xref: /freebsd/tools/tools/mwl/mwlstats/mwlstats.c (revision 05c3c3717ada38bb4bc52e8ef4f782ce74f415f7)
105c3c371SSam Leffler /*-
205c3c371SSam Leffler  * Copyright (c) 2007 Sam Leffler, Errno Consulting
305c3c371SSam Leffler  * All rights reserved.
405c3c371SSam Leffler  *
505c3c371SSam Leffler  * Redistribution and use in source and binary forms, with or without
605c3c371SSam Leffler  * modification, are permitted provided that the following conditions
705c3c371SSam Leffler  * are met:
805c3c371SSam Leffler  * 1. Redistributions of source code must retain the above copyright
905c3c371SSam Leffler  *    notice, this list of conditions and the following disclaimer,
1005c3c371SSam Leffler  *    without modification.
1105c3c371SSam Leffler  * 2. Redistributions in binary form must reproduce at minimum a disclaimer
1205c3c371SSam Leffler  *    similar to the "NO WARRANTY" disclaimer below ("Disclaimer") and any
1305c3c371SSam Leffler  *    redistribution must be conditioned upon including a substantially
1405c3c371SSam Leffler  *    similar Disclaimer requirement for further binary redistribution.
1505c3c371SSam Leffler  *
1605c3c371SSam Leffler  * NO WARRANTY
1705c3c371SSam Leffler  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
1805c3c371SSam Leffler  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
1905c3c371SSam Leffler  * LIMITED TO, THE IMPLIED WARRANTIES OF NONINFRINGEMENT, MERCHANTIBILITY
2005c3c371SSam Leffler  * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
2105c3c371SSam Leffler  * THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY,
2205c3c371SSam Leffler  * OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
2305c3c371SSam Leffler  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
2405c3c371SSam Leffler  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER
2505c3c371SSam Leffler  * IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
2605c3c371SSam Leffler  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
2705c3c371SSam Leffler  * THE POSSIBILITY OF SUCH DAMAGES.
2805c3c371SSam Leffler  *
2905c3c371SSam Leffler  * $FreeBSD$
3005c3c371SSam Leffler  */
3105c3c371SSam Leffler 
3205c3c371SSam Leffler /*
3305c3c371SSam Leffler  * mwl statistics class.
3405c3c371SSam Leffler  */
3505c3c371SSam Leffler #include <sys/types.h>
3605c3c371SSam Leffler #include <sys/file.h>
3705c3c371SSam Leffler #include <sys/sockio.h>
3805c3c371SSam Leffler #include <sys/socket.h>
3905c3c371SSam Leffler #include <sys/ioctl.h>
4005c3c371SSam Leffler #include <net/if.h>
4105c3c371SSam Leffler #include <net/if_media.h>
4205c3c371SSam Leffler 
4305c3c371SSam Leffler #include <stdlib.h>
4405c3c371SSam Leffler #include <stdio.h>
4505c3c371SSam Leffler #include <signal.h>
4605c3c371SSam Leffler #include <string.h>
4705c3c371SSam Leffler #include <unistd.h>
4805c3c371SSam Leffler #include <err.h>
4905c3c371SSam Leffler 
5005c3c371SSam Leffler #include "../../sys/net80211/ieee80211_ioctl.h"
5105c3c371SSam Leffler #include "../../sys/net80211/ieee80211_radiotap.h"
5205c3c371SSam Leffler 
5305c3c371SSam Leffler /*
5405c3c371SSam Leffler  * Get Hardware Statistics.
5505c3c371SSam Leffler  */
5605c3c371SSam Leffler struct mwl_hal_hwstats {
5705c3c371SSam Leffler 	uint32_t	TxRetrySuccesses;
5805c3c371SSam Leffler 	uint32_t	TxMultipleRetrySuccesses;
5905c3c371SSam Leffler 	uint32_t	TxFailures;
6005c3c371SSam Leffler 	uint32_t	RTSSuccesses;
6105c3c371SSam Leffler 	uint32_t	RTSFailures;
6205c3c371SSam Leffler 	uint32_t	AckFailures;
6305c3c371SSam Leffler 	uint32_t	RxDuplicateFrames;
6405c3c371SSam Leffler 	uint32_t	FCSErrorCount;
6505c3c371SSam Leffler 	uint32_t	TxWatchDogTimeouts;
6605c3c371SSam Leffler 	uint32_t	RxOverflows;
6705c3c371SSam Leffler 	uint32_t	RxFragErrors;
6805c3c371SSam Leffler 	uint32_t	RxMemErrors;
6905c3c371SSam Leffler 	uint32_t	PointerErrors;
7005c3c371SSam Leffler 	uint32_t	TxUnderflows;
7105c3c371SSam Leffler 	uint32_t	TxDone;
7205c3c371SSam Leffler 	uint32_t	TxDoneBufTryPut;
7305c3c371SSam Leffler 	uint32_t	TxDoneBufPut;
7405c3c371SSam Leffler 	uint32_t	Wait4TxBuf;
7505c3c371SSam Leffler 	uint32_t	TxAttempts;
7605c3c371SSam Leffler 	uint32_t	TxSuccesses;
7705c3c371SSam Leffler 	uint32_t	TxFragments;
7805c3c371SSam Leffler 	uint32_t	TxMulticasts;
7905c3c371SSam Leffler 	uint32_t	RxNonCtlPkts;
8005c3c371SSam Leffler 	uint32_t	RxMulticasts;
8105c3c371SSam Leffler 	uint32_t	RxUndecryptableFrames;
8205c3c371SSam Leffler 	uint32_t 	RxICVErrors;
8305c3c371SSam Leffler 	uint32_t	RxExcludedFrames;
8405c3c371SSam Leffler };
8505c3c371SSam Leffler #include "../../../../sys/dev/mwl/if_mwlioctl.h"
8605c3c371SSam Leffler 
8705c3c371SSam Leffler #include "mwlstats.h"
8805c3c371SSam Leffler 
8905c3c371SSam Leffler #define	AFTER(prev)	((prev)+1)
9005c3c371SSam Leffler 
9105c3c371SSam Leffler static const struct fmt mwlstats[] = {
9205c3c371SSam Leffler #define	S_INPUT		0
9305c3c371SSam Leffler 	{ 8,	"input",	"input",	"total frames received" },
9405c3c371SSam Leffler #define	S_RX_MCAST	AFTER(S_INPUT)
9505c3c371SSam Leffler 	{ 7,	"rxmcast",	"rxmcast",	"rx multicast frames" },
9605c3c371SSam Leffler #define	S_RX_NONCTL	AFTER(S_RX_MCAST)
9705c3c371SSam Leffler 	{ 8,	"rxnonctl",	"rxnonctl"	"rx non control frames" },
9805c3c371SSam Leffler #define	S_RX_MGT	AFTER(S_RX_NONCTL)
9905c3c371SSam Leffler 	{ 5,	"rxmgt",	"rxmgt",	"rx management frames" },
10005c3c371SSam Leffler #define	S_RX_CTL	AFTER(S_RX_MGT)
10105c3c371SSam Leffler 	{ 5,	"rxctl",	"rxctl",	"rx control frames" },
10205c3c371SSam Leffler #define	S_OUTPUT	AFTER(S_RX_CTL)
10305c3c371SSam Leffler 	{ 8,	"output",	"output",	"total frames transmit" },
10405c3c371SSam Leffler #define	S_TX_MCAST	AFTER(S_OUTPUT)
10505c3c371SSam Leffler 	{ 7,	"txmcast",	"txmcast",	"tx multicast frames" },
10605c3c371SSam Leffler #define	S_TX_MGMT	AFTER(S_TX_MCAST)
10705c3c371SSam Leffler 	{ 5,	"txmgt",	"txmgt",	"tx management frames" },
10805c3c371SSam Leffler #define	S_TX_RETRY	AFTER(S_TX_MGMT)
10905c3c371SSam Leffler 	{ 7,	"txretry",	"txretry",	"tx success with 1 retry" },
11005c3c371SSam Leffler #define	S_TX_MRETRY	AFTER(S_TX_RETRY)
11105c3c371SSam Leffler 	{ 8,	"txmretry",	"txmretry",	"tx success with >1 retry" },
11205c3c371SSam Leffler #define	S_TX_RTSGOOD	AFTER(S_TX_MRETRY)
11305c3c371SSam Leffler 	{ 7,	"rtsgood",	"rtsgood",	"RTS tx success" },
11405c3c371SSam Leffler #define	S_TX_RTSBAD	AFTER(S_TX_RTSGOOD)
11505c3c371SSam Leffler 	{ 6,	"rtsbad",	"rtsbad",	"RTS tx failed" },
11605c3c371SSam Leffler #define	S_TX_NOACK	AFTER(S_TX_RTSBAD)
11705c3c371SSam Leffler 	{ 5,	"noack",	"noack",	"tx failed because no ACK was received" },
11805c3c371SSam Leffler #define	S_RX_DUPLICATE	AFTER(S_TX_NOACK)
11905c3c371SSam Leffler 	{ 5,	"rxdup",	"rxdup",	"rx discarded by f/w as dup" },
12005c3c371SSam Leffler #define	S_RX_FCS	AFTER(S_RX_DUPLICATE)
12105c3c371SSam Leffler 	{ 5,	"rxfcs",	"rxfcs",	"rx discarded by f/w for bad FCS" },
12205c3c371SSam Leffler #define	S_TX_WATCHDOG	AFTER(S_RX_FCS)
12305c3c371SSam Leffler 	{ 7,	"txwatch",	"txwatch",	"MAC tx hang (f/w recovery)" },
12405c3c371SSam Leffler #define	S_RX_OVERFLOW	AFTER(S_TX_WATCHDOG)
12505c3c371SSam Leffler 	{ 6,	"rxover",	"rxover",	"no f/w buffer for rx" },
12605c3c371SSam Leffler #define	S_RX_FRAGERROR	AFTER(S_RX_OVERFLOW)
12705c3c371SSam Leffler 	{ 6,	"rxfrag",	"rxfrag",	"rx failed in f/w due to defrag" },
12805c3c371SSam Leffler #define	S_RX_MEMERROR	AFTER(S_RX_FRAGERROR)
12905c3c371SSam Leffler 	{ 5,	"rxmem",	"rxmem",	"rx failed in f/w 'cuz out of of memory" },
13005c3c371SSam Leffler #define	S_PTRERROR	AFTER(S_RX_MEMERROR)
13105c3c371SSam Leffler 	{ 6,	"badptr",	"badptr",	"MAC internal pointer problem" },
13205c3c371SSam Leffler #define	S_TX_UNDERFLOW	AFTER(S_PTRERROR)
13305c3c371SSam Leffler 	{ 7,	"txunder",	"txunder",	"tx failed in f/w 'cuz of underflow" },
13405c3c371SSam Leffler #define	S_TX_DONE	AFTER(S_TX_UNDERFLOW)
13505c3c371SSam Leffler 	{ 6,	"txdone",	"txdone",	"MAC tx ops completed" },
13605c3c371SSam Leffler #define	S_TX_DONEBUFPUT	AFTER(S_TX_DONE)
13705c3c371SSam Leffler 	{ 9,	"txdoneput",	"txdoneput",	"tx buffers returned by f/w to host" },
13805c3c371SSam Leffler #define	S_TX_WAIT4BUF	AFTER(S_TX_DONEBUFPUT)
13905c3c371SSam Leffler 	{ 6,	"txwait",	"txwait",	"no f/w buffers available when supplied a tx descriptor" },
14005c3c371SSam Leffler #define	S_TX_ATTEMPTS	AFTER(S_TX_WAIT4BUF)
14105c3c371SSam Leffler 	{ 5,	"txtry",	"txtry",	"tx descriptors processed by f/w" },
14205c3c371SSam Leffler #define	S_TX_SUCCESS	AFTER(S_TX_ATTEMPTS)
14305c3c371SSam Leffler 	{ 4,	"txok",		"txok",		"tx attempts successful" },
14405c3c371SSam Leffler #define	S_TX_FRAGS	AFTER(S_TX_SUCCESS)
14505c3c371SSam Leffler 	{ 6,	"txfrag",	"txfrag",	"tx attempts with fragmentation" },
14605c3c371SSam Leffler #define	S_RX_UNDECRYPT	AFTER(S_TX_FRAGS)
14705c3c371SSam Leffler 	{ 7,	"rxcrypt",	"rxcrypt",	"rx failed in f/w 'cuz decrypt failed" },
14805c3c371SSam Leffler #define	S_RX_ICVERROR	AFTER(S_RX_UNDECRYPT)
14905c3c371SSam Leffler 	{ 5,	"rxicv",	"rxicv",	"rx failed in f/w 'cuz ICV check" },
15005c3c371SSam Leffler #define	S_RX_EXCLUDE	AFTER(S_RX_ICVERROR)
15105c3c371SSam Leffler 	{ 8,	"rxfilter",	"rxfilter",	"rx frames filtered in f/w" },
15205c3c371SSam Leffler #define	S_TX_LINEAR	AFTER(S_RX_EXCLUDE)
15305c3c371SSam Leffler 	{ 5,	"txlinear",	"txlinear",	"tx linearized to cluster" },
15405c3c371SSam Leffler #define	S_TX_DISCARD	AFTER(S_TX_LINEAR)
15505c3c371SSam Leffler 	{ 5,	"txdisc",	"txdisc",	"tx frames discarded prior to association" },
15605c3c371SSam Leffler #define	S_TX_QSTOP	AFTER(S_TX_DISCARD)
15705c3c371SSam Leffler 	{ 5,	"qstop",	"qstop",	"tx stopped 'cuz no xmit buffer" },
15805c3c371SSam Leffler #define	S_TX_ENCAP	AFTER(S_TX_QSTOP)
15905c3c371SSam Leffler 	{ 5,	"txencode",	"txencode",	"tx encapsulation failed" },
16005c3c371SSam Leffler #define	S_TX_NOMBUF	AFTER(S_TX_ENCAP)
16105c3c371SSam Leffler 	{ 5,	"txnombuf",	"txnombuf",	"tx failed 'cuz mbuf allocation failed" },
16205c3c371SSam Leffler #define	S_TX_SHORTPRE	AFTER(S_TX_NOMBUF)
16305c3c371SSam Leffler 	{ 5,	"shpre",	"shpre",	"tx frames with short preamble" },
16405c3c371SSam Leffler #define	S_TX_NOHEADROOM	AFTER(S_TX_SHORTPRE)
16505c3c371SSam Leffler 	{ 5,	"nohead",	"nohead",	"tx frames discarded for lack of headroom" },
16605c3c371SSam Leffler #define	S_TX_BADFRAMETYPE	AFTER(S_TX_NOHEADROOM)
16705c3c371SSam Leffler 	{ 5,	"badtxtype",	"badtxtype",	"tx frames discarded for invalid/unknown 802.11 frame type" },
16805c3c371SSam Leffler #define	S_RX_CRYPTO_ERR	AFTER(S_TX_BADFRAMETYPE)
16905c3c371SSam Leffler 	{ 5,	"crypt",	"crypt",	"rx failed 'cuz decryption" },
17005c3c371SSam Leffler #define	S_RX_NOMBUF	AFTER(S_RX_CRYPTO_ERR)
17105c3c371SSam Leffler 	{ 5,	"rxnombuf",	"rxnombuf",	"rx setup failed 'cuz no mbuf" },
17205c3c371SSam Leffler #define	S_RX_TKIPMIC	AFTER(S_RX_NOMBUF)
17305c3c371SSam Leffler 	{ 5,	"rxtkipmic",	"rxtkipmic",	"rx failed 'cuz TKIP MIC error" },
17405c3c371SSam Leffler #define	S_RX_NODMABUF	AFTER(S_RX_TKIPMIC)
17505c3c371SSam Leffler 	{ 5,	"rxnodmabuf",	"rxnodmabuf",	"rx failed 'cuz no DMA buffer available" },
17605c3c371SSam Leffler #define	S_RX_DMABUFMISSING	AFTER(S_RX_NODMABUF)
17705c3c371SSam Leffler 	{ 5,	"rxdmabufmissing",	"rxdmabufmissing",	"rx descriptor with no DMA buffer attached" },
17805c3c371SSam Leffler #define	S_TX_NODATA	AFTER(S_RX_DMABUFMISSING)
17905c3c371SSam Leffler 	{ 5,	"txnodata",	"txnodata",	"tx discarded empty frame" },
18005c3c371SSam Leffler #define	S_TX_BUSDMA	AFTER(S_TX_NODATA)
18105c3c371SSam Leffler 	{ 5,	"txbusdma",	"txbusdma",	"tx failed for dma resources" },
18205c3c371SSam Leffler #define	S_RX_BUSDMA	AFTER(S_TX_BUSDMA)
18305c3c371SSam Leffler 	{ 5,	"rxbusdma",	"rxbusdma",	"rx setup failed for dma resources" },
18405c3c371SSam Leffler #define	S_AMPDU_NOSTREAM	AFTER(S_RX_BUSDMA)
18505c3c371SSam Leffler 	{ 5,	"ampdu_nostream","ampdu_nostream","ADDBA request failed 'cuz all BA streams in use" },
18605c3c371SSam Leffler #define	S_AMPDU_REJECT	AFTER(S_AMPDU_NOSTREAM)
18705c3c371SSam Leffler 	{ 5,	"ampdu_reject","ampdu_reject","ADDBA request failed 'cuz station already has one BA stream" },
18805c3c371SSam Leffler #define	S_ADDBA_NOSTREAM	AFTER(S_AMPDU_REJECT)
18905c3c371SSam Leffler 	{ 5,	"addba_nostream","addba_nostream","ADDBA response processed but no BA stream present" },
19005c3c371SSam Leffler #define	S_TX_TSO	AFTER(S_ADDBA_NOSTREAM)
19105c3c371SSam Leffler 	{ 8,	"txtso",	"tso",		"tx frames using TSO" },
19205c3c371SSam Leffler #define	S_TSO_BADETH	AFTER(S_TX_TSO)
19305c3c371SSam Leffler 	{ 5,	"tsoeth",	"tsoeth",	"TSO failed 'cuz ether header type not IPv4" },
19405c3c371SSam Leffler #define	S_TSO_NOHDR	AFTER(S_TSO_BADETH)
19505c3c371SSam Leffler 	{ 5,	"tsonohdr",	"tsonohdr",	"TSO failed 'cuz header not in first mbuf" },
19605c3c371SSam Leffler #define	S_TSO_BADSPLIT	AFTER(S_TSO_NOHDR)
19705c3c371SSam Leffler 	{ 5,	"tsobadsplit",	"tsobadsplit",	"TSO failed 'cuz payload split failed" },
19805c3c371SSam Leffler #define	S_BAWATCHDOG	AFTER(S_TSO_BADSPLIT)
19905c3c371SSam Leffler 	{ 5,	"bawatchdog",	"bawatchdog",	"BA watchdog interrupts" },
20005c3c371SSam Leffler #define	S_BAWATCHDOG_NOTFOUND	AFTER(S_BAWATCHDOG)
20105c3c371SSam Leffler 	{ 5,	"bawatchdog_notfound",	"bawatchdog_notfound",
20205c3c371SSam Leffler 	  "BA watchdog for unknown stream" },
20305c3c371SSam Leffler #define	S_BAWATCHDOG_EMPTY	AFTER(S_BAWATCHDOG_NOTFOUND)
20405c3c371SSam Leffler 	{ 5,	"bawatchdog_empty",	"bawatchdog_empty",
20505c3c371SSam Leffler 	  "BA watchdog on all streams but none found" },
20605c3c371SSam Leffler #define	S_BAWATCHDOG_FAILED	AFTER(S_BAWATCHDOG_EMPTY)
20705c3c371SSam Leffler 	{ 5,	"bawatchdog_failed",	"bawatchdog_failed",
20805c3c371SSam Leffler 	  "BA watchdog processing failed to get bitmap from f/w" },
20905c3c371SSam Leffler #define	S_RADARDETECT	AFTER(S_BAWATCHDOG_FAILED)
21005c3c371SSam Leffler 	{ 5,	"radardetect",	"radardetect",	"radar detect interrupts" },
21105c3c371SSam Leffler #define	S_RATE		AFTER(S_RADARDETECT)
21205c3c371SSam Leffler 	{ 4,	"rate",		"rate",		"rate of last transmit" },
21305c3c371SSam Leffler #define	S_TX_RSSI	AFTER(S_RATE)
21405c3c371SSam Leffler 	{ 4,	"arssi",	"arssi",	"rssi of last ack" },
21505c3c371SSam Leffler #define	S_RX_RSSI	AFTER(S_TX_RSSI)
21605c3c371SSam Leffler 	{ 4,	"rssi",		"rssi",		"avg recv rssi" },
21705c3c371SSam Leffler #define	S_RX_NOISE	AFTER(S_RX_RSSI)
21805c3c371SSam Leffler 	{ 5,	"noise",	"noise",	"rx noise floor" },
21905c3c371SSam Leffler #define	S_TX_SIGNAL	AFTER(S_RX_NOISE)
22005c3c371SSam Leffler 	{ 4,	"asignal",	"asig",		"signal of last ack (dBm)" },
22105c3c371SSam Leffler #define	S_RX_SIGNAL	AFTER(S_TX_SIGNAL)
22205c3c371SSam Leffler 	{ 4,	"signal",	"sig",		"avg recv signal (dBm)" },
22305c3c371SSam Leffler #define	S_ANT_TX0	AFTER(S_RX_SIGNAL)
22405c3c371SSam Leffler 	{ 8,	"tx0",		"ant0(tx)",	"frames tx on antenna 0" },
22505c3c371SSam Leffler #define	S_ANT_TX1	(S_RX_SIGNAL+2)
22605c3c371SSam Leffler 	{ 8,	"tx1",		"ant1(tx)",	"frames tx on antenna 1"  },
22705c3c371SSam Leffler #define	S_ANT_TX2	(S_RX_SIGNAL+3)
22805c3c371SSam Leffler 	{ 8,	"tx2",		"ant2(tx)",	"frames tx on antenna 2"  },
22905c3c371SSam Leffler #define	S_ANT_TX3	(S_RX_SIGNAL+4)
23005c3c371SSam Leffler 	{ 8,	"tx3",		"ant3(tx)",	"frames tx on antenna 3"  },
23105c3c371SSam Leffler #define	S_ANT_RX0	AFTER(S_ANT_TX3)
23205c3c371SSam Leffler 	{ 8,	"rx0",		"ant0(rx)",	"frames rx on antenna 0"  },
23305c3c371SSam Leffler #define	S_ANT_RX1	(S_ANT_TX3+2)
23405c3c371SSam Leffler 	{ 8,	"rx1",		"ant1(rx)",	"frames rx on antenna 1"   },
23505c3c371SSam Leffler #define	S_ANT_RX2	(S_ANT_TX3+3)
23605c3c371SSam Leffler 	{ 8,	"rx2",		"ant2(rx)",	"frames rx on antenna 2"   },
23705c3c371SSam Leffler #define	S_ANT_RX3	(S_ANT_TX3+4)
23805c3c371SSam Leffler 	{ 8,	"rx3",		"ant3(rx)",	"frames rx on antenna 3"   },
23905c3c371SSam Leffler };
24005c3c371SSam Leffler /* NB: this intentionally avoids per-antenna stats */
24105c3c371SSam Leffler #define	S_LAST	(S_RX_SIGNAL+1)
24205c3c371SSam Leffler 
24305c3c371SSam Leffler struct mwlstatfoo_p {
24405c3c371SSam Leffler 	struct mwlstatfoo base;
24505c3c371SSam Leffler 	int s;
24605c3c371SSam Leffler 	struct ifreq ifr;
24705c3c371SSam Leffler 	struct mwl_stats cur;
24805c3c371SSam Leffler 	struct mwl_stats total;
24905c3c371SSam Leffler };
25005c3c371SSam Leffler 
25105c3c371SSam Leffler static void
25205c3c371SSam Leffler mwl_setifname(struct mwlstatfoo *wf0, const char *ifname)
25305c3c371SSam Leffler {
25405c3c371SSam Leffler 	struct mwlstatfoo_p *wf = (struct mwlstatfoo_p *) wf0;
25505c3c371SSam Leffler 
25605c3c371SSam Leffler 	strncpy(wf->ifr.ifr_name, ifname, sizeof (wf->ifr.ifr_name));
25705c3c371SSam Leffler }
25805c3c371SSam Leffler 
25905c3c371SSam Leffler static void
26005c3c371SSam Leffler mwl_collect(struct mwlstatfoo_p *wf, struct mwl_stats *stats)
26105c3c371SSam Leffler {
26205c3c371SSam Leffler 	wf->ifr.ifr_data = (caddr_t) stats;
26305c3c371SSam Leffler 	if (ioctl(wf->s, SIOCGMVSTATS, &wf->ifr) < 0)
26405c3c371SSam Leffler 		err(1, wf->ifr.ifr_name);
26505c3c371SSam Leffler }
26605c3c371SSam Leffler 
26705c3c371SSam Leffler static void
26805c3c371SSam Leffler mwl_collect_cur(struct statfoo *sf)
26905c3c371SSam Leffler {
27005c3c371SSam Leffler 	struct mwlstatfoo_p *wf = (struct mwlstatfoo_p *) sf;
27105c3c371SSam Leffler 
27205c3c371SSam Leffler 	mwl_collect(wf, &wf->cur);
27305c3c371SSam Leffler }
27405c3c371SSam Leffler 
27505c3c371SSam Leffler static void
27605c3c371SSam Leffler mwl_collect_tot(struct statfoo *sf)
27705c3c371SSam Leffler {
27805c3c371SSam Leffler 	struct mwlstatfoo_p *wf = (struct mwlstatfoo_p *) sf;
27905c3c371SSam Leffler 
28005c3c371SSam Leffler 	mwl_collect(wf, &wf->total);
28105c3c371SSam Leffler }
28205c3c371SSam Leffler 
28305c3c371SSam Leffler static void
28405c3c371SSam Leffler mwl_update_tot(struct statfoo *sf)
28505c3c371SSam Leffler {
28605c3c371SSam Leffler 	struct mwlstatfoo_p *wf = (struct mwlstatfoo_p *) sf;
28705c3c371SSam Leffler 
28805c3c371SSam Leffler 	wf->total = wf->cur;
28905c3c371SSam Leffler }
29005c3c371SSam Leffler 
29105c3c371SSam Leffler static void
29205c3c371SSam Leffler setrate(char b[], size_t bs, uint8_t rate)
29305c3c371SSam Leffler {
29405c3c371SSam Leffler 	if (rate & IEEE80211_RATE_MCS)
29505c3c371SSam Leffler 		snprintf(b, bs, "MCS%u", rate & IEEE80211_RATE_VAL);
29605c3c371SSam Leffler 	else if (rate & 1)
29705c3c371SSam Leffler 		snprintf(b, bs, "%u.5M", rate / 2);
29805c3c371SSam Leffler 	else
29905c3c371SSam Leffler 		snprintf(b, bs, "%uM", rate / 2);
30005c3c371SSam Leffler }
30105c3c371SSam Leffler 
30205c3c371SSam Leffler static int
30305c3c371SSam Leffler mwl_get_curstat(struct statfoo *sf, int s, char b[], size_t bs)
30405c3c371SSam Leffler {
30505c3c371SSam Leffler 	struct mwlstatfoo_p *wf = (struct mwlstatfoo_p *) sf;
30605c3c371SSam Leffler #define	STAT(x) \
30705c3c371SSam Leffler 	snprintf(b, bs, "%u", wf->cur.mst_##x - wf->total.mst_##x); return 1
30805c3c371SSam Leffler #define	HWSTAT(x) \
30905c3c371SSam Leffler 	snprintf(b, bs, "%u", wf->cur.hw_stats.x - wf->total.hw_stats.x); return 1
31005c3c371SSam Leffler #define	RXANT(x) \
31105c3c371SSam Leffler 	snprintf(b, bs, "%u", wf->cur.mst_ant_rx[x] - wf->total.mst_ant_rx[x]); return 1
31205c3c371SSam Leffler #define	TXANT(x) \
31305c3c371SSam Leffler 	snprintf(b, bs, "%u", wf->cur.mst_ant_tx[x] - wf->total.mst_ant_tx[x]); return 1
31405c3c371SSam Leffler 
31505c3c371SSam Leffler 	switch (s) {
31605c3c371SSam Leffler 	case S_INPUT:
31705c3c371SSam Leffler 		snprintf(b, bs, "%lu", (u_long)(
31805c3c371SSam Leffler 		    (wf->cur.mst_rx_packets - wf->total.mst_rx_packets)));
31905c3c371SSam Leffler 		return 1;
32005c3c371SSam Leffler 	case S_OUTPUT:
32105c3c371SSam Leffler 		snprintf(b, bs, "%lu", (u_long)(
32205c3c371SSam Leffler 		    wf->cur.mst_tx_packets - wf->total.mst_tx_packets));
32305c3c371SSam Leffler 		return 1;
32405c3c371SSam Leffler 	case S_RATE:
32505c3c371SSam Leffler 		setrate(b, bs, wf->cur.mst_tx_rate);
32605c3c371SSam Leffler 		return 1;
32705c3c371SSam Leffler 	case S_TX_RETRY:	HWSTAT(TxRetrySuccesses);
32805c3c371SSam Leffler 	case S_TX_MRETRY:	HWSTAT(TxMultipleRetrySuccesses);
32905c3c371SSam Leffler 	case S_TX_RTSGOOD:	HWSTAT(RTSSuccesses);
33005c3c371SSam Leffler 	case S_TX_RTSBAD:	HWSTAT(RTSFailures);
33105c3c371SSam Leffler 	case S_TX_NOACK:	HWSTAT(AckFailures);
33205c3c371SSam Leffler 	case S_RX_DUPLICATE:	HWSTAT(RxDuplicateFrames);
33305c3c371SSam Leffler 	case S_RX_FCS:		HWSTAT(FCSErrorCount);
33405c3c371SSam Leffler 	case S_TX_WATCHDOG:	HWSTAT(TxWatchDogTimeouts);
33505c3c371SSam Leffler 	case S_RX_OVERFLOW:	HWSTAT(RxOverflows);
33605c3c371SSam Leffler 	case S_RX_FRAGERROR:	HWSTAT(RxFragErrors);
33705c3c371SSam Leffler 	case S_RX_MEMERROR:	HWSTAT(RxMemErrors);
33805c3c371SSam Leffler 	case S_PTRERROR:	HWSTAT(PointerErrors);
33905c3c371SSam Leffler 	case S_TX_UNDERFLOW:	HWSTAT(TxUnderflows);
34005c3c371SSam Leffler 	case S_TX_DONE:		HWSTAT(TxDone);
34105c3c371SSam Leffler 	case S_TX_DONEBUFPUT:	HWSTAT(TxDoneBufPut);
34205c3c371SSam Leffler 	case S_TX_WAIT4BUF:	HWSTAT(Wait4TxBuf);
34305c3c371SSam Leffler 	case S_TX_ATTEMPTS:	HWSTAT(TxAttempts);
34405c3c371SSam Leffler 	case S_TX_SUCCESS:	HWSTAT(TxSuccesses);
34505c3c371SSam Leffler 	case S_TX_FRAGS:	HWSTAT(TxFragments);
34605c3c371SSam Leffler 	case S_TX_MCAST:	HWSTAT(TxMulticasts);
34705c3c371SSam Leffler 	case S_RX_NONCTL:	HWSTAT(RxNonCtlPkts);
34805c3c371SSam Leffler 	case S_RX_MCAST:	HWSTAT(RxMulticasts);
34905c3c371SSam Leffler 	case S_RX_UNDECRYPT:	HWSTAT(RxUndecryptableFrames);
35005c3c371SSam Leffler 	case S_RX_ICVERROR:	HWSTAT(RxICVErrors);
35105c3c371SSam Leffler 	case S_RX_EXCLUDE:	HWSTAT(RxExcludedFrames);
35205c3c371SSam Leffler 	case S_TX_MGMT:		STAT(tx_mgmt);
35305c3c371SSam Leffler 	case S_TX_DISCARD:	STAT(tx_discard);
35405c3c371SSam Leffler 	case S_TX_QSTOP:	STAT(tx_qstop);
35505c3c371SSam Leffler 	case S_TX_ENCAP:	STAT(tx_encap);
35605c3c371SSam Leffler 	case S_TX_NOMBUF:	STAT(tx_nombuf);
35705c3c371SSam Leffler 	case S_TX_LINEAR:	STAT(tx_linear);
35805c3c371SSam Leffler 	case S_TX_NODATA:	STAT(tx_nodata);
35905c3c371SSam Leffler 	case S_TX_BUSDMA:	STAT(tx_busdma);
36005c3c371SSam Leffler 	case S_TX_SHORTPRE:	STAT(tx_shortpre);
36105c3c371SSam Leffler 	case S_TX_NOHEADROOM:	STAT(tx_noheadroom);
36205c3c371SSam Leffler 	case S_TX_BADFRAMETYPE:	STAT(tx_badframetype);
36305c3c371SSam Leffler 	case S_RX_CRYPTO_ERR:	STAT(rx_crypto);
36405c3c371SSam Leffler 	case S_RX_TKIPMIC:	STAT(rx_tkipmic);
36505c3c371SSam Leffler 	case S_RX_NODMABUF:	STAT(rx_nodmabuf);
36605c3c371SSam Leffler 	case S_RX_DMABUFMISSING:STAT(rx_dmabufmissing);
36705c3c371SSam Leffler 	case S_RX_NOMBUF:	STAT(rx_nombuf);
36805c3c371SSam Leffler 	case S_RX_BUSDMA:	STAT(rx_busdma);
36905c3c371SSam Leffler 	case S_AMPDU_NOSTREAM:	STAT(ampdu_nostream);
37005c3c371SSam Leffler 	case S_AMPDU_REJECT:	STAT(ampdu_reject);
37105c3c371SSam Leffler 	case S_ADDBA_NOSTREAM:	STAT(addba_nostream);
37205c3c371SSam Leffler 	case S_TX_TSO:		STAT(tx_tso);
37305c3c371SSam Leffler 	case S_TSO_BADETH:	STAT(tso_badeth);
37405c3c371SSam Leffler 	case S_TSO_NOHDR:	STAT(tso_nohdr);
37505c3c371SSam Leffler 	case S_TSO_BADSPLIT:	STAT(tso_badsplit);
37605c3c371SSam Leffler 	case S_BAWATCHDOG:	STAT(bawatchdog);
37705c3c371SSam Leffler 	case S_BAWATCHDOG_NOTFOUND:STAT(bawatchdog_notfound);
37805c3c371SSam Leffler 	case S_BAWATCHDOG_EMPTY: STAT(bawatchdog_empty);
37905c3c371SSam Leffler 	case S_BAWATCHDOG_FAILED:STAT(bawatchdog_failed);
38005c3c371SSam Leffler 	case S_RADARDETECT:	STAT(radardetect);
38105c3c371SSam Leffler 	case S_RX_RSSI:
38205c3c371SSam Leffler 		snprintf(b, bs, "%d", wf->cur.mst_rx_rssi);
38305c3c371SSam Leffler 		return 1;
38405c3c371SSam Leffler 	case S_ANT_TX0:		TXANT(0);
38505c3c371SSam Leffler 	case S_ANT_TX1:		TXANT(1);
38605c3c371SSam Leffler 	case S_ANT_TX2:		TXANT(2);
38705c3c371SSam Leffler 	case S_ANT_TX3:		TXANT(3);
38805c3c371SSam Leffler 	case S_ANT_RX0:		RXANT(0);
38905c3c371SSam Leffler 	case S_ANT_RX1:		RXANT(1);
39005c3c371SSam Leffler 	case S_ANT_RX2:		RXANT(2);
39105c3c371SSam Leffler 	case S_ANT_RX3:		RXANT(3);
39205c3c371SSam Leffler 	case S_RX_NOISE:
39305c3c371SSam Leffler 		snprintf(b, bs, "%d", wf->cur.mst_rx_noise);
39405c3c371SSam Leffler 		return 1;
39505c3c371SSam Leffler 	case S_RX_SIGNAL:
39605c3c371SSam Leffler 		snprintf(b, bs, "%d",
39705c3c371SSam Leffler 			wf->cur.mst_rx_rssi + wf->cur.mst_rx_noise);
39805c3c371SSam Leffler 		return 1;
39905c3c371SSam Leffler 	}
40005c3c371SSam Leffler 	b[0] = '\0';
40105c3c371SSam Leffler 	return 0;
40205c3c371SSam Leffler #undef RXANT
40305c3c371SSam Leffler #undef TXANT
40405c3c371SSam Leffler #undef HWSTAT
40505c3c371SSam Leffler #undef STAT
40605c3c371SSam Leffler }
40705c3c371SSam Leffler 
40805c3c371SSam Leffler static int
40905c3c371SSam Leffler mwl_get_totstat(struct statfoo *sf, int s, char b[], size_t bs)
41005c3c371SSam Leffler {
41105c3c371SSam Leffler 	struct mwlstatfoo_p *wf = (struct mwlstatfoo_p *) sf;
41205c3c371SSam Leffler #define	STAT(x) \
41305c3c371SSam Leffler 	snprintf(b, bs, "%u", wf->total.mst_##x); return 1
41405c3c371SSam Leffler #define	HWSTAT(x) \
41505c3c371SSam Leffler 	snprintf(b, bs, "%u", wf->total.hw_stats.x); return 1
41605c3c371SSam Leffler #define	TXANT(x) \
41705c3c371SSam Leffler 	snprintf(b, bs, "%u", wf->total.mst_ant_tx[x]); return 1
41805c3c371SSam Leffler #define	RXANT(x) \
41905c3c371SSam Leffler 	snprintf(b, bs, "%u", wf->total.mst_ant_rx[x]); return 1
42005c3c371SSam Leffler 
42105c3c371SSam Leffler 	switch (s) {
42205c3c371SSam Leffler 	case S_INPUT:
42305c3c371SSam Leffler 		snprintf(b, bs, "%lu", (u_long)wf->total.mst_rx_packets);
42405c3c371SSam Leffler 		return 1;
42505c3c371SSam Leffler 	case S_OUTPUT:
42605c3c371SSam Leffler 		snprintf(b, bs, "%lu", (u_long) wf->total.mst_tx_packets);
42705c3c371SSam Leffler 		return 1;
42805c3c371SSam Leffler 	case S_RATE:
42905c3c371SSam Leffler 		setrate(b, bs, wf->total.mst_tx_rate);
43005c3c371SSam Leffler 		return 1;
43105c3c371SSam Leffler 	case S_TX_RETRY:	HWSTAT(TxRetrySuccesses);
43205c3c371SSam Leffler 	case S_TX_MRETRY:	HWSTAT(TxMultipleRetrySuccesses);
43305c3c371SSam Leffler 	case S_TX_RTSGOOD:	HWSTAT(RTSSuccesses);
43405c3c371SSam Leffler 	case S_TX_RTSBAD:	HWSTAT(RTSFailures);
43505c3c371SSam Leffler 	case S_TX_NOACK:	HWSTAT(AckFailures);
43605c3c371SSam Leffler 	case S_RX_DUPLICATE:	HWSTAT(RxDuplicateFrames);
43705c3c371SSam Leffler 	case S_RX_FCS:		HWSTAT(FCSErrorCount);
43805c3c371SSam Leffler 	case S_TX_WATCHDOG:	HWSTAT(TxWatchDogTimeouts);
43905c3c371SSam Leffler 	case S_RX_OVERFLOW:	HWSTAT(RxOverflows);
44005c3c371SSam Leffler 	case S_RX_FRAGERROR:	HWSTAT(RxFragErrors);
44105c3c371SSam Leffler 	case S_RX_MEMERROR:	HWSTAT(RxMemErrors);
44205c3c371SSam Leffler 	case S_PTRERROR:	HWSTAT(PointerErrors);
44305c3c371SSam Leffler 	case S_TX_UNDERFLOW:	HWSTAT(TxUnderflows);
44405c3c371SSam Leffler 	case S_TX_DONE:		HWSTAT(TxDone);
44505c3c371SSam Leffler 	case S_TX_DONEBUFPUT:	HWSTAT(TxDoneBufPut);
44605c3c371SSam Leffler 	case S_TX_WAIT4BUF:	HWSTAT(Wait4TxBuf);
44705c3c371SSam Leffler 	case S_TX_ATTEMPTS:	HWSTAT(TxAttempts);
44805c3c371SSam Leffler 	case S_TX_SUCCESS:	HWSTAT(TxSuccesses);
44905c3c371SSam Leffler 	case S_TX_FRAGS:	HWSTAT(TxFragments);
45005c3c371SSam Leffler 	case S_TX_MCAST:	HWSTAT(TxMulticasts);
45105c3c371SSam Leffler 	case S_RX_NONCTL:	HWSTAT(RxNonCtlPkts);
45205c3c371SSam Leffler 	case S_RX_MCAST:	HWSTAT(RxMulticasts);
45305c3c371SSam Leffler 	case S_RX_UNDECRYPT:	HWSTAT(RxUndecryptableFrames);
45405c3c371SSam Leffler 	case S_RX_ICVERROR:	HWSTAT(RxICVErrors);
45505c3c371SSam Leffler 	case S_RX_EXCLUDE:	HWSTAT(RxExcludedFrames);
45605c3c371SSam Leffler 	case S_TX_MGMT:		STAT(tx_mgmt);
45705c3c371SSam Leffler 	case S_TX_DISCARD:	STAT(tx_discard);
45805c3c371SSam Leffler 	case S_TX_QSTOP:	STAT(tx_qstop);
45905c3c371SSam Leffler 	case S_TX_ENCAP:	STAT(tx_encap);
46005c3c371SSam Leffler 	case S_TX_NOMBUF:	STAT(tx_nombuf);
46105c3c371SSam Leffler 	case S_TX_LINEAR:	STAT(tx_linear);
46205c3c371SSam Leffler 	case S_TX_NODATA:	STAT(tx_nodata);
46305c3c371SSam Leffler 	case S_TX_BUSDMA:	STAT(tx_busdma);
46405c3c371SSam Leffler 	case S_TX_SHORTPRE:	STAT(tx_shortpre);
46505c3c371SSam Leffler 	case S_TX_NOHEADROOM:	STAT(tx_noheadroom);
46605c3c371SSam Leffler 	case S_TX_BADFRAMETYPE:	STAT(tx_badframetype);
46705c3c371SSam Leffler 	case S_RX_CRYPTO_ERR:	STAT(rx_crypto);
46805c3c371SSam Leffler 	case S_RX_TKIPMIC:	STAT(rx_tkipmic);
46905c3c371SSam Leffler 	case S_RX_NODMABUF:	STAT(rx_nodmabuf);
47005c3c371SSam Leffler 	case S_RX_DMABUFMISSING:STAT(rx_dmabufmissing);
47105c3c371SSam Leffler 	case S_RX_NOMBUF:	STAT(rx_nombuf);
47205c3c371SSam Leffler 	case S_RX_BUSDMA:	STAT(rx_busdma);
47305c3c371SSam Leffler 	case S_AMPDU_NOSTREAM:	STAT(ampdu_nostream);
47405c3c371SSam Leffler 	case S_AMPDU_REJECT:	STAT(ampdu_reject);
47505c3c371SSam Leffler 	case S_ADDBA_NOSTREAM:	STAT(addba_nostream);
47605c3c371SSam Leffler 	case S_TX_TSO:		STAT(tx_tso);
47705c3c371SSam Leffler 	case S_TSO_BADETH:	STAT(tso_badeth);
47805c3c371SSam Leffler 	case S_TSO_NOHDR:	STAT(tso_nohdr);
47905c3c371SSam Leffler 	case S_TSO_BADSPLIT:	STAT(tso_badsplit);
48005c3c371SSam Leffler 	case S_BAWATCHDOG:	STAT(bawatchdog);
48105c3c371SSam Leffler 	case S_BAWATCHDOG_NOTFOUND:STAT(bawatchdog_notfound);
48205c3c371SSam Leffler 	case S_BAWATCHDOG_EMPTY: STAT(bawatchdog_empty);
48305c3c371SSam Leffler 	case S_BAWATCHDOG_FAILED:STAT(bawatchdog_failed);
48405c3c371SSam Leffler 	case S_RADARDETECT:	STAT(radardetect);
48505c3c371SSam Leffler 	case S_RX_RSSI:
48605c3c371SSam Leffler 		snprintf(b, bs, "%d", wf->total.mst_rx_rssi);
48705c3c371SSam Leffler 		return 1;
48805c3c371SSam Leffler 	case S_ANT_TX0:		TXANT(0);
48905c3c371SSam Leffler 	case S_ANT_TX1:		TXANT(1);
49005c3c371SSam Leffler 	case S_ANT_TX2:		TXANT(2);
49105c3c371SSam Leffler 	case S_ANT_TX3:		TXANT(3);
49205c3c371SSam Leffler 	case S_ANT_RX0:		RXANT(0);
49305c3c371SSam Leffler 	case S_ANT_RX1:		RXANT(1);
49405c3c371SSam Leffler 	case S_ANT_RX2:		RXANT(2);
49505c3c371SSam Leffler 	case S_ANT_RX3:		RXANT(3);
49605c3c371SSam Leffler 	case S_RX_NOISE:
49705c3c371SSam Leffler 		snprintf(b, bs, "%d", wf->total.mst_rx_noise);
49805c3c371SSam Leffler 		return 1;
49905c3c371SSam Leffler 	case S_RX_SIGNAL:
50005c3c371SSam Leffler 		snprintf(b, bs, "%d",
50105c3c371SSam Leffler 			wf->total.mst_rx_rssi + wf->total.mst_rx_noise);
50205c3c371SSam Leffler 		return 1;
50305c3c371SSam Leffler 	}
50405c3c371SSam Leffler 	b[0] = '\0';
50505c3c371SSam Leffler 	return 0;
50605c3c371SSam Leffler #undef RXANT
50705c3c371SSam Leffler #undef TXANT
50805c3c371SSam Leffler #undef HWSTAT
50905c3c371SSam Leffler #undef STAT
51005c3c371SSam Leffler }
51105c3c371SSam Leffler 
51205c3c371SSam Leffler static void
51305c3c371SSam Leffler mwl_print_verbose(struct statfoo *sf, FILE *fd)
51405c3c371SSam Leffler {
51505c3c371SSam Leffler 	struct mwlstatfoo_p *wf = (struct mwlstatfoo_p *) sf;
51605c3c371SSam Leffler 	const struct fmt *f;
51705c3c371SSam Leffler 	char s[32];
51805c3c371SSam Leffler 	const char *indent;
51905c3c371SSam Leffler 	int i, width;
52005c3c371SSam Leffler 
52105c3c371SSam Leffler 	width = 0;
52205c3c371SSam Leffler 	for (i = 0; i < S_LAST; i++) {
52305c3c371SSam Leffler 		f = &sf->stats[i];
52405c3c371SSam Leffler 		if (f->width > width)
52505c3c371SSam Leffler 			width = f->width;
52605c3c371SSam Leffler 	}
52705c3c371SSam Leffler 	for (i = 0; i < S_LAST; i++) {
52805c3c371SSam Leffler 		f = &sf->stats[i];
52905c3c371SSam Leffler 		if (mwl_get_totstat(sf, i, s, sizeof(s)) && strcmp(s, "0")) {
53005c3c371SSam Leffler 			indent = "";
53105c3c371SSam Leffler 			fprintf(fd, "%s%-*s %s\n", indent, width, s, f->desc);
53205c3c371SSam Leffler 		}
53305c3c371SSam Leffler 	}
53405c3c371SSam Leffler 	fprintf(fd, "Antenna profile:\n");
53505c3c371SSam Leffler 	for (i = 0; i < 4; i++)
53605c3c371SSam Leffler 		if (wf->total.mst_ant_rx[i] || wf->total.mst_ant_tx[i])
53705c3c371SSam Leffler 			fprintf(fd, "[%u] tx %8u rx %8u\n", i,
53805c3c371SSam Leffler 				wf->total.mst_ant_tx[i],
53905c3c371SSam Leffler 				wf->total.mst_ant_rx[i]);
54005c3c371SSam Leffler }
54105c3c371SSam Leffler 
54205c3c371SSam Leffler STATFOO_DEFINE_BOUNCE(mwlstatfoo)
54305c3c371SSam Leffler 
54405c3c371SSam Leffler struct mwlstatfoo *
54505c3c371SSam Leffler mwlstats_new(const char *ifname, const char *fmtstring)
54605c3c371SSam Leffler {
54705c3c371SSam Leffler #define	N(a)	(sizeof(a) / sizeof(a[0]))
54805c3c371SSam Leffler 	struct mwlstatfoo_p *wf;
54905c3c371SSam Leffler 
55005c3c371SSam Leffler 	wf = calloc(1, sizeof(struct mwlstatfoo_p));
55105c3c371SSam Leffler 	if (wf != NULL) {
55205c3c371SSam Leffler 		statfoo_init(&wf->base.base, "mwlstats", mwlstats, N(mwlstats));
55305c3c371SSam Leffler 		/* override base methods */
55405c3c371SSam Leffler 		wf->base.base.collect_cur = mwl_collect_cur;
55505c3c371SSam Leffler 		wf->base.base.collect_tot = mwl_collect_tot;
55605c3c371SSam Leffler 		wf->base.base.get_curstat = mwl_get_curstat;
55705c3c371SSam Leffler 		wf->base.base.get_totstat = mwl_get_totstat;
55805c3c371SSam Leffler 		wf->base.base.update_tot = mwl_update_tot;
55905c3c371SSam Leffler 		wf->base.base.print_verbose = mwl_print_verbose;
56005c3c371SSam Leffler 
56105c3c371SSam Leffler 		/* setup bounce functions for public methods */
56205c3c371SSam Leffler 		STATFOO_BOUNCE(wf, mwlstatfoo);
56305c3c371SSam Leffler 
56405c3c371SSam Leffler 		/* setup our public methods */
56505c3c371SSam Leffler 		wf->base.setifname = mwl_setifname;
56605c3c371SSam Leffler #if 0
56705c3c371SSam Leffler 		wf->base.setstamac = wlan_setstamac;
56805c3c371SSam Leffler #endif
56905c3c371SSam Leffler 		wf->s = socket(AF_INET, SOCK_DGRAM, 0);
57005c3c371SSam Leffler 		if (wf->s < 0)
57105c3c371SSam Leffler 			err(1, "socket");
57205c3c371SSam Leffler 
57305c3c371SSam Leffler 		mwl_setifname(&wf->base, ifname);
57405c3c371SSam Leffler 		wf->base.setfmt(&wf->base, fmtstring);
57505c3c371SSam Leffler 	}
57605c3c371SSam Leffler 	return &wf->base;
57705c3c371SSam Leffler #undef N
57805c3c371SSam Leffler }
579