.. _ipfix_doc: IPFIX support ============= VPP includes a high-performance IPFIX record exporter. This note explains how to use the internal APIs to export IPFIX data, and how to configure and send the required IPFIX templates. As you’ll see, a bit of typing is required. First: create an ipfix “report” ------------------------------- Include the flow report header file, fill out a @ref vnet_flow_report_add_del_args_t structure, and call vnet_flow_report_add_del. .. code:: c #include <vnet/ipfix-export/flow_report.h> /* Defined in flow_report.h, of interest when constructing reports */ /* ipfix field definitions for a particular report */ typedef struct { u32 info_element; u32 size; } ipfix_report_element_t; /* Report add/del argument structure */ typedef struct { /* Callback to flush current ipfix packet / frame */ vnet_flow_data_callback_t *flow_data_callback; /* Callback to build the template packet rewrite string */ vnet_flow_rewrite_callback_t *rewrite_callback; /* List of ipfix elements in the report */ ipfix_report_element_t *report_elements; u32 n_report_elements; /* Kept in flow report, used e.g. by flow classifier */ opaque_t opaque; /* Add / delete a report */ int is_add; /* Ipfix "domain-ID", see RFC, set as desired */ u32 domain_id; /* ipfix packet source port, often set to UDP_DST_PORT_ipfix */ u16 src_port; /* Set by ipfix infra, needed to send data packets */ u32 *stream_indexp; } vnet_flow_report_add_del_args_t; /* Private header file contents */ /* Report ipfix element definition */ #define foreach_simple_report_ipfix_element \ _(sourceIPv4Address, 4) \ _(destinationIPv4Address, 4) \ _(sourceTransportPort, 2) \ _(destinationTransportPort, 2) \ _(protocolIdentifier, 1) \ _(flowStartMicroseconds, 8) \ _(flowEndMicroseconds, 8) static ipfix_report_element_t simple_report_elements[] = { #define _(a,b) {a,b}, foreach_simple_report_ipfix_element #undef _ }; typedef struct { /** Buffers and frames, per thread */ vlib_buffer_t **buffers_by_thread; vlib_frame_t **frames_by_thread; u32 *next_record_offset_by_thread; /** Template ID's */ u16 *template_ids; /** Time reference pair */ u64 usec_time_0; f64 vlib_time_0; /** Stream index */ u32 stream_index; /* Convenience */ flow_report_main_t *flow_report_main; vlib_main_t *vlib_main; vnet_main_t *vnet_main; } my_logging_main_t; extern my_logging_main_t my_logging_main; ... /* Recitations */ flow_report_main_t *frm = &flow_report_main; my_logging_main_t *mlm = &my_logging_main; vnet_flow_report_add_del_args_t a; int rv; u16 template_id; ... /* Init function: set up time reference pair */ mlm->vlib_time_0 = vlib_time_now (vm); mlm->milisecond_time_0 = unix_time_now_nsec () * 1e-6; ... /* Create a report */ memset (&a, 0, sizeof (a)); a.is_add = 1 /* to enable the report */; a.domain_id = 1 /* pick a domain ID */; a.src_port = UDP_DST_PORT_ipfix /* src port for reports */; /* Use the generic template packet rewrite string generator */ a.rewrite_callback = vnet_flow_rewrite_generic_callback; /* Supply a list of ipfix report elements */ a.report_elements = simple_report_elements; a.n_report_elements = ARRAY_LEN (simple_report_elements); /* Pointer to the ipfix stream index, set by the report infra */ a.stream_indexp = &mlm->stream_index; a.flow_data_callback = my_flow_data_callback; /* Create the report */ rv = vnet_flow_report_add_del (frm, &a, &template_id); if (rv) oops... /* Save the template-ID for later use */ mlm->template_id = template_id; Several things are worth describing in more detail. vnet_flow_rewrite_generic_callback programming ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ This generic callback helps build ipfix template packets. When registering an ipfix report, pass an (array, count) of ipfix elements as shown above. my_flow_data_callback ~~~~~~~~~~~~~~~~~~~~~ The ipfix flow export infrastructure calls this callback to flush the current ipfix packet; to make sure that ipfix data is not retained for an unreasonably long period of time. We typically code it as shown below, to call an application-specific function with (uninteresting arguments), and “do_flush = 1”: .. code:: c vlib_frame_t *my_flow_data_callback (flow_report_main_t * frm, flow_report_t * fr, vlib_frame_t * f, u32 * to_next, u32 node_index) { my_buffer_flow_record (0, ... , 0, 1 /* do_flush */); return f; } my_flow_data_header ~~~~~~~~~~~~~~~~~~~ This function creates the packet header for an ipfix data packet .. code:: c static inline void my_flow_report_header (flow_report_main_t * frm, vlib_buffer_t * b0, u32 * offset) { my_logging_main_t *mlm = &my_logging_main; flow_report_stream_t *stream; ip4_ipfix_template_packet_t *tp; ipfix_message_header_t *h = 0; ipfix_set_header_t *s = 0; ip4_header_t *ip; udp_header_t *udp; stream = &frm->streams[mlm->stream_index]; b0->current_data = 0; b0->current_length = sizeof (*ip) + sizeof (*udp) + sizeof (*h) + sizeof (*s); b0->flags |= (VLIB_BUFFER_TOTAL_LENGTH_VALID | VNET_BUFFER_F_FLOW_REPORT); vnet_buffer (b0)->sw_if_index[VLIB_RX] = 0; vnet_buffer (b0)->sw_if_index[VLIB_TX] = frm->fib_index; tp = vlib_buffer_get_current (b0); ip = (ip4_header_t *) & tp->ip4; udp = (udp_header_t *) (ip + 1); h = (ipfix_message_header_t *) (udp + 1); s = (ipfix_set_header_t *) (h + 1); ip->ip_version_and_header_length = 0x45; ip->ttl = 254; ip->protocol = IP_PROTOCOL_UDP; ip->flags_and_fragment_offset = 0; ip->src_address.as_u32 = frm->src_address.as_u32; ip->dst_address.as_u32 = frm->ipfix_collector.as_u32; udp->src_port = clib_host_to_net_u16 (stream->src_port); udp->dst_port = clib_host_to_net_u16 (frm->collector_port); udp->checksum = 0; h->export_time = clib_host_to_net_u32 ((u32) (((f64) frm->unix_time_0) + (vlib_time_now (frm->vlib_main) - frm->vlib_time_0))); h->sequence_number = clib_host_to_net_u32 (stream->sequence_number++); h->domain_id = clib_host_to_net_u32 (stream->domain_id); *offset = (u32) (((u8 *) (s + 1)) - (u8 *) tp); } ### fixup and transmit a flow record .. code:: c static inline void my_send_ipfix_pkt (flow_report_main_t * frm, vlib_frame_t * f, vlib_buffer_t * b0, u16 template_id) { ip4_ipfix_template_packet_t *tp; ipfix_message_header_t *h = 0; ipfix_set_header_t *s = 0; ip4_header_t *ip; udp_header_t *udp; vlib_main_t *vm = frm->vlib_main; tp = vlib_buffer_get_current (b0); ip = (ip4_header_t *) & tp->ip4; udp = (udp_header_t *) (ip + 1); h = (ipfix_message_header_t *) (udp + 1); s = (ipfix_set_header_t *) (h + 1); s->set_id_length = ipfix_set_id_length (template_id, b0->current_length - (sizeof (*ip) + sizeof (*udp) + sizeof (*h))); h->version_length = version_length (b0->current_length - (sizeof (*ip) + sizeof (*udp))); ip->length = clib_host_to_net_u16 (b0->current_length); ip->checksum = ip4_header_checksum (ip); udp->length = clib_host_to_net_u16 (b0->current_length - sizeof (*ip)); if (frm->udp_checksum) { udp->checksum = ip4_tcp_udp_compute_checksum (vm, b0, ip); if (udp->checksum == 0) udp->checksum = 0xffff; } ASSERT (ip4_header_checksum_is_valid (ip)); vlib_put_frame_to_node (vm, ip4_lookup_node.index, f); } ### my_buffer_flow_record This is the key routine which paints individual flow records into an ipfix packet under construction. It’s pretty straightforward (albeit stateful) vpp data-plane code. The code shown below is thread-safe by construction. .. code:: c static inline void my_buffer_flow_record_internal (my_flow_record_t * rp, int do_flush, u32 thread_index) { vlib_main_t *vm = vlib_mains[thread_index]; my_logging_main_t *mlm = &jvp_ipfix_main; flow_report_main_t *frm = &flow_report_main; vlib_frame_t *f; vlib_buffer_t *b0 = 0; u32 bi0 = ~0; u32 offset; b0 = mlm->buffers_by_thread[thread_index]; if (PREDICT_FALSE (b0 == 0)) { if (do_flush) return; if (vlib_buffer_alloc (vm, &bi0, 1) != 1) { clib_warning ("can't allocate ipfix data buffer"); return; } b0 = vlib_get_buffer (vm, bi0); offset = 0; mlm->buffers_by_thread[thread_index] = b0; } else { bi0 = vlib_get_buffer_index (vm, b0); offset = mlm->next_record_offset_by_thread[thread_index]; } f = mlm->frames_by_thread[thread_index]; if (PREDICT_FALSE (f == 0)) { u32 *to_next; f = vlib_get_frame_to_node (vm, ip4_lookup_node.index); mlm->frames_by_thread[thread_index] = f; to_next = vlib_frame_vector_args (f); to_next[0] = bi0; f->n_vectors = 1; mlm->frames_by_thread[thread_index] = f; } if (PREDICT_FALSE (offset == 0)) my_flow_report_header (frm, b0, &offset); if (PREDICT_TRUE (do_flush == 0)) { /* Paint the new ipfix data record into the buffer */ clib_memcpy (b0->data + offset, rp, sizeof (*rp)); offset += sizeof (*rp); b0->current_length += sizeof (*rp); } if (PREDICT_FALSE (do_flush || (offset + sizeof (*rp)) > frm->path_mtu)) { /* Nothing to send? */ if (offset == 0) return; send_ipfix_pkt (frm, f, b0, mlm->template_ids[0]); mlm->buffers_by_thread[thread_index] = 0; mlm->frames_by_thread[thread_index] = 0; offset = 0; } mlm->next_record_offset_by_thread[thread_index] = offset; } static void my_buffer_flow_record (my_flow_record_t * rp, int do_flush) { u32 thread_index = vlib_get_thread_index(); my_buffer_flow_record_internal (rp, do_flush, thread_index); }