xref: /titanic_52/usr/src/uts/i86pc/sys/apic.h (revision b8fac8e162eda7e98db13dfa3e439e43f90f41d9)
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 2007 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef _SYS_APIC_APIC_H
27 #define	_SYS_APIC_APIC_H
28 
29 #pragma ident	"%Z%%M%	%I%	%E% SMI"
30 
31 #include <sys/psm_types.h>
32 
33 #ifdef	__cplusplus
34 extern "C" {
35 #endif
36 
37 #include <sys/psm_common.h>
38 
39 #define	APIC_IO_ADDR	0xfec00000
40 #define	APIC_LOCAL_ADDR	0xfee00000
41 #define	APIC_IO_MEMLEN	0xf
42 #define	APIC_LOCAL_MEMLEN	0xfffff
43 
44 /* Local Unit ID register */
45 #define	APIC_LID_REG		0x8
46 
47 /* I/o Unit Version Register */
48 #define	APIC_VERS_REG		0xc
49 
50 /* Task Priority register */
51 #define	APIC_TASK_REG		0x20
52 
53 /* EOI register */
54 #define	APIC_EOI_REG		0x2c
55 
56 /* Remote Read register		*/
57 #define	APIC_REMOTE_READ	0x30
58 
59 /* Logical Destination register */
60 #define	APIC_DEST_REG		0x34
61 
62 /* Destination Format rgister */
63 #define	APIC_FORMAT_REG		0x38
64 
65 /* Spurious Interrupt Vector register */
66 #define	APIC_SPUR_INT_REG	0x3c
67 
68 /* Error Status Register */
69 #define	APIC_ERROR_STATUS	0xa0
70 
71 /* Interrupt Command registers */
72 #define	APIC_INT_CMD1		0xc0
73 #define	APIC_INT_CMD2		0xc4
74 
75 /* Timer Vector Table register */
76 #define	APIC_LOCAL_TIMER	0xc8
77 
78 /* Local Interrupt Vector registers */
79 #define	APIC_PCINT_VECT		0xd0
80 #define	APIC_INT_VECT0		0xd4
81 #define	APIC_INT_VECT1		0xd8
82 #define	APIC_ERR_VECT		0xdc
83 
84 /* IPL for performance counter interrupts */
85 #define	APIC_PCINT_IPL		0xe
86 #define	APIC_LVT_MASK		0x10000		/* Mask bit (16) in LVT */
87 
88 /* Initial Count register */
89 #define	APIC_INIT_COUNT		0xe0
90 
91 /* Current Count Register */
92 #define	APIC_CURR_COUNT		0xe4
93 #define	APIC_CURR_ADD		0x39	/* used for remote read command */
94 #define	CURR_COUNT_OFFSET	(sizeof (int32_t) * APIC_CURR_COUNT)
95 
96 /* Divider Configuration Register */
97 #define	APIC_DIVIDE_REG		0xf8
98 
99 /* IRR register	*/
100 #define	APIC_IRR_REG		0x80
101 
102 /* ISR register	*/
103 #define	APIC_ISR_REG		0x40
104 
105 #define	APIC_IO_REG		0x0
106 #define	APIC_IO_DATA		0x4
107 
108 /* Bit offset of APIC ID in LID_REG, INT_CMD and in DEST_REG */
109 #define	APIC_ID_BIT_OFFSET	24
110 #define	APIC_ICR_ID_BIT_OFFSET	24
111 #define	APIC_LDR_ID_BIT_OFFSET	24
112 
113 /*
114  * Choose between flat and clustered models by writing the following to the
115  * FORMAT_REG. 82489 DX documentation seemed to suggest that writing 0 will
116  * disable logical destination mode.
117  * Does not seem to be in the docs for local APICs on the processors.
118  */
119 #define	APIC_FLAT_MODEL		0xFFFFFFFFUL
120 #define	APIC_CLUSTER_MODEL	0x0FFFFFFF
121 
122 /*
123  * The commands which follow are window selectors written to APIC_IO_REG
124  * before data can be read/written from/to APIC_IO_DATA
125  */
126 
127 #define	APIC_ID_CMD		0x0
128 #define	APIC_VERS_CMD		0x1
129 #define	APIC_RDT_CMD		0x10
130 #define	APIC_RDT_CMD2		0x11
131 
132 #define	APIC_INTEGRATED_VERS	0x10	/* 0x10 & above indicates integrated */
133 #define	IOAPIC_VER_82489DX	0x01	/* Version ID: 82489DX External APIC */
134 
135 #define	APIC_INT_SPURIOUS	-1
136 
137 #define	APIC_IMCR_P1	0x22		/* int mode conf register port 1 */
138 #define	APIC_IMCR_P2	0x23		/* int mode conf register port 2 */
139 #define	APIC_IMCR_SELECT 0x70		/* select imcr by writing into P1 */
140 #define	APIC_IMCR_PIC	0x0		/* selects PIC mode (8259-> BSP) */
141 #define	APIC_IMCR_APIC	0x1		/* selects APIC mode (8259->APIC) */
142 
143 #define	APIC_CT_VECT	0x4ac		/* conf table vector		*/
144 #define	APIC_CT_SIZE	1024		/* conf table size		*/
145 
146 #define	APIC_ID		'MPAT'		/* conf table signature 	*/
147 
148 
149 /*
150  * MP floating pointer structure defined in Intel MP Spec 1.1
151  */
152 struct apic_mpfps_hdr {
153 	uint32_t	mpfps_sig;	/* _MP_ (0x5F4D505F)		*/
154 	uint32_t	mpfps_mpct_paddr; /* paddr of MP configuration tbl */
155 	uchar_t	mpfps_length;		/* in paragraph (16-bytes units) */
156 	uchar_t	mpfps_spec_rev;		/* version number of MP spec	 */
157 	uchar_t	mpfps_checksum;		/* checksum of complete structure */
158 	uchar_t	mpfps_featinfo1;	/* mp feature info bytes 1	 */
159 	uchar_t	mpfps_featinfo2;	/* mp feature info bytes 2	 */
160 	uchar_t	mpfps_featinfo3;	/* mp feature info bytes 3	 */
161 	uchar_t	mpfps_featinfo4;	/* mp feature info bytes 4	 */
162 	uchar_t	mpfps_featinfo5;	/* mp feature info bytes 5	 */
163 };
164 
165 #define	MPFPS_FEATINFO2_IMCRP		0x80	/* IMCRP presence bit	*/
166 
167 #define	APIC_MPS_OEM_ID_LEN		8
168 #define	APIC_MPS_PROD_ID_LEN		12
169 
170 struct apic_mp_cnf_hdr {
171 	uint_t	mpcnf_sig;
172 
173 	uint_t	mpcnf_tbl_length:	16,
174 		mpcnf_spec:		8,
175 		mpcnf_cksum:		8;
176 
177 	char	mpcnf_oem_str[APIC_MPS_OEM_ID_LEN];
178 
179 	char	mpcnf_prod_str[APIC_MPS_PROD_ID_LEN];
180 
181 	uint_t	mpcnf_oem_ptr;
182 
183 	uint_t	mpcnf_oem_tbl_size:	16,
184 		mpcnf_entry_cnt:	16;
185 
186 	uint_t	mpcnf_local_apic;
187 
188 	uint_t	mpcnf_resv;
189 };
190 
191 struct apic_procent {
192 	uint_t	proc_entry:		8,
193 		proc_apicid:		8,
194 		proc_version:		8,
195 		proc_cpuflags:		8;
196 
197 	uint_t	proc_stepping:		4,
198 		proc_model:		4,
199 		proc_family:		4,
200 		proc_type:		2,	/* undocumented feature */
201 		proc_resv1:		18;
202 
203 	uint_t	proc_feature;
204 
205 	uint_t	proc_resv2;
206 
207 	uint_t	proc_resv3;
208 };
209 
210 /*
211  * proc_cpuflags definitions
212  */
213 #define	CPUFLAGS_EN	1	/* if not set, this processor is unusable */
214 #define	CPUFLAGS_BP	2	/* set if this is the bootstrap processor */
215 
216 
217 struct apic_bus {
218 	uchar_t	bus_entry;
219 	uchar_t	bus_id;
220 	ushort_t	bus_str1;
221 	uint_t	bus_str2;
222 };
223 
224 struct apic_io_entry {
225 	uint_t	io_entry:		8,
226 		io_apicid:		8,
227 		io_version:		8,
228 		io_flags:		8;
229 
230 	uint_t	io_apic_addr;
231 };
232 
233 #define	IOAPIC_FLAGS_EN		0x01	/* this I/O apic is enable or not */
234 
235 #define	MAX_IO_APIC		32	/* maximum # of IOAPICs supported */
236 
237 struct apic_io_intr {
238 	uint_t	intr_entry:		8,
239 		intr_type:		8,
240 		intr_po:		2,
241 		intr_el:		2,
242 		intr_resv:		12;
243 
244 	uint_t	intr_busid:		8,
245 		intr_irq:		8,
246 		intr_destid:		8,
247 		intr_destintin:		8;
248 };
249 
250 /*
251  * intr_type definitions
252  */
253 #define	IO_INTR_INT	0x00
254 #define	IO_INTR_NMI	0x01
255 #define	IO_INTR_SMI	0x02
256 #define	IO_INTR_EXTINT	0x03
257 
258 /*
259  * destination APIC ID
260  */
261 #define	INTR_ALL_APIC		0xff
262 
263 
264 /* local vector table							*/
265 #define	AV_MASK		0x10000
266 
267 /* interrupt command register 32-63					*/
268 #define	AV_TOALL	0x7fffffff
269 #define	AV_HIGH_ORDER	0x40000000
270 #define	AV_IM_OFF	0x40000000
271 
272 /* interrupt command register 0-31					*/
273 #define	AV_FIXED	0x000
274 #define	AV_LOPRI	0x100
275 #define	AV_REMOTE	0x300
276 #define	AV_NMI		0x400
277 #define	AV_RESET	0x500
278 #define	AV_STARTUP	0x600
279 #define	AV_EXTINT	0x700
280 
281 #define	AV_PDEST	0x000
282 #define	AV_LDEST	0x800
283 
284 /* IO & Local APIC Bit Definitions */
285 #define	RDT_VECTOR(x)	((uchar_t)((x) & 0xFF))
286 #define	AV_PENDING	0x1000
287 #define	AV_ACTIVE_LOW	0x2000		/* only for integrated APIC */
288 #define	AV_REMOTE_IRR   0x4000		/* IOAPIC RDT-specific */
289 #define	AV_LEVEL	0x8000
290 #define	AV_DEASSERT	AV_LEVEL
291 #define	AV_ASSERT	0xc000
292 
293 #define	AV_READ_PENDING	0x10000
294 #define	AV_REMOTE_STATUS	0x20000	/* 1 = valid, 0 = invalid */
295 
296 #define	AV_SH_SELF		0x40000	/* Short hand for self */
297 #define	AV_SH_ALL_INCSELF	0x80000 /* All processors */
298 #define	AV_SH_ALL_EXCSELF	0xc0000 /* All excluding self */
299 /* spurious interrupt vector register					*/
300 #define	AV_UNIT_ENABLE	0x100
301 
302 /* timer vector table							*/
303 #define	AV_TIME		0x20000	/* Set timer mode to periodic */
304 
305 #define	APIC_MAXVAL	0xffffffffUL
306 #define	APIC_TIME_MIN	0x5000
307 #define	APIC_TIME_COUNT	0x4000
308 
309 /*
310  * Range of the low byte value in apic_tick before starting calibration
311  */
312 #define	APIC_LB_MIN	0x60
313 #define	APIC_LB_MAX	0xe0
314 
315 #define	APIC_MAX_VECTOR		255
316 #define	APIC_RESV_VECT		0x00
317 #define	APIC_RESV_IRQ		0xfe
318 #define	APIC_BASE_VECT		0x20	/* This will come in as interrupt 0 */
319 #define	APIC_AVAIL_VECTOR	(APIC_MAX_VECTOR+1-APIC_BASE_VECT)
320 #define	APIC_VECTOR_PER_IPL	0x10	/* # of vectors before PRI changes */
321 #define	APIC_VECTOR(ipl)	(apic_ipltopri[ipl] | APIC_RESV_VECT)
322 #define	APIC_VECTOR_MASK	0x0f
323 #define	APIC_HI_PRI_VECTS	2	/* vects reserved for hi pri reqs */
324 #define	APIC_IPL_MASK		0xf0
325 #define	APIC_IPL_SHIFT		4	/* >> to get ipl part of vector */
326 #define	APIC_FIRST_FREE_IRQ	0x10
327 #define	APIC_MAX_ISA_IRQ	15
328 #define	APIC_IPL0		0x0f	/* let IDLE_IPL be the lowest */
329 #define	APIC_IDLE_IPL		0x00
330 
331 #define	APIC_MASK_ALL		0xf0	/* Mask all interrupts */
332 
333 /* spurious interrupt vector						*/
334 #define	APIC_SPUR_INTR		0xFF
335 
336 /* special or reserve vectors */
337 #define	APIC_CHECK_RESERVE_VECTORS(v) \
338 	((v == T_FASTTRAP) || (v == APIC_SPUR_INTR) || (v == T_SYSCALLINT) || \
339 	(v == T_DTRACE_RET) || (v == T_INT80))
340 
341 /* cmos shutdown code for BIOS						*/
342 #define	BIOS_SHUTDOWN		0x0a
343 
344 /* define the entry types for BIOS information tables as defined in PC+MP */
345 #define	APIC_CPU_ENTRY		0
346 #define	APIC_BUS_ENTRY		1
347 #define	APIC_IO_ENTRY		2
348 #define	APIC_IO_INTR_ENTRY	3
349 #define	APIC_LOCAL_INTR_ENTRY	4
350 #define	APIC_MPTBL_ADDR		(639 * 1024)
351 /*
352  * The MP Floating Point structure could be in 1st 1KB of EBDA or last KB
353  * of system base memory or in ROM between 0xF0000 and 0xFFFFF
354  */
355 #define	MPFPS_RAM_WIN_LEN	1024
356 #define	MPFPS_ROM_WIN_START	(uint32_t)0xf0000
357 #define	MPFPS_ROM_WIN_LEN	0x10000
358 
359 #define	EISA_LEVEL_CNTL		0x4D0
360 
361 /* definitions for apic_irq_table */
362 #define	FREE_INDEX		(short)-1	/* empty slot */
363 #define	RESERVE_INDEX		(short)-2	/* ipi, softintr, clkintr */
364 #define	ACPI_INDEX		(short)-3	/* ACPI */
365 #define	MSI_INDEX		(short)-4	/* MSI */
366 #define	MSIX_INDEX		(short)-5	/* MSI-X */
367 #define	DEFAULT_INDEX		(short)0x7FFF
368 	/* biggest positive no. to avoid conflict with actual index */
369 
370 #define	APIC_IS_MSI_OR_MSIX_INDEX(index) \
371 	((index) == MSI_INDEX || (index) == MSIX_INDEX)
372 
373 /*
374  * definitions for MSI Address
375  */
376 #define	MSI_ADDR_HDR		APIC_LOCAL_ADDR
377 #define	MSI_ADDR_DEST_SHIFT	12	/* Destination CPU's apic id */
378 #define	MSI_ADDR_RH_FIXED	0x0	/* Redirection Hint Fixed */
379 #define	MSI_ADDR_RH_LOPRI	0x1	/* Redirection Hint Lowest priority */
380 #define	MSI_ADDR_RH_SHIFT	3
381 #define	MSI_ADDR_DM_PHYSICAL	0x0	/* Physical Destination Mode */
382 #define	MSI_ADDR_DM_LOGICAL	0x1	/* Logical Destination Mode */
383 #define	MSI_ADDR_DM_SHIFT	2
384 
385 /*
386  * definitions for MSI Data
387  */
388 #define	MSI_DATA_DELIVERY_FIXED		0x0	/* Fixed delivery */
389 #define	MSI_DATA_DELIVERY_LOPRI		0x1	/* Lowest priority delivery */
390 #define	MSI_DATA_DELIVERY_SMI		0x2
391 #define	MSI_DATA_DELIVERY_NMI		0x4
392 #define	MSI_DATA_DELIVERY_INIT		0x5
393 #define	MSI_DATA_DELIVERY_EXTINT	0x7
394 #define	MSI_DATA_DELIVERY_SHIFT		8
395 #define	MSI_DATA_TM_EDGE		0x0	/* MSI is edge sensitive */
396 #define	MSI_DATA_TM_LEVEL		0x1	/* level sensitive */
397 #define	MSI_DATA_TM_SHIFT		15
398 #define	MSI_DATA_LEVEL_DEASSERT		0x0
399 #define	MSI_DATA_LEVEL_ASSERT		0x1	/* Edge always assert */
400 #define	MSI_DATA_LEVEL_SHIFT		14
401 
402 /*
403  * use to define each irq setup by the apic
404  */
405 typedef struct	apic_irq {
406 	short	airq_mps_intr_index;	/* index into mps interrupt entries */
407 					/*  table */
408 	uchar_t	airq_intin_no;
409 	uchar_t	airq_ioapicindex;
410 	dev_info_t	*airq_dip; /* device corresponding to this interrupt */
411 	/*
412 	 * IRQ could be shared (in H/W) in which case dip & major will be
413 	 * for the one that was last added at this level. We cannot keep a
414 	 * linked list as delspl does not tell us which device has just
415 	 * been unloaded. For most servers where we are worried about
416 	 * performance, interrupt should not be shared & should not be
417 	 * a problem. This does not cause any correctness issue - dip is
418 	 * used only as an optimisation to avoid going thru all the tables
419 	 * in translate IRQ (which is always called twice due to brokenness
420 	 * in the way IPLs are determined for devices). major is used only
421 	 * to bind interrupts corresponding to the same device on the same
422 	 * CPU. Not finding major will just cause it to be potentially bound
423 	 * to another CPU.
424 	 */
425 	major_t	airq_major;	/* major number corresponding to the device */
426 	ushort_t airq_rdt_entry;	/* level, polarity & trig mode */
427 	uchar_t	airq_cpu;		/* Which CPU are we bound to ? */
428 	uchar_t	airq_temp_cpu; /* Could be diff from cpu due to disable_intr */
429 	uchar_t	airq_vector;		/* Vector chosen for this irq */
430 	uchar_t	airq_share;		/* number of interrupts at this irq */
431 	uchar_t	airq_share_id;		/* id to identify source from irqno */
432 	uchar_t	airq_ipl;		/* The ipl at which this is handled */
433 	iflag_t airq_iflag;		/* interrupt flag */
434 	uchar_t	airq_origirq;		/* original irq passed in */
435 	uint_t	airq_busy;		/* How frequently did clock find */
436 					/* us in this */
437 	struct apic_irq *airq_next;	/* chain of shared intpts */
438 } apic_irq_t;
439 
440 #define	IRQ_USER_BOUND	0x80	/* user requested bind if set in airq_cpu */
441 #define	IRQ_UNBOUND	(uchar_t)-1 /* set in airq_cpu and airq_temp_cpu */
442 #define	IRQ_UNINIT	(uchar_t)-2 /* in airq_temp_cpu till addspl called */
443 
444 /* Macros to help deal with shared interrupts */
445 #define	VIRTIRQ(irqno, share_id)	((irqno) | ((share_id) << 8))
446 #define	IRQINDEX(irq)	((irq) & 0xFF)	/* Mask to get irq from virtual irq */
447 
448 typedef struct apic_cpus_info {
449 	uchar_t	aci_local_id;
450 	uchar_t	aci_local_ver;
451 	uchar_t	aci_status;
452 	uchar_t	aci_redistribute;	/* Selected for redistribution */
453 	uint_t	aci_busy;		/* Number of ticks we were in ISR */
454 	uint_t	aci_spur_cnt;		/* # of spurious intpts on this cpu */
455 	uint_t	aci_ISR_in_progress;	/* big enough to hold 1 << MAXIPL */
456 	uchar_t	aci_curipl;		/* IPL of current ISR */
457 	uchar_t	aci_current[MAXIPL];	/* Current IRQ at each IPL */
458 	uint32_t aci_bound;		/* # of user requested binds ? */
459 	uint32_t aci_temp_bound;	/* # of non user IRQ binds */
460 	uchar_t	aci_idle;		/* The CPU is idle */
461 	/*
462 	 * fill to make sure each struct is in seperate cache line.
463 	 * Or atleast that ISR_in_progress/curipl is not shared with something
464 	 * that is read/written heavily by another CPU.
465 	 * Given kmem_alloc guarantees alignment to 8 bytes, having 8
466 	 * bytes on each side will isolate us in a 16 byte cache line.
467 	 */
468 } apic_cpus_info_t;
469 
470 #define	APIC_CPU_ONLINE		1
471 #define	APIC_CPU_INTR_ENABLE	2
472 
473 /*
474  * Various poweroff methods and ports & bits for them
475  */
476 #define	APIC_POWEROFF_NONE		0
477 #define	APIC_POWEROFF_VIA_RTC		1
478 #define	APIC_POWEROFF_VIA_ASPEN_BMC	2
479 #define	APIC_POWEROFF_VIA_SITKA_BMC	3
480 
481 /* For RTC */
482 #define	RTC_REGA		0x0a
483 #define	PFR_REG			0x4a    /* extended control register */
484 #define	PAB_CBIT		0x08
485 #define	WF_FLAG			0x02
486 #define	KS_FLAG			0x01
487 #define	EXT_BANK		0x10
488 
489 /* For Aspen/Drake BMC */
490 
491 #define	CC_SMS_GET_STATUS	0x40
492 #define	CC_SMS_WR_START		0x41
493 #define	CC_SMS_WR_NEXT		0x42
494 #define	CC_SMS_WR_END		0x43
495 
496 #define	MISMIC_DATA_REGISTER	0x0ca9
497 #define	MISMIC_CNTL_REGISTER	0x0caa
498 #define	MISMIC_FLAG_REGISTER	0x0cab
499 
500 #define	MISMIC_BUSY_MASK	0x01
501 
502 /* For Sitka/Cabrillo BMC */
503 
504 #define	SMS_GET_STATUS		0x60
505 #define	SMS_WRITE_START		0x61
506 #define	SMS_WRITE_END		0x62
507 
508 #define	SMS_DATA_REGISTER	0x0ca2
509 #define	SMS_STATUS_REGISTER	0x0ca3
510 #define	SMS_COMMAND_REGISTER	0x0ca3
511 
512 #define	SMS_IBF_MASK		0x02
513 #define	SMS_STATE_MASK		0xc0
514 
515 #define	SMS_IDLE_STATE		0x00
516 #define	SMS_READ_STATE		0x40
517 #define	SMS_WRITE_STATE		0x80
518 #define	SMS_ERROR_STATE		0xc0
519 
520 extern uint32_t ioapic_read(int ioapic_ix, uint32_t reg);
521 extern void ioapic_write(int ioapic_ix, uint32_t reg, uint32_t value);
522 
523 /* Macros for reading/writing the IOAPIC RDT entries */
524 #define	READ_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix, ipin) \
525 	ioapic_read(ioapic_ix, APIC_RDT_CMD + (2 * (ipin)))
526 
527 #define	READ_IOAPIC_RDT_ENTRY_HIGH_DWORD(ioapic_ix, ipin) \
528 	ioapic_read(ioapic_ix, APIC_RDT_CMD2 + (2 * (ipin)))
529 
530 #define	WRITE_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix, ipin, value) \
531 	ioapic_write(ioapic_ix, APIC_RDT_CMD + (2 * (ipin)), value)
532 
533 #define	WRITE_IOAPIC_RDT_ENTRY_HIGH_DWORD(ioapic_ix, ipin, value) \
534 	ioapic_write(ioapic_ix, APIC_RDT_CMD2 + (2 * (ipin)), value)
535 
536 /* Used by PSM_INTR_OP_GET_INTR to return device information. */
537 typedef struct {
538 	uint16_t	avgi_req_flags;	/* request flags - to kernel */
539 	uint8_t		avgi_num_devs;	/* # devs on this ino - from kernel */
540 	uint8_t		avgi_vector;	/* vector */
541 	uint32_t	avgi_cpu_id;	/* cpu of interrupt - from kernel */
542 	dev_info_t	**avgi_dip_list; /* kmem_alloc'ed list of dev_infos. */
543 					/* Contains num_devs elements. */
544 } apic_get_intr_t;
545 
546 /* Masks for avgi_req_flags. */
547 #define	PSMGI_REQ_CPUID		0x1	/* Request CPU ID */
548 #define	PSMGI_REQ_NUM_DEVS	0x2	/* Request num of devices on vector */
549 #define	PSMGI_REQ_VECTOR	0x4
550 #define	PSMGI_REQ_GET_DEVS	0x8	/* Request device list */
551 #define	PSMGI_REQ_ALL		0xf	/* Request everything */
552 
553 /* Other flags */
554 #define	PSMGI_INTRBY_VEC	0	/* Vec passed.  xlate to IRQ needed */
555 #define	PSMGI_INTRBY_IRQ	0x8000	/* IRQ passed.  no xlate needed */
556 #define	PSMGI_INTRBY_FLAGS	0x8000	/* Mask for this flag */
557 
558 /*
559  * Use scaled-fixed-point arithmetic to calculate apic ticks.
560  * Round when dividing (by adding half of divisor to dividend)
561  * for one extra bit of precision.
562  */
563 
564 #define	SF	(1ULL<<20)		/* Scaling Factor: scale by 2^20 */
565 #define	APIC_TICKS_TO_NSECS(ticks)	((((int64_t)(ticks) * SF) + \
566 					apic_ticks_per_SFnsecs / 2) / \
567 					apic_ticks_per_SFnsecs);
568 #define	APIC_NSECS_TO_TICKS(nsecs)	(((int64_t)(nsecs) * \
569 					apic_ticks_per_SFnsecs + (SF/2)) / SF)
570 
571 extern int	apic_verbose;
572 
573 /* Flag definitions for apic_verbose */
574 #define	APIC_VERBOSE_IOAPIC_FLAG		0x00000001
575 #define	APIC_VERBOSE_IRQ_FLAG			0x00000002
576 #define	APIC_VERBOSE_POWEROFF_FLAG		0x00000004
577 #define	APIC_VERBOSE_POWEROFF_PAUSE_FLAG	0x00000008
578 
579 
580 #define	APIC_VERBOSE_IOAPIC(fmt) \
581 	if (apic_verbose & APIC_VERBOSE_IOAPIC_FLAG) \
582 		cmn_err fmt;
583 
584 #define	APIC_VERBOSE_IRQ(fmt) \
585 	if (apic_verbose & APIC_VERBOSE_IRQ_FLAG) \
586 		cmn_err fmt;
587 
588 #define	APIC_VERBOSE_POWEROFF(fmt) \
589 	if (apic_verbose & APIC_VERBOSE_POWEROFF_FLAG) \
590 		prom_printf fmt;
591 
592 #ifdef DEBUG
593 #define	DENT		0x0001
594 extern int	apic_debug;
595 /*
596  * set apic_restrict_vector to the # of vectors we want to allow per range
597  * useful in testing shared interrupt logic by setting it to 2 or 3
598  */
599 extern int	apic_restrict_vector;
600 
601 #define	APIC_DEBUG_MSGBUFSIZE	2048
602 extern int	apic_debug_msgbuf[];
603 extern int	apic_debug_msgbufindex;
604 
605 /*
606  * Put "int" info into debug buffer. No MP consistency, but light weight.
607  * Good enough for most debugging.
608  */
609 #define	APIC_DEBUG_BUF_PUT(x) \
610 	apic_debug_msgbuf[apic_debug_msgbufindex++] = x; \
611 	if (apic_debug_msgbufindex >= (APIC_DEBUG_MSGBUFSIZE - NCPU)) \
612 		apic_debug_msgbufindex = 0;
613 
614 #endif /* DEBUG */
615 
616 extern int	apic_error;
617 /* values which apic_error can take. Not catastrophic, but may help debug */
618 #define	APIC_ERR_BOOT_EOI		0x1
619 #define	APIC_ERR_GET_IPIVECT_FAIL	0x2
620 #define	APIC_ERR_INVALID_INDEX		0x4
621 #define	APIC_ERR_MARK_VECTOR_FAIL	0x8
622 #define	APIC_ERR_APIC_ERROR		0x40000000
623 #define	APIC_ERR_NMI			0x80000000
624 
625 /*
626  * ACPI definitions
627  */
628 /* _PIC method arguments */
629 #define	ACPI_PIC_MODE	0
630 #define	ACPI_APIC_MODE	1
631 
632 /* APIC error flags we care about */
633 #define	APIC_SEND_CS_ERROR	0x01
634 #define	APIC_RECV_CS_ERROR	0x02
635 #define	APIC_CS_ERRORS		(APIC_SEND_CS_ERROR|APIC_RECV_CS_ERROR)
636 
637 /* Maximum number of times to retry reprogramming at apic_intr_exit time */
638 #define	APIC_REPROGRAM_MAX_TRIES 10000
639 
640 /* Parameter to ioapic_init_intr(): Should ioapic ints be masked? */
641 #define	IOAPIC_MASK 1
642 #define	IOAPIC_NOMASK 0
643 
644 #define	INTR_ROUND_ROBIN_WITH_AFFINITY	0
645 #define	INTR_ROUND_ROBIN		1
646 #define	INTR_LOWEST_PRIORITY		2
647 
648 
649 
650 struct ioapic_reprogram_data {
651 	boolean_t			done;
652 	apic_irq_t			*irqp;
653 	/* The CPU to which the int will be bound */
654 	int				bindcpu;
655 	/* # times the reprogram timeout was called */
656 	unsigned			tries;
657 };
658 
659 /* The irq # is implicit in the array index: */
660 extern struct ioapic_reprogram_data apic_reprogram_info[];
661 
662 extern void apic_intr_exit(int ipl, int irq);
663 extern int apic_probe_common();
664 extern void apic_init_common();
665 extern void ioapic_init_intr();
666 extern void ioapic_disable_redirection();
667 extern int apic_addspl_common(int irqno, int ipl, int min_ipl, int max_ipl);
668 extern int apic_delspl_common(int irqno, int ipl, int min_ipl, int max_ipl);
669 extern void apic_cleanup_busy();
670 extern void apic_intr_redistribute();
671 extern uchar_t apic_xlate_vector(uchar_t vector);
672 extern uchar_t apic_allocate_vector(int ipl, int irq, int pri);
673 extern void apic_free_vector(uchar_t vector);
674 extern int apic_allocate_irq(int irq);
675 extern uchar_t apic_bind_intr(dev_info_t *dip, int irq, uchar_t ioapicid,
676     uchar_t intin);
677 extern int apic_rebind(apic_irq_t *irq_ptr, int bind_cpu,
678     struct ioapic_reprogram_data *drep);
679 extern int apic_rebind_all(apic_irq_t *irq_ptr, int bind_cpu);
680 extern int apic_introp_xlate(dev_info_t *dip, struct intrspec *ispec, int type);
681 extern int apic_intr_ops(dev_info_t *dip, ddi_intr_handle_impl_t *hdlp,
682     psm_intr_op_t intr_op, int *result);
683 extern boolean_t apic_cpu_in_range(int cpu);
684 extern int apic_check_msi_support();
685 extern apic_irq_t *apic_find_irq(dev_info_t *dip, struct intrspec *ispec,
686     int type);
687 extern int apic_navail_vector(dev_info_t *dip, int pri);
688 extern int apic_alloc_vectors(dev_info_t *dip, int inum, int count, int pri,
689     int type, int behavior);
690 extern void  apic_free_vectors(dev_info_t *dip, int inum, int count, int pri,
691     int type);
692 extern int apic_get_vector_intr_info(int vecirq,
693     apic_get_intr_t *intr_params_p);
694 extern uchar_t apic_find_multi_vectors(int pri, int count);
695 extern int apic_setup_io_intr(void *p, int irq, boolean_t deferred);
696 extern uint32_t *mapin_apic(uint32_t addr, size_t len, int flags);
697 extern uint32_t *mapin_ioapic(uint32_t addr, size_t len, int flags);
698 extern void mapout_apic(caddr_t addr, size_t len);
699 extern void mapout_ioapic(caddr_t addr, size_t len);
700 extern uchar_t apic_modify_vector(uchar_t vector, int irq);
701 extern int apic_pci_msi_unconfigure(dev_info_t *rdip, int type, int inum);
702 extern int apic_pci_msi_disable_mode(dev_info_t *rdip, int type, int inum);
703 extern int apic_pci_msi_enable_mode(dev_info_t *rdip, int type, int inum);
704 
705 extern volatile uint32_t *apicadr;	/* virtual addr of local APIC   */
706 extern int apic_forceload;
707 extern apic_cpus_info_t *apic_cpus;
708 extern cpuset_t apic_cpumask;
709 extern uint_t apic_flag;
710 extern uchar_t apic_ipltopri[MAXIPL+1];
711 extern uchar_t apic_vector_to_irq[APIC_MAX_VECTOR+1];
712 extern int apic_max_device_irq;
713 extern int apic_min_device_irq;
714 extern apic_irq_t *apic_irq_table[APIC_MAX_VECTOR+1];
715 extern volatile uint32_t *apicioadr[MAX_IO_APIC];
716 extern uchar_t apic_io_id[MAX_IO_APIC];
717 extern lock_t apic_ioapic_lock;
718 extern uint32_t apic_physaddr[MAX_IO_APIC];
719 extern kmutex_t airq_mutex;
720 extern int apic_first_avail_irq;
721 extern uchar_t apic_vectortoipl[APIC_AVAIL_VECTOR / APIC_VECTOR_PER_IPL];
722 extern int apic_imcrp;
723 extern int apic_revector_pending;
724 extern char apic_level_intr[APIC_MAX_VECTOR+1];
725 extern uchar_t apic_resv_vector[MAXIPL+1];
726 extern int apic_sample_factor_redistribution;
727 extern int apic_int_busy_mark;
728 extern int apic_int_free_mark;
729 extern int apic_diff_for_redistribution;
730 extern int apic_poweroff_method;
731 extern int apic_enable_acpi;
732 extern int apic_nproc;
733 extern int apic_next_bind_cpu;
734 extern int apic_redistribute_sample_interval;
735 extern int apic_multi_msi_enable;
736 extern int apic_multi_msi_max;
737 extern int apic_sci_vect;
738 
739 
740 
741 #ifdef	__cplusplus
742 }
743 #endif
744 
745 #endif	/* _SYS_APIC_APIC_H */
746