xref: /openbmc/linux/tools/lib/bpf/btf.c (revision 4cedc0dad9b5bf55c4180c833be35e27e5d6cdbb) 
11bc38b8fSAlexei Starovoitov // SPDX-License-Identifier: (LGPL-2.1 OR BSD-2-Clause)
28a138aedSMartin KaFai Lau /* Copyright (c) 2018 Facebook */
38a138aedSMartin KaFai Lau 
496408c43SYonghong Song #include <stdio.h>
58a138aedSMartin KaFai Lau #include <stdlib.h>
68a138aedSMartin KaFai Lau #include <string.h>
7e6c64855SAndrii Nakryiko #include <fcntl.h>
88a138aedSMartin KaFai Lau #include <unistd.h>
98a138aedSMartin KaFai Lau #include <errno.h>
108a138aedSMartin KaFai Lau #include <linux/err.h>
118a138aedSMartin KaFai Lau #include <linux/btf.h>
12e6c64855SAndrii Nakryiko #include <gelf.h>
138a138aedSMartin KaFai Lau #include "btf.h"
148a138aedSMartin KaFai Lau #include "bpf.h"
158461ef8bSYonghong Song #include "libbpf.h"
16d72386feSAndrii Nakryiko #include "libbpf_internal.h"
172fc3fc0bSAndrii Nakryiko #include "hashmap.h"
188a138aedSMartin KaFai Lau 
195aab392cSAndrii Nakryiko #define BTF_MAX_NR_TYPES 0x7fffffff
205aab392cSAndrii Nakryiko #define BTF_MAX_STR_OFFSET 0x7fffffff
218a138aedSMartin KaFai Lau 
228a138aedSMartin KaFai Lau static struct btf_type btf_void;
238a138aedSMartin KaFai Lau 
248a138aedSMartin KaFai Lau struct btf {
258a138aedSMartin KaFai Lau 	union {
268a138aedSMartin KaFai Lau 		struct btf_header *hdr;
278a138aedSMartin KaFai Lau 		void *data;
288a138aedSMartin KaFai Lau 	};
298a138aedSMartin KaFai Lau 	struct btf_type **types;
308a138aedSMartin KaFai Lau 	const char *strings;
318a138aedSMartin KaFai Lau 	void *nohdr_data;
325b891af7SMartin KaFai Lau 	__u32 nr_types;
335b891af7SMartin KaFai Lau 	__u32 types_size;
345b891af7SMartin KaFai Lau 	__u32 data_size;
358a138aedSMartin KaFai Lau 	int fd;
368a138aedSMartin KaFai Lau };
378a138aedSMartin KaFai Lau 
38d7f5b5e0SYonghong Song static inline __u64 ptr_to_u64(const void *ptr)
39d7f5b5e0SYonghong Song {
40d7f5b5e0SYonghong Song 	return (__u64) (unsigned long) ptr;
41d7f5b5e0SYonghong Song }
42d7f5b5e0SYonghong Song 
438a138aedSMartin KaFai Lau static int btf_add_type(struct btf *btf, struct btf_type *t)
448a138aedSMartin KaFai Lau {
458a138aedSMartin KaFai Lau 	if (btf->types_size - btf->nr_types < 2) {
468a138aedSMartin KaFai Lau 		struct btf_type **new_types;
475b891af7SMartin KaFai Lau 		__u32 expand_by, new_size;
488a138aedSMartin KaFai Lau 
498a138aedSMartin KaFai Lau 		if (btf->types_size == BTF_MAX_NR_TYPES)
508a138aedSMartin KaFai Lau 			return -E2BIG;
518a138aedSMartin KaFai Lau 
528a138aedSMartin KaFai Lau 		expand_by = max(btf->types_size >> 2, 16);
538a138aedSMartin KaFai Lau 		new_size = min(BTF_MAX_NR_TYPES, btf->types_size + expand_by);
548a138aedSMartin KaFai Lau 
558a138aedSMartin KaFai Lau 		new_types = realloc(btf->types, sizeof(*new_types) * new_size);
568a138aedSMartin KaFai Lau 		if (!new_types)
578a138aedSMartin KaFai Lau 			return -ENOMEM;
588a138aedSMartin KaFai Lau 
598a138aedSMartin KaFai Lau 		if (btf->nr_types == 0)
608a138aedSMartin KaFai Lau 			new_types[0] = &btf_void;
618a138aedSMartin KaFai Lau 
628a138aedSMartin KaFai Lau 		btf->types = new_types;
638a138aedSMartin KaFai Lau 		btf->types_size = new_size;
648a138aedSMartin KaFai Lau 	}
658a138aedSMartin KaFai Lau 
668a138aedSMartin KaFai Lau 	btf->types[++(btf->nr_types)] = t;
678a138aedSMartin KaFai Lau 
688a138aedSMartin KaFai Lau 	return 0;
698a138aedSMartin KaFai Lau }
708a138aedSMartin KaFai Lau 
718461ef8bSYonghong Song static int btf_parse_hdr(struct btf *btf)
728a138aedSMartin KaFai Lau {
738a138aedSMartin KaFai Lau 	const struct btf_header *hdr = btf->hdr;
745b891af7SMartin KaFai Lau 	__u32 meta_left;
758a138aedSMartin KaFai Lau 
768a138aedSMartin KaFai Lau 	if (btf->data_size < sizeof(struct btf_header)) {
778461ef8bSYonghong Song 		pr_debug("BTF header not found\n");
788a138aedSMartin KaFai Lau 		return -EINVAL;
798a138aedSMartin KaFai Lau 	}
808a138aedSMartin KaFai Lau 
818a138aedSMartin KaFai Lau 	if (hdr->magic != BTF_MAGIC) {
828461ef8bSYonghong Song 		pr_debug("Invalid BTF magic:%x\n", hdr->magic);
838a138aedSMartin KaFai Lau 		return -EINVAL;
848a138aedSMartin KaFai Lau 	}
858a138aedSMartin KaFai Lau 
868a138aedSMartin KaFai Lau 	if (hdr->version != BTF_VERSION) {
878461ef8bSYonghong Song 		pr_debug("Unsupported BTF version:%u\n", hdr->version);
888a138aedSMartin KaFai Lau 		return -ENOTSUP;
898a138aedSMartin KaFai Lau 	}
908a138aedSMartin KaFai Lau 
918a138aedSMartin KaFai Lau 	if (hdr->flags) {
928461ef8bSYonghong Song 		pr_debug("Unsupported BTF flags:%x\n", hdr->flags);
938a138aedSMartin KaFai Lau 		return -ENOTSUP;
948a138aedSMartin KaFai Lau 	}
958a138aedSMartin KaFai Lau 
968a138aedSMartin KaFai Lau 	meta_left = btf->data_size - sizeof(*hdr);
978a138aedSMartin KaFai Lau 	if (!meta_left) {
988461ef8bSYonghong Song 		pr_debug("BTF has no data\n");
998a138aedSMartin KaFai Lau 		return -EINVAL;
1008a138aedSMartin KaFai Lau 	}
1018a138aedSMartin KaFai Lau 
1028a138aedSMartin KaFai Lau 	if (meta_left < hdr->type_off) {
1038461ef8bSYonghong Song 		pr_debug("Invalid BTF type section offset:%u\n", hdr->type_off);
1048a138aedSMartin KaFai Lau 		return -EINVAL;
1058a138aedSMartin KaFai Lau 	}
1068a138aedSMartin KaFai Lau 
1078a138aedSMartin KaFai Lau 	if (meta_left < hdr->str_off) {
1088461ef8bSYonghong Song 		pr_debug("Invalid BTF string section offset:%u\n", hdr->str_off);
1098a138aedSMartin KaFai Lau 		return -EINVAL;
1108a138aedSMartin KaFai Lau 	}
1118a138aedSMartin KaFai Lau 
1128a138aedSMartin KaFai Lau 	if (hdr->type_off >= hdr->str_off) {
1138461ef8bSYonghong Song 		pr_debug("BTF type section offset >= string section offset. No type?\n");
1148a138aedSMartin KaFai Lau 		return -EINVAL;
1158a138aedSMartin KaFai Lau 	}
1168a138aedSMartin KaFai Lau 
1178a138aedSMartin KaFai Lau 	if (hdr->type_off & 0x02) {
1188461ef8bSYonghong Song 		pr_debug("BTF type section is not aligned to 4 bytes\n");
1198a138aedSMartin KaFai Lau 		return -EINVAL;
1208a138aedSMartin KaFai Lau 	}
1218a138aedSMartin KaFai Lau 
1228a138aedSMartin KaFai Lau 	btf->nohdr_data = btf->hdr + 1;
1238a138aedSMartin KaFai Lau 
1248a138aedSMartin KaFai Lau 	return 0;
1258a138aedSMartin KaFai Lau }
1268a138aedSMartin KaFai Lau 
1278461ef8bSYonghong Song static int btf_parse_str_sec(struct btf *btf)
1288a138aedSMartin KaFai Lau {
1298a138aedSMartin KaFai Lau 	const struct btf_header *hdr = btf->hdr;
1308a138aedSMartin KaFai Lau 	const char *start = btf->nohdr_data + hdr->str_off;
1318a138aedSMartin KaFai Lau 	const char *end = start + btf->hdr->str_len;
1328a138aedSMartin KaFai Lau 
1335aab392cSAndrii Nakryiko 	if (!hdr->str_len || hdr->str_len - 1 > BTF_MAX_STR_OFFSET ||
1348a138aedSMartin KaFai Lau 	    start[0] || end[-1]) {
1358461ef8bSYonghong Song 		pr_debug("Invalid BTF string section\n");
1368a138aedSMartin KaFai Lau 		return -EINVAL;
1378a138aedSMartin KaFai Lau 	}
1388a138aedSMartin KaFai Lau 
1398a138aedSMartin KaFai Lau 	btf->strings = start;
1408a138aedSMartin KaFai Lau 
1418a138aedSMartin KaFai Lau 	return 0;
1428a138aedSMartin KaFai Lau }
1438a138aedSMartin KaFai Lau 
14469eaab04SAndrii Nakryiko static int btf_type_size(struct btf_type *t)
14569eaab04SAndrii Nakryiko {
14669eaab04SAndrii Nakryiko 	int base_size = sizeof(struct btf_type);
147b03bc685SAndrii Nakryiko 	__u16 vlen = btf_vlen(t);
14869eaab04SAndrii Nakryiko 
149b03bc685SAndrii Nakryiko 	switch (btf_kind(t)) {
15069eaab04SAndrii Nakryiko 	case BTF_KIND_FWD:
15169eaab04SAndrii Nakryiko 	case BTF_KIND_CONST:
15269eaab04SAndrii Nakryiko 	case BTF_KIND_VOLATILE:
15369eaab04SAndrii Nakryiko 	case BTF_KIND_RESTRICT:
15469eaab04SAndrii Nakryiko 	case BTF_KIND_PTR:
15569eaab04SAndrii Nakryiko 	case BTF_KIND_TYPEDEF:
15669eaab04SAndrii Nakryiko 	case BTF_KIND_FUNC:
15769eaab04SAndrii Nakryiko 		return base_size;
15869eaab04SAndrii Nakryiko 	case BTF_KIND_INT:
15969eaab04SAndrii Nakryiko 		return base_size + sizeof(__u32);
16069eaab04SAndrii Nakryiko 	case BTF_KIND_ENUM:
16169eaab04SAndrii Nakryiko 		return base_size + vlen * sizeof(struct btf_enum);
16269eaab04SAndrii Nakryiko 	case BTF_KIND_ARRAY:
16369eaab04SAndrii Nakryiko 		return base_size + sizeof(struct btf_array);
16469eaab04SAndrii Nakryiko 	case BTF_KIND_STRUCT:
16569eaab04SAndrii Nakryiko 	case BTF_KIND_UNION:
16669eaab04SAndrii Nakryiko 		return base_size + vlen * sizeof(struct btf_member);
16769eaab04SAndrii Nakryiko 	case BTF_KIND_FUNC_PROTO:
16869eaab04SAndrii Nakryiko 		return base_size + vlen * sizeof(struct btf_param);
1691713d68bSDaniel Borkmann 	case BTF_KIND_VAR:
1701713d68bSDaniel Borkmann 		return base_size + sizeof(struct btf_var);
1711713d68bSDaniel Borkmann 	case BTF_KIND_DATASEC:
1721713d68bSDaniel Borkmann 		return base_size + vlen * sizeof(struct btf_var_secinfo);
17369eaab04SAndrii Nakryiko 	default:
174b03bc685SAndrii Nakryiko 		pr_debug("Unsupported BTF_KIND:%u\n", btf_kind(t));
17569eaab04SAndrii Nakryiko 		return -EINVAL;
17669eaab04SAndrii Nakryiko 	}
17769eaab04SAndrii Nakryiko }
17869eaab04SAndrii Nakryiko 
1798461ef8bSYonghong Song static int btf_parse_type_sec(struct btf *btf)
1808a138aedSMartin KaFai Lau {
1818a138aedSMartin KaFai Lau 	struct btf_header *hdr = btf->hdr;
1828a138aedSMartin KaFai Lau 	void *nohdr_data = btf->nohdr_data;
1838a138aedSMartin KaFai Lau 	void *next_type = nohdr_data + hdr->type_off;
1848a138aedSMartin KaFai Lau 	void *end_type = nohdr_data + hdr->str_off;
1858a138aedSMartin KaFai Lau 
1868a138aedSMartin KaFai Lau 	while (next_type < end_type) {
1878a138aedSMartin KaFai Lau 		struct btf_type *t = next_type;
18869eaab04SAndrii Nakryiko 		int type_size;
1898a138aedSMartin KaFai Lau 		int err;
1908a138aedSMartin KaFai Lau 
19169eaab04SAndrii Nakryiko 		type_size = btf_type_size(t);
19269eaab04SAndrii Nakryiko 		if (type_size < 0)
19369eaab04SAndrii Nakryiko 			return type_size;
19469eaab04SAndrii Nakryiko 		next_type += type_size;
1958a138aedSMartin KaFai Lau 		err = btf_add_type(btf, t);
1968a138aedSMartin KaFai Lau 		if (err)
1978a138aedSMartin KaFai Lau 			return err;
1988a138aedSMartin KaFai Lau 	}
1998a138aedSMartin KaFai Lau 
2008a138aedSMartin KaFai Lau 	return 0;
2018a138aedSMartin KaFai Lau }
2028a138aedSMartin KaFai Lau 
2039c651127SAndrii Nakryiko __u32 btf__get_nr_types(const struct btf *btf)
2049c651127SAndrii Nakryiko {
2059c651127SAndrii Nakryiko 	return btf->nr_types;
2069c651127SAndrii Nakryiko }
2079c651127SAndrii Nakryiko 
20838d5d3b3SMartin KaFai Lau const struct btf_type *btf__type_by_id(const struct btf *btf, __u32 type_id)
2098a138aedSMartin KaFai Lau {
2108a138aedSMartin KaFai Lau 	if (type_id > btf->nr_types)
2118a138aedSMartin KaFai Lau 		return NULL;
2128a138aedSMartin KaFai Lau 
2138a138aedSMartin KaFai Lau 	return btf->types[type_id];
2148a138aedSMartin KaFai Lau }
2158a138aedSMartin KaFai Lau 
2168a138aedSMartin KaFai Lau static bool btf_type_is_void(const struct btf_type *t)
2178a138aedSMartin KaFai Lau {
218b03bc685SAndrii Nakryiko 	return t == &btf_void || btf_is_fwd(t);
2198a138aedSMartin KaFai Lau }
2208a138aedSMartin KaFai Lau 
2218a138aedSMartin KaFai Lau static bool btf_type_is_void_or_null(const struct btf_type *t)
2228a138aedSMartin KaFai Lau {
2238a138aedSMartin KaFai Lau 	return !t || btf_type_is_void(t);
2248a138aedSMartin KaFai Lau }
2258a138aedSMartin KaFai Lau 
2268a138aedSMartin KaFai Lau #define MAX_RESOLVE_DEPTH 32
2278a138aedSMartin KaFai Lau 
2285b891af7SMartin KaFai Lau __s64 btf__resolve_size(const struct btf *btf, __u32 type_id)
2298a138aedSMartin KaFai Lau {
2308a138aedSMartin KaFai Lau 	const struct btf_array *array;
2318a138aedSMartin KaFai Lau 	const struct btf_type *t;
2325b891af7SMartin KaFai Lau 	__u32 nelems = 1;
2335b891af7SMartin KaFai Lau 	__s64 size = -1;
2348a138aedSMartin KaFai Lau 	int i;
2358a138aedSMartin KaFai Lau 
23692b57121SOkash Khawaja 	t = btf__type_by_id(btf, type_id);
2378a138aedSMartin KaFai Lau 	for (i = 0; i < MAX_RESOLVE_DEPTH && !btf_type_is_void_or_null(t);
2388a138aedSMartin KaFai Lau 	     i++) {
239b03bc685SAndrii Nakryiko 		switch (btf_kind(t)) {
24069eaab04SAndrii Nakryiko 		case BTF_KIND_INT:
24169eaab04SAndrii Nakryiko 		case BTF_KIND_STRUCT:
24269eaab04SAndrii Nakryiko 		case BTF_KIND_UNION:
24369eaab04SAndrii Nakryiko 		case BTF_KIND_ENUM:
2441713d68bSDaniel Borkmann 		case BTF_KIND_DATASEC:
24569eaab04SAndrii Nakryiko 			size = t->size;
24669eaab04SAndrii Nakryiko 			goto done;
24769eaab04SAndrii Nakryiko 		case BTF_KIND_PTR:
24869eaab04SAndrii Nakryiko 			size = sizeof(void *);
24969eaab04SAndrii Nakryiko 			goto done;
2508a138aedSMartin KaFai Lau 		case BTF_KIND_TYPEDEF:
2518a138aedSMartin KaFai Lau 		case BTF_KIND_VOLATILE:
2528a138aedSMartin KaFai Lau 		case BTF_KIND_CONST:
2538a138aedSMartin KaFai Lau 		case BTF_KIND_RESTRICT:
2541713d68bSDaniel Borkmann 		case BTF_KIND_VAR:
2558a138aedSMartin KaFai Lau 			type_id = t->type;
2568a138aedSMartin KaFai Lau 			break;
2578a138aedSMartin KaFai Lau 		case BTF_KIND_ARRAY:
258b03bc685SAndrii Nakryiko 			array = btf_array(t);
2598a138aedSMartin KaFai Lau 			if (nelems && array->nelems > UINT32_MAX / nelems)
2608a138aedSMartin KaFai Lau 				return -E2BIG;
2618a138aedSMartin KaFai Lau 			nelems *= array->nelems;
2628a138aedSMartin KaFai Lau 			type_id = array->type;
2638a138aedSMartin KaFai Lau 			break;
2648a138aedSMartin KaFai Lau 		default:
2658a138aedSMartin KaFai Lau 			return -EINVAL;
2668a138aedSMartin KaFai Lau 		}
2678a138aedSMartin KaFai Lau 
26892b57121SOkash Khawaja 		t = btf__type_by_id(btf, type_id);
2698a138aedSMartin KaFai Lau 	}
2708a138aedSMartin KaFai Lau 
2718a138aedSMartin KaFai Lau 	if (size < 0)
2728a138aedSMartin KaFai Lau 		return -EINVAL;
2738a138aedSMartin KaFai Lau 
27469eaab04SAndrii Nakryiko done:
2758a138aedSMartin KaFai Lau 	if (nelems && size > UINT32_MAX / nelems)
2768a138aedSMartin KaFai Lau 		return -E2BIG;
2778a138aedSMartin KaFai Lau 
2788a138aedSMartin KaFai Lau 	return nelems * size;
2798a138aedSMartin KaFai Lau }
2808a138aedSMartin KaFai Lau 
28192b57121SOkash Khawaja int btf__resolve_type(const struct btf *btf, __u32 type_id)
28292b57121SOkash Khawaja {
28392b57121SOkash Khawaja 	const struct btf_type *t;
28492b57121SOkash Khawaja 	int depth = 0;
28592b57121SOkash Khawaja 
28692b57121SOkash Khawaja 	t = btf__type_by_id(btf, type_id);
28792b57121SOkash Khawaja 	while (depth < MAX_RESOLVE_DEPTH &&
28892b57121SOkash Khawaja 	       !btf_type_is_void_or_null(t) &&
289b03bc685SAndrii Nakryiko 	       (btf_is_mod(t) || btf_is_typedef(t) || btf_is_var(t))) {
29092b57121SOkash Khawaja 		type_id = t->type;
29192b57121SOkash Khawaja 		t = btf__type_by_id(btf, type_id);
29292b57121SOkash Khawaja 		depth++;
29392b57121SOkash Khawaja 	}
29492b57121SOkash Khawaja 
29592b57121SOkash Khawaja 	if (depth == MAX_RESOLVE_DEPTH || btf_type_is_void_or_null(t))
29692b57121SOkash Khawaja 		return -EINVAL;
29792b57121SOkash Khawaja 
29892b57121SOkash Khawaja 	return type_id;
29992b57121SOkash Khawaja }
30092b57121SOkash Khawaja 
3015b891af7SMartin KaFai Lau __s32 btf__find_by_name(const struct btf *btf, const char *type_name)
3028a138aedSMartin KaFai Lau {
3035b891af7SMartin KaFai Lau 	__u32 i;
3048a138aedSMartin KaFai Lau 
3058a138aedSMartin KaFai Lau 	if (!strcmp(type_name, "void"))
3068a138aedSMartin KaFai Lau 		return 0;
3078a138aedSMartin KaFai Lau 
3088a138aedSMartin KaFai Lau 	for (i = 1; i <= btf->nr_types; i++) {
3098a138aedSMartin KaFai Lau 		const struct btf_type *t = btf->types[i];
31092b57121SOkash Khawaja 		const char *name = btf__name_by_offset(btf, t->name_off);
3118a138aedSMartin KaFai Lau 
3128a138aedSMartin KaFai Lau 		if (name && !strcmp(type_name, name))
3138a138aedSMartin KaFai Lau 			return i;
3148a138aedSMartin KaFai Lau 	}
3158a138aedSMartin KaFai Lau 
3168a138aedSMartin KaFai Lau 	return -ENOENT;
3178a138aedSMartin KaFai Lau }
3188a138aedSMartin KaFai Lau 
3198a138aedSMartin KaFai Lau void btf__free(struct btf *btf)
3208a138aedSMartin KaFai Lau {
3218a138aedSMartin KaFai Lau 	if (!btf)
3228a138aedSMartin KaFai Lau 		return;
3238a138aedSMartin KaFai Lau 
3248a138aedSMartin KaFai Lau 	if (btf->fd != -1)
3258a138aedSMartin KaFai Lau 		close(btf->fd);
3268a138aedSMartin KaFai Lau 
3278a138aedSMartin KaFai Lau 	free(btf->data);
3288a138aedSMartin KaFai Lau 	free(btf->types);
3298a138aedSMartin KaFai Lau 	free(btf);
3308a138aedSMartin KaFai Lau }
3318a138aedSMartin KaFai Lau 
3328461ef8bSYonghong Song struct btf *btf__new(__u8 *data, __u32 size)
3338a138aedSMartin KaFai Lau {
3348a138aedSMartin KaFai Lau 	struct btf *btf;
3358a138aedSMartin KaFai Lau 	int err;
3368a138aedSMartin KaFai Lau 
3378a138aedSMartin KaFai Lau 	btf = calloc(1, sizeof(struct btf));
3388a138aedSMartin KaFai Lau 	if (!btf)
3398a138aedSMartin KaFai Lau 		return ERR_PTR(-ENOMEM);
3408a138aedSMartin KaFai Lau 
3418a138aedSMartin KaFai Lau 	btf->fd = -1;
3428a138aedSMartin KaFai Lau 
3438a138aedSMartin KaFai Lau 	btf->data = malloc(size);
3448a138aedSMartin KaFai Lau 	if (!btf->data) {
3458a138aedSMartin KaFai Lau 		err = -ENOMEM;
3468a138aedSMartin KaFai Lau 		goto done;
3478a138aedSMartin KaFai Lau 	}
3488a138aedSMartin KaFai Lau 
3498a138aedSMartin KaFai Lau 	memcpy(btf->data, data, size);
3508a138aedSMartin KaFai Lau 	btf->data_size = size;
3518a138aedSMartin KaFai Lau 
3528461ef8bSYonghong Song 	err = btf_parse_hdr(btf);
3538a138aedSMartin KaFai Lau 	if (err)
3548a138aedSMartin KaFai Lau 		goto done;
3558a138aedSMartin KaFai Lau 
3568461ef8bSYonghong Song 	err = btf_parse_str_sec(btf);
3578a138aedSMartin KaFai Lau 	if (err)
3588a138aedSMartin KaFai Lau 		goto done;
3598a138aedSMartin KaFai Lau 
3608461ef8bSYonghong Song 	err = btf_parse_type_sec(btf);
3618a138aedSMartin KaFai Lau 
3628a138aedSMartin KaFai Lau done:
3638a138aedSMartin KaFai Lau 	if (err) {
3648a138aedSMartin KaFai Lau 		btf__free(btf);
3658a138aedSMartin KaFai Lau 		return ERR_PTR(err);
3668a138aedSMartin KaFai Lau 	}
3678a138aedSMartin KaFai Lau 
3688a138aedSMartin KaFai Lau 	return btf;
3698a138aedSMartin KaFai Lau }
3708a138aedSMartin KaFai Lau 
371e6c64855SAndrii Nakryiko static bool btf_check_endianness(const GElf_Ehdr *ehdr)
372e6c64855SAndrii Nakryiko {
373e6c64855SAndrii Nakryiko #if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__
374e6c64855SAndrii Nakryiko 	return ehdr->e_ident[EI_DATA] == ELFDATA2LSB;
375e6c64855SAndrii Nakryiko #elif __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__
376e6c64855SAndrii Nakryiko 	return ehdr->e_ident[EI_DATA] == ELFDATA2MSB;
377e6c64855SAndrii Nakryiko #else
378e6c64855SAndrii Nakryiko # error "Unrecognized __BYTE_ORDER__"
379e6c64855SAndrii Nakryiko #endif
380e6c64855SAndrii Nakryiko }
381e6c64855SAndrii Nakryiko 
382e6c64855SAndrii Nakryiko struct btf *btf__parse_elf(const char *path, struct btf_ext **btf_ext)
383e6c64855SAndrii Nakryiko {
384e6c64855SAndrii Nakryiko 	Elf_Data *btf_data = NULL, *btf_ext_data = NULL;
385e6c64855SAndrii Nakryiko 	int err = 0, fd = -1, idx = 0;
386e6c64855SAndrii Nakryiko 	struct btf *btf = NULL;
387e6c64855SAndrii Nakryiko 	Elf_Scn *scn = NULL;
388e6c64855SAndrii Nakryiko 	Elf *elf = NULL;
389e6c64855SAndrii Nakryiko 	GElf_Ehdr ehdr;
390e6c64855SAndrii Nakryiko 
391e6c64855SAndrii Nakryiko 	if (elf_version(EV_CURRENT) == EV_NONE) {
392e6c64855SAndrii Nakryiko 		pr_warning("failed to init libelf for %s\n", path);
393e6c64855SAndrii Nakryiko 		return ERR_PTR(-LIBBPF_ERRNO__LIBELF);
394e6c64855SAndrii Nakryiko 	}
395e6c64855SAndrii Nakryiko 
396e6c64855SAndrii Nakryiko 	fd = open(path, O_RDONLY);
397e6c64855SAndrii Nakryiko 	if (fd < 0) {
398e6c64855SAndrii Nakryiko 		err = -errno;
399e6c64855SAndrii Nakryiko 		pr_warning("failed to open %s: %s\n", path, strerror(errno));
400e6c64855SAndrii Nakryiko 		return ERR_PTR(err);
401e6c64855SAndrii Nakryiko 	}
402e6c64855SAndrii Nakryiko 
403e6c64855SAndrii Nakryiko 	err = -LIBBPF_ERRNO__FORMAT;
404e6c64855SAndrii Nakryiko 
405e6c64855SAndrii Nakryiko 	elf = elf_begin(fd, ELF_C_READ, NULL);
406e6c64855SAndrii Nakryiko 	if (!elf) {
407e6c64855SAndrii Nakryiko 		pr_warning("failed to open %s as ELF file\n", path);
408e6c64855SAndrii Nakryiko 		goto done;
409e6c64855SAndrii Nakryiko 	}
410e6c64855SAndrii Nakryiko 	if (!gelf_getehdr(elf, &ehdr)) {
411e6c64855SAndrii Nakryiko 		pr_warning("failed to get EHDR from %s\n", path);
412e6c64855SAndrii Nakryiko 		goto done;
413e6c64855SAndrii Nakryiko 	}
414e6c64855SAndrii Nakryiko 	if (!btf_check_endianness(&ehdr)) {
415e6c64855SAndrii Nakryiko 		pr_warning("non-native ELF endianness is not supported\n");
416e6c64855SAndrii Nakryiko 		goto done;
417e6c64855SAndrii Nakryiko 	}
418e6c64855SAndrii Nakryiko 	if (!elf_rawdata(elf_getscn(elf, ehdr.e_shstrndx), NULL)) {
419e6c64855SAndrii Nakryiko 		pr_warning("failed to get e_shstrndx from %s\n", path);
420e6c64855SAndrii Nakryiko 		goto done;
421e6c64855SAndrii Nakryiko 	}
422e6c64855SAndrii Nakryiko 
423e6c64855SAndrii Nakryiko 	while ((scn = elf_nextscn(elf, scn)) != NULL) {
424e6c64855SAndrii Nakryiko 		GElf_Shdr sh;
425e6c64855SAndrii Nakryiko 		char *name;
426e6c64855SAndrii Nakryiko 
427e6c64855SAndrii Nakryiko 		idx++;
428e6c64855SAndrii Nakryiko 		if (gelf_getshdr(scn, &sh) != &sh) {
429e6c64855SAndrii Nakryiko 			pr_warning("failed to get section(%d) header from %s\n",
430e6c64855SAndrii Nakryiko 				   idx, path);
431e6c64855SAndrii Nakryiko 			goto done;
432e6c64855SAndrii Nakryiko 		}
433e6c64855SAndrii Nakryiko 		name = elf_strptr(elf, ehdr.e_shstrndx, sh.sh_name);
434e6c64855SAndrii Nakryiko 		if (!name) {
435e6c64855SAndrii Nakryiko 			pr_warning("failed to get section(%d) name from %s\n",
436e6c64855SAndrii Nakryiko 				   idx, path);
437e6c64855SAndrii Nakryiko 			goto done;
438e6c64855SAndrii Nakryiko 		}
439e6c64855SAndrii Nakryiko 		if (strcmp(name, BTF_ELF_SEC) == 0) {
440e6c64855SAndrii Nakryiko 			btf_data = elf_getdata(scn, 0);
441e6c64855SAndrii Nakryiko 			if (!btf_data) {
442e6c64855SAndrii Nakryiko 				pr_warning("failed to get section(%d, %s) data from %s\n",
443e6c64855SAndrii Nakryiko 					   idx, name, path);
444e6c64855SAndrii Nakryiko 				goto done;
445e6c64855SAndrii Nakryiko 			}
446e6c64855SAndrii Nakryiko 			continue;
447e6c64855SAndrii Nakryiko 		} else if (btf_ext && strcmp(name, BTF_EXT_ELF_SEC) == 0) {
448e6c64855SAndrii Nakryiko 			btf_ext_data = elf_getdata(scn, 0);
449e6c64855SAndrii Nakryiko 			if (!btf_ext_data) {
450e6c64855SAndrii Nakryiko 				pr_warning("failed to get section(%d, %s) data from %s\n",
451e6c64855SAndrii Nakryiko 					   idx, name, path);
452e6c64855SAndrii Nakryiko 				goto done;
453e6c64855SAndrii Nakryiko 			}
454e6c64855SAndrii Nakryiko 			continue;
455e6c64855SAndrii Nakryiko 		}
456e6c64855SAndrii Nakryiko 	}
457e6c64855SAndrii Nakryiko 
458e6c64855SAndrii Nakryiko 	err = 0;
459e6c64855SAndrii Nakryiko 
460e6c64855SAndrii Nakryiko 	if (!btf_data) {
461e6c64855SAndrii Nakryiko 		err = -ENOENT;
462e6c64855SAndrii Nakryiko 		goto done;
463e6c64855SAndrii Nakryiko 	}
464e6c64855SAndrii Nakryiko 	btf = btf__new(btf_data->d_buf, btf_data->d_size);
465e6c64855SAndrii Nakryiko 	if (IS_ERR(btf))
466e6c64855SAndrii Nakryiko 		goto done;
467e6c64855SAndrii Nakryiko 
468e6c64855SAndrii Nakryiko 	if (btf_ext && btf_ext_data) {
469e6c64855SAndrii Nakryiko 		*btf_ext = btf_ext__new(btf_ext_data->d_buf,
470e6c64855SAndrii Nakryiko 					btf_ext_data->d_size);
471e6c64855SAndrii Nakryiko 		if (IS_ERR(*btf_ext))
472e6c64855SAndrii Nakryiko 			goto done;
473e6c64855SAndrii Nakryiko 	} else if (btf_ext) {
474e6c64855SAndrii Nakryiko 		*btf_ext = NULL;
475e6c64855SAndrii Nakryiko 	}
476e6c64855SAndrii Nakryiko done:
477e6c64855SAndrii Nakryiko 	if (elf)
478e6c64855SAndrii Nakryiko 		elf_end(elf);
479e6c64855SAndrii Nakryiko 	close(fd);
480e6c64855SAndrii Nakryiko 
481e6c64855SAndrii Nakryiko 	if (err)
482e6c64855SAndrii Nakryiko 		return ERR_PTR(err);
483e6c64855SAndrii Nakryiko 	/*
484e6c64855SAndrii Nakryiko 	 * btf is always parsed before btf_ext, so no need to clean up
485e6c64855SAndrii Nakryiko 	 * btf_ext, if btf loading failed
486e6c64855SAndrii Nakryiko 	 */
487e6c64855SAndrii Nakryiko 	if (IS_ERR(btf))
488e6c64855SAndrii Nakryiko 		return btf;
489e6c64855SAndrii Nakryiko 	if (btf_ext && IS_ERR(*btf_ext)) {
490e6c64855SAndrii Nakryiko 		btf__free(btf);
491e6c64855SAndrii Nakryiko 		err = PTR_ERR(*btf_ext);
492e6c64855SAndrii Nakryiko 		return ERR_PTR(err);
493e6c64855SAndrii Nakryiko 	}
494e6c64855SAndrii Nakryiko 	return btf;
495e6c64855SAndrii Nakryiko }
496e6c64855SAndrii Nakryiko 
4971713d68bSDaniel Borkmann static int compare_vsi_off(const void *_a, const void *_b)
4981713d68bSDaniel Borkmann {
4991713d68bSDaniel Borkmann 	const struct btf_var_secinfo *a = _a;
5001713d68bSDaniel Borkmann 	const struct btf_var_secinfo *b = _b;
5011713d68bSDaniel Borkmann 
5021713d68bSDaniel Borkmann 	return a->offset - b->offset;
5031713d68bSDaniel Borkmann }
5041713d68bSDaniel Borkmann 
5051713d68bSDaniel Borkmann static int btf_fixup_datasec(struct bpf_object *obj, struct btf *btf,
5061713d68bSDaniel Borkmann 			     struct btf_type *t)
5071713d68bSDaniel Borkmann {
508b03bc685SAndrii Nakryiko 	__u32 size = 0, off = 0, i, vars = btf_vlen(t);
5091713d68bSDaniel Borkmann 	const char *name = btf__name_by_offset(btf, t->name_off);
5101713d68bSDaniel Borkmann 	const struct btf_type *t_var;
5111713d68bSDaniel Borkmann 	struct btf_var_secinfo *vsi;
512b03bc685SAndrii Nakryiko 	const struct btf_var *var;
5131713d68bSDaniel Borkmann 	int ret;
5141713d68bSDaniel Borkmann 
5151713d68bSDaniel Borkmann 	if (!name) {
5161713d68bSDaniel Borkmann 		pr_debug("No name found in string section for DATASEC kind.\n");
5171713d68bSDaniel Borkmann 		return -ENOENT;
5181713d68bSDaniel Borkmann 	}
5191713d68bSDaniel Borkmann 
5201713d68bSDaniel Borkmann 	ret = bpf_object__section_size(obj, name, &size);
5211713d68bSDaniel Borkmann 	if (ret || !size || (t->size && t->size != size)) {
5221713d68bSDaniel Borkmann 		pr_debug("Invalid size for section %s: %u bytes\n", name, size);
5231713d68bSDaniel Borkmann 		return -ENOENT;
5241713d68bSDaniel Borkmann 	}
5251713d68bSDaniel Borkmann 
5261713d68bSDaniel Borkmann 	t->size = size;
5271713d68bSDaniel Borkmann 
528b03bc685SAndrii Nakryiko 	for (i = 0, vsi = btf_var_secinfos(t); i < vars; i++, vsi++) {
5291713d68bSDaniel Borkmann 		t_var = btf__type_by_id(btf, vsi->type);
530b03bc685SAndrii Nakryiko 		var = btf_var(t_var);
5311713d68bSDaniel Borkmann 
532b03bc685SAndrii Nakryiko 		if (!btf_is_var(t_var)) {
5331713d68bSDaniel Borkmann 			pr_debug("Non-VAR type seen in section %s\n", name);
5341713d68bSDaniel Borkmann 			return -EINVAL;
5351713d68bSDaniel Borkmann 		}
5361713d68bSDaniel Borkmann 
5371713d68bSDaniel Borkmann 		if (var->linkage == BTF_VAR_STATIC)
5381713d68bSDaniel Borkmann 			continue;
5391713d68bSDaniel Borkmann 
5401713d68bSDaniel Borkmann 		name = btf__name_by_offset(btf, t_var->name_off);
5411713d68bSDaniel Borkmann 		if (!name) {
5421713d68bSDaniel Borkmann 			pr_debug("No name found in string section for VAR kind\n");
5431713d68bSDaniel Borkmann 			return -ENOENT;
5441713d68bSDaniel Borkmann 		}
5451713d68bSDaniel Borkmann 
5461713d68bSDaniel Borkmann 		ret = bpf_object__variable_offset(obj, name, &off);
5471713d68bSDaniel Borkmann 		if (ret) {
548b03bc685SAndrii Nakryiko 			pr_debug("No offset found in symbol table for VAR %s\n",
549b03bc685SAndrii Nakryiko 				 name);
5501713d68bSDaniel Borkmann 			return -ENOENT;
5511713d68bSDaniel Borkmann 		}
5521713d68bSDaniel Borkmann 
5531713d68bSDaniel Borkmann 		vsi->offset = off;
5541713d68bSDaniel Borkmann 	}
5551713d68bSDaniel Borkmann 
5561713d68bSDaniel Borkmann 	qsort(t + 1, vars, sizeof(*vsi), compare_vsi_off);
5571713d68bSDaniel Borkmann 	return 0;
5581713d68bSDaniel Borkmann }
5591713d68bSDaniel Borkmann 
5601713d68bSDaniel Borkmann int btf__finalize_data(struct bpf_object *obj, struct btf *btf)
5611713d68bSDaniel Borkmann {
5621713d68bSDaniel Borkmann 	int err = 0;
5631713d68bSDaniel Borkmann 	__u32 i;
5641713d68bSDaniel Borkmann 
5651713d68bSDaniel Borkmann 	for (i = 1; i <= btf->nr_types; i++) {
5661713d68bSDaniel Borkmann 		struct btf_type *t = btf->types[i];
5671713d68bSDaniel Borkmann 
5681713d68bSDaniel Borkmann 		/* Loader needs to fix up some of the things compiler
5691713d68bSDaniel Borkmann 		 * couldn't get its hands on while emitting BTF. This
5701713d68bSDaniel Borkmann 		 * is section size and global variable offset. We use
5711713d68bSDaniel Borkmann 		 * the info from the ELF itself for this purpose.
5721713d68bSDaniel Borkmann 		 */
573b03bc685SAndrii Nakryiko 		if (btf_is_datasec(t)) {
5741713d68bSDaniel Borkmann 			err = btf_fixup_datasec(obj, btf, t);
5751713d68bSDaniel Borkmann 			if (err)
5761713d68bSDaniel Borkmann 				break;
5771713d68bSDaniel Borkmann 		}
5781713d68bSDaniel Borkmann 	}
5791713d68bSDaniel Borkmann 
5801713d68bSDaniel Borkmann 	return err;
5811713d68bSDaniel Borkmann }
5821713d68bSDaniel Borkmann 
583d29d87f7SAndrii Nakryiko int btf__load(struct btf *btf)
584d29d87f7SAndrii Nakryiko {
585d29d87f7SAndrii Nakryiko 	__u32 log_buf_size = BPF_LOG_BUF_SIZE;
586d29d87f7SAndrii Nakryiko 	char *log_buf = NULL;
587d29d87f7SAndrii Nakryiko 	int err = 0;
588d29d87f7SAndrii Nakryiko 
589d29d87f7SAndrii Nakryiko 	if (btf->fd >= 0)
590d29d87f7SAndrii Nakryiko 		return -EEXIST;
591d29d87f7SAndrii Nakryiko 
592d29d87f7SAndrii Nakryiko 	log_buf = malloc(log_buf_size);
593d29d87f7SAndrii Nakryiko 	if (!log_buf)
594d29d87f7SAndrii Nakryiko 		return -ENOMEM;
595d29d87f7SAndrii Nakryiko 
596d29d87f7SAndrii Nakryiko 	*log_buf = 0;
597d29d87f7SAndrii Nakryiko 
598d29d87f7SAndrii Nakryiko 	btf->fd = bpf_load_btf(btf->data, btf->data_size,
599d29d87f7SAndrii Nakryiko 			       log_buf, log_buf_size, false);
600d29d87f7SAndrii Nakryiko 	if (btf->fd < 0) {
601d29d87f7SAndrii Nakryiko 		err = -errno;
602d29d87f7SAndrii Nakryiko 		pr_warning("Error loading BTF: %s(%d)\n", strerror(errno), errno);
603d29d87f7SAndrii Nakryiko 		if (*log_buf)
604d29d87f7SAndrii Nakryiko 			pr_warning("%s\n", log_buf);
605d29d87f7SAndrii Nakryiko 		goto done;
606d29d87f7SAndrii Nakryiko 	}
607d29d87f7SAndrii Nakryiko 
608d29d87f7SAndrii Nakryiko done:
609d29d87f7SAndrii Nakryiko 	free(log_buf);
610d29d87f7SAndrii Nakryiko 	return err;
611d29d87f7SAndrii Nakryiko }
612d29d87f7SAndrii Nakryiko 
6138a138aedSMartin KaFai Lau int btf__fd(const struct btf *btf)
6148a138aedSMartin KaFai Lau {
6158a138aedSMartin KaFai Lau 	return btf->fd;
6168a138aedSMartin KaFai Lau }
61792b57121SOkash Khawaja 
61802c87446SAndrii Nakryiko const void *btf__get_raw_data(const struct btf *btf, __u32 *size)
61902c87446SAndrii Nakryiko {
62002c87446SAndrii Nakryiko 	*size = btf->data_size;
62102c87446SAndrii Nakryiko 	return btf->data;
62202c87446SAndrii Nakryiko }
62302c87446SAndrii Nakryiko 
62492b57121SOkash Khawaja const char *btf__name_by_offset(const struct btf *btf, __u32 offset)
62592b57121SOkash Khawaja {
62692b57121SOkash Khawaja 	if (offset < btf->hdr->str_len)
62792b57121SOkash Khawaja 		return &btf->strings[offset];
62892b57121SOkash Khawaja 	else
62992b57121SOkash Khawaja 		return NULL;
63092b57121SOkash Khawaja }
6312993e051SYonghong Song 
6321d2f44caSMartin KaFai Lau int btf__get_from_id(__u32 id, struct btf **btf)
633d7f5b5e0SYonghong Song {
634d7f5b5e0SYonghong Song 	struct bpf_btf_info btf_info = { 0 };
635d7f5b5e0SYonghong Song 	__u32 len = sizeof(btf_info);
636d7f5b5e0SYonghong Song 	__u32 last_size;
637d7f5b5e0SYonghong Song 	int btf_fd;
638d7f5b5e0SYonghong Song 	void *ptr;
639d7f5b5e0SYonghong Song 	int err;
640d7f5b5e0SYonghong Song 
641d7f5b5e0SYonghong Song 	err = 0;
642d7f5b5e0SYonghong Song 	*btf = NULL;
643d7f5b5e0SYonghong Song 	btf_fd = bpf_btf_get_fd_by_id(id);
644d7f5b5e0SYonghong Song 	if (btf_fd < 0)
645d7f5b5e0SYonghong Song 		return 0;
646d7f5b5e0SYonghong Song 
647d7f5b5e0SYonghong Song 	/* we won't know btf_size until we call bpf_obj_get_info_by_fd(). so
648d7f5b5e0SYonghong Song 	 * let's start with a sane default - 4KiB here - and resize it only if
649d7f5b5e0SYonghong Song 	 * bpf_obj_get_info_by_fd() needs a bigger buffer.
650d7f5b5e0SYonghong Song 	 */
651d7f5b5e0SYonghong Song 	btf_info.btf_size = 4096;
652d7f5b5e0SYonghong Song 	last_size = btf_info.btf_size;
653d7f5b5e0SYonghong Song 	ptr = malloc(last_size);
654d7f5b5e0SYonghong Song 	if (!ptr) {
655d7f5b5e0SYonghong Song 		err = -ENOMEM;
656d7f5b5e0SYonghong Song 		goto exit_free;
657d7f5b5e0SYonghong Song 	}
658d7f5b5e0SYonghong Song 
6591ad9cbb8SAndrii Nakryiko 	memset(ptr, 0, last_size);
660d7f5b5e0SYonghong Song 	btf_info.btf = ptr_to_u64(ptr);
661d7f5b5e0SYonghong Song 	err = bpf_obj_get_info_by_fd(btf_fd, &btf_info, &len);
662d7f5b5e0SYonghong Song 
663d7f5b5e0SYonghong Song 	if (!err && btf_info.btf_size > last_size) {
664d7f5b5e0SYonghong Song 		void *temp_ptr;
665d7f5b5e0SYonghong Song 
666d7f5b5e0SYonghong Song 		last_size = btf_info.btf_size;
667d7f5b5e0SYonghong Song 		temp_ptr = realloc(ptr, last_size);
668d7f5b5e0SYonghong Song 		if (!temp_ptr) {
669d7f5b5e0SYonghong Song 			err = -ENOMEM;
670d7f5b5e0SYonghong Song 			goto exit_free;
671d7f5b5e0SYonghong Song 		}
672d7f5b5e0SYonghong Song 		ptr = temp_ptr;
6731ad9cbb8SAndrii Nakryiko 		memset(ptr, 0, last_size);
674d7f5b5e0SYonghong Song 		btf_info.btf = ptr_to_u64(ptr);
675d7f5b5e0SYonghong Song 		err = bpf_obj_get_info_by_fd(btf_fd, &btf_info, &len);
676d7f5b5e0SYonghong Song 	}
677d7f5b5e0SYonghong Song 
678d7f5b5e0SYonghong Song 	if (err || btf_info.btf_size > last_size) {
679d7f5b5e0SYonghong Song 		err = errno;
680d7f5b5e0SYonghong Song 		goto exit_free;
681d7f5b5e0SYonghong Song 	}
682d7f5b5e0SYonghong Song 
6838461ef8bSYonghong Song 	*btf = btf__new((__u8 *)(long)btf_info.btf, btf_info.btf_size);
684d7f5b5e0SYonghong Song 	if (IS_ERR(*btf)) {
685d7f5b5e0SYonghong Song 		err = PTR_ERR(*btf);
686d7f5b5e0SYonghong Song 		*btf = NULL;
687d7f5b5e0SYonghong Song 	}
688d7f5b5e0SYonghong Song 
689d7f5b5e0SYonghong Song exit_free:
690d7f5b5e0SYonghong Song 	close(btf_fd);
691d7f5b5e0SYonghong Song 	free(ptr);
692d7f5b5e0SYonghong Song 
693d7f5b5e0SYonghong Song 	return err;
694d7f5b5e0SYonghong Song }
695d7f5b5e0SYonghong Song 
696a6c109a6SYonghong Song int btf__get_map_kv_tids(const struct btf *btf, const char *map_name,
69796408c43SYonghong Song 			 __u32 expected_key_size, __u32 expected_value_size,
69896408c43SYonghong Song 			 __u32 *key_type_id, __u32 *value_type_id)
69996408c43SYonghong Song {
70096408c43SYonghong Song 	const struct btf_type *container_type;
70196408c43SYonghong Song 	const struct btf_member *key, *value;
70296408c43SYonghong Song 	const size_t max_name = 256;
70396408c43SYonghong Song 	char container_name[max_name];
70496408c43SYonghong Song 	__s64 key_size, value_size;
70596408c43SYonghong Song 	__s32 container_id;
70696408c43SYonghong Song 
70796408c43SYonghong Song 	if (snprintf(container_name, max_name, "____btf_map_%s", map_name) ==
70896408c43SYonghong Song 	    max_name) {
70996408c43SYonghong Song 		pr_warning("map:%s length of '____btf_map_%s' is too long\n",
71096408c43SYonghong Song 			   map_name, map_name);
71196408c43SYonghong Song 		return -EINVAL;
71296408c43SYonghong Song 	}
71396408c43SYonghong Song 
71496408c43SYonghong Song 	container_id = btf__find_by_name(btf, container_name);
71596408c43SYonghong Song 	if (container_id < 0) {
716f7748e29SYonghong Song 		pr_debug("map:%s container_name:%s cannot be found in BTF. Missing BPF_ANNOTATE_KV_PAIR?\n",
71796408c43SYonghong Song 			 map_name, container_name);
71896408c43SYonghong Song 		return container_id;
71996408c43SYonghong Song 	}
72096408c43SYonghong Song 
72196408c43SYonghong Song 	container_type = btf__type_by_id(btf, container_id);
72296408c43SYonghong Song 	if (!container_type) {
72396408c43SYonghong Song 		pr_warning("map:%s cannot find BTF type for container_id:%u\n",
72496408c43SYonghong Song 			   map_name, container_id);
72596408c43SYonghong Song 		return -EINVAL;
72696408c43SYonghong Song 	}
72796408c43SYonghong Song 
728b03bc685SAndrii Nakryiko 	if (!btf_is_struct(container_type) || btf_vlen(container_type) < 2) {
72996408c43SYonghong Song 		pr_warning("map:%s container_name:%s is an invalid container struct\n",
73096408c43SYonghong Song 			   map_name, container_name);
73196408c43SYonghong Song 		return -EINVAL;
73296408c43SYonghong Song 	}
73396408c43SYonghong Song 
734b03bc685SAndrii Nakryiko 	key = btf_members(container_type);
73596408c43SYonghong Song 	value = key + 1;
73696408c43SYonghong Song 
73796408c43SYonghong Song 	key_size = btf__resolve_size(btf, key->type);
73896408c43SYonghong Song 	if (key_size < 0) {
73996408c43SYonghong Song 		pr_warning("map:%s invalid BTF key_type_size\n", map_name);
74096408c43SYonghong Song 		return key_size;
74196408c43SYonghong Song 	}
74296408c43SYonghong Song 
74396408c43SYonghong Song 	if (expected_key_size != key_size) {
74496408c43SYonghong Song 		pr_warning("map:%s btf_key_type_size:%u != map_def_key_size:%u\n",
74596408c43SYonghong Song 			   map_name, (__u32)key_size, expected_key_size);
74696408c43SYonghong Song 		return -EINVAL;
74796408c43SYonghong Song 	}
74896408c43SYonghong Song 
74996408c43SYonghong Song 	value_size = btf__resolve_size(btf, value->type);
75096408c43SYonghong Song 	if (value_size < 0) {
75196408c43SYonghong Song 		pr_warning("map:%s invalid BTF value_type_size\n", map_name);
75296408c43SYonghong Song 		return value_size;
75396408c43SYonghong Song 	}
75496408c43SYonghong Song 
75596408c43SYonghong Song 	if (expected_value_size != value_size) {
75696408c43SYonghong Song 		pr_warning("map:%s btf_value_type_size:%u != map_def_value_size:%u\n",
75796408c43SYonghong Song 			   map_name, (__u32)value_size, expected_value_size);
75896408c43SYonghong Song 		return -EINVAL;
75996408c43SYonghong Song 	}
76096408c43SYonghong Song 
76196408c43SYonghong Song 	*key_type_id = key->type;
76296408c43SYonghong Song 	*value_type_id = value->type;
76396408c43SYonghong Song 
76496408c43SYonghong Song 	return 0;
76596408c43SYonghong Song }
76696408c43SYonghong Song 
767ae4ab4b4SAndrii Nakryiko struct btf_ext_sec_setup_param {
7683d650141SMartin KaFai Lau 	__u32 off;
7693d650141SMartin KaFai Lau 	__u32 len;
7703d650141SMartin KaFai Lau 	__u32 min_rec_size;
7713d650141SMartin KaFai Lau 	struct btf_ext_info *ext_info;
7723d650141SMartin KaFai Lau 	const char *desc;
7733d650141SMartin KaFai Lau };
7743d650141SMartin KaFai Lau 
775ae4ab4b4SAndrii Nakryiko static int btf_ext_setup_info(struct btf_ext *btf_ext,
776ae4ab4b4SAndrii Nakryiko 			      struct btf_ext_sec_setup_param *ext_sec)
7772993e051SYonghong Song {
7783d650141SMartin KaFai Lau 	const struct btf_ext_info_sec *sinfo;
7793d650141SMartin KaFai Lau 	struct btf_ext_info *ext_info;
780f0187f0bSMartin KaFai Lau 	__u32 info_left, record_size;
781f0187f0bSMartin KaFai Lau 	/* The start of the info sec (including the __u32 record_size). */
782ae4ab4b4SAndrii Nakryiko 	void *info;
783f0187f0bSMartin KaFai Lau 
784*4cedc0daSAndrii Nakryiko 	if (ext_sec->len == 0)
785*4cedc0daSAndrii Nakryiko 		return 0;
786*4cedc0daSAndrii Nakryiko 
7873d650141SMartin KaFai Lau 	if (ext_sec->off & 0x03) {
7888461ef8bSYonghong Song 		pr_debug(".BTF.ext %s section is not aligned to 4 bytes\n",
7893d650141SMartin KaFai Lau 		     ext_sec->desc);
790f0187f0bSMartin KaFai Lau 		return -EINVAL;
791f0187f0bSMartin KaFai Lau 	}
792f0187f0bSMartin KaFai Lau 
793ae4ab4b4SAndrii Nakryiko 	info = btf_ext->data + btf_ext->hdr->hdr_len + ext_sec->off;
794ae4ab4b4SAndrii Nakryiko 	info_left = ext_sec->len;
795ae4ab4b4SAndrii Nakryiko 
796ae4ab4b4SAndrii Nakryiko 	if (btf_ext->data + btf_ext->data_size < info + ext_sec->len) {
7978461ef8bSYonghong Song 		pr_debug("%s section (off:%u len:%u) is beyond the end of the ELF section .BTF.ext\n",
7983d650141SMartin KaFai Lau 			 ext_sec->desc, ext_sec->off, ext_sec->len);
799f0187f0bSMartin KaFai Lau 		return -EINVAL;
800f0187f0bSMartin KaFai Lau 	}
801f0187f0bSMartin KaFai Lau 
8023d650141SMartin KaFai Lau 	/* At least a record size */
803f0187f0bSMartin KaFai Lau 	if (info_left < sizeof(__u32)) {
8048461ef8bSYonghong Song 		pr_debug(".BTF.ext %s record size not found\n", ext_sec->desc);
8052993e051SYonghong Song 		return -EINVAL;
8062993e051SYonghong Song 	}
8072993e051SYonghong Song 
808f0187f0bSMartin KaFai Lau 	/* The record size needs to meet the minimum standard */
809f0187f0bSMartin KaFai Lau 	record_size = *(__u32 *)info;
8103d650141SMartin KaFai Lau 	if (record_size < ext_sec->min_rec_size ||
811f0187f0bSMartin KaFai Lau 	    record_size & 0x03) {
8128461ef8bSYonghong Song 		pr_debug("%s section in .BTF.ext has invalid record size %u\n",
8133d650141SMartin KaFai Lau 			 ext_sec->desc, record_size);
8142993e051SYonghong Song 		return -EINVAL;
8152993e051SYonghong Song 	}
8162993e051SYonghong Song 
817f0187f0bSMartin KaFai Lau 	sinfo = info + sizeof(__u32);
818f0187f0bSMartin KaFai Lau 	info_left -= sizeof(__u32);
8192993e051SYonghong Song 
8203d650141SMartin KaFai Lau 	/* If no records, return failure now so .BTF.ext won't be used. */
821f0187f0bSMartin KaFai Lau 	if (!info_left) {
8228461ef8bSYonghong Song 		pr_debug("%s section in .BTF.ext has no records", ext_sec->desc);
8232993e051SYonghong Song 		return -EINVAL;
8242993e051SYonghong Song 	}
8252993e051SYonghong Song 
826f0187f0bSMartin KaFai Lau 	while (info_left) {
8273d650141SMartin KaFai Lau 		unsigned int sec_hdrlen = sizeof(struct btf_ext_info_sec);
828f0187f0bSMartin KaFai Lau 		__u64 total_record_size;
829f0187f0bSMartin KaFai Lau 		__u32 num_records;
830f0187f0bSMartin KaFai Lau 
831f0187f0bSMartin KaFai Lau 		if (info_left < sec_hdrlen) {
8328461ef8bSYonghong Song 			pr_debug("%s section header is not found in .BTF.ext\n",
8333d650141SMartin KaFai Lau 			     ext_sec->desc);
8342993e051SYonghong Song 			return -EINVAL;
8352993e051SYonghong Song 		}
8362993e051SYonghong Song 
8373d650141SMartin KaFai Lau 		num_records = sinfo->num_info;
8382993e051SYonghong Song 		if (num_records == 0) {
8398461ef8bSYonghong Song 			pr_debug("%s section has incorrect num_records in .BTF.ext\n",
8403d650141SMartin KaFai Lau 			     ext_sec->desc);
8412993e051SYonghong Song 			return -EINVAL;
8422993e051SYonghong Song 		}
8432993e051SYonghong Song 
8442993e051SYonghong Song 		total_record_size = sec_hdrlen +
8452993e051SYonghong Song 				    (__u64)num_records * record_size;
846f0187f0bSMartin KaFai Lau 		if (info_left < total_record_size) {
8478461ef8bSYonghong Song 			pr_debug("%s section has incorrect num_records in .BTF.ext\n",
8483d650141SMartin KaFai Lau 			     ext_sec->desc);
8492993e051SYonghong Song 			return -EINVAL;
8502993e051SYonghong Song 		}
8512993e051SYonghong Song 
852f0187f0bSMartin KaFai Lau 		info_left -= total_record_size;
8532993e051SYonghong Song 		sinfo = (void *)sinfo + total_record_size;
8542993e051SYonghong Song 	}
8552993e051SYonghong Song 
8563d650141SMartin KaFai Lau 	ext_info = ext_sec->ext_info;
8573d650141SMartin KaFai Lau 	ext_info->len = ext_sec->len - sizeof(__u32);
8583d650141SMartin KaFai Lau 	ext_info->rec_size = record_size;
859ae4ab4b4SAndrii Nakryiko 	ext_info->info = info + sizeof(__u32);
860f0187f0bSMartin KaFai Lau 
8612993e051SYonghong Song 	return 0;
8622993e051SYonghong Song }
8632993e051SYonghong Song 
864ae4ab4b4SAndrii Nakryiko static int btf_ext_setup_func_info(struct btf_ext *btf_ext)
8653d650141SMartin KaFai Lau {
866ae4ab4b4SAndrii Nakryiko 	struct btf_ext_sec_setup_param param = {
867ae4ab4b4SAndrii Nakryiko 		.off = btf_ext->hdr->func_info_off,
868ae4ab4b4SAndrii Nakryiko 		.len = btf_ext->hdr->func_info_len,
8693d650141SMartin KaFai Lau 		.min_rec_size = sizeof(struct bpf_func_info_min),
8703d650141SMartin KaFai Lau 		.ext_info = &btf_ext->func_info,
8713d650141SMartin KaFai Lau 		.desc = "func_info"
8723d650141SMartin KaFai Lau 	};
8733d650141SMartin KaFai Lau 
874ae4ab4b4SAndrii Nakryiko 	return btf_ext_setup_info(btf_ext, &param);
8753d650141SMartin KaFai Lau }
8763d650141SMartin KaFai Lau 
877ae4ab4b4SAndrii Nakryiko static int btf_ext_setup_line_info(struct btf_ext *btf_ext)
8783d650141SMartin KaFai Lau {
879ae4ab4b4SAndrii Nakryiko 	struct btf_ext_sec_setup_param param = {
880ae4ab4b4SAndrii Nakryiko 		.off = btf_ext->hdr->line_info_off,
881ae4ab4b4SAndrii Nakryiko 		.len = btf_ext->hdr->line_info_len,
8823d650141SMartin KaFai Lau 		.min_rec_size = sizeof(struct bpf_line_info_min),
8833d650141SMartin KaFai Lau 		.ext_info = &btf_ext->line_info,
8843d650141SMartin KaFai Lau 		.desc = "line_info",
8853d650141SMartin KaFai Lau 	};
8863d650141SMartin KaFai Lau 
887ae4ab4b4SAndrii Nakryiko 	return btf_ext_setup_info(btf_ext, &param);
8883d650141SMartin KaFai Lau }
8893d650141SMartin KaFai Lau 
890*4cedc0daSAndrii Nakryiko static int btf_ext_setup_offset_reloc(struct btf_ext *btf_ext)
891*4cedc0daSAndrii Nakryiko {
892*4cedc0daSAndrii Nakryiko 	struct btf_ext_sec_setup_param param = {
893*4cedc0daSAndrii Nakryiko 		.off = btf_ext->hdr->offset_reloc_off,
894*4cedc0daSAndrii Nakryiko 		.len = btf_ext->hdr->offset_reloc_len,
895*4cedc0daSAndrii Nakryiko 		.min_rec_size = sizeof(struct bpf_offset_reloc),
896*4cedc0daSAndrii Nakryiko 		.ext_info = &btf_ext->offset_reloc_info,
897*4cedc0daSAndrii Nakryiko 		.desc = "offset_reloc",
898*4cedc0daSAndrii Nakryiko 	};
899*4cedc0daSAndrii Nakryiko 
900*4cedc0daSAndrii Nakryiko 	return btf_ext_setup_info(btf_ext, &param);
901*4cedc0daSAndrii Nakryiko }
902*4cedc0daSAndrii Nakryiko 
9038461ef8bSYonghong Song static int btf_ext_parse_hdr(__u8 *data, __u32 data_size)
9042993e051SYonghong Song {
9052993e051SYonghong Song 	const struct btf_ext_header *hdr = (struct btf_ext_header *)data;
9062993e051SYonghong Song 
907*4cedc0daSAndrii Nakryiko 	if (data_size < offsetofend(struct btf_ext_header, hdr_len) ||
9082993e051SYonghong Song 	    data_size < hdr->hdr_len) {
9098461ef8bSYonghong Song 		pr_debug("BTF.ext header not found");
9102993e051SYonghong Song 		return -EINVAL;
9112993e051SYonghong Song 	}
9122993e051SYonghong Song 
9132993e051SYonghong Song 	if (hdr->magic != BTF_MAGIC) {
9148461ef8bSYonghong Song 		pr_debug("Invalid BTF.ext magic:%x\n", hdr->magic);
9152993e051SYonghong Song 		return -EINVAL;
9162993e051SYonghong Song 	}
9172993e051SYonghong Song 
9182993e051SYonghong Song 	if (hdr->version != BTF_VERSION) {
9198461ef8bSYonghong Song 		pr_debug("Unsupported BTF.ext version:%u\n", hdr->version);
9202993e051SYonghong Song 		return -ENOTSUP;
9212993e051SYonghong Song 	}
9222993e051SYonghong Song 
9232993e051SYonghong Song 	if (hdr->flags) {
9248461ef8bSYonghong Song 		pr_debug("Unsupported BTF.ext flags:%x\n", hdr->flags);
9252993e051SYonghong Song 		return -ENOTSUP;
9262993e051SYonghong Song 	}
9272993e051SYonghong Song 
928f0187f0bSMartin KaFai Lau 	if (data_size == hdr->hdr_len) {
9298461ef8bSYonghong Song 		pr_debug("BTF.ext has no data\n");
9302993e051SYonghong Song 		return -EINVAL;
9312993e051SYonghong Song 	}
9322993e051SYonghong Song 
933f0187f0bSMartin KaFai Lau 	return 0;
9342993e051SYonghong Song }
9352993e051SYonghong Song 
9362993e051SYonghong Song void btf_ext__free(struct btf_ext *btf_ext)
9372993e051SYonghong Song {
9382993e051SYonghong Song 	if (!btf_ext)
9392993e051SYonghong Song 		return;
940ae4ab4b4SAndrii Nakryiko 	free(btf_ext->data);
9412993e051SYonghong Song 	free(btf_ext);
9422993e051SYonghong Song }
9432993e051SYonghong Song 
9448461ef8bSYonghong Song struct btf_ext *btf_ext__new(__u8 *data, __u32 size)
9452993e051SYonghong Song {
9462993e051SYonghong Song 	struct btf_ext *btf_ext;
9472993e051SYonghong Song 	int err;
9482993e051SYonghong Song 
9498461ef8bSYonghong Song 	err = btf_ext_parse_hdr(data, size);
9502993e051SYonghong Song 	if (err)
9512993e051SYonghong Song 		return ERR_PTR(err);
9522993e051SYonghong Song 
9532993e051SYonghong Song 	btf_ext = calloc(1, sizeof(struct btf_ext));
9542993e051SYonghong Song 	if (!btf_ext)
9552993e051SYonghong Song 		return ERR_PTR(-ENOMEM);
9562993e051SYonghong Song 
957ae4ab4b4SAndrii Nakryiko 	btf_ext->data_size = size;
958ae4ab4b4SAndrii Nakryiko 	btf_ext->data = malloc(size);
959ae4ab4b4SAndrii Nakryiko 	if (!btf_ext->data) {
960ae4ab4b4SAndrii Nakryiko 		err = -ENOMEM;
961ae4ab4b4SAndrii Nakryiko 		goto done;
9622993e051SYonghong Song 	}
963ae4ab4b4SAndrii Nakryiko 	memcpy(btf_ext->data, data, size);
9642993e051SYonghong Song 
965*4cedc0daSAndrii Nakryiko 	if (btf_ext->hdr->hdr_len <
966*4cedc0daSAndrii Nakryiko 	    offsetofend(struct btf_ext_header, line_info_len))
967*4cedc0daSAndrii Nakryiko 		goto done;
968ae4ab4b4SAndrii Nakryiko 	err = btf_ext_setup_func_info(btf_ext);
969ae4ab4b4SAndrii Nakryiko 	if (err)
970ae4ab4b4SAndrii Nakryiko 		goto done;
971ae4ab4b4SAndrii Nakryiko 
972ae4ab4b4SAndrii Nakryiko 	err = btf_ext_setup_line_info(btf_ext);
973ae4ab4b4SAndrii Nakryiko 	if (err)
974ae4ab4b4SAndrii Nakryiko 		goto done;
975ae4ab4b4SAndrii Nakryiko 
976*4cedc0daSAndrii Nakryiko 	if (btf_ext->hdr->hdr_len <
977*4cedc0daSAndrii Nakryiko 	    offsetofend(struct btf_ext_header, offset_reloc_len))
978*4cedc0daSAndrii Nakryiko 		goto done;
979*4cedc0daSAndrii Nakryiko 	err = btf_ext_setup_offset_reloc(btf_ext);
980*4cedc0daSAndrii Nakryiko 	if (err)
981*4cedc0daSAndrii Nakryiko 		goto done;
982*4cedc0daSAndrii Nakryiko 
983ae4ab4b4SAndrii Nakryiko done:
9843d650141SMartin KaFai Lau 	if (err) {
9853d650141SMartin KaFai Lau 		btf_ext__free(btf_ext);
9863d650141SMartin KaFai Lau 		return ERR_PTR(err);
9873d650141SMartin KaFai Lau 	}
9883d650141SMartin KaFai Lau 
9892993e051SYonghong Song 	return btf_ext;
9902993e051SYonghong Song }
9912993e051SYonghong Song 
992ae4ab4b4SAndrii Nakryiko const void *btf_ext__get_raw_data(const struct btf_ext *btf_ext, __u32 *size)
993ae4ab4b4SAndrii Nakryiko {
994ae4ab4b4SAndrii Nakryiko 	*size = btf_ext->data_size;
995ae4ab4b4SAndrii Nakryiko 	return btf_ext->data;
996ae4ab4b4SAndrii Nakryiko }
997ae4ab4b4SAndrii Nakryiko 
9983d650141SMartin KaFai Lau static int btf_ext_reloc_info(const struct btf *btf,
9993d650141SMartin KaFai Lau 			      const struct btf_ext_info *ext_info,
10002993e051SYonghong Song 			      const char *sec_name, __u32 insns_cnt,
10013d650141SMartin KaFai Lau 			      void **info, __u32 *cnt)
10022993e051SYonghong Song {
10033d650141SMartin KaFai Lau 	__u32 sec_hdrlen = sizeof(struct btf_ext_info_sec);
10043d650141SMartin KaFai Lau 	__u32 i, record_size, existing_len, records_len;
10053d650141SMartin KaFai Lau 	struct btf_ext_info_sec *sinfo;
10062993e051SYonghong Song 	const char *info_sec_name;
10072993e051SYonghong Song 	__u64 remain_len;
10082993e051SYonghong Song 	void *data;
10092993e051SYonghong Song 
10103d650141SMartin KaFai Lau 	record_size = ext_info->rec_size;
10113d650141SMartin KaFai Lau 	sinfo = ext_info->info;
10123d650141SMartin KaFai Lau 	remain_len = ext_info->len;
10132993e051SYonghong Song 	while (remain_len > 0) {
10143d650141SMartin KaFai Lau 		records_len = sinfo->num_info * record_size;
10152993e051SYonghong Song 		info_sec_name = btf__name_by_offset(btf, sinfo->sec_name_off);
10162993e051SYonghong Song 		if (strcmp(info_sec_name, sec_name)) {
10172993e051SYonghong Song 			remain_len -= sec_hdrlen + records_len;
10182993e051SYonghong Song 			sinfo = (void *)sinfo + sec_hdrlen + records_len;
10192993e051SYonghong Song 			continue;
10202993e051SYonghong Song 		}
10212993e051SYonghong Song 
10223d650141SMartin KaFai Lau 		existing_len = (*cnt) * record_size;
10233d650141SMartin KaFai Lau 		data = realloc(*info, existing_len + records_len);
10242993e051SYonghong Song 		if (!data)
10252993e051SYonghong Song 			return -ENOMEM;
10262993e051SYonghong Song 
10273d650141SMartin KaFai Lau 		memcpy(data + existing_len, sinfo->data, records_len);
102884ecc1f9SMartin KaFai Lau 		/* adjust insn_off only, the rest data will be passed
10292993e051SYonghong Song 		 * to the kernel.
10302993e051SYonghong Song 		 */
10313d650141SMartin KaFai Lau 		for (i = 0; i < sinfo->num_info; i++) {
10323d650141SMartin KaFai Lau 			__u32 *insn_off;
10332993e051SYonghong Song 
10343d650141SMartin KaFai Lau 			insn_off = data + existing_len + (i * record_size);
10353d650141SMartin KaFai Lau 			*insn_off = *insn_off / sizeof(struct bpf_insn) +
10362993e051SYonghong Song 				insns_cnt;
10372993e051SYonghong Song 		}
10383d650141SMartin KaFai Lau 		*info = data;
10393d650141SMartin KaFai Lau 		*cnt += sinfo->num_info;
10402993e051SYonghong Song 		return 0;
10412993e051SYonghong Song 	}
10422993e051SYonghong Song 
1043f0187f0bSMartin KaFai Lau 	return -ENOENT;
1044f0187f0bSMartin KaFai Lau }
1045f0187f0bSMartin KaFai Lau 
1046ae4ab4b4SAndrii Nakryiko int btf_ext__reloc_func_info(const struct btf *btf,
1047ae4ab4b4SAndrii Nakryiko 			     const struct btf_ext *btf_ext,
10483d650141SMartin KaFai Lau 			     const char *sec_name, __u32 insns_cnt,
10493d650141SMartin KaFai Lau 			     void **func_info, __u32 *cnt)
10503d650141SMartin KaFai Lau {
10513d650141SMartin KaFai Lau 	return btf_ext_reloc_info(btf, &btf_ext->func_info, sec_name,
10523d650141SMartin KaFai Lau 				  insns_cnt, func_info, cnt);
10533d650141SMartin KaFai Lau }
10543d650141SMartin KaFai Lau 
1055ae4ab4b4SAndrii Nakryiko int btf_ext__reloc_line_info(const struct btf *btf,
1056ae4ab4b4SAndrii Nakryiko 			     const struct btf_ext *btf_ext,
10573d650141SMartin KaFai Lau 			     const char *sec_name, __u32 insns_cnt,
10583d650141SMartin KaFai Lau 			     void **line_info, __u32 *cnt)
10593d650141SMartin KaFai Lau {
10603d650141SMartin KaFai Lau 	return btf_ext_reloc_info(btf, &btf_ext->line_info, sec_name,
10613d650141SMartin KaFai Lau 				  insns_cnt, line_info, cnt);
10623d650141SMartin KaFai Lau }
10633d650141SMartin KaFai Lau 
1064f0187f0bSMartin KaFai Lau __u32 btf_ext__func_info_rec_size(const struct btf_ext *btf_ext)
1065f0187f0bSMartin KaFai Lau {
10663d650141SMartin KaFai Lau 	return btf_ext->func_info.rec_size;
10673d650141SMartin KaFai Lau }
10683d650141SMartin KaFai Lau 
10693d650141SMartin KaFai Lau __u32 btf_ext__line_info_rec_size(const struct btf_ext *btf_ext)
10703d650141SMartin KaFai Lau {
10713d650141SMartin KaFai Lau 	return btf_ext->line_info.rec_size;
10722993e051SYonghong Song }
1073d5caef5bSAndrii Nakryiko 
1074d5caef5bSAndrii Nakryiko struct btf_dedup;
1075d5caef5bSAndrii Nakryiko 
1076d5caef5bSAndrii Nakryiko static struct btf_dedup *btf_dedup_new(struct btf *btf, struct btf_ext *btf_ext,
1077d5caef5bSAndrii Nakryiko 				       const struct btf_dedup_opts *opts);
1078d5caef5bSAndrii Nakryiko static void btf_dedup_free(struct btf_dedup *d);
1079d5caef5bSAndrii Nakryiko static int btf_dedup_strings(struct btf_dedup *d);
1080d5caef5bSAndrii Nakryiko static int btf_dedup_prim_types(struct btf_dedup *d);
1081d5caef5bSAndrii Nakryiko static int btf_dedup_struct_types(struct btf_dedup *d);
1082d5caef5bSAndrii Nakryiko static int btf_dedup_ref_types(struct btf_dedup *d);
1083d5caef5bSAndrii Nakryiko static int btf_dedup_compact_types(struct btf_dedup *d);
1084d5caef5bSAndrii Nakryiko static int btf_dedup_remap_types(struct btf_dedup *d);
1085d5caef5bSAndrii Nakryiko 
1086d5caef5bSAndrii Nakryiko /*
1087d5caef5bSAndrii Nakryiko  * Deduplicate BTF types and strings.
1088d5caef5bSAndrii Nakryiko  *
1089d5caef5bSAndrii Nakryiko  * BTF dedup algorithm takes as an input `struct btf` representing `.BTF` ELF
1090d5caef5bSAndrii Nakryiko  * section with all BTF type descriptors and string data. It overwrites that
1091d5caef5bSAndrii Nakryiko  * memory in-place with deduplicated types and strings without any loss of
1092d5caef5bSAndrii Nakryiko  * information. If optional `struct btf_ext` representing '.BTF.ext' ELF section
1093d5caef5bSAndrii Nakryiko  * is provided, all the strings referenced from .BTF.ext section are honored
1094d5caef5bSAndrii Nakryiko  * and updated to point to the right offsets after deduplication.
1095d5caef5bSAndrii Nakryiko  *
1096d5caef5bSAndrii Nakryiko  * If function returns with error, type/string data might be garbled and should
1097d5caef5bSAndrii Nakryiko  * be discarded.
1098d5caef5bSAndrii Nakryiko  *
1099d5caef5bSAndrii Nakryiko  * More verbose and detailed description of both problem btf_dedup is solving,
1100d5caef5bSAndrii Nakryiko  * as well as solution could be found at:
1101d5caef5bSAndrii Nakryiko  * https://facebookmicrosites.github.io/bpf/blog/2018/11/14/btf-enhancement.html
1102d5caef5bSAndrii Nakryiko  *
1103d5caef5bSAndrii Nakryiko  * Problem description and justification
1104d5caef5bSAndrii Nakryiko  * =====================================
1105d5caef5bSAndrii Nakryiko  *
1106d5caef5bSAndrii Nakryiko  * BTF type information is typically emitted either as a result of conversion
1107d5caef5bSAndrii Nakryiko  * from DWARF to BTF or directly by compiler. In both cases, each compilation
1108d5caef5bSAndrii Nakryiko  * unit contains information about a subset of all the types that are used
1109d5caef5bSAndrii Nakryiko  * in an application. These subsets are frequently overlapping and contain a lot
1110d5caef5bSAndrii Nakryiko  * of duplicated information when later concatenated together into a single
1111d5caef5bSAndrii Nakryiko  * binary. This algorithm ensures that each unique type is represented by single
1112d5caef5bSAndrii Nakryiko  * BTF type descriptor, greatly reducing resulting size of BTF data.
1113d5caef5bSAndrii Nakryiko  *
1114d5caef5bSAndrii Nakryiko  * Compilation unit isolation and subsequent duplication of data is not the only
1115d5caef5bSAndrii Nakryiko  * problem. The same type hierarchy (e.g., struct and all the type that struct
1116d5caef5bSAndrii Nakryiko  * references) in different compilation units can be represented in BTF to
1117d5caef5bSAndrii Nakryiko  * various degrees of completeness (or, rather, incompleteness) due to
1118d5caef5bSAndrii Nakryiko  * struct/union forward declarations.
1119d5caef5bSAndrii Nakryiko  *
1120d5caef5bSAndrii Nakryiko  * Let's take a look at an example, that we'll use to better understand the
1121d5caef5bSAndrii Nakryiko  * problem (and solution). Suppose we have two compilation units, each using
1122d5caef5bSAndrii Nakryiko  * same `struct S`, but each of them having incomplete type information about
1123d5caef5bSAndrii Nakryiko  * struct's fields:
1124d5caef5bSAndrii Nakryiko  *
1125d5caef5bSAndrii Nakryiko  * // CU #1:
1126d5caef5bSAndrii Nakryiko  * struct S;
1127d5caef5bSAndrii Nakryiko  * struct A {
1128d5caef5bSAndrii Nakryiko  *	int a;
1129d5caef5bSAndrii Nakryiko  *	struct A* self;
1130d5caef5bSAndrii Nakryiko  *	struct S* parent;
1131d5caef5bSAndrii Nakryiko  * };
1132d5caef5bSAndrii Nakryiko  * struct B;
1133d5caef5bSAndrii Nakryiko  * struct S {
1134d5caef5bSAndrii Nakryiko  *	struct A* a_ptr;
1135d5caef5bSAndrii Nakryiko  *	struct B* b_ptr;
1136d5caef5bSAndrii Nakryiko  * };
1137d5caef5bSAndrii Nakryiko  *
1138d5caef5bSAndrii Nakryiko  * // CU #2:
1139d5caef5bSAndrii Nakryiko  * struct S;
1140d5caef5bSAndrii Nakryiko  * struct A;
1141d5caef5bSAndrii Nakryiko  * struct B {
1142d5caef5bSAndrii Nakryiko  *	int b;
1143d5caef5bSAndrii Nakryiko  *	struct B* self;
1144d5caef5bSAndrii Nakryiko  *	struct S* parent;
1145d5caef5bSAndrii Nakryiko  * };
1146d5caef5bSAndrii Nakryiko  * struct S {
1147d5caef5bSAndrii Nakryiko  *	struct A* a_ptr;
1148d5caef5bSAndrii Nakryiko  *	struct B* b_ptr;
1149d5caef5bSAndrii Nakryiko  * };
1150d5caef5bSAndrii Nakryiko  *
1151d5caef5bSAndrii Nakryiko  * In case of CU #1, BTF data will know only that `struct B` exist (but no
1152d5caef5bSAndrii Nakryiko  * more), but will know the complete type information about `struct A`. While
1153d5caef5bSAndrii Nakryiko  * for CU #2, it will know full type information about `struct B`, but will
1154d5caef5bSAndrii Nakryiko  * only know about forward declaration of `struct A` (in BTF terms, it will
1155d5caef5bSAndrii Nakryiko  * have `BTF_KIND_FWD` type descriptor with name `B`).
1156d5caef5bSAndrii Nakryiko  *
1157d5caef5bSAndrii Nakryiko  * This compilation unit isolation means that it's possible that there is no
1158d5caef5bSAndrii Nakryiko  * single CU with complete type information describing structs `S`, `A`, and
1159d5caef5bSAndrii Nakryiko  * `B`. Also, we might get tons of duplicated and redundant type information.
1160d5caef5bSAndrii Nakryiko  *
1161d5caef5bSAndrii Nakryiko  * Additional complication we need to keep in mind comes from the fact that
1162d5caef5bSAndrii Nakryiko  * types, in general, can form graphs containing cycles, not just DAGs.
1163d5caef5bSAndrii Nakryiko  *
1164d5caef5bSAndrii Nakryiko  * While algorithm does deduplication, it also merges and resolves type
1165d5caef5bSAndrii Nakryiko  * information (unless disabled throught `struct btf_opts`), whenever possible.
1166d5caef5bSAndrii Nakryiko  * E.g., in the example above with two compilation units having partial type
1167d5caef5bSAndrii Nakryiko  * information for structs `A` and `B`, the output of algorithm will emit
1168d5caef5bSAndrii Nakryiko  * a single copy of each BTF type that describes structs `A`, `B`, and `S`
1169d5caef5bSAndrii Nakryiko  * (as well as type information for `int` and pointers), as if they were defined
1170d5caef5bSAndrii Nakryiko  * in a single compilation unit as:
1171d5caef5bSAndrii Nakryiko  *
1172d5caef5bSAndrii Nakryiko  * struct A {
1173d5caef5bSAndrii Nakryiko  *	int a;
1174d5caef5bSAndrii Nakryiko  *	struct A* self;
1175d5caef5bSAndrii Nakryiko  *	struct S* parent;
1176d5caef5bSAndrii Nakryiko  * };
1177d5caef5bSAndrii Nakryiko  * struct B {
1178d5caef5bSAndrii Nakryiko  *	int b;
1179d5caef5bSAndrii Nakryiko  *	struct B* self;
1180d5caef5bSAndrii Nakryiko  *	struct S* parent;
1181d5caef5bSAndrii Nakryiko  * };
1182d5caef5bSAndrii Nakryiko  * struct S {
1183d5caef5bSAndrii Nakryiko  *	struct A* a_ptr;
1184d5caef5bSAndrii Nakryiko  *	struct B* b_ptr;
1185d5caef5bSAndrii Nakryiko  * };
1186d5caef5bSAndrii Nakryiko  *
1187d5caef5bSAndrii Nakryiko  * Algorithm summary
1188d5caef5bSAndrii Nakryiko  * =================
1189d5caef5bSAndrii Nakryiko  *
1190d5caef5bSAndrii Nakryiko  * Algorithm completes its work in 6 separate passes:
1191d5caef5bSAndrii Nakryiko  *
1192d5caef5bSAndrii Nakryiko  * 1. Strings deduplication.
1193d5caef5bSAndrii Nakryiko  * 2. Primitive types deduplication (int, enum, fwd).
1194d5caef5bSAndrii Nakryiko  * 3. Struct/union types deduplication.
1195d5caef5bSAndrii Nakryiko  * 4. Reference types deduplication (pointers, typedefs, arrays, funcs, func
1196d5caef5bSAndrii Nakryiko  *    protos, and const/volatile/restrict modifiers).
1197d5caef5bSAndrii Nakryiko  * 5. Types compaction.
1198d5caef5bSAndrii Nakryiko  * 6. Types remapping.
1199d5caef5bSAndrii Nakryiko  *
1200d5caef5bSAndrii Nakryiko  * Algorithm determines canonical type descriptor, which is a single
1201d5caef5bSAndrii Nakryiko  * representative type for each truly unique type. This canonical type is the
1202d5caef5bSAndrii Nakryiko  * one that will go into final deduplicated BTF type information. For
1203d5caef5bSAndrii Nakryiko  * struct/unions, it is also the type that algorithm will merge additional type
1204d5caef5bSAndrii Nakryiko  * information into (while resolving FWDs), as it discovers it from data in
1205d5caef5bSAndrii Nakryiko  * other CUs. Each input BTF type eventually gets either mapped to itself, if
1206d5caef5bSAndrii Nakryiko  * that type is canonical, or to some other type, if that type is equivalent
1207d5caef5bSAndrii Nakryiko  * and was chosen as canonical representative. This mapping is stored in
1208d5caef5bSAndrii Nakryiko  * `btf_dedup->map` array. This map is also used to record STRUCT/UNION that
1209d5caef5bSAndrii Nakryiko  * FWD type got resolved to.
1210d5caef5bSAndrii Nakryiko  *
1211d5caef5bSAndrii Nakryiko  * To facilitate fast discovery of canonical types, we also maintain canonical
1212d5caef5bSAndrii Nakryiko  * index (`btf_dedup->dedup_table`), which maps type descriptor's signature hash
1213d5caef5bSAndrii Nakryiko  * (i.e., hashed kind, name, size, fields, etc) into a list of canonical types
1214d5caef5bSAndrii Nakryiko  * that match that signature. With sufficiently good choice of type signature
1215d5caef5bSAndrii Nakryiko  * hashing function, we can limit number of canonical types for each unique type
1216d5caef5bSAndrii Nakryiko  * signature to a very small number, allowing to find canonical type for any
1217d5caef5bSAndrii Nakryiko  * duplicated type very quickly.
1218d5caef5bSAndrii Nakryiko  *
1219d5caef5bSAndrii Nakryiko  * Struct/union deduplication is the most critical part and algorithm for
1220d5caef5bSAndrii Nakryiko  * deduplicating structs/unions is described in greater details in comments for
1221d5caef5bSAndrii Nakryiko  * `btf_dedup_is_equiv` function.
1222d5caef5bSAndrii Nakryiko  */
1223d5caef5bSAndrii Nakryiko int btf__dedup(struct btf *btf, struct btf_ext *btf_ext,
1224d5caef5bSAndrii Nakryiko 	       const struct btf_dedup_opts *opts)
1225d5caef5bSAndrii Nakryiko {
1226d5caef5bSAndrii Nakryiko 	struct btf_dedup *d = btf_dedup_new(btf, btf_ext, opts);
1227d5caef5bSAndrii Nakryiko 	int err;
1228d5caef5bSAndrii Nakryiko 
1229d5caef5bSAndrii Nakryiko 	if (IS_ERR(d)) {
1230d5caef5bSAndrii Nakryiko 		pr_debug("btf_dedup_new failed: %ld", PTR_ERR(d));
1231d5caef5bSAndrii Nakryiko 		return -EINVAL;
1232d5caef5bSAndrii Nakryiko 	}
1233d5caef5bSAndrii Nakryiko 
1234d5caef5bSAndrii Nakryiko 	err = btf_dedup_strings(d);
1235d5caef5bSAndrii Nakryiko 	if (err < 0) {
1236d5caef5bSAndrii Nakryiko 		pr_debug("btf_dedup_strings failed:%d\n", err);
1237d5caef5bSAndrii Nakryiko 		goto done;
1238d5caef5bSAndrii Nakryiko 	}
1239d5caef5bSAndrii Nakryiko 	err = btf_dedup_prim_types(d);
1240d5caef5bSAndrii Nakryiko 	if (err < 0) {
1241d5caef5bSAndrii Nakryiko 		pr_debug("btf_dedup_prim_types failed:%d\n", err);
1242d5caef5bSAndrii Nakryiko 		goto done;
1243d5caef5bSAndrii Nakryiko 	}
1244d5caef5bSAndrii Nakryiko 	err = btf_dedup_struct_types(d);
1245d5caef5bSAndrii Nakryiko 	if (err < 0) {
1246d5caef5bSAndrii Nakryiko 		pr_debug("btf_dedup_struct_types failed:%d\n", err);
1247d5caef5bSAndrii Nakryiko 		goto done;
1248d5caef5bSAndrii Nakryiko 	}
1249d5caef5bSAndrii Nakryiko 	err = btf_dedup_ref_types(d);
1250d5caef5bSAndrii Nakryiko 	if (err < 0) {
1251d5caef5bSAndrii Nakryiko 		pr_debug("btf_dedup_ref_types failed:%d\n", err);
1252d5caef5bSAndrii Nakryiko 		goto done;
1253d5caef5bSAndrii Nakryiko 	}
1254d5caef5bSAndrii Nakryiko 	err = btf_dedup_compact_types(d);
1255d5caef5bSAndrii Nakryiko 	if (err < 0) {
1256d5caef5bSAndrii Nakryiko 		pr_debug("btf_dedup_compact_types failed:%d\n", err);
1257d5caef5bSAndrii Nakryiko 		goto done;
1258d5caef5bSAndrii Nakryiko 	}
1259d5caef5bSAndrii Nakryiko 	err = btf_dedup_remap_types(d);
1260d5caef5bSAndrii Nakryiko 	if (err < 0) {
1261d5caef5bSAndrii Nakryiko 		pr_debug("btf_dedup_remap_types failed:%d\n", err);
1262d5caef5bSAndrii Nakryiko 		goto done;
1263d5caef5bSAndrii Nakryiko 	}
1264d5caef5bSAndrii Nakryiko 
1265d5caef5bSAndrii Nakryiko done:
1266d5caef5bSAndrii Nakryiko 	btf_dedup_free(d);
1267d5caef5bSAndrii Nakryiko 	return err;
1268d5caef5bSAndrii Nakryiko }
1269d5caef5bSAndrii Nakryiko 
1270d5caef5bSAndrii Nakryiko #define BTF_UNPROCESSED_ID ((__u32)-1)
1271d5caef5bSAndrii Nakryiko #define BTF_IN_PROGRESS_ID ((__u32)-2)
1272d5caef5bSAndrii Nakryiko 
1273d5caef5bSAndrii Nakryiko struct btf_dedup {
1274d5caef5bSAndrii Nakryiko 	/* .BTF section to be deduped in-place */
1275d5caef5bSAndrii Nakryiko 	struct btf *btf;
1276d5caef5bSAndrii Nakryiko 	/*
1277d5caef5bSAndrii Nakryiko 	 * Optional .BTF.ext section. When provided, any strings referenced
1278d5caef5bSAndrii Nakryiko 	 * from it will be taken into account when deduping strings
1279d5caef5bSAndrii Nakryiko 	 */
1280d5caef5bSAndrii Nakryiko 	struct btf_ext *btf_ext;
1281d5caef5bSAndrii Nakryiko 	/*
1282d5caef5bSAndrii Nakryiko 	 * This is a map from any type's signature hash to a list of possible
1283d5caef5bSAndrii Nakryiko 	 * canonical representative type candidates. Hash collisions are
1284d5caef5bSAndrii Nakryiko 	 * ignored, so even types of various kinds can share same list of
1285d5caef5bSAndrii Nakryiko 	 * candidates, which is fine because we rely on subsequent
1286d5caef5bSAndrii Nakryiko 	 * btf_xxx_equal() checks to authoritatively verify type equality.
1287d5caef5bSAndrii Nakryiko 	 */
12882fc3fc0bSAndrii Nakryiko 	struct hashmap *dedup_table;
1289d5caef5bSAndrii Nakryiko 	/* Canonical types map */
1290d5caef5bSAndrii Nakryiko 	__u32 *map;
1291d5caef5bSAndrii Nakryiko 	/* Hypothetical mapping, used during type graph equivalence checks */
1292d5caef5bSAndrii Nakryiko 	__u32 *hypot_map;
1293d5caef5bSAndrii Nakryiko 	__u32 *hypot_list;
1294d5caef5bSAndrii Nakryiko 	size_t hypot_cnt;
1295d5caef5bSAndrii Nakryiko 	size_t hypot_cap;
1296d5caef5bSAndrii Nakryiko 	/* Various option modifying behavior of algorithm */
1297d5caef5bSAndrii Nakryiko 	struct btf_dedup_opts opts;
1298d5caef5bSAndrii Nakryiko };
1299d5caef5bSAndrii Nakryiko 
1300d5caef5bSAndrii Nakryiko struct btf_str_ptr {
1301d5caef5bSAndrii Nakryiko 	const char *str;
1302d5caef5bSAndrii Nakryiko 	__u32 new_off;
1303d5caef5bSAndrii Nakryiko 	bool used;
1304d5caef5bSAndrii Nakryiko };
1305d5caef5bSAndrii Nakryiko 
1306d5caef5bSAndrii Nakryiko struct btf_str_ptrs {
1307d5caef5bSAndrii Nakryiko 	struct btf_str_ptr *ptrs;
1308d5caef5bSAndrii Nakryiko 	const char *data;
1309d5caef5bSAndrii Nakryiko 	__u32 cnt;
1310d5caef5bSAndrii Nakryiko 	__u32 cap;
1311d5caef5bSAndrii Nakryiko };
1312d5caef5bSAndrii Nakryiko 
13132fc3fc0bSAndrii Nakryiko static long hash_combine(long h, long value)
1314d5caef5bSAndrii Nakryiko {
13152fc3fc0bSAndrii Nakryiko 	return h * 31 + value;
1316d5caef5bSAndrii Nakryiko }
1317d5caef5bSAndrii Nakryiko 
13182fc3fc0bSAndrii Nakryiko #define for_each_dedup_cand(d, node, hash) \
13192fc3fc0bSAndrii Nakryiko 	hashmap__for_each_key_entry(d->dedup_table, node, (void *)hash)
1320d5caef5bSAndrii Nakryiko 
13212fc3fc0bSAndrii Nakryiko static int btf_dedup_table_add(struct btf_dedup *d, long hash, __u32 type_id)
1322d5caef5bSAndrii Nakryiko {
13232fc3fc0bSAndrii Nakryiko 	return hashmap__append(d->dedup_table,
13242fc3fc0bSAndrii Nakryiko 			       (void *)hash, (void *)(long)type_id);
1325d5caef5bSAndrii Nakryiko }
1326d5caef5bSAndrii Nakryiko 
1327d5caef5bSAndrii Nakryiko static int btf_dedup_hypot_map_add(struct btf_dedup *d,
1328d5caef5bSAndrii Nakryiko 				   __u32 from_id, __u32 to_id)
1329d5caef5bSAndrii Nakryiko {
1330d5caef5bSAndrii Nakryiko 	if (d->hypot_cnt == d->hypot_cap) {
1331d5caef5bSAndrii Nakryiko 		__u32 *new_list;
1332d5caef5bSAndrii Nakryiko 
1333d5caef5bSAndrii Nakryiko 		d->hypot_cap += max(16, d->hypot_cap / 2);
1334d5caef5bSAndrii Nakryiko 		new_list = realloc(d->hypot_list, sizeof(__u32) * d->hypot_cap);
1335d5caef5bSAndrii Nakryiko 		if (!new_list)
1336d5caef5bSAndrii Nakryiko 			return -ENOMEM;
1337d5caef5bSAndrii Nakryiko 		d->hypot_list = new_list;
1338d5caef5bSAndrii Nakryiko 	}
1339d5caef5bSAndrii Nakryiko 	d->hypot_list[d->hypot_cnt++] = from_id;
1340d5caef5bSAndrii Nakryiko 	d->hypot_map[from_id] = to_id;
1341d5caef5bSAndrii Nakryiko 	return 0;
1342d5caef5bSAndrii Nakryiko }
1343d5caef5bSAndrii Nakryiko 
1344d5caef5bSAndrii Nakryiko static void btf_dedup_clear_hypot_map(struct btf_dedup *d)
1345d5caef5bSAndrii Nakryiko {
1346d5caef5bSAndrii Nakryiko 	int i;
1347d5caef5bSAndrii Nakryiko 
1348d5caef5bSAndrii Nakryiko 	for (i = 0; i < d->hypot_cnt; i++)
1349d5caef5bSAndrii Nakryiko 		d->hypot_map[d->hypot_list[i]] = BTF_UNPROCESSED_ID;
1350d5caef5bSAndrii Nakryiko 	d->hypot_cnt = 0;
1351d5caef5bSAndrii Nakryiko }
1352d5caef5bSAndrii Nakryiko 
1353d5caef5bSAndrii Nakryiko static void btf_dedup_free(struct btf_dedup *d)
1354d5caef5bSAndrii Nakryiko {
13552fc3fc0bSAndrii Nakryiko 	hashmap__free(d->dedup_table);
13562fc3fc0bSAndrii Nakryiko 	d->dedup_table = NULL;
1357d5caef5bSAndrii Nakryiko 
1358d5caef5bSAndrii Nakryiko 	free(d->map);
1359d5caef5bSAndrii Nakryiko 	d->map = NULL;
1360d5caef5bSAndrii Nakryiko 
1361d5caef5bSAndrii Nakryiko 	free(d->hypot_map);
1362d5caef5bSAndrii Nakryiko 	d->hypot_map = NULL;
1363d5caef5bSAndrii Nakryiko 
1364d5caef5bSAndrii Nakryiko 	free(d->hypot_list);
1365d5caef5bSAndrii Nakryiko 	d->hypot_list = NULL;
1366d5caef5bSAndrii Nakryiko 
1367d5caef5bSAndrii Nakryiko 	free(d);
1368d5caef5bSAndrii Nakryiko }
1369d5caef5bSAndrii Nakryiko 
13702fc3fc0bSAndrii Nakryiko static size_t btf_dedup_identity_hash_fn(const void *key, void *ctx)
137151edf5f6SAndrii Nakryiko {
13722fc3fc0bSAndrii Nakryiko 	return (size_t)key;
137351edf5f6SAndrii Nakryiko }
137451edf5f6SAndrii Nakryiko 
13752fc3fc0bSAndrii Nakryiko static size_t btf_dedup_collision_hash_fn(const void *key, void *ctx)
13762fc3fc0bSAndrii Nakryiko {
13772fc3fc0bSAndrii Nakryiko 	return 0;
13782fc3fc0bSAndrii Nakryiko }
13792fc3fc0bSAndrii Nakryiko 
13802fc3fc0bSAndrii Nakryiko static bool btf_dedup_equal_fn(const void *k1, const void *k2, void *ctx)
13812fc3fc0bSAndrii Nakryiko {
13822fc3fc0bSAndrii Nakryiko 	return k1 == k2;
13832fc3fc0bSAndrii Nakryiko }
138451edf5f6SAndrii Nakryiko 
1385d5caef5bSAndrii Nakryiko static struct btf_dedup *btf_dedup_new(struct btf *btf, struct btf_ext *btf_ext,
1386d5caef5bSAndrii Nakryiko 				       const struct btf_dedup_opts *opts)
1387d5caef5bSAndrii Nakryiko {
1388d5caef5bSAndrii Nakryiko 	struct btf_dedup *d = calloc(1, sizeof(struct btf_dedup));
13892fc3fc0bSAndrii Nakryiko 	hashmap_hash_fn hash_fn = btf_dedup_identity_hash_fn;
1390d5caef5bSAndrii Nakryiko 	int i, err = 0;
1391d5caef5bSAndrii Nakryiko 
1392d5caef5bSAndrii Nakryiko 	if (!d)
1393d5caef5bSAndrii Nakryiko 		return ERR_PTR(-ENOMEM);
1394d5caef5bSAndrii Nakryiko 
139551edf5f6SAndrii Nakryiko 	d->opts.dont_resolve_fwds = opts && opts->dont_resolve_fwds;
13962fc3fc0bSAndrii Nakryiko 	/* dedup_table_size is now used only to force collisions in tests */
13972fc3fc0bSAndrii Nakryiko 	if (opts && opts->dedup_table_size == 1)
13982fc3fc0bSAndrii Nakryiko 		hash_fn = btf_dedup_collision_hash_fn;
139951edf5f6SAndrii Nakryiko 
1400d5caef5bSAndrii Nakryiko 	d->btf = btf;
1401d5caef5bSAndrii Nakryiko 	d->btf_ext = btf_ext;
1402d5caef5bSAndrii Nakryiko 
14032fc3fc0bSAndrii Nakryiko 	d->dedup_table = hashmap__new(hash_fn, btf_dedup_equal_fn, NULL);
14042fc3fc0bSAndrii Nakryiko 	if (IS_ERR(d->dedup_table)) {
14052fc3fc0bSAndrii Nakryiko 		err = PTR_ERR(d->dedup_table);
14062fc3fc0bSAndrii Nakryiko 		d->dedup_table = NULL;
1407d5caef5bSAndrii Nakryiko 		goto done;
1408d5caef5bSAndrii Nakryiko 	}
1409d5caef5bSAndrii Nakryiko 
1410d5caef5bSAndrii Nakryiko 	d->map = malloc(sizeof(__u32) * (1 + btf->nr_types));
1411d5caef5bSAndrii Nakryiko 	if (!d->map) {
1412d5caef5bSAndrii Nakryiko 		err = -ENOMEM;
1413d5caef5bSAndrii Nakryiko 		goto done;
1414d5caef5bSAndrii Nakryiko 	}
1415d5caef5bSAndrii Nakryiko 	/* special BTF "void" type is made canonical immediately */
1416d5caef5bSAndrii Nakryiko 	d->map[0] = 0;
1417189cf5a4SAndrii Nakryiko 	for (i = 1; i <= btf->nr_types; i++) {
1418189cf5a4SAndrii Nakryiko 		struct btf_type *t = d->btf->types[i];
1419189cf5a4SAndrii Nakryiko 
1420189cf5a4SAndrii Nakryiko 		/* VAR and DATASEC are never deduped and are self-canonical */
1421b03bc685SAndrii Nakryiko 		if (btf_is_var(t) || btf_is_datasec(t))
1422189cf5a4SAndrii Nakryiko 			d->map[i] = i;
1423189cf5a4SAndrii Nakryiko 		else
1424d5caef5bSAndrii Nakryiko 			d->map[i] = BTF_UNPROCESSED_ID;
1425189cf5a4SAndrii Nakryiko 	}
1426d5caef5bSAndrii Nakryiko 
1427d5caef5bSAndrii Nakryiko 	d->hypot_map = malloc(sizeof(__u32) * (1 + btf->nr_types));
1428d5caef5bSAndrii Nakryiko 	if (!d->hypot_map) {
1429d5caef5bSAndrii Nakryiko 		err = -ENOMEM;
1430d5caef5bSAndrii Nakryiko 		goto done;
1431d5caef5bSAndrii Nakryiko 	}
1432d5caef5bSAndrii Nakryiko 	for (i = 0; i <= btf->nr_types; i++)
1433d5caef5bSAndrii Nakryiko 		d->hypot_map[i] = BTF_UNPROCESSED_ID;
1434d5caef5bSAndrii Nakryiko 
1435d5caef5bSAndrii Nakryiko done:
1436d5caef5bSAndrii Nakryiko 	if (err) {
1437d5caef5bSAndrii Nakryiko 		btf_dedup_free(d);
1438d5caef5bSAndrii Nakryiko 		return ERR_PTR(err);
1439d5caef5bSAndrii Nakryiko 	}
1440d5caef5bSAndrii Nakryiko 
1441d5caef5bSAndrii Nakryiko 	return d;
1442d5caef5bSAndrii Nakryiko }
1443d5caef5bSAndrii Nakryiko 
1444d5caef5bSAndrii Nakryiko typedef int (*str_off_fn_t)(__u32 *str_off_ptr, void *ctx);
1445d5caef5bSAndrii Nakryiko 
1446d5caef5bSAndrii Nakryiko /*
1447d5caef5bSAndrii Nakryiko  * Iterate over all possible places in .BTF and .BTF.ext that can reference
1448d5caef5bSAndrii Nakryiko  * string and pass pointer to it to a provided callback `fn`.
1449d5caef5bSAndrii Nakryiko  */
1450d5caef5bSAndrii Nakryiko static int btf_for_each_str_off(struct btf_dedup *d, str_off_fn_t fn, void *ctx)
1451d5caef5bSAndrii Nakryiko {
1452d5caef5bSAndrii Nakryiko 	void *line_data_cur, *line_data_end;
1453d5caef5bSAndrii Nakryiko 	int i, j, r, rec_size;
1454d5caef5bSAndrii Nakryiko 	struct btf_type *t;
1455d5caef5bSAndrii Nakryiko 
1456d5caef5bSAndrii Nakryiko 	for (i = 1; i <= d->btf->nr_types; i++) {
1457d5caef5bSAndrii Nakryiko 		t = d->btf->types[i];
1458d5caef5bSAndrii Nakryiko 		r = fn(&t->name_off, ctx);
1459d5caef5bSAndrii Nakryiko 		if (r)
1460d5caef5bSAndrii Nakryiko 			return r;
1461d5caef5bSAndrii Nakryiko 
1462b03bc685SAndrii Nakryiko 		switch (btf_kind(t)) {
1463d5caef5bSAndrii Nakryiko 		case BTF_KIND_STRUCT:
1464d5caef5bSAndrii Nakryiko 		case BTF_KIND_UNION: {
1465b03bc685SAndrii Nakryiko 			struct btf_member *m = btf_members(t);
1466b03bc685SAndrii Nakryiko 			__u16 vlen = btf_vlen(t);
1467d5caef5bSAndrii Nakryiko 
1468d5caef5bSAndrii Nakryiko 			for (j = 0; j < vlen; j++) {
1469d5caef5bSAndrii Nakryiko 				r = fn(&m->name_off, ctx);
1470d5caef5bSAndrii Nakryiko 				if (r)
1471d5caef5bSAndrii Nakryiko 					return r;
1472d5caef5bSAndrii Nakryiko 				m++;
1473d5caef5bSAndrii Nakryiko 			}
1474d5caef5bSAndrii Nakryiko 			break;
1475d5caef5bSAndrii Nakryiko 		}
1476d5caef5bSAndrii Nakryiko 		case BTF_KIND_ENUM: {
1477b03bc685SAndrii Nakryiko 			struct btf_enum *m = btf_enum(t);
1478b03bc685SAndrii Nakryiko 			__u16 vlen = btf_vlen(t);
1479d5caef5bSAndrii Nakryiko 
1480d5caef5bSAndrii Nakryiko 			for (j = 0; j < vlen; j++) {
1481d5caef5bSAndrii Nakryiko 				r = fn(&m->name_off, ctx);
1482d5caef5bSAndrii Nakryiko 				if (r)
1483d5caef5bSAndrii Nakryiko 					return r;
1484d5caef5bSAndrii Nakryiko 				m++;
1485d5caef5bSAndrii Nakryiko 			}
1486d5caef5bSAndrii Nakryiko 			break;
1487d5caef5bSAndrii Nakryiko 		}
1488d5caef5bSAndrii Nakryiko 		case BTF_KIND_FUNC_PROTO: {
1489b03bc685SAndrii Nakryiko 			struct btf_param *m = btf_params(t);
1490b03bc685SAndrii Nakryiko 			__u16 vlen = btf_vlen(t);
1491d5caef5bSAndrii Nakryiko 
1492d5caef5bSAndrii Nakryiko 			for (j = 0; j < vlen; j++) {
1493d5caef5bSAndrii Nakryiko 				r = fn(&m->name_off, ctx);
1494d5caef5bSAndrii Nakryiko 				if (r)
1495d5caef5bSAndrii Nakryiko 					return r;
1496d5caef5bSAndrii Nakryiko 				m++;
1497d5caef5bSAndrii Nakryiko 			}
1498d5caef5bSAndrii Nakryiko 			break;
1499d5caef5bSAndrii Nakryiko 		}
1500d5caef5bSAndrii Nakryiko 		default:
1501d5caef5bSAndrii Nakryiko 			break;
1502d5caef5bSAndrii Nakryiko 		}
1503d5caef5bSAndrii Nakryiko 	}
1504d5caef5bSAndrii Nakryiko 
1505d5caef5bSAndrii Nakryiko 	if (!d->btf_ext)
1506d5caef5bSAndrii Nakryiko 		return 0;
1507d5caef5bSAndrii Nakryiko 
1508d5caef5bSAndrii Nakryiko 	line_data_cur = d->btf_ext->line_info.info;
1509d5caef5bSAndrii Nakryiko 	line_data_end = d->btf_ext->line_info.info + d->btf_ext->line_info.len;
1510d5caef5bSAndrii Nakryiko 	rec_size = d->btf_ext->line_info.rec_size;
1511d5caef5bSAndrii Nakryiko 
1512d5caef5bSAndrii Nakryiko 	while (line_data_cur < line_data_end) {
1513d5caef5bSAndrii Nakryiko 		struct btf_ext_info_sec *sec = line_data_cur;
1514d5caef5bSAndrii Nakryiko 		struct bpf_line_info_min *line_info;
1515d5caef5bSAndrii Nakryiko 		__u32 num_info = sec->num_info;
1516d5caef5bSAndrii Nakryiko 
1517d5caef5bSAndrii Nakryiko 		r = fn(&sec->sec_name_off, ctx);
1518d5caef5bSAndrii Nakryiko 		if (r)
1519d5caef5bSAndrii Nakryiko 			return r;
1520d5caef5bSAndrii Nakryiko 
1521d5caef5bSAndrii Nakryiko 		line_data_cur += sizeof(struct btf_ext_info_sec);
1522d5caef5bSAndrii Nakryiko 		for (i = 0; i < num_info; i++) {
1523d5caef5bSAndrii Nakryiko 			line_info = line_data_cur;
1524d5caef5bSAndrii Nakryiko 			r = fn(&line_info->file_name_off, ctx);
1525d5caef5bSAndrii Nakryiko 			if (r)
1526d5caef5bSAndrii Nakryiko 				return r;
1527d5caef5bSAndrii Nakryiko 			r = fn(&line_info->line_off, ctx);
1528d5caef5bSAndrii Nakryiko 			if (r)
1529d5caef5bSAndrii Nakryiko 				return r;
1530d5caef5bSAndrii Nakryiko 			line_data_cur += rec_size;
1531d5caef5bSAndrii Nakryiko 		}
1532d5caef5bSAndrii Nakryiko 	}
1533d5caef5bSAndrii Nakryiko 
1534d5caef5bSAndrii Nakryiko 	return 0;
1535d5caef5bSAndrii Nakryiko }
1536d5caef5bSAndrii Nakryiko 
1537d5caef5bSAndrii Nakryiko static int str_sort_by_content(const void *a1, const void *a2)
1538d5caef5bSAndrii Nakryiko {
1539d5caef5bSAndrii Nakryiko 	const struct btf_str_ptr *p1 = a1;
1540d5caef5bSAndrii Nakryiko 	const struct btf_str_ptr *p2 = a2;
1541d5caef5bSAndrii Nakryiko 
1542d5caef5bSAndrii Nakryiko 	return strcmp(p1->str, p2->str);
1543d5caef5bSAndrii Nakryiko }
1544d5caef5bSAndrii Nakryiko 
1545d5caef5bSAndrii Nakryiko static int str_sort_by_offset(const void *a1, const void *a2)
1546d5caef5bSAndrii Nakryiko {
1547d5caef5bSAndrii Nakryiko 	const struct btf_str_ptr *p1 = a1;
1548d5caef5bSAndrii Nakryiko 	const struct btf_str_ptr *p2 = a2;
1549d5caef5bSAndrii Nakryiko 
1550d5caef5bSAndrii Nakryiko 	if (p1->str != p2->str)
1551d5caef5bSAndrii Nakryiko 		return p1->str < p2->str ? -1 : 1;
1552d5caef5bSAndrii Nakryiko 	return 0;
1553d5caef5bSAndrii Nakryiko }
1554d5caef5bSAndrii Nakryiko 
1555d5caef5bSAndrii Nakryiko static int btf_dedup_str_ptr_cmp(const void *str_ptr, const void *pelem)
1556d5caef5bSAndrii Nakryiko {
1557d5caef5bSAndrii Nakryiko 	const struct btf_str_ptr *p = pelem;
1558d5caef5bSAndrii Nakryiko 
1559d5caef5bSAndrii Nakryiko 	if (str_ptr != p->str)
1560d5caef5bSAndrii Nakryiko 		return (const char *)str_ptr < p->str ? -1 : 1;
1561d5caef5bSAndrii Nakryiko 	return 0;
1562d5caef5bSAndrii Nakryiko }
1563d5caef5bSAndrii Nakryiko 
1564d5caef5bSAndrii Nakryiko static int btf_str_mark_as_used(__u32 *str_off_ptr, void *ctx)
1565d5caef5bSAndrii Nakryiko {
1566d5caef5bSAndrii Nakryiko 	struct btf_str_ptrs *strs;
1567d5caef5bSAndrii Nakryiko 	struct btf_str_ptr *s;
1568d5caef5bSAndrii Nakryiko 
1569d5caef5bSAndrii Nakryiko 	if (*str_off_ptr == 0)
1570d5caef5bSAndrii Nakryiko 		return 0;
1571d5caef5bSAndrii Nakryiko 
1572d5caef5bSAndrii Nakryiko 	strs = ctx;
1573d5caef5bSAndrii Nakryiko 	s = bsearch(strs->data + *str_off_ptr, strs->ptrs, strs->cnt,
1574d5caef5bSAndrii Nakryiko 		    sizeof(struct btf_str_ptr), btf_dedup_str_ptr_cmp);
1575d5caef5bSAndrii Nakryiko 	if (!s)
1576d5caef5bSAndrii Nakryiko 		return -EINVAL;
1577d5caef5bSAndrii Nakryiko 	s->used = true;
1578d5caef5bSAndrii Nakryiko 	return 0;
1579d5caef5bSAndrii Nakryiko }
1580d5caef5bSAndrii Nakryiko 
1581d5caef5bSAndrii Nakryiko static int btf_str_remap_offset(__u32 *str_off_ptr, void *ctx)
1582d5caef5bSAndrii Nakryiko {
1583d5caef5bSAndrii Nakryiko 	struct btf_str_ptrs *strs;
1584d5caef5bSAndrii Nakryiko 	struct btf_str_ptr *s;
1585d5caef5bSAndrii Nakryiko 
1586d5caef5bSAndrii Nakryiko 	if (*str_off_ptr == 0)
1587d5caef5bSAndrii Nakryiko 		return 0;
1588d5caef5bSAndrii Nakryiko 
1589d5caef5bSAndrii Nakryiko 	strs = ctx;
1590d5caef5bSAndrii Nakryiko 	s = bsearch(strs->data + *str_off_ptr, strs->ptrs, strs->cnt,
1591d5caef5bSAndrii Nakryiko 		    sizeof(struct btf_str_ptr), btf_dedup_str_ptr_cmp);
1592d5caef5bSAndrii Nakryiko 	if (!s)
1593d5caef5bSAndrii Nakryiko 		return -EINVAL;
1594d5caef5bSAndrii Nakryiko 	*str_off_ptr = s->new_off;
1595d5caef5bSAndrii Nakryiko 	return 0;
1596d5caef5bSAndrii Nakryiko }
1597d5caef5bSAndrii Nakryiko 
1598d5caef5bSAndrii Nakryiko /*
1599d5caef5bSAndrii Nakryiko  * Dedup string and filter out those that are not referenced from either .BTF
1600d5caef5bSAndrii Nakryiko  * or .BTF.ext (if provided) sections.
1601d5caef5bSAndrii Nakryiko  *
1602d5caef5bSAndrii Nakryiko  * This is done by building index of all strings in BTF's string section,
1603d5caef5bSAndrii Nakryiko  * then iterating over all entities that can reference strings (e.g., type
1604d5caef5bSAndrii Nakryiko  * names, struct field names, .BTF.ext line info, etc) and marking corresponding
1605d5caef5bSAndrii Nakryiko  * strings as used. After that all used strings are deduped and compacted into
1606d5caef5bSAndrii Nakryiko  * sequential blob of memory and new offsets are calculated. Then all the string
1607d5caef5bSAndrii Nakryiko  * references are iterated again and rewritten using new offsets.
1608d5caef5bSAndrii Nakryiko  */
1609d5caef5bSAndrii Nakryiko static int btf_dedup_strings(struct btf_dedup *d)
1610d5caef5bSAndrii Nakryiko {
1611d5caef5bSAndrii Nakryiko 	const struct btf_header *hdr = d->btf->hdr;
1612d5caef5bSAndrii Nakryiko 	char *start = (char *)d->btf->nohdr_data + hdr->str_off;
1613d5caef5bSAndrii Nakryiko 	char *end = start + d->btf->hdr->str_len;
1614d5caef5bSAndrii Nakryiko 	char *p = start, *tmp_strs = NULL;
1615d5caef5bSAndrii Nakryiko 	struct btf_str_ptrs strs = {
1616d5caef5bSAndrii Nakryiko 		.cnt = 0,
1617d5caef5bSAndrii Nakryiko 		.cap = 0,
1618d5caef5bSAndrii Nakryiko 		.ptrs = NULL,
1619d5caef5bSAndrii Nakryiko 		.data = start,
1620d5caef5bSAndrii Nakryiko 	};
1621d5caef5bSAndrii Nakryiko 	int i, j, err = 0, grp_idx;
1622d5caef5bSAndrii Nakryiko 	bool grp_used;
1623d5caef5bSAndrii Nakryiko 
1624d5caef5bSAndrii Nakryiko 	/* build index of all strings */
1625d5caef5bSAndrii Nakryiko 	while (p < end) {
1626d5caef5bSAndrii Nakryiko 		if (strs.cnt + 1 > strs.cap) {
1627d5caef5bSAndrii Nakryiko 			struct btf_str_ptr *new_ptrs;
1628d5caef5bSAndrii Nakryiko 
1629d5caef5bSAndrii Nakryiko 			strs.cap += max(strs.cnt / 2, 16);
1630d5caef5bSAndrii Nakryiko 			new_ptrs = realloc(strs.ptrs,
1631d5caef5bSAndrii Nakryiko 					   sizeof(strs.ptrs[0]) * strs.cap);
1632d5caef5bSAndrii Nakryiko 			if (!new_ptrs) {
1633d5caef5bSAndrii Nakryiko 				err = -ENOMEM;
1634d5caef5bSAndrii Nakryiko 				goto done;
1635d5caef5bSAndrii Nakryiko 			}
1636d5caef5bSAndrii Nakryiko 			strs.ptrs = new_ptrs;
1637d5caef5bSAndrii Nakryiko 		}
1638d5caef5bSAndrii Nakryiko 
1639d5caef5bSAndrii Nakryiko 		strs.ptrs[strs.cnt].str = p;
1640d5caef5bSAndrii Nakryiko 		strs.ptrs[strs.cnt].used = false;
1641d5caef5bSAndrii Nakryiko 
1642d5caef5bSAndrii Nakryiko 		p += strlen(p) + 1;
1643d5caef5bSAndrii Nakryiko 		strs.cnt++;
1644d5caef5bSAndrii Nakryiko 	}
1645d5caef5bSAndrii Nakryiko 
1646d5caef5bSAndrii Nakryiko 	/* temporary storage for deduplicated strings */
1647d5caef5bSAndrii Nakryiko 	tmp_strs = malloc(d->btf->hdr->str_len);
1648d5caef5bSAndrii Nakryiko 	if (!tmp_strs) {
1649d5caef5bSAndrii Nakryiko 		err = -ENOMEM;
1650d5caef5bSAndrii Nakryiko 		goto done;
1651d5caef5bSAndrii Nakryiko 	}
1652d5caef5bSAndrii Nakryiko 
1653d5caef5bSAndrii Nakryiko 	/* mark all used strings */
1654d5caef5bSAndrii Nakryiko 	strs.ptrs[0].used = true;
1655d5caef5bSAndrii Nakryiko 	err = btf_for_each_str_off(d, btf_str_mark_as_used, &strs);
1656d5caef5bSAndrii Nakryiko 	if (err)
1657d5caef5bSAndrii Nakryiko 		goto done;
1658d5caef5bSAndrii Nakryiko 
1659d5caef5bSAndrii Nakryiko 	/* sort strings by context, so that we can identify duplicates */
1660d5caef5bSAndrii Nakryiko 	qsort(strs.ptrs, strs.cnt, sizeof(strs.ptrs[0]), str_sort_by_content);
1661d5caef5bSAndrii Nakryiko 
1662d5caef5bSAndrii Nakryiko 	/*
1663d5caef5bSAndrii Nakryiko 	 * iterate groups of equal strings and if any instance in a group was
1664d5caef5bSAndrii Nakryiko 	 * referenced, emit single instance and remember new offset
1665d5caef5bSAndrii Nakryiko 	 */
1666d5caef5bSAndrii Nakryiko 	p = tmp_strs;
1667d5caef5bSAndrii Nakryiko 	grp_idx = 0;
1668d5caef5bSAndrii Nakryiko 	grp_used = strs.ptrs[0].used;
1669d5caef5bSAndrii Nakryiko 	/* iterate past end to avoid code duplication after loop */
1670d5caef5bSAndrii Nakryiko 	for (i = 1; i <= strs.cnt; i++) {
1671d5caef5bSAndrii Nakryiko 		/*
1672d5caef5bSAndrii Nakryiko 		 * when i == strs.cnt, we want to skip string comparison and go
1673d5caef5bSAndrii Nakryiko 		 * straight to handling last group of strings (otherwise we'd
1674d5caef5bSAndrii Nakryiko 		 * need to handle last group after the loop w/ duplicated code)
1675d5caef5bSAndrii Nakryiko 		 */
1676d5caef5bSAndrii Nakryiko 		if (i < strs.cnt &&
1677d5caef5bSAndrii Nakryiko 		    !strcmp(strs.ptrs[i].str, strs.ptrs[grp_idx].str)) {
1678d5caef5bSAndrii Nakryiko 			grp_used = grp_used || strs.ptrs[i].used;
1679d5caef5bSAndrii Nakryiko 			continue;
1680d5caef5bSAndrii Nakryiko 		}
1681d5caef5bSAndrii Nakryiko 
1682d5caef5bSAndrii Nakryiko 		/*
1683d5caef5bSAndrii Nakryiko 		 * this check would have been required after the loop to handle
1684d5caef5bSAndrii Nakryiko 		 * last group of strings, but due to <= condition in a loop
1685d5caef5bSAndrii Nakryiko 		 * we avoid that duplication
1686d5caef5bSAndrii Nakryiko 		 */
1687d5caef5bSAndrii Nakryiko 		if (grp_used) {
1688d5caef5bSAndrii Nakryiko 			int new_off = p - tmp_strs;
1689d5caef5bSAndrii Nakryiko 			__u32 len = strlen(strs.ptrs[grp_idx].str);
1690d5caef5bSAndrii Nakryiko 
1691d5caef5bSAndrii Nakryiko 			memmove(p, strs.ptrs[grp_idx].str, len + 1);
1692d5caef5bSAndrii Nakryiko 			for (j = grp_idx; j < i; j++)
1693d5caef5bSAndrii Nakryiko 				strs.ptrs[j].new_off = new_off;
1694d5caef5bSAndrii Nakryiko 			p += len + 1;
1695d5caef5bSAndrii Nakryiko 		}
1696d5caef5bSAndrii Nakryiko 
1697d5caef5bSAndrii Nakryiko 		if (i < strs.cnt) {
1698d5caef5bSAndrii Nakryiko 			grp_idx = i;
1699d5caef5bSAndrii Nakryiko 			grp_used = strs.ptrs[i].used;
1700d5caef5bSAndrii Nakryiko 		}
1701d5caef5bSAndrii Nakryiko 	}
1702d5caef5bSAndrii Nakryiko 
1703d5caef5bSAndrii Nakryiko 	/* replace original strings with deduped ones */
1704d5caef5bSAndrii Nakryiko 	d->btf->hdr->str_len = p - tmp_strs;
1705d5caef5bSAndrii Nakryiko 	memmove(start, tmp_strs, d->btf->hdr->str_len);
1706d5caef5bSAndrii Nakryiko 	end = start + d->btf->hdr->str_len;
1707d5caef5bSAndrii Nakryiko 
1708d5caef5bSAndrii Nakryiko 	/* restore original order for further binary search lookups */
1709d5caef5bSAndrii Nakryiko 	qsort(strs.ptrs, strs.cnt, sizeof(strs.ptrs[0]), str_sort_by_offset);
1710d5caef5bSAndrii Nakryiko 
1711d5caef5bSAndrii Nakryiko 	/* remap string offsets */
1712d5caef5bSAndrii Nakryiko 	err = btf_for_each_str_off(d, btf_str_remap_offset, &strs);
1713d5caef5bSAndrii Nakryiko 	if (err)
1714d5caef5bSAndrii Nakryiko 		goto done;
1715d5caef5bSAndrii Nakryiko 
1716d5caef5bSAndrii Nakryiko 	d->btf->hdr->str_len = end - start;
1717d5caef5bSAndrii Nakryiko 
1718d5caef5bSAndrii Nakryiko done:
1719d5caef5bSAndrii Nakryiko 	free(tmp_strs);
1720d5caef5bSAndrii Nakryiko 	free(strs.ptrs);
1721d5caef5bSAndrii Nakryiko 	return err;
1722d5caef5bSAndrii Nakryiko }
1723d5caef5bSAndrii Nakryiko 
17242fc3fc0bSAndrii Nakryiko static long btf_hash_common(struct btf_type *t)
1725d5caef5bSAndrii Nakryiko {
17262fc3fc0bSAndrii Nakryiko 	long h;
1727d5caef5bSAndrii Nakryiko 
1728d5caef5bSAndrii Nakryiko 	h = hash_combine(0, t->name_off);
1729d5caef5bSAndrii Nakryiko 	h = hash_combine(h, t->info);
1730d5caef5bSAndrii Nakryiko 	h = hash_combine(h, t->size);
1731d5caef5bSAndrii Nakryiko 	return h;
1732d5caef5bSAndrii Nakryiko }
1733d5caef5bSAndrii Nakryiko 
1734d5caef5bSAndrii Nakryiko static bool btf_equal_common(struct btf_type *t1, struct btf_type *t2)
1735d5caef5bSAndrii Nakryiko {
1736d5caef5bSAndrii Nakryiko 	return t1->name_off == t2->name_off &&
1737d5caef5bSAndrii Nakryiko 	       t1->info == t2->info &&
1738d5caef5bSAndrii Nakryiko 	       t1->size == t2->size;
1739d5caef5bSAndrii Nakryiko }
1740d5caef5bSAndrii Nakryiko 
1741d5caef5bSAndrii Nakryiko /* Calculate type signature hash of INT. */
17422fc3fc0bSAndrii Nakryiko static long btf_hash_int(struct btf_type *t)
1743d5caef5bSAndrii Nakryiko {
1744d5caef5bSAndrii Nakryiko 	__u32 info = *(__u32 *)(t + 1);
17452fc3fc0bSAndrii Nakryiko 	long h;
1746d5caef5bSAndrii Nakryiko 
1747d5caef5bSAndrii Nakryiko 	h = btf_hash_common(t);
1748d5caef5bSAndrii Nakryiko 	h = hash_combine(h, info);
1749d5caef5bSAndrii Nakryiko 	return h;
1750d5caef5bSAndrii Nakryiko }
1751d5caef5bSAndrii Nakryiko 
1752d5caef5bSAndrii Nakryiko /* Check structural equality of two INTs. */
1753d5caef5bSAndrii Nakryiko static bool btf_equal_int(struct btf_type *t1, struct btf_type *t2)
1754d5caef5bSAndrii Nakryiko {
1755d5caef5bSAndrii Nakryiko 	__u32 info1, info2;
1756d5caef5bSAndrii Nakryiko 
1757d5caef5bSAndrii Nakryiko 	if (!btf_equal_common(t1, t2))
1758d5caef5bSAndrii Nakryiko 		return false;
1759d5caef5bSAndrii Nakryiko 	info1 = *(__u32 *)(t1 + 1);
1760d5caef5bSAndrii Nakryiko 	info2 = *(__u32 *)(t2 + 1);
1761d5caef5bSAndrii Nakryiko 	return info1 == info2;
1762d5caef5bSAndrii Nakryiko }
1763d5caef5bSAndrii Nakryiko 
1764d5caef5bSAndrii Nakryiko /* Calculate type signature hash of ENUM. */
17652fc3fc0bSAndrii Nakryiko static long btf_hash_enum(struct btf_type *t)
1766d5caef5bSAndrii Nakryiko {
17672fc3fc0bSAndrii Nakryiko 	long h;
1768d5caef5bSAndrii Nakryiko 
17699768095bSAndrii Nakryiko 	/* don't hash vlen and enum members to support enum fwd resolving */
17709768095bSAndrii Nakryiko 	h = hash_combine(0, t->name_off);
17719768095bSAndrii Nakryiko 	h = hash_combine(h, t->info & ~0xffff);
17729768095bSAndrii Nakryiko 	h = hash_combine(h, t->size);
1773d5caef5bSAndrii Nakryiko 	return h;
1774d5caef5bSAndrii Nakryiko }
1775d5caef5bSAndrii Nakryiko 
1776d5caef5bSAndrii Nakryiko /* Check structural equality of two ENUMs. */
1777d5caef5bSAndrii Nakryiko static bool btf_equal_enum(struct btf_type *t1, struct btf_type *t2)
1778d5caef5bSAndrii Nakryiko {
1779b03bc685SAndrii Nakryiko 	const struct btf_enum *m1, *m2;
1780d5caef5bSAndrii Nakryiko 	__u16 vlen;
1781d5caef5bSAndrii Nakryiko 	int i;
1782d5caef5bSAndrii Nakryiko 
1783d5caef5bSAndrii Nakryiko 	if (!btf_equal_common(t1, t2))
1784d5caef5bSAndrii Nakryiko 		return false;
1785d5caef5bSAndrii Nakryiko 
1786b03bc685SAndrii Nakryiko 	vlen = btf_vlen(t1);
1787b03bc685SAndrii Nakryiko 	m1 = btf_enum(t1);
1788b03bc685SAndrii Nakryiko 	m2 = btf_enum(t2);
1789d5caef5bSAndrii Nakryiko 	for (i = 0; i < vlen; i++) {
1790d5caef5bSAndrii Nakryiko 		if (m1->name_off != m2->name_off || m1->val != m2->val)
1791d5caef5bSAndrii Nakryiko 			return false;
1792d5caef5bSAndrii Nakryiko 		m1++;
1793d5caef5bSAndrii Nakryiko 		m2++;
1794d5caef5bSAndrii Nakryiko 	}
1795d5caef5bSAndrii Nakryiko 	return true;
1796d5caef5bSAndrii Nakryiko }
1797d5caef5bSAndrii Nakryiko 
17989768095bSAndrii Nakryiko static inline bool btf_is_enum_fwd(struct btf_type *t)
17999768095bSAndrii Nakryiko {
1800b03bc685SAndrii Nakryiko 	return btf_is_enum(t) && btf_vlen(t) == 0;
18019768095bSAndrii Nakryiko }
18029768095bSAndrii Nakryiko 
18039768095bSAndrii Nakryiko static bool btf_compat_enum(struct btf_type *t1, struct btf_type *t2)
18049768095bSAndrii Nakryiko {
18059768095bSAndrii Nakryiko 	if (!btf_is_enum_fwd(t1) && !btf_is_enum_fwd(t2))
18069768095bSAndrii Nakryiko 		return btf_equal_enum(t1, t2);
18079768095bSAndrii Nakryiko 	/* ignore vlen when comparing */
18089768095bSAndrii Nakryiko 	return t1->name_off == t2->name_off &&
18099768095bSAndrii Nakryiko 	       (t1->info & ~0xffff) == (t2->info & ~0xffff) &&
18109768095bSAndrii Nakryiko 	       t1->size == t2->size;
18119768095bSAndrii Nakryiko }
18129768095bSAndrii Nakryiko 
1813d5caef5bSAndrii Nakryiko /*
1814d5caef5bSAndrii Nakryiko  * Calculate type signature hash of STRUCT/UNION, ignoring referenced type IDs,
1815d5caef5bSAndrii Nakryiko  * as referenced type IDs equivalence is established separately during type
1816d5caef5bSAndrii Nakryiko  * graph equivalence check algorithm.
1817d5caef5bSAndrii Nakryiko  */
18182fc3fc0bSAndrii Nakryiko static long btf_hash_struct(struct btf_type *t)
1819d5caef5bSAndrii Nakryiko {
1820b03bc685SAndrii Nakryiko 	const struct btf_member *member = btf_members(t);
1821b03bc685SAndrii Nakryiko 	__u32 vlen = btf_vlen(t);
18222fc3fc0bSAndrii Nakryiko 	long h = btf_hash_common(t);
1823d5caef5bSAndrii Nakryiko 	int i;
1824d5caef5bSAndrii Nakryiko 
1825d5caef5bSAndrii Nakryiko 	for (i = 0; i < vlen; i++) {
1826d5caef5bSAndrii Nakryiko 		h = hash_combine(h, member->name_off);
1827d5caef5bSAndrii Nakryiko 		h = hash_combine(h, member->offset);
1828d5caef5bSAndrii Nakryiko 		/* no hashing of referenced type ID, it can be unresolved yet */
1829d5caef5bSAndrii Nakryiko 		member++;
1830d5caef5bSAndrii Nakryiko 	}
1831d5caef5bSAndrii Nakryiko 	return h;
1832d5caef5bSAndrii Nakryiko }
1833d5caef5bSAndrii Nakryiko 
1834d5caef5bSAndrii Nakryiko /*
1835d5caef5bSAndrii Nakryiko  * Check structural compatibility of two FUNC_PROTOs, ignoring referenced type
1836d5caef5bSAndrii Nakryiko  * IDs. This check is performed during type graph equivalence check and
1837d5caef5bSAndrii Nakryiko  * referenced types equivalence is checked separately.
1838d5caef5bSAndrii Nakryiko  */
183991097fbeSAndrii Nakryiko static bool btf_shallow_equal_struct(struct btf_type *t1, struct btf_type *t2)
1840d5caef5bSAndrii Nakryiko {
1841b03bc685SAndrii Nakryiko 	const struct btf_member *m1, *m2;
1842d5caef5bSAndrii Nakryiko 	__u16 vlen;
1843d5caef5bSAndrii Nakryiko 	int i;
1844d5caef5bSAndrii Nakryiko 
1845d5caef5bSAndrii Nakryiko 	if (!btf_equal_common(t1, t2))
1846d5caef5bSAndrii Nakryiko 		return false;
1847d5caef5bSAndrii Nakryiko 
1848b03bc685SAndrii Nakryiko 	vlen = btf_vlen(t1);
1849b03bc685SAndrii Nakryiko 	m1 = btf_members(t1);
1850b03bc685SAndrii Nakryiko 	m2 = btf_members(t2);
1851d5caef5bSAndrii Nakryiko 	for (i = 0; i < vlen; i++) {
1852d5caef5bSAndrii Nakryiko 		if (m1->name_off != m2->name_off || m1->offset != m2->offset)
1853d5caef5bSAndrii Nakryiko 			return false;
1854d5caef5bSAndrii Nakryiko 		m1++;
1855d5caef5bSAndrii Nakryiko 		m2++;
1856d5caef5bSAndrii Nakryiko 	}
1857d5caef5bSAndrii Nakryiko 	return true;
1858d5caef5bSAndrii Nakryiko }
1859d5caef5bSAndrii Nakryiko 
1860d5caef5bSAndrii Nakryiko /*
1861d5caef5bSAndrii Nakryiko  * Calculate type signature hash of ARRAY, including referenced type IDs,
1862d5caef5bSAndrii Nakryiko  * under assumption that they were already resolved to canonical type IDs and
1863d5caef5bSAndrii Nakryiko  * are not going to change.
1864d5caef5bSAndrii Nakryiko  */
18652fc3fc0bSAndrii Nakryiko static long btf_hash_array(struct btf_type *t)
1866d5caef5bSAndrii Nakryiko {
1867b03bc685SAndrii Nakryiko 	const struct btf_array *info = btf_array(t);
18682fc3fc0bSAndrii Nakryiko 	long h = btf_hash_common(t);
1869d5caef5bSAndrii Nakryiko 
1870d5caef5bSAndrii Nakryiko 	h = hash_combine(h, info->type);
1871d5caef5bSAndrii Nakryiko 	h = hash_combine(h, info->index_type);
1872d5caef5bSAndrii Nakryiko 	h = hash_combine(h, info->nelems);
1873d5caef5bSAndrii Nakryiko 	return h;
1874d5caef5bSAndrii Nakryiko }
1875d5caef5bSAndrii Nakryiko 
1876d5caef5bSAndrii Nakryiko /*
1877d5caef5bSAndrii Nakryiko  * Check exact equality of two ARRAYs, taking into account referenced
1878d5caef5bSAndrii Nakryiko  * type IDs, under assumption that they were already resolved to canonical
1879d5caef5bSAndrii Nakryiko  * type IDs and are not going to change.
1880d5caef5bSAndrii Nakryiko  * This function is called during reference types deduplication to compare
1881d5caef5bSAndrii Nakryiko  * ARRAY to potential canonical representative.
1882d5caef5bSAndrii Nakryiko  */
1883d5caef5bSAndrii Nakryiko static bool btf_equal_array(struct btf_type *t1, struct btf_type *t2)
1884d5caef5bSAndrii Nakryiko {
1885b03bc685SAndrii Nakryiko 	const struct btf_array *info1, *info2;
1886d5caef5bSAndrii Nakryiko 
1887d5caef5bSAndrii Nakryiko 	if (!btf_equal_common(t1, t2))
1888d5caef5bSAndrii Nakryiko 		return false;
1889d5caef5bSAndrii Nakryiko 
1890b03bc685SAndrii Nakryiko 	info1 = btf_array(t1);
1891b03bc685SAndrii Nakryiko 	info2 = btf_array(t2);
1892d5caef5bSAndrii Nakryiko 	return info1->type == info2->type &&
1893d5caef5bSAndrii Nakryiko 	       info1->index_type == info2->index_type &&
1894d5caef5bSAndrii Nakryiko 	       info1->nelems == info2->nelems;
1895d5caef5bSAndrii Nakryiko }
1896d5caef5bSAndrii Nakryiko 
1897d5caef5bSAndrii Nakryiko /*
1898d5caef5bSAndrii Nakryiko  * Check structural compatibility of two ARRAYs, ignoring referenced type
1899d5caef5bSAndrii Nakryiko  * IDs. This check is performed during type graph equivalence check and
1900d5caef5bSAndrii Nakryiko  * referenced types equivalence is checked separately.
1901d5caef5bSAndrii Nakryiko  */
1902d5caef5bSAndrii Nakryiko static bool btf_compat_array(struct btf_type *t1, struct btf_type *t2)
1903d5caef5bSAndrii Nakryiko {
1904d5caef5bSAndrii Nakryiko 	if (!btf_equal_common(t1, t2))
1905d5caef5bSAndrii Nakryiko 		return false;
1906d5caef5bSAndrii Nakryiko 
1907b03bc685SAndrii Nakryiko 	return btf_array(t1)->nelems == btf_array(t2)->nelems;
1908d5caef5bSAndrii Nakryiko }
1909d5caef5bSAndrii Nakryiko 
1910d5caef5bSAndrii Nakryiko /*
1911d5caef5bSAndrii Nakryiko  * Calculate type signature hash of FUNC_PROTO, including referenced type IDs,
1912d5caef5bSAndrii Nakryiko  * under assumption that they were already resolved to canonical type IDs and
1913d5caef5bSAndrii Nakryiko  * are not going to change.
1914d5caef5bSAndrii Nakryiko  */
19152fc3fc0bSAndrii Nakryiko static long btf_hash_fnproto(struct btf_type *t)
1916d5caef5bSAndrii Nakryiko {
1917b03bc685SAndrii Nakryiko 	const struct btf_param *member = btf_params(t);
1918b03bc685SAndrii Nakryiko 	__u16 vlen = btf_vlen(t);
19192fc3fc0bSAndrii Nakryiko 	long h = btf_hash_common(t);
1920d5caef5bSAndrii Nakryiko 	int i;
1921d5caef5bSAndrii Nakryiko 
1922d5caef5bSAndrii Nakryiko 	for (i = 0; i < vlen; i++) {
1923d5caef5bSAndrii Nakryiko 		h = hash_combine(h, member->name_off);
1924d5caef5bSAndrii Nakryiko 		h = hash_combine(h, member->type);
1925d5caef5bSAndrii Nakryiko 		member++;
1926d5caef5bSAndrii Nakryiko 	}
1927d5caef5bSAndrii Nakryiko 	return h;
1928d5caef5bSAndrii Nakryiko }
1929d5caef5bSAndrii Nakryiko 
1930d5caef5bSAndrii Nakryiko /*
1931d5caef5bSAndrii Nakryiko  * Check exact equality of two FUNC_PROTOs, taking into account referenced
1932d5caef5bSAndrii Nakryiko  * type IDs, under assumption that they were already resolved to canonical
1933d5caef5bSAndrii Nakryiko  * type IDs and are not going to change.
1934d5caef5bSAndrii Nakryiko  * This function is called during reference types deduplication to compare
1935d5caef5bSAndrii Nakryiko  * FUNC_PROTO to potential canonical representative.
1936d5caef5bSAndrii Nakryiko  */
19372fc3fc0bSAndrii Nakryiko static bool btf_equal_fnproto(struct btf_type *t1, struct btf_type *t2)
1938d5caef5bSAndrii Nakryiko {
1939b03bc685SAndrii Nakryiko 	const struct btf_param *m1, *m2;
1940d5caef5bSAndrii Nakryiko 	__u16 vlen;
1941d5caef5bSAndrii Nakryiko 	int i;
1942d5caef5bSAndrii Nakryiko 
1943d5caef5bSAndrii Nakryiko 	if (!btf_equal_common(t1, t2))
1944d5caef5bSAndrii Nakryiko 		return false;
1945d5caef5bSAndrii Nakryiko 
1946b03bc685SAndrii Nakryiko 	vlen = btf_vlen(t1);
1947b03bc685SAndrii Nakryiko 	m1 = btf_params(t1);
1948b03bc685SAndrii Nakryiko 	m2 = btf_params(t2);
1949d5caef5bSAndrii Nakryiko 	for (i = 0; i < vlen; i++) {
1950d5caef5bSAndrii Nakryiko 		if (m1->name_off != m2->name_off || m1->type != m2->type)
1951d5caef5bSAndrii Nakryiko 			return false;
1952d5caef5bSAndrii Nakryiko 		m1++;
1953d5caef5bSAndrii Nakryiko 		m2++;
1954d5caef5bSAndrii Nakryiko 	}
1955d5caef5bSAndrii Nakryiko 	return true;
1956d5caef5bSAndrii Nakryiko }
1957d5caef5bSAndrii Nakryiko 
1958d5caef5bSAndrii Nakryiko /*
1959d5caef5bSAndrii Nakryiko  * Check structural compatibility of two FUNC_PROTOs, ignoring referenced type
1960d5caef5bSAndrii Nakryiko  * IDs. This check is performed during type graph equivalence check and
1961d5caef5bSAndrii Nakryiko  * referenced types equivalence is checked separately.
1962d5caef5bSAndrii Nakryiko  */
19632fc3fc0bSAndrii Nakryiko static bool btf_compat_fnproto(struct btf_type *t1, struct btf_type *t2)
1964d5caef5bSAndrii Nakryiko {
1965b03bc685SAndrii Nakryiko 	const struct btf_param *m1, *m2;
1966d5caef5bSAndrii Nakryiko 	__u16 vlen;
1967d5caef5bSAndrii Nakryiko 	int i;
1968d5caef5bSAndrii Nakryiko 
1969d5caef5bSAndrii Nakryiko 	/* skip return type ID */
1970d5caef5bSAndrii Nakryiko 	if (t1->name_off != t2->name_off || t1->info != t2->info)
1971d5caef5bSAndrii Nakryiko 		return false;
1972d5caef5bSAndrii Nakryiko 
1973b03bc685SAndrii Nakryiko 	vlen = btf_vlen(t1);
1974b03bc685SAndrii Nakryiko 	m1 = btf_params(t1);
1975b03bc685SAndrii Nakryiko 	m2 = btf_params(t2);
1976d5caef5bSAndrii Nakryiko 	for (i = 0; i < vlen; i++) {
1977d5caef5bSAndrii Nakryiko 		if (m1->name_off != m2->name_off)
1978d5caef5bSAndrii Nakryiko 			return false;
1979d5caef5bSAndrii Nakryiko 		m1++;
1980d5caef5bSAndrii Nakryiko 		m2++;
1981d5caef5bSAndrii Nakryiko 	}
1982d5caef5bSAndrii Nakryiko 	return true;
1983d5caef5bSAndrii Nakryiko }
1984d5caef5bSAndrii Nakryiko 
1985d5caef5bSAndrii Nakryiko /*
1986d5caef5bSAndrii Nakryiko  * Deduplicate primitive types, that can't reference other types, by calculating
1987d5caef5bSAndrii Nakryiko  * their type signature hash and comparing them with any possible canonical
1988d5caef5bSAndrii Nakryiko  * candidate. If no canonical candidate matches, type itself is marked as
1989d5caef5bSAndrii Nakryiko  * canonical and is added into `btf_dedup->dedup_table` as another candidate.
1990d5caef5bSAndrii Nakryiko  */
1991d5caef5bSAndrii Nakryiko static int btf_dedup_prim_type(struct btf_dedup *d, __u32 type_id)
1992d5caef5bSAndrii Nakryiko {
1993d5caef5bSAndrii Nakryiko 	struct btf_type *t = d->btf->types[type_id];
19942fc3fc0bSAndrii Nakryiko 	struct hashmap_entry *hash_entry;
1995d5caef5bSAndrii Nakryiko 	struct btf_type *cand;
1996d5caef5bSAndrii Nakryiko 	/* if we don't find equivalent type, then we are canonical */
1997d5caef5bSAndrii Nakryiko 	__u32 new_id = type_id;
19982fc3fc0bSAndrii Nakryiko 	__u32 cand_id;
19992fc3fc0bSAndrii Nakryiko 	long h;
2000d5caef5bSAndrii Nakryiko 
2001b03bc685SAndrii Nakryiko 	switch (btf_kind(t)) {
2002d5caef5bSAndrii Nakryiko 	case BTF_KIND_CONST:
2003d5caef5bSAndrii Nakryiko 	case BTF_KIND_VOLATILE:
2004d5caef5bSAndrii Nakryiko 	case BTF_KIND_RESTRICT:
2005d5caef5bSAndrii Nakryiko 	case BTF_KIND_PTR:
2006d5caef5bSAndrii Nakryiko 	case BTF_KIND_TYPEDEF:
2007d5caef5bSAndrii Nakryiko 	case BTF_KIND_ARRAY:
2008d5caef5bSAndrii Nakryiko 	case BTF_KIND_STRUCT:
2009d5caef5bSAndrii Nakryiko 	case BTF_KIND_UNION:
2010d5caef5bSAndrii Nakryiko 	case BTF_KIND_FUNC:
2011d5caef5bSAndrii Nakryiko 	case BTF_KIND_FUNC_PROTO:
2012189cf5a4SAndrii Nakryiko 	case BTF_KIND_VAR:
2013189cf5a4SAndrii Nakryiko 	case BTF_KIND_DATASEC:
2014d5caef5bSAndrii Nakryiko 		return 0;
2015d5caef5bSAndrii Nakryiko 
2016d5caef5bSAndrii Nakryiko 	case BTF_KIND_INT:
2017d5caef5bSAndrii Nakryiko 		h = btf_hash_int(t);
20182fc3fc0bSAndrii Nakryiko 		for_each_dedup_cand(d, hash_entry, h) {
20192fc3fc0bSAndrii Nakryiko 			cand_id = (__u32)(long)hash_entry->value;
20202fc3fc0bSAndrii Nakryiko 			cand = d->btf->types[cand_id];
2021d5caef5bSAndrii Nakryiko 			if (btf_equal_int(t, cand)) {
20222fc3fc0bSAndrii Nakryiko 				new_id = cand_id;
2023d5caef5bSAndrii Nakryiko 				break;
2024d5caef5bSAndrii Nakryiko 			}
2025d5caef5bSAndrii Nakryiko 		}
2026d5caef5bSAndrii Nakryiko 		break;
2027d5caef5bSAndrii Nakryiko 
2028d5caef5bSAndrii Nakryiko 	case BTF_KIND_ENUM:
2029d5caef5bSAndrii Nakryiko 		h = btf_hash_enum(t);
20302fc3fc0bSAndrii Nakryiko 		for_each_dedup_cand(d, hash_entry, h) {
20312fc3fc0bSAndrii Nakryiko 			cand_id = (__u32)(long)hash_entry->value;
20322fc3fc0bSAndrii Nakryiko 			cand = d->btf->types[cand_id];
2033d5caef5bSAndrii Nakryiko 			if (btf_equal_enum(t, cand)) {
20342fc3fc0bSAndrii Nakryiko 				new_id = cand_id;
2035d5caef5bSAndrii Nakryiko 				break;
2036d5caef5bSAndrii Nakryiko 			}
20379768095bSAndrii Nakryiko 			if (d->opts.dont_resolve_fwds)
20389768095bSAndrii Nakryiko 				continue;
20399768095bSAndrii Nakryiko 			if (btf_compat_enum(t, cand)) {
20409768095bSAndrii Nakryiko 				if (btf_is_enum_fwd(t)) {
20419768095bSAndrii Nakryiko 					/* resolve fwd to full enum */
20422fc3fc0bSAndrii Nakryiko 					new_id = cand_id;
20439768095bSAndrii Nakryiko 					break;
20449768095bSAndrii Nakryiko 				}
20459768095bSAndrii Nakryiko 				/* resolve canonical enum fwd to full enum */
20462fc3fc0bSAndrii Nakryiko 				d->map[cand_id] = type_id;
20479768095bSAndrii Nakryiko 			}
2048d5caef5bSAndrii Nakryiko 		}
2049d5caef5bSAndrii Nakryiko 		break;
2050d5caef5bSAndrii Nakryiko 
2051d5caef5bSAndrii Nakryiko 	case BTF_KIND_FWD:
2052d5caef5bSAndrii Nakryiko 		h = btf_hash_common(t);
20532fc3fc0bSAndrii Nakryiko 		for_each_dedup_cand(d, hash_entry, h) {
20542fc3fc0bSAndrii Nakryiko 			cand_id = (__u32)(long)hash_entry->value;
20552fc3fc0bSAndrii Nakryiko 			cand = d->btf->types[cand_id];
2056d5caef5bSAndrii Nakryiko 			if (btf_equal_common(t, cand)) {
20572fc3fc0bSAndrii Nakryiko 				new_id = cand_id;
2058d5caef5bSAndrii Nakryiko 				break;
2059d5caef5bSAndrii Nakryiko 			}
2060d5caef5bSAndrii Nakryiko 		}
2061d5caef5bSAndrii Nakryiko 		break;
2062d5caef5bSAndrii Nakryiko 
2063d5caef5bSAndrii Nakryiko 	default:
2064d5caef5bSAndrii Nakryiko 		return -EINVAL;
2065d5caef5bSAndrii Nakryiko 	}
2066d5caef5bSAndrii Nakryiko 
2067d5caef5bSAndrii Nakryiko 	d->map[type_id] = new_id;
2068d5caef5bSAndrii Nakryiko 	if (type_id == new_id && btf_dedup_table_add(d, h, type_id))
2069d5caef5bSAndrii Nakryiko 		return -ENOMEM;
2070d5caef5bSAndrii Nakryiko 
2071d5caef5bSAndrii Nakryiko 	return 0;
2072d5caef5bSAndrii Nakryiko }
2073d5caef5bSAndrii Nakryiko 
2074d5caef5bSAndrii Nakryiko static int btf_dedup_prim_types(struct btf_dedup *d)
2075d5caef5bSAndrii Nakryiko {
2076d5caef5bSAndrii Nakryiko 	int i, err;
2077d5caef5bSAndrii Nakryiko 
2078d5caef5bSAndrii Nakryiko 	for (i = 1; i <= d->btf->nr_types; i++) {
2079d5caef5bSAndrii Nakryiko 		err = btf_dedup_prim_type(d, i);
2080d5caef5bSAndrii Nakryiko 		if (err)
2081d5caef5bSAndrii Nakryiko 			return err;
2082d5caef5bSAndrii Nakryiko 	}
2083d5caef5bSAndrii Nakryiko 	return 0;
2084d5caef5bSAndrii Nakryiko }
2085d5caef5bSAndrii Nakryiko 
2086d5caef5bSAndrii Nakryiko /*
2087d5caef5bSAndrii Nakryiko  * Check whether type is already mapped into canonical one (could be to itself).
2088d5caef5bSAndrii Nakryiko  */
2089d5caef5bSAndrii Nakryiko static inline bool is_type_mapped(struct btf_dedup *d, uint32_t type_id)
2090d5caef5bSAndrii Nakryiko {
20915aab392cSAndrii Nakryiko 	return d->map[type_id] <= BTF_MAX_NR_TYPES;
2092d5caef5bSAndrii Nakryiko }
2093d5caef5bSAndrii Nakryiko 
2094d5caef5bSAndrii Nakryiko /*
2095d5caef5bSAndrii Nakryiko  * Resolve type ID into its canonical type ID, if any; otherwise return original
2096d5caef5bSAndrii Nakryiko  * type ID. If type is FWD and is resolved into STRUCT/UNION already, follow
2097d5caef5bSAndrii Nakryiko  * STRUCT/UNION link and resolve it into canonical type ID as well.
2098d5caef5bSAndrii Nakryiko  */
2099d5caef5bSAndrii Nakryiko static inline __u32 resolve_type_id(struct btf_dedup *d, __u32 type_id)
2100d5caef5bSAndrii Nakryiko {
2101d5caef5bSAndrii Nakryiko 	while (is_type_mapped(d, type_id) && d->map[type_id] != type_id)
2102d5caef5bSAndrii Nakryiko 		type_id = d->map[type_id];
2103d5caef5bSAndrii Nakryiko 	return type_id;
2104d5caef5bSAndrii Nakryiko }
2105d5caef5bSAndrii Nakryiko 
2106d5caef5bSAndrii Nakryiko /*
2107d5caef5bSAndrii Nakryiko  * Resolve FWD to underlying STRUCT/UNION, if any; otherwise return original
2108d5caef5bSAndrii Nakryiko  * type ID.
2109d5caef5bSAndrii Nakryiko  */
2110d5caef5bSAndrii Nakryiko static uint32_t resolve_fwd_id(struct btf_dedup *d, uint32_t type_id)
2111d5caef5bSAndrii Nakryiko {
2112d5caef5bSAndrii Nakryiko 	__u32 orig_type_id = type_id;
2113d5caef5bSAndrii Nakryiko 
2114b03bc685SAndrii Nakryiko 	if (!btf_is_fwd(d->btf->types[type_id]))
2115d5caef5bSAndrii Nakryiko 		return type_id;
2116d5caef5bSAndrii Nakryiko 
2117d5caef5bSAndrii Nakryiko 	while (is_type_mapped(d, type_id) && d->map[type_id] != type_id)
2118d5caef5bSAndrii Nakryiko 		type_id = d->map[type_id];
2119d5caef5bSAndrii Nakryiko 
2120b03bc685SAndrii Nakryiko 	if (!btf_is_fwd(d->btf->types[type_id]))
2121d5caef5bSAndrii Nakryiko 		return type_id;
2122d5caef5bSAndrii Nakryiko 
2123d5caef5bSAndrii Nakryiko 	return orig_type_id;
2124d5caef5bSAndrii Nakryiko }
2125d5caef5bSAndrii Nakryiko 
2126d5caef5bSAndrii Nakryiko 
2127d5caef5bSAndrii Nakryiko static inline __u16 btf_fwd_kind(struct btf_type *t)
2128d5caef5bSAndrii Nakryiko {
2129b03bc685SAndrii Nakryiko 	return btf_kflag(t) ? BTF_KIND_UNION : BTF_KIND_STRUCT;
2130d5caef5bSAndrii Nakryiko }
2131d5caef5bSAndrii Nakryiko 
2132d5caef5bSAndrii Nakryiko /*
2133d5caef5bSAndrii Nakryiko  * Check equivalence of BTF type graph formed by candidate struct/union (we'll
2134d5caef5bSAndrii Nakryiko  * call it "candidate graph" in this description for brevity) to a type graph
2135d5caef5bSAndrii Nakryiko  * formed by (potential) canonical struct/union ("canonical graph" for brevity
2136d5caef5bSAndrii Nakryiko  * here, though keep in mind that not all types in canonical graph are
2137d5caef5bSAndrii Nakryiko  * necessarily canonical representatives themselves, some of them might be
2138d5caef5bSAndrii Nakryiko  * duplicates or its uniqueness might not have been established yet).
2139d5caef5bSAndrii Nakryiko  * Returns:
2140d5caef5bSAndrii Nakryiko  *  - >0, if type graphs are equivalent;
2141d5caef5bSAndrii Nakryiko  *  -  0, if not equivalent;
2142d5caef5bSAndrii Nakryiko  *  - <0, on error.
2143d5caef5bSAndrii Nakryiko  *
2144d5caef5bSAndrii Nakryiko  * Algorithm performs side-by-side DFS traversal of both type graphs and checks
2145d5caef5bSAndrii Nakryiko  * equivalence of BTF types at each step. If at any point BTF types in candidate
2146d5caef5bSAndrii Nakryiko  * and canonical graphs are not compatible structurally, whole graphs are
2147d5caef5bSAndrii Nakryiko  * incompatible. If types are structurally equivalent (i.e., all information
2148d5caef5bSAndrii Nakryiko  * except referenced type IDs is exactly the same), a mapping from `canon_id` to
2149d5caef5bSAndrii Nakryiko  * a `cand_id` is recored in hypothetical mapping (`btf_dedup->hypot_map`).
2150d5caef5bSAndrii Nakryiko  * If a type references other types, then those referenced types are checked
2151d5caef5bSAndrii Nakryiko  * for equivalence recursively.
2152d5caef5bSAndrii Nakryiko  *
2153d5caef5bSAndrii Nakryiko  * During DFS traversal, if we find that for current `canon_id` type we
2154d5caef5bSAndrii Nakryiko  * already have some mapping in hypothetical map, we check for two possible
2155d5caef5bSAndrii Nakryiko  * situations:
2156d5caef5bSAndrii Nakryiko  *   - `canon_id` is mapped to exactly the same type as `cand_id`. This will
2157d5caef5bSAndrii Nakryiko  *     happen when type graphs have cycles. In this case we assume those two
2158d5caef5bSAndrii Nakryiko  *     types are equivalent.
2159d5caef5bSAndrii Nakryiko  *   - `canon_id` is mapped to different type. This is contradiction in our
2160d5caef5bSAndrii Nakryiko  *     hypothetical mapping, because same graph in canonical graph corresponds
2161d5caef5bSAndrii Nakryiko  *     to two different types in candidate graph, which for equivalent type
2162d5caef5bSAndrii Nakryiko  *     graphs shouldn't happen. This condition terminates equivalence check
2163d5caef5bSAndrii Nakryiko  *     with negative result.
2164d5caef5bSAndrii Nakryiko  *
2165d5caef5bSAndrii Nakryiko  * If type graphs traversal exhausts types to check and find no contradiction,
2166d5caef5bSAndrii Nakryiko  * then type graphs are equivalent.
2167d5caef5bSAndrii Nakryiko  *
2168d5caef5bSAndrii Nakryiko  * When checking types for equivalence, there is one special case: FWD types.
2169d5caef5bSAndrii Nakryiko  * If FWD type resolution is allowed and one of the types (either from canonical
2170d5caef5bSAndrii Nakryiko  * or candidate graph) is FWD and other is STRUCT/UNION (depending on FWD's kind
2171d5caef5bSAndrii Nakryiko  * flag) and their names match, hypothetical mapping is updated to point from
2172d5caef5bSAndrii Nakryiko  * FWD to STRUCT/UNION. If graphs will be determined as equivalent successfully,
2173d5caef5bSAndrii Nakryiko  * this mapping will be used to record FWD -> STRUCT/UNION mapping permanently.
2174d5caef5bSAndrii Nakryiko  *
2175d5caef5bSAndrii Nakryiko  * Technically, this could lead to incorrect FWD to STRUCT/UNION resolution,
2176d5caef5bSAndrii Nakryiko  * if there are two exactly named (or anonymous) structs/unions that are
2177d5caef5bSAndrii Nakryiko  * compatible structurally, one of which has FWD field, while other is concrete
2178d5caef5bSAndrii Nakryiko  * STRUCT/UNION, but according to C sources they are different structs/unions
2179d5caef5bSAndrii Nakryiko  * that are referencing different types with the same name. This is extremely
2180d5caef5bSAndrii Nakryiko  * unlikely to happen, but btf_dedup API allows to disable FWD resolution if
2181d5caef5bSAndrii Nakryiko  * this logic is causing problems.
2182d5caef5bSAndrii Nakryiko  *
2183d5caef5bSAndrii Nakryiko  * Doing FWD resolution means that both candidate and/or canonical graphs can
2184d5caef5bSAndrii Nakryiko  * consists of portions of the graph that come from multiple compilation units.
2185d5caef5bSAndrii Nakryiko  * This is due to the fact that types within single compilation unit are always
2186d5caef5bSAndrii Nakryiko  * deduplicated and FWDs are already resolved, if referenced struct/union
2187d5caef5bSAndrii Nakryiko  * definiton is available. So, if we had unresolved FWD and found corresponding
2188d5caef5bSAndrii Nakryiko  * STRUCT/UNION, they will be from different compilation units. This
2189d5caef5bSAndrii Nakryiko  * consequently means that when we "link" FWD to corresponding STRUCT/UNION,
2190d5caef5bSAndrii Nakryiko  * type graph will likely have at least two different BTF types that describe
2191d5caef5bSAndrii Nakryiko  * same type (e.g., most probably there will be two different BTF types for the
2192d5caef5bSAndrii Nakryiko  * same 'int' primitive type) and could even have "overlapping" parts of type
2193d5caef5bSAndrii Nakryiko  * graph that describe same subset of types.
2194d5caef5bSAndrii Nakryiko  *
2195d5caef5bSAndrii Nakryiko  * This in turn means that our assumption that each type in canonical graph
2196d5caef5bSAndrii Nakryiko  * must correspond to exactly one type in candidate graph might not hold
2197d5caef5bSAndrii Nakryiko  * anymore and will make it harder to detect contradictions using hypothetical
2198d5caef5bSAndrii Nakryiko  * map. To handle this problem, we allow to follow FWD -> STRUCT/UNION
2199d5caef5bSAndrii Nakryiko  * resolution only in canonical graph. FWDs in candidate graphs are never
2200d5caef5bSAndrii Nakryiko  * resolved. To see why it's OK, let's check all possible situations w.r.t. FWDs
2201d5caef5bSAndrii Nakryiko  * that can occur:
2202d5caef5bSAndrii Nakryiko  *   - Both types in canonical and candidate graphs are FWDs. If they are
2203d5caef5bSAndrii Nakryiko  *     structurally equivalent, then they can either be both resolved to the
2204d5caef5bSAndrii Nakryiko  *     same STRUCT/UNION or not resolved at all. In both cases they are
2205d5caef5bSAndrii Nakryiko  *     equivalent and there is no need to resolve FWD on candidate side.
2206d5caef5bSAndrii Nakryiko  *   - Both types in canonical and candidate graphs are concrete STRUCT/UNION,
2207d5caef5bSAndrii Nakryiko  *     so nothing to resolve as well, algorithm will check equivalence anyway.
2208d5caef5bSAndrii Nakryiko  *   - Type in canonical graph is FWD, while type in candidate is concrete
2209d5caef5bSAndrii Nakryiko  *     STRUCT/UNION. In this case candidate graph comes from single compilation
2210d5caef5bSAndrii Nakryiko  *     unit, so there is exactly one BTF type for each unique C type. After
2211d5caef5bSAndrii Nakryiko  *     resolving FWD into STRUCT/UNION, there might be more than one BTF type
2212d5caef5bSAndrii Nakryiko  *     in canonical graph mapping to single BTF type in candidate graph, but
2213d5caef5bSAndrii Nakryiko  *     because hypothetical mapping maps from canonical to candidate types, it's
2214d5caef5bSAndrii Nakryiko  *     alright, and we still maintain the property of having single `canon_id`
2215d5caef5bSAndrii Nakryiko  *     mapping to single `cand_id` (there could be two different `canon_id`
2216d5caef5bSAndrii Nakryiko  *     mapped to the same `cand_id`, but it's not contradictory).
2217d5caef5bSAndrii Nakryiko  *   - Type in canonical graph is concrete STRUCT/UNION, while type in candidate
2218d5caef5bSAndrii Nakryiko  *     graph is FWD. In this case we are just going to check compatibility of
2219d5caef5bSAndrii Nakryiko  *     STRUCT/UNION and corresponding FWD, and if they are compatible, we'll
2220d5caef5bSAndrii Nakryiko  *     assume that whatever STRUCT/UNION FWD resolves to must be equivalent to
2221d5caef5bSAndrii Nakryiko  *     a concrete STRUCT/UNION from canonical graph. If the rest of type graphs
2222d5caef5bSAndrii Nakryiko  *     turn out equivalent, we'll re-resolve FWD to concrete STRUCT/UNION from
2223d5caef5bSAndrii Nakryiko  *     canonical graph.
2224d5caef5bSAndrii Nakryiko  */
2225d5caef5bSAndrii Nakryiko static int btf_dedup_is_equiv(struct btf_dedup *d, __u32 cand_id,
2226d5caef5bSAndrii Nakryiko 			      __u32 canon_id)
2227d5caef5bSAndrii Nakryiko {
2228d5caef5bSAndrii Nakryiko 	struct btf_type *cand_type;
2229d5caef5bSAndrii Nakryiko 	struct btf_type *canon_type;
2230d5caef5bSAndrii Nakryiko 	__u32 hypot_type_id;
2231d5caef5bSAndrii Nakryiko 	__u16 cand_kind;
2232d5caef5bSAndrii Nakryiko 	__u16 canon_kind;
2233d5caef5bSAndrii Nakryiko 	int i, eq;
2234d5caef5bSAndrii Nakryiko 
2235d5caef5bSAndrii Nakryiko 	/* if both resolve to the same canonical, they must be equivalent */
2236d5caef5bSAndrii Nakryiko 	if (resolve_type_id(d, cand_id) == resolve_type_id(d, canon_id))
2237d5caef5bSAndrii Nakryiko 		return 1;
2238d5caef5bSAndrii Nakryiko 
2239d5caef5bSAndrii Nakryiko 	canon_id = resolve_fwd_id(d, canon_id);
2240d5caef5bSAndrii Nakryiko 
2241d5caef5bSAndrii Nakryiko 	hypot_type_id = d->hypot_map[canon_id];
22425aab392cSAndrii Nakryiko 	if (hypot_type_id <= BTF_MAX_NR_TYPES)
2243d5caef5bSAndrii Nakryiko 		return hypot_type_id == cand_id;
2244d5caef5bSAndrii Nakryiko 
2245d5caef5bSAndrii Nakryiko 	if (btf_dedup_hypot_map_add(d, canon_id, cand_id))
2246d5caef5bSAndrii Nakryiko 		return -ENOMEM;
2247d5caef5bSAndrii Nakryiko 
2248d5caef5bSAndrii Nakryiko 	cand_type = d->btf->types[cand_id];
2249d5caef5bSAndrii Nakryiko 	canon_type = d->btf->types[canon_id];
2250b03bc685SAndrii Nakryiko 	cand_kind = btf_kind(cand_type);
2251b03bc685SAndrii Nakryiko 	canon_kind = btf_kind(canon_type);
2252d5caef5bSAndrii Nakryiko 
2253d5caef5bSAndrii Nakryiko 	if (cand_type->name_off != canon_type->name_off)
2254d5caef5bSAndrii Nakryiko 		return 0;
2255d5caef5bSAndrii Nakryiko 
2256d5caef5bSAndrii Nakryiko 	/* FWD <--> STRUCT/UNION equivalence check, if enabled */
2257d5caef5bSAndrii Nakryiko 	if (!d->opts.dont_resolve_fwds
2258d5caef5bSAndrii Nakryiko 	    && (cand_kind == BTF_KIND_FWD || canon_kind == BTF_KIND_FWD)
2259d5caef5bSAndrii Nakryiko 	    && cand_kind != canon_kind) {
2260d5caef5bSAndrii Nakryiko 		__u16 real_kind;
2261d5caef5bSAndrii Nakryiko 		__u16 fwd_kind;
2262d5caef5bSAndrii Nakryiko 
2263d5caef5bSAndrii Nakryiko 		if (cand_kind == BTF_KIND_FWD) {
2264d5caef5bSAndrii Nakryiko 			real_kind = canon_kind;
2265d5caef5bSAndrii Nakryiko 			fwd_kind = btf_fwd_kind(cand_type);
2266d5caef5bSAndrii Nakryiko 		} else {
2267d5caef5bSAndrii Nakryiko 			real_kind = cand_kind;
2268d5caef5bSAndrii Nakryiko 			fwd_kind = btf_fwd_kind(canon_type);
2269d5caef5bSAndrii Nakryiko 		}
2270d5caef5bSAndrii Nakryiko 		return fwd_kind == real_kind;
2271d5caef5bSAndrii Nakryiko 	}
2272d5caef5bSAndrii Nakryiko 
22739ec71c1cSAndrii Nakryiko 	if (cand_kind != canon_kind)
22749ec71c1cSAndrii Nakryiko 		return 0;
22759ec71c1cSAndrii Nakryiko 
2276d5caef5bSAndrii Nakryiko 	switch (cand_kind) {
2277d5caef5bSAndrii Nakryiko 	case BTF_KIND_INT:
2278d5caef5bSAndrii Nakryiko 		return btf_equal_int(cand_type, canon_type);
2279d5caef5bSAndrii Nakryiko 
2280d5caef5bSAndrii Nakryiko 	case BTF_KIND_ENUM:
22819768095bSAndrii Nakryiko 		if (d->opts.dont_resolve_fwds)
2282d5caef5bSAndrii Nakryiko 			return btf_equal_enum(cand_type, canon_type);
22839768095bSAndrii Nakryiko 		else
22849768095bSAndrii Nakryiko 			return btf_compat_enum(cand_type, canon_type);
2285d5caef5bSAndrii Nakryiko 
2286d5caef5bSAndrii Nakryiko 	case BTF_KIND_FWD:
2287d5caef5bSAndrii Nakryiko 		return btf_equal_common(cand_type, canon_type);
2288d5caef5bSAndrii Nakryiko 
2289d5caef5bSAndrii Nakryiko 	case BTF_KIND_CONST:
2290d5caef5bSAndrii Nakryiko 	case BTF_KIND_VOLATILE:
2291d5caef5bSAndrii Nakryiko 	case BTF_KIND_RESTRICT:
2292d5caef5bSAndrii Nakryiko 	case BTF_KIND_PTR:
2293d5caef5bSAndrii Nakryiko 	case BTF_KIND_TYPEDEF:
2294d5caef5bSAndrii Nakryiko 	case BTF_KIND_FUNC:
22959768095bSAndrii Nakryiko 		if (cand_type->info != canon_type->info)
22969768095bSAndrii Nakryiko 			return 0;
2297d5caef5bSAndrii Nakryiko 		return btf_dedup_is_equiv(d, cand_type->type, canon_type->type);
2298d5caef5bSAndrii Nakryiko 
2299d5caef5bSAndrii Nakryiko 	case BTF_KIND_ARRAY: {
2300b03bc685SAndrii Nakryiko 		const struct btf_array *cand_arr, *canon_arr;
2301d5caef5bSAndrii Nakryiko 
2302d5caef5bSAndrii Nakryiko 		if (!btf_compat_array(cand_type, canon_type))
2303d5caef5bSAndrii Nakryiko 			return 0;
2304b03bc685SAndrii Nakryiko 		cand_arr = btf_array(cand_type);
2305b03bc685SAndrii Nakryiko 		canon_arr = btf_array(canon_type);
2306d5caef5bSAndrii Nakryiko 		eq = btf_dedup_is_equiv(d,
2307d5caef5bSAndrii Nakryiko 			cand_arr->index_type, canon_arr->index_type);
2308d5caef5bSAndrii Nakryiko 		if (eq <= 0)
2309d5caef5bSAndrii Nakryiko 			return eq;
2310d5caef5bSAndrii Nakryiko 		return btf_dedup_is_equiv(d, cand_arr->type, canon_arr->type);
2311d5caef5bSAndrii Nakryiko 	}
2312d5caef5bSAndrii Nakryiko 
2313d5caef5bSAndrii Nakryiko 	case BTF_KIND_STRUCT:
2314d5caef5bSAndrii Nakryiko 	case BTF_KIND_UNION: {
2315b03bc685SAndrii Nakryiko 		const struct btf_member *cand_m, *canon_m;
2316d5caef5bSAndrii Nakryiko 		__u16 vlen;
2317d5caef5bSAndrii Nakryiko 
231891097fbeSAndrii Nakryiko 		if (!btf_shallow_equal_struct(cand_type, canon_type))
2319d5caef5bSAndrii Nakryiko 			return 0;
2320b03bc685SAndrii Nakryiko 		vlen = btf_vlen(cand_type);
2321b03bc685SAndrii Nakryiko 		cand_m = btf_members(cand_type);
2322b03bc685SAndrii Nakryiko 		canon_m = btf_members(canon_type);
2323d5caef5bSAndrii Nakryiko 		for (i = 0; i < vlen; i++) {
2324d5caef5bSAndrii Nakryiko 			eq = btf_dedup_is_equiv(d, cand_m->type, canon_m->type);
2325d5caef5bSAndrii Nakryiko 			if (eq <= 0)
2326d5caef5bSAndrii Nakryiko 				return eq;
2327d5caef5bSAndrii Nakryiko 			cand_m++;
2328d5caef5bSAndrii Nakryiko 			canon_m++;
2329d5caef5bSAndrii Nakryiko 		}
2330d5caef5bSAndrii Nakryiko 
2331d5caef5bSAndrii Nakryiko 		return 1;
2332d5caef5bSAndrii Nakryiko 	}
2333d5caef5bSAndrii Nakryiko 
2334d5caef5bSAndrii Nakryiko 	case BTF_KIND_FUNC_PROTO: {
2335b03bc685SAndrii Nakryiko 		const struct btf_param *cand_p, *canon_p;
2336d5caef5bSAndrii Nakryiko 		__u16 vlen;
2337d5caef5bSAndrii Nakryiko 
2338d5caef5bSAndrii Nakryiko 		if (!btf_compat_fnproto(cand_type, canon_type))
2339d5caef5bSAndrii Nakryiko 			return 0;
2340d5caef5bSAndrii Nakryiko 		eq = btf_dedup_is_equiv(d, cand_type->type, canon_type->type);
2341d5caef5bSAndrii Nakryiko 		if (eq <= 0)
2342d5caef5bSAndrii Nakryiko 			return eq;
2343b03bc685SAndrii Nakryiko 		vlen = btf_vlen(cand_type);
2344b03bc685SAndrii Nakryiko 		cand_p = btf_params(cand_type);
2345b03bc685SAndrii Nakryiko 		canon_p = btf_params(canon_type);
2346d5caef5bSAndrii Nakryiko 		for (i = 0; i < vlen; i++) {
2347d5caef5bSAndrii Nakryiko 			eq = btf_dedup_is_equiv(d, cand_p->type, canon_p->type);
2348d5caef5bSAndrii Nakryiko 			if (eq <= 0)
2349d5caef5bSAndrii Nakryiko 				return eq;
2350d5caef5bSAndrii Nakryiko 			cand_p++;
2351d5caef5bSAndrii Nakryiko 			canon_p++;
2352d5caef5bSAndrii Nakryiko 		}
2353d5caef5bSAndrii Nakryiko 		return 1;
2354d5caef5bSAndrii Nakryiko 	}
2355d5caef5bSAndrii Nakryiko 
2356d5caef5bSAndrii Nakryiko 	default:
2357d5caef5bSAndrii Nakryiko 		return -EINVAL;
2358d5caef5bSAndrii Nakryiko 	}
2359d5caef5bSAndrii Nakryiko 	return 0;
2360d5caef5bSAndrii Nakryiko }
2361d5caef5bSAndrii Nakryiko 
2362d5caef5bSAndrii Nakryiko /*
2363d5caef5bSAndrii Nakryiko  * Use hypothetical mapping, produced by successful type graph equivalence
2364d5caef5bSAndrii Nakryiko  * check, to augment existing struct/union canonical mapping, where possible.
2365d5caef5bSAndrii Nakryiko  *
2366d5caef5bSAndrii Nakryiko  * If BTF_KIND_FWD resolution is allowed, this mapping is also used to record
2367d5caef5bSAndrii Nakryiko  * FWD -> STRUCT/UNION correspondence as well. FWD resolution is bidirectional:
2368d5caef5bSAndrii Nakryiko  * it doesn't matter if FWD type was part of canonical graph or candidate one,
2369d5caef5bSAndrii Nakryiko  * we are recording the mapping anyway. As opposed to carefulness required
2370d5caef5bSAndrii Nakryiko  * for struct/union correspondence mapping (described below), for FWD resolution
2371d5caef5bSAndrii Nakryiko  * it's not important, as by the time that FWD type (reference type) will be
2372d5caef5bSAndrii Nakryiko  * deduplicated all structs/unions will be deduped already anyway.
2373d5caef5bSAndrii Nakryiko  *
2374d5caef5bSAndrii Nakryiko  * Recording STRUCT/UNION mapping is purely a performance optimization and is
2375d5caef5bSAndrii Nakryiko  * not required for correctness. It needs to be done carefully to ensure that
2376d5caef5bSAndrii Nakryiko  * struct/union from candidate's type graph is not mapped into corresponding
2377d5caef5bSAndrii Nakryiko  * struct/union from canonical type graph that itself hasn't been resolved into
2378d5caef5bSAndrii Nakryiko  * canonical representative. The only guarantee we have is that canonical
2379d5caef5bSAndrii Nakryiko  * struct/union was determined as canonical and that won't change. But any
2380d5caef5bSAndrii Nakryiko  * types referenced through that struct/union fields could have been not yet
2381d5caef5bSAndrii Nakryiko  * resolved, so in case like that it's too early to establish any kind of
2382d5caef5bSAndrii Nakryiko  * correspondence between structs/unions.
2383d5caef5bSAndrii Nakryiko  *
2384d5caef5bSAndrii Nakryiko  * No canonical correspondence is derived for primitive types (they are already
2385d5caef5bSAndrii Nakryiko  * deduplicated completely already anyway) or reference types (they rely on
2386d5caef5bSAndrii Nakryiko  * stability of struct/union canonical relationship for equivalence checks).
2387d5caef5bSAndrii Nakryiko  */
2388d5caef5bSAndrii Nakryiko static void btf_dedup_merge_hypot_map(struct btf_dedup *d)
2389d5caef5bSAndrii Nakryiko {
2390d5caef5bSAndrii Nakryiko 	__u32 cand_type_id, targ_type_id;
2391d5caef5bSAndrii Nakryiko 	__u16 t_kind, c_kind;
2392d5caef5bSAndrii Nakryiko 	__u32 t_id, c_id;
2393d5caef5bSAndrii Nakryiko 	int i;
2394d5caef5bSAndrii Nakryiko 
2395d5caef5bSAndrii Nakryiko 	for (i = 0; i < d->hypot_cnt; i++) {
2396d5caef5bSAndrii Nakryiko 		cand_type_id = d->hypot_list[i];
2397d5caef5bSAndrii Nakryiko 		targ_type_id = d->hypot_map[cand_type_id];
2398d5caef5bSAndrii Nakryiko 		t_id = resolve_type_id(d, targ_type_id);
2399d5caef5bSAndrii Nakryiko 		c_id = resolve_type_id(d, cand_type_id);
2400b03bc685SAndrii Nakryiko 		t_kind = btf_kind(d->btf->types[t_id]);
2401b03bc685SAndrii Nakryiko 		c_kind = btf_kind(d->btf->types[c_id]);
2402d5caef5bSAndrii Nakryiko 		/*
2403d5caef5bSAndrii Nakryiko 		 * Resolve FWD into STRUCT/UNION.
2404d5caef5bSAndrii Nakryiko 		 * It's ok to resolve FWD into STRUCT/UNION that's not yet
2405d5caef5bSAndrii Nakryiko 		 * mapped to canonical representative (as opposed to
2406d5caef5bSAndrii Nakryiko 		 * STRUCT/UNION <--> STRUCT/UNION mapping logic below), because
2407d5caef5bSAndrii Nakryiko 		 * eventually that struct is going to be mapped and all resolved
2408d5caef5bSAndrii Nakryiko 		 * FWDs will automatically resolve to correct canonical
2409d5caef5bSAndrii Nakryiko 		 * representative. This will happen before ref type deduping,
2410d5caef5bSAndrii Nakryiko 		 * which critically depends on stability of these mapping. This
2411d5caef5bSAndrii Nakryiko 		 * stability is not a requirement for STRUCT/UNION equivalence
2412d5caef5bSAndrii Nakryiko 		 * checks, though.
2413d5caef5bSAndrii Nakryiko 		 */
2414d5caef5bSAndrii Nakryiko 		if (t_kind != BTF_KIND_FWD && c_kind == BTF_KIND_FWD)
2415d5caef5bSAndrii Nakryiko 			d->map[c_id] = t_id;
2416d5caef5bSAndrii Nakryiko 		else if (t_kind == BTF_KIND_FWD && c_kind != BTF_KIND_FWD)
2417d5caef5bSAndrii Nakryiko 			d->map[t_id] = c_id;
2418d5caef5bSAndrii Nakryiko 
2419d5caef5bSAndrii Nakryiko 		if ((t_kind == BTF_KIND_STRUCT || t_kind == BTF_KIND_UNION) &&
2420d5caef5bSAndrii Nakryiko 		    c_kind != BTF_KIND_FWD &&
2421d5caef5bSAndrii Nakryiko 		    is_type_mapped(d, c_id) &&
2422d5caef5bSAndrii Nakryiko 		    !is_type_mapped(d, t_id)) {
2423d5caef5bSAndrii Nakryiko 			/*
2424d5caef5bSAndrii Nakryiko 			 * as a perf optimization, we can map struct/union
2425d5caef5bSAndrii Nakryiko 			 * that's part of type graph we just verified for
2426d5caef5bSAndrii Nakryiko 			 * equivalence. We can do that for struct/union that has
2427d5caef5bSAndrii Nakryiko 			 * canonical representative only, though.
2428d5caef5bSAndrii Nakryiko 			 */
2429d5caef5bSAndrii Nakryiko 			d->map[t_id] = c_id;
2430d5caef5bSAndrii Nakryiko 		}
2431d5caef5bSAndrii Nakryiko 	}
2432d5caef5bSAndrii Nakryiko }
2433d5caef5bSAndrii Nakryiko 
2434d5caef5bSAndrii Nakryiko /*
2435d5caef5bSAndrii Nakryiko  * Deduplicate struct/union types.
2436d5caef5bSAndrii Nakryiko  *
2437d5caef5bSAndrii Nakryiko  * For each struct/union type its type signature hash is calculated, taking
2438d5caef5bSAndrii Nakryiko  * into account type's name, size, number, order and names of fields, but
2439d5caef5bSAndrii Nakryiko  * ignoring type ID's referenced from fields, because they might not be deduped
2440d5caef5bSAndrii Nakryiko  * completely until after reference types deduplication phase. This type hash
2441d5caef5bSAndrii Nakryiko  * is used to iterate over all potential canonical types, sharing same hash.
2442d5caef5bSAndrii Nakryiko  * For each canonical candidate we check whether type graphs that they form
2443d5caef5bSAndrii Nakryiko  * (through referenced types in fields and so on) are equivalent using algorithm
2444d5caef5bSAndrii Nakryiko  * implemented in `btf_dedup_is_equiv`. If such equivalence is found and
2445d5caef5bSAndrii Nakryiko  * BTF_KIND_FWD resolution is allowed, then hypothetical mapping
2446d5caef5bSAndrii Nakryiko  * (btf_dedup->hypot_map) produced by aforementioned type graph equivalence
2447d5caef5bSAndrii Nakryiko  * algorithm is used to record FWD -> STRUCT/UNION mapping. It's also used to
2448d5caef5bSAndrii Nakryiko  * potentially map other structs/unions to their canonical representatives,
2449d5caef5bSAndrii Nakryiko  * if such relationship hasn't yet been established. This speeds up algorithm
2450d5caef5bSAndrii Nakryiko  * by eliminating some of the duplicate work.
2451d5caef5bSAndrii Nakryiko  *
2452d5caef5bSAndrii Nakryiko  * If no matching canonical representative was found, struct/union is marked
2453d5caef5bSAndrii Nakryiko  * as canonical for itself and is added into btf_dedup->dedup_table hash map
2454d5caef5bSAndrii Nakryiko  * for further look ups.
2455d5caef5bSAndrii Nakryiko  */
2456d5caef5bSAndrii Nakryiko static int btf_dedup_struct_type(struct btf_dedup *d, __u32 type_id)
2457d5caef5bSAndrii Nakryiko {
245891097fbeSAndrii Nakryiko 	struct btf_type *cand_type, *t;
24592fc3fc0bSAndrii Nakryiko 	struct hashmap_entry *hash_entry;
2460d5caef5bSAndrii Nakryiko 	/* if we don't find equivalent type, then we are canonical */
2461d5caef5bSAndrii Nakryiko 	__u32 new_id = type_id;
2462d5caef5bSAndrii Nakryiko 	__u16 kind;
24632fc3fc0bSAndrii Nakryiko 	long h;
2464d5caef5bSAndrii Nakryiko 
2465d5caef5bSAndrii Nakryiko 	/* already deduped or is in process of deduping (loop detected) */
24665aab392cSAndrii Nakryiko 	if (d->map[type_id] <= BTF_MAX_NR_TYPES)
2467d5caef5bSAndrii Nakryiko 		return 0;
2468d5caef5bSAndrii Nakryiko 
2469d5caef5bSAndrii Nakryiko 	t = d->btf->types[type_id];
2470b03bc685SAndrii Nakryiko 	kind = btf_kind(t);
2471d5caef5bSAndrii Nakryiko 
2472d5caef5bSAndrii Nakryiko 	if (kind != BTF_KIND_STRUCT && kind != BTF_KIND_UNION)
2473d5caef5bSAndrii Nakryiko 		return 0;
2474d5caef5bSAndrii Nakryiko 
2475d5caef5bSAndrii Nakryiko 	h = btf_hash_struct(t);
24762fc3fc0bSAndrii Nakryiko 	for_each_dedup_cand(d, hash_entry, h) {
24772fc3fc0bSAndrii Nakryiko 		__u32 cand_id = (__u32)(long)hash_entry->value;
2478d5caef5bSAndrii Nakryiko 		int eq;
2479d5caef5bSAndrii Nakryiko 
248091097fbeSAndrii Nakryiko 		/*
248191097fbeSAndrii Nakryiko 		 * Even though btf_dedup_is_equiv() checks for
248291097fbeSAndrii Nakryiko 		 * btf_shallow_equal_struct() internally when checking two
248391097fbeSAndrii Nakryiko 		 * structs (unions) for equivalence, we need to guard here
248491097fbeSAndrii Nakryiko 		 * from picking matching FWD type as a dedup candidate.
248591097fbeSAndrii Nakryiko 		 * This can happen due to hash collision. In such case just
248691097fbeSAndrii Nakryiko 		 * relying on btf_dedup_is_equiv() would lead to potentially
248791097fbeSAndrii Nakryiko 		 * creating a loop (FWD -> STRUCT and STRUCT -> FWD), because
248891097fbeSAndrii Nakryiko 		 * FWD and compatible STRUCT/UNION are considered equivalent.
248991097fbeSAndrii Nakryiko 		 */
24902fc3fc0bSAndrii Nakryiko 		cand_type = d->btf->types[cand_id];
249191097fbeSAndrii Nakryiko 		if (!btf_shallow_equal_struct(t, cand_type))
249291097fbeSAndrii Nakryiko 			continue;
249391097fbeSAndrii Nakryiko 
2494d5caef5bSAndrii Nakryiko 		btf_dedup_clear_hypot_map(d);
24952fc3fc0bSAndrii Nakryiko 		eq = btf_dedup_is_equiv(d, type_id, cand_id);
2496d5caef5bSAndrii Nakryiko 		if (eq < 0)
2497d5caef5bSAndrii Nakryiko 			return eq;
2498d5caef5bSAndrii Nakryiko 		if (!eq)
2499d5caef5bSAndrii Nakryiko 			continue;
25002fc3fc0bSAndrii Nakryiko 		new_id = cand_id;
2501d5caef5bSAndrii Nakryiko 		btf_dedup_merge_hypot_map(d);
2502d5caef5bSAndrii Nakryiko 		break;
2503d5caef5bSAndrii Nakryiko 	}
2504d5caef5bSAndrii Nakryiko 
2505d5caef5bSAndrii Nakryiko 	d->map[type_id] = new_id;
2506d5caef5bSAndrii Nakryiko 	if (type_id == new_id && btf_dedup_table_add(d, h, type_id))
2507d5caef5bSAndrii Nakryiko 		return -ENOMEM;
2508d5caef5bSAndrii Nakryiko 
2509d5caef5bSAndrii Nakryiko 	return 0;
2510d5caef5bSAndrii Nakryiko }
2511d5caef5bSAndrii Nakryiko 
2512d5caef5bSAndrii Nakryiko static int btf_dedup_struct_types(struct btf_dedup *d)
2513d5caef5bSAndrii Nakryiko {
2514d5caef5bSAndrii Nakryiko 	int i, err;
2515d5caef5bSAndrii Nakryiko 
2516d5caef5bSAndrii Nakryiko 	for (i = 1; i <= d->btf->nr_types; i++) {
2517d5caef5bSAndrii Nakryiko 		err = btf_dedup_struct_type(d, i);
2518d5caef5bSAndrii Nakryiko 		if (err)
2519d5caef5bSAndrii Nakryiko 			return err;
2520d5caef5bSAndrii Nakryiko 	}
2521d5caef5bSAndrii Nakryiko 	return 0;
2522d5caef5bSAndrii Nakryiko }
2523d5caef5bSAndrii Nakryiko 
2524d5caef5bSAndrii Nakryiko /*
2525d5caef5bSAndrii Nakryiko  * Deduplicate reference type.
2526d5caef5bSAndrii Nakryiko  *
2527d5caef5bSAndrii Nakryiko  * Once all primitive and struct/union types got deduplicated, we can easily
2528d5caef5bSAndrii Nakryiko  * deduplicate all other (reference) BTF types. This is done in two steps:
2529d5caef5bSAndrii Nakryiko  *
2530d5caef5bSAndrii Nakryiko  * 1. Resolve all referenced type IDs into their canonical type IDs. This
2531d5caef5bSAndrii Nakryiko  * resolution can be done either immediately for primitive or struct/union types
2532d5caef5bSAndrii Nakryiko  * (because they were deduped in previous two phases) or recursively for
2533d5caef5bSAndrii Nakryiko  * reference types. Recursion will always terminate at either primitive or
2534d5caef5bSAndrii Nakryiko  * struct/union type, at which point we can "unwind" chain of reference types
2535d5caef5bSAndrii Nakryiko  * one by one. There is no danger of encountering cycles because in C type
2536d5caef5bSAndrii Nakryiko  * system the only way to form type cycle is through struct/union, so any chain
2537d5caef5bSAndrii Nakryiko  * of reference types, even those taking part in a type cycle, will inevitably
2538d5caef5bSAndrii Nakryiko  * reach struct/union at some point.
2539d5caef5bSAndrii Nakryiko  *
2540d5caef5bSAndrii Nakryiko  * 2. Once all referenced type IDs are resolved into canonical ones, BTF type
2541d5caef5bSAndrii Nakryiko  * becomes "stable", in the sense that no further deduplication will cause
2542d5caef5bSAndrii Nakryiko  * any changes to it. With that, it's now possible to calculate type's signature
2543d5caef5bSAndrii Nakryiko  * hash (this time taking into account referenced type IDs) and loop over all
2544d5caef5bSAndrii Nakryiko  * potential canonical representatives. If no match was found, current type
2545d5caef5bSAndrii Nakryiko  * will become canonical representative of itself and will be added into
2546d5caef5bSAndrii Nakryiko  * btf_dedup->dedup_table as another possible canonical representative.
2547d5caef5bSAndrii Nakryiko  */
2548d5caef5bSAndrii Nakryiko static int btf_dedup_ref_type(struct btf_dedup *d, __u32 type_id)
2549d5caef5bSAndrii Nakryiko {
25502fc3fc0bSAndrii Nakryiko 	struct hashmap_entry *hash_entry;
25512fc3fc0bSAndrii Nakryiko 	__u32 new_id = type_id, cand_id;
2552d5caef5bSAndrii Nakryiko 	struct btf_type *t, *cand;
2553d5caef5bSAndrii Nakryiko 	/* if we don't find equivalent type, then we are representative type */
25543d8669e6SDan Carpenter 	int ref_type_id;
25552fc3fc0bSAndrii Nakryiko 	long h;
2556d5caef5bSAndrii Nakryiko 
2557d5caef5bSAndrii Nakryiko 	if (d->map[type_id] == BTF_IN_PROGRESS_ID)
2558d5caef5bSAndrii Nakryiko 		return -ELOOP;
25595aab392cSAndrii Nakryiko 	if (d->map[type_id] <= BTF_MAX_NR_TYPES)
2560d5caef5bSAndrii Nakryiko 		return resolve_type_id(d, type_id);
2561d5caef5bSAndrii Nakryiko 
2562d5caef5bSAndrii Nakryiko 	t = d->btf->types[type_id];
2563d5caef5bSAndrii Nakryiko 	d->map[type_id] = BTF_IN_PROGRESS_ID;
2564d5caef5bSAndrii Nakryiko 
2565b03bc685SAndrii Nakryiko 	switch (btf_kind(t)) {
2566d5caef5bSAndrii Nakryiko 	case BTF_KIND_CONST:
2567d5caef5bSAndrii Nakryiko 	case BTF_KIND_VOLATILE:
2568d5caef5bSAndrii Nakryiko 	case BTF_KIND_RESTRICT:
2569d5caef5bSAndrii Nakryiko 	case BTF_KIND_PTR:
2570d5caef5bSAndrii Nakryiko 	case BTF_KIND_TYPEDEF:
2571d5caef5bSAndrii Nakryiko 	case BTF_KIND_FUNC:
2572d5caef5bSAndrii Nakryiko 		ref_type_id = btf_dedup_ref_type(d, t->type);
2573d5caef5bSAndrii Nakryiko 		if (ref_type_id < 0)
2574d5caef5bSAndrii Nakryiko 			return ref_type_id;
2575d5caef5bSAndrii Nakryiko 		t->type = ref_type_id;
2576d5caef5bSAndrii Nakryiko 
2577d5caef5bSAndrii Nakryiko 		h = btf_hash_common(t);
25782fc3fc0bSAndrii Nakryiko 		for_each_dedup_cand(d, hash_entry, h) {
25792fc3fc0bSAndrii Nakryiko 			cand_id = (__u32)(long)hash_entry->value;
25802fc3fc0bSAndrii Nakryiko 			cand = d->btf->types[cand_id];
2581d5caef5bSAndrii Nakryiko 			if (btf_equal_common(t, cand)) {
25822fc3fc0bSAndrii Nakryiko 				new_id = cand_id;
2583d5caef5bSAndrii Nakryiko 				break;
2584d5caef5bSAndrii Nakryiko 			}
2585d5caef5bSAndrii Nakryiko 		}
2586d5caef5bSAndrii Nakryiko 		break;
2587d5caef5bSAndrii Nakryiko 
2588d5caef5bSAndrii Nakryiko 	case BTF_KIND_ARRAY: {
2589b03bc685SAndrii Nakryiko 		struct btf_array *info = btf_array(t);
2590d5caef5bSAndrii Nakryiko 
2591d5caef5bSAndrii Nakryiko 		ref_type_id = btf_dedup_ref_type(d, info->type);
2592d5caef5bSAndrii Nakryiko 		if (ref_type_id < 0)
2593d5caef5bSAndrii Nakryiko 			return ref_type_id;
2594d5caef5bSAndrii Nakryiko 		info->type = ref_type_id;
2595d5caef5bSAndrii Nakryiko 
2596d5caef5bSAndrii Nakryiko 		ref_type_id = btf_dedup_ref_type(d, info->index_type);
2597d5caef5bSAndrii Nakryiko 		if (ref_type_id < 0)
2598d5caef5bSAndrii Nakryiko 			return ref_type_id;
2599d5caef5bSAndrii Nakryiko 		info->index_type = ref_type_id;
2600d5caef5bSAndrii Nakryiko 
2601d5caef5bSAndrii Nakryiko 		h = btf_hash_array(t);
26022fc3fc0bSAndrii Nakryiko 		for_each_dedup_cand(d, hash_entry, h) {
26032fc3fc0bSAndrii Nakryiko 			cand_id = (__u32)(long)hash_entry->value;
26042fc3fc0bSAndrii Nakryiko 			cand = d->btf->types[cand_id];
2605d5caef5bSAndrii Nakryiko 			if (btf_equal_array(t, cand)) {
26062fc3fc0bSAndrii Nakryiko 				new_id = cand_id;
2607d5caef5bSAndrii Nakryiko 				break;
2608d5caef5bSAndrii Nakryiko 			}
2609d5caef5bSAndrii Nakryiko 		}
2610d5caef5bSAndrii Nakryiko 		break;
2611d5caef5bSAndrii Nakryiko 	}
2612d5caef5bSAndrii Nakryiko 
2613d5caef5bSAndrii Nakryiko 	case BTF_KIND_FUNC_PROTO: {
2614d5caef5bSAndrii Nakryiko 		struct btf_param *param;
2615d5caef5bSAndrii Nakryiko 		__u16 vlen;
2616d5caef5bSAndrii Nakryiko 		int i;
2617d5caef5bSAndrii Nakryiko 
2618d5caef5bSAndrii Nakryiko 		ref_type_id = btf_dedup_ref_type(d, t->type);
2619d5caef5bSAndrii Nakryiko 		if (ref_type_id < 0)
2620d5caef5bSAndrii Nakryiko 			return ref_type_id;
2621d5caef5bSAndrii Nakryiko 		t->type = ref_type_id;
2622d5caef5bSAndrii Nakryiko 
2623b03bc685SAndrii Nakryiko 		vlen = btf_vlen(t);
2624b03bc685SAndrii Nakryiko 		param = btf_params(t);
2625d5caef5bSAndrii Nakryiko 		for (i = 0; i < vlen; i++) {
2626d5caef5bSAndrii Nakryiko 			ref_type_id = btf_dedup_ref_type(d, param->type);
2627d5caef5bSAndrii Nakryiko 			if (ref_type_id < 0)
2628d5caef5bSAndrii Nakryiko 				return ref_type_id;
2629d5caef5bSAndrii Nakryiko 			param->type = ref_type_id;
2630d5caef5bSAndrii Nakryiko 			param++;
2631d5caef5bSAndrii Nakryiko 		}
2632d5caef5bSAndrii Nakryiko 
2633d5caef5bSAndrii Nakryiko 		h = btf_hash_fnproto(t);
26342fc3fc0bSAndrii Nakryiko 		for_each_dedup_cand(d, hash_entry, h) {
26352fc3fc0bSAndrii Nakryiko 			cand_id = (__u32)(long)hash_entry->value;
26362fc3fc0bSAndrii Nakryiko 			cand = d->btf->types[cand_id];
2637d5caef5bSAndrii Nakryiko 			if (btf_equal_fnproto(t, cand)) {
26382fc3fc0bSAndrii Nakryiko 				new_id = cand_id;
2639d5caef5bSAndrii Nakryiko 				break;
2640d5caef5bSAndrii Nakryiko 			}
2641d5caef5bSAndrii Nakryiko 		}
2642d5caef5bSAndrii Nakryiko 		break;
2643d5caef5bSAndrii Nakryiko 	}
2644d5caef5bSAndrii Nakryiko 
2645d5caef5bSAndrii Nakryiko 	default:
2646d5caef5bSAndrii Nakryiko 		return -EINVAL;
2647d5caef5bSAndrii Nakryiko 	}
2648d5caef5bSAndrii Nakryiko 
2649d5caef5bSAndrii Nakryiko 	d->map[type_id] = new_id;
2650d5caef5bSAndrii Nakryiko 	if (type_id == new_id && btf_dedup_table_add(d, h, type_id))
2651d5caef5bSAndrii Nakryiko 		return -ENOMEM;
2652d5caef5bSAndrii Nakryiko 
2653d5caef5bSAndrii Nakryiko 	return new_id;
2654d5caef5bSAndrii Nakryiko }
2655d5caef5bSAndrii Nakryiko 
2656d5caef5bSAndrii Nakryiko static int btf_dedup_ref_types(struct btf_dedup *d)
2657d5caef5bSAndrii Nakryiko {
2658d5caef5bSAndrii Nakryiko 	int i, err;
2659d5caef5bSAndrii Nakryiko 
2660d5caef5bSAndrii Nakryiko 	for (i = 1; i <= d->btf->nr_types; i++) {
2661d5caef5bSAndrii Nakryiko 		err = btf_dedup_ref_type(d, i);
2662d5caef5bSAndrii Nakryiko 		if (err < 0)
2663d5caef5bSAndrii Nakryiko 			return err;
2664d5caef5bSAndrii Nakryiko 	}
26652fc3fc0bSAndrii Nakryiko 	/* we won't need d->dedup_table anymore */
26662fc3fc0bSAndrii Nakryiko 	hashmap__free(d->dedup_table);
26672fc3fc0bSAndrii Nakryiko 	d->dedup_table = NULL;
2668d5caef5bSAndrii Nakryiko 	return 0;
2669d5caef5bSAndrii Nakryiko }
2670d5caef5bSAndrii Nakryiko 
2671d5caef5bSAndrii Nakryiko /*
2672d5caef5bSAndrii Nakryiko  * Compact types.
2673d5caef5bSAndrii Nakryiko  *
2674d5caef5bSAndrii Nakryiko  * After we established for each type its corresponding canonical representative
2675d5caef5bSAndrii Nakryiko  * type, we now can eliminate types that are not canonical and leave only
2676d5caef5bSAndrii Nakryiko  * canonical ones layed out sequentially in memory by copying them over
2677d5caef5bSAndrii Nakryiko  * duplicates. During compaction btf_dedup->hypot_map array is reused to store
2678d5caef5bSAndrii Nakryiko  * a map from original type ID to a new compacted type ID, which will be used
2679d5caef5bSAndrii Nakryiko  * during next phase to "fix up" type IDs, referenced from struct/union and
2680d5caef5bSAndrii Nakryiko  * reference types.
2681d5caef5bSAndrii Nakryiko  */
2682d5caef5bSAndrii Nakryiko static int btf_dedup_compact_types(struct btf_dedup *d)
2683d5caef5bSAndrii Nakryiko {
2684d5caef5bSAndrii Nakryiko 	struct btf_type **new_types;
2685d5caef5bSAndrii Nakryiko 	__u32 next_type_id = 1;
2686d5caef5bSAndrii Nakryiko 	char *types_start, *p;
2687d5caef5bSAndrii Nakryiko 	int i, len;
2688d5caef5bSAndrii Nakryiko 
2689d5caef5bSAndrii Nakryiko 	/* we are going to reuse hypot_map to store compaction remapping */
2690d5caef5bSAndrii Nakryiko 	d->hypot_map[0] = 0;
2691d5caef5bSAndrii Nakryiko 	for (i = 1; i <= d->btf->nr_types; i++)
2692d5caef5bSAndrii Nakryiko 		d->hypot_map[i] = BTF_UNPROCESSED_ID;
2693d5caef5bSAndrii Nakryiko 
2694d5caef5bSAndrii Nakryiko 	types_start = d->btf->nohdr_data + d->btf->hdr->type_off;
2695d5caef5bSAndrii Nakryiko 	p = types_start;
2696d5caef5bSAndrii Nakryiko 
2697d5caef5bSAndrii Nakryiko 	for (i = 1; i <= d->btf->nr_types; i++) {
2698d5caef5bSAndrii Nakryiko 		if (d->map[i] != i)
2699d5caef5bSAndrii Nakryiko 			continue;
2700d5caef5bSAndrii Nakryiko 
2701d5caef5bSAndrii Nakryiko 		len = btf_type_size(d->btf->types[i]);
2702d5caef5bSAndrii Nakryiko 		if (len < 0)
2703d5caef5bSAndrii Nakryiko 			return len;
2704d5caef5bSAndrii Nakryiko 
2705d5caef5bSAndrii Nakryiko 		memmove(p, d->btf->types[i], len);
2706d5caef5bSAndrii Nakryiko 		d->hypot_map[i] = next_type_id;
2707d5caef5bSAndrii Nakryiko 		d->btf->types[next_type_id] = (struct btf_type *)p;
2708d5caef5bSAndrii Nakryiko 		p += len;
2709d5caef5bSAndrii Nakryiko 		next_type_id++;
2710d5caef5bSAndrii Nakryiko 	}
2711d5caef5bSAndrii Nakryiko 
2712d5caef5bSAndrii Nakryiko 	/* shrink struct btf's internal types index and update btf_header */
2713d5caef5bSAndrii Nakryiko 	d->btf->nr_types = next_type_id - 1;
2714d5caef5bSAndrii Nakryiko 	d->btf->types_size = d->btf->nr_types;
2715d5caef5bSAndrii Nakryiko 	d->btf->hdr->type_len = p - types_start;
2716d5caef5bSAndrii Nakryiko 	new_types = realloc(d->btf->types,
2717d5caef5bSAndrii Nakryiko 			    (1 + d->btf->nr_types) * sizeof(struct btf_type *));
2718d5caef5bSAndrii Nakryiko 	if (!new_types)
2719d5caef5bSAndrii Nakryiko 		return -ENOMEM;
2720d5caef5bSAndrii Nakryiko 	d->btf->types = new_types;
2721d5caef5bSAndrii Nakryiko 
2722d5caef5bSAndrii Nakryiko 	/* make sure string section follows type information without gaps */
2723d5caef5bSAndrii Nakryiko 	d->btf->hdr->str_off = p - (char *)d->btf->nohdr_data;
2724d5caef5bSAndrii Nakryiko 	memmove(p, d->btf->strings, d->btf->hdr->str_len);
2725d5caef5bSAndrii Nakryiko 	d->btf->strings = p;
2726d5caef5bSAndrii Nakryiko 	p += d->btf->hdr->str_len;
2727d5caef5bSAndrii Nakryiko 
2728d5caef5bSAndrii Nakryiko 	d->btf->data_size = p - (char *)d->btf->data;
2729d5caef5bSAndrii Nakryiko 	return 0;
2730d5caef5bSAndrii Nakryiko }
2731d5caef5bSAndrii Nakryiko 
2732d5caef5bSAndrii Nakryiko /*
2733d5caef5bSAndrii Nakryiko  * Figure out final (deduplicated and compacted) type ID for provided original
2734d5caef5bSAndrii Nakryiko  * `type_id` by first resolving it into corresponding canonical type ID and
2735d5caef5bSAndrii Nakryiko  * then mapping it to a deduplicated type ID, stored in btf_dedup->hypot_map,
2736d5caef5bSAndrii Nakryiko  * which is populated during compaction phase.
2737d5caef5bSAndrii Nakryiko  */
2738d5caef5bSAndrii Nakryiko static int btf_dedup_remap_type_id(struct btf_dedup *d, __u32 type_id)
2739d5caef5bSAndrii Nakryiko {
2740d5caef5bSAndrii Nakryiko 	__u32 resolved_type_id, new_type_id;
2741d5caef5bSAndrii Nakryiko 
2742d5caef5bSAndrii Nakryiko 	resolved_type_id = resolve_type_id(d, type_id);
2743d5caef5bSAndrii Nakryiko 	new_type_id = d->hypot_map[resolved_type_id];
27445aab392cSAndrii Nakryiko 	if (new_type_id > BTF_MAX_NR_TYPES)
2745d5caef5bSAndrii Nakryiko 		return -EINVAL;
2746d5caef5bSAndrii Nakryiko 	return new_type_id;
2747d5caef5bSAndrii Nakryiko }
2748d5caef5bSAndrii Nakryiko 
2749d5caef5bSAndrii Nakryiko /*
2750d5caef5bSAndrii Nakryiko  * Remap referenced type IDs into deduped type IDs.
2751d5caef5bSAndrii Nakryiko  *
2752d5caef5bSAndrii Nakryiko  * After BTF types are deduplicated and compacted, their final type IDs may
2753d5caef5bSAndrii Nakryiko  * differ from original ones. The map from original to a corresponding
2754d5caef5bSAndrii Nakryiko  * deduped type ID is stored in btf_dedup->hypot_map and is populated during
2755d5caef5bSAndrii Nakryiko  * compaction phase. During remapping phase we are rewriting all type IDs
2756d5caef5bSAndrii Nakryiko  * referenced from any BTF type (e.g., struct fields, func proto args, etc) to
2757d5caef5bSAndrii Nakryiko  * their final deduped type IDs.
2758d5caef5bSAndrii Nakryiko  */
2759d5caef5bSAndrii Nakryiko static int btf_dedup_remap_type(struct btf_dedup *d, __u32 type_id)
2760d5caef5bSAndrii Nakryiko {
2761d5caef5bSAndrii Nakryiko 	struct btf_type *t = d->btf->types[type_id];
2762d5caef5bSAndrii Nakryiko 	int i, r;
2763d5caef5bSAndrii Nakryiko 
2764b03bc685SAndrii Nakryiko 	switch (btf_kind(t)) {
2765d5caef5bSAndrii Nakryiko 	case BTF_KIND_INT:
2766d5caef5bSAndrii Nakryiko 	case BTF_KIND_ENUM:
2767d5caef5bSAndrii Nakryiko 		break;
2768d5caef5bSAndrii Nakryiko 
2769d5caef5bSAndrii Nakryiko 	case BTF_KIND_FWD:
2770d5caef5bSAndrii Nakryiko 	case BTF_KIND_CONST:
2771d5caef5bSAndrii Nakryiko 	case BTF_KIND_VOLATILE:
2772d5caef5bSAndrii Nakryiko 	case BTF_KIND_RESTRICT:
2773d5caef5bSAndrii Nakryiko 	case BTF_KIND_PTR:
2774d5caef5bSAndrii Nakryiko 	case BTF_KIND_TYPEDEF:
2775d5caef5bSAndrii Nakryiko 	case BTF_KIND_FUNC:
2776189cf5a4SAndrii Nakryiko 	case BTF_KIND_VAR:
2777d5caef5bSAndrii Nakryiko 		r = btf_dedup_remap_type_id(d, t->type);
2778d5caef5bSAndrii Nakryiko 		if (r < 0)
2779d5caef5bSAndrii Nakryiko 			return r;
2780d5caef5bSAndrii Nakryiko 		t->type = r;
2781d5caef5bSAndrii Nakryiko 		break;
2782d5caef5bSAndrii Nakryiko 
2783d5caef5bSAndrii Nakryiko 	case BTF_KIND_ARRAY: {
2784b03bc685SAndrii Nakryiko 		struct btf_array *arr_info = btf_array(t);
2785d5caef5bSAndrii Nakryiko 
2786d5caef5bSAndrii Nakryiko 		r = btf_dedup_remap_type_id(d, arr_info->type);
2787d5caef5bSAndrii Nakryiko 		if (r < 0)
2788d5caef5bSAndrii Nakryiko 			return r;
2789d5caef5bSAndrii Nakryiko 		arr_info->type = r;
2790d5caef5bSAndrii Nakryiko 		r = btf_dedup_remap_type_id(d, arr_info->index_type);
2791d5caef5bSAndrii Nakryiko 		if (r < 0)
2792d5caef5bSAndrii Nakryiko 			return r;
2793d5caef5bSAndrii Nakryiko 		arr_info->index_type = r;
2794d5caef5bSAndrii Nakryiko 		break;
2795d5caef5bSAndrii Nakryiko 	}
2796d5caef5bSAndrii Nakryiko 
2797d5caef5bSAndrii Nakryiko 	case BTF_KIND_STRUCT:
2798d5caef5bSAndrii Nakryiko 	case BTF_KIND_UNION: {
2799b03bc685SAndrii Nakryiko 		struct btf_member *member = btf_members(t);
2800b03bc685SAndrii Nakryiko 		__u16 vlen = btf_vlen(t);
2801d5caef5bSAndrii Nakryiko 
2802d5caef5bSAndrii Nakryiko 		for (i = 0; i < vlen; i++) {
2803d5caef5bSAndrii Nakryiko 			r = btf_dedup_remap_type_id(d, member->type);
2804d5caef5bSAndrii Nakryiko 			if (r < 0)
2805d5caef5bSAndrii Nakryiko 				return r;
2806d5caef5bSAndrii Nakryiko 			member->type = r;
2807d5caef5bSAndrii Nakryiko 			member++;
2808d5caef5bSAndrii Nakryiko 		}
2809d5caef5bSAndrii Nakryiko 		break;
2810d5caef5bSAndrii Nakryiko 	}
2811d5caef5bSAndrii Nakryiko 
2812d5caef5bSAndrii Nakryiko 	case BTF_KIND_FUNC_PROTO: {
2813b03bc685SAndrii Nakryiko 		struct btf_param *param = btf_params(t);
2814b03bc685SAndrii Nakryiko 		__u16 vlen = btf_vlen(t);
2815d5caef5bSAndrii Nakryiko 
2816d5caef5bSAndrii Nakryiko 		r = btf_dedup_remap_type_id(d, t->type);
2817d5caef5bSAndrii Nakryiko 		if (r < 0)
2818d5caef5bSAndrii Nakryiko 			return r;
2819d5caef5bSAndrii Nakryiko 		t->type = r;
2820d5caef5bSAndrii Nakryiko 
2821d5caef5bSAndrii Nakryiko 		for (i = 0; i < vlen; i++) {
2822d5caef5bSAndrii Nakryiko 			r = btf_dedup_remap_type_id(d, param->type);
2823d5caef5bSAndrii Nakryiko 			if (r < 0)
2824d5caef5bSAndrii Nakryiko 				return r;
2825d5caef5bSAndrii Nakryiko 			param->type = r;
2826d5caef5bSAndrii Nakryiko 			param++;
2827d5caef5bSAndrii Nakryiko 		}
2828d5caef5bSAndrii Nakryiko 		break;
2829d5caef5bSAndrii Nakryiko 	}
2830d5caef5bSAndrii Nakryiko 
2831189cf5a4SAndrii Nakryiko 	case BTF_KIND_DATASEC: {
2832b03bc685SAndrii Nakryiko 		struct btf_var_secinfo *var = btf_var_secinfos(t);
2833b03bc685SAndrii Nakryiko 		__u16 vlen = btf_vlen(t);
2834189cf5a4SAndrii Nakryiko 
2835189cf5a4SAndrii Nakryiko 		for (i = 0; i < vlen; i++) {
2836189cf5a4SAndrii Nakryiko 			r = btf_dedup_remap_type_id(d, var->type);
2837189cf5a4SAndrii Nakryiko 			if (r < 0)
2838189cf5a4SAndrii Nakryiko 				return r;
2839189cf5a4SAndrii Nakryiko 			var->type = r;
2840189cf5a4SAndrii Nakryiko 			var++;
2841189cf5a4SAndrii Nakryiko 		}
2842189cf5a4SAndrii Nakryiko 		break;
2843189cf5a4SAndrii Nakryiko 	}
2844189cf5a4SAndrii Nakryiko 
2845d5caef5bSAndrii Nakryiko 	default:
2846d5caef5bSAndrii Nakryiko 		return -EINVAL;
2847d5caef5bSAndrii Nakryiko 	}
2848d5caef5bSAndrii Nakryiko 
2849d5caef5bSAndrii Nakryiko 	return 0;
2850d5caef5bSAndrii Nakryiko }
2851d5caef5bSAndrii Nakryiko 
2852d5caef5bSAndrii Nakryiko static int btf_dedup_remap_types(struct btf_dedup *d)
2853d5caef5bSAndrii Nakryiko {
2854d5caef5bSAndrii Nakryiko 	int i, r;
2855d5caef5bSAndrii Nakryiko 
2856d5caef5bSAndrii Nakryiko 	for (i = 1; i <= d->btf->nr_types; i++) {
2857d5caef5bSAndrii Nakryiko 		r = btf_dedup_remap_type(d, i);
2858d5caef5bSAndrii Nakryiko 		if (r < 0)
2859d5caef5bSAndrii Nakryiko 			return r;
2860d5caef5bSAndrii Nakryiko 	}
2861d5caef5bSAndrii Nakryiko 	return 0;
2862d5caef5bSAndrii Nakryiko }
2863