#include #include #include #include #include #include #include #include #include #include #include #include #include #include #define TABLE_SIZE 1024 #define KVP_NUM_OF_RULES (sizeof(rules) / sizeof(key_map)) #define log_set_verbose() do { logging_verbose = 1; log_info("Enabling verbose\n"); } while(0) #define log_error(fmt, ...) log_msg(stderr, "Error: ", fmt, ##__VA_ARGS__) #define log_warn(fmt, ...) log_msg(stderr, "Warning: ", fmt, ##__VA_ARGS__) #define log_info(fmt, ...) if (logging_verbose ) { log_msg(stdout, "Info: ", fmt, ##__VA_ARGS__); } /** * Initializes an empty, static list. */ #define list_init(free_fn) { .head = NULL, .tail = NULL, .freefn = free_fn } /** * given an item in the list, finds the offset for the container * it was stored in. * * @element The element from the list * @type The container type ie what you allocated that has the list_element structure in it. * @name The name of the field that is the list_element * */ #define list_entry(element, type, name) \ (type *)(((uint8_t *)element) - (uint8_t *)&(((type *)NULL)->name)) /** * Iterates over the list, do not free elements from the list when using this. * @list The list head to walk * @var The variable name for the cursor */ #define list_for_each(list, var) \ for(var = (list)->head; var != NULL; var = var->next) typedef struct hash_entry hash_entry; typedef enum key_dir key_dir; typedef enum data_type data_type; typedef enum rule_map_switch rule_map_switch; typedef enum map_match map_match; typedef struct key_map key_map; typedef struct kvp kvp; typedef struct rule_map rule_map; typedef struct policy_info policy_info; typedef struct list_element list_element; typedef struct list list; typedef struct key_map_regex key_map_regex; typedef struct file_info file_info; enum map_match { map_no_matches, map_input_matched, map_matched }; const char *map_match_str[] = { "do not match", "match on all inputs", "match on everything" }; /** * Whether or not the "key" from a key vaue pair is considered an * input or an output. */ enum key_dir { dir_in, dir_out }; struct list_element { list_element *next; }; struct list { list_element *head; list_element *tail; void (*freefn)(list_element *e); }; struct key_map_regex { pcre *compiled; pcre_extra *extra; }; /** * The workhorse of the logic. This struct maps key value pairs to * an associated set of meta data maintained in rule_map_new() */ struct key_map { char *name; key_dir dir; char *data; key_map_regex regex; bool (*fn_validate)(char *value, char **errmsg); }; /** * Key value pair struct, this represents the raw kvp values coming * from the rules files. */ struct kvp { char *key; char *value; }; /** * Rules are made up of meta data and an associated set of kvp stored in a * key_map array. */ struct rule_map { bool is_never_allow; list violations; list_element listify; char *key; /** key value before hashing */ size_t length; /** length of the key map */ int lineno; /** Line number rule was encounter on */ char *filename; /** File it was found in */ key_map m[]; /** key value mapping */ }; struct hash_entry { list_element listify; rule_map *r; /** The rule map to store at that location */ }; /** * Data associated for a policy file */ struct policy_info { char *policy_file_name; /** policy file path name */ FILE *policy_file; /** file handle to the policy file */ sepol_policydb_t *db; sepol_policy_file_t *pf; sepol_handle_t *handle; sepol_context_t *con; }; struct file_info { FILE *file; /** file itself */ const char *name; /** name of file. do not free, these are not alloc'd */ list_element listify; }; static void input_file_list_freefn(list_element *e); static void line_order_list_freefn(list_element *e); static void rule_map_free(rule_map *rm, bool is_in_htable); /** Set to !0 to enable verbose logging */ static int logging_verbose = 0; /** file handle to the output file */ static file_info out_file; static list input_file_list = list_init(input_file_list_freefn); static policy_info pol = { .policy_file_name = NULL, .policy_file = NULL, .db = NULL, .pf = NULL, .handle = NULL, .con = NULL }; /** * Head pointer to a linked list of * rule map table entries (hash_entry), used for * preserving the order of entries * based on "first encounter" */ static list line_order_list = list_init(line_order_list_freefn); /* * List of hash_entrys for never allow rules. */ static list nallow_list = list_init(line_order_list_freefn); /* validation call backs */ static bool validate_bool(char *value, char **errmsg); static bool validate_levelFrom(char *value, char **errmsg); static bool validate_selinux_type(char *value, char **errmsg); static bool validate_selinux_level(char *value, char **errmsg); /** * The heart of the mapping process, this must be updated if a new key value pair is added * to a rule. */ key_map rules[] = { /*Inputs*/ { .name = "isSystemServer", .dir = dir_in, .data = NULL, .fn_validate = validate_bool }, { .name = "isOwner", .dir = dir_in, .data = NULL, .fn_validate = validate_bool }, { .name = "user", .dir = dir_in, .data = NULL }, { .name = "seinfo", .dir = dir_in, .data = NULL }, { .name = "name", .dir = dir_in, .data = NULL }, { .name = "path", .dir = dir_in, .data = NULL }, { .name = "isPrivApp", .dir = dir_in, .data = NULL, .fn_validate = validate_bool }, /*Outputs*/ { .name = "domain", .dir = dir_out, .data = NULL, .fn_validate = validate_selinux_type }, { .name = "type", .dir = dir_out, .data = NULL, .fn_validate = validate_selinux_type }, { .name = "levelFromUid", .dir = dir_out, .data = NULL, .fn_validate = validate_bool }, { .name = "levelFrom", .dir = dir_out, .data = NULL, .fn_validate = validate_levelFrom }, { .name = "level", .dir = dir_out, .data = NULL, .fn_validate = validate_selinux_level }, }; /** * Appends to the end of the list. * @list The list to append to * @e the element to append */ void list_append(list *list, list_element *e) { memset(e, 0, sizeof(*e)); if (list->head == NULL ) { list->head = list->tail = e; return; } list->tail->next = e; list->tail = e; return; } /** * Free's all the elements in the specified list. * @list The list to free */ static void list_free(list *list) { list_element *tmp; list_element *cursor = list->head; while (cursor) { tmp = cursor; cursor = cursor->next; if (list->freefn) { list->freefn(tmp); } } } /* * called when the lists are freed */ static void line_order_list_freefn(list_element *e) { hash_entry *h = list_entry(e, typeof(*h), listify); rule_map_free(h->r, true); free(h); } static void input_file_list_freefn(list_element *e) { file_info *f = list_entry(e, typeof(*f), listify); if (f->file) { fclose(f->file); } free(f); } /** * Send a logging message to a file * @param out * Output file to send message too * @param prefix * A special prefix to write to the file, such as "Error:" * @param fmt * The printf style formatter to use, such as "%d" */ static void __attribute__ ((format(printf, 3, 4))) log_msg(FILE *out, const char *prefix, const char *fmt, ...) { fprintf(out, "%s", prefix); va_list args; va_start(args, fmt); vfprintf(out, fmt, args); va_end(args); } /** * Checks for a type in the policy. * @param db * The policy db to search * @param type * The type to search for * @return * 1 if the type is found, 0 otherwise. * @warning * This function always returns 1 if libsepol is not linked * statically to this executable and LINK_SEPOL_STATIC is not * defined. */ static int check_type(sepol_policydb_t *db, char *type) { int rc = 1; #if defined(LINK_SEPOL_STATIC) policydb_t *d = (policydb_t *)db; hashtab_datum_t dat; dat = hashtab_search(d->p_types.table, type); rc = (dat == NULL) ? 0 : 1; #endif return rc; } static bool match_regex(key_map *assert, const key_map *check) { char *tomatch = check->data; int ret = pcre_exec(assert->regex.compiled, assert->regex.extra, tomatch, strlen(tomatch), 0, 0, NULL, 0); /* 0 from pcre_exec means matched */ return !ret; } static bool compile_regex(key_map *km, const char **errbuf, int *erroff) { size_t size; char *anchored; /* * Explicitly anchor all regex's * The size is the length of the string to anchor (km->data), the anchor * characters ^ and $ and the null byte. Hence strlen(km->data) + 3 */ size = strlen(km->data) + 3; anchored = alloca(size); sprintf(anchored, "^%s$", km->data); km->regex.compiled = pcre_compile(anchored, PCRE_DOTALL, errbuf, erroff, NULL ); if (!km->regex.compiled) { return false; } km->regex.extra = pcre_study(km->regex.compiled, 0, errbuf); return true; } static bool validate_bool(char *value, char **errmsg) { if (!strcmp("true", value) || !strcmp("false", value)) { return true; } *errmsg = "Expecting \"true\" or \"false\""; return false; } static bool validate_levelFrom(char *value, char **errmsg) { if(strcasecmp(value, "none") && strcasecmp(value, "all") && strcasecmp(value, "app") && strcasecmp(value, "user")) { *errmsg = "Expecting one of: \"none\", \"all\", \"app\" or \"user\""; return false; } return true; } static bool validate_selinux_type(char *value, char **errmsg) { /* * No policy file present means we cannot check * SE Linux types */ if (!pol.policy_file) { return true; } if(!check_type(pol.db, value)) { *errmsg = "Expecting a valid SELinux type"; return false; } return true; } static bool validate_selinux_level(char *value, char **errmsg) { /* * No policy file present means we cannot check * SE Linux MLS */ if (!pol.policy_file) { return true; } int ret = sepol_mls_check(pol.handle, pol.db, value); if (ret < 0) { *errmsg = "Expecting a valid SELinux MLS value"; return false; } return true; } /** * Validates a key_map against a set of enforcement rules, this * function exits the application on a type that cannot be properly * checked * * @param m * The key map to check * @param lineno * The line number in the source file for the corresponding key map * @return * true if valid, false if invalid */ static bool key_map_validate(key_map *m, const char *filename, int lineno, bool is_neverallow) { int erroff; const char *errbuf; bool rc = true; char *key = m->name; char *value = m->data; char *errmsg = NULL; log_info("Validating %s=%s\n", key, value); /* * Neverallows are completely skipped from sanity checking so you can match * un-unspecified inputs. */ if (is_neverallow) { if (!m->regex.compiled) { rc = compile_regex(m, &errbuf, &erroff); if (!rc) { log_error("Invalid regex on line %d : %s PCRE error: %s at offset %d", lineno, value, errbuf, erroff); } } goto out; } /* If the key has a validation routine, call it */ if (m->fn_validate) { rc = m->fn_validate(value, &errmsg); if (!rc) { log_error("Could not validate key \"%s\" for value \"%s\" on line: %d in file: \"%s\": %s\n", key, value, lineno, filename, errmsg); } } out: log_info("Key map validate returning: %d\n", rc); return rc; } /** * Prints a rule map back to a file * @param fp * The file handle to print too * @param r * The rule map to print */ static void rule_map_print(FILE *fp, rule_map *r) { size_t i; key_map *m; for (i = 0; i < r->length; i++) { m = &(r->m[i]); if (i < r->length - 1) fprintf(fp, "%s=%s ", m->name, m->data); else fprintf(fp, "%s=%s", m->name, m->data); } } /** * Compare two rule maps for equality * @param rmA * a rule map to check * @param rmB * a rule map to check * @return * a map_match enum indicating the result */ static map_match rule_map_cmp(rule_map *rmA, rule_map *rmB) { size_t i; size_t j; int inputs_found = 0; int num_of_matched_inputs = 0; int input_mode = 0; size_t matches = 0; key_map *mA; key_map *mB; for (i = 0; i < rmA->length; i++) { mA = &(rmA->m[i]); for (j = 0; j < rmB->length; j++) { mB = &(rmB->m[j]); input_mode = 0; if (strcmp(mA->name, mB->name)) continue; if (strcmp(mA->data, mB->data)) continue; if (mB->dir != mA->dir) continue; else if (mB->dir == dir_in) { input_mode = 1; inputs_found++; } if (input_mode) { log_info("Matched input lines: name=%s data=%s\n", mA->name, mA->data); num_of_matched_inputs++; } /* Match found, move on */ log_info("Matched lines: name=%s data=%s", mA->name, mA->data); matches++; break; } } /* If they all matched*/ if (matches == rmA->length) { log_info("Rule map cmp MATCH\n"); return map_matched; } /* They didn't all match but the input's did */ else if (num_of_matched_inputs == inputs_found) { log_info("Rule map cmp INPUT MATCH\n"); return map_input_matched; } /* They didn't all match, and the inputs didn't match, ie it didn't * match */ else { log_info("Rule map cmp NO MATCH\n"); return map_no_matches; } } /** * Frees a rule map * @param rm * rule map to be freed. * @is_in_htable * True if the rule map has been added to the hash table, false * otherwise. */ static void rule_map_free(rule_map *rm, bool is_in_htable) { size_t i; size_t len = rm->length; for (i = 0; i < len; i++) { key_map *m = &(rm->m[i]); free(m->data); if (m->regex.compiled) { pcre_free(m->regex.compiled); } if (m->regex.extra) { pcre_free_study(m->regex.extra); } } /* * hdestroy() frees comparsion keys for non glibc * on GLIBC we always free on NON-GLIBC we free if * it is not in the htable. */ if (rm->key) { #ifdef __GLIBC__ /* silence unused warning */ (void)is_in_htable; free(rm->key); #else if (!is_in_htable) { free(rm->key); } #endif } free(rm->filename); free(rm); } static void free_kvp(kvp *k) { free(k->key); free(k->value); } /** * Checks a rule_map for any variation of KVP's that shouldn't be allowed. * It builds an assertion failure list for each rule map. * Note that this function logs all errors. * * Current Checks: * 1. That a specified name entry should have a specified seinfo entry as well. * 2. That no rule violates a neverallow * @param rm * The rule map to check for validity. */ static void rule_map_validate(rule_map *rm) { size_t i, j; const key_map *rule; key_map *nrule; hash_entry *e; rule_map *assert; list_element *cursor; list_for_each(&nallow_list, cursor) { e = list_entry(cursor, typeof(*e), listify); assert = e->r; size_t cnt = 0; for (j = 0; j < assert->length; j++) { nrule = &(assert->m[j]); // mark that nrule->name is for a null check bool is_null_check = !strcmp(nrule->data, "\"\""); for (i = 0; i < rm->length; i++) { rule = &(rm->m[i]); if (!strcmp(rule->name, nrule->name)) { /* the name was found, (data cannot be false) then it was specified */ is_null_check = false; if (match_regex(nrule, rule)) { cnt++; } } } /* * the nrule was marked in a null check and we never found a match on nrule, thus * it matched and we update the cnt */ if (is_null_check) { cnt++; } } if (cnt == assert->length) { list_append(&rm->violations, &assert->listify); } } } /** * Given a set of key value pairs, this will construct a new rule map. * On error this function calls exit. * @param keys * Keys from a rule line to map * @param num_of_keys * The length of the keys array * @param lineno * The line number the keys were extracted from * @return * A rule map pointer. */ static rule_map *rule_map_new(kvp keys[], size_t num_of_keys, int lineno, const char *filename, bool is_never_allow) { size_t i = 0, j = 0; rule_map *new_map = NULL; kvp *k = NULL; key_map *r = NULL, *x = NULL; bool seen[KVP_NUM_OF_RULES]; for (i = 0; i < KVP_NUM_OF_RULES; i++) seen[i] = false; new_map = calloc(1, (num_of_keys * sizeof(key_map)) + sizeof(rule_map)); if (!new_map) goto oom; new_map->is_never_allow = is_never_allow; new_map->length = num_of_keys; new_map->lineno = lineno; new_map->filename = strdup(filename); if (!new_map->filename) { goto oom; } /* For all the keys in a rule line*/ for (i = 0; i < num_of_keys; i++) { k = &(keys[i]); r = &(new_map->m[i]); for (j = 0; j < KVP_NUM_OF_RULES; j++) { x = &(rules[j]); /* Only assign key name to map name */ if (strcasecmp(k->key, x->name)) { if (i == KVP_NUM_OF_RULES) { log_error("No match for key: %s\n", k->key); goto err; } continue; } if (seen[j]) { log_error("Duplicated key: %s\n", k->key); goto err; } seen[j] = true; memcpy(r, x, sizeof(key_map)); /* Assign rule map value to one from file */ r->data = strdup(k->value); if (!r->data) goto oom; /* Enforce type check*/ log_info("Validating keys!\n"); if (!key_map_validate(r, filename, lineno, new_map->is_never_allow)) { log_error("Could not validate\n"); goto err; } /* * Only build key off of inputs with the exception of neverallows. * Neverallows are keyed off of all key value pairs, */ if (r->dir == dir_in || new_map->is_never_allow) { char *tmp; int key_len = strlen(k->key); int val_len = strlen(k->value); int l = (new_map->key) ? strlen(new_map->key) : 0; l = l + key_len + val_len; l += 1; tmp = realloc(new_map->key, l); if (!tmp) goto oom; if (!new_map->key) memset(tmp, 0, l); new_map->key = tmp; strncat(new_map->key, k->key, key_len); strncat(new_map->key, k->value, val_len); } break; } free_kvp(k); } if (new_map->key == NULL) { log_error("Strange, no keys found, input file corrupt perhaps?\n"); goto err; } return new_map; oom: log_error("Out of memory!\n"); err: if(new_map) { rule_map_free(new_map, false); for (; i < num_of_keys; i++) { k = &(keys[i]); free_kvp(k); } } return NULL; } /** * Print the usage of the program */ static void usage() { printf( "checkseapp [options] \n" "Processes an seapp_contexts file specified by argument (default stdin) " "and allows later declarations to override previous ones on a match.\n" "Options:\n" "-h - print this help message\n" "-v - enable verbose debugging informations\n" "-p policy file - specify policy file for strict checking of output selectors against the policy\n" "-o output file - specify output file or - for stdout. No argument runs in silent mode and outputs nothing\n"); } static void init() { bool has_out_file; list_element *cursor; file_info *tmp; /* input files if the list is empty, use stdin */ if (!input_file_list.head) { log_info("Using stdin for input\n"); tmp = malloc(sizeof(*tmp)); if (!tmp) { log_error("oom"); exit(EXIT_FAILURE); } tmp->name = "stdin"; tmp->file = stdin; list_append(&input_file_list, &(tmp->listify)); } else { list_for_each(&input_file_list, cursor) { tmp = list_entry(cursor, typeof(*tmp), listify); log_info("Opening input file: \"%s\"\n", tmp->name); tmp->file = fopen(tmp->name, "r"); if (!tmp->file) { log_error("Could not open file: %s error: %s\n", tmp->name, strerror(errno)); exit(EXIT_FAILURE); } } } has_out_file = out_file.name != NULL; /* If output file is -, then use stdout, else open the path */ if (has_out_file && !strcmp(out_file.name, "-")) { out_file.file = stdout; out_file.name = "stdout"; } else if (has_out_file) { out_file.file = fopen(out_file.name, "w+"); } if (has_out_file && !out_file.file) { log_error("Could not open file: \"%s\" error: \"%s\"\n", out_file.name, strerror(errno)); exit(EXIT_FAILURE); } if (pol.policy_file_name) { log_info("Opening policy file: %s\n", pol.policy_file_name); pol.policy_file = fopen(pol.policy_file_name, "rb"); if (!pol.policy_file) { log_error("Could not open file: %s error: %s\n", pol.policy_file_name, strerror(errno)); exit(EXIT_FAILURE); } pol.handle = sepol_handle_create(); if (!pol.handle) { log_error("Could not create sepolicy handle: %s\n", strerror(errno)); exit(EXIT_FAILURE); } if (sepol_policy_file_create(&pol.pf) < 0) { log_error("Could not create sepolicy file: %s!\n", strerror(errno)); exit(EXIT_FAILURE); } sepol_policy_file_set_fp(pol.pf, pol.policy_file); sepol_policy_file_set_handle(pol.pf, pol.handle); if (sepol_policydb_create(&pol.db) < 0) { log_error("Could not create sepolicy db: %s!\n", strerror(errno)); exit(EXIT_FAILURE); } if (sepol_policydb_read(pol.db, pol.pf) < 0) { log_error("Could not lod policy file to db: %s!\n", strerror(errno)); exit(EXIT_FAILURE); } } list_for_each(&input_file_list, cursor) { tmp = list_entry(cursor, typeof(*tmp), listify); log_info("Input file set to: \"%s\"\n", tmp->name); } log_info("Policy file set to: \"%s\"\n", (pol.policy_file_name == NULL) ? "None" : pol.policy_file_name); log_info("Output file set to: \"%s\"\n", out_file.name); #if !defined(LINK_SEPOL_STATIC) log_warn("LINK_SEPOL_STATIC is not defined\n""Not checking types!"); #endif } /** * Handle parsing and setting the global flags for the command line * options. This function calls exit on failure. * @param argc * argument count * @param argv * argument list */ static void handle_options(int argc, char *argv[]) { int c; file_info *input_file; while ((c = getopt(argc, argv, "ho:p:v")) != -1) { switch (c) { case 'h': usage(); exit(EXIT_SUCCESS); case 'o': out_file.name = optarg; break; case 'p': pol.policy_file_name = optarg; break; case 'v': log_set_verbose(); break; case '?': if (optopt == 'o' || optopt == 'p') log_error("Option -%c requires an argument.\n", optopt); else if (isprint (optopt)) log_error("Unknown option `-%c'.\n", optopt); else { log_error( "Unknown option character `\\x%x'.\n", optopt); } default: exit(EXIT_FAILURE); } } for (c = optind; c < argc; c++) { input_file = calloc(1, sizeof(*input_file)); if (!input_file) { log_error("oom"); exit(EXIT_FAILURE); } input_file->name = argv[c]; list_append(&input_file_list, &input_file->listify); } } /** * Adds a rule to the hash table and to the ordered list if needed. * @param rm * The rule map to add. */ static void rule_add(rule_map *rm) { map_match cmp; ENTRY e; ENTRY *f; hash_entry *entry; hash_entry *tmp; list *list_to_addto; e.key = rm->key; log_info("Searching for key: %s\n", e.key); /* Check to see if it has already been added*/ f = hsearch(e, FIND); /* * Since your only hashing on a partial key, the inputs we need to handle * when you want to override the outputs for a given input set, as well as * checking for duplicate entries. */ if(f) { log_info("Existing entry found!\n"); tmp = (hash_entry *)f->data; cmp = rule_map_cmp(rm, tmp->r); log_error("Duplicate line detected in file: %s\n" "Lines %d and %d %s!\n", rm->filename, tmp->r->lineno, rm->lineno, map_match_str[cmp]); rule_map_free(rm, false); goto err; } /* It wasn't found, just add the rule map to the table */ else { entry = malloc(sizeof(hash_entry)); if (!entry) goto oom; entry->r = rm; e.data = entry; f = hsearch(e, ENTER); if(f == NULL) { goto oom; } /* new entries must be added to the ordered list */ entry->r = rm; list_to_addto = rm->is_never_allow ? &nallow_list : &line_order_list; list_append(list_to_addto, &entry->listify); } return; oom: if (e.key) free(e.key); if (entry) free(entry); if (rm) free(rm); log_error("Out of memory in function: %s\n", __FUNCTION__); err: exit(EXIT_FAILURE); } static void parse_file(file_info *in_file) { char *p; size_t len; char *token; char *saveptr; bool is_never_allow; bool found_whitespace; size_t lineno = 0; char *name = NULL; char *value = NULL; size_t token_cnt = 0; char line_buf[BUFSIZ]; kvp keys[KVP_NUM_OF_RULES]; while (fgets(line_buf, sizeof(line_buf) - 1, in_file->file)) { lineno++; is_never_allow = false; found_whitespace = false; log_info("Got line %zu\n", lineno); len = strlen(line_buf); if (line_buf[len - 1] == '\n') line_buf[len - 1] = '\0'; p = line_buf; /* neverallow lines must start with neverallow (ie ^neverallow) */ if (!strncasecmp(p, "neverallow", strlen("neverallow"))) { p += strlen("neverallow"); is_never_allow = true; } /* strip trailing whitespace skip comments */ while (isspace(*p)) { p++; found_whitespace = true; } if (*p == '#' || *p == '\0') continue; token = strtok_r(p, " \t", &saveptr); if (!token) goto err; token_cnt = 0; memset(keys, 0, sizeof(kvp) * KVP_NUM_OF_RULES); while (1) { name = token; value = strchr(name, '='); if (!value) goto err; *value++ = 0; keys[token_cnt].key = strdup(name); if (!keys[token_cnt].key) goto oom; keys[token_cnt].value = strdup(value); if (!keys[token_cnt].value) goto oom; token_cnt++; token = strtok_r(NULL, " \t", &saveptr); if (!token) break; } /*End token parsing */ rule_map *r = rule_map_new(keys, token_cnt, lineno, in_file->name, is_never_allow); if (!r) goto err; rule_add(r); } /* End file parsing */ return; err: log_error("Reading file: \"%s\" line: %zu name: \"%s\" value: \"%s\"\n", in_file->name, lineno, name, value); if(found_whitespace && name && !strcasecmp(name, "neverallow")) { log_error("perhaps whitespace before neverallow\n"); } exit(EXIT_FAILURE); oom: log_error("In function %s: Out of memory\n", __FUNCTION__); exit(EXIT_FAILURE); } /** * Parses the seapp_contexts file and neverallow file * and adds them to the hash table and ordered list entries * when it encounters them. * Calls exit on failure. */ static void parse() { file_info *current; list_element *cursor; list_for_each(&input_file_list, cursor) { current = list_entry(cursor, typeof(*current), listify); parse_file(current); } } static void validate() { list_element *cursor, *v; bool found_issues = false; hash_entry *e; rule_map *r; list_for_each(&line_order_list, cursor) { e = list_entry(cursor, typeof(*e), listify); rule_map_validate(e->r); } list_for_each(&line_order_list, cursor) { e = list_entry(cursor, typeof(*e), listify); r = e->r; list_for_each(&r->violations, v) { found_issues = true; log_error("Rule in File \"%s\" on line %d: \"", e->r->filename, e->r->lineno); rule_map_print(stderr, e->r); r = list_entry(v, rule_map, listify); fprintf(stderr, "\" violates neverallow in File \"%s\" on line %d: \"", r->filename, r->lineno); rule_map_print(stderr, r); fprintf(stderr, "\"\n"); } } if (found_issues) { exit(EXIT_FAILURE); } } /** * Should be called after parsing to cause the printing of the rule_maps * stored in the ordered list, head first, which preserves the "first encountered" * ordering. */ static void output() { hash_entry *e; list_element *cursor; if (!out_file.file) { log_info("No output file, not outputting.\n"); return; } list_for_each(&line_order_list, cursor) { e = list_entry(cursor, hash_entry, listify); rule_map_print(out_file.file, e->r); fprintf(out_file.file, "\n"); } } /** * This function is registered to the at exit handler and should clean up * the programs dynamic resources, such as memory and fd's. */ static void cleanup() { /* Only close this when it was opened by me and not the crt */ if (out_file.name && strcmp(out_file.name, "stdout") && out_file.file) { log_info("Closing file: %s\n", out_file.name); fclose(out_file.file); } if (pol.policy_file) { log_info("Closing file: %s\n", pol.policy_file_name); fclose(pol.policy_file); if (pol.db) sepol_policydb_free(pol.db); if (pol.pf) sepol_policy_file_free(pol.pf); if (pol.handle) sepol_handle_destroy(pol.handle); } log_info("Freeing lists\n"); list_free(&input_file_list); list_free(&line_order_list); list_free(&nallow_list); hdestroy(); } int main(int argc, char *argv[]) { if (!hcreate(TABLE_SIZE)) { log_error("Could not create hash table: %s\n", strerror(errno)); exit(EXIT_FAILURE); } atexit(cleanup); handle_options(argc, argv); init(); log_info("Starting to parse\n"); parse(); log_info("Parsing completed, generating output\n"); validate(); output(); log_info("Success, generated output\n"); exit(EXIT_SUCCESS); }