xref: /titanic_41/usr/src/uts/sun4u/starcat/sys/axq.h (revision cde2885fdf538266ee2a3b08dee2d5075ce8fa2b)
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 /*
23  * Copyright 2002 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef _SYS_AXQ_H
28 #define	_SYS_AXQ_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 #ifdef	__cplusplus
33 extern "C" {
34 #endif
35 
36 /* AXQ register offset constant */
37 #define	AXQ_REG_OFFSET		0x20
38 #define	AXQ_REGOFF(idx)		((idx) * AXQ_REG_OFFSET)
39 
40 /*
41  * AXQ system register offsets
42  * Each Starcat AXQ asic instance is logically
43  * associated with each slot in the expander board.
44  * Slot 0 is the full slot (or full bandwidth slot)
45  * and Slot1 is the half slot (or half bandwidth slot).
46  * Some system registers are only accessible in certain
47  * slot type.
48  */
49 
50 /* domain control register (slot0 & slot1) */
51 #define	AXQ_SLOT0_DOMCTRL	AXQ_REGOFF(0x1)
52 #define	AXQ_SLOT1_DOMCTRL	AXQ_REGOFF(0x2)
53 
54 /* cpu2ssc intr register */
55 #define	AXQ_SLOT_CPU2SSC_INTR	AXQ_REGOFF(0x3)
56 
57 /* performance counters (one set per slot) */
58 #define	AXQ_SLOT0_PERFCNT_SEL	AXQ_REGOFF(0x9)
59 #define	AXQ_SLOT0_PERFCNT0	AXQ_REGOFF(0xA)
60 #define	AXQ_SLOT0_PERFCNT1	AXQ_REGOFF(0xB)
61 #define	AXQ_SLOT0_PERFCNT2	AXQ_REGOFF(0xC)
62 #define	AXQ_SLOT1_PERFCNT_SEL	AXQ_REGOFF(0x8)
63 #define	AXQ_SLOT1_PERFCNT0	AXQ_REGOFF(0xD)
64 #define	AXQ_SLOT1_PERFCNT1	AXQ_REGOFF(0xE)
65 #define	AXQ_SLOT1_PERFCNT2	AXQ_REGOFF(0xF)
66 
67 /* CASM slots (for both slot0 & slot1) */
68 #define	AXQ_CASM_SLOT_START	AXQ_REGOFF(0x10)
69 #define	AXQ_CASM_SLOT_END	AXQ_REGOFF(0x21)
70 
71 /* CDC registers (only available in slot0) */
72 #define	AXQ_SLOT0_CDC_ADR_TEST	AXQ_REGOFF(0x2C)
73 #define	AXQ_SLOT0_CDC_CTL_TEST	AXQ_REGOFF(0x2D)
74 #define	AXQ_SLOT0_CDC_DATA_WR3	AXQ_REGOFF(0x2E)
75 #define	AXQ_SLOT0_CDC_DATA_WR2	AXQ_REGOFF(0x2F)
76 #define	AXQ_SLOT0_CDC_DATA_WR1	AXQ_REGOFF(0x30)
77 #define	AXQ_SLOT0_CDC_DATA_WR0	AXQ_REGOFF(0x31)
78 #define	AXQ_SLOT0_CDC_CNT_TEST	AXQ_REGOFF(0x32)
79 #define	AXQ_SLOT0_CDC_RD_DATA3	AXQ_REGOFF(0x33)
80 #define	AXQ_SLOT0_CDC_RD_DATA2	AXQ_REGOFF(0x34)
81 #define	AXQ_SLOT0_CDC_RD_DATA1	AXQ_REGOFF(0x35)
82 #define	AXQ_SLOT0_CDC_RD_DATA0	AXQ_REGOFF(0x36)
83 
84 /* NASM registers */
85 #define	AXQ_SLOT0_NASM		AXQ_REGOFF(0x37)
86 #define	AXQ_SLOT1_NASM		AXQ_REGOFF(0x38)
87 
88 #define	AXQ_NASM_TYPE_IO		0
89 #define	AXQ_NASM_TYPE_SLOT0_CMMU	1
90 #define	AXQ_NASM_TYPE_WIB		2
91 #define	AXQ_NASM_TYPE_WIB_STRIPED	3
92 #define	AXQ_NASM_TYPE_SHIFT		5
93 
94 /* SDI Timeout register */
95 #define	AXQ_SLOT_SDI_TIMEOUT_RD		AXQ_REGOFF(0x2A)
96 #define	AXQ_SLOT_SDI_TIMEOUT_RDCLR	AXQ_REGOFF(0x2B)
97 
98 /*
99  * Bits for domain control register
100  */
101 #define	AXQ_DOMCTRL_BUSY	0x1
102 #define	AXQ_DOMCTRL_PAUSE	0x10
103 #define	AXQ_DOMCTRL_PIOFIX	0x40
104 
105 /*
106  * Bits for CDC registers
107  */
108 /* CDC control test register */
109 #define	AXQ_CDC_TMODE_WR		0x20000
110 #define	AXQ_CDC_TMODE_RDCMP		0x40000
111 #define	AXQ_CDC_TMODE_WR_RDCMP0		0x60000
112 #define	AXQ_CDC_TMODE_WR_RDCMP1		0x80000
113 #define	AXQ_CDC_DATA_ECC_CHK_EN		0x10000
114 #define	AXQ_CDC_ADR_PAR_CHK_EN		0x08000
115 #define	AXQ_CDC_DATA_ECC_GEN_EN		0x04000
116 #define	AXQ_CDC_ADR_PAR_GEN_EN		0x02000
117 #define	AXQ_CDC_DATA2PAR_MUX_SEL_DATA	0x00800
118 #define	AXQ_CDC_ADR2SRAM_MUX_SEL_TEST	0x00080
119 #define	AXQ_CDC_ADR_INCR_XOR_CTRL	0x00010
120 #define	AXQ_CDC_DIS			0x00001
121 
122 /* CDC Address Test register */
123 #define	AXQ_CDC_ADR_TEST_EN		0x80000
124 
125 /* CDC counter test register */
126 #define	AXQ_CDC_CNT_TEST_DONE		0x80000000
127 
128 /*
129  * Bits for CPU to SSC interrupt register
130  */
131 #define	AXQ_CPU2SSC_INTR_PEND		0x80000000
132 
133 /*
134  * Each AXQ instance has one pcr (performance control
135  * register) controlling 3 pics (performance instru-
136  * mentation counter).  pic0 and pic1 are similar
137  * and have identical inputs to their muxes. pic2
138  * only counts the clock.
139  */
140 
141 /* Bit masks for selecting pic mux input */
142 #define	FREEZE_CNT	0x0
143 #define	COUNT_CLK	0x1
144 #define	HA_INPUT_FIFO	0x2
145 #define	HA_INTR_INFO	0x3
146 #define	HA_PIO_FIFO	0x4
147 #define	HA_ADR_FIFO_LK3	0x5
148 #define	HA_ADR_FIFO_LK2	0x6
149 #define	HA_ADR_FIFO_LK1	0x7
150 #define	HA_ADR_FIFO_LK0	0x8
151 #define	HA_DUMP_Q	0x9
152 #define	HA_RD_F_STB_Q	0xA
153 #define	HA_DP_WR_Q	0xB
154 #define	HA_INT_Q	0xC
155 #define	HA_WRB_Q	0xD
156 #define	HA_WR_MP_Q	0xE
157 #define	HA_WRTAG_Q	0xF
158 #define	HA_WT_WAIT_FIFO	0x10
159 #define	HA_WRB_STB_FIFO	0x11
160 #define	HA_AP0_Q	0x12
161 #define	HA_AP1_Q	0x13
162 #define	HA_NEW_WR_Q	0x14
163 #define	HA_DP_RD_Q	0x15
164 #define	HA_UNLOCK_Q	0x16
165 #define	HA_CDC_UPD_Q	0x17
166 #define	HA_DS_Q		0x18
167 #define	HA_UNLK_WAIT_Q	0x19
168 #define	HA_RD_MP_Q	0x1A
169 #define	L2_IO_Q		0x1B
170 #define	L2_SB_Q		0x1C
171 #define	L2_RA_Q		0x1D
172 #define	L2_HA_Q		0x1E
173 #define	L2_SA_Q		0x1F
174 #define	RA_WAIT_FIFO	0x20
175 #define	RA_WRB_INV_FIFO	0x21
176 #define	RA_WRB_FIFO	0x22
177 #define	RA_CC_PTR_FIFO	0x23
178 #define	RA_IO_PTR_FIFO	0x24
179 #define	RA_INT_PTR_FIFO	0x25
180 #define	RA_RP_Q		0x26
181 #define	RA_WRB_RP_Q	0x27
182 #define	RA_DP_Q		0x28
183 #define	RA_DP_STB_Q	0x29
184 #define	RA_GTARG_Q	0x2A
185 #define	SDC_RECV_Q	0x2B
186 #define	SDC_REDIR_IO_Q	0x2C
187 #define	SDC_REDIR_SB_Q	0x2D
188 #define	SDC_OUTB_IO_Q	0x2E
189 #define	SDC_OUTB_SB_Q	0x2F
190 #define	SA_ADD1_INPUT_Q	0x30
191 #define	SA_ADD2_INPUT_Q	0x31
192 #define	SA_INV_Q	0x32
193 #define	SA_NO_INV_Q	0x33
194 #define	SA_INT_DP_Q	0x34
195 #define	SA_DP_Q		0x35
196 #define	SL_WRTAG_Q	0x36
197 #define	SL_RTO_DP_Q	0x37
198 #define	SYSREG_INPUT_Q	0x38
199 #define	SDI_SYS_STATUS1	0x39
200 #define	SDI_SYS_STATUS0	0x3A
201 #define	CDC_HITS	0x3B
202 #define	TOTAL_CDC_READ	0x3C
203 #define	HA_WATRANID_SD	0x3D
204 #define	HA_STB_SD	0x3E
205 #define	HA_L2_IRQ_SD	0x3F
206 #define	HA_SL_WRTAG_SD	0x40
207 #define	AA_HOME_CC_FULL	0x41
208 #define	AA_HOME_IO_FULL	0x42
209 #define	AA_SLAVE_FULL	0x43
210 #define	AA_RP_FULL	0x44
211 
212 /* Shift definitions into pcr for programming pics */
213 #define	AXQ_PIC_SHIFT	7
214 
215 /* event constants */
216 #define	AXQ_NUM_EVENTS		0x45
217 #define	AXQ_PIC0_1_NUM_EVENTS	0x45
218 #define	AXQ_PIC2_NUM_EVENTS	0x2
219 #define	AXQ_NUM_PICS	3
220 #define	AXQ_PIC_CLEAR_MASK	0x7F
221 
222 /* AXQ constants */
223 #define	SLOT0_AXQ		0
224 #define	SLOT1_AXQ		1
225 #define	AXQ_MAX_EXP		18
226 #define	AXQ_MAX_SLOT_PER_EXP	2
227 #define	AXQ_CDC_SRAM_SIZE	0x40000
228 #define	AXQ_CDC_FLUSH_WAIT	4
229 #define	AXQ_INTR_PEND_WAIT	10
230 #define	AXQ_NASM_SIZE		256
231 
232 /*
233  * Struct element describing a eventname and
234  * its pcr-mask.
235  */
236 typedef struct axq_event_mask {
237 	char	*event_name;
238 	uint64_t pcr_mask;
239 } axq_event_mask_t;
240 
241 /*
242  * NASM RAM system register for reading
243  */
244 typedef union {
245 	struct axq_nasm_read {
246 		uint32_t pad	: 16;
247 		uint32_t valid	: 1;
248 		uint32_t addr	: 8;
249 		uint32_t data	: 7;
250 	} bit;
251 	uint32_t val;
252 } axq_nasm_read_u;
253 
254 /*
255  * NASM RAM system register for reading
256  */
257 typedef union {
258 	struct axq_nasm_write {
259 		uint32_t pad	: 16;
260 		uint32_t addr	: 8;
261 		uint32_t rw	: 1;
262 		uint32_t data	: 7;
263 	} bit;
264 	uint32_t val;
265 } axq_nasm_write_u;
266 
267 
268 /*
269  * Global data structure that is used to
270  * export certain axq registers in
271  * local space. Right now, the only
272  * register we want to access in local space
273  * is the cheetah2ssc interrupt reg. There
274  * could be more in future.
275  */
276 struct axq_local_regs {
277 	kmutex_t axq_local_lock;
278 	int initflag;
279 	caddr_t laddress;
280 	ddi_acc_handle_t ac;
281 	volatile uint32_t *axq_cpu2ssc_intr;
282 };
283 
284 /*
285  * axq soft state data structure.
286  */
287 struct axq_soft_state {
288 	dev_info_t *dip;		/* devinfo of myself */
289 	uint32_t portid;		/* port id */
290 	uint32_t expid;			/* expander id */
291 	uchar_t slotnum;		/* slot 0 or 1 */
292 	caddr_t address;		/* mapped devnode addr property */
293 	ddi_acc_handle_t ac0;		/* access handle for reg0 mapping */
294 	uint64_t axq_phyaddr;		/* physical address of conf space */
295 	kmutex_t axq_lock;		/* mutex protecting this softstate */
296 
297 	volatile uint32_t *axq_domain_ctrl;
298 
299 	/* CASM register slots */
300 	volatile uint32_t *axq_casm_slot[18];
301 
302 	/* NASM register */
303 	volatile uint32_t *axq_nasm;
304 
305 	/* CDC registers (only in slot0) */
306 	volatile uint32_t *axq_cdc_addrtest;
307 	volatile uint32_t *axq_cdc_ctrltest;
308 	volatile uint32_t *axq_cdc_datawrite0;
309 	volatile uint32_t *axq_cdc_datawrite1;
310 	volatile uint32_t *axq_cdc_datawrite2;
311 	volatile uint32_t *axq_cdc_datawrite3;
312 	volatile uint32_t *axq_cdc_counter;
313 	volatile uint32_t *axq_cdc_readdata0;
314 	volatile uint32_t *axq_cdc_readdata1;
315 	volatile uint32_t *axq_cdc_readdata2;
316 	volatile uint32_t *axq_cdc_readdata3;
317 
318 	/* performance counters */
319 	volatile uint32_t *axq_pcr;
320 	volatile uint32_t *axq_pic0;
321 	volatile uint32_t *axq_pic1;
322 	volatile uint32_t *axq_pic2;
323 	kstat_t *axq_counters_ksp;	/* perf counter kstat */
324 
325 	/* SDI timeout register */
326 	volatile uint32_t *axq_sdi_timeout_rd;
327 	volatile uint32_t *axq_sdi_timeout_rdclr;
328 
329 	uint32_t axq_cdc_state;		/* CDC state - enabled/disabled */
330 	int paused;			/* AXQ_DOMCTRL_PAUSE asserted */
331 
332 #ifndef _AXQ_LOCAL_ACCESS_SUPPORTED
333 	/*
334 	 * No local access for cpu2ssc intr
335 	 * Need to provide per instance explicit expander addressing
336 	 */
337 	volatile uint32_t *axq_cpu2ssc_intr;
338 #endif /* _AXQ_LOCAL_ACCESS_SUPPORTED */
339 };
340 
341 /*
342  * Public interface
343  */
344 extern int axq_cdc_flush(uint32_t, int, int);
345 extern int axq_cdc_flush_all();
346 extern int axq_cdc_disable_flush_all();
347 extern void axq_cdc_enable_all();
348 extern int axq_iopause_enable_all(uint32_t *);
349 extern void axq_iopause_disable_all();
350 extern uint32_t axq_casm_read(uint32_t, uint32_t, int);
351 extern int axq_casm_write(uint32_t, uint32_t, int, uint32_t);
352 extern int axq_casm_write_all(int, uint32_t);
353 extern int axq_do_casm_rename_script(uint64_t **, int, int);
354 extern int axq_cpu2ssc_intr(uint8_t);
355 extern uint32_t axq_read_sdi_timeout_reg(uint32_t, uint32_t, int);
356 extern int axq_nasm_read(uint32_t expid, uint32_t slot, uint32_t nasm_entry,
357     uint32_t *data);
358 extern int axq_nasm_write(uint32_t expid, uint32_t slot, uint32_t nasm_entry,
359     uint32_t data);
360 extern int axq_nasm_write_all(uint32_t nasm_entry, uint32_t data);
361 extern void axq_array_rw_enter(void);
362 extern void axq_array_rw_exit(void);
363 
364 #ifdef	__cplusplus
365 }
366 #endif
367 
368 #endif	/* _SYS_AXQ_H */
369