/* Unix SMB/CIFS implementation. Endpoint server for the epmapper pipe Copyright (C) 2010-2011 Andreas Schneider This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include "includes.h" #include "../libcli/security/security.h" #include "librpc/gen_ndr/ndr_epmapper.h" #include "librpc/gen_ndr/srv_epmapper.h" #include "srv_epmapper.h" typedef uint32_t error_status_t; /* An endpoint combined with an interface description */ struct dcesrv_ep_iface { const char *name; struct ndr_syntax_id syntax_id; struct epm_tower ep; }; /* A rpc service interface like samr, lsarpc or netlogon */ struct dcesrv_iface { const char *name; struct ndr_syntax_id syntax_id; }; struct dcesrv_iface_list { struct dcesrv_iface_list *next, *prev; struct dcesrv_iface *iface; }; /* * An endpoint can serve multiple rpc services interfaces. * For example \\pipe\netlogon can be used by lsarpc and netlogon. */ struct dcesrv_endpoint { struct dcesrv_endpoint *next, *prev; /* The type and the location of the endpoint */ struct dcerpc_binding *ep_description; /* A list of rpc services able to connect to the endpoint */ struct dcesrv_iface_list *iface_list; }; struct dcesrv_ep_entry_list { struct dcesrv_ep_entry_list *next, *prev; uint32_t num_ents; struct epm_entry_t *entries; }; struct rpc_eps { struct dcesrv_ep_iface *e; uint32_t count; }; static struct dcesrv_endpoint *endpoint_table; /* * Check if the UUID and if_version match to an interface. */ static bool interface_match(const struct dcesrv_iface *if1, const struct dcesrv_iface *if2) { return GUID_equal(&if1->syntax_id.uuid, &if2->syntax_id.uuid); } /* * Find the interface operations on an endpoint. */ static const struct dcesrv_iface *find_interface(const struct dcesrv_endpoint *endpoint, const struct dcesrv_iface *iface) { struct dcesrv_iface_list *iflist; for (iflist = endpoint->iface_list; iflist; iflist = iflist->next) { if (interface_match(iflist->iface, iface)) { return iflist->iface; } } return NULL; } /* * See if a uuid and if_version match to an interface */ static bool interface_match_by_uuid(const struct dcesrv_iface *iface, const struct GUID *uuid) { return GUID_equal(&iface->syntax_id.uuid, uuid); } static struct dcesrv_iface_list *find_interface_list(const struct dcesrv_endpoint *endpoint, const struct dcesrv_iface *iface) { struct dcesrv_iface_list *iflist; for (iflist = endpoint->iface_list; iflist; iflist = iflist->next) { if (interface_match(iflist->iface, iface)) { return iflist; } } return NULL; } /* * Check if two endpoints match. */ static bool endpoints_match(const struct dcerpc_binding *ep1, const struct dcerpc_binding *ep2) { if (ep1->transport != ep2->transport) { return false; } if (!ep1->endpoint || !ep2->endpoint) { return ep1->endpoint == ep2->endpoint; } if (!strequal(ep1->endpoint, ep2->endpoint)) { return false; } return true; } static struct dcesrv_endpoint *find_endpoint(struct dcesrv_endpoint *endpoint_list, struct dcerpc_binding *ep_description) { struct dcesrv_endpoint *ep; for (ep = endpoint_list; ep != NULL; ep = ep->next) { if (endpoints_match(ep->ep_description, ep_description)) { return ep; } } return NULL; } /* * Build a list of all interfaces handled by all endpoint servers. */ static uint32_t build_ep_list(TALLOC_CTX *mem_ctx, struct dcesrv_endpoint *endpoint_list, const struct GUID *uuid, const char *srv_addr, struct dcesrv_ep_iface **peps) { struct dcesrv_ep_iface *eps = NULL; struct dcesrv_endpoint *d; uint32_t total = 0; NTSTATUS status; *peps = NULL; for (d = endpoint_list; d != NULL; d = d->next) { struct dcesrv_iface_list *iface; struct dcerpc_binding *description; for (iface = d->iface_list; iface != NULL; iface = iface->next) { if (uuid && !interface_match_by_uuid(iface->iface, uuid)) { continue; } eps = talloc_realloc(mem_ctx, eps, struct dcesrv_ep_iface, total + 1); if (eps == NULL) { return 0; } eps[total].name = talloc_strdup(eps, iface->iface->name); eps[total].syntax_id = iface->iface->syntax_id; description = d->ep_description; description->object = iface->iface->syntax_id; if (description->transport == NCACN_IP_TCP && srv_addr != NULL && strequal(description->host, "0.0.0.0")) { description->host = srv_addr; } status = dcerpc_binding_build_tower(eps, description, &eps[total].ep); if (NT_STATUS_IS_ERR(status)) { DEBUG(1, ("Unable to build tower for %s\n", iface->iface->name)); continue; } total++; } } *peps = eps; return total; } static bool is_priviledged_pipe(struct auth_serversupplied_info *info) { /* If the user is not root, or has the system token, fail */ if ((info->utok.uid != sec_initial_uid()) && !security_token_is_system(info->security_token)) { return false; } return true; } bool srv_epmapper_delete_endpoints(struct pipes_struct *p) { struct epm_Delete r; struct dcesrv_ep_entry_list *el; error_status_t result; if (p->ep_entries == NULL) { return true; } for (el = p->ep_entries; el != NULL; el = p->ep_entries) { r.in.num_ents = el->num_ents; r.in.entries = el->entries; DEBUG(10, ("Delete_endpoints for: %s\n", el->entries[0].annotation)); result = _epm_Delete(p, &r); if (result != EPMAPPER_STATUS_OK) { return false; } DLIST_REMOVE(p->ep_entries, el); TALLOC_FREE(el); } return true; } void srv_epmapper_cleanup(void) { struct dcesrv_endpoint *ep; for (ep = endpoint_table; ep != NULL; ep = endpoint_table) { DLIST_REMOVE(endpoint_table, ep); TALLOC_FREE(ep); } } /* * epm_Insert * * Add the specified entries to an endpoint map. */ error_status_t _epm_Insert(struct pipes_struct *p, struct epm_Insert *r) { TALLOC_CTX *tmp_ctx; error_status_t rc; NTSTATUS status; uint32_t i; /* If this is not a priviledged users, return */ if (p->transport != NCALRPC || !is_priviledged_pipe(p->session_info)) { return EPMAPPER_STATUS_CANT_PERFORM_OP; } tmp_ctx = talloc_stackframe(); if (tmp_ctx == NULL) { return EPMAPPER_STATUS_NO_MEMORY; } DEBUG(3, ("_epm_Insert: Trying to add %u new entries.\n", r->in.num_ents)); for (i = 0; i < r->in.num_ents; i++) { struct dcerpc_binding *b = NULL; struct dcesrv_endpoint *ep; struct dcesrv_iface_list *iflist; struct dcesrv_iface *iface; bool add_ep = false; status = dcerpc_binding_from_tower(tmp_ctx, &r->in.entries[i].tower->tower, &b); if (!NT_STATUS_IS_OK(status)) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } DEBUG(3, ("_epm_Insert: Adding transport %s for %s\n", derpc_transport_string_by_transport(b->transport), r->in.entries[i].annotation)); /* Check if the entry already exits */ ep = find_endpoint(endpoint_table, b); if (ep == NULL) { /* No entry found, create it */ ep = talloc_zero(NULL, struct dcesrv_endpoint); if (ep == NULL) { rc = EPMAPPER_STATUS_CANT_PERFORM_OP; goto done; } add_ep = true; ep->ep_description = talloc_steal(ep, b); } /* TODO Replace the entry if the replace flag is set */ /* Create an interface */ iface = talloc(tmp_ctx, struct dcesrv_iface); if (iface == NULL) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } iface->name = talloc_strdup(iface, r->in.entries[i].annotation); if (iface->name == NULL) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } iface->syntax_id = b->object; /* * Check if the rpc service is alrady registered on the * endpoint. */ if (find_interface(ep, iface) != NULL) { DEBUG(0, ("dcesrv_interface_register: interface '%s' " "already registered on endpoint\n", iface->name)); /* FIXME wrong error code? */ rc = EPMAPPER_STATUS_OK; goto done; } /* Create an entry for the interface */ iflist = talloc(ep, struct dcesrv_iface_list); if (iflist == NULL) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } iflist->iface = talloc_move(iflist, &iface); /* Finally add the interface on the endpoint */ DLIST_ADD(ep->iface_list, iflist); /* If it's a new endpoint add it to the endpoint_table */ if (add_ep) { DLIST_ADD(endpoint_table, ep); } } if (r->in.num_ents > 0) { struct dcesrv_ep_entry_list *el; el = talloc_zero(p->mem_ctx, struct dcesrv_ep_entry_list); if (el == NULL) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } el->num_ents = r->in.num_ents; el->entries = talloc_move(el, &r->in.entries); DLIST_ADD(p->ep_entries, el); } rc = EPMAPPER_STATUS_OK; done: talloc_free(tmp_ctx); return rc; } /* * epm_Delete * * Delete the specified entries from an endpoint map. */ error_status_t _epm_Delete(struct pipes_struct *p, struct epm_Delete *r) { TALLOC_CTX *tmp_ctx; error_status_t rc; NTSTATUS status; uint32_t i; DEBUG(3, ("_epm_Delete: Trying to delete %u entries.\n", r->in.num_ents)); /* If this is not a priviledged users, return */ if (p->transport != NCALRPC || !is_priviledged_pipe(p->session_info)) { return EPMAPPER_STATUS_CANT_PERFORM_OP; } tmp_ctx = talloc_stackframe(); if (tmp_ctx == NULL) { return EPMAPPER_STATUS_NO_MEMORY; } for (i = 0; i < r->in.num_ents; i++) { struct dcerpc_binding *b = NULL; struct dcesrv_endpoint *ep; struct dcesrv_iface iface; struct dcesrv_iface_list *iflist; status = dcerpc_binding_from_tower(tmp_ctx, &r->in.entries[i].tower->tower, &b); if (!NT_STATUS_IS_OK(status)) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } DEBUG(3, ("_epm_Delete: Deleting transport '%s' for '%s'\n", derpc_transport_string_by_transport(b->transport), r->in.entries[i].annotation)); ep = find_endpoint(endpoint_table, b); if (ep == NULL) { rc = EPMAPPER_STATUS_OK; goto done; } iface.name = r->in.entries[i].annotation; iface.syntax_id = b->object; iflist = find_interface_list(ep, &iface); if (iflist == NULL) { DEBUG(0, ("_epm_Delete: No interfaces left, delete endpoint\n")); DLIST_REMOVE(endpoint_table, ep); talloc_free(ep); rc = EPMAPPER_STATUS_OK; goto done; } DLIST_REMOVE(ep->iface_list, iflist); if (ep->iface_list == NULL) { DEBUG(0, ("_epm_Delete: No interfaces left, delete endpoint\n")); DLIST_REMOVE(endpoint_table, ep); talloc_free(ep); rc = EPMAPPER_STATUS_OK; goto done; } } rc = EPMAPPER_STATUS_OK; done: talloc_free(tmp_ctx); return rc; } /* * epm_Lookup * * Lookup entries in an endpoint map. */ error_status_t _epm_Lookup(struct pipes_struct *p, struct epm_Lookup *r) { struct policy_handle *entry_handle; struct rpc_eps *eps; TALLOC_CTX *tmp_ctx; error_status_t rc; uint32_t count = 0; uint32_t num_ents = 0; uint32_t i; bool match = false; bool ok; *r->out.num_ents = 0; r->out.entries = NULL; tmp_ctx = talloc_stackframe(); if (tmp_ctx == NULL) { return EPMAPPER_STATUS_NO_MEMORY; } DEBUG(3, ("_epm_Lookup: Trying to lookup max. %u entries.\n", r->in.max_ents)); if (r->in.entry_handle == NULL || policy_handle_empty(r->in.entry_handle)) { struct GUID *obj; DEBUG(5, ("_epm_Lookup: No entry_handle found, creating it.\n")); eps = talloc_zero(tmp_ctx, struct rpc_eps); if (eps == NULL) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } if (r->in.object == NULL || GUID_all_zero(r->in.object)) { obj = NULL; } else { obj = r->in.object; } switch (r->in.inquiry_type) { case RPC_C_EP_ALL_ELTS: /* * Return all elements from the endpoint map. The * interface_id, vers_option, and object parameters MUST * be ignored. */ eps->count = build_ep_list(eps, endpoint_table, NULL, p->server_id == NULL ? NULL : p->server_id->addr, &eps->e); break; case RPC_C_EP_MATCH_BY_IF: /* * Return endpoint map elements that contain the * interface identifier specified by the interface_id * and vers_option values. * * RPC_C_EP_MATCH_BY_IF and RPC_C_EP_MATCH_BY_BOTH * need both the same endpoint list. There is a second * check for the inquiry_type below which differentiates * between them. */ case RPC_C_EP_MATCH_BY_BOTH: /* * Return endpoint map elements that contain the * interface identifier and object UUID specified by * interface_id, vers_option, and object. */ eps->count = build_ep_list(eps, endpoint_table, &r->in.interface_id->uuid, p->server_id == NULL ? NULL : p->server_id->addr, &eps->e); break; case RPC_C_EP_MATCH_BY_OBJ: /* * Return endpoint map elements that contain the object * UUID specified by object. */ eps->count = build_ep_list(eps, endpoint_table, r->in.object, p->server_id == NULL ? NULL : p->server_id->addr, &eps->e); break; default: rc = EPMAPPER_STATUS_CANT_PERFORM_OP; goto done; } if (eps->count == 0) { rc = EPMAPPER_STATUS_NO_MORE_ENTRIES; goto done; } ok = create_policy_hnd(p, r->out.entry_handle, eps); if (!ok) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } ok = find_policy_by_hnd(p, r->out.entry_handle, (void **)(void*) &eps); if (!ok) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } entry_handle = r->out.entry_handle; } else { DEBUG(5, ("_epm_Lookup: Trying to find entry_handle.\n")); ok = find_policy_by_hnd(p, r->in.entry_handle, (void **)(void*) &eps); if (!ok) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } entry_handle = r->in.entry_handle; } if (eps == NULL || eps->e == NULL) { rc = EPMAPPER_STATUS_NO_MORE_ENTRIES; goto done; } /* return the next N elements */ count = r->in.max_ents; if (count > eps->count) { count = eps->count; } DEBUG(3, ("_epm_Lookup: Find %u entries\n", count)); if (count == 0) { close_policy_hnd(p, entry_handle); ZERO_STRUCTP(r->out.entry_handle); rc = EPMAPPER_STATUS_NO_MORE_ENTRIES; goto done; } r->out.entries = talloc_array(p->mem_ctx, struct epm_entry_t, count); if (r->out.entries == NULL) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } for (i = 0; i < count; i++) { match = false; switch (r->in.inquiry_type) { case RPC_C_EP_ALL_ELTS: /* * Return all elements from the endpoint map. The * interface_id, vers_option, and object parameters MUST * be ignored. */ match = true; break; case RPC_C_EP_MATCH_BY_IF: /* * Return endpoint map elements that contain the * interface identifier specified by the interface_id * and vers_option values. */ if (GUID_equal(&r->in.interface_id->uuid, &eps->e[i].syntax_id.uuid)) { match = true; } break; case RPC_C_EP_MATCH_BY_OBJ: /* * Return endpoint map elements that contain the object * UUID specified by object. */ if (GUID_equal(r->in.object, &eps->e[i].syntax_id.uuid)) { match = true; } break; case RPC_C_EP_MATCH_BY_BOTH: /* * Return endpoint map elements that contain the * interface identifier and object UUID specified by * interface_id, vers_option, and object. */ if (GUID_equal(&r->in.interface_id->uuid, &eps->e[i].syntax_id.uuid) && GUID_equal(r->in.object, &eps->e[i].syntax_id.uuid)) { match = true; } break; default: return EPMAPPER_STATUS_CANT_PERFORM_OP; } if (match) { if (r->in.inquiry_type == RPC_C_EP_MATCH_BY_IF || r->in.inquiry_type == RPC_C_EP_MATCH_BY_OBJ) { /* Check inteface version */ match = false; switch (r->in.vers_option) { case RPC_C_VERS_ALL: /* * Return endpoint map elements that * contain the specified interface UUID, * regardless of the version numbers. */ match = true; break; case RPC_C_VERS_COMPATIBLE: /* * Return the endpoint map elements that * contain the same major versions of * the specified interface UUID and a * minor version greater than or equal * to the minor version of the specified * UUID. */ if (r->in.interface_id->vers_major == (eps->e[i].syntax_id.if_version >> 16) && r->in.interface_id->vers_minor <= (eps->e[i].syntax_id.if_version && 0xFFFF)) { match = true; } break; case RPC_C_VERS_EXACT: /* * Return endpoint map elements that * contain the specified version of the * specified interface UUID. */ if (r->in.interface_id->vers_major == (eps->e[i].syntax_id.if_version >> 16) && r->in.interface_id->vers_minor == (eps->e[i].syntax_id.if_version && 0xFFFF)) { match = true; } match = true; break; case RPC_C_VERS_MAJOR_ONLY: /* * Return endpoint map elements that * contain the same version of the * specified interface UUID and ignore * the minor version. */ if (r->in.interface_id->vers_major == (eps->e[i].syntax_id.if_version >> 16)) { match = true; } match = true; break; case RPC_C_VERS_UPTO: /* * Return endpoint map elements that * contain a version of the specified * interface UUID less than or equal to * the specified major and minor * version. */ if (r->in.interface_id->vers_major > eps->e[i].syntax_id.if_version >> 16) { match = true; } else { if (r->in.interface_id->vers_major == (eps->e[i].syntax_id.if_version >> 16) && r->in.interface_id->vers_minor >= (eps->e[i].syntax_id.if_version && 0xFFFF)) { match = true; } } break; default: return EPMAPPER_STATUS_CANT_PERFORM_OP; } } } if (match) { ZERO_STRUCT(r->out.entries[num_ents].object); DEBUG(10, ("_epm_Lookup: Adding tower for '%s'\n", eps->e[i].name)); r->out.entries[num_ents].annotation = talloc_strdup(r->out.entries, eps->e[i].name); r->out.entries[num_ents].tower = talloc(r->out.entries, struct epm_twr_t); if (r->out.entries[num_ents].tower == NULL) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } r->out.entries[num_ents].tower->tower.floors = talloc_move(r->out.entries[num_ents].tower, &eps->e[i].ep.floors); r->out.entries[num_ents].tower->tower.num_floors = eps->e[i].ep.num_floors; r->out.entries[num_ents].tower->tower_length = 0; num_ents++; } } /* end for loop */ *r->out.num_ents = num_ents; eps->count -= count; eps->e += count; if (eps->count == 0) { close_policy_hnd(p, entry_handle); ZERO_STRUCTP(r->out.entry_handle); rc = EPMAPPER_STATUS_NO_MORE_ENTRIES; goto done; } rc = EPMAPPER_STATUS_OK; done: talloc_free(tmp_ctx); return rc; } /* * epm_Map * * Apply some algorithm (using the fields in the map_tower) to an endpoint map * to produce a list of protocol towers. */ error_status_t _epm_Map(struct pipes_struct *p, struct epm_Map *r) { struct policy_handle *entry_handle; enum dcerpc_transport_t transport; struct ndr_syntax_id ifid; struct epm_floor *floors; struct rpc_eps *eps; TALLOC_CTX *tmp_ctx; error_status_t rc; uint32_t count = 0; uint32_t num_towers = 0; uint32_t num_floors = 0; uint32_t i; bool ok; *r->out.num_towers = 0; r->out.towers = NULL; if (r->in.map_tower == NULL || r->in.max_towers == 0 || r->in.map_tower->tower.num_floors < 3) { return EPMAPPER_STATUS_NO_MORE_ENTRIES; } tmp_ctx = talloc_stackframe(); if (tmp_ctx == NULL) { return EPMAPPER_STATUS_NO_MEMORY; } ZERO_STRUCTP(r->out.entry_handle); DEBUG(3, ("_epm_Map: Trying to map max. %u towers.\n", r->in.max_towers)); /* * A tower has normally up to 6 floors * * +-----------------------------------------------------------------+ * | Floor 1 | Provides the RPC interface identifier. (e.g. UUID for | * | | netlogon) | * +---------+-------------------------------------------------------+ * | Floor 2 | Transfer syntax (NDR endcoded) | * +---------+-------------------------------------------------------+ * | Floor 3 | RPC protocol identifier (ncacn_tcp_ip, ncacn_np, ...) | * +---------+-------------------------------------------------------+ * | Floor 4 | Port address (e.g. TCP Port: 49156) | * +---------+-------------------------------------------------------+ * | Floor 5 | Transport (e.g. IP:192.168.51.10) | * +---------+-------------------------------------------------------+ * | Floor 6 | Routing | * +---------+-------------------------------------------------------+ */ num_floors = r->in.map_tower->tower.num_floors; floors = r->in.map_tower->tower.floors; /* We accept NDR as the transfer syntax */ dcerpc_floor_get_lhs_data(&floors[1], &ifid); if (floors[1].lhs.protocol != EPM_PROTOCOL_UUID || !GUID_equal(&ifid.uuid, &ndr_transfer_syntax.uuid) || ifid.if_version != ndr_transfer_syntax.if_version) { rc = EPMAPPER_STATUS_NO_MORE_ENTRIES; goto done; } /* We only talk to sane transports */ transport = dcerpc_transport_by_tower(&r->in.map_tower->tower); if (transport == NCA_UNKNOWN) { DEBUG(2, ("epm_Map: Client requested unknown transport with" "levels: ")); for (i = 2; i < r->in.map_tower->tower.num_floors; i++) { DEBUG(2, ("%d, ", r->in.map_tower->tower.floors[i].lhs.protocol)); } DEBUG(2, ("\n")); rc = EPMAPPER_STATUS_NO_MORE_ENTRIES; goto done; } if (r->in.entry_handle == NULL || policy_handle_empty(r->in.entry_handle)) { struct GUID *obj; DEBUG(5, ("_epm_Map: No entry_handle found, creating it.\n")); eps = talloc_zero(tmp_ctx, struct rpc_eps); if (eps == NULL) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } /* * *** ATTENTION *** * CDE 1.1 states: * * ept_map() * Apply some algorithm (using the fields in the map_tower) * to an endpoint map to produce a list of protocol towers. * * The following code is the mysterious "some algorithm"! */ /* Filter by object id if one was given. */ if (r->in.object == NULL || GUID_all_zero(r->in.object)) { obj = NULL; } else { obj = r->in.object; } eps->count = build_ep_list(eps, endpoint_table, obj, p->server_id == NULL ? NULL : p->server_id->addr, &eps->e); if (eps->count == 0) { rc = EPMAPPER_STATUS_NO_MORE_ENTRIES; goto done; } /* Filter out endpoints which match the interface. */ { struct rpc_eps *teps; uint32_t total = 0; teps = talloc_zero(tmp_ctx, struct rpc_eps); if (teps == NULL) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } for (i = 0; i < eps->count; i++) { if (data_blob_cmp(&r->in.map_tower->tower.floors[0].lhs.lhs_data, &eps->e[i].ep.floors[0].lhs.lhs_data) != 0 || transport != dcerpc_transport_by_tower(&eps->e[i].ep)) { continue; } teps->e = talloc_realloc(tmp_ctx, teps->e, struct dcesrv_ep_iface, total + 1); if (teps->e == NULL) { return 0; } teps->e[total].ep.floors = talloc_move(teps, &eps->e[i].ep.floors); teps->e[total].ep.num_floors = eps->e[i].ep.num_floors; teps->e[total].name = talloc_move(teps, &eps->e[i].name); teps->e[total].syntax_id = eps->e[i].syntax_id; total++; } teps->count = total; talloc_free(eps); eps = teps; } /* end of "some algorithm" */ ok = create_policy_hnd(p, r->out.entry_handle, eps); if (!ok) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } ok = find_policy_by_hnd(p, r->out.entry_handle, (void **)(void*) &eps); if (!ok) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } entry_handle = r->out.entry_handle; } else { DEBUG(5, ("_epm_Map: Trying to find entry_handle.\n")); ok = find_policy_by_hnd(p, r->in.entry_handle, (void **)(void*) &eps); if (!ok) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } entry_handle = r->in.entry_handle; } if (eps == NULL || eps->e == NULL) { rc = EPMAPPER_STATUS_NO_MORE_ENTRIES; goto done; } /* return the next N elements */ count = r->in.max_towers; if (count > eps->count) { count = eps->count; } if (count == 0) { close_policy_hnd(p, entry_handle); ZERO_STRUCTP(r->out.entry_handle); rc = EPMAPPER_STATUS_NO_MORE_ENTRIES; goto done; } r->out.towers = talloc_array(p->mem_ctx, struct epm_twr_p_t, count); if (r->out.towers == NULL) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } for (i = 0; i < count; i++) { DEBUG(5, ("_epm_Map: Map tower for '%s'\n", eps->e[i].name)); r->out.towers[num_towers].twr = talloc(r->out.towers, struct epm_twr_t); if (r->out.towers[num_towers].twr == NULL) { rc = EPMAPPER_STATUS_NO_MEMORY; goto done; } r->out.towers[num_towers].twr->tower.floors = talloc_move(r->out.towers[num_towers].twr, &eps->e[i].ep.floors); r->out.towers[num_towers].twr->tower.num_floors = eps->e[i].ep.num_floors; r->out.towers[num_towers].twr->tower_length = 0; num_towers++; } *r->out.num_towers = num_towers; eps->count -= count; eps->e += count; if (eps->count == 0) { close_policy_hnd(p, entry_handle); ZERO_STRUCTP(r->out.entry_handle); } rc = EPMAPPER_STATUS_OK; done: talloc_free(tmp_ctx); return rc; } /* * epm_LookupHandleFree */ error_status_t _epm_LookupHandleFree(struct pipes_struct *p, struct epm_LookupHandleFree *r) { if (r->in.entry_handle == NULL) { return EPMAPPER_STATUS_OK; } if (is_valid_policy_hnd(r->in.entry_handle)) { close_policy_hnd(p, r->in.entry_handle); } r->out.entry_handle = r->in.entry_handle; return EPMAPPER_STATUS_OK; } /* * epm_InqObject * * A client implementation SHOULD NOT call this method. These extensions do not * provide an alternative method. */ error_status_t _epm_InqObject(struct pipes_struct *p, struct epm_InqObject *r) { p->rng_fault_state = true; return EPMAPPER_STATUS_CANT_PERFORM_OP; } /* * epm_MgmtDelete * * A client implementation SHOULD NOT call this method. These extensions do not * provide an alternative method. */ error_status_t _epm_MgmtDelete(struct pipes_struct *p, struct epm_MgmtDelete *r) { p->rng_fault_state = true; return EPMAPPER_STATUS_CANT_PERFORM_OP; } /* epm_MapAuth */ error_status_t _epm_MapAuth(struct pipes_struct *p, struct epm_MapAuth *r) { p->rng_fault_state = true; return EPMAPPER_STATUS_CANT_PERFORM_OP; } /* vim: set ts=8 sw=8 noet cindent syntax=c.doxygen: */