313 lines
9.9 KiB
C
313 lines
9.9 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/* Copyright (c) 2022, Oracle and/or its affiliates. */
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#include <test_progs.h>
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#include <bpf/btf.h>
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#include "test_unpriv_bpf_disabled.skel.h"
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#include "cap_helpers.h"
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/* Using CAP_LAST_CAP is risky here, since it can get pulled in from
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* an old /usr/include/linux/capability.h and be < CAP_BPF; as a result
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* CAP_BPF would not be included in ALL_CAPS. Instead use CAP_BPF as
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* we know its value is correct since it is explicitly defined in
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* cap_helpers.h.
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*/
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#define ALL_CAPS ((2ULL << CAP_BPF) - 1)
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#define PINPATH "/sys/fs/bpf/unpriv_bpf_disabled_"
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#define NUM_MAPS 7
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static __u32 got_perfbuf_val;
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static __u32 got_ringbuf_val;
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static int process_ringbuf(void *ctx, void *data, size_t len)
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{
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if (ASSERT_EQ(len, sizeof(__u32), "ringbuf_size_valid"))
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got_ringbuf_val = *(__u32 *)data;
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return 0;
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}
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static void process_perfbuf(void *ctx, int cpu, void *data, __u32 len)
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{
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if (ASSERT_EQ(len, sizeof(__u32), "perfbuf_size_valid"))
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got_perfbuf_val = *(__u32 *)data;
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}
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static int sysctl_set(const char *sysctl_path, char *old_val, const char *new_val)
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{
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int ret = 0;
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FILE *fp;
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fp = fopen(sysctl_path, "r+");
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if (!fp)
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return -errno;
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if (old_val && fscanf(fp, "%s", old_val) <= 0) {
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ret = -ENOENT;
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} else if (!old_val || strcmp(old_val, new_val) != 0) {
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fseek(fp, 0, SEEK_SET);
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if (fprintf(fp, "%s", new_val) < 0)
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ret = -errno;
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}
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fclose(fp);
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return ret;
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}
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static void test_unpriv_bpf_disabled_positive(struct test_unpriv_bpf_disabled *skel,
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__u32 prog_id, int prog_fd, int perf_fd,
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char **map_paths, int *map_fds)
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{
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struct perf_buffer *perfbuf = NULL;
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struct ring_buffer *ringbuf = NULL;
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int i, nr_cpus, link_fd = -1;
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nr_cpus = bpf_num_possible_cpus();
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skel->bss->perfbuf_val = 1;
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skel->bss->ringbuf_val = 2;
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/* Positive tests for unprivileged BPF disabled. Verify we can
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* - retrieve and interact with pinned maps;
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* - set up and interact with perf buffer;
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* - set up and interact with ring buffer;
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* - create a link
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*/
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perfbuf = perf_buffer__new(bpf_map__fd(skel->maps.perfbuf), 8, process_perfbuf, NULL, NULL,
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NULL);
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if (!ASSERT_OK_PTR(perfbuf, "perf_buffer__new"))
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goto cleanup;
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ringbuf = ring_buffer__new(bpf_map__fd(skel->maps.ringbuf), process_ringbuf, NULL, NULL);
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if (!ASSERT_OK_PTR(ringbuf, "ring_buffer__new"))
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goto cleanup;
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/* trigger & validate perf event, ringbuf output */
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usleep(1);
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ASSERT_GT(perf_buffer__poll(perfbuf, 100), -1, "perf_buffer__poll");
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ASSERT_EQ(got_perfbuf_val, skel->bss->perfbuf_val, "check_perfbuf_val");
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ASSERT_EQ(ring_buffer__consume(ringbuf), 1, "ring_buffer__consume");
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ASSERT_EQ(got_ringbuf_val, skel->bss->ringbuf_val, "check_ringbuf_val");
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for (i = 0; i < NUM_MAPS; i++) {
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map_fds[i] = bpf_obj_get(map_paths[i]);
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if (!ASSERT_GT(map_fds[i], -1, "obj_get"))
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goto cleanup;
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}
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for (i = 0; i < NUM_MAPS; i++) {
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bool prog_array = strstr(map_paths[i], "prog_array") != NULL;
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bool array = strstr(map_paths[i], "array") != NULL;
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bool buf = strstr(map_paths[i], "buf") != NULL;
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__u32 key = 0, vals[nr_cpus], lookup_vals[nr_cpus];
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__u32 expected_val = 1;
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int j;
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/* skip ringbuf, perfbuf */
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if (buf)
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continue;
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for (j = 0; j < nr_cpus; j++)
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vals[j] = expected_val;
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if (prog_array) {
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/* need valid prog array value */
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vals[0] = prog_fd;
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/* prog array lookup returns prog id, not fd */
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expected_val = prog_id;
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}
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ASSERT_OK(bpf_map_update_elem(map_fds[i], &key, vals, 0), "map_update_elem");
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ASSERT_OK(bpf_map_lookup_elem(map_fds[i], &key, &lookup_vals), "map_lookup_elem");
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ASSERT_EQ(lookup_vals[0], expected_val, "map_lookup_elem_values");
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if (!array)
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ASSERT_OK(bpf_map_delete_elem(map_fds[i], &key), "map_delete_elem");
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}
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link_fd = bpf_link_create(bpf_program__fd(skel->progs.handle_perf_event), perf_fd,
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BPF_PERF_EVENT, NULL);
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ASSERT_GT(link_fd, 0, "link_create");
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cleanup:
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if (link_fd)
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close(link_fd);
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if (perfbuf)
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perf_buffer__free(perfbuf);
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if (ringbuf)
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ring_buffer__free(ringbuf);
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}
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static void test_unpriv_bpf_disabled_negative(struct test_unpriv_bpf_disabled *skel,
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__u32 prog_id, int prog_fd, int perf_fd,
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char **map_paths, int *map_fds)
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{
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const struct bpf_insn prog_insns[] = {
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BPF_MOV64_IMM(BPF_REG_0, 0),
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BPF_EXIT_INSN(),
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};
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const size_t prog_insn_cnt = sizeof(prog_insns) / sizeof(struct bpf_insn);
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LIBBPF_OPTS(bpf_prog_load_opts, load_opts);
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struct bpf_map_info map_info = {};
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__u32 map_info_len = sizeof(map_info);
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struct bpf_link_info link_info = {};
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__u32 link_info_len = sizeof(link_info);
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struct btf *btf = NULL;
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__u32 attach_flags = 0;
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__u32 prog_ids[3] = {};
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__u32 prog_cnt = 3;
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__u32 next;
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int i;
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/* Negative tests for unprivileged BPF disabled. Verify we cannot
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* - load BPF programs;
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* - create BPF maps;
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* - get a prog/map/link fd by id;
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* - get next prog/map/link id
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* - query prog
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* - BTF load
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*/
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ASSERT_EQ(bpf_prog_load(BPF_PROG_TYPE_SOCKET_FILTER, "simple_prog", "GPL",
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prog_insns, prog_insn_cnt, &load_opts),
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-EPERM, "prog_load_fails");
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for (i = BPF_MAP_TYPE_HASH; i <= BPF_MAP_TYPE_BLOOM_FILTER; i++)
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ASSERT_EQ(bpf_map_create(i, NULL, sizeof(int), sizeof(int), 1, NULL),
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-EPERM, "map_create_fails");
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ASSERT_EQ(bpf_prog_get_fd_by_id(prog_id), -EPERM, "prog_get_fd_by_id_fails");
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ASSERT_EQ(bpf_prog_get_next_id(prog_id, &next), -EPERM, "prog_get_next_id_fails");
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ASSERT_EQ(bpf_prog_get_next_id(0, &next), -EPERM, "prog_get_next_id_fails");
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if (ASSERT_OK(bpf_map_get_info_by_fd(map_fds[0], &map_info, &map_info_len),
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"obj_get_info_by_fd")) {
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ASSERT_EQ(bpf_map_get_fd_by_id(map_info.id), -EPERM, "map_get_fd_by_id_fails");
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ASSERT_EQ(bpf_map_get_next_id(map_info.id, &next), -EPERM,
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"map_get_next_id_fails");
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}
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ASSERT_EQ(bpf_map_get_next_id(0, &next), -EPERM, "map_get_next_id_fails");
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if (ASSERT_OK(bpf_link_get_info_by_fd(bpf_link__fd(skel->links.sys_nanosleep_enter),
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&link_info, &link_info_len),
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"obj_get_info_by_fd")) {
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ASSERT_EQ(bpf_link_get_fd_by_id(link_info.id), -EPERM, "link_get_fd_by_id_fails");
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ASSERT_EQ(bpf_link_get_next_id(link_info.id, &next), -EPERM,
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"link_get_next_id_fails");
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}
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ASSERT_EQ(bpf_link_get_next_id(0, &next), -EPERM, "link_get_next_id_fails");
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ASSERT_EQ(bpf_prog_query(prog_fd, BPF_TRACE_FENTRY, 0, &attach_flags, prog_ids,
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&prog_cnt), -EPERM, "prog_query_fails");
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btf = btf__new_empty();
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if (ASSERT_OK_PTR(btf, "empty_btf") &&
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ASSERT_GT(btf__add_int(btf, "int", 4, 0), 0, "unpriv_int_type")) {
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const void *raw_btf_data;
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__u32 raw_btf_size;
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raw_btf_data = btf__raw_data(btf, &raw_btf_size);
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if (ASSERT_OK_PTR(raw_btf_data, "raw_btf_data_good"))
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ASSERT_EQ(bpf_btf_load(raw_btf_data, raw_btf_size, NULL), -EPERM,
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"bpf_btf_load_fails");
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}
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btf__free(btf);
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}
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void test_unpriv_bpf_disabled(void)
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{
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char *map_paths[NUM_MAPS] = { PINPATH "array",
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PINPATH "percpu_array",
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PINPATH "hash",
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PINPATH "percpu_hash",
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PINPATH "perfbuf",
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PINPATH "ringbuf",
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PINPATH "prog_array" };
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int map_fds[NUM_MAPS];
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struct test_unpriv_bpf_disabled *skel;
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char unprivileged_bpf_disabled_orig[32] = {};
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char perf_event_paranoid_orig[32] = {};
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struct bpf_prog_info prog_info = {};
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__u32 prog_info_len = sizeof(prog_info);
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struct perf_event_attr attr = {};
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int prog_fd, perf_fd = -1, i, ret;
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__u64 save_caps = 0;
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__u32 prog_id;
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skel = test_unpriv_bpf_disabled__open_and_load();
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if (!ASSERT_OK_PTR(skel, "skel_open"))
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return;
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skel->bss->test_pid = getpid();
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map_fds[0] = bpf_map__fd(skel->maps.array);
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map_fds[1] = bpf_map__fd(skel->maps.percpu_array);
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map_fds[2] = bpf_map__fd(skel->maps.hash);
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map_fds[3] = bpf_map__fd(skel->maps.percpu_hash);
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map_fds[4] = bpf_map__fd(skel->maps.perfbuf);
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map_fds[5] = bpf_map__fd(skel->maps.ringbuf);
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map_fds[6] = bpf_map__fd(skel->maps.prog_array);
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for (i = 0; i < NUM_MAPS; i++)
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ASSERT_OK(bpf_obj_pin(map_fds[i], map_paths[i]), "pin map_fd");
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/* allow user without caps to use perf events */
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if (!ASSERT_OK(sysctl_set("/proc/sys/kernel/perf_event_paranoid", perf_event_paranoid_orig,
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"-1"),
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"set_perf_event_paranoid"))
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goto cleanup;
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/* ensure unprivileged bpf disabled is set */
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ret = sysctl_set("/proc/sys/kernel/unprivileged_bpf_disabled",
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unprivileged_bpf_disabled_orig, "2");
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if (ret == -EPERM) {
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/* if unprivileged_bpf_disabled=1, we get -EPERM back; that's okay. */
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if (!ASSERT_OK(strcmp(unprivileged_bpf_disabled_orig, "1"),
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"unprivileged_bpf_disabled_on"))
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goto cleanup;
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} else {
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if (!ASSERT_OK(ret, "set unprivileged_bpf_disabled"))
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goto cleanup;
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}
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prog_fd = bpf_program__fd(skel->progs.sys_nanosleep_enter);
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ASSERT_OK(bpf_prog_get_info_by_fd(prog_fd, &prog_info, &prog_info_len),
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"obj_get_info_by_fd");
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prog_id = prog_info.id;
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ASSERT_GT(prog_id, 0, "valid_prog_id");
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attr.size = sizeof(attr);
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attr.type = PERF_TYPE_SOFTWARE;
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attr.config = PERF_COUNT_SW_CPU_CLOCK;
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attr.freq = 1;
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attr.sample_freq = 1000;
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perf_fd = syscall(__NR_perf_event_open, &attr, -1, 0, -1, PERF_FLAG_FD_CLOEXEC);
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if (!ASSERT_GE(perf_fd, 0, "perf_fd"))
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goto cleanup;
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if (!ASSERT_OK(test_unpriv_bpf_disabled__attach(skel), "skel_attach"))
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goto cleanup;
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if (!ASSERT_OK(cap_disable_effective(ALL_CAPS, &save_caps), "disable caps"))
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goto cleanup;
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if (test__start_subtest("unpriv_bpf_disabled_positive"))
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test_unpriv_bpf_disabled_positive(skel, prog_id, prog_fd, perf_fd, map_paths,
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map_fds);
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if (test__start_subtest("unpriv_bpf_disabled_negative"))
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test_unpriv_bpf_disabled_negative(skel, prog_id, prog_fd, perf_fd, map_paths,
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map_fds);
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cleanup:
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close(perf_fd);
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if (save_caps)
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cap_enable_effective(save_caps, NULL);
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if (strlen(perf_event_paranoid_orig) > 0)
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sysctl_set("/proc/sys/kernel/perf_event_paranoid", NULL, perf_event_paranoid_orig);
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if (strlen(unprivileged_bpf_disabled_orig) > 0)
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sysctl_set("/proc/sys/kernel/unprivileged_bpf_disabled", NULL,
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unprivileged_bpf_disabled_orig);
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for (i = 0; i < NUM_MAPS; i++)
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unlink(map_paths[i]);
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test_unpriv_bpf_disabled__destroy(skel);
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}
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