Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Benjamin Tissoires | 782 | 55.70% | 3 | 17.65% |
Martin KaFai Lau | 346 | 24.64% | 2 | 11.76% |
Artem Savkov | 108 | 7.69% | 1 | 5.88% |
Delyan Kratunov | 92 | 6.55% | 1 | 5.88% |
Alexei Starovoitov | 47 | 3.35% | 3 | 17.65% |
Kumar Kartikeya Dwivedi | 10 | 0.71% | 2 | 11.76% |
Ilya Leoshkevich | 8 | 0.57% | 1 | 5.88% |
David Vernet | 7 | 0.50% | 1 | 5.88% |
Matt Mullins | 2 | 0.14% | 1 | 5.88% |
Yipeng Zou | 1 | 0.07% | 1 | 5.88% |
Colin Ian King | 1 | 0.07% | 1 | 5.88% |
Total | 1404 | 17 |
// SPDX-License-Identifier: GPL-2.0 /* Copyright (c) 2021 Facebook */ #include <test_progs.h> #include <network_helpers.h> #include "kfunc_call_fail.skel.h" #include "kfunc_call_test.skel.h" #include "kfunc_call_test.lskel.h" #include "kfunc_call_test_subprog.skel.h" #include "kfunc_call_test_subprog.lskel.h" #include "kfunc_call_destructive.skel.h" #include "cap_helpers.h" static size_t log_buf_sz = 1048576; /* 1 MB */ static char obj_log_buf[1048576]; enum kfunc_test_type { tc_test = 0, syscall_test, syscall_null_ctx_test, }; struct kfunc_test_params { const char *prog_name; unsigned long lskel_prog_desc_offset; int retval; enum kfunc_test_type test_type; const char *expected_err_msg; }; #define __BPF_TEST_SUCCESS(name, __retval, type) \ { \ .prog_name = #name, \ .lskel_prog_desc_offset = offsetof(struct kfunc_call_test_lskel, progs.name), \ .retval = __retval, \ .test_type = type, \ .expected_err_msg = NULL, \ } #define __BPF_TEST_FAIL(name, __retval, type, error_msg) \ { \ .prog_name = #name, \ .lskel_prog_desc_offset = 0 /* unused when test is failing */, \ .retval = __retval, \ .test_type = type, \ .expected_err_msg = error_msg, \ } #define TC_TEST(name, retval) __BPF_TEST_SUCCESS(name, retval, tc_test) #define SYSCALL_TEST(name, retval) __BPF_TEST_SUCCESS(name, retval, syscall_test) #define SYSCALL_NULL_CTX_TEST(name, retval) __BPF_TEST_SUCCESS(name, retval, syscall_null_ctx_test) #define TC_FAIL(name, retval, error_msg) __BPF_TEST_FAIL(name, retval, tc_test, error_msg) #define SYSCALL_NULL_CTX_FAIL(name, retval, error_msg) \ __BPF_TEST_FAIL(name, retval, syscall_null_ctx_test, error_msg) static struct kfunc_test_params kfunc_tests[] = { /* failure cases: * if retval is 0 -> the program will fail to load and the error message is an error * if retval is not 0 -> the program can be loaded but running it will gives the * provided return value. The error message is thus the one * from a successful load */ SYSCALL_NULL_CTX_FAIL(kfunc_syscall_test_fail, -EINVAL, "processed 4 insns"), SYSCALL_NULL_CTX_FAIL(kfunc_syscall_test_null_fail, -EINVAL, "processed 4 insns"), TC_FAIL(kfunc_call_test_get_mem_fail_rdonly, 0, "R0 cannot write into rdonly_mem"), TC_FAIL(kfunc_call_test_get_mem_fail_use_after_free, 0, "invalid mem access 'scalar'"), TC_FAIL(kfunc_call_test_get_mem_fail_oob, 0, "min value is outside of the allowed memory range"), TC_FAIL(kfunc_call_test_get_mem_fail_not_const, 0, "is not a const"), TC_FAIL(kfunc_call_test_mem_acquire_fail, 0, "acquire kernel function does not return PTR_TO_BTF_ID"), /* success cases */ TC_TEST(kfunc_call_test1, 12), TC_TEST(kfunc_call_test2, 3), TC_TEST(kfunc_call_test4, -1234), TC_TEST(kfunc_call_test_ref_btf_id, 0), TC_TEST(kfunc_call_test_get_mem, 42), SYSCALL_TEST(kfunc_syscall_test, 0), SYSCALL_NULL_CTX_TEST(kfunc_syscall_test_null, 0), TC_TEST(kfunc_call_test_static_unused_arg, 0), }; struct syscall_test_args { __u8 data[16]; size_t size; }; static void verify_success(struct kfunc_test_params *param) { struct kfunc_call_test_lskel *lskel = NULL; LIBBPF_OPTS(bpf_test_run_opts, topts); struct bpf_prog_desc *lskel_prog; struct kfunc_call_test *skel; struct bpf_program *prog; int prog_fd, err; struct syscall_test_args args = { .size = 10, }; switch (param->test_type) { case syscall_test: topts.ctx_in = &args; topts.ctx_size_in = sizeof(args); /* fallthrough */ case syscall_null_ctx_test: break; case tc_test: topts.data_in = &pkt_v4; topts.data_size_in = sizeof(pkt_v4); topts.repeat = 1; break; } /* first test with normal libbpf */ skel = kfunc_call_test__open_and_load(); if (!ASSERT_OK_PTR(skel, "skel")) return; prog = bpf_object__find_program_by_name(skel->obj, param->prog_name); if (!ASSERT_OK_PTR(prog, "bpf_object__find_program_by_name")) goto cleanup; prog_fd = bpf_program__fd(prog); err = bpf_prog_test_run_opts(prog_fd, &topts); if (!ASSERT_OK(err, param->prog_name)) goto cleanup; if (!ASSERT_EQ(topts.retval, param->retval, "retval")) goto cleanup; /* second test with light skeletons */ lskel = kfunc_call_test_lskel__open_and_load(); if (!ASSERT_OK_PTR(lskel, "lskel")) goto cleanup; lskel_prog = (struct bpf_prog_desc *)((char *)lskel + param->lskel_prog_desc_offset); prog_fd = lskel_prog->prog_fd; err = bpf_prog_test_run_opts(prog_fd, &topts); if (!ASSERT_OK(err, param->prog_name)) goto cleanup; ASSERT_EQ(topts.retval, param->retval, "retval"); cleanup: kfunc_call_test__destroy(skel); if (lskel) kfunc_call_test_lskel__destroy(lskel); } static void verify_fail(struct kfunc_test_params *param) { LIBBPF_OPTS(bpf_object_open_opts, opts); LIBBPF_OPTS(bpf_test_run_opts, topts); struct bpf_program *prog; struct kfunc_call_fail *skel; int prog_fd, err; struct syscall_test_args args = { .size = 10, }; opts.kernel_log_buf = obj_log_buf; opts.kernel_log_size = log_buf_sz; opts.kernel_log_level = 1; switch (param->test_type) { case syscall_test: topts.ctx_in = &args; topts.ctx_size_in = sizeof(args); /* fallthrough */ case syscall_null_ctx_test: break; case tc_test: topts.data_in = &pkt_v4; topts.data_size_in = sizeof(pkt_v4); topts.repeat = 1; break; } skel = kfunc_call_fail__open_opts(&opts); if (!ASSERT_OK_PTR(skel, "kfunc_call_fail__open_opts")) goto cleanup; prog = bpf_object__find_program_by_name(skel->obj, param->prog_name); if (!ASSERT_OK_PTR(prog, "bpf_object__find_program_by_name")) goto cleanup; bpf_program__set_autoload(prog, true); err = kfunc_call_fail__load(skel); if (!param->retval) { /* the verifier is supposed to complain and refuses to load */ if (!ASSERT_ERR(err, "unexpected load success")) goto out_err; } else { /* the program is loaded but must dynamically fail */ if (!ASSERT_OK(err, "unexpected load error")) goto out_err; prog_fd = bpf_program__fd(prog); err = bpf_prog_test_run_opts(prog_fd, &topts); if (!ASSERT_EQ(err, param->retval, param->prog_name)) goto out_err; } out_err: if (!ASSERT_OK_PTR(strstr(obj_log_buf, param->expected_err_msg), "expected_err_msg")) { fprintf(stderr, "Expected err_msg: %s\n", param->expected_err_msg); fprintf(stderr, "Verifier output: %s\n", obj_log_buf); } cleanup: kfunc_call_fail__destroy(skel); } static void test_main(void) { int i; for (i = 0; i < ARRAY_SIZE(kfunc_tests); i++) { if (!test__start_subtest(kfunc_tests[i].prog_name)) continue; if (!kfunc_tests[i].expected_err_msg) verify_success(&kfunc_tests[i]); else verify_fail(&kfunc_tests[i]); } } static void test_subprog(void) { struct kfunc_call_test_subprog *skel; int prog_fd, err; LIBBPF_OPTS(bpf_test_run_opts, topts, .data_in = &pkt_v4, .data_size_in = sizeof(pkt_v4), .repeat = 1, ); skel = kfunc_call_test_subprog__open_and_load(); if (!ASSERT_OK_PTR(skel, "skel")) return; prog_fd = bpf_program__fd(skel->progs.kfunc_call_test1); err = bpf_prog_test_run_opts(prog_fd, &topts); ASSERT_OK(err, "bpf_prog_test_run(test1)"); ASSERT_EQ(topts.retval, 10, "test1-retval"); ASSERT_NEQ(skel->data->active_res, -1, "active_res"); ASSERT_EQ(skel->data->sk_state_res, BPF_TCP_CLOSE, "sk_state_res"); kfunc_call_test_subprog__destroy(skel); } static void test_subprog_lskel(void) { struct kfunc_call_test_subprog_lskel *skel; int prog_fd, err; LIBBPF_OPTS(bpf_test_run_opts, topts, .data_in = &pkt_v4, .data_size_in = sizeof(pkt_v4), .repeat = 1, ); skel = kfunc_call_test_subprog_lskel__open_and_load(); if (!ASSERT_OK_PTR(skel, "skel")) return; prog_fd = skel->progs.kfunc_call_test1.prog_fd; err = bpf_prog_test_run_opts(prog_fd, &topts); ASSERT_OK(err, "bpf_prog_test_run(test1)"); ASSERT_EQ(topts.retval, 10, "test1-retval"); ASSERT_NEQ(skel->data->active_res, -1, "active_res"); ASSERT_EQ(skel->data->sk_state_res, BPF_TCP_CLOSE, "sk_state_res"); kfunc_call_test_subprog_lskel__destroy(skel); } static int test_destructive_open_and_load(void) { struct kfunc_call_destructive *skel; int err; skel = kfunc_call_destructive__open(); if (!ASSERT_OK_PTR(skel, "prog_open")) return -1; err = kfunc_call_destructive__load(skel); kfunc_call_destructive__destroy(skel); return err; } static void test_destructive(void) { __u64 save_caps = 0; ASSERT_OK(test_destructive_open_and_load(), "successful_load"); if (!ASSERT_OK(cap_disable_effective(1ULL << CAP_SYS_BOOT, &save_caps), "drop_caps")) return; ASSERT_EQ(test_destructive_open_and_load(), -13, "no_caps_failure"); cap_enable_effective(save_caps, NULL); } void test_kfunc_call(void) { test_main(); if (test__start_subtest("subprog")) test_subprog(); if (test__start_subtest("subprog_lskel")) test_subprog_lskel(); if (test__start_subtest("destructive")) test_destructive(); }
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