/* Portions of this file are subject to the following copyright(s). See * the Net-SNMP's COPYING file for more details and other copyrights * that may apply: */ /* * Portions of this file are copyrighted by: * Copyright © 2003 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms specified in the COPYING file * distributed with the Net-SNMP package. */ #include #include #if HAVE_STRING_H #include #else #include #endif #include #include #include #include #include #if HAVE_DMALLOC_H #include #endif /** @defgroup instance instance: process individual MIB instances easily. * @ingroup leaf * @{ */ /** * Creates an instance helper handler, calls netsnmp_create_handler, which * then could be registered, using netsnmp_register_handler(). * * @param void * * @return Returns a pointer to a netsnmp_mib_handler struct which contains * the handler's name and the access method */ netsnmp_mib_handler * netsnmp_get_instance_handler(void) { return netsnmp_create_handler("instance", netsnmp_instance_helper_handler); } /** * This function registers an instance helper handler, which is a way of * registering an exact OID such that GENEXT requests are handled entirely * by the helper. First need to inject it into the calling chain of the * handler defined by the netsnmp_handler_registration struct, reginfo. * The new handler is injected at the top of the list and will be the new * handler to be called first. This function also injects a serialize * handler before actually calling netsnmp_register_handle, registering * reginfo. * * @param reginfo a handler registration structure which could get created * using netsnmp_create_handler_registration. Used to register * an instance helper handler. * * @return * MIB_REGISTERED_OK is returned if the registration was a success. * Failures are MIB_REGISTRATION_FAILED and MIB_DUPLICATE_REGISTRATION. */ int netsnmp_register_instance(netsnmp_handler_registration *reginfo) { netsnmp_inject_handler(reginfo, netsnmp_get_instance_handler()); return netsnmp_register_serialize(reginfo); } /** * This function injects a "read only" handler into the handler chain * prior to serializing/registering the handler. * * The only purpose of this "read only" handler is to return an * appropriate error for any requests passed to it in a SET mode. * Inserting it into your handler chain will ensure you're never * asked to perform a SET request so you can ignore those error * conditions. * * @param reginfo a handler registration structure which could get created * using netsnmp_create_handler_registration. Used to register * a read only instance helper handler. * * @return * MIB_REGISTERED_OK is returned if the registration was a success. * Failures are MIB_REGISTRATION_FAILED and MIB_DUPLICATE_REGISTRATION. */ int netsnmp_register_read_only_instance(netsnmp_handler_registration *reginfo) { netsnmp_inject_handler(reginfo, netsnmp_get_instance_handler()); netsnmp_inject_handler(reginfo, netsnmp_get_read_only_handler()); return netsnmp_register_serialize(reginfo); } static netsnmp_handler_registration * get_reg(const char *name, const char *ourname, oid * reg_oid, size_t reg_oid_len, void *it, int modes, Netsnmp_Node_Handler * scalarh, Netsnmp_Node_Handler * subhandler, const char *contextName) { netsnmp_handler_registration *myreg; netsnmp_mib_handler *myhandler; if (subhandler) { myreg = netsnmp_create_handler_registration(name, subhandler, reg_oid, reg_oid_len, modes); myhandler = netsnmp_create_handler(ourname, scalarh); myhandler->myvoid = (void *) it; netsnmp_inject_handler(myreg, myhandler); } else { myreg = netsnmp_create_handler_registration(name, scalarh, reg_oid, reg_oid_len, modes); myreg->handler->myvoid = (void *) it; } if (contextName) myreg->contextName = strdup(contextName); return myreg; } int netsnmp_register_read_only_ulong_instance(const char *name, oid * reg_oid, size_t reg_oid_len, u_long * it, Netsnmp_Node_Handler * subhandler) { netsnmp_handler_registration *myreg; myreg = get_reg(name, "ulong_handler", reg_oid, reg_oid_len, it, HANDLER_CAN_RONLY, netsnmp_instance_ulong_handler, subhandler, NULL); return netsnmp_register_read_only_instance(myreg); } int netsnmp_register_ulong_instance(const char *name, oid * reg_oid, size_t reg_oid_len, u_long * it, Netsnmp_Node_Handler * subhandler) { netsnmp_handler_registration *myreg; myreg = get_reg(name, "ulong_handler", reg_oid, reg_oid_len, it, HANDLER_CAN_RWRITE, netsnmp_instance_ulong_handler, subhandler, NULL); return netsnmp_register_instance(myreg); } int netsnmp_register_read_only_counter32_instance(const char *name, oid * reg_oid, size_t reg_oid_len, u_long * it, Netsnmp_Node_Handler * subhandler) { netsnmp_handler_registration *myreg; myreg = get_reg(name, "counter32_handler", reg_oid, reg_oid_len, it, HANDLER_CAN_RWRITE, netsnmp_instance_counter32_handler, subhandler, NULL); return netsnmp_register_read_only_instance(myreg); } int netsnmp_register_read_only_long_instance(const char *name, oid * reg_oid, size_t reg_oid_len, long *it, Netsnmp_Node_Handler * subhandler) { netsnmp_handler_registration *myreg; myreg = get_reg(name, "long_handler", reg_oid, reg_oid_len, it, HANDLER_CAN_RONLY, netsnmp_instance_long_handler, subhandler, NULL); return netsnmp_register_read_only_instance(myreg); } int netsnmp_register_long_instance(const char *name, oid * reg_oid, size_t reg_oid_len, long *it, Netsnmp_Node_Handler * subhandler) { netsnmp_handler_registration *myreg; myreg = get_reg(name, "long_handler", reg_oid, reg_oid_len, it, HANDLER_CAN_RWRITE, netsnmp_instance_long_handler, subhandler, NULL); return netsnmp_register_instance(myreg); } int netsnmp_register_read_only_int_instance(const char *name, oid * reg_oid, size_t reg_oid_len, int *it, Netsnmp_Node_Handler * subhandler) { netsnmp_handler_registration *myreg; myreg = get_reg(name, "int_handler", reg_oid, reg_oid_len, it, HANDLER_CAN_RONLY, netsnmp_instance_int_handler, subhandler, NULL); return netsnmp_register_read_only_instance(myreg); } /* * Compatibility with earlier (inconsistently named) routine */ int register_read_only_int_instance(const char *name, oid * reg_oid, size_t reg_oid_len, int *it, Netsnmp_Node_Handler * subhandler) { return netsnmp_register_read_only_int_instance(name, reg_oid, reg_oid_len, it, subhandler); } /* * Context registrations */ int netsnmp_register_read_only_ulong_instance_context(const char *name, oid * reg_oid, size_t reg_oid_len, u_long * it, Netsnmp_Node_Handler * subhandler, const char *contextName) { netsnmp_handler_registration *myreg; myreg = get_reg(name, "ulong_handler", reg_oid, reg_oid_len, it, HANDLER_CAN_RONLY, netsnmp_instance_ulong_handler, subhandler, contextName); return netsnmp_register_read_only_instance(myreg); } int netsnmp_register_ulong_instance_context(const char *name, oid * reg_oid, size_t reg_oid_len, u_long * it, Netsnmp_Node_Handler * subhandler, const char *contextName) { netsnmp_handler_registration *myreg; myreg = get_reg(name, "ulong_handler", reg_oid, reg_oid_len, it, HANDLER_CAN_RWRITE, netsnmp_instance_ulong_handler, subhandler, contextName); return netsnmp_register_instance(myreg); } int netsnmp_register_read_only_counter32_instance_context(const char *name, oid * reg_oid, size_t reg_oid_len, u_long * it, Netsnmp_Node_Handler * subhandler, const char *contextName) { netsnmp_handler_registration *myreg; myreg = get_reg(name, "counter32_handler", reg_oid, reg_oid_len, it, HANDLER_CAN_RWRITE, netsnmp_instance_counter32_handler, subhandler, contextName); return netsnmp_register_read_only_instance(myreg); } int netsnmp_register_read_only_long_instance_context(const char *name, oid * reg_oid, size_t reg_oid_len, long *it, Netsnmp_Node_Handler *subhandler, const char *contextName) { netsnmp_handler_registration *myreg; myreg = get_reg(name, "long_handler", reg_oid, reg_oid_len, it, HANDLER_CAN_RONLY, netsnmp_instance_long_handler, subhandler, contextName); return netsnmp_register_read_only_instance(myreg); } int netsnmp_register_long_instance_context(const char *name, oid * reg_oid, size_t reg_oid_len, long *it, Netsnmp_Node_Handler * subhandler, const char *contextName) { netsnmp_handler_registration *myreg; myreg = get_reg(name, "long_handler", reg_oid, reg_oid_len, it, HANDLER_CAN_RWRITE, netsnmp_instance_long_handler, subhandler, contextName); return netsnmp_register_instance(myreg); } int netsnmp_register_read_only_int_instance_context(const char *name, oid * reg_oid, size_t reg_oid_len, int *it, Netsnmp_Node_Handler * subhandler, const char *contextName) { netsnmp_handler_registration *myreg; myreg = get_reg(name, "int_handler", reg_oid, reg_oid_len, it, HANDLER_CAN_RONLY, netsnmp_instance_int_handler, subhandler, contextName); return netsnmp_register_read_only_instance(myreg); } /* * Compatibility with earlier (inconsistently named) routine */ int register_read_only_int_instance_context(const char *name, oid * reg_oid, size_t reg_oid_len, int *it, Netsnmp_Node_Handler * subhandler, const char *contextName) { return netsnmp_register_read_only_int_instance_context(name, reg_oid, reg_oid_len, it, subhandler, contextName); } /** * This function registers an int helper handler to a specified OID. * * @param name the name used for registration pruposes. * * @param reg_oid the OID where you want to register your integer at * * @param reg_oid_len the length of the OID * * @param it the integer value to be registered during initialization * * @param subhandler a handler to do whatever you want to do, otherwise use * NULL to use the default int handler. * * @return * MIB_REGISTERED_OK is returned if the registration was a success. * Failures are MIB_REGISTRATION_FAILED and MIB_DUPLICATE_REGISTRATION. */ int netsnmp_register_int_instance(const char *name, oid * reg_oid, size_t reg_oid_len, int *it, Netsnmp_Node_Handler * subhandler) { netsnmp_handler_registration *myreg; myreg = get_reg(name, "int_handler", reg_oid, reg_oid_len, it, HANDLER_CAN_RWRITE, netsnmp_instance_int_handler, subhandler, NULL); return netsnmp_register_instance(myreg); } int netsnmp_instance_ulong_handler(netsnmp_mib_handler *handler, netsnmp_handler_registration *reginfo, netsnmp_agent_request_info *reqinfo, netsnmp_request_info *requests) { u_long *it = (u_long *) handler->myvoid; u_long *it_save; DEBUGMSGTL(("netsnmp_instance_ulong_handler", "Got request: %d\n", reqinfo->mode)); switch (reqinfo->mode) { /* * data requests */ case MODE_GET: snmp_set_var_typed_value(requests->requestvb, ASN_UNSIGNED, (u_char *) it, sizeof(*it)); break; /* * SET requests. Should only get here if registered RWRITE */ case MODE_SET_RESERVE1: if (requests->requestvb->type != ASN_UNSIGNED) netsnmp_set_request_error(reqinfo, requests, SNMP_ERR_WRONGTYPE); break; case MODE_SET_RESERVE2: /* * store old info for undo later */ memdup((u_char **) & it_save, (u_char *) it, sizeof(u_long)); if (it_save == NULL) { netsnmp_set_request_error(reqinfo, requests, SNMP_ERR_RESOURCEUNAVAILABLE); return SNMP_ERR_NOERROR; } netsnmp_request_add_list_data(requests, netsnmp_create_data_list (INSTANCE_HANDLER_NAME, it_save, free)); break; case MODE_SET_ACTION: /* * update current */ DEBUGMSGTL(("testhandler", "updated u_long %ul -> %ul\n", *it, *(requests->requestvb->val.integer))); *it = *(requests->requestvb->val.integer); break; case MODE_SET_UNDO: *it = *((u_long *) netsnmp_request_get_list_data(requests, INSTANCE_HANDLER_NAME)); break; case MODE_SET_COMMIT: case MODE_SET_FREE: /* * nothing to do */ break; } if (handler->next && handler->next->access_method) return netsnmp_call_next_handler(handler, reginfo, reqinfo, requests); return SNMP_ERR_NOERROR; } int netsnmp_instance_counter32_handler(netsnmp_mib_handler *handler, netsnmp_handler_registration *reginfo, netsnmp_agent_request_info *reqinfo, netsnmp_request_info *requests) { u_long *it = (u_long *) handler->myvoid; DEBUGMSGTL(("netsnmp_instance_counter32_handler", "Got request: %d\n", reqinfo->mode)); switch (reqinfo->mode) { /* * data requests */ case MODE_GET: snmp_set_var_typed_value(requests->requestvb, ASN_COUNTER, (u_char *) it, sizeof(*it)); break; /* * SET requests. Should only get here if registered RWRITE */ default: snmp_log(LOG_ERR, "netsnmp_instance_counter32_handler: illegal mode\n"); netsnmp_set_request_error(reqinfo, requests, SNMP_ERR_GENERR); return SNMP_ERR_NOERROR; } if (handler->next && handler->next->access_method) return netsnmp_call_next_handler(handler, reginfo, reqinfo, requests); return SNMP_ERR_NOERROR; } int netsnmp_instance_long_handler(netsnmp_mib_handler *handler, netsnmp_handler_registration *reginfo, netsnmp_agent_request_info *reqinfo, netsnmp_request_info *requests) { long *it = (u_long *) handler->myvoid; long *it_save; DEBUGMSGTL(("netsnmp_instance_long_handler", "Got request: %d\n", reqinfo->mode)); switch (reqinfo->mode) { /* * data requests */ case MODE_GET: snmp_set_var_typed_value(requests->requestvb, ASN_INTEGER, (u_char *) it, sizeof(*it)); break; /* * SET requests. Should only get here if registered RWRITE */ case MODE_SET_RESERVE1: if (requests->requestvb->type != ASN_INTEGER) netsnmp_set_request_error(reqinfo, requests, SNMP_ERR_WRONGTYPE); break; case MODE_SET_RESERVE2: /* * store old info for undo later */ memdup((u_char **) & it_save, (u_char *) it, sizeof(u_long)); if (it_save == NULL) { netsnmp_set_request_error(reqinfo, requests, SNMP_ERR_RESOURCEUNAVAILABLE); return SNMP_ERR_NOERROR; } netsnmp_request_add_list_data(requests, netsnmp_create_data_list (INSTANCE_HANDLER_NAME, it_save, free)); break; case MODE_SET_ACTION: /* * update current */ DEBUGMSGTL(("testhandler", "updated u_long %ul -> %ul\n", *it, *(requests->requestvb->val.integer))); *it = *(requests->requestvb->val.integer); break; case MODE_SET_UNDO: *it = *((u_long *) netsnmp_request_get_list_data(requests, INSTANCE_HANDLER_NAME)); break; case MODE_SET_COMMIT: case MODE_SET_FREE: /* * nothing to do */ break; } if (handler->next && handler->next->access_method) return netsnmp_call_next_handler(handler, reginfo, reqinfo, requests); return SNMP_ERR_NOERROR; } int netsnmp_instance_int_handler(netsnmp_mib_handler *handler, netsnmp_handler_registration *reginfo, netsnmp_agent_request_info *reqinfo, netsnmp_request_info *requests) { int *it = (int *) handler->myvoid; int *it_save; long tmp_it; DEBUGMSGTL(("netsnmp_instance_int_handler", "Got request: %d\n", reqinfo->mode)); switch (reqinfo->mode) { /* * data requests */ case MODE_GET: /* * Use a long here, otherwise on 64 bit use of an int would fail */ tmp_it = *it; snmp_set_var_typed_value(requests->requestvb, ASN_INTEGER, (u_char *) &tmp_it, sizeof(long)); break; /* * SET requests. Should only get here if registered RWRITE */ case MODE_SET_RESERVE1: if (requests->requestvb->type != ASN_INTEGER) netsnmp_set_request_error(reqinfo, requests, SNMP_ERR_WRONGTYPE); break; case MODE_SET_RESERVE2: /* * store old info for undo later */ memdup((u_char **) & it_save, (u_char *) it, sizeof(u_long)); if (it_save == NULL) { netsnmp_set_request_error(reqinfo, requests, SNMP_ERR_RESOURCEUNAVAILABLE); return SNMP_ERR_NOERROR; } netsnmp_request_add_list_data(requests, netsnmp_create_data_list (INSTANCE_HANDLER_NAME, it_save, free)); break; case MODE_SET_ACTION: /* * update current */ DEBUGMSGTL(("testhandler", "updated int %d -> %l\n", *it, *(requests->requestvb->val.integer))); *it = (int) *(requests->requestvb->val.integer); break; case MODE_SET_UNDO: *it = *((u_int *) netsnmp_request_get_list_data(requests, INSTANCE_HANDLER_NAME)); break; case MODE_SET_COMMIT: case MODE_SET_FREE: /* * nothing to do */ break; } if (handler->next && handler->next->access_method) return netsnmp_call_next_handler(handler, reginfo, reqinfo, requests); return SNMP_ERR_NOERROR; } int netsnmp_instance_helper_handler(netsnmp_mib_handler *handler, netsnmp_handler_registration *reginfo, netsnmp_agent_request_info *reqinfo, netsnmp_request_info *requests) { netsnmp_variable_list *var = requests->requestvb; int ret, cmp; DEBUGMSGTL(("helper:instance", "Got request:\n")); cmp = snmp_oid_compare(requests->requestvb->name, requests->requestvb->name_length, reginfo->rootoid, reginfo->rootoid_len); DEBUGMSGTL(("helper:instance", " oid:", cmp)); DEBUGMSGOID(("helper:instance", var->name, var->name_length)); DEBUGMSG(("helper:instance", "\n")); switch (reqinfo->mode) { case MODE_GET: if (cmp != 0) { netsnmp_set_request_error(reqinfo, requests, SNMP_NOSUCHINSTANCE); return SNMP_ERR_NOERROR; } else { return netsnmp_call_next_handler(handler, reginfo, reqinfo, requests); } break; case MODE_SET_RESERVE1: case MODE_SET_RESERVE2: case MODE_SET_ACTION: case MODE_SET_COMMIT: case MODE_SET_UNDO: case MODE_SET_FREE: if (cmp != 0) { netsnmp_set_request_error(reqinfo, requests, SNMP_ERR_NOCREATION); return SNMP_ERR_NOERROR; } else { return netsnmp_call_next_handler(handler, reginfo, reqinfo, requests); } break; case MODE_GETNEXT: if (cmp < 0 || (cmp == 0 && requests->inclusive)) { reqinfo->mode = MODE_GET; snmp_set_var_objid(requests->requestvb, reginfo->rootoid, reginfo->rootoid_len); ret = netsnmp_call_next_handler(handler, reginfo, reqinfo, requests); reqinfo->mode = MODE_GETNEXT; return ret; } else { return SNMP_ERR_NOERROR; } break; } /* * got here only if illegal mode found */ return SNMP_ERR_GENERR; } /* * @} */