xref: /titanic_50/usr/src/uts/common/io/rge/rge.h (revision 174bc6499d233e329ecd3d98a880a7b07df16bfa)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2010 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef _RGE_H
27 #define	_RGE_H
28 
29 #ifdef __cplusplus
30 extern "C" {
31 #endif
32 
33 #include <sys/types.h>
34 #include <sys/stream.h>
35 #include <sys/strsun.h>
36 #include <sys/strsubr.h>
37 #include <sys/stat.h>
38 #include <sys/pci.h>
39 #include <sys/pci_cap.h>
40 #include <sys/note.h>
41 #include <sys/modctl.h>
42 #include <sys/kstat.h>
43 #include <sys/ethernet.h>
44 #include <sys/vlan.h>
45 #include <sys/errno.h>
46 #include <sys/dlpi.h>
47 #include <sys/devops.h>
48 #include <sys/debug.h>
49 #include <sys/conf.h>
50 
51 #include <netinet/ip6.h>
52 #include <inet/common.h>
53 #include <inet/ip.h>
54 #include <inet/mi.h>
55 #include <inet/nd.h>
56 #include <sys/pattr.h>
57 
58 #include <sys/ddi.h>
59 #include <sys/sunddi.h>
60 
61 #include <sys/mac_provider.h>
62 #include <sys/mac_ether.h>
63 
64 /*
65  * Reconfiguring the network devices requires the net_config privilege
66  * in Solaris 10+.
67  */
68 extern int secpolicy_net_config(const cred_t *, boolean_t);
69 
70 #include <sys/netlb.h>			/* originally from cassini	*/
71 #include <sys/miiregs.h>		/* by fjlite out of intel 	*/
72 
73 #include "rge_hw.h"
74 
75 /*
76  * Name of the driver
77  */
78 #define	RGE_DRIVER_NAME		"rge"
79 
80 /*
81  * The driver supports the NDD ioctls ND_GET/ND_SET, and the loopback
82  * ioctls LB_GET_INFO_SIZE/LB_GET_INFO/LB_GET_MODE/LB_SET_MODE
83  *
84  * These are the values to use with LD_SET_MODE.
85  */
86 #define	RGE_LOOP_NONE		0
87 #define	RGE_LOOP_INTERNAL_PHY	1
88 #define	RGE_LOOP_INTERNAL_MAC	2
89 
90 /*
91  * RGE-specific ioctls ...
92  */
93 #define	RGE_IOC			((((('R' << 8) + 'G') << 8) + 'E') << 8)
94 
95 /*
96  * PHY register read/write ioctls, used by cable test software
97  */
98 #define	RGE_MII_READ		(RGE_IOC|1)
99 #define	RGE_MII_WRITE		(RGE_IOC|2)
100 
101 struct rge_mii_rw {
102 	uint32_t	mii_reg;	/* PHY register number [0..31]	*/
103 	uint32_t	mii_data;	/* data to write/data read	*/
104 };
105 
106 /*
107  * These diagnostic IOCTLS are enabled only in DEBUG drivers
108  */
109 #define	RGE_DIAG		(RGE_IOC|10)	/* currently a no-op	*/
110 #define	RGE_PEEK		(RGE_IOC|11)
111 #define	RGE_POKE		(RGE_IOC|12)
112 #define	RGE_PHY_RESET		(RGE_IOC|13)
113 #define	RGE_SOFT_RESET		(RGE_IOC|14)
114 #define	RGE_HARD_RESET		(RGE_IOC|15)
115 
116 typedef struct {
117 	uint64_t		pp_acc_size;	/* in bytes: 1,2,4,8	*/
118 	uint64_t		pp_acc_space;	/* See #defines below	*/
119 	uint64_t		pp_acc_offset;
120 	uint64_t		pp_acc_data;	/* output for peek	*/
121 						/* input for poke	*/
122 } rge_peekpoke_t;
123 
124 #define	RGE_PP_SPACE_CFG	0		/* PCI config space	*/
125 #define	RGE_PP_SPACE_REG	1		/* PCI memory space	*/
126 #define	RGE_PP_SPACE_MII	2		/* PHY's MII registers	*/
127 #define	RGE_PP_SPACE_RGE	3		/* driver's soft state	*/
128 #define	RGE_PP_SPACE_TXDESC	4		/* TX descriptors	*/
129 #define	RGE_PP_SPACE_TXBUFF	5		/* TX buffers		*/
130 #define	RGE_PP_SPACE_RXDESC	6		/* RX descriptors	*/
131 #define	RGE_PP_SPACE_RXBUFF	7		/* RX buffers		*/
132 #define	RGE_PP_SPACE_STATISTICS	8		/* statistics block	*/
133 
134 /*
135  * RTL8169 CRC poly
136  */
137 #define	RGE_HASH_POLY		0x04C11DB7	/* 0x04C11DB6 */
138 #define	RGE_HASH_CRC		0xFFFFFFFFU
139 #define	RGE_MCAST_BUF_SIZE	64	/* multicast hash table size in bits */
140 
141 /*
142  * Rx/Tx buffer parameters
143  */
144 #define	RGE_BUF_SLOTS		2048
145 #define	RGE_RECV_COPY_SIZE	256
146 #define	RGE_HEADROOM		6
147 
148 /*
149  * Driver chip operation parameters
150  */
151 #define	RGE_CYCLIC_PERIOD	(1000000000)	/* ~1s */
152 #define	CHIP_RESET_LOOP		1000
153 #define	PHY_RESET_LOOP		10
154 #define	STATS_DUMP_LOOP		1000
155 #define	RXBUFF_FREE_LOOP	1000
156 #define	RGE_RX_INT_TIME		128
157 #define	RGE_RX_INT_PKTS		8
158 
159 /*
160  * Named Data (ND) Parameter Management Structure
161  */
162 typedef struct {
163 	int			ndp_info;
164 	int			ndp_min;
165 	int			ndp_max;
166 	int			ndp_val;
167 	char			*ndp_name;
168 } nd_param_t;				/* 0x18 (24) bytes	*/
169 
170 /*
171  * NDD parameter indexes, divided into:
172  *
173  *	read-only parameters describing the hardware's capabilities
174  *	read-write parameters controlling the advertised capabilities
175  *	read-only parameters describing the partner's capabilities
176  *	read-only parameters describing the link state
177  */
178 enum {
179 	PARAM_AUTONEG_CAP = 0,
180 	PARAM_PAUSE_CAP,
181 	PARAM_ASYM_PAUSE_CAP,
182 	PARAM_1000FDX_CAP,
183 	PARAM_1000HDX_CAP,
184 	PARAM_100T4_CAP,
185 	PARAM_100FDX_CAP,
186 	PARAM_100HDX_CAP,
187 	PARAM_10FDX_CAP,
188 	PARAM_10HDX_CAP,
189 
190 	PARAM_ADV_AUTONEG_CAP,
191 	PARAM_ADV_PAUSE_CAP,
192 	PARAM_ADV_ASYM_PAUSE_CAP,
193 	PARAM_ADV_1000FDX_CAP,
194 	PARAM_ADV_1000HDX_CAP,
195 	PARAM_ADV_100T4_CAP,
196 	PARAM_ADV_100FDX_CAP,
197 	PARAM_ADV_100HDX_CAP,
198 	PARAM_ADV_10FDX_CAP,
199 	PARAM_ADV_10HDX_CAP,
200 
201 	PARAM_LINK_STATUS,
202 	PARAM_LINK_SPEED,
203 	PARAM_LINK_DUPLEX,
204 
205 	PARAM_LOOP_MODE,
206 
207 	PARAM_COUNT
208 };
209 
210 enum rge_chip_state {
211 	RGE_CHIP_FAULT = -2,			/* fault, need reset	*/
212 	RGE_CHIP_ERROR,				/* error, want reset	*/
213 	RGE_CHIP_INITIAL,			/* Initial state only	*/
214 	RGE_CHIP_RESET,				/* reset, need init	*/
215 	RGE_CHIP_STOPPED,			/* Tx/Rx stopped	*/
216 	RGE_CHIP_RUNNING			/* with interrupts	*/
217 };
218 
219 enum rge_mac_state {
220 	RGE_MAC_ATTACH = 0,
221 	RGE_MAC_STOPPED,
222 	RGE_MAC_STARTED,
223 	RGE_MAC_UNATTACH
224 };
225 
226 enum rge_sync_op {
227 	RGE_OP_NULL,
228 	RGE_GET_MAC,				/* get mac address operation */
229 	RGE_SET_MAC,				/* set mac address operation */
230 	RGE_SET_MUL,				/* set multicast address op */
231 	RGE_SET_PROMISC				/* set promisc mode */
232 };
233 
234 /*
235  * (Internal) return values from ioctl subroutines
236  */
237 enum ioc_reply {
238 	IOC_INVAL = -1,				/* bad, NAK with EINVAL	*/
239 	IOC_DONE,				/* OK, reply sent	*/
240 	IOC_ACK,				/* OK, just send ACK	*/
241 	IOC_REPLY,				/* OK, just send reply	*/
242 	IOC_RESTART_ACK,			/* OK, restart & ACK	*/
243 	IOC_RESTART_REPLY			/* OK, restart & reply	*/
244 };
245 
246 /*
247  * (Internal) enumeration of this driver's kstats
248  */
249 enum {
250 	RGE_KSTAT_DRIVER = 0,
251 	RGE_KSTAT_COUNT
252 };
253 
254 /*
255  * Basic data types, for clarity in distinguishing 'numbers'
256  * used for different purposes ...
257  *
258  * A <rge_regno_t> is a register 'address' (offset) in any one of
259  * various address spaces (PCI config space, PCI memory-mapped I/O
260  * register space, MII registers, etc).  None of these exceeds 64K,
261  * so we could use a 16-bit representation but pointer-sized objects
262  * are more "natural" in most architectures; they seem to be handled
263  * more efficiently on SPARC and no worse on x86.
264  *
265  * RGE_REGNO_NONE represents the non-existent value in this space.
266  */
267 typedef uintptr_t rge_regno_t;			/* register # (offset)	*/
268 #define	RGE_REGNO_NONE		(~(uintptr_t)0u)
269 
270 /*
271  * Describes one chunk of allocated DMA-able memory
272  *
273  * In some cases, this is a single chunk as allocated from the system;
274  * but we also use this structure to represent slices carved off such
275  * a chunk.  Even when we don't really need all the information, we
276  * use this structure as a convenient way of correlating the various
277  * ways of looking at a piece of memory (kernel VA, IO space DVMA,
278  * handle+offset, etc).
279  */
280 typedef struct {
281 	ddi_acc_handle_t	acc_hdl;	/* handle for memory	*/
282 	void			*mem_va;	/* CPU VA of memory	*/
283 	uint32_t		nslots;		/* number of slots	*/
284 	uint32_t		size;		/* size per slot	*/
285 	size_t			alength;	/* allocated size */
286 	ddi_dma_handle_t	dma_hdl;	/* DMA handle */
287 	offset_t		offset;		/* relative to handle	*/
288 	ddi_dma_cookie_t	cookie;		/* associated cookie */
289 	uint32_t		ncookies;	/* must be 1 */
290 	uint32_t		token;		/* arbitrary identifier	*/
291 } dma_area_t;
292 
293 /*
294  * Software version of the Receive Buffer Descriptor
295  */
296 typedef struct {
297 	caddr_t			private;	/* pointer to rge */
298 	dma_area_t		pbuf;		/* (const) related	*/
299 						/* buffer area		*/
300 	frtn_t			rx_recycle;	/* recycle function */
301 	mblk_t			*mp;
302 } dma_buf_t;
303 
304 typedef struct sw_rbd {
305 	dma_buf_t		*rx_buf;
306 	uint8_t			flags;
307 } sw_rbd_t;
308 
309 /*
310  * Software version of the Send Buffer Descriptor
311  */
312 typedef struct sw_sbd {
313 	dma_area_t		desc;		/* (const) related h/w	*/
314 						/* descriptor area	*/
315 	dma_area_t		pbuf;		/* (const) related	*/
316 						/* buffer area		*/
317 } sw_sbd_t;
318 
319 
320 #define	HW_RBD_INIT(rbd, slot) {				\
321 	(rbd)->vlan_tag = 0;					\
322 	if ((slot) == (RGE_RECV_SLOTS -1)) {			\
323 		(rbd)->flags_len |=				\
324 		    RGE_BSWAP_32(BD_FLAG_EOR | BD_FLAG_HW_OWN);	\
325 	} else {						\
326 		(rbd)->flags_len |= RGE_BSWAP_32(BD_FLAG_HW_OWN);	\
327 	}							\
328 }
329 #define	HW_SBD_SET(sbd, slot) {					\
330 	if ((slot) == (RGE_SEND_SLOTS -1)) {			\
331 		(sbd)->flags_len |=				\
332 		    RGE_BSWAP_32(BD_FLAG_EOR | SBD_FLAG_TX_PKT);	\
333 	} else {						\
334 		(sbd)->flags_len |= RGE_BSWAP_32(SBD_FLAG_TX_PKT); \
335 	}							\
336 }
337 
338 /*
339  * Describes the characteristics of a specific chip
340  */
341 typedef struct {
342 	uint16_t		command;	/* saved during attach	*/
343 	uint16_t		vendor;		/* vendor-id		*/
344 	uint16_t		device;		/* device-id		*/
345 	uint16_t		subven;		/* subsystem-vendor-id	*/
346 	uint16_t		subdev;		/* subsystem-id		*/
347 	uint8_t			revision;	/* revision-id		*/
348 	uint8_t			clsize;		/* cache-line-size	*/
349 	uint8_t			latency;	/* latency-timer	*/
350 	boolean_t		is_pcie;
351 	boolean_t		enable_mac_first;
352 	uint32_t		mac_ver;
353 	uint32_t		phy_ver;
354 	uint32_t		rxconfig;
355 	uint32_t		txconfig;
356 } chip_id_t;
357 
358 typedef struct rge_stats {
359 	uint64_t	rpackets;
360 	uint64_t	rbytes;
361 	uint64_t	opackets;
362 	uint64_t	obytes;
363 	uint32_t	overflow;
364 	uint32_t	defer;		/* dot3StatsDeferredTransmissions */
365 	uint32_t	crc_err;	/* dot3StatsFCSErrors */
366 	uint32_t	in_short;
367 	uint32_t	no_rcvbuf;	/* ifInDiscards */
368 	uint32_t	intr;		/* interrupt count */
369 	uint16_t	chip_reset;
370 	uint16_t	phy_reset;
371 	boolean_t	tx_pre_ismax;
372 	boolean_t	tx_cur_ismax;
373 } rge_stats_t;
374 
375 /*
376  * Per-instance soft-state structure
377  */
378 typedef struct rge {
379 	dev_info_t		*devinfo;	/* device instance	*/
380 	mac_handle_t		mh;		/* mac module handle	*/
381 	ddi_acc_handle_t	cfg_handle;	/* DDI I/O handle	*/
382 	ddi_acc_handle_t	io_handle;	/* DDI I/O handle	*/
383 	caddr_t			io_regs;	/* mapped registers	*/
384 	ddi_periodic_t		periodic_id;	/* periodical callback	*/
385 	ddi_softint_handle_t	resched_hdl;	/* reschedule callback	*/
386 	ddi_softint_handle_t	factotum_hdl;	/* factotum callback	*/
387 	uint_t			soft_pri;
388 	ddi_intr_handle_t 	*htable;	/* For array of interrupts */
389 	int			intr_type;	/* What type of interrupt */
390 	int			intr_rqst;	/* # of request intrs count */
391 	int			intr_cnt;	/* # of intrs count returned */
392 	uint_t			intr_pri;	/* Interrupt priority	*/
393 	int			intr_cap;	/* Interrupt capabilities */
394 	boolean_t		msi_enable;
395 
396 	uint32_t		ethmax_size;
397 	uint32_t		default_mtu;
398 	uint32_t		rxbuf_size;
399 	uint32_t		txbuf_size;
400 	uint32_t		chip_flags;
401 	uint32_t		head_room;
402 	char			ifname[8];	/* "rge0" ... "rge999"	*/
403 	int32_t			instance;
404 	uint32_t		progress;	/* attach tracking	*/
405 	uint32_t		debug;		/* per-instance debug	*/
406 	chip_id_t		chipid;
407 
408 	/*
409 	 * These structures describe the blocks of memory allocated during
410 	 * attach().  They remain unchanged thereafter, although the memory
411 	 * they describe is carved up into various separate regions and may
412 	 * therefore be described by other structures as well.
413 	 */
414 	dma_area_t		dma_area_rxdesc;
415 	dma_area_t		dma_area_txdesc;
416 	dma_area_t		dma_area_stats;
417 				/* describes hardware statistics area	*/
418 
419 	uint8_t			netaddr[ETHERADDRL];	/* mac address	*/
420 	uint16_t		int_mask;	/* interrupt mask	*/
421 
422 	/* used for multicast/promisc mode set */
423 	char			mcast_refs[RGE_MCAST_BUF_SIZE];
424 	uint8_t			mcast_hash[RGE_MCAST_NUM];
425 	boolean_t		promisc;	/* promisc state flag	*/
426 
427 	/* used for recv */
428 	rge_bd_t		*rx_ring;
429 	dma_area_t		rx_desc;
430 	boolean_t		rx_bcopy;
431 	uint32_t		rx_next;	/* current rx bd index	*/
432 	sw_rbd_t		*sw_rbds;
433 	sw_rbd_t		*free_srbds;
434 	uint32_t		rf_next;	/* current free buf index */
435 	uint32_t		rc_next;	/* current recycle buf index */
436 	uint32_t		rx_free;	/* number of rx free buf */
437 
438 	/* used for send */
439 	rge_bd_t		*tx_ring;
440 	dma_area_t		tx_desc;
441 	uint32_t		tx_free;	/* number of free tx bd */
442 	uint32_t		tx_next;	/* current tx bd index	*/
443 	uint32_t		tc_next;	/* current tx recycle index */
444 	uint32_t		tx_flow;
445 	uint32_t		tc_tail;
446 	sw_sbd_t		*sw_sbds;
447 
448 	/* mutex */
449 	kmutex_t		genlock[1];	/* i/o reg access	*/
450 	krwlock_t		errlock[1];	/* rge restart */
451 	kmutex_t		tx_lock[1];	/* send access		*/
452 	kmutex_t		tc_lock[1];	/* send recycle access */
453 	kmutex_t		rx_lock[1];	/* receive access	*/
454 	kmutex_t		rc_lock[1];	/* receive recycle access */
455 
456 	/*
457 	 * Miscellaneous operating variables (not synchronised)
458 	 */
459 	uint32_t		watchdog;	/* watches for Tx stall	*/
460 	boolean_t		resched_needed;
461 	uint32_t		factotum_flag;	/* softint pending	*/
462 
463 	/*
464 	 * Physical layer
465 	 */
466 	rge_regno_t		phy_mii_addr;	/* should be (const) 1!	*/
467 	uint16_t		link_down_count;
468 
469 	/*
470 	 * NDD parameters (protected by genlock)
471 	 */
472 	caddr_t			nd_data_p;
473 	nd_param_t		nd_params[PARAM_COUNT];
474 
475 	/*
476 	 * Driver kstats, protected by <genlock> where necessary
477 	 */
478 	kstat_t			*rge_kstats[RGE_KSTAT_COUNT];
479 
480 	/* H/W statistics */
481 	rge_hw_stats_t		*hw_stats;
482 	rge_stats_t		stats;
483 	enum rge_mac_state	rge_mac_state;	/* definitions above	*/
484 	enum rge_chip_state	rge_chip_state;	/* definitions above	*/
485 
486 	boolean_t		suspended;
487 
488 	/*
489 	 * Polling
490 	 */
491 #define	TX_COALESC	max(RGE_BUF_SLOTS/32LL, 8)
492 #define	RX_COALESC	8LL
493 #define	CLK_TICK	100
494 	clock_t			curr_tick;
495 	clock_t			tick_delta;
496 	uint64_t		last_opackets;
497 	uint64_t		last_rpackets;
498 	uint32_t		rx_fifo_ovf;
499 } rge_t;
500 
501 /*
502  * 'Progress' bit flags ...
503  */
504 #define	PROGRESS_CFG		0x0001	/* config space mapped		*/
505 #define	PROGRESS_REGS		0x0002	/* registers mapped		*/
506 #define	PROGRESS_RESCHED	0x0010	/* resched softint registered	*/
507 #define	PROGRESS_FACTOTUM	0x0020	/* factotum softint registered	*/
508 #define	PROGRESS_INTR		0X0040	/* h/w interrupt registered	*/
509 					/* and mutexen initialised	*/
510 #define	PROGRESS_INIT		0x0080	/* rx/buf/tx ring initialised	*/
511 #define	PROGRESS_PHY		0x0100	/* PHY initialised		*/
512 #define	PROGRESS_NDD		0x1000	/* NDD parameters set up	*/
513 #define	PROGRESS_KSTATS		0x2000	/* kstats created		*/
514 #define	PROGRESS_READY		0x8000	/* ready for work		*/
515 
516 /*
517  * Special chip flags
518  */
519 #define	CHIP_FLAG_FORCE_BCOPY	0x10000000
520 
521 /*
522  * Shorthand for the NDD parameters
523  */
524 #define	param_adv_autoneg	nd_params[PARAM_ADV_AUTONEG_CAP].ndp_val
525 #define	param_adv_pause		nd_params[PARAM_ADV_PAUSE_CAP].ndp_val
526 #define	param_adv_asym_pause	nd_params[PARAM_ADV_ASYM_PAUSE_CAP].ndp_val
527 #define	param_adv_1000fdx	nd_params[PARAM_ADV_1000FDX_CAP].ndp_val
528 #define	param_adv_1000hdx	nd_params[PARAM_ADV_1000HDX_CAP].ndp_val
529 #define	param_adv_100fdx	nd_params[PARAM_ADV_100FDX_CAP].ndp_val
530 #define	param_adv_100hdx	nd_params[PARAM_ADV_100HDX_CAP].ndp_val
531 #define	param_adv_10fdx		nd_params[PARAM_ADV_10FDX_CAP].ndp_val
532 #define	param_adv_10hdx		nd_params[PARAM_ADV_10HDX_CAP].ndp_val
533 
534 #define	param_link_up		nd_params[PARAM_LINK_STATUS].ndp_val
535 #define	param_link_speed	nd_params[PARAM_LINK_SPEED].ndp_val
536 #define	param_link_duplex	nd_params[PARAM_LINK_DUPLEX].ndp_val
537 
538 #define	param_loop_mode		nd_params[PARAM_LOOP_MODE].ndp_val
539 
540 /*
541  * Sync a DMA area described by a dma_area_t
542  */
543 #define	DMA_SYNC(area, flag)	((void) ddi_dma_sync((area).dma_hdl,	\
544 				    (area).offset, (area).alength, (flag)))
545 
546 /*
547  * Find the (kernel virtual) address of block of memory
548  * described by a dma_area_t
549  */
550 #define	DMA_VPTR(area)		((area).mem_va)
551 
552 /*
553  * Zero a block of memory described by a dma_area_t
554  */
555 #define	DMA_ZERO(area)		bzero(DMA_VPTR(area), (area).alength)
556 
557 /*
558  * Next/Last value of a cyclic index
559  */
560 #define	NEXT(index, limit)	((index)+1 < (limit) ? (index)+1 : 0);
561 #define	LAST(index, limit)	((index) ? (index)-1 : (limit - 1));
562 /*
563  * Property lookups
564  */
565 #define	RGE_PROP_EXISTS(d, n)	ddi_prop_exists(DDI_DEV_T_ANY, (d),	\
566 					DDI_PROP_DONTPASS, (n))
567 #define	RGE_PROP_GET_INT(d, n)	ddi_prop_get_int(DDI_DEV_T_ANY, (d),	\
568 					DDI_PROP_DONTPASS, (n), -1)
569 
570 /*
571  * Endian swap
572  */
573 #ifdef	_BIG_ENDIAN
574 #define	RGE_BSWAP_16(x)		((((x) & 0xff00) >> 8)	|		\
575 				    (((x) & 0x00ff) << 8))
576 #define	RGE_BSWAP_32(x)		((((x) & 0xff000000) >> 24)	|	\
577 				    (((x) & 0x00ff0000) >> 8)	|	\
578 				    (((x) & 0x0000ff00) << 8)	|	\
579 				    (((x) & 0x000000ff) << 24))
580 #define	RGE_BSWAP_64(x)		(RGE_BSWAP_32((x) >> 32)	|	\
581 				    (RGE_BSWAP_32(x) << 32))
582 #else
583 #define	RGE_BSWAP_16(x)		(x)
584 #define	RGE_BSWAP_32(x)		(x)
585 #define	RGE_BSWAP_64(x)		(x)
586 #endif
587 
588 /*
589  * Bit test macros, returning boolean_t values
590  */
591 #define	BIS(w, b)	(((w) & (b)) ? B_TRUE : B_FALSE)
592 #define	BIC(w, b)	(((w) & (b)) ? B_FALSE : B_TRUE)
593 #define	UPORDOWN(x)	((x) ? "up" : "down")
594 
595 /*
596  * Bit flags in the 'debug' word ...
597  */
598 #define	RGE_DBG_STOP		0x00000001	/* early debug_enter()	*/
599 #define	RGE_DBG_TRACE		0x00000002	/* general flow tracing	*/
600 
601 #define	RGE_DBG_REGS		0x00000010	/* low-level accesses	*/
602 #define	RGE_DBG_MII		0x00000020	/* low-level MII access	*/
603 #define	RGE_DBG_SEEPROM		0x00000040	/* low-level SEEPROM IO	*/
604 #define	RGE_DBG_CHIP		0x00000080	/* low(ish)-level code	*/
605 
606 #define	RGE_DBG_RECV		0x00000100	/* receive-side code	*/
607 #define	RGE_DBG_SEND		0x00000200	/* packet-send code	*/
608 
609 #define	RGE_DBG_INT		0x00001000	/* interrupt handler	*/
610 #define	RGE_DBG_FACT		0x00002000	/* factotum (softint)	*/
611 
612 #define	RGE_DBG_PHY		0x00010000	/* Copper PHY code	*/
613 #define	RGE_DBG_SERDES		0x00020000	/* SerDes code		*/
614 #define	RGE_DBG_PHYS		0x00040000	/* Physical layer code	*/
615 #define	RGE_DBG_LINK		0x00080000	/* Link status check	*/
616 
617 #define	RGE_DBG_INIT		0x00100000	/* initialisation	*/
618 #define	RGE_DBG_NEMO		0x00200000	/* nemo interaction	*/
619 #define	RGE_DBG_ADDR		0x00400000	/* address-setting code	*/
620 #define	RGE_DBG_STATS		0x00800000	/* statistics		*/
621 
622 #define	RGE_DBG_IOCTL		0x01000000	/* ioctl handling	*/
623 #define	RGE_DBG_LOOP		0x02000000	/* loopback ioctl code	*/
624 #define	RGE_DBG_PPIO		0x04000000	/* Peek/poke ioctls	*/
625 #define	RGE_DBG_BADIOC		0x08000000	/* unknown ioctls	*/
626 
627 #define	RGE_DBG_MCTL		0x10000000	/* mctl (csum) code	*/
628 #define	RGE_DBG_NDD		0x20000000	/* NDD operations	*/
629 
630 /*
631  * Debugging ...
632  */
633 #ifdef	DEBUG
634 #define	RGE_DEBUGGING		1
635 #else
636 #define	RGE_DEBUGGING		0
637 #endif	/* DEBUG */
638 
639 
640 /*
641  * 'Do-if-debugging' macro.  The parameter <command> should be one or more
642  * C statements (but without the *final* semicolon), which will either be
643  * compiled inline or completely ignored, depending on the RGE_DEBUGGING
644  * compile-time flag.
645  *
646  * You should get a compile-time error (at least on a DEBUG build) if
647  * your statement isn't actually a statement, rather than unexpected
648  * run-time behaviour caused by unintended matching of if-then-elses etc.
649  *
650  * Note that the RGE_DDB() macro itself can only be used as a statement,
651  * not an expression, and should always be followed by a semicolon.
652  */
653 #if	RGE_DEBUGGING
654 #define	RGE_DDB(command)	do {					\
655 					{ command; }			\
656 					_NOTE(CONSTANTCONDITION)	\
657 				} while (0)
658 #else 	/* RGE_DEBUGGING */
659 #define	RGE_DDB(command)	do {					\
660 					{ _NOTE(EMPTY); }		\
661 					_NOTE(CONSTANTCONDITION)	\
662 				} while (0)
663 #endif	/* RGE_DEBUGGING */
664 
665 /*
666  * 'Internal' macros used to construct the TRACE/DEBUG macros below.
667  * These provide the primitive conditional-call capability required.
668  * Note: the parameter <args> is a parenthesised list of the actual
669  * printf-style arguments to be passed to the debug function ...
670  */
671 #define	RGE_XDB(b, w, f, args)	RGE_DDB(if ((b) & (w)) f args)
672 #define	RGE_GDB(b, args)	RGE_XDB(b, rge_debug, (*rge_gdb()), args)
673 #define	RGE_LDB(b, args)	RGE_XDB(b, rgep->debug, (*rge_db(rgep)), args)
674 #define	RGE_CDB(f, args)	RGE_XDB(RGE_DBG, rgep->debug, f, args)
675 
676 /*
677  * Conditional-print macros.
678  *
679  * Define RGE_DBG to be the relevant member of the set of RGE_DBG_* values
680  * above before using the RGE_GDEBUG() or RGE_DEBUG() macros.  The 'G'
681  * versions look at the Global debug flag word (rge_debug); the non-G
682  * versions look in the per-instance data (rgep->debug) and so require a
683  * variable called 'rgep' to be in scope (and initialised!) before use.
684  *
685  * You could redefine RGE_TRC too if you really need two different
686  * flavours of debugging output in the same area of code, but I don't
687  * really recommend it.
688  *
689  * Note: the parameter <args> is a parenthesised list of the actual
690  * arguments to be passed to the debug function, usually a printf-style
691  * format string and corresponding values to be formatted.
692  */
693 
694 #define	RGE_TRC			RGE_DBG_TRACE	/* default 'trace' bit	*/
695 #define	RGE_GTRACE(args)	RGE_GDB(RGE_TRC, args)
696 #define	RGE_GDEBUG(args)	RGE_GDB(RGE_DBG, args)
697 #define	RGE_TRACE(args)		RGE_LDB(RGE_TRC, args)
698 #define	RGE_DEBUG(args)		RGE_LDB(RGE_DBG, args)
699 
700 /*
701  * Debug-only action macros
702  */
703 #define	RGE_BRKPT(rgep, s)	RGE_DDB(rge_dbg_enter(rgep, s))
704 #define	RGE_MARK(rgep)		RGE_DDB(rge_led_mark(rgep))
705 #define	RGE_PCICHK(rgep)	RGE_DDB(rge_pci_check(rgep))
706 #define	RGE_PKTDUMP(args)	RGE_DDB(rge_pkt_dump args)
707 #define	RGE_REPORT(args)	RGE_DDB(rge_log args)
708 
709 /*
710  * Inter-source-file linkage ...
711  */
712 
713 /* rge_chip.c */
714 uint16_t rge_mii_get16(rge_t *rgep, uintptr_t mii);
715 void rge_mii_put16(rge_t *rgep, uintptr_t mii, uint16_t data);
716 void rge_chip_cfg_init(rge_t *rgep, chip_id_t *cidp);
717 void rge_chip_ident(rge_t *rgep);
718 int rge_chip_reset(rge_t *rgep);
719 void rge_chip_init(rge_t *rgep);
720 void rge_chip_start(rge_t *rgep);
721 void rge_chip_stop(rge_t *rgep, boolean_t fault);
722 void rge_chip_sync(rge_t *rgep, enum rge_sync_op todo);
723 void rge_chip_blank(void *arg, time_t ticks, uint_t count, int flag);
724 void rge_tx_trigger(rge_t *rgep);
725 void rge_hw_stats_dump(rge_t *rgep);
726 uint_t rge_intr(caddr_t arg1, caddr_t arg2);
727 uint_t rge_chip_factotum(caddr_t arg1, caddr_t arg2);
728 void rge_chip_cyclic(void *arg);
729 enum ioc_reply rge_chip_ioctl(rge_t *rgep, queue_t *wq, mblk_t *mp,
730 	struct iocblk *iocp);
731 boolean_t rge_phy_reset(rge_t *rgep);
732 void rge_phy_init(rge_t *rgep);
733 void rge_phy_update(rge_t *rgep);
734 
735 /* rge_kstats.c */
736 void rge_init_kstats(rge_t *rgep, int instance);
737 void rge_fini_kstats(rge_t *rgep);
738 int rge_m_stat(void *arg, uint_t stat, uint64_t *val);
739 
740 /* rge_log.c */
741 #if	RGE_DEBUGGING
742 void (*rge_db(rge_t *rgep))(const char *fmt, ...);
743 void (*rge_gdb(void))(const char *fmt, ...);
744 void rge_pkt_dump(rge_t *rgep, rge_bd_t *hbp, sw_rbd_t *sdp, const char *msg);
745 void rge_dbg_enter(rge_t *rgep, const char *msg);
746 #endif	/* RGE_DEBUGGING */
747 void rge_problem(rge_t *rgep, const char *fmt, ...);
748 void rge_notice(rge_t *rgep, const char *fmt, ...);
749 void rge_log(rge_t *rgep, const char *fmt, ...);
750 void rge_error(rge_t *rgep, const char *fmt, ...);
751 extern kmutex_t rge_log_mutex[1];
752 extern uint32_t rge_debug;
753 
754 /* rge_main.c */
755 void rge_restart(rge_t *rgep);
756 
757 /* rge_ndd.c */
758 int rge_nd_init(rge_t *rgep);
759 enum ioc_reply rge_nd_ioctl(rge_t *rgep, queue_t *wq, mblk_t *mp,
760 	struct iocblk *iocp);
761 void rge_nd_cleanup(rge_t *rgep);
762 
763 /* rge_rxtx.c */
764 void rge_rx_recycle(caddr_t arg);
765 void rge_receive(rge_t *rgep);
766 void rge_send_recycle(rge_t *rgep);
767 mblk_t *rge_m_tx(void *arg, mblk_t *mp);
768 uint_t rge_reschedule(caddr_t arg1, caddr_t arg2);
769 
770 #ifdef __cplusplus
771 }
772 #endif
773 
774 #endif	/* _RGE_H */
775