xref: /titanic_44/usr/src/uts/sun4u/sys/sysiosbus.h (revision 2b4a78020b9c38d1b95e2f3fefa6d6e4be382d1f)
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 2005 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef _SYS_SYSIOSBUS_H
28 #define	_SYS_SYSIOSBUS_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 #ifndef _ASM
33 #include <sys/avintr.h>
34 #include <sys/vmem.h>
35 #include <sys/ontrap.h>
36 #include <sys/machsystm.h>
37 #endif
38 
39 #ifdef	__cplusplus
40 extern "C" {
41 #endif
42 
43 /* Things for debugging */
44 #ifdef SYSIO_MEM_DEBUG
45 #define	IO_MEMUSAGE
46 #endif /* SYSIO_MEM_DEBUG */
47 
48 /*
49  * sysio sbus constant definitions.
50  */
51 #define	NATURAL_REG_SIZE	0x8	/* 8 Bytes is Fusion reg size */
52 #define	MIN_REG_SIZE		0x4	/* Smallest Fusion reg size */
53 #define	OFF_SYSIO_CTRL_REG	0x10
54 #define	SYSIO_CTRL_REG_SIZE	(NATURAL_REG_SIZE)
55 #define	OFF_SBUS_CTRL_REG	0x2000
56 #define	SBUS_CTRL_REG_SIZE	(NATURAL_REG_SIZE)
57 #define	OFF_SBUS_SLOT_CONFIG	0x2020
58 #define	SBUS_SLOT_CONFIG_SIZE	(NATURAL_REG_SIZE * 7)
59 #define	OFF_INTR_MAPPING_REG	0x2c00
60 /* #define	INTR_MAPPING_REG_SIZE	(NATURAL_REG_SIZE * 16 * 8)  */
61 #define	INTR_MAPPING_REG_SIZE	0x490
62 #define	OFF_CLR_INTR_REG	0x3408
63 /* #define	CLR_INTR_REG_SIZE	(NATURAL_REG_SIZE * 16 * 8) */
64 #define	CLR_INTR_REG_SIZE	0x488
65 #define	OFF_INTR_RETRY_REG	0x2c20
66 #define	INTR_RETRY_REG_SIZE	(MIN_REG_SIZE)
67 #define	OFF_SBUS_INTR_STATE_REG	0x4800
68 #define	SBUS_INTR_STATE_REG_SIZE (NATURAL_REG_SIZE * 2)
69 #define	SYSIO_IGN		46
70 #define	SBUS_ARBIT_ALL		0x3full
71 #define	SYSIO_VER_SHIFT		56
72 
73 /* Error registers */
74 #define	OFF_SYSIO_ECC_REGS	0x20
75 #define	SYSIO_ECC_REGS_SIZE	NATURAL_REG_SIZE
76 #define	OFF_SYSIO_UE_REGS	0x30
77 #define	SYSIO_UE_REGS_SIZE	(NATURAL_REG_SIZE * 2)
78 #define	OFF_SYSIO_CE_REGS	0x40
79 #define	SYSIO_CE_REGS_SIZE	(NATURAL_REG_SIZE * 2)
80 #define	OFF_SBUS_ERR_REGS	0x2010
81 #define	SBUS_ERR_REGS_SIZE	(NATURAL_REG_SIZE * 2)
82 
83 /* Interrupts */
84 #define	INTERRUPT_CPU_FIELD	26	/* Bit shift for mondo TID field */
85 #define	INTERRUPT_GROUP_NUMBER	6	/* Bit shift for mondo IGN field */
86 #define	INTERRUPT_VALID		0x80000000ull /* Mondo valid bit */
87 #define	SBUS_INTR_IDLE		0ull
88 #define	INT_PENDING 		3	/* state of the interrupt dispatch */
89 /*
90  * Fix these (RAZ)
91  * Interrupt Mapping Register defines
92  */
93 #define	IMR_VALID		0x80000000ull	/* Valid bit */
94 #define	IMR_TID			0x7C000000ull	/* TID bits */
95 #define	IMR_IGN			0x000007C0ull	/* IGN bits */
96 #define	IMR_INO			0x0000003Full	/* INO bits */
97 #define	IMR_TID_SHIFT		26		/* Bit shift for TID field */
98 #define	IMR_IGN_SHIFT		6		/* Bit shift for IGN field */
99 
100 #define	MAX_SBUS		(30)
101 #define	MAX_SBUS_LEVEL		(7)
102 #define	MAX_SBUS_SLOTS	(7)		/* 4 external slots + 3 internal */
103 #define	EXT_SBUS_SLOTS		4	/* Number of external sbus slots */
104 #define	MAX_SBUS_SLOT_ADDR	0x10	/* Max slot address on SYSIO */
105 #define	SYSIO_BURST_RANGE	(0x7f)	/* 32 bit: 64 Byte to 1 Byte burst */
106 #define	SYSIO64_BURST_RANGE	(0x78)	/* 64 bit: 64 Byte to 8 Byte burst */
107 #define	SYSIO_BURST_MASK	0xffff
108 #define	SYSIO64_BURST_MASK	0xffff0000
109 #define	SYSIO64_BURST_SHIFT	16
110 #define	MAX_PIL			16
111 
112 /* Slot config register defines */
113 #define	SBUS_ETM		0x4000ull
114 #define	SYSIO_SLAVEBURST_MASK	0x1e	/* Mask for hardware register */
115 #define	SYSIO_SLAVEBURST_RANGE	(0x78)	/* 32 bit: 64 Byte to 8 Byte burst */
116 #define	SYSIO64_SLAVEBURST_RANGE (0x78)	/* 64 bit: 64 Byte to 8 Byte burst */
117 #define	SYSIO_SLAVEBURST_REGSHIFT 2	/* Convert bit positions 2**8 to 2**1 */
118 
119 /*
120  * Offsets of sysio, sbus, registers
121  */
122 /* Slot configuration register mapping offsets */
123 #define	SBUS_SLOT0_CONFIG	0x0
124 #define	SBUS_SLOT1_CONFIG	0x1
125 #define	SBUS_SLOT2_CONFIG	0x2
126 #define	SBUS_SLOT3_CONFIG	0x3
127 #define	SBUS_SLOT4_CONFIG	0x4
128 #define	SBUS_SLOT5_CONFIG	0x5
129 #define	SBUS_SLOT6_CONFIG	0x6
130 
131 /* Interrupt mapping register mapping offsets */
132 #define	SBUS_SLOT0_MAPREG	0x0
133 #define	SBUS_SLOT1_MAPREG	0x1
134 #define	SBUS_SLOT2_MAPREG	0x2
135 #define	SBUS_SLOT3_MAPREG	0x3
136 #define	ESP_MAPREG		0x80
137 #define	ETHER_MAPREG		0x81
138 #define	PP_MAPREG		0x82
139 #define	AUDIO_MAPREG		0x83
140 #define	KBDMOUSE_MAPREG		0x85
141 #define	FLOPPY_MAPREG		0x86
142 #define	THERMAL_MAPREG		0x87
143 #define	TIMER0_MAPREG		0x8C
144 #define	TIMER1_MAPREG		0x8D
145 #define	UE_ECC_MAPREG		0x8E
146 #define	CE_ECC_MAPREG		0x8F
147 #define	SBUS_ERR_MAPREG		0x90
148 #define	PM_WAKEUP_MAPREG	0x91
149 #define	FFB_MAPPING_REG		0x92
150 #define	EXP_MAPPING_REG		0x93
151 
152 /* Interrupt clear register mapping offsets */
153 #define	SBUS_SLOT0_L1_CLEAR	0x0
154 #define	SBUS_SLOT0_L2_CLEAR	0x1
155 #define	SBUS_SLOT0_L3_CLEAR	0x2
156 #define	SBUS_SLOT0_L4_CLEAR	0x3
157 #define	SBUS_SLOT0_L5_CLEAR	0x4
158 #define	SBUS_SLOT0_L6_CLEAR	0x5
159 #define	SBUS_SLOT0_L7_CLEAR	0x6
160 #define	SBUS_SLOT1_L1_CLEAR	0x8
161 #define	SBUS_SLOT1_L2_CLEAR	0x9
162 #define	SBUS_SLOT1_L3_CLEAR	0xa
163 #define	SBUS_SLOT1_L4_CLEAR	0xb
164 #define	SBUS_SLOT1_L5_CLEAR	0xc
165 #define	SBUS_SLOT1_L6_CLEAR	0xd
166 #define	SBUS_SLOT1_L7_CLEAR	0xe
167 #define	SBUS_SLOT2_L1_CLEAR	0x10
168 #define	SBUS_SLOT2_L2_CLEAR	0x11
169 #define	SBUS_SLOT2_L3_CLEAR	0x12
170 #define	SBUS_SLOT2_L4_CLEAR	0x13
171 #define	SBUS_SLOT2_L5_CLEAR	0x14
172 #define	SBUS_SLOT2_L6_CLEAR	0x15
173 #define	SBUS_SLOT2_L7_CLEAR	0x16
174 #define	SBUS_SLOT3_L1_CLEAR	0x18
175 #define	SBUS_SLOT3_L2_CLEAR	0x19
176 #define	SBUS_SLOT3_L3_CLEAR	0x1a
177 #define	SBUS_SLOT3_L4_CLEAR	0x1b
178 #define	SBUS_SLOT3_L5_CLEAR	0x1c
179 #define	SBUS_SLOT3_L6_CLEAR	0x1d
180 #define	SBUS_SLOT3_L7_CLEAR	0x1e
181 #define	ESP_CLEAR		0x7f
182 #define	ETHER_CLEAR		0x80
183 #define	PP_CLEAR		0x81
184 #define	AUDIO_CLEAR		0x82
185 #define	KBDMOUSE_CLEAR		0x84
186 #define	FLOPPY_CLEAR		0x85
187 #define	THERMAL_CLEAR		0x86
188 #define	TIMER0_CLEAR		0x8B
189 #define	TIMER1_CLEAR		0x8C
190 #define	UE_ECC_CLEAR		0x8D
191 #define	CE_ECC_CLEAR		0x8E
192 #define	SBUS_ERR_CLEAR		0x8F
193 #define	PM_WAKEUP_CLEAR		0x90
194 
195 /*
196  * Bit shift for accessing the keyboard mouse interrupt state reg.
197  * note - The external devices are the only other devices where
198  * we need to check the interrupt state before adding or removing
199  * interrupts.  There is an algorithm to calculate their bit shift.
200  */
201 #define	ESP_INTR_STATE_SHIFT		0
202 #define	ETHER_INTR_STATE_SHIFT		2
203 #define	PP_INTR_STATE_SHIFT		4
204 #define	AUDIO_INTR_STATE_SHIFT		6
205 #define	KBDMOUSE_INTR_STATE_SHIFT	10
206 #define	FLOPPY_INTR_STATE_SHIFT		12
207 #define	THERMAL_INTR_STATE_SHIFT	14
208 #define	TIMER0_INTR_STATE_SHIFT		22
209 #define	TIMER1_INTR_STATE_SHIFT		24
210 #define	UE_INTR_STATE_SHIFT		26
211 #define	CE_INTR_STATE_SHIFT		28
212 #define	SERR_INTR_STATE_SHIFT		30
213 #define	PM_INTR_STATE_SHIFT		32
214 
215 #define	MAX_INO_TABLE_SIZE	58	/* Max num of sbus devices on sysio */
216 #define	MAX_MONDO_EXTERNAL	0x1f
217 #define	SBUS_MAX_INO		0x3f
218 #define	THERMAL_MONDO		0x2a
219 #define	UE_ECC_MONDO		0x34
220 #define	CE_ECC_MONDO		0x35
221 #define	SBUS_ERR_MONDO		0x36
222 
223 /* used for the picN kstats */
224 #define	SBUS_NUM_PICS	2
225 #define	SBUS_NUM_EVENTS	14
226 #define	SBUS_PIC0_MASK	0x00000000FFFFFFFFULL	/* pic0 bits of %pic */
227 
228 /* Offsets for Performance registers */
229 #define	OFF_SBUS_PCR	0x100
230 #define	OFF_SBUS_PIC	0x108
231 
232 /*
233  * used to build array of event-names and pcr-mask values
234  */
235 typedef	struct	sbus_event_mask {
236 	char	*event_name;
237 	uint64_t pcr_mask;
238 } sbus_event_mask_t;
239 
240 /*
241  * This type is used to describe addresses that we expect a device
242  * to place on a bus i.e. addresses from the iommu address space.
243  */
244 typedef	uint32_t	ioaddr_t;
245 
246 
247 /*
248  * sysio sbus soft state data structure.
249  * We use the sbus_ctrl_reg to flush hardware store buffers because
250  * there is very little hardware contention on this register.
251  */
252 struct sbus_soft_state {
253 	dev_info_t *dip;		/* dev info of myself */
254 	int upa_id;			/* UPA ID of this SYSIO */
255 
256 	/*
257 	 * device node address property:
258 	 */
259 	caddr_t address;
260 
261 	/*
262 	 * access handles in case we need to map the registers ourself:
263 	 */
264 	ddi_acc_handle_t ac;
265 
266 	volatile uint64_t *iommu_flush_reg; /* IOMMU regs */
267 	volatile uint64_t *iommu_ctrl_reg;
268 	volatile uint64_t *tsb_base_addr;  /* Hardware reg for phys TSB base */
269 	volatile uint64_t *soft_tsb_base_addr; /* virtual address of TSB base */
270 	volatile uint64_t *iommu_tlb_tag;
271 	volatile uint64_t *iommu_tlb_data;
272 
273 	size_t iommu_dvma_size;
274 	ioaddr_t iommu_dvma_base;
275 	uint16_t iommu_tsb_cookie;
276 
277 
278 	volatile uint64_t *sysio_ctrl_reg;	/* sysio regs */
279 	volatile uint64_t *sbus_ctrl_reg;   /* also used to flush store bufs */
280 	volatile uint64_t *sbus_slot_config_reg;
281 	uint_t sbus_slave_burstsizes[MAX_SBUS_SLOTS];
282 
283 	volatile uint64_t *intr_mapping_reg;	/* Interrupt regs */
284 	volatile uint64_t *clr_intr_reg;
285 	volatile uint64_t *intr_retry_reg;
286 	volatile uint64_t *sbus_intr_state;
287 	volatile uint64_t *obio_intr_state;
288 	int8_t intr_hndlr_cnt[MAX_SBUS_SLOT_ADDR]; /* intmapreg cntr by slot */
289 	uchar_t spurious_cntrs[MAX_PIL + 1];	/* Spurious intr counter */
290 
291 	volatile uint64_t *sysio_ecc_reg;	/* sysio ecc control reg */
292 	volatile uint64_t *sysio_ue_reg;	/* sysio ue ecc error regs */
293 	volatile uint64_t *sysio_ce_reg;	/* sysio ce ecc error regs */
294 	volatile uint64_t *sbus_err_reg;	/* sbus async error regs */
295 
296 	volatile uint64_t *str_buf_ctrl_reg;	/* streaming buffer regs */
297 	volatile uint64_t *str_buf_flush_reg;
298 	volatile uint64_t *str_buf_sync_reg;
299 	volatile uint64_t *str_buf_pg_tag_diag;
300 	kmutex_t sync_reg_lock;			/* lock around sync flush reg */
301 	int stream_buf_off;
302 
303 	uint_t sbus_burst_sizes;
304 	uint_t sbus64_burst_sizes;
305 
306 	vmem_t *dvma_arena;		/* DVMA arena for this IOMMU */
307 	uintptr_t dvma_call_list_id;	/* DVMA callback list */
308 	kmutex_t dma_pool_lock;
309 	caddr_t dmaimplbase;		/* dma_pool_lock protects this */
310 	int	dma_reserve;		/* Size reserved for fast DVMA */
311 
312 	struct sbus_wrapper_arg *intr_list[MAX_INO_TABLE_SIZE];
313 	kmutex_t intr_poll_list_lock;	/* to add/rem to intr poll list */
314 	kmutex_t pokefault_mutex;	/* mutex for pokefaults */
315 	on_trap_data_t *ontrap_data;	/* Data used to handle poke faults */
316 	hrtime_t bto_timestamp;		/* time of first timeout */
317 	int bto_ctr;			/* counter for timeouts thereafter */
318 	pfn_t sbus_io_lo_pfn;
319 	pfn_t sbus_io_hi_pfn;
320 	struct iophyslist *sbus_io_ranges;
321 	int intr_mapping_ign;		/* placeholder for the IGN */
322 #ifdef	_STARFIRE
323 	caddr_t ittrans_cookie;		/* starfire intr target translation */
324 #endif	/* _STARFIRE */
325 #ifdef	DEBUG
326 	kmutex_t iomemlock;		/* Memory usage lock (debug only) */
327 	struct io_mem_list *iomem;	/* Memory usage list (debug only) */
328 #endif /* DEBUG */
329 	/*
330 	 * Performance registers and kstat.
331 	 */
332 	volatile uint64_t *sbus_pcr;	/* perf counter control */
333 	volatile uint64_t *sbus_pic; 	/* perf counter register */
334 	kstat_t	*sbus_counters_ksp;	/* perf counter kstat */
335 };
336 
337 
338 /*
339  * Ugly interrupt cruft due to sysio inconsistencies.
340  */
341 struct sbus_slot_entry {
342 	uint64_t slot_config;
343 	uint64_t mapping_reg;
344 	uint64_t clear_reg;
345 	int diagreg_shift;
346 };
347 
348 struct sbus_intr_handler {
349 	dev_info_t *dip;
350 	uint32_t inum;
351 	uint_t (*funcp)();
352 	caddr_t arg1;
353 	caddr_t arg2;
354 	uint_t	intr_state;
355 	struct sbus_intr_handler *next;
356 };
357 
358 /* sbus Interrupt routine wrapper structure */
359 struct sbus_wrapper_arg {
360 	struct sbus_soft_state *softsp;
361 	volatile uint64_t *clear_reg;
362 	uint32_t pil;
363 	struct sbus_intr_handler *handler_list;
364 };
365 
366 
367 /*
368  * SYSIO parent private data structure contains register, interrupt, property
369  * and range information.
370  * Note: the only thing different from the "generic" sbus parent private
371  * data is the interrupt specification.
372  */
373 struct sysio_parent_private_data {
374 	int par_nreg;			/* number of regs */
375 	struct regspec *par_reg;	/* array of regs */
376 	int par_nintr;			/* number of interrupts */
377 	struct sysiointrspec *par_intr;	/* array of possible interrupts */
378 	int par_nrng;			/* number of ranges */
379 	struct rangespec *par_rng;	/* array of ranges */
380 	uint_t slot;			/* Slot number, on this sbus */
381 	uint_t offset;			/* Offset of first real "reg" */
382 };
383 #define	SYSIO_PD(d)	\
384 	((struct sysio_parent_private_data *)DEVI((d))->devi_parent_data)
385 
386 #define	sysio_pd_getnreg(dev)		(SYSIO_PD(dev)->par_nreg)
387 #define	sysio_pd_getnintr(dev)		(SYSIO_PD(dev)->par_nintr)
388 #define	sysio_pd_getnrng(dev)		(SYSIO_PD(dev)->par_nrng)
389 #define	sysio_pd_getslot(dev)		(SYSIO_PD(dev)->slot)
390 #define	sysio_pd_getoffset(dev)		(SYSIO_PD(dev)->offset)
391 
392 #define	sysio_pd_getreg(dev, n)		(&SYSIO_PD(dev)->par_reg[(n)])
393 #define	sysio_pd_getintr(dev, n)	(&SYSIO_PD(dev)->par_intr[(n)])
394 #define	sysio_pd_getrng(dev, n)		(&SYSIO_PD(dev)->par_rng[(n)])
395 
396 #define	IS_INTRA_SBUS(softsp, pfn)	(pfn >= softsp->sbus_io_lo_pfn && \
397 					    pfn <= softsp->sbus_io_hi_pfn)
398 
399 /* Used for legacy interrupts */
400 #define	SBUS_INTR_STATE_DISABLE		0	/* disabled */
401 #define	SBUS_INTR_STATE_ENABLE		1	/* enabled */
402 
403 struct io_mem_list {
404 	dev_info_t *rdip;
405 	ulong_t	ioaddr;
406 	ulong_t	addr;
407 	pgcnt_t npages;
408 	pfn_t *pfn;
409 	struct io_mem_list *next;
410 };
411 
412 /*
413  * Function prototypes.
414  */
415 
416 
417 #ifdef	__cplusplus
418 }
419 #endif
420 
421 #endif	/* _SYS_SYSIOSBUS_H */
422