static snmp_err_t ip_NetToMediaTable_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_in; u8_t netif_index; u8_t i; /* check if incoming OID length and if values are in plausible range */ if (!snmp_oid_in_range(row_oid, row_oid_len, ip_NetToMediaTable_oid_ranges, LWIP_ARRAYSIZE(ip_NetToMediaTable_oid_ranges))) { return SNMP_ERR_NOSUCHINSTANCE; } /* get IP from incoming OID */ netif_index = (u8_t)row_oid[0]; snmp_oid_to_ip4(&row_oid[1], &ip_in); /* we know it succeeds because of oid_in_range check above */ /* find requested entry */ for (i=0; i<ARP_TABLE_SIZE; i++) { ip4_addr_t *ip; struct netif *netif; struct eth_addr *ethaddr; if (etharp_get_entry(i, &ip, &netif, ðaddr)) { if ((netif_index == netif_to_num(netif)) && ip4_addr_cmp(&ip_in, ip)) { /* fill in object properties */ return ip_NetToMediaTable_get_cell_value_core(i, column, value, value_len); } } } /* not found */ return SNMP_ERR_NOSUCHINSTANCE; }
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 ip_AddrTable_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; struct netif *netif; /* check if incoming OID length and if values are in plausible range */ if (!snmp_oid_in_range(row_oid, row_oid_len, ip_AddrTable_oid_ranges, LWIP_ARRAYSIZE(ip_AddrTable_oid_ranges))) { return SNMP_ERR_NOSUCHINSTANCE; } /* get IP from incoming OID */ snmp_oid_to_ip4(&row_oid[0], &ip); /* we know it succeeds because of oid_in_range check above */ /* find netif with requested ip */ netif = netif_list; while (netif != NULL) { if (ip4_addr_cmp(&ip, netif_ip4_addr(netif))) { /* fill in object properties */ return ip_AddrTable_get_cell_value_core(netif, column, value, value_len); } netif = netif->next; } /* not found */ return SNMP_ERR_NOSUCHINSTANCE; }
static snmp_err_t sensor_table_get_cell_instance(const u32_t* column, const u32_t* row_oid, u8_t row_oid_len, struct snmp_node_instance* cell_instance) { u32_t sensor_num; size_t i; LWIP_UNUSED_ARG(column); /* check if incoming OID length and if values are in plausible range */ if(!snmp_oid_in_range(row_oid, row_oid_len, sensor_table_oid_ranges, LWIP_ARRAYSIZE(sensor_table_oid_ranges))) { return SNMP_ERR_NOSUCHINSTANCE; } /* get sensor index from incoming OID */ sensor_num = row_oid[0]; /* find sensor with index */ for(i=0; i<LWIP_ARRAYSIZE(sensors); i++) { if(sensors[i].num != 0) { if(sensors[i].num == sensor_num) { /* store sensor index for subsequent operations (get/test/set) */ cell_instance->reference.u32 = (u32_t)i; return SNMP_ERR_NOERROR; } } } /* not found */ return SNMP_ERR_NOSUCHINSTANCE; }
static snmp_err_t interfaces_Table_get_cell_instance(const u32_t* column, const u32_t* row_oid, u8_t row_oid_len, struct snmp_node_instance* cell_instance) { u32_t ifIndex; struct netif *netif; LWIP_UNUSED_ARG(column); /* check if incoming OID length and if values are in plausible range */ if(!snmp_oid_in_range(row_oid, row_oid_len, interfaces_Table_oid_ranges, LWIP_ARRAYSIZE(interfaces_Table_oid_ranges))) { return SNMP_ERR_NOSUCHINSTANCE; } /* get netif index from incoming OID */ ifIndex = row_oid[0]; /* find netif with index */ netif = netif_list; while (netif != NULL) { if(netif_to_num(netif) == ifIndex) { /* store netif pointer for subsequent operations (get/test/set) */ cell_instance->reference.ptr = netif; return SNMP_ERR_NOERROR; } netif = netif->next; } /* not found */ return SNMP_ERR_NOSUCHINSTANCE; }
static snmp_err_t tcp_ConnTable_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) { u8_t i; ip4_addr_t local_ip; ip4_addr_t remote_ip; u16_t local_port; u16_t remote_port; struct tcp_pcb *pcb; /* check if incoming OID length and if values are in plausible range */ if (!snmp_oid_in_range(row_oid, row_oid_len, tcp_ConnTable_oid_ranges, LWIP_ARRAYSIZE(tcp_ConnTable_oid_ranges))) { return SNMP_ERR_NOSUCHINSTANCE; } /* get IPs and ports from incoming OID */ snmp_oid_to_ip4(&row_oid[0], &local_ip); /* we know it succeeds because of oid_in_range check above */ local_port = (u16_t)row_oid[4]; snmp_oid_to_ip4(&row_oid[5], &remote_ip); /* we know it succeeds because of oid_in_range check above */ remote_port = (u16_t)row_oid[9]; /* find tcp_pcb with requested ips and ports */ for (i = 0; i < LWIP_ARRAYSIZE(tcp_pcb_lists); i++) { pcb = *tcp_pcb_lists[i]; while (pcb != NULL) { /* do local IP and local port match? */ if (IP_IS_V4_VAL(pcb->local_ip) && ip4_addr_cmp(&local_ip, ip_2_ip4(&pcb->local_ip)) && (local_port == pcb->local_port)) { /* PCBs in state LISTEN are not connected and have no remote_ip or remote_port */ if (pcb->state == LISTEN) { if (ip4_addr_cmp(&remote_ip, IP4_ADDR_ANY) && (remote_port == 0)) { /* fill in object properties */ return tcp_ConnTable_get_cell_value_core(pcb, column, value, value_len); } } else { if (IP_IS_V4_VAL(pcb->remote_ip) && ip4_addr_cmp(&remote_ip, ip_2_ip4(&pcb->remote_ip)) && (remote_port == pcb->remote_port)) { /* fill in object properties */ return tcp_ConnTable_get_cell_value_core(pcb, column, value, value_len); } } } pcb = pcb->next; } } /* not found */ return SNMP_ERR_NOSUCHINSTANCE; }
static snmp_err_t ip_RouteTable_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 test_ip; struct netif *netif; /* check if incoming OID length and if values are in plausible range */ if (!snmp_oid_in_range(row_oid, row_oid_len, ip_RouteTable_oid_ranges, LWIP_ARRAYSIZE(ip_RouteTable_oid_ranges))) { return SNMP_ERR_NOSUCHINSTANCE; } /* get IP and port from incoming OID */ snmp_oid_to_ip4(&row_oid[0], &test_ip); /* we know it succeeds because of oid_in_range check above */ /* default route is on default netif */ if (ip4_addr_isany_val(test_ip) && (netif_default != NULL)) { /* fill in object properties */ return ip_RouteTable_get_cell_value_core(netif_default, 1, column, value, value_len); } /* find netif with requested route */ netif = netif_list; while (netif != NULL) { ip4_addr_t dst; ip4_addr_get_network(&dst, netif_ip4_addr(netif), netif_ip4_netmask(netif)); if (ip4_addr_cmp(&dst, &test_ip)) { /* fill in object properties */ return ip_RouteTable_get_cell_value_core(netif, 0, column, value, value_len); } netif = netif->next; } /* not found */ return SNMP_ERR_NOSUCHINSTANCE; }