii Nakryiko struct btf_type **new_types; 2686d5caef5bSAndrii Nakryiko __u32 next_type_id = 1; 2687d5caef5bSAndrii Nakryiko char *types_start, *p; 2688d5caef5bSAndrii Nakryiko int i, len; 2689d5caef5bSAndrii Nakryiko 2690d5caef5bSAndrii Nakryiko /* we are going to reuse hypot_map to store compaction remapping */ 2691d5caef5bSAndrii Nakryiko d->hypot_map[0] = 0; 2692d5caef5bSAndrii Nakryiko for (i = 1; i <= d->btf->nr_types; i++) 2693d5caef5bSAndrii Nakryiko d->hypot_map[i] = BTF_UNPROCESSED_ID; 2694d5caef5bSAndrii Nakryiko 2695d5caef5bSAndrii Nakryiko types_start = d->btf->nohdr_data + d->btf->hdr->type_off; 2696d5caef5bSAndrii Nakryiko p = types_start; 2697d5caef5bSAndrii Nakryiko 2698d5caef5bSAndrii Nakryiko for (i = 1; i <= d->btf->nr_types; i++) { 2699d5caef5bSAndrii Nakryiko if (d->map[i] != i) 2700d5caef5bSAndrii Nakryiko continue; 2701d5caef5bSAndrii Nakryiko 2702d5caef5bSAndrii Nakryiko len = btf_type_size(d->btf->types[i]); 2703d5caef5bSAndrii Nakryiko if (len < 0) 2704d5caef5bSAndrii Nakryiko return len; 2705d5caef5bSAndrii Nakryiko 2706d5caef5bSAndrii Nakryiko memmove(p, d->btf->types[i], len); 2707d5caef5bSAndrii Nakryiko d->hypot_map[i] = next_type_id; 2708d5caef5bSAndrii Nakryiko d->btf->types[next_type_id] = (struct btf_type *)p; 2709d5caef5bSAndrii Nakryiko p += len; 2710d5caef5bSAndrii Nakryiko next_type_id++; 2711d5caef5bSAndrii Nakryiko } 2712d5caef5bSAndrii Nakryiko 2713d5caef5bSAndrii Nakryiko /* shrink struct btf's internal types index and update btf_header */ 2714d5caef5bSAndrii Nakryiko d->btf->nr_types = next_type_id - 1; 2715d5caef5bSAndrii Nakryiko d->btf->types_size = d->btf->nr_types; 2716d5caef5bSAndrii Nakryiko d->btf->hdr->type_len = p - types_start; 2717d5caef5bSAndrii Nakryiko new_types = realloc(d->btf->types, 2718d5caef5bSAndrii Nakryiko (1 + d->btf->nr_types) * sizeof(struct btf_type *)); 2719d5caef5bSAndrii Nakryiko if (!new_types) 2720d5caef5bSAndrii Nakryiko return -ENOMEM; 2721d5caef5bSAndrii Nakryiko d->btf->types = new_types; 2722d5caef5bSAndrii Nakryiko 2723d5caef5bSAndrii Nakryiko /* make sure string section follows type information without gaps */ 2724d5caef5bSAndrii Nakryiko d->btf->hdr->str_off = p - (char *)d->btf->nohdr_data; 2725d5caef5bSAndrii Nakryiko memmove(p, d->btf->strings, d->btf->hdr->str_len); 2726d5caef5bSAndrii Nakryiko d->btf->strings = p; 2727d5caef5bSAndrii Nakryiko p += d->btf->hdr->str_len; 2728d5caef5bSAndrii Nakryiko 2729d5caef5bSAndrii Nakryiko d->btf->data_size = p - (char *)d->btf->data; 2730d5caef5bSAndrii Nakryiko return 0; 2731d5caef5bSAndrii Nakryiko } 2732d5caef5bSAndrii Nakryiko 2733d5caef5bSAndrii Nakryiko /* 2734d5caef5bSAndrii Nakryiko * Figure out final (deduplicated and compacted) type ID for provided original 2735d5caef5bSAndrii Nakryiko * `type_id` by first resolving it into corresponding canonical type ID and 2736d5caef5bSAndrii Nakryiko * then mapping it to a deduplicated type ID, stored in btf_dedup->hypot_map, 2737d5caef5bSAndrii Nakryiko * which is populated during compaction phase. 2738d5caef5bSAndrii Nakryiko */ 2739d5caef5bSAndrii Nakryiko static int btf_dedup_remap_type_id(struct btf_dedup *d, __u32 type_id) 2740d5caef5bSAndrii Nakryiko { 2741d5caef5bSAndrii Nakryiko __u32 resolved_type_id, new_type_id; 2742d5caef5bSAndrii Nakryiko 2743d5caef5bSAndrii Nakryiko resolved_type_id = resolve_type_id(d, type_id); 2744d5caef5bSAndrii Nakryiko new_type_id = d->hypot_map[resolved_type_id]; 27455aab392cSAndrii Nakryiko if (new_type_id > BTF_MAX_NR_TYPES) 2746d5caef5bSAndrii Nakryiko return -EINVAL; 2747d5caef5bSAndrii Nakryiko return new_type_id; 2748d5caef5bSAndrii Nakryiko } 2749d5caef5bSAndrii Nakryiko 2750d5caef5bSAndrii Nakryiko /* 2751d5caef5bSAndrii Nakryiko * Remap referenced type IDs into deduped type IDs. 2752d5caef5bSAndrii Nakryiko * 2753d5caef5bSAndrii Nakryiko * After BTF types are deduplicated and compacted, their final type IDs may 2754d5caef5bSAndrii Nakryiko * differ from original ones. The map from original to a corresponding 2755d5caef5bSAndrii Nakryiko * deduped type ID is stored in btf_dedup->hypot_map and is populated during 2756d5caef5bSAndrii Nakryiko * compaction phase. During remapping phase we are rewriting all type IDs 2757d5caef5bSAndrii Nakryiko * referenced from any BTF type (e.g., struct fields, func proto args, etc) to 2758d5caef5bSAndrii Nakryiko * their final deduped type IDs. 2759d5caef5bSAndrii Nakryiko */ 2760d5caef5bSAndrii Nakryiko static int btf_dedup_remap_type(struct btf_dedup *d, __u32 type_id) 2761d5caef5bSAndrii Nakryiko { 2762d5caef5bSAndrii Nakryiko struct btf_type *t = d->btf->types[type_id]; 2763d5caef5bSAndrii Nakryiko int i, r; 2764d5caef5bSAndrii Nakryiko 2765b03bc685SAndrii Nakryiko switch (btf_kind(t)) { 2766d5caef5bSAndrii Nakryiko case BTF_KIND_INT: 2767d5caef5bSAndrii Nakryiko case BTF_KIND_ENUM: 2768d5caef5bSAndrii Nakryiko break; 2769d5caef5bSAndrii Nakryiko 2770d5caef5bSAndrii Nakryiko case BTF_KIND_FWD: 2771d5caef5bSAndrii Nakryiko case BTF_KIND_CONST: 2772d5caef5bSAndrii Nakryiko case BTF_KIND_VOLATILE: 2773d5caef5bSAndrii Nakryiko case BTF_KIND_RESTRICT: 2774d5caef5bSAndrii Nakryiko case BTF_KIND_PTR: 2775d5caef5bSAndrii Nakryiko case BTF_KIND_TYPEDEF: 2776d5caef5bSAndrii Nakryiko case BTF_KIND_FUNC: 2777189cf5a4SAndrii Nakryiko case BTF_KIND_VAR: 2778d5caef5bSAndrii Nakryiko r = btf_dedup_remap_type_id(d, t->type); 2779d5caef5bSAndrii Nakryiko if (r < 0) 2780d5caef5bSAndrii Nakryiko return r; 2781d5caef5bSAndrii Nakryiko t->type = r; 2782d5caef5bSAndrii Nakryiko break; 2783d5caef5bSAndrii Nakryiko 2784d5caef5bSAndrii Nakryiko case BTF_KIND_ARRAY: { 2785b03bc685SAndrii Nakryiko struct btf_array *arr_info = btf_array(t); 2786d5caef5bSAndrii Nakryiko 2787d5caef5bSAndrii Nakryiko r = btf_dedup_remap_type_id(d, arr_info->type); 2788d5caef5bSAndrii Nakryiko if (r < 0) 2789d5caef5bSAndrii Nakryiko return r; 2790d5caef5bSAndrii Nakryiko arr_info->type = r; 2791d5caef5bSAndrii Nakryiko r = btf_dedup_remap_type_id(d, arr_info->index_type); 2792d5caef5bSAndrii Nakryiko if (r < 0) 2793d5caef5bSAndrii Nakryiko return r; 2794d5caef5bSAndrii Nakryiko arr_info->index_type = r; 2795d5caef5bSAndrii Nakryiko break; 2796d5caef5bSAndrii Nakryiko } 2797d5caef5bSAndrii Nakryiko 2798d5caef5bSAndrii Nakryiko case BTF_KIND_STRUCT: 2799d5caef5bSAndrii Nakryiko case BTF_KIND_UNION: { 2800b03bc685SAndrii Nakryiko struct btf_member *member = btf_members(t); 2801b03bc685SAndrii Nakryiko __u16 vlen = btf_vlen(t); 2802d5caef5bSAndrii Nakryiko 2803d5caef5bSAndrii Nakryiko for (i = 0; i < vlen; i++) { 2804d5caef5bSAndrii Nakryiko r = btf_dedup_remap_type_id(d, member->type); 2805d5caef5bSAndrii Nakryiko if (r < 0) 2806d5caef5bSAndrii Nakryiko return r; 2807d5caef5bSAndrii Nakryiko member->type = r; 2808d5caef5bSAndrii Nakryiko member++; 2809d5caef5bSAndrii Nakryiko } 2810d5caef5bSAndrii Nakryiko break; 2811d5caef5bSAndrii Nakryiko } 2812d5caef5bSAndrii Nakryiko 2813d5caef5bSAndrii Nakryiko case BTF_KIND_FUNC_PROTO: { 2814b03bc685SAndrii Nakryiko struct btf_param *param = btf_params(t); 2815b03bc685SAndrii Nakryiko __u16 vlen = btf_vlen(t); 2816d5caef5bSAndrii Nakryiko 2817d5caef5bSAndrii Nakryiko r = btf_dedup_remap_type_id(d, t->type); 2818d5caef5bSAndrii Nakryiko if (r < 0) 2819d5caef5bSAndrii Nakryiko return r; 2820d5caef5bSAndrii Nakryiko t->type = r; 2821d5caef5bSAndrii Nakryiko 2822d5caef5bSAndrii Nakryiko for (i = 0; i < vlen; i++) { 2823d5caef5bSAndrii Nakryiko r = btf_dedup_remap_type_id(d, param->type); 2824d5caef5bSAndrii Nakryiko if (r < 0) 2825d5caef5bSAndrii Nakryiko return r; 2826d5caef5bSAndrii Nakryiko param->type = r; 2827d5caef5bSAndrii Nakryiko param++; 2828d5caef5bSAndrii Nakryiko } 2829d5caef5bSAndrii Nakryiko break; 2830d5caef5bSAndrii Nakryiko } 2831d5caef5bSAndrii Nakryiko 2832189cf5a4SAndrii Nakryiko case BTF_KIND_DATASEC: { 2833b03bc685SAndrii Nakryiko struct btf_var_secinfo *var = btf_var_secinfos(t); 2834b03bc685SAndrii Nakryiko __u16 vlen = btf_vlen(t); 2835189cf5a4SAndrii Nakryiko 2836189cf5a4SAndrii Nakryiko for (i = 0; i < vlen; i++) { 2837189cf5a4SAndrii Nakryiko r = btf_dedup_remap_type_id(d, var->type); 2838189cf5a4SAndrii Nakryiko if (r < 0) 2839189cf5a4SAndrii Nakryiko return r; 2840189cf5a4SAndrii Nakryiko var->type = r; 2841189cf5a4SAndrii Nakryiko var++; 2842189cf5a4SAndrii Nakryiko } 2843189cf5a4SAndrii Nakryiko break; 2844189cf5a4SAndrii Nakryiko } 2845189cf5a4SAndrii Nakryiko 2846d5caef5bSAndrii Nakryiko default: 2847d5caef5bSAndrii Nakryiko return -EINVAL; 2848d5caef5bSAndrii Nakryiko } 2849d5caef5bSAndrii Nakryiko 2850d5caef5bSAndrii Nakryiko return 0; 2851d5caef5bSAndrii Nakryiko } 2852d5caef5bSAndrii Nakryiko 2853d5caef5bSAndrii Nakryiko static int btf_dedup_remap_types(struct btf_dedup *d) 2854d5caef5bSAndrii Nakryiko { 2855d5caef5bSAndrii Nakryiko int i, r; 2856d5caef5bSAndrii Nakryiko 2857d5caef5bSAndrii Nakryiko for (i = 1; i <= d->btf->nr_types; i++) { 2858d5caef5bSAndrii Nakryiko r = btf_dedup_remap_type(d, i); 2859d5caef5bSAndrii Nakryiko if (r < 0) 2860d5caef5bSAndrii Nakryiko return r; 2861d5caef5bSAndrii Nakryiko } 2862d5caef5bSAndrii Nakryiko return 0; 2863d5caef5bSAndrii Nakryiko } 2864