xref: /titanic_50/usr/src/uts/sun4u/montecarlo/sys/mct_topology.h (revision da2e3ebdc1edfbc5028edf1354e7dd2fa69a7968)
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, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright (c) 1999, 2000 by Sun Microsystems, Inc.
24  * All rights reserved.
25  */
26 
27 #ifndef	_MONTECARLO_SYS_MCT_TOPOLOGY_H
28 #define	_MONTECARLO_SYS_MCT_TOPOLOGY_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 #ifdef	__cplusplus
33 extern "C" {
34 #endif
35 
36 /*
37  * mct_topology.h
38  * MonteCarlo / Tonga topology structures and types for the scsb driver
39  * and its kstat structure "env_topology", to be available to applications
40  * like envmond and snmp agents.
41  */
42 /*
43  * SCB information also defined in scsb.h, which file is not available to
44  * applications.
45  */
46 #define	SCB_P10_NOK_LED_REGS	4
47 #define	SCB_P10_OK_LED_REGS	4
48 #define	SCB_P10_BLINK_LED_REGS	2
49 #define	SCB_P10_LED_REGS	10
50 #define	SCB_P15_NOK_LED_REGS	3
51 #define	SCB_P15_OK_LED_REGS	3
52 #define	SCB_P15_BLINK_LED_REGS	3
53 #define	SCB_P15_LED_REGS	9
54 
55 /* Save this existing definition, but use it as the MAX */
56 #define	SCSB_LEDDATA_REGISTERS	SCB_P10_LED_REGS
57 
58 #define	MC_MAX_SLOTS		8	/* CPU, ALRM, cPCI Slots */
59 #define	MC_MAX_FAN		2
60 #define	MC_MAX_PDU		2
61 #define	MC_MAX_PS		2
62 #define	MC_MAX_DISK		3
63 #define	MC_MAX_SCB		1
64 #define	MC_MAX_AC		1
65 #define	MC_MAX_CFTM		1
66 #define	MC_MAX_CRTM		1
67 #define	MC_MAX_PRTM		1
68 
69 #define	TG_MAX_SLOTS		5	/* CPU, ALRM, cPCI Slots */
70 #define	TG_MAX_FAN		2
71 #define	TG_MAX_PS		1
72 #define	TG_MAX_PDU		1
73 #define	TG_MAX_DISK		1
74 #define	TG_MAX_SCB		1
75 #define	TG_MAX_AC		1
76 #define	TG_MAX_CFTM		1
77 #define	TG_MAX_CRTM		1
78 #define	TG_MAX_PRTM		1
79 
80 /*
81  * Maximum number of FRUs in MCT systems,
82  * used for sizeof fru_id_table[] and index check
83  */
84 #define	MCT_MAX_FRUS		32
85 
86 /*
87  * The I2C addresses of System I2C devices
88  * from "MonteCarlo: Programming Interface Specifications" Version 0.9
89  */
90 #define	MCT_I2C_CPUPWR		0x72
91 #define	MCT_I2C_FAN1		0x74
92 #define	MCT_I2C_FAN2		0x76
93 #define	MCT_I2C_FAN3		0x78
94 #define	MCT_I2C_PS1		0x7c
95 #define	MCT_I2C_PS2		0x7e
96 #define	MCT_I2C_SCB		0x80
97 #define	MCT_I2C_CPUTEMP		0x9e
98 
99 /*
100  * CFG1_MPID masks
101  */
102 #define	SCTRL_MPID_MASK			0xf
103 #define	SCTRL_MPID_HALF			0x0
104 #define	SCTRL_MPID_QUARTER		0x1
105 #define	SCTRL_MPID_QUARTER_NODSK	0x3
106 
107 /*
108  * Interrupt Event Codes
109  * Also used by "scsb" to locate fruid_table index,
110  * so the order is very important.
111  */
112 #define	SCTRL_EVENT_NONE		0x0000
113 #define	SCTRL_EVENT_SLOT1		0x00000001
114 #define	SCTRL_EVENT_SLOT2		0x00000002
115 #define	SCTRL_EVENT_SLOT3		0x00000004
116 #define	SCTRL_EVENT_SLOT4		0x00000008
117 #define	SCTRL_EVENT_SLOT5		0x00000010
118 #define	SCTRL_EVENT_SLOT6		0x00000020
119 #define	SCTRL_EVENT_SLOT7		0x00000040
120 #define	SCTRL_EVENT_SLOT8		0x00000080
121 #define	SCTRL_EVENT_SLOT9		0x00000100
122 #define	SCTRL_EVENT_SLOT10		0x00000200
123 #define	SCTRL_EVENT_PDU1		0x00000400
124 #define	SCTRL_EVENT_PDU2		0x00000800
125 #define	SCTRL_EVENT_PS1			0x00001000
126 #define	SCTRL_EVENT_PS2			0x00002000
127 #define	SCTRL_EVENT_DISK1		0x00004000
128 #define	SCTRL_EVENT_DISK2		0x00008000
129 #define	SCTRL_EVENT_DISK3		0x00010000
130 #define	SCTRL_EVENT_FAN1		0x00020000
131 #define	SCTRL_EVENT_FAN2		0x00040000
132 #define	SCTRL_EVENT_FAN3		0x00080000
133 #define	SCTRL_EVENT_ALARM		0x00100000
134 #define	SCTRL_EVENT_SCB			0x00200000
135 #define	SCTRL_EVENT_SSB			0x00400000
136 #define	SCTRL_EVENT_CRTM		0x00800000
137 #define	SCTRL_EVENT_CFTM		0x01000000
138 #define	SCTRL_EVENT_PRTM		0x02000000
139 #define	SCTRL_EVENT_PWRDWN		0x04000000
140 #define	SCTRL_EVENT_REPLACE		0x08000000
141 #define	SCTRL_EVENT_ALARM_INT		0x10000000
142 #define	SCTRL_EVENT_ALARM_INSERTION	0x20000000
143 #define	SCTRL_EVENT_ALARM_REMOVAL	0x40000000
144 #define	SCTRL_EVENT_OTHER		0x80000000
145 
146 
147 
148 typedef	uchar_t		topo_id_t;
149 typedef	uchar_t		fru_id_t;
150 typedef	uint16_t	fru_version_t;
151 typedef	uint16_t	fru_max_t;
152 typedef	uint16_t	scsb_unum_t;
153 
154 typedef	enum {
155 	MCT_HEALTH_NA	= 0,
156 	MCT_HEALTH_OK	= 1,
157 	MCT_HEALTH_NOK	= 2
158 } fru_health_t;
159 
160 /*
161  * Known MC/Tg Slot occupants, and UNKN for unknown
162  * NOTE: the CTC occupant is the CFTM FRU type on MonteCarlo
163  */
164 typedef enum {
165 	OC_UNKN	= 0,
166 	OC_CPU	= 1,
167 	OC_AC	= 2,
168 	OC_BHS	= 3,
169 	OC_FHS	= 4,
170 	OC_HAHS	= 5,
171 	OC_QFE	= 6,
172 	OC_FRCH	= 7,
173 	OC_COMBO = 8,
174 	OC_PMC	= 9,
175 	OC_ATM	= 10,
176 	OC_CTC	= 11
177 } mct_slot_occupant_t;
178 
179 typedef enum {
180 	SLOT	= 0,
181 	PDU	= 1,
182 	PS	= 2,
183 	DISK	= 3,
184 	FAN	= 4,
185 	ALARM	= 5,
186 	SCB	= 6,
187 	SSB	= 7,
188 	CFTM	= 8,
189 	CRTM	= 9,
190 	PRTM	= 10,
191 	MIDPLANE = 11
192 } scsb_utype_t;
193 
194 #define	SCSB_UNIT_TYPES		11	/* w/o MIDPLANE	*/
195 
196 typedef enum scsb_fru_status {
197 	FRU_NOT_PRESENT,
198 	FRU_PRESENT,
199 	FRU_NOT_AVAILABLE
200 } scsb_fru_status_t;
201 
202 typedef enum {
203 	SWAP_NOT, SWAP_BASIC, SWAP_FULL, SWAP_HA
204 } cpci_swap_type_t;
205 
206 typedef struct fru_options {
207 	char			*board_name;
208 	cpci_swap_type_t	swap_type;
209 	struct fru_options	*next;
210 } fru_options_t;
211 
212 typedef struct fru_i2c_info {
213 	uchar_t		syscfg_reg;
214 	uchar_t		syscfg_bit;
215 	uchar_t		ledata_reg;
216 	uchar_t		ledata_bit;
217 	uchar_t		blink_reg;
218 	uchar_t		blink_bit;
219 } fru_i2c_info_t;
220 
221 typedef struct fru_info {
222 	scsb_fru_status_t fru_status;	/* FRU present status		*/
223 	scsb_unum_t	fru_unit;	/* FRU external unit number	*/
224 	scsb_utype_t	fru_type;	/* also an index to FRU lists	*/
225 	fru_id_t	fru_id;		/* I2C address, SCSIID, Slot Num */
226 	fru_version_t	fru_version;	/* version number where possible */
227 	fru_options_t	*type_list;	/* list of possible boards for slots */
228 	fru_i2c_info_t	*i2c_info;	/* for I2C devices		*/
229 	struct fru_info	*next;
230 } fru_info_t;
231 
232 struct system_info {
233 	fru_info_t	mid_plane;	/* one always present		*/
234 	fru_max_t	max_units[SCSB_UNIT_TYPES];
235 	fru_info_t	*fru_info_list[SCSB_UNIT_TYPES];
236 };
237 
238 /*
239  * scsb kstat types
240  */
241 #define	SCSB_KS_LEDDATA		"scsb_leddata"
242 #define	SCSB_KS_STATE		"scsb_state"
243 #define	SCSB_KS_EVC_REGISTER	"scsb_evc_register"
244 #define	SCSB_KS_TOPOLOGY	"env_topology"
245 
246 typedef struct ks_fru_info {
247 	scsb_fru_status_t fru_status;	/* FRU presence/availability status  */
248 	scsb_unum_t	fru_unit;	/* FRU external unit number	*/
249 	scsb_utype_t	fru_type;	/* and occupant type for solts	*/
250 	fru_id_t	fru_id;		/* I2C address, SCSIID, Slot Num */
251 	fru_version_t	fru_version;	/* version number where possible */
252 	fru_health_t	fru_health;	/* From NOK LED, if available	*/
253 } ks_fru_info_t;
254 
255 typedef union scsb_leddata {
256 	uchar_t		scb_led_regs[SCSB_LEDDATA_REGISTERS];
257 	union {
258 		struct {
259 			uchar_t	nok_leds[SCB_P10_NOK_LED_REGS];
260 			uchar_t	 ok_leds[SCB_P10_OK_LED_REGS];
261 			uchar_t	blink_leds[SCB_P10_BLINK_LED_REGS];
262 		} p10;
263 		struct {
264 			uchar_t	nok_leds[SCB_P15_NOK_LED_REGS];
265 			uchar_t	 ok_leds[SCB_P15_OK_LED_REGS];
266 			uchar_t	blink_leds[SCB_P15_BLINK_LED_REGS];
267 		} p15;
268 	} leds;
269 } scsb_ks_leddata_t;
270 
271 typedef struct {
272 	uint8_t		scb_present;		/* SCB is present	  */
273 	uint8_t		ssb_present;		/* SSB is present	  */
274 	uint8_t		scsb_frozen;		/* SCB swap state	  */
275 	uint8_t		scsb_mode;		/* driver access mode	  */
276 	uint8_t		unused_1;
277 	uint8_t		unused_2;
278 	uint8_t		unused_3;
279 	uint8_t		unused_4;
280 	uint32_t	event_code;		/* event code bit map	  */
281 } scsb_ks_state_t;
282 
283 typedef struct {
284 	ks_fru_info_t	mid_plane;
285 	fru_max_t	max_units[SCSB_UNIT_TYPES];
286 	ks_fru_info_t	mct_slots[MC_MAX_SLOTS];
287 	ks_fru_info_t	mct_pdu[MC_MAX_PDU];
288 	ks_fru_info_t	mct_ps[MC_MAX_PS];
289 	ks_fru_info_t	mct_disk[MC_MAX_DISK];
290 	ks_fru_info_t	mct_fan[MC_MAX_FAN];
291 	ks_fru_info_t	mct_scb[MC_MAX_SCB];
292 	ks_fru_info_t	mct_ssb[MC_MAX_SCB];
293 	ks_fru_info_t	mct_alarm[MC_MAX_AC];
294 	ks_fru_info_t	mct_cftm[MC_MAX_CFTM];
295 	ks_fru_info_t	mct_crtm[MC_MAX_CRTM];
296 	ks_fru_info_t	mct_prtm[MC_MAX_PRTM];
297 } mct_topology_t;
298 
299 #ifdef	__cplusplus
300 }
301 #endif
302 
303 #endif	/* _MONTECARLO_SYS_MCT_TOPOLOGY_H */
304