/** * @file * Management Information Base II (RFC1213) UDP objects and functions. */ /* * Copyright (c) 2006 Axon Digital Design B.V., The Netherlands. * 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. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 THE AUTHOR 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. * * Author: Dirk Ziegelmeier * Christiaan Simons */ #include "lwip/snmp.h" #include "lwip/apps/snmp.h" #include "lwip/apps/snmp_core.h" #include "lwip/apps/snmp_mib2.h" #include "lwip/apps/snmp_table.h" #include "lwip/apps/snmp_scalar.h" #include "lwip/udp.h" #include "lwip/stats.h" #include #if LWIP_SNMP && SNMP_LWIP_MIB2 && LWIP_UDP #if SNMP_USE_NETCONN #define SYNC_NODE_NAME(node_name) node_name ## _synced #define CREATE_LWIP_SYNC_NODE(oid, node_name) \ static const struct snmp_threadsync_node node_name ## _synced = SNMP_CREATE_THREAD_SYNC_NODE(oid, &node_name.node, &snmp_mib2_lwip_locks); #else #define SYNC_NODE_NAME(node_name) node_name #define CREATE_LWIP_SYNC_NODE(oid, node_name) #endif /* --- udp .1.3.6.1.2.1.7 ----------------------------------------------------- */ static s16_t udp_get_value(struct snmp_node_instance *instance, void *value) { u32_t *uint_ptr = (u32_t *)value; switch (instance->node->oid) { case 1: /* udpInDatagrams */ *uint_ptr = STATS_GET(mib2.udpindatagrams); return sizeof(*uint_ptr); case 2: /* udpNoPorts */ *uint_ptr = STATS_GET(mib2.udpnoports); return sizeof(*uint_ptr); case 3: /* udpInErrors */ *uint_ptr = STATS_GET(mib2.udpinerrors); return sizeof(*uint_ptr); case 4: /* udpOutDatagrams */ *uint_ptr = STATS_GET(mib2.udpoutdatagrams); return sizeof(*uint_ptr); #if LWIP_HAVE_INT64 case 8: { /* udpHCInDatagrams */ /* use the 32 bit counter for now... */ u64_t val64 = STATS_GET(mib2.udpindatagrams); *((u64_t *)value) = val64; } return sizeof(u64_t); case 9: { /* udpHCOutDatagrams */ /* use the 32 bit counter for now... */ u64_t val64 = STATS_GET(mib2.udpoutdatagrams); *((u64_t *)value) = val64; } return sizeof(u64_t); #endif default: LWIP_DEBUGF(SNMP_MIB_DEBUG, ("udp_get_value(): unknown id: %"S32_F"\n", instance->node->oid)); break; } return 0; } /* --- udpEndpointTable --- */ static snmp_err_t udp_endpointTable_get_cell_value_core(const u32_t *column, union snmp_variant_value *value) { /* all items except udpEndpointProcess are declared as not-accessible */ switch (*column) { case 8: /* udpEndpointProcess */ value->u32 = 0; /* not supported */ break; default: return SNMP_ERR_NOSUCHINSTANCE; } return SNMP_ERR_NOERROR; } static snmp_err_t udp_endpointTable_get_cell_value(const u32_t *column, const u32_t *row_oid, u8_t row_oid_len, union snmp_variant_value *value, u32_t *value_len) { ip_addr_t local_ip, remote_ip; u16_t local_port, remote_port; struct udp_pcb *pcb; u8_t idx = 0; LWIP_UNUSED_ARG(value_len); /* udpEndpointLocalAddressType + udpEndpointLocalAddress + udpEndpointLocalPort */ idx += snmp_oid_to_ip_port(&row_oid[idx], row_oid_len - idx, &local_ip, &local_port); if (idx == 0) { return SNMP_ERR_NOSUCHINSTANCE; } /* udpEndpointRemoteAddressType + udpEndpointRemoteAddress + udpEndpointRemotePort */ idx += snmp_oid_to_ip_port(&row_oid[idx], row_oid_len - idx, &remote_ip, &remote_port); if (idx == 0) { return SNMP_ERR_NOSUCHINSTANCE; } /* udpEndpointInstance */ if (row_oid_len < (idx + 1)) { return SNMP_ERR_NOSUCHINSTANCE; } if (row_oid[idx] != 0) { return SNMP_ERR_NOSUCHINSTANCE; } /* find udp_pcb with requested ip and port*/ pcb = udp_pcbs; while (pcb != NULL) { if (ip_addr_cmp(&local_ip, &pcb->local_ip) && (local_port == pcb->local_port) && ip_addr_cmp(&remote_ip, &pcb->remote_ip) && (remote_port == pcb->remote_port)) { /* fill in object properties */ return udp_endpointTable_get_cell_value_core(column, value); } pcb = pcb->next; } /* not found */ return SNMP_ERR_NOSUCHINSTANCE; } static snmp_err_t udp_endpointTable_get_next_cell_instance_and_value(const u32_t *column, struct snmp_obj_id *row_oid, union snmp_variant_value *value, u32_t *value_len) { struct udp_pcb *pcb; struct snmp_next_oid_state state; /* 1x udpEndpointLocalAddressType + 1x OID len + 16x udpEndpointLocalAddress + 1x udpEndpointLocalPort + * 1x udpEndpointRemoteAddressType + 1x OID len + 16x udpEndpointRemoteAddress + 1x udpEndpointRemotePort + * 1x udpEndpointInstance = 39 */ u32_t result_temp[39]; LWIP_UNUSED_ARG(value_len); /* init struct to search next oid */ snmp_next_oid_init(&state, row_oid->id, row_oid->len, result_temp, LWIP_ARRAYSIZE(result_temp)); /* iterate over all possible OIDs to find the next one */ pcb = udp_pcbs; while (pcb != NULL) { u32_t test_oid[LWIP_ARRAYSIZE(result_temp)]; u8_t idx = 0; /* udpEndpointLocalAddressType + udpEndpointLocalAddress + udpEndpointLocalPort */ idx += snmp_ip_port_to_oid(&pcb->local_ip, pcb->local_port, &test_oid[idx]); /* udpEndpointRemoteAddressType + udpEndpointRemoteAddress + udpEndpointRemotePort */ idx += snmp_ip_port_to_oid(&pcb->remote_ip, pcb->remote_port, &test_oid[idx]); test_oid[idx] = 0; /* udpEndpointInstance */ idx++; /* check generated OID: is it a candidate for the next one? */ snmp_next_oid_check(&state, test_oid, idx, NULL); pcb = pcb->next; } /* did we find a next one? */ if (state.status == SNMP_NEXT_OID_STATUS_SUCCESS) { snmp_oid_assign(row_oid, state.next_oid, state.next_oid_len); /* fill in object properties */ return udp_endpointTable_get_cell_value_core(column, value); } else { /* not found */ return SNMP_ERR_NOSUCHINSTANCE; } } /* --- udpTable --- */ #if LWIP_IPV4 /* list of allowed value ranges for incoming OID */ static const struct snmp_oid_range udp_Table_oid_ranges[] = { { 0, 0xff }, /* IP A */ { 0, 0xff }, /* IP B */ { 0, 0xff }, /* IP C */ { 0, 0xff }, /* IP D */ { 1, 0xffff } /* Port */ }; static snmp_err_t udp_Table_get_cell_value_core(struct udp_pcb *pcb, const u32_t *column, union snmp_variant_value *value, u32_t *value_len) { LWIP_UNUSED_ARG(value_len); switch (*column) { case 1: /* udpLocalAddress */ /* set reference to PCB local IP and return a generic node that copies IP4 addresses */ value->u32 = ip_2_ip4(&pcb->local_ip)->addr; break; case 2: /* udpLocalPort */ /* set reference to PCB local port and return a generic node that copies u16_t values */ value->u32 = pcb->local_port; break; default: return SNMP_ERR_NOSUCHINSTANCE; } return SNMP_ERR_NOERROR; } static snmp_err_t udp_Table_get_cell_value(const u32_t *column, const u32_t *row_oid, u8_t row_oid_len, union snmp_variant_value *value, u32_t *value_len) { ip4_addr_t ip; u16_t port; struct udp_pcb *pcb; /* check if incoming OID length and if values are in plausible range */ if (!snmp_oid_in_range(row_oid, row_oid_len, udp_Table_oid_ranges, LWIP_ARRAYSIZE(udp_Table_oid_ranges))) { return SNMP_ERR_NOSUCHINSTANCE; } /* get IP and port from incoming OID */ snmp_oid_to_ip4(&row_oid[0], &ip); /* we know it succeeds because of oid_in_range check above */ port = (u16_t)row_oid[4]; /* find udp_pcb with requested ip and port*/ pcb = udp_pcbs; while (pcb != NULL) { if (IP_IS_V4_VAL(pcb->local_ip)) { if (ip4_addr_cmp(&ip, ip_2_ip4(&pcb->local_ip)) && (port == pcb->local_port)) { /* fill in object properties */ return udp_Table_get_cell_value_core(pcb, column, value, value_len); } } pcb = pcb->next; } /* not found */ return SNMP_ERR_NOSUCHINSTANCE; } static snmp_err_t udp_Table_get_next_cell_instance_and_value(const u32_t *column, struct snmp_obj_id *row_oid, union snmp_variant_value *value, u32_t *value_len) { struct udp_pcb *pcb; struct snmp_next_oid_state state; u32_t result_temp[LWIP_ARRAYSIZE(udp_Table_oid_ranges)]; /* init struct to search next oid */ snmp_next_oid_init(&state, row_oid->id, row_oid->len, result_temp, LWIP_ARRAYSIZE(udp_Table_oid_ranges)); /* iterate over all possible OIDs to find the next one */ pcb = udp_pcbs; while (pcb != NULL) { u32_t test_oid[LWIP_ARRAYSIZE(udp_Table_oid_ranges)]; if (IP_IS_V4_VAL(pcb->local_ip)) { snmp_ip4_to_oid(ip_2_ip4(&pcb->local_ip), &test_oid[0]); test_oid[4] = pcb->local_port; /* check generated OID: is it a candidate for the next one? */ snmp_next_oid_check(&state, test_oid, LWIP_ARRAYSIZE(udp_Table_oid_ranges), pcb); } pcb = pcb->next; } /* did we find a next one? */ if (state.status == SNMP_NEXT_OID_STATUS_SUCCESS) { snmp_oid_assign(row_oid, state.next_oid, state.next_oid_len); /* fill in object properties */ return udp_Table_get_cell_value_core((struct udp_pcb *)state.reference, column, value, value_len); } else { /* not found */ return SNMP_ERR_NOSUCHINSTANCE; } } #endif /* LWIP_IPV4 */ static const struct snmp_scalar_node udp_inDatagrams = SNMP_SCALAR_CREATE_NODE_READONLY(1, SNMP_ASN1_TYPE_COUNTER, udp_get_value); static const struct snmp_scalar_node udp_noPorts = SNMP_SCALAR_CREATE_NODE_READONLY(2, SNMP_ASN1_TYPE_COUNTER, udp_get_value); static const struct snmp_scalar_node udp_inErrors = SNMP_SCALAR_CREATE_NODE_READONLY(3, SNMP_ASN1_TYPE_COUNTER, udp_get_value); static const struct snmp_scalar_node udp_outDatagrams = SNMP_SCALAR_CREATE_NODE_READONLY(4, SNMP_ASN1_TYPE_COUNTER, udp_get_value); #if LWIP_HAVE_INT64 static const struct snmp_scalar_node udp_HCInDatagrams = SNMP_SCALAR_CREATE_NODE_READONLY(8, SNMP_ASN1_TYPE_COUNTER64, udp_get_value); static const struct snmp_scalar_node udp_HCOutDatagrams = SNMP_SCALAR_CREATE_NODE_READONLY(9, SNMP_ASN1_TYPE_COUNTER64, udp_get_value); #endif #if LWIP_IPV4 static const struct snmp_table_simple_col_def udp_Table_columns[] = { { 1, SNMP_ASN1_TYPE_IPADDR, SNMP_VARIANT_VALUE_TYPE_U32 }, /* udpLocalAddress */ { 2, SNMP_ASN1_TYPE_INTEGER, SNMP_VARIANT_VALUE_TYPE_U32 } /* udpLocalPort */ }; static const struct snmp_table_simple_node udp_Table = SNMP_TABLE_CREATE_SIMPLE(5, udp_Table_columns, udp_Table_get_cell_value, udp_Table_get_next_cell_instance_and_value); #endif /* LWIP_IPV4 */ static const struct snmp_table_simple_col_def udp_endpointTable_columns[] = { /* all items except udpEndpointProcess are declared as not-accessible */ { 8, SNMP_ASN1_TYPE_UNSIGNED32, SNMP_VARIANT_VALUE_TYPE_U32 } /* udpEndpointProcess */ }; static const struct snmp_table_simple_node udp_endpointTable = SNMP_TABLE_CREATE_SIMPLE(7, udp_endpointTable_columns, udp_endpointTable_get_cell_value, udp_endpointTable_get_next_cell_instance_and_value); /* the following nodes access variables in LWIP stack from SNMP worker thread and must therefore be synced to LWIP (TCPIP) thread */ CREATE_LWIP_SYNC_NODE(1, udp_inDatagrams) CREATE_LWIP_SYNC_NODE(2, udp_noPorts) CREATE_LWIP_SYNC_NODE(3, udp_inErrors) CREATE_LWIP_SYNC_NODE(4, udp_outDatagrams) #if LWIP_IPV4 CREATE_LWIP_SYNC_NODE(5, udp_Table) #endif /* LWIP_IPV4 */ CREATE_LWIP_SYNC_NODE(7, udp_endpointTable) #if LWIP_HAVE_INT64 CREATE_LWIP_SYNC_NODE(8, udp_HCInDatagrams) CREATE_LWIP_SYNC_NODE(9, udp_HCOutDatagrams) #endif static const struct snmp_node *const udp_nodes[] = { &SYNC_NODE_NAME(udp_inDatagrams).node.node, &SYNC_NODE_NAME(udp_noPorts).node.node, &SYNC_NODE_NAME(udp_inErrors).node.node, &SYNC_NODE_NAME(udp_outDatagrams).node.node, #if LWIP_IPV4 &SYNC_NODE_NAME(udp_Table).node.node, #endif /* LWIP_IPV4 */ &SYNC_NODE_NAME(udp_endpointTable).node.node #if LWIP_HAVE_INT64 , &SYNC_NODE_NAME(udp_HCInDatagrams).node.node, &SYNC_NODE_NAME(udp_HCOutDatagrams).node.node #endif }; const struct snmp_tree_node snmp_mib2_udp_root = SNMP_CREATE_TREE_NODE(7, udp_nodes); #endif /* LWIP_SNMP && SNMP_LWIP_MIB2 && LWIP_UDP */