/** * @file * Implementation for computing semantic differences in AV and Type * rules. * * @author Jeremy A. Mowery jmowery@tresys.com * @author Jason Tang jtang@tresys.com * * Copyright (C) 2006-2007 Tresys Technology, LLC * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include "poldiff_internal.h" #include #include #include #include #include #include #include struct poldiff_avrule_summary { size_t num_added; size_t num_removed; size_t num_modified; size_t num_added_type; size_t num_removed_type; int diffs_sorted; /** vector of poldiff_avrule_t */ apol_vector_t *diffs; }; struct poldiff_avrule { uint32_t spec; /* pointer into policy's symbol table */ const char *source, *target; /** the class string is pointer into the class_bst BST */ char *cls; poldiff_form_e form; /** vector of pointers into the perm_bst BST (char *) */ apol_vector_t *unmodified_perms; /** vector of pointers into the perm_bst BST (char *) */ apol_vector_t *added_perms; /** vector of pointers into the perm_bst BST (char *) */ apol_vector_t *removed_perms; /** pointer into policy's conditional list, needed to render * conditional expressions */ const qpol_cond_t *cond; uint32_t branch; /** vector of unsigned longs of line numbers from original policy */ apol_vector_t *orig_linenos; /** vector of unsigned longs of line numbers from modified policy */ apol_vector_t *mod_linenos; /** array of pointers for original rules */ qpol_avrule_t **orig_rules; size_t num_orig_rules; /** array of pointers for modified rules */ qpol_avrule_t **mod_rules; size_t num_mod_rules; }; typedef struct pseudo_avrule { uint32_t spec; /** pseudo-type values */ uint32_t source, target; /** pointer into the class_bst BST */ char *cls; /** array of pointers into the perm_bst BST */ /* (use an array here to save space) */ char **perms; size_t num_perms; /** array of pointers into the bool_bst BST */ char *bools[5]; uint32_t bool_val; uint32_t branch; /** pointer into policy's conditional list, needed to render * conditional expressions */ const qpol_cond_t *cond; /** array of qpol_avrule_t pointers, for showing line numbers */ const qpol_avrule_t **rules; size_t num_rules; } pseudo_avrule_t; /******************** public avrule functions ********************/ /** * Get an array of statistics for the number of differences of each * form for av rules. * * @param diff The policy difference structure from which to get the * stats. * @param stats Array into which to write the numbers (array must be * pre-allocated). The order of the values written to the array is * as follows: number of items of form POLDIFF_FORM_ADDED, number of * POLDIFF_FORM_REMOVED, number of POLDIFF_FORM_MODIFIED, number of * POLDIFF_FORM_ADD_TYPE, and number of POLDIFF_FORM_REMOVE_TYPE. * @param idx Index into the avrule differences specifying which * avrule type to get, one of AVRULE_OFFSET_ALLOW, etc. */ static void poldiff_avrule_get_stats(const poldiff_t * diff, size_t stats[5], avrule_offset_e idx) { if (diff == NULL || stats == NULL) { ERR(diff, "%s", strerror(EINVAL)); errno = EINVAL; return; } stats[0] = diff->avrule_diffs[idx]->num_added; stats[1] = diff->avrule_diffs[idx]->num_removed; stats[2] = diff->avrule_diffs[idx]->num_modified; stats[3] = diff->avrule_diffs[idx]->num_added_type; stats[4] = diff->avrule_diffs[idx]->num_removed_type; } void poldiff_avrule_get_stats_allow(const poldiff_t * diff, size_t stats[5]) { poldiff_avrule_get_stats(diff, stats, AVRULE_OFFSET_ALLOW); } void poldiff_avrule_get_stats_neverallow(const poldiff_t * diff, size_t stats[5]) { poldiff_avrule_get_stats(diff, stats, AVRULE_OFFSET_NEVERALLOW); } void poldiff_avrule_get_stats_dontaudit(const poldiff_t * diff, size_t stats[5]) { poldiff_avrule_get_stats(diff, stats, AVRULE_OFFSET_DONTAUDIT); } void poldiff_avrule_get_stats_auditallow(const poldiff_t * diff, size_t stats[5]) { poldiff_avrule_get_stats(diff, stats, AVRULE_OFFSET_AUDITALLOW); } char *poldiff_avrule_to_string(const poldiff_t * diff, const void *avrule) { const poldiff_avrule_t *pa = (const poldiff_avrule_t *)avrule; apol_policy_t *p; const char *rule_type; char *diff_char = "", *s = NULL, *perm_name, *cond_expr = NULL; size_t i, len = 0; int show_perm_sym = 0, error; if (diff == NULL || avrule == NULL) { ERR(diff, "%s", strerror(EINVAL)); errno = EINVAL; return NULL; } switch (pa->form) { case POLDIFF_FORM_ADDED: case POLDIFF_FORM_ADD_TYPE: { diff_char = "+"; p = diff->mod_pol; break; } case POLDIFF_FORM_REMOVED: case POLDIFF_FORM_REMOVE_TYPE: { diff_char = "-"; p = diff->orig_pol; break; } case POLDIFF_FORM_MODIFIED: { diff_char = "*"; p = diff->orig_pol; show_perm_sym = 1; break; } default: { ERR(diff, "%s", strerror(ENOTSUP)); errno = ENOTSUP; return NULL; } } rule_type = apol_rule_type_to_str(pa->spec); if (apol_str_appendf(&s, &len, "%s %s %s %s : %s {", diff_char, rule_type, pa->source, pa->target, pa->cls) < 0) { error = errno; goto err; } for (i = 0; pa->unmodified_perms != NULL && i < apol_vector_get_size(pa->unmodified_perms); i++) { perm_name = (char *)apol_vector_get_element(pa->unmodified_perms, i); if (apol_str_appendf(&s, &len, " %s", perm_name) < 0) { error = errno; goto err; } } for (i = 0; pa->added_perms != NULL && i < apol_vector_get_size(pa->added_perms); i++) { perm_name = (char *)apol_vector_get_element(pa->added_perms, i); if (apol_str_appendf(&s, &len, " %s%s", (show_perm_sym ? "+" : ""), perm_name) < 0) { error = errno; goto err; } } for (i = 0; pa->removed_perms != NULL && i < apol_vector_get_size(pa->removed_perms); i++) { perm_name = (char *)apol_vector_get_element(pa->removed_perms, i); if (apol_str_appendf(&s, &len, " %s%s", (show_perm_sym ? "-" : ""), perm_name) < 0) { error = errno; goto err; } } if (apol_str_append(&s, &len, " };") < 0) { error = errno; goto err; } if (pa->cond != NULL) { if ((cond_expr = apol_cond_expr_render(p, pa->cond)) == NULL) { error = errno; goto err; } if (apol_str_appendf(&s, &len, " [%s]:%s", cond_expr, (pa->branch ? "TRUE" : "FALSE")) < 0) { error = errno; goto err; } free(cond_expr); } return s; err: free(s); free(cond_expr); ERR(diff, "%s", strerror(error)); errno = error; return NULL; } /** * Sort poldiff_avrule diff results in a mostly alphabetical order. */ static int poldiff_avrule_cmp(const void *x, const void *y, void *data __attribute__ ((unused))) { const poldiff_avrule_t *a = (const poldiff_avrule_t *)x; const poldiff_avrule_t *b = (const poldiff_avrule_t *)y; int compval; if (a->spec != b->spec) { const char *rule_type1 = apol_rule_type_to_str(a->spec); const char *rule_type2 = apol_rule_type_to_str(b->spec); compval = strcmp(rule_type1, rule_type2); if (compval != 0) { return compval; } } if ((compval = strcmp(a->source, b->source)) != 0) { return compval; } if ((compval = strcmp(a->target, b->target)) != 0) { return compval; } if ((compval = strcmp(a->cls, b->cls)) != 0) { return compval; } if (a->cond != b->cond) { return (char *)a->cond - (char *)b->cond; } /* sort true branch before false branch */ return b->branch - a->branch; } /** * Get the vector of av rule differences from the av rule difference * summary. * * @param diff The policy difference structure associated with the av * rule difference summary. * @param idx Index into the avrule differences specifying which * avrule type to get, one of AVRULE_OFFSET_ALLOW, etc. * * @return A vector of elements of type poldiff_avrule_t, or NULL on * error. The caller should not destroy the vector returned. * If the call fails, errno will be set. */ static const apol_vector_t *poldiff_get_avrule_vector(const poldiff_t * diff, avrule_offset_e idx) { if (diff == NULL) { errno = EINVAL; return NULL; } if (diff->avrule_diffs[idx]->diffs_sorted == 0) { apol_vector_sort(diff->avrule_diffs[idx]->diffs, poldiff_avrule_cmp, NULL); diff->avrule_diffs[idx]->diffs_sorted = 1; } return diff->avrule_diffs[idx]->diffs; } const apol_vector_t *poldiff_get_avrule_vector_allow(const poldiff_t * diff) { return poldiff_get_avrule_vector(diff, AVRULE_OFFSET_ALLOW); } const apol_vector_t *poldiff_get_avrule_vector_auditallow(const poldiff_t * diff) { return poldiff_get_avrule_vector(diff, AVRULE_OFFSET_AUDITALLOW); } const apol_vector_t *poldiff_get_avrule_vector_dontaudit(const poldiff_t * diff) { return poldiff_get_avrule_vector(diff, AVRULE_OFFSET_DONTAUDIT); } const apol_vector_t *poldiff_get_avrule_vector_neverallow(const poldiff_t * diff) { return poldiff_get_avrule_vector(diff, AVRULE_OFFSET_NEVERALLOW); } poldiff_form_e poldiff_avrule_get_form(const void *avrule) { if (avrule == NULL) { errno = EINVAL; return 0; } return ((const poldiff_avrule_t *)avrule)->form; } uint32_t poldiff_avrule_get_rule_type(const poldiff_avrule_t * avrule) { if (avrule == NULL) { errno = EINVAL; return 0; } return avrule->spec; } const char *poldiff_avrule_get_source_type(const poldiff_avrule_t * avrule) { if (avrule == NULL) { errno = EINVAL; return 0; } return avrule->source; } const char *poldiff_avrule_get_target_type(const poldiff_avrule_t * avrule) { if (avrule == NULL) { errno = EINVAL; return 0; } return avrule->target; } const char *poldiff_avrule_get_object_class(const poldiff_avrule_t * avrule) { if (avrule == NULL) { errno = EINVAL; return 0; } return avrule->cls; } void poldiff_avrule_get_cond(const poldiff_t * diff, const poldiff_avrule_t * avrule, const qpol_cond_t ** cond, uint32_t * which_list, const apol_policy_t ** p) { if (diff == NULL || avrule == NULL || cond == NULL || p == NULL) { errno = EINVAL; return; } *cond = avrule->cond; if (*cond == NULL) { *which_list = 1; *p = NULL; } else if (avrule->form == POLDIFF_FORM_ADDED || avrule->form == POLDIFF_FORM_ADD_TYPE) { *which_list = avrule->branch; *p = diff->mod_pol; } else { *which_list = avrule->branch; *p = diff->orig_pol; } } const apol_vector_t *poldiff_avrule_get_unmodified_perms(const poldiff_avrule_t * avrule) { if (avrule == NULL) { errno = EINVAL; return NULL; } return avrule->unmodified_perms; } const apol_vector_t *poldiff_avrule_get_added_perms(const poldiff_avrule_t * avrule) { if (avrule == NULL) { errno = EINVAL; return NULL; } return avrule->added_perms; } const apol_vector_t *poldiff_avrule_get_removed_perms(const poldiff_avrule_t * avrule) { if (avrule == NULL) { errno = EINVAL; return NULL; } return avrule->removed_perms; } const apol_vector_t *poldiff_avrule_get_orig_line_numbers(const poldiff_avrule_t * avrule) { if (avrule == NULL) { errno = EINVAL; return NULL; } return avrule->orig_linenos; } const apol_vector_t *poldiff_avrule_get_mod_line_numbers(const poldiff_avrule_t * avrule) { if (avrule == NULL) { errno = EINVAL; return NULL; } return avrule->mod_linenos; } /** * Get the line numbers from an array of qpol_avrule_t that contain * the given permission. */ static apol_vector_t *avrule_get_line_numbers_for_perm(const poldiff_t * diff, const char *perm, const qpol_policy_t * q, qpol_avrule_t ** rules, const size_t num_rules) { apol_vector_t *v = NULL; qpol_iterator_t *syn_iter = NULL, *perm_iter = NULL; size_t i; int error = 0; if ((v = apol_vector_create(NULL)) == NULL) { error = errno; ERR(diff, "%s", strerror(errno)); goto cleanup; } for (i = 0; i < num_rules; i++) { if (qpol_avrule_get_syn_avrule_iter(q, rules[i], &syn_iter) < 0) { error = errno; goto cleanup; } for (; !qpol_iterator_end(syn_iter); qpol_iterator_next(syn_iter)) { qpol_syn_avrule_t *syn_rule; qpol_iterator_get_item(syn_iter, (void **)&syn_rule); if (qpol_syn_avrule_get_perm_iter(q, syn_rule, &perm_iter) < 0) { error = errno; goto cleanup; } for (; !qpol_iterator_end(perm_iter); qpol_iterator_next(perm_iter)) { char *syn_perm; qpol_iterator_get_item(perm_iter, (void **)&syn_perm); if (strcmp(perm, syn_perm) == 0) { unsigned long lineno; qpol_syn_avrule_get_lineno(q, syn_rule, &lineno); if (apol_vector_append(v, (void *)lineno) < 0) { ERR(diff, "%s", strerror(errno)); } break; } } qpol_iterator_destroy(&perm_iter); } qpol_iterator_destroy(&syn_iter); } apol_vector_sort_uniquify(v, NULL, NULL); cleanup: qpol_iterator_destroy(&syn_iter); qpol_iterator_destroy(&perm_iter); if (error != 0) { apol_vector_destroy(&v); errno = error; return NULL; } return v; } apol_vector_t *poldiff_avrule_get_orig_line_numbers_for_perm(const poldiff_t * diff, const poldiff_avrule_t * avrule, const char *perm) { if (diff == NULL || avrule == NULL || perm == NULL) { ERR(diff, "%s", strerror(EINVAL)); errno = EINVAL; return NULL; } if (!diff->line_numbers_enabled || avrule->form == POLDIFF_FORM_ADDED || avrule->form == POLDIFF_FORM_ADD_TYPE) { return NULL; } if (avrule->num_orig_rules == 0) { return NULL; } return avrule_get_line_numbers_for_perm(diff, perm, diff->orig_qpol, avrule->orig_rules, avrule->num_orig_rules); } apol_vector_t *poldiff_avrule_get_mod_line_numbers_for_perm(const poldiff_t * diff, const poldiff_avrule_t * avrule, const char *perm) { if (diff == NULL || avrule == NULL || perm == NULL) { ERR(diff, "%s", strerror(EINVAL)); errno = EINVAL; return NULL; } if (!diff->line_numbers_enabled || avrule->form == POLDIFF_FORM_REMOVED || avrule->form == POLDIFF_FORM_REMOVE_TYPE) { return NULL; } if (avrule->num_mod_rules == 0) { return NULL; } return avrule_get_line_numbers_for_perm(diff, perm, diff->mod_qpol, avrule->mod_rules, avrule->num_mod_rules); } /******************** protected functions below ********************/ /** * Free all space used by a poldiff_avrule_t, including the pointer * itself. Does nothing if the pointer is already NULL. * * @param elem Pointer to a poldiff_avrule_t. */ static void poldiff_avrule_free(void *elem) { if (elem != NULL) { poldiff_avrule_t *a = (poldiff_avrule_t *) elem; apol_vector_destroy(&a->unmodified_perms); apol_vector_destroy(&a->added_perms); apol_vector_destroy(&a->removed_perms); apol_vector_destroy(&a->orig_linenos); apol_vector_destroy(&a->mod_linenos); free(a->orig_rules); free(a->mod_rules); free(a); } } poldiff_avrule_summary_t *avrule_create(void) { poldiff_avrule_summary_t *rs = calloc(1, sizeof(*rs)); if (rs == NULL) { return NULL; } if ((rs->diffs = apol_vector_create(poldiff_avrule_free)) == NULL) { avrule_destroy(&rs); return NULL; } return rs; } void avrule_destroy(poldiff_avrule_summary_t ** rs) { if (rs != NULL && *rs != NULL) { apol_vector_destroy(&(*rs)->diffs); free(*rs); *rs = NULL; } } /** * Reset the state of an AV rule differences. * @param diff The policy difference structure containing the differences * to reset. * @param idx Index into the avrule diffs array indicating which rule * type to reset, one of AVRULE_OFFSET_ALLOW, etc. * @return 0 on success and < 0 on error; if the call fails, * errno will be set and the user should call poldiff_destroy() on diff. */ static int avrule_reset(poldiff_t * diff, avrule_offset_e idx) { int error = 0; avrule_destroy(&diff->avrule_diffs[idx]); diff->avrule_diffs[idx] = avrule_create(); if (diff->avrule_diffs[idx] == NULL) { error = errno; ERR(diff, "%s", strerror(error)); errno = error; return -1; } return 0; } int avrule_reset_allow(poldiff_t * diff) { return avrule_reset(diff, AVRULE_OFFSET_ALLOW); } int avrule_reset_auditallow(poldiff_t * diff) { return avrule_reset(diff, AVRULE_OFFSET_AUDITALLOW); } int avrule_reset_dontaudit(poldiff_t * diff) { return avrule_reset(diff, AVRULE_OFFSET_DONTAUDIT); } int avrule_reset_neverallow(poldiff_t * diff) { return avrule_reset(diff, AVRULE_OFFSET_NEVERALLOW); } static void avrule_free_item(void *item) { pseudo_avrule_t *a = (pseudo_avrule_t *) item; if (item != NULL) { free(a->perms); free(a->rules); free(a); } } /** * Apply an ordering scheme to two pseudo-av rules. * *
    *
  • Sort by target pseudo-type value, *
  • Then by source pseudo-type value, *
  • Then by object class's BST's pointer value, *
  • Then by rule specified (allow, neverallow, etc.), *
  • Then choose unconditional rules over conditional rules, *
  • Then by conditional expression's BST's boolean pointer value. *
* * If this function is being used for sorting (via avrule_get_items()) * then sort by truth value, and then by branch (true branch, then * false branch). Otherwise, when comparing rules (via avrule_comp()) * then by truth value, inverting rule2's value if in the other * branch. */ static int pseudo_avrule_comp(const pseudo_avrule_t * rule1, const pseudo_avrule_t * rule2, int is_sorting) { size_t i; uint32_t bool_val; if (rule1->target != rule2->target) { return rule1->target - rule2->target; } if (rule1->source != rule2->source) { return rule1->source - rule2->source; } if (rule1->cls != rule2->cls) { return (int)(rule1->cls - rule2->cls); } if (rule1->spec != rule2->spec) { return rule1->spec - rule2->spec; } if (rule1->bools[0] == NULL && rule2->bools[0] == NULL) { /* both rules are unconditional */ return 0; } else if (rule1->bools[0] == NULL && rule2->bools[0] != NULL) { /* unconditional rules come before conditional */ return -1; } else if (rule1->bools[0] != NULL && rule2->bools[0] == NULL) { /* unconditional rules come before conditional */ return 1; } for (i = 0; i < (sizeof(rule1->bools) / sizeof(rule1->bools[0])); i++) { if (rule1->bools[i] != rule2->bools[i]) { return (int)(rule1->bools[i] - rule2->bools[i]); } } if (is_sorting) { if (rule1->branch != rule2->branch) { return rule1->branch - rule2->branch; } return (int)rule1->bool_val - (int)rule2->bool_val; } else { if (rule1->branch == rule2->branch) { bool_val = rule2->bool_val; } else { bool_val = ~rule2->bool_val; } if (rule1->bool_val < bool_val) { return -1; } else if (rule1->bool_val > bool_val) { return 1; } return 0; } } static int avrule_bst_comp(const void *x, const void *y, void *data __attribute__ ((unused))) { const pseudo_avrule_t *r1 = (const pseudo_avrule_t *)x; const pseudo_avrule_t *r2 = (const pseudo_avrule_t *)y; return pseudo_avrule_comp(r1, r2, 1); } /** * Given a conditional expression, convert its booleans to a sorted * array of pseudo-boolean values, assign that array to the * pseudo-avrule key, and then derive the truth table. * * @param diff Policy difference structure. * @param p Policy containing conditional. * @param cond Conditional expression to convert. * @param key Location to write converted expression. */ static int avrule_build_cond(poldiff_t * diff, const apol_policy_t * p, const qpol_cond_t * cond, pseudo_avrule_t * key) { qpol_iterator_t *iter = NULL; qpol_cond_expr_node_t *node; uint32_t expr_type, truthiness; qpol_bool_t *bools[5] = { NULL, NULL, NULL, NULL, NULL }, *qbool; size_t i, j; size_t num_bools = 0; const char *bool_name; char *pseudo_bool, *t; qpol_policy_t *q = apol_policy_get_qpol(p); int retval = -1, error = 0, compval; if (qpol_cond_get_expr_node_iter(q, cond, &iter) < 0) { error = errno; goto cleanup; } for (; !qpol_iterator_end(iter); qpol_iterator_next(iter)) { if (qpol_iterator_get_item(iter, (void **)&node) < 0 || qpol_cond_expr_node_get_expr_type(q, node, &expr_type) < 0) { error = errno; goto cleanup; } if (expr_type != QPOL_COND_EXPR_BOOL) { continue; } if (qpol_cond_expr_node_get_bool(q, node, &qbool) < 0) { error = errno; goto cleanup; } for (i = 0; i < num_bools; i++) { if (bools[i] == qbool) { break; } } if (i >= num_bools) { assert(i < 5); bools[i] = qbool; num_bools++; } } for (i = 0; i < num_bools; i++) { if (qpol_bool_get_name(q, bools[i], &bool_name) < 0) { error = errno; goto cleanup; } if (apol_bst_get_element(diff->bool_bst, (void *)bool_name, NULL, (void **)&pseudo_bool) < 0) { error = EBADRQC; /* should never get here */ ERR(diff, "%s", strerror(error)); assert(0); goto cleanup; } key->bools[i] = pseudo_bool; } /* bubble sorth the pseudo bools (not bad because there are at * most five elements */ for (i = num_bools; i > 1; i--) { for (j = 1; j < i; j++) { compval = strcmp(key->bools[j - 1], key->bools[j]); if (compval > 0) { t = key->bools[j]; key->bools[j] = key->bools[j - 1]; key->bools[j - 1] = t; qbool = bools[j]; bools[j] = bools[j - 1]; bools[j - 1] = qbool; } } } /* now compute the truth table for the booleans */ key->bool_val = 0; for (i = 0; i < 32; i++) { for (j = 0; j < num_bools; j++) { int state = ((i & (1 << j)) ? 1 : 0); if (qpol_bool_set_state_no_eval(q, bools[j], state) < 0) { error = errno; goto cleanup; } } if (qpol_cond_eval(q, cond, &truthiness) < 0) { error = errno; goto cleanup; } key->bool_val = (key->bool_val << 1) | truthiness; } key->cond = cond; retval = 0; cleanup: qpol_iterator_destroy(&iter); return retval; } /** * Bubble sort the permissions within a pseudo-avrule, sorted by * pointer value. (Bubble-sort is fine because the number of * permissions will usually be less than 10.) Then uniquify the list. * * @param key Rule whose permissions to sort. */ static void sort_and_uniquify_perms(pseudo_avrule_t * key) { size_t i, j; char *t; for (i = key->num_perms; i > 1; i--) { for (j = 1; j < i; j++) { if (key->perms[j - 1] > key->perms[j]) { t = key->perms[j]; key->perms[j] = key->perms[j - 1]; key->perms[j - 1] = t; } } } for (i = 1; i < key->num_perms; i++) { if (key->perms[i] == key->perms[i - 1]) { memmove(key->perms + i, key->perms + i + 1, (key->num_perms - i - 1) * sizeof(key->perms[0])); key->num_perms--; } } } /** * Given a rule, construct a new pseudo-avrule and insert it into the * BST if not already there. * * @param diff Policy difference structure. * @param p Policy from which the rule came. * @param rule AV rule to insert. * @param source Source pseudo-type value. * @param target Target pseudo-type value. * @param b BST containing pseudo-avrules. * * @return 0 on success, < 0 on error. */ static int avrule_add_to_bst(poldiff_t * diff, const apol_policy_t * p, const qpol_avrule_t * rule, uint32_t source, uint32_t target, apol_bst_t * b) { pseudo_avrule_t *key, *inserted_key; const qpol_class_t *obj_class; qpol_iterator_t *perm_iter = NULL; const char *class_name; char *perm_name, *pseudo_perm, **t; size_t num_perms; const qpol_cond_t *cond; qpol_policy_t *q = apol_policy_get_qpol(p); int retval = -1, error = 0, compval; if ((key = calloc(1, sizeof(*key))) == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } if (qpol_avrule_get_rule_type(q, rule, &(key->spec)) < 0 || qpol_avrule_get_object_class(q, rule, &obj_class) < 0 || qpol_avrule_get_perm_iter(q, rule, &perm_iter) < 0 || qpol_avrule_get_cond(q, rule, &cond) < 0) { error = errno; goto cleanup; } if (qpol_class_get_name(q, obj_class, &class_name) < 0) { error = errno; goto cleanup; } if (apol_bst_get_element(diff->class_bst, (void *)class_name, NULL, (void **)&key->cls) < 0) { error = EBADRQC; /* should never get here */ ERR(diff, "%s", strerror(error)); assert(0); goto cleanup; } key->source = source; key->target = target; if (cond != NULL && (qpol_avrule_get_which_list(q, rule, &(key->branch)) < 0 || avrule_build_cond(diff, p, cond, key) < 0)) { error = errno; goto cleanup; } /* insert this pseudo into the tree if not already there */ if ((compval = apol_bst_insert_and_get(b, (void **)&key, NULL)) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } inserted_key = key; key = NULL; /* append and uniquify this rule's permissions */ if (qpol_iterator_get_size(perm_iter, &num_perms) < 0) { error = errno; goto cleanup; } if ((t = realloc(inserted_key->perms, (inserted_key->num_perms + num_perms) * sizeof(*t))) == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } inserted_key->perms = t; for (; !qpol_iterator_end(perm_iter); qpol_iterator_next(perm_iter)) { if (qpol_iterator_get_item(perm_iter, (void *)&perm_name) < 0) { error = errno; goto cleanup; } if (apol_bst_get_element(diff->perm_bst, perm_name, NULL, (void **)&pseudo_perm) < 0) { error = EBADRQC; /* should never get here */ ERR(diff, "%s", strerror(error)); assert(0); free(perm_name); goto cleanup; } free(perm_name); inserted_key->perms[(inserted_key->num_perms)++] = pseudo_perm; } sort_and_uniquify_perms(inserted_key); /* store the rule pointer, to be used for showing line numbers */ if (qpol_policy_has_capability(q, QPOL_CAP_LINE_NUMBERS)) { const qpol_avrule_t **a = realloc(inserted_key->rules, (inserted_key->num_rules + 1) * sizeof(*a)); if (a == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } inserted_key->rules = a; inserted_key->rules[inserted_key->num_rules++] = rule; } retval = 0; cleanup: qpol_iterator_destroy(&perm_iter); if (retval < 0) { avrule_free_item(key); } errno = error; return retval; } /** * Given a rule, expand its source and target types into individual * pseudo-type values. Then add the expanded rules to the BST. This * is needed for when the source and/or target is an attribute. * * @param diff Policy difference structure. * @param p Policy from which the rule came. * @param rule AV rule to insert. * @param b BST containing pseudo-avrules. * * @return 0 on success, < 0 on error. */ static int avrule_expand(poldiff_t * diff, const apol_policy_t * p, const qpol_avrule_t * rule, apol_bst_t * b) { const qpol_type_t *source, *orig_target, *target; unsigned char source_attr, target_attr; qpol_iterator_t *source_iter = NULL, *target_iter = NULL; uint32_t source_val, target_val; qpol_policy_t *q = apol_policy_get_qpol(p); int which = (p == diff->orig_pol ? POLDIFF_POLICY_ORIG : POLDIFF_POLICY_MOD); int retval = -1, error = 0; if (qpol_avrule_get_source_type(q, rule, &source) < 0 || qpol_avrule_get_target_type(q, rule, &orig_target) < 0 || qpol_type_get_isattr(q, source, &source_attr) < 0 || qpol_type_get_isattr(q, orig_target, &target_attr)) { error = errno; goto cleanup; } #ifdef SETOOLS_DEBUG const char *orig_source_name, *orig_target_name; qpol_type_get_name(q, source, &orig_source_name); qpol_type_get_name(q, orig_target, &orig_target_name); #endif if (source_attr) { if (qpol_type_get_type_iter(q, source, &source_iter) < 0) { error = errno; goto cleanup; } /* handle situation where a rule has as its source an * attribute without any types */ if (qpol_iterator_end(source_iter)) { retval = 0; goto cleanup; } } do { if (source_attr) { if (qpol_iterator_get_item(source_iter, (void **)&source) < 0) { error = errno; goto cleanup; } qpol_iterator_next(source_iter); } if (target_attr) { if (qpol_type_get_type_iter(q, orig_target, &target_iter) < 0) { error = errno; goto cleanup; } /* handle situation where a rule has as its * target an attribute without any types */ if (qpol_iterator_end(target_iter)) { retval = 0; goto cleanup; } } else { target = orig_target; } do { if (target_attr) { if (qpol_iterator_get_item(target_iter, (void **)&target) < 0) { error = errno; goto cleanup; } qpol_iterator_next(target_iter); } #ifdef SETOOLS_DEBUG const char *n1, *n2; qpol_type_get_name(q, source, &n1); qpol_type_get_name(q, target, &n2); #endif if ((source_val = type_map_lookup(diff, source, which)) == 0 || (target_val = type_map_lookup(diff, target, which)) == 0 || avrule_add_to_bst(diff, p, rule, source_val, target_val, b) < 0) { error = errno; goto cleanup; } } while (target_attr && !qpol_iterator_end(target_iter)); qpol_iterator_destroy(&target_iter); } while (source_attr && !qpol_iterator_end(source_iter)); retval = 0; cleanup: qpol_iterator_destroy(&source_iter); qpol_iterator_destroy(&target_iter); errno = error; return retval; } /** * Get a vector of avrules from the given policy, sorted. This * function will remap source and target types to their pseudo-type * value equivalents. * * @param diff Policy diff error handler. * @param policy The policy from which to get the items. * @param which Kind of rule to get, one of QPOL_RULE_ALLOW, etc. * * @return A newly allocated vector of all av rules (of type * pseudo_avrule_t). The caller is responsible for calling * apol_vector_destroy() afterwards. On error, return NULL and set * errno. */ static apol_vector_t *avrule_get_items(poldiff_t * diff, const apol_policy_t * policy, const unsigned int which) { apol_vector_t *bools = NULL, *bool_states = NULL; size_t i, num_rules, j; apol_bst_t *b = NULL; apol_vector_t *v = NULL; qpol_iterator_t *iter = NULL; const qpol_avrule_t *rule; qpol_policy_t *q = apol_policy_get_qpol(policy); int retval = -1, error = 0; /* special case: if getting neverallow rules if the policy does not support it, then return an empty vector */ if (which == QPOL_RULE_NEVERALLOW && !qpol_policy_has_capability(q, QPOL_CAP_NEVERALLOW)) { v = apol_vector_create_with_capacity(1, avrule_free_item); if (v == NULL) { ERR(diff, "%s", strerror(error)); } return v; } if (poldiff_build_bsts(diff) < 0) { error = errno; goto cleanup; } /* store original boolean values */ if (apol_bool_get_by_query(policy, NULL, &bools) < 0) { error = errno; goto cleanup; } if ((bool_states = apol_vector_create_with_capacity(apol_vector_get_size(bools), NULL)) == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } for (i = 0; i < apol_vector_get_size(bools); i++) { qpol_bool_t *qbool = apol_vector_get_element(bools, i); int state; if (qpol_bool_get_state(q, qbool, &state) < 0) { error = errno; goto cleanup; } if (apol_vector_append(bool_states, (void *)((size_t) state)) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } } if ((b = apol_bst_create(avrule_bst_comp, avrule_free_item)) == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } if (qpol_policy_get_avrule_iter(q, which, &iter) < 0) { error = errno; goto cleanup; } qpol_iterator_get_size(iter, &num_rules); for (j = 0; !qpol_iterator_end(iter); qpol_iterator_next(iter), j++) { if (qpol_iterator_get_item(iter, (void **)&rule) < 0 || avrule_expand(diff, policy, rule, b) < 0) { error = errno; goto cleanup; } if (!(j % 1024)) { int percent = 50 * j / num_rules + (policy == diff->mod_pol ? 50 : 0); INFO(diff, "Computing AV rule difference: %02d%% complete", percent); } } if ((v = apol_bst_get_vector(b, 1)) == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } retval = 0; cleanup: /* restore boolean states */ for (i = 0; i < apol_vector_get_size(bools); i++) { qpol_bool_t *qbool = apol_vector_get_element(bools, i); int state = (int)((size_t) apol_vector_get_element(bool_states, i)); qpol_bool_set_state_no_eval(q, qbool, state); } qpol_policy_reevaluate_conds(q); apol_vector_destroy(&bools); apol_vector_destroy(&bool_states); apol_bst_destroy(&b); qpol_iterator_destroy(&iter); if (retval < 0) { apol_vector_destroy(&v); errno = error; return NULL; } return v; } apol_vector_t *avrule_get_items_allow(poldiff_t * diff, const apol_policy_t * policy) { return avrule_get_items(diff, policy, QPOL_RULE_ALLOW); } apol_vector_t *avrule_get_items_auditallow(poldiff_t * diff, const apol_policy_t * policy) { return avrule_get_items(diff, policy, QPOL_RULE_AUDITALLOW); } apol_vector_t *avrule_get_items_dontaudit(poldiff_t * diff, const apol_policy_t * policy) { return avrule_get_items(diff, policy, QPOL_RULE_DONTAUDIT); } apol_vector_t *avrule_get_items_neverallow(poldiff_t * diff, const apol_policy_t * policy) { return avrule_get_items(diff, policy, QPOL_RULE_NEVERALLOW); } int avrule_comp(const void *x, const void *y, const poldiff_t * diff __attribute__ ((unused))) { const pseudo_avrule_t *r1 = (const pseudo_avrule_t *)x; const pseudo_avrule_t *r2 = (const pseudo_avrule_t *)y; return pseudo_avrule_comp(r1, r2, 0); } /** * Allocate and return a new avrule difference object. If the * pseudo-avrule's source and/or target expands to multiple read * types, then just choose the first one for display. * * @param diff Policy diff error handler. * @param form Form of the difference. * @param rule Pseudo avrule that changed. * * @return A newly allocated and initialized diff, or NULL upon error. * The caller is responsible for calling poldiff_avrule_free() upon * the returned value. */ static poldiff_avrule_t *make_avdiff(poldiff_t * diff, poldiff_form_e form, pseudo_avrule_t * rule) { poldiff_avrule_t *pa = NULL; const char *n1, *n2; int error = 0; if (form == POLDIFF_FORM_ADDED || form == POLDIFF_FORM_ADD_TYPE) { n1 = type_map_get_name(diff, rule->source, POLDIFF_POLICY_MOD); n2 = type_map_get_name(diff, rule->target, POLDIFF_POLICY_MOD); } else { n1 = type_map_get_name(diff, rule->source, POLDIFF_POLICY_ORIG); n2 = type_map_get_name(diff, rule->target, POLDIFF_POLICY_ORIG); } assert(n1 != NULL && n2 != NULL); if ((pa = calloc(1, sizeof(*pa))) == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } pa->spec = rule->spec; pa->source = n1; pa->target = n2; pa->cls = rule->cls; pa->form = form; pa->cond = rule->cond; pa->branch = rule->branch; cleanup: if (error != 0) { poldiff_avrule_free(pa); errno = error; return NULL; } return pa; } /** * Create, initialize, and insert a new semantic difference entry for * a pseudo-av rule. * * @param diff The policy difference structure to which to add the entry. * @param form The form of the difference. * @param item Item for which the entry is being created. * @param idx Index into the avrule differences specifying into which * to place the constructed pseudo-av rule. * * @return 0 on success and < 0 on error; if the call fails, set errno * and leave the policy difference structure unchanged. */ static int avrule_new_diff(poldiff_t * diff, poldiff_form_e form, const void *item, avrule_offset_e idx) { pseudo_avrule_t *rule = (pseudo_avrule_t *) item; poldiff_avrule_t *pa = NULL; const apol_vector_t *v1, *v2; apol_vector_t **target; apol_policy_t *p; size_t i; int retval = -1, error = errno; /* check if form should really become ADD_TYPE / REMOVE_TYPE, * by seeing if the /other/ policy's reverse lookup is * empty */ if (form == POLDIFF_FORM_ADDED) { if ((v1 = type_map_lookup_reverse(diff, rule->source, POLDIFF_POLICY_ORIG)) == NULL || (v2 = type_map_lookup_reverse(diff, rule->target, POLDIFF_POLICY_ORIG)) == NULL) { error = errno; goto cleanup; } if (apol_vector_get_size(v1) == 0 || apol_vector_get_size(v2) == 0) { form = POLDIFF_FORM_ADD_TYPE; } p = diff->mod_pol; } else { if ((v1 = type_map_lookup_reverse(diff, rule->source, POLDIFF_POLICY_MOD)) == NULL || (v2 = type_map_lookup_reverse(diff, rule->target, POLDIFF_POLICY_MOD)) == NULL) { error = errno; goto cleanup; } if (apol_vector_get_size(v1) == 0 || apol_vector_get_size(v2) == 0) { form = POLDIFF_FORM_REMOVE_TYPE; } p = diff->orig_pol; } pa = make_avdiff(diff, form, rule); if (pa == NULL) { return -1; } if (form == POLDIFF_FORM_ADDED || form == POLDIFF_FORM_ADD_TYPE) { if ((pa->removed_perms = apol_vector_create_with_capacity(1, NULL)) == NULL || (pa->unmodified_perms = apol_vector_create_with_capacity(1, NULL)) == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } target = &pa->added_perms; } else { if ((pa->added_perms = apol_vector_create_with_capacity(1, NULL)) == NULL || (pa->unmodified_perms = apol_vector_create_with_capacity(1, NULL)) == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } target = &pa->removed_perms; } if ((*target = apol_vector_create_with_capacity(rule->num_perms, NULL)) == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } for (i = 0; i < rule->num_perms; i++) { if (apol_vector_append(*target, rule->perms[i]) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } } apol_vector_sort(*target, apol_str_strcmp, NULL); if (qpol_policy_has_capability(apol_policy_get_qpol(p), QPOL_CAP_LINE_NUMBERS)) { /* calculate line numbers */ apol_vector_t *vl = NULL; if ((vl = apol_vector_create(NULL)) == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } if (form == POLDIFF_FORM_ADDED || form == POLDIFF_FORM_ADD_TYPE) { pa->mod_linenos = vl; } else { pa->orig_linenos = vl; } /* copy rule pointers for delayed line number claculation */ if (form == POLDIFF_FORM_ADDED || form == POLDIFF_FORM_ADD_TYPE) { pa->num_mod_rules = rule->num_rules; pa->mod_rules = calloc(rule->num_rules, sizeof(qpol_avrule_t *)); if (!pa->mod_rules) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } memcpy(pa->mod_rules, rule->rules, rule->num_rules * sizeof(qpol_avrule_t *)); } else { pa->num_orig_rules = rule->num_rules; pa->orig_rules = calloc(rule->num_rules, sizeof(qpol_avrule_t *)); if (!pa->orig_rules) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } memcpy(pa->orig_rules, rule->rules, rule->num_rules * sizeof(qpol_avrule_t *)); } } if (apol_vector_append(diff->avrule_diffs[idx]->diffs, pa) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } switch (form) { case POLDIFF_FORM_ADDED: diff->avrule_diffs[idx]->num_added++; break; case POLDIFF_FORM_ADD_TYPE: diff->avrule_diffs[idx]->num_added_type++; break; case POLDIFF_FORM_REMOVED: diff->avrule_diffs[idx]->num_removed++; break; case POLDIFF_FORM_REMOVE_TYPE: diff->avrule_diffs[idx]->num_removed_type++; break; default: error = EBADRQC; /* should never get here */ ERR(diff, "%s", strerror(error)); assert(0); goto cleanup; } diff->avrule_diffs[idx]->diffs_sorted = 0; retval = 0; cleanup: if (retval < 0) { poldiff_avrule_free(pa); } errno = error; return retval; } int avrule_new_diff_allow(poldiff_t * diff, poldiff_form_e form, const void *item) { return avrule_new_diff(diff, form, item, AVRULE_OFFSET_ALLOW); } int avrule_new_diff_auditallow(poldiff_t * diff, poldiff_form_e form, const void *item) { return avrule_new_diff(diff, form, item, AVRULE_OFFSET_AUDITALLOW); } int avrule_new_diff_dontaudit(poldiff_t * diff, poldiff_form_e form, const void *item) { return avrule_new_diff(diff, form, item, AVRULE_OFFSET_DONTAUDIT); } int avrule_new_diff_neverallow(poldiff_t * diff, poldiff_form_e form, const void *item) { return avrule_new_diff(diff, form, item, AVRULE_OFFSET_NEVERALLOW); } /** * Compute the semantic difference of two pseudo-av rules for which * the compare callback returns 0. If a difference is found then * allocate, initialize, and insert a new semantic difference entry * for that pseudo-av rule. * * @param diff The policy difference structure associated with both * pseudo-av rules and to which to add an entry if needed. * @param x The pseudo-av rule from the original policy. * @param y The pseudo-av rule from the modified policy. * @param idx Index into the avrule differences specifying into which * to place the constructed pseudo-av rule. * * @return 0 on success and < 0 on error; if the call fails, set errno * and leave the policy difference structure unchanged. */ static int avrule_deep_diff(poldiff_t * diff, const void *x, const void *y, avrule_offset_e idx) { pseudo_avrule_t *r1 = (pseudo_avrule_t *) x; pseudo_avrule_t *r2 = (pseudo_avrule_t *) y; apol_vector_t *unmodified_perms = NULL, *added_perms = NULL, *removed_perms = NULL; size_t i, j; char *perm1, *perm2; poldiff_avrule_t *pa = NULL; int retval = -1, error = 0; if ((unmodified_perms = apol_vector_create(NULL)) == NULL || (added_perms = apol_vector_create(NULL)) == NULL || (removed_perms = apol_vector_create(NULL)) == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } for (i = j = 0; i < r1->num_perms;) { if (j >= r2->num_perms) break; perm1 = r1->perms[i]; perm2 = r2->perms[j]; if (perm2 > perm1) { if (apol_vector_append(removed_perms, perm1) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } i++; } else if (perm1 > perm2) { if (apol_vector_append(added_perms, perm2) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } j++; } else { if (apol_vector_append(unmodified_perms, perm1) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } i++; j++; } } for (; i < r1->num_perms; i++) { perm1 = r1->perms[i]; if (apol_vector_append(removed_perms, perm1) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } } for (; j < r2->num_perms; j++) { perm2 = r2->perms[j]; if (apol_vector_append(added_perms, perm2) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } } if (apol_vector_get_size(added_perms) > 0 || apol_vector_get_size(removed_perms) > 0) { if ((pa = make_avdiff(diff, POLDIFF_FORM_MODIFIED, r1)) == NULL) { error = errno; goto cleanup; } pa->unmodified_perms = unmodified_perms; pa->added_perms = added_perms; pa->removed_perms = removed_perms; unmodified_perms = NULL; added_perms = NULL; removed_perms = NULL; apol_vector_sort(pa->unmodified_perms, apol_str_strcmp, NULL); apol_vector_sort(pa->added_perms, apol_str_strcmp, NULL); apol_vector_sort(pa->removed_perms, apol_str_strcmp, NULL); /* calculate line numbers */ if (qpol_policy_has_capability(apol_policy_get_qpol(diff->orig_pol), QPOL_CAP_LINE_NUMBERS)) { if ((pa->orig_linenos = apol_vector_create(NULL)) == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } /* copy rule pointers for delayed line number claculation */ pa->num_orig_rules = r1->num_rules; pa->orig_rules = calloc(r1->num_rules, sizeof(qpol_avrule_t *)); if (!pa->orig_rules) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } memcpy(pa->orig_rules, r1->rules, r1->num_rules * sizeof(qpol_avrule_t *)); } if (qpol_policy_has_capability(apol_policy_get_qpol(diff->mod_pol), QPOL_CAP_LINE_NUMBERS)) { if ((pa->mod_linenos = apol_vector_create(NULL)) == NULL) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } /* copy rule pointers for delayed line number claculation */ pa->num_mod_rules = r2->num_rules; pa->mod_rules = calloc(r2->num_rules, sizeof(qpol_avrule_t *)); if (!pa->mod_rules) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } memcpy(pa->mod_rules, r2->rules, r2->num_rules * sizeof(qpol_avrule_t *)); } if (apol_vector_append(diff->avrule_diffs[idx]->diffs, pa) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto cleanup; } diff->avrule_diffs[idx]->num_modified++; diff->avrule_diffs[idx]->diffs_sorted = 0; } retval = 0; cleanup: apol_vector_destroy(&unmodified_perms); apol_vector_destroy(&added_perms); apol_vector_destroy(&removed_perms); if (retval != 0) { poldiff_avrule_free(pa); } errno = error; return retval; } int avrule_deep_diff_allow(poldiff_t * diff, const void *x, const void *y) { return avrule_deep_diff(diff, x, y, AVRULE_OFFSET_ALLOW); } int avrule_deep_diff_auditallow(poldiff_t * diff, const void *x, const void *y) { return avrule_deep_diff(diff, x, y, AVRULE_OFFSET_AUDITALLOW); } int avrule_deep_diff_dontaudit(poldiff_t * diff, const void *x, const void *y) { return avrule_deep_diff(diff, x, y, AVRULE_OFFSET_DONTAUDIT); } int avrule_deep_diff_neverallow(poldiff_t * diff, const void *x, const void *y) { return avrule_deep_diff(diff, x, y, AVRULE_OFFSET_NEVERALLOW); } int avrule_enable_line_numbers(poldiff_t * diff, avrule_offset_e idx) { const apol_vector_t *av = NULL; poldiff_avrule_t *avrule = NULL; size_t i, j; qpol_iterator_t *iter = NULL; qpol_syn_avrule_t *sav = NULL; int error = 0; unsigned long lineno = 0; av = poldiff_get_avrule_vector(diff, idx); for (i = 0; i < apol_vector_get_size(av); i++) { avrule = apol_vector_get_element(av, i); if (apol_vector_get_size(avrule->mod_linenos) || apol_vector_get_size(avrule->orig_linenos)) continue; for (j = 0; j < avrule->num_orig_rules; j++) { if (qpol_avrule_get_syn_avrule_iter(diff->orig_qpol, avrule->orig_rules[j], &iter)) { error = errno; goto err; } for (; !qpol_iterator_end(iter); qpol_iterator_next(iter)) { if (qpol_iterator_get_item(iter, (void **)&sav) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto err; } if (qpol_syn_avrule_get_lineno(diff->orig_qpol, sav, &lineno) < 0) { error = errno; goto err; } if (apol_vector_append(avrule->orig_linenos, (void *)lineno) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto err; } } qpol_iterator_destroy(&iter); } apol_vector_sort_uniquify(avrule->orig_linenos, NULL, NULL); for (j = 0; j < avrule->num_mod_rules; j++) { if (qpol_avrule_get_syn_avrule_iter(diff->mod_qpol, avrule->mod_rules[j], &iter)) { error = errno; goto err; } for (; !qpol_iterator_end(iter); qpol_iterator_next(iter)) { if (qpol_iterator_get_item(iter, (void **)&sav) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto err; } if (qpol_syn_avrule_get_lineno(diff->mod_qpol, sav, &lineno) < 0) { error = errno; goto err; } if (apol_vector_append(avrule->mod_linenos, (void *)lineno) < 0) { error = errno; ERR(diff, "%s", strerror(error)); goto err; } } qpol_iterator_destroy(&iter); } apol_vector_sort_uniquify(avrule->mod_linenos, NULL, NULL); } return 0; err: qpol_iterator_destroy(&iter); return -1; }