// SPDX-License-Identifier: GPL-2.0 /* Copyright (c) 2019 Facebook */ #include #include #include #include #include "test_core_extern.skel.h" static uint32_t get_kernel_version(void) { uint32_t major, minor, patch; struct utsname info; uname(&info); if (sscanf(info.release, "%u.%u.%u", &major, &minor, &patch) != 3) return 0; return KERNEL_VERSION(major, minor, patch); } #define CFG "CONFIG_BPF_SYSCALL=n\n" static struct test_case { const char *name; const char *cfg; bool fails; struct test_core_extern__data data; } test_cases[] = { { .name = "default search path", .data = { .bpf_syscall = true } }, { .name = "custom values", .cfg = "CONFIG_BPF_SYSCALL=n\n" "CONFIG_TRISTATE=m\n" "CONFIG_BOOL=y\n" "CONFIG_CHAR=100\n" "CONFIG_USHORT=30000\n" "CONFIG_INT=123456\n" "CONFIG_ULONG=0xDEADBEEFC0DE\n" "CONFIG_STR=\"abracad\"\n" "CONFIG_MISSING=0", .data = { .unkn_virt_val = 0, .bpf_syscall = false, .tristate_val = TRI_MODULE, .bool_val = true, .char_val = 100, .ushort_val = 30000, .int_val = 123456, .ulong_val = 0xDEADBEEFC0DE, .str_val = "abracad", }, }, /* TRISTATE */ { .name = "tristate (y)", .cfg = CFG"CONFIG_TRISTATE=y\n", .data = { .tristate_val = TRI_YES } }, { .name = "tristate (n)", .cfg = CFG"CONFIG_TRISTATE=n\n", .data = { .tristate_val = TRI_NO } }, { .name = "tristate (m)", .cfg = CFG"CONFIG_TRISTATE=m\n", .data = { .tristate_val = TRI_MODULE } }, { .name = "tristate (int)", .fails = 1, .cfg = CFG"CONFIG_TRISTATE=1" }, { .name = "tristate (bad)", .fails = 1, .cfg = CFG"CONFIG_TRISTATE=M" }, /* BOOL */ { .name = "bool (y)", .cfg = CFG"CONFIG_BOOL=y\n", .data = { .bool_val = true } }, { .name = "bool (n)", .cfg = CFG"CONFIG_BOOL=n\n", .data = { .bool_val = false } }, { .name = "bool (tristate)", .fails = 1, .cfg = CFG"CONFIG_BOOL=m" }, { .name = "bool (int)", .fails = 1, .cfg = CFG"CONFIG_BOOL=1" }, /* CHAR */ { .name = "char (tristate)", .cfg = CFG"CONFIG_CHAR=m\n", .data = { .char_val = 'm' } }, { .name = "char (bad)", .fails = 1, .cfg = CFG"CONFIG_CHAR=q\n" }, { .name = "char (empty)", .fails = 1, .cfg = CFG"CONFIG_CHAR=\n" }, { .name = "char (str)", .fails = 1, .cfg = CFG"CONFIG_CHAR=\"y\"\n" }, /* STRING */ { .name = "str (empty)", .cfg = CFG"CONFIG_STR=\"\"\n", .data = { .str_val = "\0\0\0\0\0\0\0" } }, { .name = "str (padded)", .cfg = CFG"CONFIG_STR=\"abra\"\n", .data = { .str_val = "abra\0\0\0" } }, { .name = "str (too long)", .cfg = CFG"CONFIG_STR=\"abracada\"\n", .data = { .str_val = "abracad" } }, { .name = "str (no value)", .fails = 1, .cfg = CFG"CONFIG_STR=\n" }, { .name = "str (bad value)", .fails = 1, .cfg = CFG"CONFIG_STR=bla\n" }, /* INTEGERS */ { .name = "integer forms", .cfg = CFG "CONFIG_CHAR=0xA\n" "CONFIG_USHORT=0462\n" "CONFIG_INT=-100\n" "CONFIG_ULONG=+1000000000000", .data = { .char_val = 0xA, .ushort_val = 0462, .int_val = -100, .ulong_val = 1000000000000, }, }, { .name = "int (bad)", .fails = 1, .cfg = CFG"CONFIG_INT=abc" }, { .name = "int (str)", .fails = 1, .cfg = CFG"CONFIG_INT=\"abc\"" }, { .name = "int (empty)", .fails = 1, .cfg = CFG"CONFIG_INT=" }, { .name = "int (mixed)", .fails = 1, .cfg = CFG"CONFIG_INT=123abc" }, { .name = "int (max)", .cfg = CFG"CONFIG_INT=2147483647", .data = { .int_val = 2147483647 } }, { .name = "int (min)", .cfg = CFG"CONFIG_INT=-2147483648", .data = { .int_val = -2147483648 } }, { .name = "int (max+1)", .fails = 1, .cfg = CFG"CONFIG_INT=2147483648" }, { .name = "int (min-1)", .fails = 1, .cfg = CFG"CONFIG_INT=-2147483649" }, { .name = "ushort (max)", .cfg = CFG"CONFIG_USHORT=65535", .data = { .ushort_val = 65535 } }, { .name = "ushort (min)", .cfg = CFG"CONFIG_USHORT=0", .data = { .ushort_val = 0 } }, { .name = "ushort (max+1)", .fails = 1, .cfg = CFG"CONFIG_USHORT=65536" }, { .name = "ushort (min-1)", .fails = 1, .cfg = CFG"CONFIG_USHORT=-1" }, { .name = "u64 (max)", .cfg = CFG"CONFIG_ULONG=0xffffffffffffffff", .data = { .ulong_val = 0xffffffffffffffff } }, { .name = "u64 (min)", .cfg = CFG"CONFIG_ULONG=0", .data = { .ulong_val = 0 } }, { .name = "u64 (max+1)", .fails = 1, .cfg = CFG"CONFIG_ULONG=0x10000000000000000" }, }; void test_core_extern(void) { const uint32_t kern_ver = get_kernel_version(); int err, i, j; struct test_core_extern *skel = NULL; uint64_t *got, *exp; int n = sizeof(*skel->data) / sizeof(uint64_t); for (i = 0; i < ARRAY_SIZE(test_cases); i++) { struct test_case *t = &test_cases[i]; DECLARE_LIBBPF_OPTS(bpf_object_open_opts, opts, .kconfig = t->cfg, ); if (!test__start_subtest(t->name)) continue; skel = test_core_extern__open_opts(&opts); if (!ASSERT_OK_PTR(skel, "skel_open")) goto cleanup; err = test_core_extern__load(skel); if (t->fails) { ASSERT_ERR(err, "skel_load_should_fail"); goto cleanup; } else if (!ASSERT_OK(err, "skel_load")) { goto cleanup; } err = test_core_extern__attach(skel); if (!ASSERT_OK(err, "attach_raw_tp")) goto cleanup; usleep(1); t->data.kern_ver = kern_ver; t->data.missing_val = 0xDEADC0DE; got = (uint64_t *)skel->data; exp = (uint64_t *)&t->data; for (j = 0; j < n; j++) { ASSERT_EQ(got[j], exp[j], "result"); } cleanup: test_core_extern__destroy(skel); skel = NULL; } }