/* * Copyright 2011 Tresys Technology, LLC. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY TRESYS TECHNOLOGY, LLC ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO * EVENT SHALL TRESYS TECHNOLOGY, LLC OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * The views and conclusions contained in the software and documentation are those * of the authors and should not be interpreted as representing official policies, * either expressed or implied, of Tresys Technology, LLC. */ #include #include #include #include #include #include #include #include "cil_internal.h" #include "cil_flavor.h" #include "cil_log.h" #include "cil_mem.h" #include "cil_tree.h" #include "cil_list.h" #include "cil_post.h" #include "cil_policy.h" #include "cil_verify.h" #include "cil_symtab.h" #define GEN_REQUIRE_ATTR "cil_gen_require" /* Also in libsepol/src/module_to_cil.c */ #define TYPEATTR_INFIX "_typeattr_" /* Also in libsepol/src/module_to_cil.c */ static int __cil_expr_to_bitmap(struct cil_list *expr, ebitmap_t *out, int max, struct cil_db *db); static int __cil_expr_list_to_bitmap(struct cil_list *expr_list, ebitmap_t *out, int max, struct cil_db *db); static int cats_compare(struct cil_cats *a, struct cil_cats *b) { struct cil_list_item *i, *j; int rc; if (a == b) return 0; if (!a) return -1; if (!b) return 1; /* Expects cat expression to have been evaluated */ cil_list_for_each(i, a->datum_expr) { cil_list_for_each(j, b->datum_expr) { rc = strcmp(DATUM(i->data)->fqn, DATUM(j->data)->fqn); if (!rc) return rc; } } return 0; } static int level_compare(struct cil_level *a, struct cil_level *b) { int rc; if (a == b) return 0; if (!a) return -1; if (!b) return 1; if (a->sens != b->sens) { rc = strcmp(DATUM(a->sens)->fqn, DATUM(b->sens)->fqn); if (rc != 0) return rc; } if (a->cats != b->cats) { return cats_compare(a->cats, b->cats); } return 0; } static int range_compare(struct cil_levelrange *a, struct cil_levelrange *b) { int rc; if (a == b) return 0; if (!a) return -1; if (!b) return 1; if (a->low != b->low) { rc = level_compare(a->low, b->low); if (rc != 0) return rc; } if (a->high != b->high) { return level_compare(a->high, b->high); } return 0; } static int context_compare(struct cil_context *a, struct cil_context *b) { int rc; if (a->user != b->user) { rc = strcmp(DATUM(a->user)->fqn, DATUM(b->user)->fqn); if (rc != 0) return rc; } if (a->role != b->role) { rc = strcmp(DATUM(a->role)->fqn, DATUM(b->role)->fqn); if (rc != 0) return rc; } if (a->type != b->type) { rc = strcmp(DATUM(a->type)->fqn, DATUM(b->type)->fqn); if (rc != 0) return rc; } if (a->range != b->range) { return range_compare(a->range, b->range); } return 0; } static int cil_verify_is_list(struct cil_list *list, enum cil_flavor flavor) { struct cil_list_item *curr; cil_list_for_each(curr, list) { switch (curr->flavor) { case CIL_LIST: return CIL_FALSE; break; case CIL_OP: return CIL_FALSE; break; default: if (flavor == CIL_CAT) { struct cil_symtab_datum *d = curr->data; struct cil_tree_node *n = d->nodes->head->data; if (n->flavor == CIL_CATSET) { return CIL_FALSE; } } break; } } return CIL_TRUE; } void cil_post_fc_fill_data(struct fc_data *fc, char *path) { int c = 0; fc->meta = 0; fc->stem_len = 0; fc->str_len = 0; while (path[c] != '\0') { switch (path[c]) { case '.': case '^': case '$': case '?': case '*': case '+': case '|': case '[': case '(': case '{': fc->meta = 1; break; case '\\': c++; /* FALLTHRU */ default: if (!fc->meta) { fc->stem_len++; } break; } fc->str_len++; c++; } } int cil_post_filecon_compare(const void *a, const void *b) { int rc = 0; struct cil_filecon *a_filecon = *(struct cil_filecon**)a; struct cil_filecon *b_filecon = *(struct cil_filecon**)b; struct fc_data *a_data = cil_malloc(sizeof(*a_data)); struct fc_data *b_data = cil_malloc(sizeof(*b_data)); char *a_path = cil_malloc(strlen(a_filecon->path_str) + 1); a_path[0] = '\0'; char *b_path = cil_malloc(strlen(b_filecon->path_str) + 1); b_path[0] = '\0'; strcat(a_path, a_filecon->path_str); strcat(b_path, b_filecon->path_str); cil_post_fc_fill_data(a_data, a_path); cil_post_fc_fill_data(b_data, b_path); if (a_data->meta && !b_data->meta) { rc = -1; } else if (b_data->meta && !a_data->meta) { rc = 1; } else if (a_data->stem_len < b_data->stem_len) { rc = -1; } else if (b_data->stem_len < a_data->stem_len) { rc = 1; } else if (a_data->str_len < b_data->str_len) { rc = -1; } else if (b_data->str_len < a_data->str_len) { rc = 1; } else if (a_filecon->type < b_filecon->type) { rc = -1; } else if (b_filecon->type < a_filecon->type) { rc = 1; } else { rc = strcmp(a_filecon->path_str, b_filecon->path_str); } free(a_path); free(b_path); free(a_data); free(b_data); return rc; } int cil_post_ibpkeycon_compare(const void *a, const void *b) { int rc = SEPOL_ERR; struct cil_ibpkeycon *aibpkeycon = *(struct cil_ibpkeycon **)a; struct cil_ibpkeycon *bibpkeycon = *(struct cil_ibpkeycon **)b; rc = strcmp(aibpkeycon->subnet_prefix_str, bibpkeycon->subnet_prefix_str); if (rc) return rc; rc = (aibpkeycon->pkey_high - aibpkeycon->pkey_low) - (bibpkeycon->pkey_high - bibpkeycon->pkey_low); if (rc == 0) { if (aibpkeycon->pkey_low < bibpkeycon->pkey_low) rc = -1; else if (bibpkeycon->pkey_low < aibpkeycon->pkey_low) rc = 1; } return rc; } int cil_post_portcon_compare(const void *a, const void *b) { int rc = SEPOL_ERR; struct cil_portcon *aportcon = *(struct cil_portcon**)a; struct cil_portcon *bportcon = *(struct cil_portcon**)b; rc = (aportcon->port_high - aportcon->port_low) - (bportcon->port_high - bportcon->port_low); if (rc == 0) { if (aportcon->port_low < bportcon->port_low) { rc = -1; } else if (bportcon->port_low < aportcon->port_low) { rc = 1; } else if (aportcon->proto < bportcon->proto) { rc = -1; } else if (aportcon->proto > bportcon->proto) { rc = 1; } } return rc; } int cil_post_genfscon_compare(const void *a, const void *b) { int rc = SEPOL_ERR; struct cil_genfscon *agenfscon = *(struct cil_genfscon**)a; struct cil_genfscon *bgenfscon = *(struct cil_genfscon**)b; rc = strcmp(agenfscon->fs_str, bgenfscon->fs_str); if (rc == 0) { rc = strcmp(agenfscon->path_str, bgenfscon->path_str); } return rc; } int cil_post_netifcon_compare(const void *a, const void *b) { struct cil_netifcon *anetifcon = *(struct cil_netifcon**)a; struct cil_netifcon *bnetifcon = *(struct cil_netifcon**)b; return strcmp(anetifcon->interface_str, bnetifcon->interface_str); } int cil_post_ibendportcon_compare(const void *a, const void *b) { int rc = SEPOL_ERR; struct cil_ibendportcon *aibendportcon = *(struct cil_ibendportcon **)a; struct cil_ibendportcon *bibendportcon = *(struct cil_ibendportcon **)b; rc = strcmp(aibendportcon->dev_name_str, bibendportcon->dev_name_str); if (rc) return rc; if (aibendportcon->port < bibendportcon->port) return -1; else if (bibendportcon->port < aibendportcon->port) return 1; return rc; } int cil_post_nodecon_compare(const void *a, const void *b) { struct cil_nodecon *anodecon; struct cil_nodecon *bnodecon; anodecon = *(struct cil_nodecon**)a; bnodecon = *(struct cil_nodecon**)b; /* sort ipv4 before ipv6 */ if (anodecon->addr->family != bnodecon->addr->family) { if (anodecon->addr->family == AF_INET) { return -1; } else { return 1; } } /* most specific netmask goes first, then order by ip addr */ if (anodecon->addr->family == AF_INET) { int rc = memcmp(&anodecon->mask->ip.v4, &bnodecon->mask->ip.v4, sizeof(anodecon->mask->ip.v4)); if (rc != 0) { return -1 * rc; } return memcmp(&anodecon->addr->ip.v4, &bnodecon->addr->ip.v4, sizeof(anodecon->addr->ip.v4)); } else { int rc = memcmp(&anodecon->mask->ip.v6, &bnodecon->mask->ip.v6, sizeof(anodecon->mask->ip.v6)); if (rc != 0) { return -1 * rc; } return memcmp(&anodecon->addr->ip.v6, &bnodecon->addr->ip.v6, sizeof(anodecon->addr->ip.v6)); } } int cil_post_pirqcon_compare(const void *a, const void *b) { int rc = SEPOL_ERR; struct cil_pirqcon *apirqcon = *(struct cil_pirqcon**)a; struct cil_pirqcon *bpirqcon = *(struct cil_pirqcon**)b; if (apirqcon->pirq < bpirqcon->pirq) { rc = -1; } else if (bpirqcon->pirq < apirqcon->pirq) { rc = 1; } else { rc = 0; } return rc; } int cil_post_iomemcon_compare(const void *a, const void *b) { int rc = SEPOL_ERR; struct cil_iomemcon *aiomemcon = *(struct cil_iomemcon**)a; struct cil_iomemcon *biomemcon = *(struct cil_iomemcon**)b; rc = (aiomemcon->iomem_high - aiomemcon->iomem_low) - (biomemcon->iomem_high - biomemcon->iomem_low); if (rc == 0) { if (aiomemcon->iomem_low < biomemcon->iomem_low) { rc = -1; } else if (biomemcon->iomem_low < aiomemcon->iomem_low) { rc = 1; } } return rc; } int cil_post_ioportcon_compare(const void *a, const void *b) { int rc = SEPOL_ERR; struct cil_ioportcon *aioportcon = *(struct cil_ioportcon**)a; struct cil_ioportcon *bioportcon = *(struct cil_ioportcon**)b; rc = (aioportcon->ioport_high - aioportcon->ioport_low) - (bioportcon->ioport_high - bioportcon->ioport_low); if (rc == 0) { if (aioportcon->ioport_low < bioportcon->ioport_low) { rc = -1; } else if (bioportcon->ioport_low < aioportcon->ioport_low) { rc = 1; } } return rc; } int cil_post_pcidevicecon_compare(const void *a, const void *b) { int rc = SEPOL_ERR; struct cil_pcidevicecon *apcidevicecon = *(struct cil_pcidevicecon**)a; struct cil_pcidevicecon *bpcidevicecon = *(struct cil_pcidevicecon**)b; if (apcidevicecon->dev < bpcidevicecon->dev) { rc = -1; } else if (bpcidevicecon->dev < apcidevicecon->dev) { rc = 1; } else { rc = 0; } return rc; } int cil_post_devicetreecon_compare(const void *a, const void *b) { int rc = SEPOL_ERR; struct cil_devicetreecon *adevicetreecon = *(struct cil_devicetreecon**)a; struct cil_devicetreecon *bdevicetreecon = *(struct cil_devicetreecon**)b; rc = strcmp(adevicetreecon->path, bdevicetreecon->path); return rc; } int cil_post_fsuse_compare(const void *a, const void *b) { int rc; struct cil_fsuse *afsuse; struct cil_fsuse *bfsuse; afsuse = *(struct cil_fsuse**)a; bfsuse = *(struct cil_fsuse**)b; if (afsuse->type < bfsuse->type) { rc = -1; } else if (bfsuse->type < afsuse->type) { rc = 1; } else { rc = strcmp(afsuse->fs_str, bfsuse->fs_str); } return rc; } int cil_post_filecon_context_compare(const void *a, const void *b) { struct cil_filecon *a_filecon = *(struct cil_filecon**)a; struct cil_filecon *b_filecon = *(struct cil_filecon**)b; return context_compare(a_filecon->context, b_filecon->context); } int cil_post_ibpkeycon_context_compare(const void *a, const void *b) { struct cil_ibpkeycon *a_ibpkeycon = *(struct cil_ibpkeycon **)a; struct cil_ibpkeycon *b_ibpkeycon = *(struct cil_ibpkeycon **)b; return context_compare(a_ibpkeycon->context, b_ibpkeycon->context); } int cil_post_portcon_context_compare(const void *a, const void *b) { struct cil_portcon *a_portcon = *(struct cil_portcon**)a; struct cil_portcon *b_portcon = *(struct cil_portcon**)b; return context_compare(a_portcon->context, b_portcon->context); } int cil_post_genfscon_context_compare(const void *a, const void *b) { struct cil_genfscon *a_genfscon = *(struct cil_genfscon**)a; struct cil_genfscon *b_genfscon = *(struct cil_genfscon**)b; return context_compare(a_genfscon->context, b_genfscon->context); } int cil_post_netifcon_context_compare(const void *a, const void *b) { int rc; struct cil_netifcon *a_netifcon = *(struct cil_netifcon**)a; struct cil_netifcon *b_netifcon = *(struct cil_netifcon**)b; rc = context_compare(a_netifcon->if_context, b_netifcon->if_context); if (rc != 0) { return rc; } return context_compare(a_netifcon->packet_context, b_netifcon->packet_context); } int cil_post_ibendportcon_context_compare(const void *a, const void *b) { struct cil_ibendportcon *a_ibendportcon = *(struct cil_ibendportcon **)a; struct cil_ibendportcon *b_ibendportcon = *(struct cil_ibendportcon **)b; return context_compare(a_ibendportcon->context, b_ibendportcon->context); } int cil_post_nodecon_context_compare(const void *a, const void *b) { struct cil_nodecon *a_nodecon = *(struct cil_nodecon **)a; struct cil_nodecon *b_nodecon = *(struct cil_nodecon **)b; return context_compare(a_nodecon->context, b_nodecon->context); } int cil_post_pirqcon_context_compare(const void *a, const void *b) { struct cil_pirqcon *a_pirqcon = *(struct cil_pirqcon**)a; struct cil_pirqcon *b_pirqcon = *(struct cil_pirqcon**)b; return context_compare(a_pirqcon->context, b_pirqcon->context); } int cil_post_iomemcon_context_compare(const void *a, const void *b) { struct cil_iomemcon *a_iomemcon = *(struct cil_iomemcon**)a; struct cil_iomemcon *b_iomemcon = *(struct cil_iomemcon**)b; return context_compare(a_iomemcon->context, b_iomemcon->context); } int cil_post_ioportcon_context_compare(const void *a, const void *b) { struct cil_ioportcon *a_ioportcon = *(struct cil_ioportcon**)a; struct cil_ioportcon *b_ioportcon = *(struct cil_ioportcon**)b; return context_compare(a_ioportcon->context, b_ioportcon->context); } int cil_post_pcidevicecon_context_compare(const void *a, const void *b) { struct cil_pcidevicecon *a_pcidevicecon = *(struct cil_pcidevicecon**)a; struct cil_pcidevicecon *b_pcidevicecon = *(struct cil_pcidevicecon**)b; return context_compare(a_pcidevicecon->context, b_pcidevicecon->context); } int cil_post_devicetreecon_context_compare(const void *a, const void *b) { struct cil_devicetreecon *a_devicetreecon = *(struct cil_devicetreecon**)a; struct cil_devicetreecon *b_devicetreecon = *(struct cil_devicetreecon**)b; return context_compare(a_devicetreecon->context, b_devicetreecon->context); } int cil_post_fsuse_context_compare(const void *a, const void *b) { struct cil_fsuse *a_fsuse = *(struct cil_fsuse**)a; struct cil_fsuse *b_fsuse = *(struct cil_fsuse**)b; return context_compare(a_fsuse->context, b_fsuse->context); } static int __cil_post_db_count_helper(struct cil_tree_node *node, uint32_t *finished, void *extra_args) { struct cil_db *db = extra_args; switch(node->flavor) { case CIL_BLOCK: { struct cil_block *blk = node->data; if (blk->is_abstract == CIL_TRUE) { *finished = CIL_TREE_SKIP_HEAD; } break; } case CIL_MACRO: *finished = CIL_TREE_SKIP_HEAD; break; case CIL_CLASS: { struct cil_class *class = node->data; if (class->datum.nodes->head->data == node) { // Multiple nodes can point to the same datum. Only count once. db->num_classes++; } break; } case CIL_TYPE: { struct cil_type *type = node->data; if (type->datum.nodes->head->data == node) { // Multiple nodes can point to the same datum. Only count once. type->value = db->num_types; db->num_types++; db->num_types_and_attrs++; } break; } case CIL_TYPEATTRIBUTE: { struct cil_typeattribute *attr = node->data; if (attr->datum.nodes->head->data == node) { // Multiple nodes can point to the same datum. Only count once. db->num_types_and_attrs++; } break; } case CIL_ROLE: { struct cil_role *role = node->data; if (role->datum.nodes->head->data == node) { // Multiple nodes can point to the same datum. Only count once. role->value = db->num_roles; db->num_roles++; } break; } case CIL_USER: { struct cil_user *user = node->data; if (user->datum.nodes->head->data == node) { // multiple AST nodes can point to the same cil_user data (like if // copied from a macro). This check ensures we only count the // duplicates once user->value = db->num_users; db->num_users++; } break; } case CIL_NETIFCON: db->netifcon->count++; break; case CIL_GENFSCON: db->genfscon->count++; break; case CIL_FILECON: db->filecon->count++; break; case CIL_NODECON: db->nodecon->count++; break; case CIL_IBPKEYCON: db->ibpkeycon->count++; break; case CIL_IBENDPORTCON: db->ibendportcon->count++; break; case CIL_PORTCON: db->portcon->count++; break; case CIL_PIRQCON: db->pirqcon->count++; break; case CIL_IOMEMCON: db->iomemcon->count++; break; case CIL_IOPORTCON: db->ioportcon->count++; break; case CIL_PCIDEVICECON: db->pcidevicecon->count++; break; case CIL_DEVICETREECON: db->devicetreecon->count++; break; case CIL_FSUSE: db->fsuse->count++; break; default: break; } return SEPOL_OK; } static int __cil_post_db_array_helper(struct cil_tree_node *node, uint32_t *finished, void *extra_args) { struct cil_db *db = extra_args; switch(node->flavor) { case CIL_BLOCK: { struct cil_block *blk = node->data; if (blk->is_abstract == CIL_TRUE) { *finished = CIL_TREE_SKIP_HEAD; } break; } case CIL_MACRO: *finished = CIL_TREE_SKIP_HEAD; break; case CIL_TYPE: { struct cil_type *type = node->data; if (db->val_to_type == NULL) { db->val_to_type = cil_malloc(sizeof(*db->val_to_type) * db->num_types); } db->val_to_type[type->value] = type; break; } case CIL_ROLE: { struct cil_role *role = node->data; if (db->val_to_role == NULL) { db->val_to_role = cil_malloc(sizeof(*db->val_to_role) * db->num_roles); } db->val_to_role[role->value] = role; break; } case CIL_USER: { struct cil_user *user= node->data; if (db->val_to_user == NULL) { db->val_to_user = cil_malloc(sizeof(*db->val_to_user) * db->num_users); } db->val_to_user[user->value] = user; break; } case CIL_USERPREFIX: { cil_list_append(db->userprefixes, CIL_USERPREFIX, node->data); break; } case CIL_SELINUXUSER: { cil_list_prepend(db->selinuxusers, CIL_SELINUXUSER, node->data); break; } case CIL_SELINUXUSERDEFAULT: { cil_list_append(db->selinuxusers, CIL_SELINUXUSERDEFAULT, node->data); break; } case CIL_NETIFCON: { struct cil_sort *sort = db->netifcon; uint32_t count = sort->count; uint32_t i = sort->index; if (sort->array == NULL) { sort->array = cil_malloc(sizeof(*sort->array)*count); } sort->array[i] = node->data; sort->index++; break; } case CIL_IBENDPORTCON: { struct cil_sort *sort = db->ibendportcon; uint32_t count = sort->count; uint32_t i = sort->index; if (!sort->array) sort->array = cil_malloc(sizeof(*sort->array) * count); sort->array[i] = node->data; sort->index++; break; } case CIL_FSUSE: { struct cil_sort *sort = db->fsuse; uint32_t count = sort->count; uint32_t i = sort->index; if (sort->array == NULL) { sort->array = cil_malloc(sizeof(*sort->array)*count); } sort->array[i] = node->data; sort->index++; break; } case CIL_GENFSCON: { struct cil_sort *sort = db->genfscon; uint32_t count = sort->count; uint32_t i = sort->index; if (sort->array == NULL) { sort->array = cil_malloc(sizeof(*sort->array)*count); } sort->array[i] = node->data; sort->index++; break; } case CIL_FILECON: { struct cil_sort *sort = db->filecon; uint32_t count = sort->count; uint32_t i = sort->index; if (sort->array == NULL) { sort->array = cil_malloc(sizeof(*sort->array)*count); } sort->array[i] = node->data; sort->index++; break; } case CIL_NODECON: { struct cil_sort *sort = db->nodecon; uint32_t count = sort->count; uint32_t i = sort->index; if (sort->array == NULL) { sort->array = cil_malloc(sizeof(*sort->array)*count); } sort->array[i] = node->data; sort->index++; break; } case CIL_IBPKEYCON: { struct cil_sort *sort = db->ibpkeycon; uint32_t count = sort->count; uint32_t i = sort->index; if (!sort->array) sort->array = cil_malloc(sizeof(*sort->array) * count); sort->array[i] = node->data; sort->index++; break; } case CIL_PORTCON: { struct cil_sort *sort = db->portcon; uint32_t count = sort->count; uint32_t i = sort->index; if (sort->array == NULL) { sort->array = cil_malloc(sizeof(*sort->array)*count); } sort->array[i] = node->data; sort->index++; break; } case CIL_PIRQCON: { struct cil_sort *sort = db->pirqcon; uint32_t count = sort->count; uint32_t i = sort->index; if (sort->array == NULL) { sort->array = cil_malloc(sizeof(*sort->array)*count); } sort->array[i] = node->data; sort->index++; break; } case CIL_IOMEMCON: { struct cil_sort *sort = db->iomemcon; uint32_t count = sort->count; uint32_t i = sort->index; if (sort->array == NULL) { sort->array = cil_malloc(sizeof(*sort->array)*count); } sort->array[i] = node->data; sort->index++; break; } case CIL_IOPORTCON: { struct cil_sort *sort = db->ioportcon; uint32_t count = sort->count; uint32_t i = sort->index; if (sort->array == NULL) { sort->array = cil_malloc(sizeof(*sort->array)*count); } sort->array[i] = node->data; sort->index++; break; } case CIL_PCIDEVICECON: { struct cil_sort *sort = db->pcidevicecon; uint32_t count = sort->count; uint32_t i = sort->index; if (sort->array == NULL) { sort->array = cil_malloc(sizeof(*sort->array)*count); } sort->array[i] = node->data; sort->index++; break; } case CIL_DEVICETREECON: { struct cil_sort *sort = db->devicetreecon; uint32_t count = sort->count; uint32_t i = sort->index; if (sort->array == NULL) { sort->array = cil_malloc(sizeof(*sort->array)*count); } sort->array[i] = node->data; sort->index++; break; } default: break; } return SEPOL_OK; } static int __evaluate_type_expression(struct cil_typeattribute *attr, struct cil_db *db) { int rc; attr->types = cil_malloc(sizeof(*attr->types)); rc = __cil_expr_list_to_bitmap(attr->expr_list, attr->types, db->num_types, db); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Failed to expand type attribute to bitmap\n"); ebitmap_destroy(attr->types); free(attr->types); attr->types = NULL; } return rc; } static int __cil_type_to_bitmap(struct cil_symtab_datum *datum, ebitmap_t *bitmap, struct cil_db *db) { int rc = SEPOL_ERR; struct cil_tree_node *node = datum->nodes->head->data; ebitmap_init(bitmap); if (node->flavor == CIL_TYPEATTRIBUTE) { struct cil_typeattribute *attr = (struct cil_typeattribute *)datum; if (attr->types == NULL) { rc = __evaluate_type_expression(attr, db); if (rc != SEPOL_OK) goto exit; } ebitmap_union(bitmap, attr->types); } else if (node->flavor == CIL_TYPEALIAS) { struct cil_alias *alias = (struct cil_alias *)datum; struct cil_type *type = alias->actual; if (ebitmap_set_bit(bitmap, type->value, 1)) { cil_log(CIL_ERR, "Failed to set type bit\n"); ebitmap_destroy(bitmap); goto exit; } } else { struct cil_type *type = (struct cil_type *)datum; if (ebitmap_set_bit(bitmap, type->value, 1)) { cil_log(CIL_ERR, "Failed to set type bit\n"); ebitmap_destroy(bitmap); goto exit; } } return SEPOL_OK; exit: return rc; } static int __evaluate_user_expression(struct cil_userattribute *attr, struct cil_db *db) { int rc; attr->users = cil_malloc(sizeof(*attr->users)); rc = __cil_expr_list_to_bitmap(attr->expr_list, attr->users, db->num_users, db); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Failed to expand user attribute to bitmap\n"); ebitmap_destroy(attr->users); free(attr->users); attr->users = NULL; } return rc; } static int __cil_user_to_bitmap(struct cil_symtab_datum *datum, ebitmap_t *bitmap, struct cil_db *db) { int rc = SEPOL_ERR; struct cil_tree_node *node = datum->nodes->head->data; struct cil_userattribute *attr = NULL; struct cil_user *user = NULL; ebitmap_init(bitmap); if (node->flavor == CIL_USERATTRIBUTE) { attr = (struct cil_userattribute *)datum; if (attr->users == NULL) { rc = __evaluate_user_expression(attr, db); if (rc != SEPOL_OK) { goto exit; } } ebitmap_union(bitmap, attr->users); } else { user = (struct cil_user *)datum; if (ebitmap_set_bit(bitmap, user->value, 1)) { cil_log(CIL_ERR, "Failed to set user bit\n"); ebitmap_destroy(bitmap); goto exit; } } return SEPOL_OK; exit: return rc; } static int __evaluate_role_expression(struct cil_roleattribute *attr, struct cil_db *db) { int rc; attr->roles = cil_malloc(sizeof(*attr->roles)); rc = __cil_expr_list_to_bitmap(attr->expr_list, attr->roles, db->num_roles, db); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Failed to expand role attribute to bitmap\n"); ebitmap_destroy(attr->roles); free(attr->roles); attr->roles = NULL; } return rc; } static int __cil_role_to_bitmap(struct cil_symtab_datum *datum, ebitmap_t *bitmap, struct cil_db *db) { int rc = SEPOL_ERR; struct cil_tree_node *node = datum->nodes->head->data; ebitmap_init(bitmap); if (node->flavor == CIL_ROLEATTRIBUTE) { struct cil_roleattribute *attr = (struct cil_roleattribute *)datum; if (attr->roles == NULL) { rc = __evaluate_role_expression(attr, db); if (rc != SEPOL_OK) goto exit; } ebitmap_union(bitmap, attr->roles); } else { struct cil_role *role = (struct cil_role *)datum; if (ebitmap_set_bit(bitmap, role->value, 1)) { cil_log(CIL_ERR, "Failed to set role bit\n"); ebitmap_destroy(bitmap); goto exit; } } return SEPOL_OK; exit: return rc; } static int __evaluate_permissionx_expression(struct cil_permissionx *permx, struct cil_db *db) { int rc; permx->perms = cil_malloc(sizeof(*permx->perms)); ebitmap_init(permx->perms); rc = __cil_expr_to_bitmap(permx->expr_str, permx->perms, 0x10000, db); // max is one more than 0xFFFF if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Failed to expand permissionx expression\n"); ebitmap_destroy(permx->perms); free(permx->perms); permx->perms = NULL; } return rc; } static int __cil_permx_str_to_int(char *permx_str, uint16_t *val) { char *endptr = NULL; long lval = strtol(permx_str, &endptr, 0); if (*endptr != '\0') { cil_log(CIL_ERR, "permissionx value %s not valid number\n", permx_str); goto exit; } if (lval < 0x0000 || lval > 0xFFFF) { cil_log(CIL_ERR, "permissionx value %s must be between 0x0000 and 0xFFFF\n", permx_str); goto exit; } *val = (uint16_t)lval; return SEPOL_OK; exit: return SEPOL_ERR; } static int __cil_permx_to_bitmap(struct cil_symtab_datum *datum, ebitmap_t *bitmap, __attribute__((unused)) struct cil_db *db) { int rc = SEPOL_ERR; uint16_t val; rc = __cil_permx_str_to_int((char*)datum, &val); if (rc != SEPOL_OK) { goto exit; } ebitmap_init(bitmap); if (ebitmap_set_bit(bitmap, (unsigned int)val, 1)) { cil_log(CIL_ERR, "Failed to set permissionx bit\n"); ebitmap_destroy(bitmap); goto exit; } return SEPOL_OK; exit: return rc; } static int __cil_perm_to_bitmap(struct cil_symtab_datum *datum, ebitmap_t *bitmap, __attribute__((unused)) struct cil_db *db) { struct cil_perm *perm = (struct cil_perm *)datum; unsigned int value = perm->value; ebitmap_init(bitmap); if (ebitmap_set_bit(bitmap, value, 1)) { cil_log(CIL_INFO, "Failed to set perm bit\n"); ebitmap_destroy(bitmap); return SEPOL_ERR; } return SEPOL_OK; } static int __evaluate_cat_expression(struct cil_cats *cats, struct cil_db *db) { int rc = SEPOL_ERR; ebitmap_t bitmap; struct cil_list *new; struct cil_list_item *curr; if (cats->evaluated == CIL_TRUE) { return SEPOL_OK; } if (cil_verify_is_list(cats->datum_expr, CIL_CAT)) { return SEPOL_OK; } ebitmap_init(&bitmap); rc = __cil_expr_to_bitmap(cats->datum_expr, &bitmap, db->num_cats, db); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Failed to expand category expression to bitmap\n"); ebitmap_destroy(&bitmap); goto exit; } cil_list_init(&new, CIL_CAT); cil_list_for_each(curr, db->catorder) { struct cil_cat *cat = curr->data; if (ebitmap_get_bit(&bitmap, cat->value)) { cil_list_append(new, CIL_DATUM, cat); } } ebitmap_destroy(&bitmap); cil_list_destroy(&cats->datum_expr, CIL_FALSE); cats->datum_expr = new; cats->evaluated = CIL_TRUE; return SEPOL_OK; exit: return rc; } static int __cil_cat_to_bitmap(struct cil_symtab_datum *datum, ebitmap_t *bitmap, struct cil_db *db) { int rc = SEPOL_ERR; struct cil_tree_node *node = datum->nodes->head->data; ebitmap_init(bitmap); if (node->flavor == CIL_CATSET) { struct cil_catset *catset = (struct cil_catset *)datum; struct cil_list_item *curr; if (catset->cats->evaluated == CIL_FALSE) { rc = __evaluate_cat_expression(catset->cats, db); if (rc != SEPOL_OK) goto exit; } for (curr = catset->cats->datum_expr->head; curr; curr = curr->next) { struct cil_cat *cat = (struct cil_cat *)curr->data; if (ebitmap_set_bit(bitmap, cat->value, 1)) { cil_log(CIL_ERR, "Failed to set cat bit\n"); ebitmap_destroy(bitmap); goto exit; } } } else if (node->flavor == CIL_CATALIAS) { struct cil_alias *alias = (struct cil_alias *)datum; struct cil_cat *cat = alias->actual; if (ebitmap_set_bit(bitmap, cat->value, 1)) { cil_log(CIL_ERR, "Failed to set cat bit\n"); ebitmap_destroy(bitmap); goto exit; } } else { struct cil_cat *cat = (struct cil_cat *)datum; if (ebitmap_set_bit(bitmap, cat->value, 1)) { cil_log(CIL_ERR, "Failed to set cat bit\n"); ebitmap_destroy(bitmap); goto exit; } } return SEPOL_OK; exit: return rc; } static int __cil_cat_expr_range_to_bitmap_helper(struct cil_list_item *i1, struct cil_list_item *i2, ebitmap_t *bitmap) { int rc = SEPOL_ERR; struct cil_symtab_datum *d1 = i1->data; struct cil_symtab_datum *d2 = i2->data; struct cil_tree_node *n1 = d1->nodes->head->data; struct cil_tree_node *n2 = d2->nodes->head->data; struct cil_cat *c1 = (struct cil_cat *)d1; struct cil_cat *c2 = (struct cil_cat *)d2; int i; if (n1->flavor == CIL_CATSET || n2->flavor == CIL_CATSET) { cil_log(CIL_ERR, "Category sets cannont be used in a category range\n"); goto exit; } if (n1->flavor == CIL_CATALIAS) { struct cil_alias *alias = (struct cil_alias *)d1; c1 = alias->actual; } if (n2->flavor == CIL_CATALIAS) { struct cil_alias *alias = (struct cil_alias *)d2; c2 = alias->actual; } if (c1->value > c2->value) { cil_log(CIL_ERR, "Invalid category range\n"); goto exit; } for (i = c1->value; i <= c2->value; i++) { if (ebitmap_set_bit(bitmap, i, 1)) { cil_log(CIL_ERR, "Failed to set cat bit\n"); ebitmap_destroy(bitmap); goto exit; } } return SEPOL_OK; exit: return rc; } static int __cil_permissionx_expr_range_to_bitmap_helper(struct cil_list_item *i1, struct cil_list_item *i2, ebitmap_t *bitmap) { int rc = SEPOL_ERR; char *p1 = i1->data; char *p2 = i2->data; uint16_t v1; uint16_t v2; uint32_t i; rc = __cil_permx_str_to_int(p1, &v1); if (rc != SEPOL_OK) { goto exit; } rc = __cil_permx_str_to_int(p2, &v2); if (rc != SEPOL_OK) { goto exit; } for (i = v1; i <= v2; i++) { if (ebitmap_set_bit(bitmap, i, 1)) { cil_log(CIL_ERR, "Failed to set permissionx bit\n"); ebitmap_destroy(bitmap); goto exit; } } return SEPOL_OK; exit: return rc; } static int __cil_expr_to_bitmap_helper(struct cil_list_item *curr, enum cil_flavor flavor, ebitmap_t *bitmap, int max, struct cil_db *db) { int rc = SEPOL_ERR; if (curr->flavor == CIL_DATUM) { switch (flavor) { case CIL_TYPE: rc = __cil_type_to_bitmap(curr->data, bitmap, db); break; case CIL_ROLE: rc = __cil_role_to_bitmap(curr->data, bitmap, db); break; case CIL_USER: rc = __cil_user_to_bitmap(curr->data, bitmap, db); break; case CIL_PERM: rc = __cil_perm_to_bitmap(curr->data, bitmap, db); break; case CIL_CAT: rc = __cil_cat_to_bitmap(curr->data, bitmap, db); break; default: rc = SEPOL_ERR; } } else if (curr->flavor == CIL_LIST) { struct cil_list *l = curr->data; ebitmap_init(bitmap); rc = __cil_expr_to_bitmap(l, bitmap, max, db); if (rc != SEPOL_OK) { ebitmap_destroy(bitmap); } } else if (flavor == CIL_PERMISSIONX) { // permissionx expressions aren't resolved into anything, so curr->flavor // is just a CIL_STRING, not a CIL_DATUM, so just check on flavor for those rc = __cil_permx_to_bitmap(curr->data, bitmap, db); } return rc; } static int __cil_expr_to_bitmap(struct cil_list *expr, ebitmap_t *out, int max, struct cil_db *db) { int rc = SEPOL_ERR; struct cil_list_item *curr; enum cil_flavor flavor; ebitmap_t tmp, b1, b2; if (expr == NULL || expr->head == NULL) { return SEPOL_OK; } curr = expr->head; flavor = expr->flavor; if (curr->flavor == CIL_OP) { enum cil_flavor op = (enum cil_flavor)curr->data; if (op == CIL_ALL) { ebitmap_init(&b1); /* all zeros */ rc = ebitmap_not(&tmp, &b1, max); ebitmap_destroy(&b1); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to expand 'all' operator\n"); ebitmap_destroy(&tmp); goto exit; } } else if (op == CIL_RANGE) { if (flavor == CIL_CAT) { ebitmap_init(&tmp); rc = __cil_cat_expr_range_to_bitmap_helper(curr->next, curr->next->next, &tmp); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to expand category range\n"); ebitmap_destroy(&tmp); goto exit; } } else if (flavor == CIL_PERMISSIONX) { ebitmap_init(&tmp); rc = __cil_permissionx_expr_range_to_bitmap_helper(curr->next, curr->next->next, &tmp); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to expand category range\n"); ebitmap_destroy(&tmp); goto exit; } } else { cil_log(CIL_INFO, "Range operation only supported for categories permissionx\n"); rc = SEPOL_ERR; goto exit; } } else { rc = __cil_expr_to_bitmap_helper(curr->next, flavor, &b1, max, db); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to get first operand bitmap\n"); goto exit; } if (op == CIL_NOT) { rc = ebitmap_not(&tmp, &b1, max); ebitmap_destroy(&b1); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to NOT bitmap\n"); ebitmap_destroy(&tmp); goto exit; } } else { rc = __cil_expr_to_bitmap_helper(curr->next->next, flavor, &b2, max, db); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to get second operand bitmap\n"); ebitmap_destroy(&b1); goto exit; } if (op == CIL_OR) { rc = ebitmap_or(&tmp, &b1, &b2); } else if (op == CIL_AND) { rc = ebitmap_and(&tmp, &b1, &b2); } else if (op == CIL_XOR) { rc = ebitmap_xor(&tmp, &b1, &b2); } else { rc = SEPOL_ERR; } ebitmap_destroy(&b1); ebitmap_destroy(&b2); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to apply operator to bitmaps\n"); ebitmap_destroy(&tmp); goto exit; } } } } else { ebitmap_init(&tmp); for (;curr; curr = curr->next) { rc = __cil_expr_to_bitmap_helper(curr, flavor, &b2, max, db); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to get operand in list\n"); ebitmap_destroy(&tmp); goto exit; } b1 = tmp; rc = ebitmap_or(&tmp, &b1, &b2); ebitmap_destroy(&b1); ebitmap_destroy(&b2); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to OR operands in list\n"); ebitmap_destroy(&tmp); goto exit; } } } ebitmap_union(out, &tmp); ebitmap_destroy(&tmp); return SEPOL_OK; exit: return rc; } static int __cil_expr_list_to_bitmap(struct cil_list *expr_list, ebitmap_t *out, int max, struct cil_db *db) { int rc = SEPOL_ERR; struct cil_list_item *expr; ebitmap_init(out); if (expr_list == NULL) { return SEPOL_OK; } cil_list_for_each(expr, expr_list) { ebitmap_t bitmap; struct cil_list *l = (struct cil_list *)expr->data; ebitmap_init(&bitmap); rc = __cil_expr_to_bitmap(l, &bitmap, max, db); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to expand expression list to bitmap\n"); ebitmap_destroy(&bitmap); goto exit; } ebitmap_union(out, &bitmap); ebitmap_destroy(&bitmap); } return SEPOL_OK; exit: return SEPOL_ERR; } static int cil_typeattribute_used(struct cil_typeattribute *attr, struct cil_db *db) { if (!attr->used) { return CIL_FALSE; } if (attr->used & CIL_ATTR_EXPAND_FALSE) { return CIL_TRUE; } if (attr->used & CIL_ATTR_EXPAND_TRUE) { return CIL_FALSE; } if (attr->used & CIL_ATTR_CONSTRAINT) { return CIL_TRUE; } if (db->attrs_expand_generated || attr->used == CIL_ATTR_NEVERALLOW) { if (strcmp(DATUM(attr)->name, GEN_REQUIRE_ATTR) == 0) { return CIL_FALSE; } else if (strstr(DATUM(attr)->name, TYPEATTR_INFIX) != NULL) { return CIL_FALSE; } if (attr->used == CIL_ATTR_NEVERALLOW) { return CIL_TRUE; } } if (attr->used == CIL_ATTR_AVRULE) { if (ebitmap_cardinality(attr->types) < db->attrs_expand_size) { return CIL_FALSE; } } return CIL_TRUE; } static void __mark_neverallow_attrs(struct cil_list *expr_list) { struct cil_list_item *curr; cil_list_for_each(curr, expr_list) { if (curr->flavor == CIL_DATUM) { if (NODE(curr->data)->flavor == CIL_TYPEATTRIBUTE) { struct cil_typeattribute *attr = curr->data; if (strstr(DATUM(attr)->name, TYPEATTR_INFIX)) { __mark_neverallow_attrs(attr->expr_list); } else { attr->used |= CIL_ATTR_NEVERALLOW; } } } else if (curr->flavor == CIL_LIST) { __mark_neverallow_attrs(curr->data); } } } static int __cil_post_db_neverallow_attr_helper(struct cil_tree_node *node, uint32_t *finished, __attribute__((unused)) void *extra_args) { switch (node->flavor) { case CIL_BLOCK: { struct cil_block *blk = node->data; if (blk->is_abstract == CIL_TRUE) { *finished = CIL_TREE_SKIP_HEAD; } break; } case CIL_MACRO: { *finished = CIL_TREE_SKIP_HEAD; break; } case CIL_TYPEATTRIBUTE: { struct cil_typeattribute *attr = node->data; if ((attr->used & CIL_ATTR_NEVERALLOW) && strstr(DATUM(attr)->name, TYPEATTR_INFIX)) { __mark_neverallow_attrs(attr->expr_list); } break; } default: break; } return SEPOL_OK; } static int __cil_post_db_attr_helper(struct cil_tree_node *node, uint32_t *finished, void *extra_args) { int rc = SEPOL_ERR; struct cil_db *db = extra_args; switch (node->flavor) { case CIL_BLOCK: { struct cil_block *blk = node->data; if (blk->is_abstract == CIL_TRUE) { *finished = CIL_TREE_SKIP_HEAD; } break; } case CIL_MACRO: { *finished = CIL_TREE_SKIP_HEAD; break; } case CIL_TYPEATTRIBUTE: { struct cil_typeattribute *attr = node->data; if (attr->types == NULL) { rc = __evaluate_type_expression(attr, db); if (rc != SEPOL_OK) goto exit; } attr->keep = cil_typeattribute_used(attr, db); break; } case CIL_ROLEATTRIBUTE: { struct cil_roleattribute *attr = node->data; if (attr->roles == NULL) { rc = __evaluate_role_expression(attr, db); if (rc != SEPOL_OK) goto exit; } break; } case CIL_AVRULEX: { struct cil_avrule *rule = node->data; if (rule->perms.x.permx_str == NULL) { rc = __evaluate_permissionx_expression(rule->perms.x.permx, db); if (rc != SEPOL_OK) goto exit; } break; } case CIL_PERMISSIONX: { struct cil_permissionx *permx = node->data; rc = __evaluate_permissionx_expression(permx, db); if (rc != SEPOL_OK) goto exit; break; } case CIL_USERATTRIBUTE: { struct cil_userattribute *attr = node->data; if (attr->users == NULL) { rc = __evaluate_user_expression(attr, db); if (rc != SEPOL_OK) { goto exit; } } break; } default: break; } return SEPOL_OK; exit: return rc; } static int __cil_role_assign_types(struct cil_role *role, struct cil_symtab_datum *datum) { struct cil_tree_node *node = datum->nodes->head->data; if (role->types == NULL) { role->types = cil_malloc(sizeof(*role->types)); ebitmap_init(role->types); } if (node->flavor == CIL_TYPE) { struct cil_type *type = (struct cil_type *)datum; if (ebitmap_set_bit(role->types, type->value, 1)) { cil_log(CIL_INFO, "Failed to set bit in role types bitmap\n"); goto exit; } } else if (node->flavor == CIL_TYPEALIAS) { struct cil_alias *alias = (struct cil_alias *)datum; struct cil_type *type = alias->actual; if (ebitmap_set_bit(role->types, type->value, 1)) { cil_log(CIL_INFO, "Failed to set bit in role types bitmap\n"); goto exit; } } else if (node->flavor == CIL_TYPEATTRIBUTE) { struct cil_typeattribute *attr = (struct cil_typeattribute *)datum; ebitmap_union(role->types, attr->types); } return SEPOL_OK; exit: return SEPOL_ERR; } static int __cil_post_db_roletype_helper(struct cil_tree_node *node, uint32_t *finished, void *extra_args) { int rc = SEPOL_ERR; struct cil_db *db = extra_args; switch (node->flavor) { case CIL_BLOCK: { struct cil_block *blk = node->data; if (blk->is_abstract == CIL_TRUE) { *finished = CIL_TREE_SKIP_HEAD; } break; } case CIL_MACRO: { *finished = CIL_TREE_SKIP_HEAD; break; } case CIL_ROLETYPE: { struct cil_roletype *roletype = node->data; struct cil_symtab_datum *role_datum = roletype->role; struct cil_symtab_datum *type_datum = roletype->type; struct cil_tree_node *role_node = role_datum->nodes->head->data; if (role_node->flavor == CIL_ROLEATTRIBUTE) { struct cil_roleattribute *attr = roletype->role; ebitmap_node_t *rnode; unsigned int i; ebitmap_for_each_positive_bit(attr->roles, rnode, i) { struct cil_role *role = NULL; role = db->val_to_role[i]; rc = __cil_role_assign_types(role, type_datum); if (rc != SEPOL_OK) { goto exit; } } } else { struct cil_role *role = roletype->role; rc = __cil_role_assign_types(role, type_datum); if (rc != SEPOL_OK) { goto exit; } } break; } default: break; } return SEPOL_OK; exit: cil_log(CIL_INFO, "cil_post_db_roletype_helper failed\n"); return rc; } static int __cil_user_assign_roles(struct cil_user *user, struct cil_symtab_datum *datum) { struct cil_tree_node *node = datum->nodes->head->data; struct cil_role *role = NULL; struct cil_roleattribute *attr = NULL; if (user->roles == NULL) { user->roles = cil_malloc(sizeof(*user->roles)); ebitmap_init(user->roles); } if (node->flavor == CIL_ROLE) { role = (struct cil_role *)datum; if (ebitmap_set_bit(user->roles, role->value, 1)) { cil_log(CIL_INFO, "Failed to set bit in user roles bitmap\n"); goto exit; } } else if (node->flavor == CIL_ROLEATTRIBUTE) { attr = (struct cil_roleattribute *)datum; ebitmap_union(user->roles, attr->roles); } return SEPOL_OK; exit: return SEPOL_ERR; } static int __cil_post_db_userrole_helper(struct cil_tree_node *node, uint32_t *finished, void *extra_args) { int rc = SEPOL_ERR; struct cil_db *db = extra_args; struct cil_block *blk = NULL; struct cil_userrole *userrole = NULL; struct cil_symtab_datum *user_datum = NULL; struct cil_symtab_datum *role_datum = NULL; struct cil_tree_node *user_node = NULL; struct cil_userattribute *u_attr = NULL; unsigned int i; struct cil_user *user = NULL; ebitmap_node_t *unode = NULL; switch (node->flavor) { case CIL_BLOCK: { blk = node->data; if (blk->is_abstract == CIL_TRUE) { *finished = CIL_TREE_SKIP_HEAD; } break; } case CIL_MACRO: { *finished = CIL_TREE_SKIP_HEAD; break; } case CIL_USERROLE: { userrole = node->data; user_datum = userrole->user; role_datum = userrole->role; user_node = user_datum->nodes->head->data; if (user_node->flavor == CIL_USERATTRIBUTE) { u_attr = userrole->user; ebitmap_for_each_positive_bit(u_attr->users, unode, i) { user = db->val_to_user[i]; rc = __cil_user_assign_roles(user, role_datum); if (rc != SEPOL_OK) { goto exit; } } } else { user = userrole->user; rc = __cil_user_assign_roles(user, role_datum); if (rc != SEPOL_OK) { goto exit; } } break; } default: break; } return SEPOL_OK; exit: cil_log(CIL_INFO, "cil_post_db_userrole_helper failed\n"); return rc; } static int __evaluate_level_expression(struct cil_level *level, struct cil_db *db) { if (level->cats != NULL) { return __evaluate_cat_expression(level->cats, db); } return SEPOL_OK; } static int __evaluate_levelrange_expression(struct cil_levelrange *levelrange, struct cil_db *db) { int rc = SEPOL_OK; if (levelrange->low != NULL && levelrange->low->cats != NULL) { rc = __evaluate_cat_expression(levelrange->low->cats, db); if (rc != SEPOL_OK) { goto exit; } } if (levelrange->high != NULL && levelrange->high->cats != NULL) { rc = __evaluate_cat_expression(levelrange->high->cats, db); if (rc != SEPOL_OK) { goto exit; } } exit: return rc; } static int __cil_post_db_cat_helper(struct cil_tree_node *node, uint32_t *finished, void *extra_args) { int rc = SEPOL_ERR; struct cil_db *db = extra_args; switch (node->flavor) { case CIL_BLOCK: { struct cil_block *blk = node->data; if (blk->is_abstract == CIL_TRUE) { *finished = CIL_TREE_SKIP_HEAD; } break; } case CIL_MACRO: { *finished = CIL_TREE_SKIP_HEAD; break; } case CIL_CATSET: { struct cil_catset *catset = node->data; rc = __evaluate_cat_expression(catset->cats, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_SENSCAT: { struct cil_senscat *senscat = node->data; rc = __evaluate_cat_expression(senscat->cats, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_LEVEL: { rc = __evaluate_level_expression(node->data, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_LEVELRANGE: { rc = __evaluate_levelrange_expression(node->data, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_USER: { struct cil_user *user = node->data; rc = __evaluate_level_expression(user->dftlevel, db); if (rc != SEPOL_OK) { goto exit; } rc = __evaluate_levelrange_expression(user->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_SELINUXUSERDEFAULT: case CIL_SELINUXUSER: { struct cil_selinuxuser *selinuxuser = node->data; rc = __evaluate_levelrange_expression(selinuxuser->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_RANGETRANSITION: { struct cil_rangetransition *rangetrans = node->data; rc = __evaluate_levelrange_expression(rangetrans->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_CONTEXT: { struct cil_context *context = node->data; rc = __evaluate_levelrange_expression(context->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_SIDCONTEXT: { struct cil_sidcontext *sidcontext = node->data; rc = __evaluate_levelrange_expression(sidcontext->context->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_FILECON: { struct cil_filecon *filecon = node->data; if (filecon->context) { rc = __evaluate_levelrange_expression(filecon->context->range, db); if (rc != SEPOL_OK) { goto exit; } } break; } case CIL_IBPKEYCON: { struct cil_ibpkeycon *ibpkeycon = node->data; rc = __evaluate_levelrange_expression(ibpkeycon->context->range, db); if (rc != SEPOL_OK) goto exit; break; } case CIL_IBENDPORTCON: { struct cil_ibendportcon *ibendportcon = node->data; rc = __evaluate_levelrange_expression(ibendportcon->context->range, db); if (rc != SEPOL_OK) goto exit; break; } case CIL_PORTCON: { struct cil_portcon *portcon = node->data; rc = __evaluate_levelrange_expression(portcon->context->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_NODECON: { struct cil_nodecon *nodecon = node->data; rc = __evaluate_levelrange_expression(nodecon->context->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_GENFSCON: { struct cil_genfscon *genfscon = node->data; rc = __evaluate_levelrange_expression(genfscon->context->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_NETIFCON: { struct cil_netifcon *netifcon = node->data; rc = __evaluate_levelrange_expression(netifcon->if_context->range, db); if (rc != SEPOL_OK) { goto exit; } rc = __evaluate_levelrange_expression(netifcon->packet_context->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_PIRQCON: { struct cil_pirqcon *pirqcon = node->data; rc = __evaluate_levelrange_expression(pirqcon->context->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_IOMEMCON: { struct cil_iomemcon *iomemcon = node->data; rc = __evaluate_levelrange_expression(iomemcon->context->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_IOPORTCON: { struct cil_ioportcon *ioportcon = node->data; rc = __evaluate_levelrange_expression(ioportcon->context->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_PCIDEVICECON: { struct cil_pcidevicecon *pcidevicecon = node->data; rc = __evaluate_levelrange_expression(pcidevicecon->context->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_DEVICETREECON: { struct cil_devicetreecon *devicetreecon = node->data; rc = __evaluate_levelrange_expression(devicetreecon->context->range, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_FSUSE: { struct cil_fsuse *fsuse = node->data; rc = __evaluate_levelrange_expression(fsuse->context->range, db); if (rc != SEPOL_OK) { goto exit; } break; } default: break; } return SEPOL_OK; exit: return rc; } struct perm_to_list { enum cil_flavor flavor; ebitmap_t *perms; struct cil_list *new_list; }; static int __perm_bits_to_list(__attribute__((unused)) hashtab_key_t k, hashtab_datum_t d, void *args) { struct perm_to_list *perm_args = (struct perm_to_list *)args; ebitmap_t *perms = perm_args->perms; struct cil_list *new_list = perm_args->new_list; struct cil_perm *perm = (struct cil_perm *)d; unsigned int value = perm->value; if (!ebitmap_get_bit(perms, value)) { return SEPOL_OK; } cil_list_append(new_list, CIL_DATUM, d); return SEPOL_OK; } static int __evaluate_perm_expression(struct cil_list *perms, enum cil_flavor flavor, symtab_t *class_symtab, symtab_t *common_symtab, unsigned int num_perms, struct cil_list **new_list, struct cil_db *db) { int rc = SEPOL_ERR; struct perm_to_list args; ebitmap_t bitmap; if (cil_verify_is_list(perms, CIL_PERM)) { return SEPOL_OK; } ebitmap_init(&bitmap); rc = __cil_expr_to_bitmap(perms, &bitmap, num_perms, db); if (rc != SEPOL_OK) { ebitmap_destroy(&bitmap); goto exit; } cil_list_init(new_list, flavor); args.flavor = flavor; args.perms = &bitmap; args.new_list = *new_list; cil_symtab_map(class_symtab, __perm_bits_to_list, &args); if (common_symtab != NULL) { cil_symtab_map(common_symtab, __perm_bits_to_list, &args); } ebitmap_destroy(&bitmap); return SEPOL_OK; exit: return rc; } static int __evaluate_classperms(struct cil_classperms *cp, struct cil_db *db) { int rc = SEPOL_ERR; struct cil_class *class = cp->class; struct cil_class *common = class->common; symtab_t *common_symtab = NULL; struct cil_list *new_list = NULL; if (common) { common_symtab = &common->perms; } rc = __evaluate_perm_expression(cp->perms, CIL_PERM, &class->perms, common_symtab, class->num_perms, &new_list, db); if (rc != SEPOL_OK) { goto exit; } if (new_list == NULL) { return SEPOL_OK; } cil_list_destroy(&cp->perms, CIL_FALSE); cp->perms = new_list; return SEPOL_OK; exit: return rc; } static int __evaluate_classperms_list(struct cil_list *classperms, struct cil_db *db) { int rc = SEPOL_ERR; struct cil_list_item *curr; cil_list_for_each(curr, classperms) { if (curr->flavor == CIL_CLASSPERMS) { struct cil_classperms *cp = curr->data; if (FLAVOR(cp->class) == CIL_CLASS) { rc = __evaluate_classperms(cp, db); if (rc != SEPOL_OK) { goto exit; } } else { /* MAP */ struct cil_list_item *i = NULL; cil_list_for_each(i, cp->perms) { struct cil_perm *cmp = i->data; rc = __evaluate_classperms_list(cmp->classperms, db); if (rc != SEPOL_OK) { goto exit; } } } } else { /* SET */ struct cil_classperms_set *cp_set = curr->data; struct cil_classpermission *cp = cp_set->set; rc = __evaluate_classperms_list(cp->classperms, db); if (rc != SEPOL_OK) { goto exit; } } } return SEPOL_OK; exit: return rc; } struct class_map_args { struct cil_db *db; int rc; }; static int __evaluate_map_perm_classperms(__attribute__((unused)) hashtab_key_t k, hashtab_datum_t d, void *args) { struct class_map_args *map_args = args; struct cil_perm *cmp = (struct cil_perm *)d; int rc = __evaluate_classperms_list(cmp->classperms, map_args->db); if (rc != SEPOL_OK) { map_args->rc = rc; } return SEPOL_OK; } static int __evaluate_map_class(struct cil_class *mc, struct cil_db *db) { struct class_map_args map_args; map_args.db = db; map_args.rc = SEPOL_OK; cil_symtab_map(&mc->perms, __evaluate_map_perm_classperms, &map_args); return map_args.rc; } static int __cil_post_db_classperms_helper(struct cil_tree_node *node, uint32_t *finished, void *extra_args) { int rc = SEPOL_ERR; struct cil_db *db = extra_args; switch (node->flavor) { case CIL_BLOCK: { struct cil_block *blk = node->data; if (blk->is_abstract == CIL_TRUE) { *finished = CIL_TREE_SKIP_HEAD; } break; } case CIL_MACRO: *finished = CIL_TREE_SKIP_HEAD; break; case CIL_MAP_CLASS: { rc = __evaluate_map_class(node->data, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_CLASSPERMISSION: { struct cil_classpermission *cp = node->data; rc = __evaluate_classperms_list(cp->classperms, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_AVRULE: { struct cil_avrule *avrule = node->data; rc = __evaluate_classperms_list(avrule->perms.classperms, db); if (rc != SEPOL_OK) { goto exit; } break; } case CIL_CONSTRAIN: case CIL_MLSCONSTRAIN: { struct cil_constrain *constrain = node->data; rc = __evaluate_classperms_list(constrain->classperms, db); if (rc != SEPOL_OK) { goto exit; } break; } default: break; } return SEPOL_OK; exit: return rc; } static int __cil_post_report_conflict(struct cil_tree_node *node, uint32_t *finished, void *extra_args) { struct cil_list_item *li = extra_args; if (node->flavor == CIL_BLOCK) { struct cil_block *blk = node->data; if (blk->is_abstract == CIL_TRUE) { *finished = CIL_TREE_SKIP_HEAD; } } else if (node->flavor == CIL_MACRO) { *finished = CIL_TREE_SKIP_HEAD; } else if (node->flavor == li->flavor) { if (node->data == li->data) { char *path = cil_tree_get_cil_path(node); cil_log(CIL_WARN, " at %s:%d\n", path, node->line); } } return SEPOL_OK; } static int __cil_post_process_context_rules(struct cil_sort *sort, int (*compar)(const void *, const void *), int (*concompar)(const void *, const void *), struct cil_db *db, enum cil_flavor flavor, const char *flavor_str) { uint32_t count = sort->count; uint32_t i, j = 0, removed = 0; int rc = SEPOL_OK; if (count < 2) { return SEPOL_OK; } qsort(sort->array, sort->count, sizeof(sort->array), compar); for (i=1; iarray[i], &sort->array[j]) != 0) { j++; } else { removed++; if (!db->multiple_decls || concompar(&sort->array[i], &sort->array[j]) != 0) { struct cil_list_item li; int rc2; cil_log(CIL_WARN, "Found conflicting %s rules\n", flavor_str); rc = SEPOL_ERR; li.flavor = flavor; li.data = sort->array[i]; rc2 = cil_tree_walk(db->ast->root, __cil_post_report_conflict, NULL, NULL, &li); if (rc2 != SEPOL_OK) goto exit; li.data = sort->array[j]; rc2 = cil_tree_walk(db->ast->root, __cil_post_report_conflict, NULL, NULL, &li); if (rc2 != SEPOL_OK) goto exit; } } if (i != j) { sort->array[j] = sort->array[i]; } } sort->count = count - removed; exit: return rc; } static int cil_post_db(struct cil_db *db) { int rc = SEPOL_ERR; rc = cil_tree_walk(db->ast->root, __cil_post_db_count_helper, NULL, NULL, db); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failure during cil database count helper\n"); goto exit; } rc = cil_tree_walk(db->ast->root, __cil_post_db_array_helper, NULL, NULL, db); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failure during cil database array helper\n"); goto exit; } rc = cil_tree_walk(db->ast->root, __cil_post_db_neverallow_attr_helper, NULL, NULL, db); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to mark attributes used by generated attributes used in neverallow rules\n"); goto exit; } rc = cil_tree_walk(db->ast->root, __cil_post_db_attr_helper, NULL, NULL, db); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to create attribute bitmaps\n"); goto exit; } rc = cil_tree_walk(db->ast->root, __cil_post_db_roletype_helper, NULL, NULL, db); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed during roletype association\n"); goto exit; } rc = cil_tree_walk(db->ast->root, __cil_post_db_userrole_helper, NULL, NULL, db); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed during userrole association\n"); goto exit; } rc = cil_tree_walk(db->ast->root, __cil_post_db_classperms_helper, NULL, NULL, db); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to evaluate class mapping permissions expressions\n"); goto exit; } rc = cil_tree_walk(db->ast->root, __cil_post_db_cat_helper, NULL, NULL, db); if (rc != SEPOL_OK) { cil_log(CIL_INFO, "Failed to evaluate category expressions\n"); goto exit; } rc = __cil_post_process_context_rules(db->netifcon, cil_post_netifcon_compare, cil_post_netifcon_context_compare, db, CIL_NETIFCON, CIL_KEY_NETIFCON); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Problems processing netifcon rules\n"); goto exit; } rc = __cil_post_process_context_rules(db->genfscon, cil_post_genfscon_compare, cil_post_genfscon_context_compare, db, CIL_GENFSCON, CIL_KEY_GENFSCON); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Problems processing genfscon rules\n"); goto exit; } rc = __cil_post_process_context_rules(db->ibpkeycon, cil_post_ibpkeycon_compare, cil_post_ibpkeycon_context_compare, db, CIL_IBPKEYCON, CIL_KEY_IBPKEYCON); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Problems processing ibpkeycon rules\n"); goto exit; } rc = __cil_post_process_context_rules(db->ibendportcon, cil_post_ibendportcon_compare, cil_post_ibendportcon_context_compare, db, CIL_IBENDPORTCON, CIL_KEY_IBENDPORTCON); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Problems processing ibendportcon rules\n"); goto exit; } rc = __cil_post_process_context_rules(db->portcon, cil_post_portcon_compare, cil_post_portcon_context_compare, db, CIL_PORTCON, CIL_KEY_PORTCON); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Problems processing portcon rules\n"); goto exit; } rc = __cil_post_process_context_rules(db->nodecon, cil_post_nodecon_compare, cil_post_nodecon_context_compare, db, CIL_NODECON, CIL_KEY_NODECON); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Problems processing nodecon rules\n"); goto exit; } rc = __cil_post_process_context_rules(db->fsuse, cil_post_fsuse_compare, cil_post_fsuse_context_compare, db, CIL_FSUSE, CIL_KEY_FSUSE); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Problems processing fsuse rules\n"); goto exit; } rc = __cil_post_process_context_rules(db->filecon, cil_post_filecon_compare, cil_post_filecon_context_compare, db, CIL_FILECON, CIL_KEY_FILECON); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Problems processing filecon rules\n"); goto exit; } rc = __cil_post_process_context_rules(db->iomemcon, cil_post_iomemcon_compare, cil_post_iomemcon_context_compare, db, CIL_IOMEMCON, CIL_KEY_IOMEMCON); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Problems processing iomemcon rules\n"); goto exit; } rc = __cil_post_process_context_rules(db->ioportcon, cil_post_ioportcon_compare, cil_post_ioportcon_context_compare, db, CIL_IOPORTCON, CIL_KEY_IOPORTCON); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Problems processing ioportcon rules\n"); goto exit; } rc = __cil_post_process_context_rules(db->pcidevicecon, cil_post_pcidevicecon_compare, cil_post_pcidevicecon_context_compare, db, CIL_PCIDEVICECON, CIL_KEY_PCIDEVICECON); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Problems processing pcidevicecon rules\n"); goto exit; } rc = __cil_post_process_context_rules(db->devicetreecon, cil_post_devicetreecon_compare, cil_post_devicetreecon_context_compare, db, CIL_DEVICETREECON, CIL_KEY_DEVICETREECON); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Problems processing devicetreecon rules\n"); goto exit; } exit: return rc; } static int cil_post_verify(struct cil_db *db) { int rc = SEPOL_ERR; int avrule_cnt = 0; int handleunknown = -1; int mls = -1; int nseuserdflt = 0; int pass = 0; struct cil_args_verify extra_args; struct cil_complex_symtab csymtab; cil_complex_symtab_init(&csymtab, CIL_CLASS_SYM_SIZE); extra_args.db = db; extra_args.csymtab = &csymtab; extra_args.avrule_cnt = &avrule_cnt; extra_args.handleunknown = &handleunknown; extra_args.mls = &mls; extra_args.nseuserdflt = &nseuserdflt; extra_args.pass = &pass; for (pass = 0; pass < 2; pass++) { rc = cil_tree_walk(db->ast->root, __cil_verify_helper, NULL, NULL, &extra_args); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Failed to verify cil database\n"); goto exit; } } if (db->handle_unknown == -1) { if (handleunknown == -1) { db->handle_unknown = SEPOL_DENY_UNKNOWN; } else { db->handle_unknown = handleunknown; } } if (db->mls == -1) { if (mls == -1) { db->mls = CIL_FALSE; } else { db->mls = mls; } } if (avrule_cnt == 0) { cil_log(CIL_ERR, "Policy must include at least one avrule\n"); rc = SEPOL_ERR; goto exit; } if (nseuserdflt > 1) { cil_log(CIL_ERR, "Policy cannot contain more than one selinuxuserdefault, found: %d\n", nseuserdflt); rc = SEPOL_ERR; goto exit; } exit: cil_complex_symtab_destroy(&csymtab); return rc; } static int cil_pre_verify(struct cil_db *db) { int rc = SEPOL_ERR; struct cil_args_verify extra_args; extra_args.db = db; rc = cil_tree_walk(db->ast->root, __cil_pre_verify_helper, NULL, NULL, &extra_args); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Failed to verify cil database\n"); goto exit; } exit: return rc; } int cil_post_process(struct cil_db *db) { int rc = SEPOL_ERR; rc = cil_pre_verify(db); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Failed to verify cil database\n"); goto exit; } rc = cil_post_db(db); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Failed post db handling\n"); goto exit; } rc = cil_post_verify(db); if (rc != SEPOL_OK) { cil_log(CIL_ERR, "Failed to verify cil database\n"); goto exit; } exit: return rc; }