#include #include "cil_flavor.h" #include "cil_internal.h" #include "cil_log.h" #include "cil_tree.h" struct cil_args_write { FILE *cil_out; struct cil_db *db; }; static int cil_unfill_expr(struct cil_list *expr_str, char **out_str, int paren); static int cil_unfill_classperms_list(struct cil_list *classperms, char **out_str, int paren); static int __cil_write_first_child_helper(struct cil_tree_node *node, void *extra_args); static int __cil_write_node_helper(struct cil_tree_node *node, uint32_t *finished, void *extra_args); static int __cil_write_last_child_helper(struct cil_tree_node *node, void *extra_args); static int __cil_strlist_concat(struct cil_list *str_list, char **out_str, int paren) { size_t len = paren ? 3 : 1; size_t num_elems = 0; char *p = NULL; struct cil_list_item *curr; /* get buffer size */ cil_list_for_each(curr, str_list) { len += strlen((char *)curr->data); num_elems++; } if (num_elems != 0) { /* add spaces between elements */ len += num_elems - 1; } *out_str = cil_malloc(len); p = *out_str; if (paren) *p++ = '('; cil_list_for_each(curr, str_list) { size_t src_len = strlen((char *)curr->data); memcpy(p, curr->data, src_len); p += src_len; if (curr->next != NULL) *p++ = ' '; } if (paren) *p++ = ')'; *p++ = '\0'; return SEPOL_OK; } static int __cil_unfill_expr_helper(struct cil_list_item *curr, struct cil_list_item **next, char **out_str, int paren) { int rc = SEPOL_ERR; char *str = NULL; char *operand1 = NULL; char *operand2 = NULL; switch(curr->flavor) { case CIL_LIST: rc = cil_unfill_expr((struct cil_list *)curr->data, &str, paren); if (rc != SEPOL_OK) goto exit; *out_str = str; *next = curr->next; break; case CIL_STRING: str = strdup((char *)curr->data); if (!str) { cil_log(CIL_ERR, "OOM. Unable to copy string.\n"); rc = SEPOL_ERR; goto exit; } *out_str = str; *next = curr->next; break; case CIL_DATUM: str = strdup(((struct cil_symtab_datum *)curr->data)->name); if (!str) { cil_log(CIL_ERR, "OOM. Unable to copy string.\n"); rc = SEPOL_ERR; goto exit; } *out_str = str; *next = curr->next; break; case CIL_OP: { char *op_str = NULL; size_t len = 0; enum cil_flavor op_flavor = (enum cil_flavor)curr->data; switch (op_flavor) { case CIL_AND: op_str = CIL_KEY_AND; break; case CIL_OR: op_str = CIL_KEY_OR; break; case CIL_NOT: op_str = CIL_KEY_NOT; break; case CIL_ALL: op_str = CIL_KEY_ALL; break; case CIL_EQ: op_str = CIL_KEY_EQ; break; case CIL_NEQ: op_str = CIL_KEY_NEQ; break; case CIL_RANGE: op_str = CIL_KEY_RANGE; break; case CIL_XOR: op_str = CIL_KEY_XOR; break; case CIL_CONS_DOM: op_str = CIL_KEY_CONS_DOM; break; case CIL_CONS_DOMBY: op_str = CIL_KEY_CONS_DOMBY; break; case CIL_CONS_INCOMP: op_str = CIL_KEY_CONS_INCOMP; break; default: cil_log(CIL_ERR, "Unknown operator in expression: %d\n", op_flavor); goto exit; break; } /* all operands take two args except for 'all' and 'not', which take * one and two, respectively */ len = strlen(op_str) + 3; if (op_flavor == CIL_ALL) { *out_str = cil_malloc(len); sprintf(*out_str, "(%s)", op_str); *next = curr->next; } else if (op_flavor == CIL_NOT) { rc = __cil_unfill_expr_helper(curr->next, next, &operand1, paren); if (rc != SEPOL_OK) goto exit; len += strlen(operand1) + 1; *out_str = cil_malloc(len); sprintf(*out_str, "(%s %s)", op_str, operand1); // *next already set by recursive call } else { rc = __cil_unfill_expr_helper(curr->next, next, &operand1, paren); if (rc != SEPOL_OK) goto exit; len += strlen(operand1) + 1; // *next contains operand2, but keep track of next after that rc = __cil_unfill_expr_helper(*next, next, &operand2, paren); if (rc != SEPOL_OK) goto exit; len += strlen(operand2) + 1; *out_str = cil_malloc(len); sprintf(*out_str, "(%s %s %s)", op_str, operand1, operand2); // *next already set by recursive call } } break; case CIL_CONS_OPERAND: { enum cil_flavor operand_flavor = (enum cil_flavor)curr->data; char *operand_str = NULL; switch (operand_flavor) { case CIL_CONS_U1: operand_str = CIL_KEY_CONS_U1; break; case CIL_CONS_U2: operand_str = CIL_KEY_CONS_U2; break; case CIL_CONS_U3: operand_str = CIL_KEY_CONS_U3; break; case CIL_CONS_T1: operand_str = CIL_KEY_CONS_T1; break; case CIL_CONS_T2: operand_str = CIL_KEY_CONS_T2; break; case CIL_CONS_T3: operand_str = CIL_KEY_CONS_T3; break; case CIL_CONS_R1: operand_str = CIL_KEY_CONS_R1; break; case CIL_CONS_R2: operand_str = CIL_KEY_CONS_R2; break; case CIL_CONS_R3: operand_str = CIL_KEY_CONS_R3; break; case CIL_CONS_L1: operand_str = CIL_KEY_CONS_L1; break; case CIL_CONS_L2: operand_str = CIL_KEY_CONS_L2; break; case CIL_CONS_H1: operand_str = CIL_KEY_CONS_H1; break; case CIL_CONS_H2: operand_str = CIL_KEY_CONS_H2; break; default: cil_log(CIL_ERR, "Unknown operand in expression\n"); goto exit; break; } str = strdup(operand_str); if (!str) { cil_log(CIL_ERR, "OOM. Unable to copy string.\n"); rc = SEPOL_ERR; goto exit; } *out_str = str; *next = curr->next; } break; default: cil_log(CIL_ERR, "Unknown flavor in expression\n"); goto exit; break; } rc = SEPOL_OK; exit: free(operand1); free(operand2); return rc; } static int cil_unfill_expr(struct cil_list *expr_str, char **out_str, int paren) { int rc = SEPOL_ERR; /* reuse cil_list to keep track of strings */ struct cil_list *str_list = NULL; struct cil_list_item *curr = NULL; cil_list_init(&str_list, CIL_NONE); /* iterate through cil_list, grabbing elements as needed */ curr = expr_str->head; while(curr != NULL) { char *str = NULL; struct cil_list_item *next = NULL; rc = __cil_unfill_expr_helper(curr, &next, &str, paren); if (rc != SEPOL_OK) goto exit; cil_list_append(str_list, CIL_STRING, (void *) str); str = NULL; curr = next; } rc = __cil_strlist_concat(str_list, out_str, paren); if (rc != SEPOL_OK) goto exit; rc = SEPOL_OK; exit: cil_list_for_each(curr, str_list) { free(curr->data); } cil_list_destroy(&str_list, 0); return rc; } static int cil_unfill_cats(struct cil_cats *cats, char **out_str) { return cil_unfill_expr(cats->str_expr, out_str, 0); } static int cil_unfill_level(struct cil_level *lvl, char **out_str) { int rc = SEPOL_ERR; size_t len = 0; char *sens, *cats = NULL; sens = lvl->sens_str; len = strlen(sens) + 3; // '()\0' if (lvl->cats != NULL) { rc = cil_unfill_cats(lvl->cats, &cats); if (rc != SEPOL_OK) goto exit; len += strlen(cats) + 1; } *out_str = cil_malloc(len); if (cats == NULL) { if (sprintf(*out_str, "(%s)", sens) < 0) { cil_log(CIL_ERR, "Error unpacking and writing level\n"); rc = SEPOL_ERR; goto exit; } } else { if (sprintf(*out_str, "(%s %s)", sens, cats) < 0) { cil_log(CIL_ERR, "Error unpacking and writing level\n"); rc = SEPOL_ERR; goto exit; } } rc = SEPOL_OK; exit: free(cats); return rc; } static int cil_unfill_levelrange(struct cil_levelrange *lvlrnge, char **out_str) { int rc = SEPOL_ERR; size_t len = 0; char *low = NULL, *high = NULL; if (lvlrnge->low_str != NULL) { low = strdup(lvlrnge->low_str); if (low == NULL) { cil_log(CIL_ERR, "OOM. Unable to copy level string.\n"); rc = SEPOL_ERR; goto exit; } } else { rc = cil_unfill_level(lvlrnge->low, &low); if (rc != SEPOL_OK) goto exit; } if (lvlrnge->high_str != NULL) { high = strdup(lvlrnge->high_str); if (high == NULL) { cil_log(CIL_ERR, "OOM. Unable to copy level string.\n"); rc = SEPOL_ERR; goto exit; } } else { rc = cil_unfill_level(lvlrnge->high, &high); if (rc != SEPOL_OK) goto exit; } len = strlen(low) + strlen(high) + 4; *out_str = cil_malloc(len); if (sprintf(*out_str, "(%s %s)", low, high) < 0) { cil_log(CIL_ERR, "Error unpacking and writing levelrange\n"); rc = SEPOL_ERR; goto exit; } rc = SEPOL_OK; exit: free(low); free(high); return rc; } static int cil_unfill_context(struct cil_context *context, char **out_str) { int rc = SEPOL_ERR; size_t len = 0; char *user_str, *role_str, *type_str; char *range_str = NULL; user_str = context->user_str; role_str = context->role_str; type_str = context->type_str; if (context->range_str != NULL) { range_str = strdup(context->range_str); if (range_str == NULL) { cil_log(CIL_ERR, "OOM. Unable to copy range string.\n"); rc = SEPOL_ERR; goto exit; } } else { rc = cil_unfill_levelrange(context->range, &range_str); if (rc != SEPOL_OK) goto exit; } len = strlen(user_str) + strlen(role_str) + strlen(type_str) + strlen(range_str) + 6; *out_str = cil_malloc(len); if (sprintf(*out_str, "(%s %s %s %s)", user_str, role_str, type_str, range_str) < 0) { cil_log(CIL_ERR, "Error unpacking and writing context\n"); rc = SEPOL_ERR; goto exit; } rc = SEPOL_OK; exit: free(range_str); return rc; } static int cil_unfill_permx(struct cil_permissionx *permx, char **out_str) { size_t len = 3; int rc = SEPOL_ERR; char *kind, *obj; char *expr = NULL; switch (permx->kind) { case CIL_PERMX_KIND_IOCTL: kind = CIL_KEY_IOCTL; break; default: cil_log(CIL_ERR, "Unknown permissionx kind: %d\n", permx->kind); rc = SEPOL_ERR; goto exit; break; } obj = permx->obj_str; rc = cil_unfill_expr(permx->expr_str, &expr, 1); if (rc != SEPOL_OK) goto exit; len += strlen(kind) + strlen(obj) + strlen(expr) + 2; *out_str = cil_malloc(len); if (sprintf(*out_str, "(%s %s %s)", kind, obj, expr) < 0) { cil_log(CIL_ERR, "Error writing xperm\n"); rc = SEPOL_ERR; goto exit; } rc = SEPOL_OK; exit: free(expr); return rc; } #define cil_write_unsupported(flavor) _cil_write_unsupported(flavor, __LINE__) static int _cil_write_unsupported(const char *flavor, int line) { cil_log(CIL_ERR, "flavor \"%s\" is not supported, look in file \"%s\"" " on line %d to add support.\n", flavor, __FILE__, line); return SEPOL_ENOTSUP; } static int cil_write_policycap(struct cil_tree_node *node, FILE *cil_out) { struct cil_policycap *polcap = (struct cil_policycap *)node->data; fprintf(cil_out, "(%s %s)\n", CIL_KEY_POLICYCAP, polcap->datum.name); return SEPOL_OK; } static int cil_write_perm(struct cil_tree_node *node, FILE *cil_out) { struct cil_perm *perm = (struct cil_perm *)node->data; fprintf(cil_out, "%s", perm->datum.name); if (node->next != NULL) fprintf(cil_out, " "); return SEPOL_OK; } static int cil_write_class(struct cil_tree_node *node, uint32_t *finished, struct cil_args_write *extra_args) { int rc = SEPOL_ERR; FILE *cil_out = extra_args->cil_out; struct cil_symtab_datum *datum = (struct cil_symtab_datum *)node->data; char *class_type = (node->flavor == CIL_CLASS) ? CIL_KEY_CLASS : CIL_KEY_COMMON; /* print preamble */ fprintf(cil_out, "(%s %s ", class_type, datum->name); if (node->cl_head == NULL) { /* no associated perms in this part of tree */ fprintf(cil_out, "()"); } else { /* visit subtree (perms) */ rc = cil_tree_walk(node, __cil_write_node_helper, __cil_write_first_child_helper, __cil_write_last_child_helper, extra_args); if (rc != SEPOL_OK) goto exit; } /* postamble (trailing paren) */ fprintf(cil_out, ")\n"); *finished = CIL_TREE_SKIP_HEAD; rc = SEPOL_OK; exit: return rc; } static int cil_write_classorder(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; char *ord_str = NULL; struct cil_classorder *classord = (struct cil_classorder *)node->data; /* cil_unfill_expr() has logic to stringify a cil_list, reuse that. */ rc = cil_unfill_expr(classord->class_list_str, &ord_str, 1); if (rc != SEPOL_OK) goto exit; fprintf(cil_out, "(%s %s)\n", CIL_KEY_CLASSORDER, ord_str); rc = SEPOL_OK; exit: free(ord_str); return rc; } static int cil_write_classcommon(struct cil_tree_node *node, FILE *cil_out) { struct cil_classcommon *classcommon = (struct cil_classcommon *)node->data; fprintf(cil_out, "(%s %s %s)\n", CIL_KEY_CLASSCOMMON, classcommon->class_str, classcommon->common_str); return SEPOL_OK; } static int cil_write_sid(struct cil_tree_node *node, FILE *cil_out) { struct cil_sid *sid = (struct cil_sid *)node->data; fprintf(cil_out, "(%s %s)\n", CIL_KEY_SID, sid->datum.name); return SEPOL_OK; } static int cil_write_sidcontext(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; char *sid; char *ctx_str = NULL; struct cil_sidcontext *sidcon = (struct cil_sidcontext *)node->data; sid = sidcon->sid_str; if (sidcon->context_str != NULL) { ctx_str = strdup(sidcon->context_str); if (ctx_str == NULL) { cil_log(CIL_ERR, "OOM. Unable to copy context string.\n"); rc = SEPOL_ERR; goto exit; } } else { rc = cil_unfill_context(sidcon->context, &ctx_str); if (rc != SEPOL_OK) goto exit; } fprintf(cil_out, "(%s %s %s)\n", CIL_KEY_SIDCONTEXT, sid, ctx_str); rc = SEPOL_OK; exit: free(ctx_str); return rc; } static int cil_write_sidorder(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; char *ord_str = NULL; struct cil_sidorder *sidord = (struct cil_sidorder *)node->data; /* cil_unfill_expr() has logic to stringify a cil_list, reuse that. */ rc = cil_unfill_expr(sidord->sid_list_str, &ord_str, 1); if (rc != SEPOL_OK) goto exit; fprintf(cil_out, "(%s %s)\n", CIL_KEY_SIDORDER, ord_str); rc = SEPOL_OK; exit: free(ord_str); return rc; } static int cil_write_user(struct cil_tree_node *node, FILE *cil_out) { struct cil_user *user = (struct cil_user *)node->data; fprintf(cil_out, "(%s %s)\n", CIL_KEY_USER, user->datum.name); return SEPOL_OK; } static int cil_write_userrole(struct cil_tree_node *node, FILE *cil_out) { struct cil_userrole *userrole = (struct cil_userrole *)node->data; fprintf(cil_out, "(%s %s %s)\n", CIL_KEY_USERROLE, userrole->user_str, userrole->role_str); return SEPOL_OK; } static int cil_write_userlevel(struct cil_tree_node *node, FILE *cil_out) { struct cil_userlevel *usrlvl = (struct cil_userlevel *)node->data; int rc = SEPOL_ERR; char *usr; char *lvl = NULL; usr = usrlvl->user_str; if (usrlvl->level_str != NULL) { lvl = strdup(usrlvl->level_str); if (lvl == NULL) { cil_log(CIL_ERR, "OOM. Unable to copy level string.\n"); rc = SEPOL_ERR; goto exit; } } else { rc = cil_unfill_level(usrlvl->level, &lvl); if (rc != SEPOL_OK) goto exit; } fprintf(cil_out, "(%s %s %s)\n", CIL_KEY_USERLEVEL, usr, lvl); rc = SEPOL_OK; exit: free(lvl); return rc; } static int cil_write_userrange(struct cil_tree_node *node, FILE *cil_out) { struct cil_userrange *usrrng = (struct cil_userrange *)node->data; int rc = SEPOL_ERR; char *usr; char *range = NULL; usr = usrrng->user_str; if (usrrng->range_str != NULL) { range = strdup(usrrng->range_str); if (range == NULL) { cil_log(CIL_ERR, "OOM. Unable to copy levelrange string.\n"); rc = SEPOL_ERR; goto exit; } } else { rc = cil_unfill_levelrange(usrrng->range, &range); if (rc != SEPOL_OK) goto exit; } fprintf(cil_out, "(%s %s %s)\n", CIL_KEY_USERRANGE, usr, range); rc = SEPOL_OK; exit: free(range); return rc; } static int cil_write_role(struct cil_tree_node *node, FILE *cil_out) { struct cil_role *role = (struct cil_role *)node->data; fprintf(cil_out, "(%s %s)\n", CIL_KEY_ROLE, role->datum.name); return SEPOL_OK; } static int cil_write_roletype(struct cil_tree_node *node, FILE *cil_out) { struct cil_roletype *roletype = (struct cil_roletype *)node->data; fprintf(cil_out, "(%s %s %s)\n", CIL_KEY_ROLETYPE, roletype->role_str, roletype->type_str); return SEPOL_OK; } static int cil_write_roleattribute(struct cil_tree_node *node, FILE *cil_out) { struct cil_roleattribute *roleattr = (struct cil_roleattribute *)node->data; fprintf(cil_out, "(%s %s)\n", CIL_KEY_ROLEATTRIBUTE, roleattr->datum.name); return SEPOL_OK; } static int cil_write_type(struct cil_tree_node *node, FILE *cil_out) { struct cil_type *type = (struct cil_type *)node->data; fprintf(cil_out, "(%s %s)\n", CIL_KEY_TYPE, type->datum.name); return SEPOL_OK; } static int cil_write_typepermissive(struct cil_tree_node *node, FILE *cil_out) { struct cil_typepermissive *type = (struct cil_typepermissive *)node->data; fprintf(cil_out, "(%s %s)\n", CIL_KEY_TYPEPERMISSIVE, type->type_str); return SEPOL_OK; } static int cil_write_typeattribute(struct cil_tree_node *node, FILE *cil_out) { struct cil_typeattribute *typeattr = (struct cil_typeattribute *)node->data; fprintf(cil_out, "(%s %s)\n", CIL_KEY_TYPEATTRIBUTE, typeattr->datum.name); return SEPOL_OK; } static int cil_write_typeattributeset(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; char *typeattr; char *set_str = NULL; struct cil_typeattributeset *typeattrset = (struct cil_typeattributeset *)node->data; typeattr = typeattrset->attr_str; rc = cil_unfill_expr(typeattrset->str_expr, &set_str, 1); if (rc != SEPOL_OK) goto exit; fprintf(cil_out, "(%s %s %s)\n", CIL_KEY_TYPEATTRIBUTESET, typeattr, set_str); rc = SEPOL_OK; exit: free(set_str); return rc; } static int cil_write_expandtypeattribute(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; char *attr_strs = NULL; struct cil_expandtypeattribute *expandattr = (struct cil_expandtypeattribute *)node->data; rc = cil_unfill_expr(expandattr->attr_strs, &attr_strs, 1); if (rc != SEPOL_OK) goto exit; fprintf(cil_out, "(%s %s %s)\n", CIL_KEY_EXPANDTYPEATTRIBUTE, attr_strs, expandattr->expand ? CIL_KEY_CONDTRUE : CIL_KEY_CONDFALSE); rc = SEPOL_OK; exit: free(attr_strs); return rc; } static int cil_write_alias(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; char *type; struct cil_alias *alias = (struct cil_alias *)node->data; switch (node->flavor) { case CIL_TYPEALIAS: type = CIL_KEY_TYPEALIAS; break; case CIL_SENSALIAS: type = CIL_KEY_SENSALIAS; break; case CIL_CATALIAS: type = CIL_KEY_CATALIAS; break; default: cil_log(CIL_ERR, "Unknown alias type: %d\n", node->flavor); rc = SEPOL_ERR; goto exit; break; } fprintf(cil_out, "(%s %s)\n", type, alias->datum.name); rc = SEPOL_OK; exit: return rc; } static int cil_write_aliasactual(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; char *type, *alias, *actual; struct cil_aliasactual *aliasact = (struct cil_aliasactual *)node->data; switch (node->flavor) { case CIL_TYPEALIASACTUAL: type = CIL_KEY_TYPEALIASACTUAL; break; case CIL_SENSALIASACTUAL: type = CIL_KEY_SENSALIASACTUAL; break; case CIL_CATALIASACTUAL: type = CIL_KEY_CATALIASACTUAL; break; default: cil_log(CIL_ERR, "Unknown alias type: %d\n", node->flavor); rc = SEPOL_ERR; goto exit; break; } alias = aliasact->alias_str; actual = aliasact->actual_str; fprintf(cil_out, "(%s %s %s)\n", type, alias, actual); rc = SEPOL_OK; exit: return rc; } static int cil_write_nametypetransition(struct cil_tree_node *node, FILE *cil_out) { char *src, *tgt, *obj, *res, *name; struct cil_nametypetransition *ntrans = (struct cil_nametypetransition *)node->data; src = ntrans->src_str; tgt = ntrans->tgt_str; obj = ntrans->obj_str; res = ntrans->result_str; name = ntrans->name_str; fprintf(cil_out, "(%s %s %s %s \"%s\" %s)\n", CIL_KEY_TYPETRANSITION, src, tgt, obj, name, res); return SEPOL_OK; } static int cil_write_avrule_x(struct cil_avrule *avrule, FILE *cil_out) { int rc = SEPOL_ERR; char *rulekind, *src, *tgt; char *xperms = NULL; switch (avrule->rule_kind) { case CIL_AVRULE_ALLOWED: rulekind = CIL_KEY_ALLOWX; break; case CIL_AVRULE_AUDITALLOW: rulekind = CIL_KEY_AUDITALLOWX; break; case CIL_AVRULE_DONTAUDIT: rulekind = CIL_KEY_DONTAUDITX; break; case CIL_AVRULE_NEVERALLOW: rulekind = CIL_KEY_NEVERALLOWX; break; default: cil_log(CIL_ERR, "Unknown AVRULE type: %d\n", avrule->rule_kind); rc = SEPOL_ERR; goto exit; break; } src = avrule->src_str; tgt = avrule->tgt_str; if (avrule->perms.x.permx_str != NULL) { xperms = strdup(avrule->perms.x.permx_str); if (xperms == NULL) { cil_log(CIL_ERR, "OOM. Unable to copy xperms string.\n"); rc = SEPOL_ERR; goto exit; } } else { rc = cil_unfill_permx(avrule->perms.x.permx, &xperms); if (rc != SEPOL_OK) goto exit; } fprintf(cil_out, "(%s %s %s %s)\n", rulekind, src, tgt, xperms); rc = SEPOL_OK; exit: free(xperms); return rc; } static int cil_write_avrule_orig(struct cil_avrule *avrule, FILE *cil_out) { int rc = SEPOL_ERR; char *rulekind, *src, *tgt; char *classperms = NULL; switch (avrule->rule_kind) { case CIL_AVRULE_ALLOWED: rulekind = CIL_KEY_ALLOW; break; case CIL_AVRULE_AUDITALLOW: rulekind = CIL_KEY_AUDITALLOW; break; case CIL_AVRULE_DONTAUDIT: rulekind = CIL_KEY_DONTAUDIT; break; case CIL_AVRULE_NEVERALLOW: rulekind = CIL_KEY_NEVERALLOW; break; default: cil_log(CIL_ERR, "Unknown AVRULE type: %d\n", avrule->rule_kind); rc = SEPOL_ERR; goto exit; break; } src = avrule->src_str; tgt = avrule->tgt_str; rc = cil_unfill_classperms_list(avrule->perms.classperms, &classperms, 0); if (rc != SEPOL_OK) goto exit; fprintf(cil_out, "(%s %s %s %s)\n", rulekind, src, tgt, classperms); rc = SEPOL_OK; exit: free(classperms); return rc; } static int cil_write_avrule(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; struct cil_avrule *avrule = (struct cil_avrule *)node->data; if (avrule->is_extended) rc = cil_write_avrule_x(avrule, cil_out); else rc = cil_write_avrule_orig(avrule, cil_out); return rc; } static int cil_write_type_rule(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; char *type, *src, *tgt, *obj, *res; struct cil_type_rule *typerule = (struct cil_type_rule *)node->data; switch (typerule->rule_kind) { case CIL_TYPE_TRANSITION: type = CIL_KEY_TYPETRANSITION; break; case CIL_TYPE_MEMBER: type = CIL_KEY_TYPEMEMBER; break; case CIL_TYPE_CHANGE: type = CIL_KEY_TYPECHANGE; break; default: cil_log(CIL_ERR, "Unknown TYPERULE type: %d\n", typerule->rule_kind); rc = SEPOL_ERR; goto exit; break; } src = typerule->src_str; tgt = typerule->tgt_str; obj = typerule->obj_str; res = typerule->result_str; fprintf(cil_out, "(%s %s %s %s %s)\n", type, src, tgt, obj, res); rc = SEPOL_OK; exit: return rc; } static int cil_write_sens(struct cil_tree_node *node, FILE *cil_out) { struct cil_sens *sens = (struct cil_sens *)node->data; fprintf(cil_out, "(%s %s)\n", CIL_KEY_SENSITIVITY, sens->datum.name); return SEPOL_OK; } static int cil_write_cat(struct cil_tree_node *node, FILE *cil_out) { struct cil_cat *cat = (struct cil_cat *)node->data; fprintf(cil_out, "(%s %s)\n", CIL_KEY_CATEGORY, cat->datum.name); return SEPOL_OK; } static int cil_write_senscat(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; char *sens; char *cats = NULL; struct cil_senscat *senscat = (struct cil_senscat *)node->data; sens = senscat->sens_str; rc = cil_unfill_cats(senscat->cats, &cats); if (rc != SEPOL_OK) goto exit; /* TODO: deal with extra/missing parens */ fprintf(cil_out, "(%s %s (%s))\n", CIL_KEY_SENSCAT, sens, cats); rc = SEPOL_OK; exit: free(cats); return rc; } static int cil_write_catorder(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; char *ord_str = NULL; struct cil_catorder *catord = (struct cil_catorder *)node->data; /* cil_unfill_expr() has logic to stringify a cil_list, reuse that. */ rc = cil_unfill_expr(catord->cat_list_str, &ord_str, 1); if (rc != SEPOL_OK) goto exit; fprintf(cil_out, "(%s %s)\n", CIL_KEY_CATORDER, ord_str); rc = SEPOL_OK; exit: free(ord_str); return rc; } static int cil_write_sensorder(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; char *ord_str = NULL; struct cil_sensorder *sensord = (struct cil_sensorder *)node->data; /* cil_unfill_expr() has logic to stringify a cil_list, reuse that. */ rc = cil_unfill_expr(sensord->sens_list_str, &ord_str, 1); if (rc != SEPOL_OK) goto exit; fprintf(cil_out, "(%s %s)\n", CIL_KEY_SENSITIVITYORDER, ord_str); rc = SEPOL_OK; exit: free(ord_str); return rc; } static int cil_write_genfscon(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; char *ctx_str = NULL; struct cil_genfscon *genfscon = (struct cil_genfscon *)node->data; if (genfscon->context_str != NULL) { ctx_str = strdup(genfscon->context_str); if (ctx_str == NULL) { cil_log(CIL_ERR, "OOM. Unable to copy context string.\n"); rc = SEPOL_ERR; goto exit; } } else { rc = cil_unfill_context(genfscon->context, &ctx_str); if (rc != SEPOL_OK) goto exit; } fprintf(cil_out, "(%s %s %s %s)\n", CIL_KEY_GENFSCON, genfscon->fs_str, genfscon->path_str, ctx_str); rc = SEPOL_OK; exit: free(ctx_str); return rc; } static int cil_unfill_classperms(struct cil_list_item *curr, char **out_str) { int rc = SEPOL_ERR; size_t len = 3; char *class_str; char *perms_str = NULL; struct cil_classperms *cp = (struct cil_classperms *)curr->data; class_str = cp->class_str; len += strlen(class_str) + 1; /* fill_perms just calls gen_expr */ rc = cil_unfill_expr(cp->perm_strs, &perms_str, 1); if (rc != SEPOL_OK) goto exit; len += strlen(perms_str); *out_str = cil_malloc(len); sprintf(*out_str, "(%s %s)", class_str, perms_str); rc = SEPOL_OK; exit: free(perms_str); return rc; } static int cil_unfill_classperms_list(struct cil_list *classperms, char **out_str, int paren) { int rc = SEPOL_ERR; struct cil_list_item *curr; char *str = NULL; /* reuse cil_list to keep track of strings */ struct cil_list *str_list = NULL; cil_list_init(&str_list, CIL_NONE); cil_list_for_each(curr, classperms) { switch (curr->flavor) { case CIL_CLASSPERMS_SET: str = strdup(((struct cil_classperms_set *)curr->data)->set_str); if (str == NULL) { cil_log(CIL_ERR, "OOM. Unable to copy classpermset.\n"); rc = SEPOL_ERR; goto exit; } break; case CIL_CLASSPERMS: rc = cil_unfill_classperms(curr, &str); if (rc != SEPOL_OK) goto exit; break; default: cil_log(CIL_ERR, "Unrecognized classperms flavor\n."); goto exit; } cil_list_append(str_list, CIL_STRING, (void *) str); str = NULL; } rc = __cil_strlist_concat(str_list, out_str, paren); if (rc != SEPOL_OK) goto exit; rc = SEPOL_OK; exit: cil_list_for_each(curr, str_list) { free(curr->data); } cil_list_destroy(&str_list, 0); return rc; } static int cil_write_fsuse(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; struct cil_fsuse *fsuse = (struct cil_fsuse *)node->data; char *type, *fsname; char *ctx_str = NULL; switch(fsuse->type) { case CIL_FSUSE_XATTR: type = CIL_KEY_XATTR; break; case CIL_FSUSE_TASK: type = CIL_KEY_TASK; break; case CIL_FSUSE_TRANS: type = CIL_KEY_TRANS; break; default: cil_log(CIL_ERR, "Unrecognized fsuse type\n"); rc = SEPOL_ERR; goto exit; break; } fsname = fsuse->fs_str; if (fsuse->context_str != NULL) { ctx_str = strdup(fsuse->context_str); if (ctx_str == NULL) { cil_log(CIL_ERR, "OOM. Unable to copy context string.\n"); rc = SEPOL_ERR; goto exit; } } else { rc = cil_unfill_context(fsuse->context, &ctx_str); if (rc != SEPOL_OK) goto exit; } fprintf(cil_out, "(%s %s %s %s)\n", CIL_KEY_FSUSE, type, fsname, ctx_str); exit: free(ctx_str); return rc; } static int cil_write_constrain(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_ERR; struct cil_constrain *cons = (struct cil_constrain *)node->data; char *flav; char *classperms = NULL; char *expr = NULL; flav = (node->flavor == CIL_CONSTRAIN) ? CIL_KEY_CONSTRAIN : CIL_KEY_MLSCONSTRAIN; rc = cil_unfill_classperms_list(cons->classperms, &classperms, 0); if (rc != SEPOL_OK) goto exit; rc = cil_unfill_expr(cons->str_expr, &expr, 0); if (rc != SEPOL_OK) goto exit; fprintf(cil_out, "(%s %s %s)\n", flav, classperms, expr); exit: free(classperms); free(expr); return rc; } static int cil_write_handleunknown(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_OK; struct cil_handleunknown *handunknown = (struct cil_handleunknown *)node->data; char *val = NULL; switch (handunknown->handle_unknown) { case SEPOL_ALLOW_UNKNOWN: val = CIL_KEY_HANDLEUNKNOWN_ALLOW; break; case SEPOL_DENY_UNKNOWN: val = CIL_KEY_HANDLEUNKNOWN_DENY; break; case SEPOL_REJECT_UNKNOWN: val = CIL_KEY_HANDLEUNKNOWN_REJECT; break; default: cil_log(CIL_ERR, "Unknown handleunknown value: %d.\n", handunknown->handle_unknown); rc = SEPOL_ERR; goto exit; break; } fprintf(cil_out, "(%s %s)\n", CIL_KEY_HANDLEUNKNOWN, val); exit: return rc; } static int cil_write_mls(struct cil_tree_node *node, FILE *cil_out) { int rc = SEPOL_OK; struct cil_mls *mls = (struct cil_mls *)node->data; char *val = NULL; switch (mls->value) { case CIL_TRUE: val = CIL_KEY_CONDTRUE; break; case CIL_FALSE: val = CIL_KEY_CONDFALSE; break; default: cil_log(CIL_ERR, "Unknown mls value: %d.\n", mls->value); rc = SEPOL_ERR; goto exit; break; } fprintf(cil_out, "(%s %s)\n", CIL_KEY_MLS, val); exit: return rc; } static int __cil_write_first_child_helper(struct cil_tree_node *node, void *extra_args) { int rc = SEPOL_ERR; struct cil_args_write *args = (struct cil_args_write *) extra_args; FILE *cil_out = NULL; if (node == NULL || extra_args == NULL) { goto exit; } cil_out = args->cil_out; if (node->parent && node->parent->flavor != CIL_ROOT && node->parent->flavor != CIL_SRC_INFO) fprintf(cil_out,"("); rc = SEPOL_OK; exit: return rc; } static int __cil_write_node_helper(struct cil_tree_node *node, uint32_t *finished, void *extra_args) { int rc = SEPOL_OK; struct cil_args_write *args = NULL; FILE *cil_out = NULL; if (node == NULL || extra_args == NULL) { goto exit; } args = extra_args; cil_out = args->cil_out; switch (node->flavor) { case CIL_BLOCK: rc = cil_write_unsupported("CIL_BLOCK"); break; case CIL_BLOCKABSTRACT: rc = cil_write_unsupported("CIL_BLOCKABSTRACT"); break; case CIL_BLOCKINHERIT: rc = cil_write_unsupported("CIL_BLOCKINHERIT"); break; case CIL_IN: rc = cil_write_unsupported("CIL_IN"); break; case CIL_POLICYCAP: cil_write_policycap(node, cil_out); break; case CIL_PERM: rc = cil_write_perm(node, cil_out); break; case CIL_MAP_PERM: rc = cil_write_unsupported("CIL_MAP_PERM"); break; case CIL_CLASSMAPPING: rc = cil_write_unsupported("CIL_CLASSMAPPING"); break; case CIL_CLASS: rc = cil_write_class(node, finished, extra_args); break; case CIL_COMMON: rc = cil_write_class(node, finished, extra_args); break; case CIL_MAP_CLASS: rc = cil_write_unsupported("CIL_MAP_CLASS"); break; case CIL_CLASSORDER: rc = cil_write_classorder(node, cil_out); break; case CIL_CLASSPERMISSION: rc = cil_write_unsupported("CIL_CLASSPERMISSION"); break; case CIL_CLASSPERMISSIONSET: rc = cil_write_unsupported("CIL_CLASSPERMISSIONSET"); break; case CIL_CLASSCOMMON: rc = cil_write_classcommon(node, cil_out); break; case CIL_SID: rc = cil_write_sid(node, cil_out); break; case CIL_SIDCONTEXT: rc = cil_write_sidcontext(node, cil_out); break; case CIL_SIDORDER: rc = cil_write_sidorder(node, cil_out); break; case CIL_USER: rc = cil_write_user(node, cil_out); break; case CIL_USERATTRIBUTE: rc = cil_write_unsupported("CIL_USERATTRIBUTE"); break; case CIL_USERATTRIBUTESET: rc = cil_write_unsupported("CIL_USERATTRIBUTESET"); break; case CIL_USERROLE: rc = cil_write_userrole(node, cil_out); break; case CIL_USERLEVEL: rc = cil_write_userlevel(node, cil_out); break; case CIL_USERRANGE: rc = cil_write_userrange(node, cil_out); break; case CIL_USERBOUNDS: rc = cil_write_unsupported("CIL_USERBOUNDS"); break; case CIL_USERPREFIX: rc = cil_write_unsupported("CIL_USERPREFIX"); break; case CIL_ROLE: rc = cil_write_role(node, cil_out); break; case CIL_ROLETYPE: rc = cil_write_roletype(node, cil_out); break; case CIL_ROLEBOUNDS: rc = cil_write_unsupported("CIL_ROLEBOUNDS"); break; case CIL_ROLEATTRIBUTE: cil_write_roleattribute(node, cil_out); break; case CIL_ROLEATTRIBUTESET: rc = cil_write_unsupported("CIL_ROLEATTRIBUTESET"); break; case CIL_ROLEALLOW: rc = cil_write_unsupported("CIL_ROLEALLOW"); break; case CIL_TYPE: rc = cil_write_type(node, cil_out); break; case CIL_TYPEBOUNDS: rc = cil_write_unsupported("CIL_TYPEBOUNDS"); break; case CIL_TYPEPERMISSIVE: rc = cil_write_typepermissive(node, cil_out); break; case CIL_TYPEATTRIBUTE: rc = cil_write_typeattribute(node, cil_out); break; case CIL_TYPEATTRIBUTESET: rc = cil_write_typeattributeset(node, cil_out); break; case CIL_EXPANDTYPEATTRIBUTE: rc = cil_write_expandtypeattribute(node, cil_out); break; case CIL_TYPEALIAS: rc = cil_write_alias(node, cil_out); break; case CIL_TYPEALIASACTUAL: rc = cil_write_aliasactual(node, cil_out); break; case CIL_ROLETRANSITION: rc = cil_write_unsupported("CIL_ROLETRANSITION"); break; case CIL_NAMETYPETRANSITION: rc = cil_write_nametypetransition(node, cil_out); break; case CIL_RANGETRANSITION: rc = cil_write_unsupported("CIL_RANGETRANSITION"); break; case CIL_TUNABLE: rc = cil_write_unsupported("CIL_TUNABLE"); break; case CIL_BOOL: rc = cil_write_unsupported("CIL_BOOL"); break; case CIL_AVRULE: case CIL_AVRULEX: rc = cil_write_avrule(node, cil_out); break; case CIL_PERMISSIONX: rc = cil_write_unsupported("CIL_PERMISSIONX"); break; case CIL_TYPE_RULE: cil_write_type_rule(node, cil_out); break; case CIL_SENS: rc = cil_write_sens(node, cil_out); break; case CIL_SENSALIAS: rc = cil_write_alias(node, cil_out); break; case CIL_SENSALIASACTUAL: rc = cil_write_aliasactual(node, cil_out); break; case CIL_CAT: rc = cil_write_cat(node, cil_out); break; case CIL_CATALIAS: rc = cil_write_alias(node, cil_out); break; case CIL_CATALIASACTUAL: rc = cil_write_aliasactual(node, cil_out); break; case CIL_CATSET: rc = cil_write_unsupported("CIL_CATSET"); break; case CIL_SENSCAT: rc = cil_write_senscat(node, cil_out); break; case CIL_CATORDER: rc = cil_write_catorder(node, cil_out); break; case CIL_SENSITIVITYORDER: rc = cil_write_sensorder(node, cil_out); break; case CIL_LEVEL: rc = cil_write_unsupported("CIL_LEVEL"); break; case CIL_LEVELRANGE: rc = cil_write_unsupported("CIL_LEVELRANGE"); break; case CIL_CONTEXT: rc = cil_write_unsupported("CIL_CONTEXT"); break; case CIL_NETIFCON: rc = cil_write_unsupported("CIL_NETIFCON"); break; case CIL_GENFSCON: rc = cil_write_genfscon(node, cil_out); break; case CIL_FILECON: rc = cil_write_unsupported("CIL_FILECON"); break; case CIL_NODECON: rc = cil_write_unsupported("CIL_NODECON"); break; case CIL_PORTCON: rc = cil_write_unsupported("CIL_PORTCON"); break; case CIL_PIRQCON: rc = cil_write_unsupported("CIL_PIRQCON"); break; case CIL_IOMEMCON: rc = cil_write_unsupported("CIL_IOMEMCON"); break; case CIL_IOPORTCON: rc = cil_write_unsupported("CIL_IOPORTCON"); break; case CIL_PCIDEVICECON: rc = cil_write_unsupported("CIL_PCIDEVICECON"); break; case CIL_DEVICETREECON: rc = cil_write_unsupported("CIL_DEVICETREECON"); break; case CIL_FSUSE: rc = cil_write_fsuse(node, cil_out); break; case CIL_CONSTRAIN: rc = cil_write_unsupported("CIL_CONSTRAIN"); break; case CIL_MLSCONSTRAIN: rc = cil_write_constrain(node, cil_out); break; case CIL_VALIDATETRANS: rc = cil_write_unsupported("CIL_VALIDATETRANS"); break; case CIL_MLSVALIDATETRANS: rc = cil_write_unsupported("CIL_MLSVALIDATETRANS"); break; case CIL_CALL: rc = cil_write_unsupported("CIL_CALL"); break; case CIL_MACRO: rc = cil_write_unsupported("CIL_MACRO"); break; case CIL_NODE: rc = cil_write_unsupported("CIL_NODE"); break; case CIL_OPTIONAL: rc = cil_write_unsupported("CIL_OPTIONAL"); break; case CIL_IPADDR: rc = cil_write_unsupported("CIL_IPADDR"); break; case CIL_CONDBLOCK: rc = cil_write_unsupported("CIL_CONDBLOCK"); break; case CIL_BOOLEANIF: rc = cil_write_unsupported("CIL_BOOLEANIF"); break; case CIL_TUNABLEIF: rc = cil_write_unsupported("CIL_TUNABLEIF"); break; case CIL_DEFAULTUSER: rc = cil_write_unsupported("CIL_DEFAULTUSER"); break; case CIL_DEFAULTROLE: rc = cil_write_unsupported("CIL_DEFAULTROLE"); break; case CIL_DEFAULTTYPE: rc = cil_write_unsupported("CIL_DEFAULTTYPE"); break; case CIL_DEFAULTRANGE: rc = cil_write_unsupported("CIL_DEFAULTRANGE"); break; case CIL_SELINUXUSER: rc = cil_write_unsupported("CIL_SELINUXUSER"); break; case CIL_SELINUXUSERDEFAULT: rc = cil_write_unsupported("CIL_SELINUXUSERDEFAULT"); break; case CIL_HANDLEUNKNOWN: rc = cil_write_handleunknown(node, cil_out); break; case CIL_MLS: rc = cil_write_mls(node, cil_out); break; case CIL_SRC_INFO: break; case CIL_NONE: // TODO: add proper removal support *finished = CIL_TREE_SKIP_HEAD; break; default: cil_log(CIL_ERR, "Unknown AST flavor: %d.\n", node->flavor); rc = SEPOL_ERR; goto exit; break; } exit: return rc; } static int __cil_write_last_child_helper(struct cil_tree_node *node, void *extra_args) { int rc = SEPOL_ERR; struct cil_args_write *args = NULL; FILE *cil_out = NULL; if (node == NULL || extra_args == NULL) { goto exit; } args = extra_args; cil_out = args->cil_out; if (node->parent && node->parent->flavor != CIL_ROOT && node->parent->flavor != CIL_SRC_INFO) { fprintf(cil_out,")"); } rc = SEPOL_OK; exit: return rc; } /* main exported function */ int cil_write_ast(struct cil_db *db, const char* path) { int rc = SEPOL_ERR; struct cil_args_write extra_args; FILE *cil_out = NULL; cil_out = fopen(path, "we"); if (cil_out == NULL) { cil_log(CIL_ERR, "Failure opening output file for writing AST\n"); rc = SEPOL_ERR; goto exit; } extra_args.cil_out = cil_out; extra_args.db = db; rc = cil_tree_walk(db->ast->root, __cil_write_node_helper, __cil_write_first_child_helper, __cil_write_last_child_helper, &extra_args); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "cil_tree_walk failed, rc: %d\n", rc); goto exit; } exit: fclose(cil_out); cil_out = NULL; return rc; }