#include #include #include #include #include #include #include #include #include #include #include #include #include static const char * const CHECK_FC_ASSERT_ATTRS[] = { "fs_type", "dev_type", "file_type", NULL }; static const char * const CHECK_PC_ASSERT_ATTRS[] = { "property_type", NULL }; static const char * const CHECK_SC_ASSERT_ATTRS[] = { "service_manager_type", NULL }; static const char * const CHECK_HW_SC_ASSERT_ATTRS[] = { "hwservice_manager_type", NULL }; static const char * const CHECK_VND_SC_ASSERT_ATTRS[] = { "vndservice_manager_type", NULL }; typedef enum filemode filemode; enum filemode { filemode_file_contexts = 0, filemode_property_contexts, filemode_service_contexts, filemode_hw_service_contexts, filemode_vendor_service_contexts }; static struct { /* policy */ struct { union { /* Union these so we don't have to cast */ sepol_policydb_t *sdb; policydb_t *pdb; }; sepol_policy_file_t *pf; sepol_handle_t *handle; FILE *file; #define SEHANDLE_CNT 2 struct selabel_handle *sehnd[SEHANDLE_CNT]; } sepolicy; /* assertions */ struct { const char * const *attrs; /* for the original set to print on error */ ebitmap_t set; /* the ebitmap representation of the attrs */ } assert; } global_state; static const char * const *filemode_to_assert_attrs(filemode mode) { switch (mode) { case filemode_file_contexts: return CHECK_FC_ASSERT_ATTRS; case filemode_property_contexts: return CHECK_PC_ASSERT_ATTRS; case filemode_service_contexts: return CHECK_SC_ASSERT_ATTRS; case filemode_hw_service_contexts: return CHECK_HW_SC_ASSERT_ATTRS; case filemode_vendor_service_contexts: return CHECK_VND_SC_ASSERT_ATTRS; } /* die on invalid parameters */ fprintf(stderr, "Error: Invalid mode of operation: %d\n", mode); exit(1); } static int get_attr_bit(policydb_t *policydb, const char *attr_name) { struct type_datum *attr = hashtab_search(policydb->p_types.table, (char *)attr_name); if (!attr) { fprintf(stderr, "Error: \"%s\" is not defined in this policy.\n", attr_name); return -1; } if (attr->flavor != TYPE_ATTRIB) { fprintf(stderr, "Error: \"%s\" is not an attribute in this policy.\n", attr_name); return -1; } return attr->s.value - 1; } static bool ebitmap_attribute_assertion_init(ebitmap_t *assertions, const char * const attributes[]) { while (*attributes) { int bit_pos = get_attr_bit(global_state.sepolicy.pdb, *attributes); if (bit_pos < 0) { /* get_attr_bit() logs error */ return false; } int err = ebitmap_set_bit(assertions, bit_pos, 1); if (err) { fprintf(stderr, "Error: setting bit on assertion ebitmap!\n"); return false; } attributes++; } return true; } static bool is_type_of_attribute_set(policydb_t *policydb, const char *type_name, ebitmap_t *attr_set) { struct type_datum *type = hashtab_search(policydb->p_types.table, (char *)type_name); if (!type) { fprintf(stderr, "Error: \"%s\" is not defined in this policy.\n", type_name); return false; } if (type->flavor != TYPE_TYPE) { fprintf(stderr, "Error: \"%s\" is not a type in this policy.\n", type_name); return false; } ebitmap_t dst; ebitmap_init(&dst); /* Take the intersection, if the set is empty, then its a failure */ int rc = ebitmap_and(&dst, attr_set, &policydb->type_attr_map[type->s.value - 1]); if (rc) { fprintf(stderr, "Error: Could not perform ebitmap_and: %d\n", rc); exit(1); } bool res = (bool)ebitmap_length(&dst); ebitmap_destroy(&dst); return res; } static void dump_char_array(FILE *stream, const char * const *strings) { const char * const *p = strings; fprintf(stream, "\""); while (*p) { const char *s = *p++; const char *fmt = *p ? "%s, " : "%s\""; fprintf(stream, fmt, s); } } static int validate(char **contextp) { bool res; char *context = *contextp; sepol_context_t *ctx; int rc = sepol_context_from_string(global_state.sepolicy.handle, context, &ctx); if (rc < 0) { fprintf(stderr, "Error: Could not allocate context from string"); exit(1); } rc = sepol_context_check(global_state.sepolicy.handle, global_state.sepolicy.sdb, ctx); if (rc < 0) { goto out; } const char *type_name = sepol_context_get_type(ctx); // Temporarily exempt hal_power_stats_vendor_service from the check. // TODO(b/211953546): remove this if (strcmp(type_name, "hal_power_stats_vendor_service") == 0) { goto out; } uint32_t len = ebitmap_length(&global_state.assert.set); if (len > 0) { res = !is_type_of_attribute_set(global_state.sepolicy.pdb, type_name, &global_state.assert.set); if (res) { fprintf(stderr, "Error: type \"%s\" is not of set: ", type_name); dump_char_array(stderr, global_state.assert.attrs); fprintf(stderr, "\n"); /* The calls above did not affect rc, so set error before going to out */ rc = -1; goto out; } } /* Success: Although it should be 0, we explicitly set rc to 0 for clarity */ rc = 0; out: sepol_context_free(ctx); return rc; } static void usage(char *name) { fprintf(stderr, "usage1: %s [-l|-p|-s|-v] [-e] sepolicy context_file\n\n" "Parses a context file and checks for syntax errors.\n" "If -p is specified, the property backend is used.\n" "If -s is specified, the service backend is used to verify binder services.\n" "If -l is specified, the service backend is used to verify hwbinder services.\n" "If -v is specified, the service backend is used to verify vndbinder services.\n" "Otherwise, context_file is assumed to be a file_contexts file\n" "If -e is specified, then the context_file is allowed to be empty.\n\n" "usage2: %s -c file_contexts1 file_contexts2\n\n" "Compares two file contexts files and reports one of subset, equal, superset, or incomparable.\n\n", name, name); exit(1); } static void cleanup(void) { if (global_state.sepolicy.file) { fclose(global_state.sepolicy.file); } if (global_state.sepolicy.sdb) { sepol_policydb_free(global_state.sepolicy.sdb); } if (global_state.sepolicy.pf) { sepol_policy_file_free(global_state.sepolicy.pf); } if (global_state.sepolicy.handle) { sepol_handle_destroy(global_state.sepolicy.handle); } ebitmap_destroy(&global_state.assert.set); int i; for (i = 0; i < SEHANDLE_CNT; i++) { struct selabel_handle *sehnd = global_state.sepolicy.sehnd[i]; if (sehnd) { selabel_close(sehnd); } } } static void do_compare_and_die_on_error(struct selinux_opt opts[], unsigned int backend, char *paths[]) { enum selabel_cmp_result result; char *result_str[] = { "subset", "equal", "superset", "incomparable" }; int i; opts[0].value = NULL; /* not validating against a policy when comparing */ for (i = 0; i < SEHANDLE_CNT; i++) { opts[1].value = paths[i]; global_state.sepolicy.sehnd[i] = selabel_open(backend, opts, 2); if (!global_state.sepolicy.sehnd[i]) { fprintf(stderr, "Error: could not load context file from %s\n", paths[i]); exit(1); } } result = selabel_cmp(global_state.sepolicy.sehnd[0], global_state.sepolicy.sehnd[1]); printf("%s\n", result_str[result]); } static void do_fc_check_and_die_on_error(struct selinux_opt opts[], unsigned int backend, filemode mode, const char *sepolicy_file, const char *context_file, bool allow_empty) { struct stat sb; if (stat(context_file, &sb) < 0) { perror("Error: could not get stat on file contexts file"); exit(1); } if (sb.st_size == 0) { /* Nothing to check on empty file_contexts file if allowed*/ if (allow_empty) { return; } /* else: We could throw the error here, but libselinux backend will catch it */ } global_state.sepolicy.file = fopen(sepolicy_file, "r"); if (!global_state.sepolicy.file) { perror("Error: could not open policy file"); exit(1); } global_state.sepolicy.handle = sepol_handle_create(); if (!global_state.sepolicy.handle) { fprintf(stderr, "Error: could not create policy handle: %s\n", strerror(errno)); exit(1); } if (sepol_policy_file_create(&global_state.sepolicy.pf) < 0) { perror("Error: could not create policy handle"); exit(1); } sepol_policy_file_set_fp(global_state.sepolicy.pf, global_state.sepolicy.file); sepol_policy_file_set_handle(global_state.sepolicy.pf, global_state.sepolicy.handle); int rc = sepol_policydb_create(&global_state.sepolicy.sdb); if (rc < 0) { perror("Error: could not create policy db"); exit(1); } rc = sepol_policydb_read(global_state.sepolicy.sdb, global_state.sepolicy.pf); if (rc < 0) { perror("Error: could not read file into policy db"); exit(1); } global_state.assert.attrs = filemode_to_assert_attrs(mode); bool ret = ebitmap_attribute_assertion_init(&global_state.assert.set, global_state.assert.attrs); if (!ret) { /* error messages logged by ebitmap_attribute_assertion_init() */ exit(1); } selinux_set_callback(SELINUX_CB_VALIDATE, (union selinux_callback)&validate); opts[1].value = context_file; global_state.sepolicy.sehnd[0] = selabel_open(backend, opts, 2); if (!global_state.sepolicy.sehnd[0]) { fprintf(stderr, "Error: could not load context file from %s\n", context_file); exit(1); } } int main(int argc, char **argv) { struct selinux_opt opts[] = { { SELABEL_OPT_VALIDATE, (void*)1 }, { SELABEL_OPT_PATH, NULL } }; // Default backend unless changed by input argument. unsigned int backend = SELABEL_CTX_FILE; bool allow_empty = false; bool compare = false; char c; filemode mode = filemode_file_contexts; while ((c = getopt(argc, argv, "clpsve")) != -1) { switch (c) { case 'c': compare = true; break; case 'e': allow_empty = true; break; case 'p': mode = filemode_property_contexts; backend = SELABEL_CTX_ANDROID_PROP; break; case 's': mode = filemode_service_contexts; backend = SELABEL_CTX_ANDROID_SERVICE; break; case 'l': mode = filemode_hw_service_contexts; backend = SELABEL_CTX_ANDROID_SERVICE; break; case 'v': mode = filemode_vendor_service_contexts; backend = SELABEL_CTX_ANDROID_SERVICE; break; case 'h': default: usage(argv[0]); break; } } int index = optind; if (argc - optind != 2) { usage(argv[0]); } if (compare && backend != SELABEL_CTX_FILE) { usage(argv[0]); } atexit(cleanup); if (compare) { do_compare_and_die_on_error(opts, backend, &(argv[index])); } else { /* remaining args are sepolicy file and context file */ char *sepolicy_file = argv[index]; char *context_file = argv[index + 1]; do_fc_check_and_die_on_error(opts, backend, mode, sepolicy_file, context_file, allow_empty); } exit(0); }