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source: lib/format_ndag.c @ c2fe7b6

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Last change on this file since c2fe7b6 was 54ef438, checked in by Shane Alcock <salcock@…>, 2 years ago

ndag: just read one "batch" of packets per pread call

Previously, we would stay in pread until we got close to the
full number of packets requested or a non-blocking read gave us
no new packets.

This meant that we could in theory waste time doing an unnecessary
non-blocking read that was going to fail, when instead we could
just assume that we were going to be called again shortly anyway
if the user wanted more packets.

It's a bit tenuous when I try to explain it, but it seems to save
us a bit of CPU time in practice...

Property mode set to 100644

File size: 47.1 KB

Line
1	/*
2	*
3	* Copyright (c) 2007-2017 The University of Waikato, Hamilton, New Zealand.
4	* All rights reserved.
5	*
6	* This file is part of libtrace.
7	*
8	* This code has been developed by the University of Waikato WAND
9	* research group. For further information please see http://www.wand.net.nz/
10	*
11	* libtrace is free software; you can redistribute it and/or modify
12	* it under the terms of the GNU Lesser General Public License as published by
13	* the Free Software Foundation; either version 3 of the License, or
14	* (at your option) any later version.
15	*
16	* libtrace is distributed in the hope that it will be useful,
17	* but WITHOUT ANY WARRANTY; without even the implied warranty of
18	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
19	* GNU Lesser General Public License for more details.
20	*
21	* You should have received a copy of the GNU Lesser General Public License
22	* along with this program. If not, see <http://www.gnu.org/licenses/>.
23	*
24	*
25	*/
26
27
28	#define _GNU_SOURCE
29
30	#include "config.h"
31	#include "common.h"
32	#include "libtrace.h"
33	#include "libtrace_int.h"
34	#include "format_helper.h"
35	#include "format_erf.h"
36
37	#include <errno.h>
38	#include <fcntl.h>
39	#include <stdio.h>
40	#include <string.h>
41	#include <unistd.h>
42	#include <stdlib.h>
43	#include <net/if.h>
44	#include <sys/types.h>
45	#include <sys/socket.h>
46	#include <netdb.h>
47
48	#include "format_ndag.h"
49
50	#define NDAG_IDLE_TIMEOUT (600)
51	#define ENCAP_BUFSIZE (10000)
52	#define CTRL_BUF_SIZE (10000)
53	#define ENCAP_BUFFERS (1000)
54
55	#define RECV_BATCH_SIZE (50)
56
57	#define FORMAT_DATA ((ndag_format_data_t *)libtrace->format_data)
58
59	static struct libtrace_format_t ndag;
60
61	volatile int ndag_paused = 0;
62
63	typedef struct monitor {
64	uint16_t monitorid;
65	uint64_t laststart;
66	} ndag_monitor_t;
67
68
69	typedef struct streamsource {
70	uint16_t monitor;
71	char *groupaddr;
72	char *localiface;
73	uint16_t port;
74	} streamsource_t;
75
76	typedef struct streamsock {
77	char *groupaddr;
78	int sock;
79	struct addrinfo *srcaddr;
80	uint16_t port;
81	uint32_t expectedseq;
82	ndag_monitor_t *monitorptr;
83	char **saved;
84	char *nextread;
85	int nextreadind;
86	int nextwriteind;
87	int savedsize[ENCAP_BUFFERS];
88	uint64_t nextts;
89	uint32_t startidle;
90	uint64_t recordcount;
91
92	int bufavail;
93	int bufwaiting;
94
95	#if HAVE_DECL_RECVMMSG
96	struct mmsghdr mmsgbufs[RECV_BATCH_SIZE];
97	#else
98	struct msghdr singlemsg;
99	#endif
100
101	} streamsock_t;
102
103	typedef struct recvstream {
104	streamsock_t *sources;
105	uint16_t sourcecount;
106	libtrace_message_queue_t mqueue;
107	int threadindex;
108	ndag_monitor_t *knownmonitors;
109	uint16_t monitorcount;
110
111	uint64_t dropped_upstream;
112	uint64_t missing_records;
113	uint64_t received_packets;
114
115	int maxfd;
116	} recvstream_t;
117
118	typedef struct ndag_format_data {
119	char *multicastgroup;
120	char *portstr;
121	char *localiface;
122	uint16_t nextthreadid;
123	recvstream_t *receivers;
124
125	pthread_t controlthread;
126	libtrace_message_queue_t controlqueue;
127	} ndag_format_data_t;
128
129	enum {
130	NDAG_CLIENT_HALT = 0x01,
131	NDAG_CLIENT_RESTARTED = 0x02, // redundant
132	NDAG_CLIENT_NEWGROUP = 0x03
133	};
134
135	typedef struct ndagreadermessage {
136	uint8_t type;
137	streamsource_t contents;
138	} ndag_internal_message_t;
139
140
141	static inline int seq_cmp(uint32_t seq_a, uint32_t seq_b) {
142
143	/* Calculate seq_a - seq_b, taking wraparound into account */
144	if (seq_a == seq_b) return 0;
145
146	if (seq_a > seq_b) {
147	return (int) (seq_a - seq_b);
148	}
149
150	/* -1 for the wrap and another -1 because we don't use zero */
151	return (int) (0xffffffff - ((seq_b - seq_a) - 2));
152	}
153
154	static uint8_t check_ndag_header(char *msgbuf, uint32_t msgsize) {
155	ndag_common_t header = (ndag_common_t )msgbuf;
156
157	if (msgsize < sizeof(ndag_common_t)) {
158	fprintf(stderr,
159	"nDAG message does not have a complete nDAG header.\n");
160	return 0;
161	}
162
163	if (ntohl(header->magic) != NDAG_MAGIC_NUMBER) {
164	fprintf(stderr,
165	"nDAG message does not have a valid magic number.\n");
166	return 0;
167	}
168
169	if (header->version > NDAG_EXPORT_VERSION \|\| header->version == 0) {
170	fprintf(stderr,
171	"nDAG message has an invalid header version: %u\n",
172	header->version);
173	return 0;
174	}
175
176	return header->type;
177	}
178
179	static int join_multicast_group(char groupaddr, char localiface,
180	char portstr, uint16_t portnum, struct addrinfo *srcinfo) {
181
182	struct addrinfo hints;
183	struct addrinfo *gotten;
184	struct addrinfo *group;
185	unsigned int interface;
186	char pstr[16];
187	struct group_req greq;
188	int bufsize, val;
189
190	int sock;
191
192	if (portstr == NULL) {
193	snprintf(pstr, 15, "%u", portnum);
194	portstr = pstr;
195	}
196
197	interface = if_nametoindex(localiface);
198	if (interface == 0) {
199	fprintf(stderr, "Failed to lookup interface %s -- %s\n",
200	localiface, strerror(errno));
201	return -1;
202	}
203
204	hints.ai_family = PF_UNSPEC;
205	hints.ai_socktype = SOCK_DGRAM;
206	hints.ai_flags = AI_PASSIVE;
207	hints.ai_protocol = 0;
208
209	if (getaddrinfo(NULL, portstr, &hints, &gotten) != 0) {
210	fprintf(stderr,
211	"Call to getaddrinfo failed for NULL:%s -- %s\n",
212	portstr, strerror(errno));
213	return -1;
214	}
215
216	if (getaddrinfo(groupaddr, NULL, &hints, &group) != 0) {
217	fprintf(stderr, "Call to getaddrinfo failed for %s -- %s\n",
218	groupaddr, strerror(errno));
219	return -1;
220	}
221
222	*srcinfo = gotten;
223	sock = socket(gotten->ai_family, gotten->ai_socktype, 0);
224	if (sock < 0) {
225	fprintf(stderr,
226	"Failed to create multicast socket for %s:%s -- %s\n",
227	groupaddr, portstr, strerror(errno));
228	goto sockcreateover;
229	}
230
231	val = 1;
232	if (setsockopt(sock, SOL_SOCKET, SO_REUSEADDR, &val, sizeof(val)) < 0) {
233	fprintf(stderr,
234	"Failed to set REUSEADDR socket option for %s:%s -- %s\n",
235	groupaddr, portstr, strerror(errno));
236	goto sockcreateover;
237	}
238
239	if (bind(sock, (struct sockaddr *)gotten->ai_addr, gotten->ai_addrlen) < 0)
240	{
241	fprintf(stderr,
242	"Failed to bind to multicast socket %s:%s -- %s\n",
243	groupaddr, portstr, strerror(errno));
244	sock = -1;
245	goto sockcreateover;
246	}
247
248	greq.gr_interface = interface;
249	memcpy(&(greq.gr_group), group->ai_addr, group->ai_addrlen);
250
251	if (setsockopt(sock, IPPROTO_IP, MCAST_JOIN_GROUP, &greq,
252	sizeof(greq)) < 0) {
253	fprintf(stderr,
254	"Failed to join multicast group %s:%s -- %s\n",
255	groupaddr, portstr, strerror(errno));
256	close(sock);
257	sock = -1;
258	goto sockcreateover;
259	}
260
261	bufsize = 16 * 1024 * 1024;
262	if (setsockopt(sock, SOL_SOCKET, SO_RCVBUF, &bufsize,
263	(socklen_t)sizeof(int)) < 0) {
264
265	fprintf(stderr,
266	"Failed to increase buffer size for multicast group %s:%s -- %s\n",
267	groupaddr, portstr, strerror(errno));
268	close(sock);
269	sock = -1;
270	goto sockcreateover;
271	}
272
273	sockcreateover:
274	freeaddrinfo(group);
275	return sock;
276	}
277
278
279	static int ndag_init_input(libtrace_t *libtrace) {
280
281	char *scan = NULL;
282	char *next = NULL;
283
284	libtrace->format_data = (ndag_format_data_t *)malloc(
285	sizeof(ndag_format_data_t));
286
287	if (!libtrace->format_data) {
288	trace_set_err(libtrace, TRACE_ERR_INIT_FAILED, "Unable to allocate memory for "
289	"format data inside ndag_init_input()");
290	return -1;
291	}
292
293	FORMAT_DATA->multicastgroup = NULL;
294	FORMAT_DATA->portstr = NULL;
295	FORMAT_DATA->localiface = NULL;
296	FORMAT_DATA->nextthreadid = 0;
297	FORMAT_DATA->receivers = NULL;
298
299	scan = strchr(libtrace->uridata, ',');
300	if (scan == NULL) {
301	trace_set_err(libtrace, TRACE_ERR_BAD_FORMAT,
302	"Bad ndag URI. Should be ndag:<interface>,<multicast group>,<port number>");
303	return -1;
304	}
305	FORMAT_DATA->localiface = strndup(libtrace->uridata,
306	(size_t)(scan - libtrace->uridata));
307	next = scan + 1;
308
309	scan = strchr(next, ',');
310	if (scan == NULL) {
311	FORMAT_DATA->portstr = strdup("9001");
312	FORMAT_DATA->multicastgroup = strdup(next);
313	} else {
314	FORMAT_DATA->multicastgroup = strndup(next, (size_t)(scan - next));
315
316	FORMAT_DATA->portstr = strdup(scan + 1);
317	}
318	return 0;
319	}
320
321	static void new_group_alert(libtrace_t *libtrace, uint16_t threadid,
322	uint16_t portnum, uint16_t monid) {
323
324	ndag_internal_message_t alert;
325
326	alert.type = NDAG_CLIENT_NEWGROUP;
327	alert.contents.groupaddr = FORMAT_DATA->multicastgroup;
328	alert.contents.localiface = FORMAT_DATA->localiface;
329	alert.contents.port = portnum;
330	alert.contents.monitor = monid;
331
332	libtrace_message_queue_put(&(FORMAT_DATA->receivers[threadid].mqueue),
333	(void *)&alert);
334
335	}
336
337	static int ndag_parse_control_message(libtrace_t libtrace, char msgbuf,
338	int msgsize, uint16_t *ptmap) {
339
340	int i;
341	ndag_common_t ndaghdr = (ndag_common_t )msgbuf;
342	uint8_t msgtype;
343
344	msgtype = check_ndag_header(msgbuf, (uint32_t)msgsize);
345	if (msgtype == 0) {
346	return -1;
347	}
348
349	msgsize -= sizeof(ndag_common_t);
350	if (msgtype == NDAG_PKT_BEACON) {
351	/* If message is a beacon, make sure every port included in the
352	* beacon is assigned to a receive thread.
353	*/
354	uint16_t *ptr, numstreams;
355
356	if ((uint32_t)msgsize < sizeof(uint16_t)) {
357	fprintf(stderr, "Malformed beacon (missing number of streams).\n");
358	return -1;
359	}
360
361	ptr = (uint16_t *)(msgbuf + sizeof(ndag_common_t));
362	numstreams = ntohs(*ptr);
363	ptr ++;
364
365	if ((uint32_t)msgsize != ((numstreams + 1) * sizeof(uint16_t)))
366	{
367	fprintf(stderr, "Malformed beacon (length doesn't match number of streams).\n");
368	fprintf(stderr, "%u %u\n", msgsize, numstreams);
369	return -1;
370	}
371
372	for (i = 0; i < numstreams; i++) {
373	uint16_t streamport = ntohs(*ptr);
374
375	if (ptmap[streamport] == 0xffff) {
376	new_group_alert(libtrace,
377	FORMAT_DATA->nextthreadid, streamport,
378	ntohs(ndaghdr->monitorid));
379
380	ptmap[streamport] = FORMAT_DATA->nextthreadid;
381
382	if (libtrace->perpkt_thread_count == 0) {
383	FORMAT_DATA->nextthreadid = 0;
384	} else {
385	FORMAT_DATA->nextthreadid =
386	((FORMAT_DATA->nextthreadid + 1) % libtrace->perpkt_thread_count);
387	}
388	}
389
390	ptr ++;
391	}
392	} else {
393	fprintf(stderr,
394	"Unexpected message type on control channel: %u\n",
395	msgtype);
396	return -1;
397	}
398
399	return 0;
400
401	}
402
403	static void ndag_controller_run(void tdata) {
404
405	libtrace_t libtrace = (libtrace_t )tdata;
406	uint16_t ptmap[65536];
407	int sock = -1;
408	struct addrinfo *receiveaddr = NULL;
409	fd_set listening;
410	struct timeval timeout;
411
412	/* ptmap is a dirty hack to allow us to quickly check if we've already
413	* assigned a stream to a thread.
414	*/
415	memset(ptmap, 0xff, 65536 * sizeof(uint16_t));
416
417	sock = join_multicast_group(FORMAT_DATA->multicastgroup,
418	FORMAT_DATA->localiface, FORMAT_DATA->portstr, 0,
419	&receiveaddr);
420	if (sock == -1) {
421	trace_set_err(libtrace, TRACE_ERR_INIT_FAILED,
422	"Unable to join multicast group for nDAG control channel");
423	trace_interrupt();
424	pthread_exit(NULL);
425	}
426
427	ndag_paused = 0;
428	while ((is_halted(libtrace) == -1) && !ndag_paused) {
429	int ret;
430	char buf[CTRL_BUF_SIZE];
431
432	FD_ZERO(&listening);
433	FD_SET(sock, &listening);
434
435	timeout.tv_sec = 0;
436	timeout.tv_usec = 500000;
437
438	ret = select(sock + 1, &listening, NULL, NULL, &timeout);
439	if (ret < 0) {
440	fprintf(stderr, "Error while waiting for nDAG control messages: %s\n", strerror(errno));
441	break;
442	}
443
444	if (!FD_ISSET(sock, &listening)) {
445	continue;
446	}
447
448	ret = recvfrom(sock, buf, CTRL_BUF_SIZE, 0,
449	receiveaddr->ai_addr,
450	&(receiveaddr->ai_addrlen));
451	if (ret < 0) {
452	fprintf(stderr, "Error while receiving nDAG control message: %s\n", strerror(errno));
453	break;
454	}
455
456	if (ret == 0) {
457	break;
458	}
459
460	if (ndag_parse_control_message(libtrace, buf, ret, ptmap) < 0) {
461	fprintf(stderr, "Error while parsing nDAG control message.\n");
462	continue;
463	}
464	}
465
466	if (sock >= 0) {
467	close(sock);
468	}
469
470	/* Control channel has fallen over, should probably encourage libtrace
471	* to halt the receiver threads as well.
472	*/
473	if (!is_halted(libtrace)) {
474	trace_interrupt();
475	}
476
477	pthread_exit(NULL);
478	}
479
480	static int ndag_start_threads(libtrace_t *libtrace, uint32_t maxthreads)
481	{
482	int ret;
483	uint32_t i;
484	/* Configure the set of receiver threads */
485
486	if (FORMAT_DATA->receivers == NULL) {
487	/* What if the number of threads changes between a pause and
488	* a restart? Can this happen? */
489	FORMAT_DATA->receivers = (recvstream_t *)
490	malloc(sizeof(recvstream_t) * maxthreads);
491	}
492
493	for (i = 0; i < maxthreads; i++) {
494	FORMAT_DATA->receivers[i].sources = NULL;
495	FORMAT_DATA->receivers[i].sourcecount = 0;
496	FORMAT_DATA->receivers[i].knownmonitors = NULL;
497	FORMAT_DATA->receivers[i].monitorcount = 0;
498	FORMAT_DATA->receivers[i].threadindex = i;
499	FORMAT_DATA->receivers[i].dropped_upstream = 0;
500	FORMAT_DATA->receivers[i].received_packets = 0;
501	FORMAT_DATA->receivers[i].missing_records = 0;
502	FORMAT_DATA->receivers[i].maxfd = -1;
503
504	libtrace_message_queue_init(&(FORMAT_DATA->receivers[i].mqueue),
505	sizeof(ndag_internal_message_t));
506	}
507
508	/* Start the controller thread */
509	/* TODO consider affinity of this thread? */
510
511	ret = pthread_create(&(FORMAT_DATA->controlthread), NULL,
512	ndag_controller_run, libtrace);
513	if (ret != 0) {
514	return -1;
515	}
516	return maxthreads;
517	}
518
519	static int ndag_start_input(libtrace_t *libtrace) {
520	return ndag_start_threads(libtrace, 1);
521	}
522
523	static int ndag_pstart_input(libtrace_t *libtrace) {
524	if (ndag_start_threads(libtrace, libtrace->perpkt_thread_count) ==
525	libtrace->perpkt_thread_count)
526	return 0;
527	return -1;
528	}
529
530	static void halt_ndag_receiver(recvstream_t *receiver) {
531	int j, i;
532	libtrace_message_queue_destroy(&(receiver->mqueue));
533
534	if (receiver->sources == NULL)
535	return;
536	for (i = 0; i < receiver->sourcecount; i++) {
537	streamsock_t src = receiver->sources[i];
538	if (src.saved) {
539	for (j = 0; j < ENCAP_BUFFERS; j++) {
540	if (src.saved[j]) {
541	free(src.saved[j]);
542	}
543	}
544	free(src.saved);
545	}
546
547	#if HAVE_DECL_RECVMMSG
548	for (j = 0; j < RECV_BATCH_SIZE; j++) {
549	if (src.mmsgbufs[j].msg_hdr.msg_iov) {
550	free(src.mmsgbufs[j].msg_hdr.msg_iov);
551	}
552	}
553	#else
554	free(src.singlemsg.msg_iov);
555	#endif
556
557	if (src.sock != -1) {
558	close(src.sock);
559	}
560	}
561	if (receiver->knownmonitors) {
562	free(receiver->knownmonitors);
563	}
564
565	if (receiver->sources) {
566	free(receiver->sources);
567	}
568	}
569
570	static int ndag_pause_input(libtrace_t *libtrace) {
571	int i;
572
573	/* Close the existing receiver sockets */
574	for (i = 0; i < libtrace->perpkt_thread_count; i++) {
575	halt_ndag_receiver(&(FORMAT_DATA->receivers[i]));
576	}
577	return 0;
578	}
579
580	static int ndag_fin_input(libtrace_t *libtrace) {
581
582	if (FORMAT_DATA->receivers) {
583	free(FORMAT_DATA->receivers);
584	}
585	if (FORMAT_DATA->multicastgroup) {
586	free(FORMAT_DATA->multicastgroup);
587	}
588	if (FORMAT_DATA->portstr) {
589	free(FORMAT_DATA->portstr);
590	}
591	if (FORMAT_DATA->localiface) {
592	free(FORMAT_DATA->localiface);
593	}
594
595	free(libtrace->format_data);
596	return 0;
597	}
598
599	static int ndag_prepare_packet_stream(libtrace_t *libtrace,
600	recvstream_t *rt,
601	streamsock_t ssock, libtrace_packet_t packet,
602	uint32_t flags) {
603
604	dag_record_t *erfptr;
605	ndag_encap_t *encaphdr;
606	uint16_t ndag_reccount = 0;
607	int nr;
608	uint16_t rlen;
609
610	if ((flags & TRACE_PREP_OWN_BUFFER) == TRACE_PREP_OWN_BUFFER) {
611	packet->buf_control = TRACE_CTRL_PACKET;
612	} else {
613	packet->buf_control = TRACE_CTRL_EXTERNAL;
614	}
615
616	packet->trace = libtrace;
617	packet->buffer = ssock->nextread;
618	packet->header = ssock->nextread;
619	packet->type = TRACE_RT_DATA_ERF;
620
621	erfptr = (dag_record_t *)packet->header;
622
623	if (erfptr->flags.rxerror == 1) {
624	packet->payload = NULL;
625	erfptr->rlen = htons(erf_get_framing_length(packet));
626	} else {
627	packet->payload = (char *)packet->buffer +
628	erf_get_framing_length(packet);
629	}
630
631	/* Update upstream drops using lctr */
632
633	if (erfptr->type == TYPE_DSM_COLOR_ETH) {
634	/* TODO */
635	} else {
636	if (rt->received_packets > 0) {
637	rt->dropped_upstream += ntohs(erfptr->lctr);
638	}
639	}
640
641	rt->received_packets ++;
642	ssock->recordcount += 1;
643
644	nr = ssock->nextreadind;
645	encaphdr = (ndag_encap_t *)(ssock->saved[nr] +
646	sizeof(ndag_common_t));
647
648	ndag_reccount = ntohs(encaphdr->recordcount);
649	if ((ndag_reccount & 0x8000) != 0) {
650	/* Record was truncated -- update rlen appropriately */
651	rlen = ssock->savedsize[nr] -
652	(ssock->nextread - ssock->saved[nr]);
653	erfptr->rlen = htons(rlen);
654	} else {
655	rlen = ntohs(erfptr->rlen);
656	}
657	ssock->nextread += rlen;
658	ssock->nextts = 0;
659
660	if (ssock->nextread - ssock->saved[nr] > ssock->savedsize[nr]) {
661	trace_set_err(libtrace, TRACE_ERR_INIT_FAILED, "Walked past the end of the "
662	"nDAG receive buffer, probably due to a invalid rlen, in ndag_prepare_packet_stream()");
663	return -1;
664	}
665
666	if (ssock->nextread - ssock->saved[nr] >= ssock->savedsize[nr]) {
667	/* Read everything from this buffer, mark as empty and
668	* move on. */
669	ssock->savedsize[nr] = 0;
670	ssock->bufwaiting ++;
671
672	nr ++;
673	if (nr == ENCAP_BUFFERS) {
674	nr = 0;
675	}
676	ssock->nextread = ssock->saved[nr] + sizeof(ndag_common_t) +
677	sizeof(ndag_encap_t);
678	ssock->nextreadind = nr;
679	}
680
681	packet->order = erf_get_erf_timestamp(packet);
682	packet->error = rlen;
683	return rlen;
684	}
685
686	static int ndag_prepare_packet(libtrace_t *libtrace UNUSED,
687	libtrace_packet_t *packet UNUSED,
688	void *buffer UNUSED, libtrace_rt_types_t rt_type UNUSED,
689	uint32_t flags UNUSED) {
690
691	fprintf(stderr, "Sending nDAG records over RT doesn't make sense! Please stop\n");
692	return 0;
693
694	}
695
696	static ndag_monitor_t add_new_knownmonitor(recvstream_t rt, uint16_t monid) {
697
698	ndag_monitor_t *mon;
699
700	if (rt->monitorcount == 0) {
701	rt->knownmonitors = (ndag_monitor_t *)
702	malloc(sizeof(ndag_monitor_t) * 5);
703	} else {
704	rt->knownmonitors = (ndag_monitor_t *)
705	realloc(rt->knownmonitors,
706	sizeof(ndag_monitor_t) * (rt->monitorcount * 5));
707	}
708
709	mon = &(rt->knownmonitors[rt->monitorcount]);
710	mon->monitorid = monid;
711	mon->laststart = 0;
712
713	rt->monitorcount ++;
714	return mon;
715	}
716
717	static int add_new_streamsock(recvstream_t *rt, streamsource_t src) {
718
719	streamsock_t *ssock = NULL;
720	ndag_monitor_t *mon = NULL;
721	int i;
722
723	/* TODO consider replacing this with a list or vector so we can
724	* easily remove sources that are no longer in use, rather than
725	* just setting the sock to -1 and having to check them every
726	* time we want to read a packet.
727	*/
728	if (rt->sourcecount == 0) {
729	rt->sources = (streamsock_t )malloc(sizeof(streamsock_t) 10);
730	} else if ((rt->sourcecount % 10) == 0) {
731	rt->sources = (streamsock_t *)realloc(rt->sources,
732	sizeof(streamsock_t) * (rt->sourcecount + 10));
733	}
734
735	ssock = &(rt->sources[rt->sourcecount]);
736
737	for (i = 0; i < rt->monitorcount; i++) {
738	if (rt->knownmonitors[i].monitorid == src.monitor) {
739	mon = &(rt->knownmonitors[i]);
740	break;
741	}
742	}
743
744	if (mon == NULL) {
745	mon = add_new_knownmonitor(rt, src.monitor);
746	}
747
748	ssock->port = src.port;
749	ssock->groupaddr = src.groupaddr;
750	ssock->expectedseq = 0;
751	ssock->monitorptr = mon;
752	ssock->saved = (char *)malloc(sizeof(char ) * ENCAP_BUFFERS);
753	ssock->bufavail = ENCAP_BUFFERS;
754	ssock->bufwaiting = 0;
755	ssock->startidle = 0;
756	ssock->nextts = 0;
757
758	for (i = 0; i < ENCAP_BUFFERS; i++) {
759	ssock->saved[i] = (char *)malloc(ENCAP_BUFSIZE);
760	ssock->savedsize[i] = 0;
761	}
762
763	ssock->sock = join_multicast_group(src.groupaddr, src.localiface,
764	NULL, src.port, &(ssock->srcaddr));
765
766	if (ssock->sock < 0) {
767	return -1;
768	}
769
770	if (ssock->sock > rt->maxfd) {
771	rt->maxfd = ssock->sock;
772	}
773
774	#if HAVE_DECL_RECVMMSG
775	for (i = 0; i < RECV_BATCH_SIZE; i++) {
776	ssock->mmsgbufs[i].msg_hdr.msg_iov = (struct iovec *)
777	malloc(sizeof(struct iovec));
778	ssock->mmsgbufs[i].msg_hdr.msg_name = ssock->srcaddr->ai_addr;
779	ssock->mmsgbufs[i].msg_hdr.msg_namelen = ssock->srcaddr->ai_addrlen;
780	ssock->mmsgbufs[i].msg_hdr.msg_control = NULL;
781	ssock->mmsgbufs[i].msg_hdr.msg_controllen = 0;
782	ssock->mmsgbufs[i].msg_hdr.msg_flags = 0;
783	ssock->mmsgbufs[i].msg_len = 0;
784	}
785	#else
786	ssock->singlemsg.msg_iov = (struct iovec *) calloc(1, sizeof(struct iovec));
787	#endif
788
789	ssock->nextread = NULL;;
790	ssock->nextreadind = 0;
791	ssock->nextwriteind = 0;
792	ssock->recordcount = 0;
793	rt->sourcecount += 1;
794
795	fprintf(stderr, "Added new stream %s:%u to thread %d\n",
796	ssock->groupaddr, ssock->port, rt->threadindex);
797
798	return ssock->port;
799	}
800
801	static int receiver_read_messages(recvstream_t *rt) {
802
803	ndag_internal_message_t msg;
804
805	while (libtrace_message_queue_try_get(&(rt->mqueue),
806	(void *)&msg) != LIBTRACE_MQ_FAILED) {
807	switch(msg.type) {
808	case NDAG_CLIENT_NEWGROUP:
809	if (add_new_streamsock(rt, msg.contents) < 0) {
810	return -1;
811	}
812	break;
813	case NDAG_CLIENT_HALT:
814	return 0;
815	}
816	}
817	return 1;
818
819	}
820
821	static inline int readable_data(streamsock_t *ssock) {
822
823	if (ssock->sock == -1) {
824	return 0;
825	}
826	if (ssock->savedsize[ssock->nextreadind] == 0) {
827	return 0;
828	}
829	/*
830	if (ssock->nextread - ssock->saved[ssock->nextreadind] >=
831	ssock->savedsize[ssock->nextreadind]) {
832	return 0;
833	}
834	*/
835	return 1;
836
837
838	}
839
840	static inline void reset_expected_seqs(recvstream_t rt, ndag_monitor_t mon) {
841
842	int i;
843	for (i = 0; i < rt->sourcecount; i++) {
844	if (rt->sources[i].monitorptr == mon) {
845	rt->sources[i].expectedseq = 0;
846	}
847	}
848
849	}
850
851	static int init_receivers(streamsock_t *ssock, int required) {
852
853	int wind = ssock->nextwriteind;
854	int i = 1;
855
856	#if HAVE_DECL_RECVMMSG
857	for (i = 0; i < required; i++) {
858	if (i >= RECV_BATCH_SIZE) {
859	break;
860	}
861
862	if (wind >= ENCAP_BUFFERS) {
863	wind = 0;
864	}
865
866	ssock->mmsgbufs[i].msg_len = 0;
867	ssock->mmsgbufs[i].msg_hdr.msg_iov->iov_base = ssock->saved[wind];
868	ssock->mmsgbufs[i].msg_hdr.msg_iov->iov_len = ENCAP_BUFSIZE;
869	ssock->mmsgbufs[i].msg_hdr.msg_iovlen = 1;
870
871	wind ++;
872	}
873	#else
874	if (required <= 0) {
875	fprintf(stderr, "You are required to have atleast 1 receiver in init_receivers\n");
876	return TRACE_ERR_INIT_FAILED;
877	}
878	ssock->singlemsg.msg_iov->iov_base = ssock->saved[wind];
879	ssock->singlemsg.msg_iov->iov_len = ENCAP_BUFSIZE;
880	ssock->singlemsg.msg_iovlen = 1;
881	#endif
882	return i;
883	}
884
885	static int check_ndag_received(streamsock_t *ssock, int index,
886	unsigned int msglen, recvstream_t *rt) {
887
888	ndag_encap_t *encaphdr;
889	ndag_monitor_t *mon;
890	uint8_t rectype;
891
892	/* Check that we have a valid nDAG encap record */
893	rectype = check_ndag_header(ssock->saved[index], (uint32_t)msglen);
894
895	if (rectype == NDAG_PKT_KEEPALIVE) {
896	/* Keep-alive, reset startidle and carry on. Don't
897	* change nextwrite -- we want to overwrite the
898	* keep-alive with usable content. */
899	return 0;
900	} else if (rectype != NDAG_PKT_ENCAPERF) {
901	fprintf(stderr, "Received invalid record on the channel for %s:%u.\n",
902	ssock->groupaddr, ssock->port);
903	close(ssock->sock);
904	ssock->sock = -1;
905	return -1;
906	}
907
908	ssock->savedsize[index] = msglen;
909	ssock->nextwriteind ++;
910	ssock->bufavail --;
911
912	if (ssock->bufavail < 0) {
913	fprintf(stderr, "No space in buffer in check_ndag_received()\n");
914	return -1;
915	}
916	if (ssock->nextwriteind >= ENCAP_BUFFERS) {
917	ssock->nextwriteind = 0;
918	}
919
920	/* Get the useful info from the encap header */
921	encaphdr=(ndag_encap_t *)(ssock->saved[index] + sizeof(ndag_common_t));
922
923	mon = ssock->monitorptr;
924
925	if (mon->laststart == 0) {
926	mon->laststart = bswap_be_to_host64(encaphdr->started);
927	} else if (mon->laststart != bswap_be_to_host64(encaphdr->started)) {
928	mon->laststart = bswap_be_to_host64(encaphdr->started);
929	reset_expected_seqs(rt, mon);
930
931	/* TODO what is a good way to indicate this to clients?
932	* set the loss counter in the ERF header? a bit rude?
933	* use another bit in the ERF header?
934	* add a queryable flag to libtrace_packet_t?
935	*/
936
937	}
938
939	if (ssock->expectedseq != 0) {
940	rt->missing_records += seq_cmp(
941	ntohl(encaphdr->seqno), ssock->expectedseq);
942
943	}
944	ssock->expectedseq = ntohl(encaphdr->seqno) + 1;
945	if (ssock->expectedseq == 0) {
946	ssock->expectedseq ++;
947	}
948
949	if (ssock->nextread == NULL) {
950	/* If this is our first read, set up 'nextread'
951	* by skipping past the nDAG headers */
952	ssock->nextread = ssock->saved[0] +
953	sizeof(ndag_common_t) + sizeof(ndag_encap_t);
954	}
955	return 1;
956
957	}
958
959	static int receive_from_single_socket(streamsock_t ssock, struct timeval tv,
960	int gottime, recvstream_t rt) {
961
962	int ret, ndagstat, avail;
963	int toret = 0;
964
965	#if HAVE_DECL_RECVMMSG
966	int i;
967	#endif
968
969	avail = init_receivers(ssock, ssock->bufavail);
970
971	#if HAVE_DECL_RECVMMSG
972	ret = recvmmsg(ssock->sock, ssock->mmsgbufs, avail,
973	MSG_DONTWAIT, NULL);
974	#else
975	if (avail != 1) {
976	return 0;
977	}
978
979	ret = recvmsg(ssock->sock, &(ssock->singlemsg), MSG_DONTWAIT);
980	#endif
981	if (ret < 0) {
982	/* Nothing to receive right now, but we should still
983	* count as 'ready' if at least one buffer is full */
984	if (errno == EAGAIN \|\| errno == EWOULDBLOCK) {
985	if (readable_data(ssock)) {
986	toret = 1;
987	}
988	if (!(*gottime)) {
989	gettimeofday(tv, NULL);
990	*gottime = 1;
991	}
992	if (ssock->startidle == 0) {
993	ssock->startidle = tv->tv_sec;
994	} else if (tv->tv_sec - ssock->startidle > NDAG_IDLE_TIMEOUT) {
995	fprintf(stderr,
996	"Closing channel %s:%u due to inactivity.\n",
997	ssock->groupaddr,
998	ssock->port);
999
1000	close(ssock->sock);
1001	ssock->sock = -1;
1002	}
1003	} else {
1004
1005	fprintf(stderr,
1006	"Error receiving encapsulated records from %s:%u -- %s \n",
1007	ssock->groupaddr, ssock->port,
1008	strerror(errno));
1009	close(ssock->sock);
1010	ssock->sock = -1;
1011	}
1012	return toret;
1013	}
1014
1015	ssock->startidle = 0;
1016
1017	#if HAVE_DECL_RECVMMSG
1018	for (i = 0; i < ret; i++) {
1019	ndagstat = check_ndag_received(ssock, ssock->nextwriteind,
1020	ssock->mmsgbufs[i].msg_len, rt);
1021	if (ndagstat == -1) {
1022	break;
1023	}
1024
1025	if (ndagstat == 1) {
1026	toret = 1;
1027	}
1028	}
1029	#else
1030	ndagstat = check_ndag_received(ssock, ssock->nextwriteind, ret, rt);
1031	if (ndagstat <= 0) {
1032	toret = 0;
1033	} else {
1034	toret = 1;
1035	}
1036	#endif
1037
1038	return toret;
1039	}
1040
1041	static int receive_from_sockets(recvstream_t *rt) {
1042
1043	int i, readybufs, gottime;
1044	struct timeval tv;
1045	fd_set fds;
1046	int maxfd = 0;
1047	struct timeval zerotv;
1048
1049	readybufs = 0;
1050	gottime = 0;
1051
1052	if (rt->maxfd == -1) {
1053	return 0;
1054	}
1055
1056	for (i = 0; i < rt->sourcecount; i++) {
1057	if (rt->sources[i].sock == -1) {
1058	continue;
1059	}
1060
1061	#if HAVE_DECL_RECVMMSG
1062	/* Plenty of full buffers, just use the packets in those */
1063	if (rt->sources[i].bufavail < RECV_BATCH_SIZE / 2) {
1064	readybufs ++;
1065	continue;
1066	}
1067	#else
1068	if (rt->sources[i].bufavail == 0) {
1069	readybufs ++;
1070	continue;
1071	}
1072	#endif
1073	if (maxfd == 0) {
1074	FD_ZERO(&fds);
1075	}
1076	FD_SET(rt->sources[i].sock, &fds);
1077	if (maxfd < rt->sources[i].sock) {
1078	maxfd = rt->sources[i].sock;
1079	}
1080	}
1081
1082
1083	if (maxfd <= 0) {
1084	return readybufs;
1085	}
1086
1087	zerotv.tv_sec = 0;
1088	zerotv.tv_usec = 0;
1089	if (select(maxfd + 1, &fds, NULL, NULL, &zerotv) == -1) {
1090	/* log the error? XXX */
1091	return -1;
1092	}
1093
1094	for (i = 0; i < rt->sourcecount; i++) {
1095	if (!FD_ISSET(rt->sources[i].sock, &fds)) {
1096	if (rt->sources[i].bufavail < ENCAP_BUFFERS) {
1097	readybufs ++;
1098	}
1099	continue;
1100	}
1101	readybufs += receive_from_single_socket(&(rt->sources[i]),
1102	&tv, &gottime, rt);
1103	}
1104
1105	return readybufs;
1106
1107	}
1108
1109
1110	static int receive_encap_records_block(libtrace_t libtrace, recvstream_t rt,
1111	libtrace_packet_t *packet) {
1112
1113	int iserr = 0;
1114
1115	if (packet->buf_control == TRACE_CTRL_PACKET) {
1116	free(packet->buffer);
1117	packet->buffer = NULL;
1118	}
1119
1120	do {
1121	/* Make sure we shouldn't be halting */
1122	if ((iserr = is_halted(libtrace)) != -1) {
1123	return iserr;
1124	}
1125
1126	/* Check for any messages from the control thread */
1127	iserr = receiver_read_messages(rt);
1128
1129	if (iserr <= 0) {
1130	return iserr;
1131	}
1132
1133	/* If blocking and no sources, sleep for a bit and then try
1134	* checking for messages again.
1135	*/
1136	if (rt->sourcecount == 0) {
1137	usleep(10000);
1138	continue;
1139	}
1140
1141	if ((iserr = receive_from_sockets(rt)) < 0) {
1142	return iserr;
1143	} else if (iserr > 0) {
1144	/* At least one of our input sockets has available
1145	* data, let's go ahead and use what we have. */
1146	break;
1147	}
1148
1149	/* None of our sources have anything available, we can take
1150	* a short break rather than immediately trying again.
1151	*/
1152	if (iserr == 0) {
1153	usleep(100);
1154	}
1155
1156	} while (1);
1157
1158	return iserr;
1159	}
1160
1161	static int receive_encap_records_nonblock(libtrace_t libtrace, recvstream_t rt,
1162	libtrace_packet_t *packet) {
1163
1164	int iserr = 0;
1165
1166	if (packet->buf_control == TRACE_CTRL_PACKET) {
1167	free(packet->buffer);
1168	packet->buffer = NULL;
1169	}
1170
1171	/* Make sure we shouldn't be halting */
1172	if ((iserr = is_halted(libtrace)) != -1) {
1173	return iserr;
1174	}
1175
1176	/* If non-blocking and there are no sources, just break */
1177	if (rt->sourcecount == 0) {
1178	return 0;
1179	}
1180
1181	return receive_from_sockets(rt);
1182	}
1183
1184	static streamsock_t select_next_packet(recvstream_t rt) {
1185	int i;
1186	streamsock_t *ssock = NULL;
1187	uint64_t earliest = 0;
1188	uint64_t currentts = 0;
1189	dag_record_t *daghdr;
1190
1191	/* If we only have one source, then no need to do any
1192	* timestamp parsing or byteswapping.
1193	*/
1194	if (rt->sourcecount == 1) {
1195	if (readable_data(&(rt->sources[0]))) {
1196	return &(rt->sources[0]);
1197	}
1198	return NULL;
1199	}
1200
1201
1202	for (i = 0; i < rt->sourcecount; i ++) {
1203	if (!readable_data(&(rt->sources[i]))) {
1204	continue;
1205	}
1206
1207	if (rt->sources[i].nextts == 0) {
1208	daghdr = (dag_record_t *)(rt->sources[i].nextread);
1209	currentts = bswap_le_to_host64(daghdr->ts);
1210	rt->sources[i].nextts = currentts;
1211	} else {
1212	currentts = rt->sources[i].nextts;
1213	}
1214
1215	if (earliest == 0 \|\| earliest > currentts) {
1216	earliest = currentts;
1217	ssock = &(rt->sources[i]);
1218	}
1219	}
1220	return ssock;
1221	}
1222
1223	static int ndag_read_packet(libtrace_t libtrace, libtrace_packet_t packet) {
1224
1225	int rem, ret;
1226	streamsock_t *nextavail = NULL;
1227	rem = receive_encap_records_block(libtrace, &(FORMAT_DATA->receivers[0]),
1228	packet);
1229
1230	if (rem <= 0) {
1231	return rem;
1232	}
1233
1234	nextavail = select_next_packet(&(FORMAT_DATA->receivers[0]));
1235	if (nextavail == NULL) {
1236	return 0;
1237	}
1238
1239	/* nextread should point at an ERF header, so prepare 'packet' to be
1240	* a libtrace ERF packet. */
1241
1242	ret = ndag_prepare_packet_stream(libtrace,
1243	&(FORMAT_DATA->receivers[0]), nextavail,
1244	packet, TRACE_PREP_DO_NOT_OWN_BUFFER);
1245	nextavail->bufavail += nextavail->bufwaiting;
1246	nextavail->bufwaiting = 0;
1247	return ret;
1248	}
1249
1250	static int ndag_pread_packets(libtrace_t libtrace, libtrace_thread_t t,
1251	libtrace_packet_t **packets, size_t nb_packets) {
1252
1253	recvstream_t *rt;
1254	int rem, i;
1255	size_t read_packets = 0;
1256	streamsock_t *nextavail = NULL;
1257
1258	rt = (recvstream_t *)t->format_data;
1259
1260	do {
1261	/* Only check for messages once per batch */
1262	if (read_packets == 0) {
1263	rem = receive_encap_records_block(libtrace, rt,
1264	packets[read_packets]);
1265	if (rem < 0) {
1266	return rem;
1267	}
1268
1269	if (rem == 0) {
1270	break;
1271	}
1272	}
1273
1274	nextavail = select_next_packet(rt);
1275	if (nextavail == NULL) {
1276	break;
1277	}
1278
1279	ndag_prepare_packet_stream(libtrace, rt, nextavail,
1280	packets[read_packets],
1281	TRACE_PREP_DO_NOT_OWN_BUFFER);
1282
1283	read_packets ++;
1284	if (read_packets >= nb_packets) {
1285	break;
1286	}
1287	} while (1);
1288
1289	for (i = 0; i < rt->sourcecount; i++) {
1290	streamsock_t *src = &(rt->sources[i]);
1291	src->bufavail += src->bufwaiting;
1292	src->bufwaiting = 0;
1293	if (src->bufavail < 0 \|\| src->bufavail > ENCAP_BUFFERS) {
1294	trace_set_err(libtrace, TRACE_ERR_BAD_IO, "Not enough buffer space in ndag_pread_packets()");
1295	return -1;
1296	}
1297	}
1298
1299	return read_packets;
1300
1301	}
1302
1303	static libtrace_eventobj_t trace_event_ndag(libtrace_t *libtrace,
1304	libtrace_packet_t *packet) {
1305
1306
1307	libtrace_eventobj_t event = {0,0,0.0,0};
1308	int rem, i;
1309	streamsock_t *nextavail = NULL;
1310
1311	/* Only check for messages once per call */
1312	rem = receiver_read_messages(&(FORMAT_DATA->receivers[0]));
1313	if (rem <= 0) {
1314	event.type = TRACE_EVENT_TERMINATE;
1315	return event;
1316	}
1317
1318	do {
1319	rem = receive_encap_records_nonblock(libtrace,
1320	&(FORMAT_DATA->receivers[0]), packet);
1321
1322	if (rem < 0) {
1323	trace_set_err(libtrace, TRACE_ERR_BAD_PACKET,
1324	"Received invalid nDAG records.");
1325	event.type = TRACE_EVENT_TERMINATE;
1326	break;
1327	}
1328
1329	if (rem == 0) {
1330	/* Either we've been halted or we've got no packets
1331	* right now. */
1332	if (is_halted(libtrace) == 0) {
1333	event.type = TRACE_EVENT_TERMINATE;
1334	break;
1335	}
1336	event.type = TRACE_EVENT_SLEEP;
1337	event.seconds = 0.0001;
1338	break;
1339	}
1340
1341	nextavail = select_next_packet(&(FORMAT_DATA->receivers[0]));
1342	if (nextavail == NULL) {
1343	event.type = TRACE_EVENT_SLEEP;
1344	event.seconds = 0.0001;
1345	break;
1346	}
1347
1348	event.type = TRACE_EVENT_PACKET;
1349	ndag_prepare_packet_stream(libtrace,
1350	&(FORMAT_DATA->receivers[0]), nextavail,
1351	packet, TRACE_PREP_DO_NOT_OWN_BUFFER);
1352	event.size = trace_get_capture_length(packet) +
1353	trace_get_framing_length(packet);
1354
1355	if (libtrace->filter) {
1356	int filtret = trace_apply_filter(libtrace->filter,
1357	packet);
1358	if (filtret == -1) {
1359	trace_set_err(libtrace,
1360	TRACE_ERR_BAD_FILTER,
1361	"Bad BPF Filter");
1362	event.type = TRACE_EVENT_TERMINATE;
1363	break;
1364	}
1365
1366	if (filtret == 0) {
1367	/* Didn't match filter, try next one */
1368	libtrace->filtered_packets ++;
1369	trace_clear_cache(packet);
1370	continue;
1371	}
1372	}
1373
1374	if (libtrace->snaplen > 0) {
1375	trace_set_capture_length(packet, libtrace->snaplen);
1376	}
1377	libtrace->accepted_packets ++;
1378	break;
1379	} while (1);
1380
1381	for (i = 0; i < FORMAT_DATA->receivers[0].sourcecount; i++) {
1382	streamsock_t *src = &(FORMAT_DATA->receivers[0].sources[i]);
1383	src->bufavail += src->bufwaiting;
1384	src->bufwaiting = 0;
1385	if (src->bufavail < 0 \|\| src->bufavail > ENCAP_BUFFERS) {
1386	trace_set_err(libtrace, TRACE_ERR_BAD_IO, "Not enough buffer space in trace_event_ndag()");
1387	break;
1388	}
1389	}
1390
1391	return event;
1392	}
1393
1394	static void ndag_get_statistics(libtrace_t libtrace, libtrace_stat_t stat) {
1395
1396	int i;
1397
1398	stat->dropped_valid = 1;
1399	stat->dropped = 0;
1400	stat->received_valid = 1;
1401	stat->received = 0;
1402	stat->missing_valid = 1;
1403	stat->missing = 0;
1404
1405	/* TODO Is this thread safe? */
1406	for (i = 0; i < libtrace->perpkt_thread_count; i++) {
1407	stat->dropped += FORMAT_DATA->receivers[i].dropped_upstream;
1408	stat->received += FORMAT_DATA->receivers[i].received_packets;
1409	stat->missing += FORMAT_DATA->receivers[i].missing_records;
1410	}
1411
1412	}
1413
1414	static void ndag_get_thread_stats(libtrace_t libtrace, libtrace_thread_t t,
1415	libtrace_stat_t *stat) {
1416
1417	recvstream_t recvr = (recvstream_t )t->format_data;
1418
1419	if (libtrace == NULL)
1420	return;
1421	/* TODO Is this thread safe */
1422	stat->dropped_valid = 1;
1423	stat->dropped = recvr->dropped_upstream;
1424
1425	stat->received_valid = 1;
1426	stat->received = recvr->received_packets;
1427
1428	stat->missing_valid = 1;
1429	stat->missing = recvr->missing_records;
1430
1431	}
1432
1433	static int ndag_pregister_thread(libtrace_t libtrace, libtrace_thread_t t,
1434	bool reader) {
1435	recvstream_t *recvr;
1436
1437	if (!reader \|\| t->type != THREAD_PERPKT) {
1438	return 0;
1439	}
1440
1441	recvr = &(FORMAT_DATA->receivers[t->perpkt_num]);
1442	t->format_data = recvr;
1443
1444	return 0;
1445	}
1446
1447	static struct libtrace_format_t ndag = {
1448
1449	"ndag",
1450	"",
1451	TRACE_FORMAT_NDAG,
1452	NULL, /* probe filename */
1453	NULL, /* probe magic */
1454	ndag_init_input, /* init_input */
1455	NULL, /* config_input */
1456	ndag_start_input, /* start_input */
1457	ndag_pause_input, /* pause_input */
1458	NULL, /* init_output */
1459	NULL, /* config_output */
1460	NULL, /* start_output */
1461	ndag_fin_input, /* fin_input */
1462	NULL, /* fin_output */
1463	ndag_read_packet, /* read_packet */
1464	ndag_prepare_packet, /* prepare_packet */
1465	NULL, /* fin_packet */
1466	NULL, /* write_packet */
1467	NULL, /* flush_output */
1468	erf_get_link_type, /* get_link_type */
1469	erf_get_direction, /* get_direction */
1470	erf_set_direction, /* set_direction */
1471	erf_get_erf_timestamp, /* get_erf_timestamp */
1472	NULL, /* get_timeval */
1473	NULL, /* get_seconds */
1474	NULL, /* get_timespec */
1475	NULL, /* seek_erf */
1476	NULL, /* seek_timeval */
1477	NULL, /* seek_seconds */
1478	erf_get_capture_length, /* get_capture_length */
1479	erf_get_wire_length, /* get_wire_length */
1480	erf_get_framing_length, /* get_framing_length */
1481	erf_set_capture_length, /* set_capture_length */
1482	NULL, /* get_received_packets */
1483	NULL, /* get_filtered_packets */
1484	NULL, /* get_dropped_packets */
1485	ndag_get_statistics, /* get_statistics */
1486	NULL, /* get_fd */
1487	trace_event_ndag, /* trace_event */
1488	NULL, /* help */
1489	NULL, /* next pointer */
1490	{true, 0}, /* live packet capture */
1491	ndag_pstart_input, /* parallel start */
1492	ndag_pread_packets, /* parallel read */
1493	ndag_pause_input, /* parallel pause */
1494	NULL,
1495	ndag_pregister_thread, /* register thread */
1496	NULL,
1497	ndag_get_thread_stats /* per-thread stats */
1498	};
1499
1500	void ndag_constructor(void) {
1501	register_format(&ndag);
1502	}

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source: lib/format_ndag.c @ c2fe7b6

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