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 (c) 1993, 2010, Oracle and/or its affiliates. All rights reserved.
23 */
24
25 /*
26 * Copyright (c) 2010, Intel Corporation.
27 * All rights reserved.
28 */
29
30 #ifndef _SYS_APIC_APIC_H
31 #define _SYS_APIC_APIC_H
32
33 #include <sys/psm_types.h>
34 #include <sys/avintr.h>
35 #include <sys/pci.h>
36
37 #ifdef __cplusplus
38 extern "C" {
39 #endif
40
41 #include <sys/psm_common.h>
42
43 #define APIC_PCPLUSMP_NAME "pcplusmp"
44 #define APIC_APIX_NAME "apix"
45
46 #define APIC_IO_ADDR 0xfec00000
47 #define APIC_LOCAL_ADDR 0xfee00000
48 #define APIC_IO_MEMLEN 0xf
49 #define APIC_LOCAL_MEMLEN 0xfffff
50
51 /* Local Unit ID register */
52 #define APIC_LID_REG 0x8
53
54 /* I/o Unit Version Register */
55 #define APIC_VERS_REG 0xc
56
57 /* Task Priority register */
58 #define APIC_TASK_REG 0x20
59
60 /* EOI register */
61 #define APIC_EOI_REG 0x2c
62
63 /* Remote Read register */
64 #define APIC_REMOTE_READ 0x30
65
66 /* Logical Destination register */
67 #define APIC_DEST_REG 0x34
68
69 /* Destination Format register */
70 #define APIC_FORMAT_REG 0x38
71
72 /* Spurious Interrupt Vector register */
73 #define APIC_SPUR_INT_REG 0x3c
74
75 /* Error Status Register */
76 #define APIC_ERROR_STATUS 0xa0
77
78 /* Interrupt Command registers */
79 #define APIC_INT_CMD1 0xc0
80 #define APIC_INT_CMD2 0xc4
81
82 /* Local Interrupt Vector registers */
83 #define APIC_CMCI_VECT 0xbc
84 #define APIC_THERM_VECT 0xcc
85 #define APIC_PCINT_VECT 0xd0
86 #define APIC_INT_VECT0 0xd4
87 #define APIC_INT_VECT1 0xd8
88 #define APIC_ERR_VECT 0xdc
89
90 /* IPL for performance counter interrupts */
91 #define APIC_PCINT_IPL 0xe
92 #define APIC_LVT_MASK 0x10000 /* Mask bit (16) in LVT */
93
94 /* Initial Count register */
95 #define APIC_INIT_COUNT 0xe0
96
97 /* Current Count Register */
98 #define APIC_CURR_COUNT 0xe4
99 #define APIC_CURR_ADD 0x39 /* used for remote read command */
100 #define CURR_COUNT_OFFSET (sizeof (int32_t) * APIC_CURR_COUNT)
101
102 /* Divider Configuration Register */
103 #define APIC_DIVIDE_REG 0xf8
104
105 /* Various mode for local APIC. Modes are mutually exclusive */
106 #define APIC_IS_DISABLED 0x0
107 #define APIC_MODE_NOTSET 0x1
108 #define LOCAL_APIC 0x2
109 #define LOCAL_X2APIC 0x3
110
111 /* x2APIC SELF IPI Register */
112 #define X2APIC_SELF_IPI 0xFC
113
114 /* General x2APIC constants used at various places */
115 #define APIC_SVR_SUPPRESS_BROADCAST_EOI 0x1000
116 #define APIC_DIRECTED_EOI_BIT 0x1000000
117
118 /* IRR register */
119 #define APIC_IRR_REG 0x80
120
121 /* ISR register */
122 #define APIC_ISR_REG 0x40
123
124 #define APIC_IO_REG 0x0
125 #define APIC_IO_DATA 0x4
126 #define APIC_IO_EOI 0x10
127
128 /* Bit offset of APIC ID in LID_REG, INT_CMD and in DEST_REG */
129 #define APIC_ID_BIT_OFFSET 24
130 #define APIC_ICR_ID_BIT_OFFSET 24
131 #define APIC_LDR_ID_BIT_OFFSET 24
132
133 /*
134 * Choose between flat and clustered models by writing the following to the
135 * FORMAT_REG. 82489 DX documentation seemed to suggest that writing 0 will
136 * disable logical destination mode.
137 * Does not seem to be in the docs for local APICs on the processors.
138 */
139 #define APIC_FLAT_MODEL 0xFFFFFFFFUL
140 #define APIC_CLUSTER_MODEL 0x0FFFFFFF
141
142 /*
143 * The commands which follow are window selectors written to APIC_IO_REG
144 * before data can be read/written from/to APIC_IO_DATA
145 */
146
147 #define APIC_ID_CMD 0x0
148 #define APIC_VERS_CMD 0x1
149 #define APIC_RDT_CMD 0x10
150 #define APIC_RDT_CMD2 0x11
151
152 #define APIC_INTEGRATED_VERS 0x10 /* 0x10 & above indicates integrated */
153 #define IOAPIC_VER_82489DX 0x01 /* Version ID: 82489DX External APIC */
154
155 #define APIC_INT_SPURIOUS -1
156
157 #define APIC_IMCR_P1 0x22 /* int mode conf register port 1 */
158 #define APIC_IMCR_P2 0x23 /* int mode conf register port 2 */
159 #define APIC_IMCR_SELECT 0x70 /* select imcr by writing into P1 */
160 #define APIC_IMCR_PIC 0x0 /* selects PIC mode (8259-> BSP) */
161 #define APIC_IMCR_APIC 0x1 /* selects APIC mode (8259->APIC) */
162
163 #define APIC_CT_VECT 0x4ac /* conf table vector */
164 #define APIC_CT_SIZE 1024 /* conf table size */
165
166 #define APIC_ID 'MPAT' /* conf table signature */
167
168 #define VENID_AMD 0x1022
169 #define DEVID_8131_IOAPIC 0x7451
170 #define DEVID_8132_IOAPIC 0x7459
171
172 #define IOAPICS_NODE_NAME "ioapics"
173 #define IOAPICS_CHILD_NAME "ioapic"
174 #define IOAPICS_DEV_TYPE "ioapic"
175 #define IOAPICS_PROP_VENID "vendor-id"
176 #define IOAPICS_PROP_DEVID "device-id"
177
178 #define IS_CLASS_IOAPIC(b, s, p) \
179 ((b) == PCI_CLASS_PERIPH && (s) == PCI_PERIPH_PIC && \
180 ((p) == PCI_PERIPH_PIC_IF_IO_APIC || \
181 (p) == PCI_PERIPH_PIC_IF_IOX_APIC))
182
183 /*
184 * These macros are used in frequently called routines like
185 * apic_intr_enter().
186 */
187 #define X2APIC_WRITE(reg, v) \
188 wrmsr((REG_X2APIC_BASE_MSR + (reg >> 2)), v)
189
190 #define LOCAL_APIC_WRITE_REG(reg, v) \
191 apicadr[reg] = v
192
193 /*
194 * MP floating pointer structure defined in Intel MP Spec 1.1
195 */
196 struct apic_mpfps_hdr {
197 uint32_t mpfps_sig; /* _MP_ (0x5F4D505F) */
198 uint32_t mpfps_mpct_paddr; /* paddr of MP configuration tbl */
199 uchar_t mpfps_length; /* in paragraph (16-bytes units) */
200 uchar_t mpfps_spec_rev; /* version number of MP spec */
201 uchar_t mpfps_checksum; /* checksum of complete structure */
202 uchar_t mpfps_featinfo1; /* mp feature info bytes 1 */
203 uchar_t mpfps_featinfo2; /* mp feature info bytes 2 */
204 uchar_t mpfps_featinfo3; /* mp feature info bytes 3 */
205 uchar_t mpfps_featinfo4; /* mp feature info bytes 4 */
206 uchar_t mpfps_featinfo5; /* mp feature info bytes 5 */
207 };
208
209 #define MPFPS_FEATINFO2_IMCRP 0x80 /* IMCRP presence bit */
210
211 #define APIC_MPS_OEM_ID_LEN 8
212 #define APIC_MPS_PROD_ID_LEN 12
213
214 struct apic_mp_cnf_hdr {
215 uint_t mpcnf_sig;
216
217 uint_t mpcnf_tbl_length: 16,
218 mpcnf_spec: 8,
219 mpcnf_cksum: 8;
220
221 char mpcnf_oem_str[APIC_MPS_OEM_ID_LEN];
222
223 char mpcnf_prod_str[APIC_MPS_PROD_ID_LEN];
224
225 uint_t mpcnf_oem_ptr;
226
227 uint_t mpcnf_oem_tbl_size: 16,
228 mpcnf_entry_cnt: 16;
229
230 uint_t mpcnf_local_apic;
231
232 uint_t mpcnf_resv;
233 };
234
235 struct apic_procent {
236 uint_t proc_entry: 8,
237 proc_apicid: 8,
238 proc_version: 8,
239 proc_cpuflags: 8;
240
241 uint_t proc_stepping: 4,
242 proc_model: 4,
243 proc_family: 4,
244 proc_type: 2, /* undocumented feature */
245 proc_resv1: 18;
246
247 uint_t proc_feature;
248
249 uint_t proc_resv2;
250
251 uint_t proc_resv3;
252 };
253
254 /*
255 * proc_cpuflags definitions
256 */
257 #define CPUFLAGS_EN 1 /* if not set, this processor is unusable */
258 #define CPUFLAGS_BP 2 /* set if this is the bootstrap processor */
259
260
261 struct apic_bus {
262 uchar_t bus_entry;
263 uchar_t bus_id;
264 ushort_t bus_str1;
265 uint_t bus_str2;
266 };
267
268 struct apic_io_entry {
269 uint_t io_entry: 8,
270 io_apicid: 8,
271 io_version: 8,
272 io_flags: 8;
273
274 uint_t io_apic_addr;
275 };
276
277 #define IOAPIC_FLAGS_EN 0x01 /* this I/O apic is enable or not */
278
279 #define MAX_IO_APIC 32 /* maximum # of IOAPICs supported */
280
281 struct apic_io_intr {
282 uint_t intr_entry: 8,
283 intr_type: 8,
284 intr_po: 2,
285 intr_el: 2,
286 intr_resv: 12;
287
288 uint_t intr_busid: 8,
289 intr_irq: 8,
290 intr_destid: 8,
291 intr_destintin: 8;
292 };
293
294 /*
295 * intr_type definitions
296 */
297 #define IO_INTR_INT 0x00
298 #define IO_INTR_NMI 0x01
299 #define IO_INTR_SMI 0x02
300 #define IO_INTR_EXTINT 0x03
301
302 /*
303 * destination APIC ID
304 */
305 #define INTR_ALL_APIC 0xff
306
307
308 /* local vector table */
309 #define AV_MASK 0x10000
310
311 /* interrupt command register 32-63 */
312 #define AV_TOALL 0x7fffffff
313 #define AV_HIGH_ORDER 0x40000000
314 #define AV_IM_OFF 0x40000000
315
316 /* interrupt command register 0-31 */
317 #define AV_DELIV_MODE 0x700
318
319 #define AV_FIXED 0x000
320 #define AV_LOPRI 0x100
321 #define AV_SMI 0x200
322 #define AV_REMOTE 0x300
323 #define AV_NMI 0x400
324 #define AV_RESET 0x500
325 #define AV_STARTUP 0x600
326 #define AV_EXTINT 0x700
327
328 #define AV_PDEST 0x000
329 #define AV_LDEST 0x800
330
331 /* IO & Local APIC Bit Definitions */
332 #define RDT_VECTOR(x) ((uchar_t)((x) & 0xFF))
333 #define AV_PENDING 0x1000
334 #define AV_ACTIVE_LOW 0x2000 /* only for integrated APIC */
335 #define AV_REMOTE_IRR 0x4000 /* IOAPIC RDT-specific */
336 #define AV_LEVEL 0x8000
337 #define AV_DEASSERT AV_LEVEL
338 #define AV_ASSERT 0xc000
339
340 #define AV_READ_PENDING 0x10000
341 #define AV_REMOTE_STATUS 0x20000 /* 1 = valid, 0 = invalid */
342
343 #define AV_SH_SELF 0x40000 /* Short hand for self */
344 #define AV_SH_ALL_INCSELF 0x80000 /* All processors */
345 #define AV_SH_ALL_EXCSELF 0xc0000 /* All excluding self */
346 /* spurious interrupt vector register */
347 #define AV_UNIT_ENABLE 0x100
348
349 #define APIC_MAXVAL 0xffffffffUL
350 #define APIC_TIME_MIN 0x5000
351 #define APIC_TIME_COUNT 0x4000
352
353 /*
354 * Range of the low byte value in apic_tick before starting calibration
355 */
356 #define APIC_LB_MIN 0x60
357 #define APIC_LB_MAX 0xe0
358
359 #define APIC_MAX_VECTOR 255
360 #define APIC_RESV_VECT 0x00
361 #define APIC_RESV_IRQ 0xfe
362 #define APIC_BASE_VECT 0x20 /* This will come in as interrupt 0 */
363 #define APIC_AVAIL_VECTOR (APIC_MAX_VECTOR+1-APIC_BASE_VECT)
364 #define APIC_VECTOR_PER_IPL 0x10 /* # of vectors before PRI changes */
365 #define APIC_VECTOR(ipl) (apic_ipltopri[ipl] | APIC_RESV_VECT)
366 #define APIC_VECTOR_MASK 0x0f
367 #define APIC_HI_PRI_VECTS 2 /* vects reserved for hi pri reqs */
368 #define APIC_IPL_MASK 0xf0
369 #define APIC_IPL_SHIFT 4 /* >> to get ipl part of vector */
370 #define APIC_FIRST_FREE_IRQ 0x10
371 #define APIC_MAX_ISA_IRQ 15
372 #define APIC_IPL0 0x0f /* let IDLE_IPL be the lowest */
373 #define APIC_IDLE_IPL 0x00
374
375 #define APIC_MASK_ALL 0xf0 /* Mask all interrupts */
376
377 /* spurious interrupt vector */
378 #define APIC_SPUR_INTR 0xFF
379
380 /* special or reserve vectors */
381 #define APIC_CHECK_RESERVE_VECTORS(v) \
382 (((v) == T_FASTTRAP) || ((v) == APIC_SPUR_INTR) || \
383 ((v) == T_SYSCALLINT) || ((v) == T_DTRACE_RET))
384
385 /* cmos shutdown code for BIOS */
386 #define BIOS_SHUTDOWN 0x0a
387
388 /* define the entry types for BIOS information tables as defined in PC+MP */
389 #define APIC_CPU_ENTRY 0
390 #define APIC_BUS_ENTRY 1
391 #define APIC_IO_ENTRY 2
392 #define APIC_IO_INTR_ENTRY 3
393 #define APIC_LOCAL_INTR_ENTRY 4
394 #define APIC_MPTBL_ADDR (639 * 1024)
395 /*
396 * The MP Floating Point structure could be in 1st 1KB of EBDA or last KB
397 * of system base memory or in ROM between 0xF0000 and 0xFFFFF
398 */
399 #define MPFPS_RAM_WIN_LEN 1024
400 #define MPFPS_ROM_WIN_START (uint32_t)0xf0000
401 #define MPFPS_ROM_WIN_LEN 0x10000
402
403 #define EISA_LEVEL_CNTL 0x4D0
404
405 /* definitions for apic_irq_table */
406 #define FREE_INDEX (short)-1 /* empty slot */
407 #define RESERVE_INDEX (short)-2 /* ipi, softintr, clkintr */
408 #define ACPI_INDEX (short)-3 /* ACPI */
409 #define MSI_INDEX (short)-4 /* MSI */
410 #define MSIX_INDEX (short)-5 /* MSI-X */
411 #define DEFAULT_INDEX (short)0x7FFF
412 /* biggest positive no. to avoid conflict with actual index */
413
414 #define APIC_IS_MSI_OR_MSIX_INDEX(index) \
415 ((index) == MSI_INDEX || (index) == MSIX_INDEX)
416
417 /*
418 * definitions for MSI Address
419 */
420 #define MSI_ADDR_HDR APIC_LOCAL_ADDR
421 #define MSI_ADDR_DEST_SHIFT 12 /* Destination CPU's apic id */
422 #define MSI_ADDR_RH_FIXED 0x0 /* Redirection Hint Fixed */
423 #define MSI_ADDR_RH_LOPRI 0x1 /* Redirection Hint Lowest priority */
424 #define MSI_ADDR_RH_SHIFT 3
425 #define MSI_ADDR_DM_PHYSICAL 0x0 /* Physical Destination Mode */
426 #define MSI_ADDR_DM_LOGICAL 0x1 /* Logical Destination Mode */
427 #define MSI_ADDR_DM_SHIFT 2
428
429 /*
430 * TM is either edge or level.
431 */
432 #define TRIGGER_MODE_EDGE 0x0 /* edge sensitive */
433 #define TRIGGER_MODE_LEVEL 0x1 /* level sensitive */
434
435 /*
436 * definitions for MSI Data
437 */
438 #define MSI_DATA_DELIVERY_FIXED 0x0 /* Fixed delivery */
439 #define MSI_DATA_DELIVERY_LOPRI 0x1 /* Lowest priority delivery */
440 #define MSI_DATA_DELIVERY_SMI 0x2
441 #define MSI_DATA_DELIVERY_NMI 0x4
442 #define MSI_DATA_DELIVERY_INIT 0x5
443 #define MSI_DATA_DELIVERY_EXTINT 0x7
444 #define MSI_DATA_DELIVERY_SHIFT 8
445 #define MSI_DATA_TM_EDGE TRIGGER_MODE_EDGE
446 #define MSI_DATA_TM_LEVEL TRIGGER_MODE_LEVEL
447 #define MSI_DATA_TM_SHIFT 15
448 #define MSI_DATA_LEVEL_DEASSERT 0x0
449 #define MSI_DATA_LEVEL_ASSERT 0x1 /* Edge always assert */
450 #define MSI_DATA_LEVEL_SHIFT 14
451
452 /*
453 * use to define each irq setup by the apic
454 */
455 typedef struct apic_irq {
456 short airq_mps_intr_index; /* index into mps interrupt entries */
457 /* table */
458 uchar_t airq_intin_no;
459 uchar_t airq_ioapicindex;
460 dev_info_t *airq_dip; /* device corresponding to this interrupt */
461 /*
462 * IRQ could be shared (in H/W) in which case dip & major will be
463 * for the one that was last added at this level. We cannot keep a
464 * linked list as delspl does not tell us which device has just
465 * been unloaded. For most servers where we are worried about
466 * performance, interrupt should not be shared & should not be
467 * a problem. This does not cause any correctness issue - dip is
468 * used only as an optimisation to avoid going thru all the tables
469 * in translate IRQ (which is always called twice due to brokenness
470 * in the way IPLs are determined for devices). major is used only
471 * to bind interrupts corresponding to the same device on the same
472 * CPU. Not finding major will just cause it to be potentially bound
473 * to another CPU.
474 */
475 major_t airq_major; /* major number corresponding to the device */
476 ushort_t airq_rdt_entry; /* level, polarity & trig mode */
477 uint32_t airq_cpu; /* target CPU, non-reserved IRQ only */
478 uint32_t airq_temp_cpu; /* non-reserved IRQ only, for disable_intr */
479 uchar_t airq_vector; /* Vector chosen for this irq */
480 uchar_t airq_share; /* number of interrupts at this irq */
481 uchar_t airq_share_id; /* id to identify source from irqno */
482 uchar_t airq_ipl; /* The ipl at which this is handled */
483 iflag_t airq_iflag; /* interrupt flag */
484 uchar_t airq_origirq; /* original irq passed in */
485 uint_t airq_busy; /* How frequently did clock find */
486 /* us in this */
487 struct apic_irq *airq_next; /* chain of intpts sharing a vector */
488 void *airq_intrmap_private; /* intr remap private data */
489 } apic_irq_t;
490
491 #define IRQ_USER_BOUND 0x80000000 /* user requested bind if set in airq_cpu */
492 #define IRQ_UNBOUND (uint32_t)-1 /* set in airq_cpu and airq_temp_cpu */
493 #define IRQ_UNINIT (uint32_t)-2 /* in airq_temp_cpu till addspl called */
494
495 /* Macros to help deal with shared interrupts */
496 #define VIRTIRQ(irqno, share_id) ((irqno) | ((share_id) << 8))
497 #define IRQINDEX(irq) ((irq) & 0xFF) /* Mask to get irq from virtual irq */
498
499 /*
500 * We align apic_cpus_info at 64-byte cache line boundary. Please make sure we
501 * adjust APIC_PADSZ as we add/modify any member of apic_cpus_info. We also
502 * don't want the compiler to optimize apic_cpus_info.
503 */
504 #define APIC_PADSZ 15
505
506 #pragma pack(1)
507 typedef struct apic_cpus_info {
508 uint32_t aci_local_id;
509 uchar_t aci_local_ver;
510 uchar_t aci_status;
511 uchar_t aci_redistribute; /* Selected for redistribution */
512 uint_t aci_busy; /* Number of ticks we were in ISR */
513 uint_t aci_spur_cnt; /* # of spurious intpts on this cpu */
514 uint_t aci_ISR_in_progress; /* big enough to hold 1 << MAXIPL */
515 uchar_t aci_curipl; /* IPL of current ISR */
516 uchar_t aci_current[MAXIPL]; /* Current IRQ at each IPL */
517 uint32_t aci_bound; /* # of user requested binds ? */
518 uint32_t aci_temp_bound; /* # of non user IRQ binds */
519 uint32_t aci_processor_id; /* Only used in ACPI mode. */
520 uchar_t aci_idle; /* The CPU is idle */
521 /*
522 * Fill to make sure each struct is in separate 64-byte cache line.
523 */
524 uchar_t aci_pad[APIC_PADSZ]; /* padding for 64-byte cache line */
525 } apic_cpus_info_t;
526 #pragma pack()
527
528 #define APIC_CPU_ONLINE 0x1
529 #define APIC_CPU_INTR_ENABLE 0x2
530 #define APIC_CPU_FREE 0x4 /* APIC CPU slot is free */
531 #define APIC_CPU_DIRTY 0x8 /* Slot was once used */
532 #define APIC_CPU_SUSPEND 0x10
533
534 /*
535 * APIC ops to support various flavors of APIC like APIC and x2APIC.
536 */
537 typedef struct apic_regs_ops {
538 uint64_t (*apic_read)(uint32_t);
539 void (*apic_write)(uint32_t, uint64_t);
540 int (*apic_get_pri)(void);
541 void (*apic_write_task_reg)(uint64_t);
542 void (*apic_write_int_cmd)(uint32_t, uint32_t);
543 void (*apic_send_eoi)(uint32_t);
544 } apic_reg_ops_t;
545
546 /*
547 * interrupt structure for ioapic and msi
548 */
549 typedef struct ioapic_rdt {
550 uint32_t ir_lo;
551 uint32_t ir_hi;
552 } ioapic_rdt_t;
553
554 typedef struct msi_regs {
555 uint32_t mr_data;
556 uint64_t mr_addr;
557 }msi_regs_t;
558
559 /*
560 * APIC ops to support intel interrupt remapping
561 */
562 typedef struct apic_intrmap_ops {
563 int (*apic_intrmap_init)(int);
564 void (*apic_intrmap_enable)(int);
565 void (*apic_intrmap_alloc_entry)(void **, dev_info_t *, uint16_t,
566 int, uchar_t);
567 void (*apic_intrmap_map_entry)(void *, void *, uint16_t, int);
568 void (*apic_intrmap_free_entry)(void **);
569 void (*apic_intrmap_record_rdt)(void *, ioapic_rdt_t *);
570 void (*apic_intrmap_record_msi)(void *, msi_regs_t *);
571 } apic_intrmap_ops_t;
572
573 /*
574 * Various poweroff methods and ports & bits for them
575 */
576 #define APIC_POWEROFF_NONE 0
577 #define APIC_POWEROFF_VIA_RTC 1
578 #define APIC_POWEROFF_VIA_ASPEN_BMC 2
579 #define APIC_POWEROFF_VIA_SITKA_BMC 3
580
581 /* For RTC */
582 #define RTC_REGA 0x0a
583 #define PFR_REG 0x4a /* extended control register */
584 #define PAB_CBIT 0x08
585 #define WF_FLAG 0x02
586 #define KS_FLAG 0x01
587 #define EXT_BANK 0x10
588
589 /* For Aspen/Drake BMC */
590
591 #define CC_SMS_GET_STATUS 0x40
592 #define CC_SMS_WR_START 0x41
593 #define CC_SMS_WR_NEXT 0x42
594 #define CC_SMS_WR_END 0x43
595
596 #define MISMIC_DATA_REGISTER 0x0ca9
597 #define MISMIC_CNTL_REGISTER 0x0caa
598 #define MISMIC_FLAG_REGISTER 0x0cab
599
600 #define MISMIC_BUSY_MASK 0x01
601
602 /* For Sitka/Cabrillo BMC */
603
604 #define SMS_GET_STATUS 0x60
605 #define SMS_WRITE_START 0x61
606 #define SMS_WRITE_END 0x62
607
608 #define SMS_DATA_REGISTER 0x0ca2
609 #define SMS_STATUS_REGISTER 0x0ca3
610 #define SMS_COMMAND_REGISTER 0x0ca3
611
612 #define SMS_IBF_MASK 0x02
613 #define SMS_STATE_MASK 0xc0
614
615 #define SMS_IDLE_STATE 0x00
616 #define SMS_READ_STATE 0x40
617 #define SMS_WRITE_STATE 0x80
618 #define SMS_ERROR_STATE 0xc0
619
620 extern uint32_t ioapic_read(int ioapic_ix, uint32_t reg);
621 extern void ioapic_write(int ioapic_ix, uint32_t reg, uint32_t value);
622 extern void ioapic_write_eoi(int ioapic_ix, uint32_t value);
623
624 /* Macros for reading/writing the IOAPIC RDT entries */
625 #define READ_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix, ipin) \
626 ioapic_read(ioapic_ix, APIC_RDT_CMD + (2 * (ipin)))
627
628 #define READ_IOAPIC_RDT_ENTRY_HIGH_DWORD(ioapic_ix, ipin) \
629 ioapic_read(ioapic_ix, APIC_RDT_CMD2 + (2 * (ipin)))
630
631 #define WRITE_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix, ipin, value) \
632 ioapic_write(ioapic_ix, APIC_RDT_CMD + (2 * (ipin)), value)
633
634 #define WRITE_IOAPIC_RDT_ENTRY_HIGH_DWORD(ioapic_ix, ipin, value) \
635 ioapic_write(ioapic_ix, APIC_RDT_CMD2 + (2 * (ipin)), value)
636
637 /* Used by PSM_INTR_OP_GET_INTR to return device information. */
638 typedef struct {
639 uint16_t avgi_req_flags; /* request flags - to kernel */
640 uint8_t avgi_num_devs; /* # devs on this ino - from kernel */
641 uint8_t avgi_vector; /* vector */
642 uint32_t avgi_cpu_id; /* cpu of interrupt - from kernel */
643 dev_info_t **avgi_dip_list; /* kmem_alloc'ed list of dev_infos. */
644 /* Contains num_devs elements. */
645 } apic_get_intr_t;
646
647 /* Used by PSM_INTR_OP_GET_TYPE to return platform information. */
648 typedef struct {
649 char *avgi_type; /* platform type - from kernel */
650 uint32_t avgi_num_intr; /* max intr number - from kernel */
651 uint32_t avgi_num_cpu; /* max cpu number - from kernel */
652 } apic_get_type_t;
653
654 /* Masks for avgi_req_flags. */
655 #define PSMGI_REQ_CPUID 0x1 /* Request CPU ID */
656 #define PSMGI_REQ_NUM_DEVS 0x2 /* Request num of devices on vector */
657 #define PSMGI_REQ_VECTOR 0x4
658 #define PSMGI_REQ_GET_DEVS 0x8 /* Request device list */
659 #define PSMGI_REQ_ALL 0xf /* Request everything */
660
661 /* Other flags */
662 #define PSMGI_INTRBY_VEC 0 /* Vec passed. xlate to IRQ needed */
663 #define PSMGI_INTRBY_IRQ 0x8000 /* IRQ passed. no xlate needed */
664 #define PSMGI_INTRBY_DEFAULT 0x4000 /* PSM specific default value */
665 #define PSMGI_INTRBY_FLAGS 0xc000 /* Mask for this flag */
666
667 extern int apic_verbose;
668
669 /* Flag definitions for apic_verbose */
670 #define APIC_VERBOSE_IOAPIC_FLAG 0x00000001
671 #define APIC_VERBOSE_IRQ_FLAG 0x00000002
672 #define APIC_VERBOSE_POWEROFF_FLAG 0x00000004
673 #define APIC_VERBOSE_POWEROFF_PAUSE_FLAG 0x00000008
674 #define APIC_VERBOSE_INIT 0x00000010
675 #define APIC_VERBOSE_REBIND 0x00000020
676 #define APIC_VERBOSE_ALLOC 0x00000040
677 #define APIC_VERBOSE_IPI 0x00000080
678 #define APIC_VERBOSE_INTR 0x00000100
679
680 /* required test to wait until APIC command is sent on the bus */
681 #define APIC_AV_PENDING_SET() \
682 while (apic_reg_ops->apic_read(APIC_INT_CMD1) & AV_PENDING) \
683 apic_ret();
684
685 #ifdef DEBUG
686
687 #define DENT 0x0001
688 extern int apic_debug;
689 /*
690 * set apic_restrict_vector to the # of vectors we want to allow per range
691 * useful in testing shared interrupt logic by setting it to 2 or 3
692 */
693 extern int apic_restrict_vector;
694
695 #define APIC_DEBUG_MSGBUFSIZE 2048
696 extern int apic_debug_msgbuf[];
697 extern int apic_debug_msgbufindex;
698
699 /*
700 * Put "int" info into debug buffer. No MP consistency, but light weight.
701 * Good enough for most debugging.
702 */
703 #define APIC_DEBUG_BUF_PUT(x) \
704 apic_debug_msgbuf[apic_debug_msgbufindex++] = x; \
705 if (apic_debug_msgbufindex >= (APIC_DEBUG_MSGBUFSIZE - NCPU)) \
706 apic_debug_msgbufindex = 0;
707
708 #define APIC_VERBOSE(flag, fmt) \
709 if (apic_verbose & APIC_VERBOSE_##flag) \
710 cmn_err fmt;
711
712 #define APIC_VERBOSE_POWEROFF(fmt) \
713 if (apic_verbose & APIC_VERBOSE_POWEROFF_FLAG) \
714 prom_printf fmt;
715
716 #else /* DEBUG */
717
718 #define APIC_VERBOSE(flag, fmt)
719 #define APIC_VERBOSE_POWEROFF(fmt)
720
721 #endif /* DEBUG */
722
723 #define APIC_VERBOSE_IOAPIC(fmt) APIC_VERBOSE(IOAPIC_FLAG, fmt)
724 #define APIC_VERBOSE_IRQ(fmt) APIC_VERBOSE(IRQ_FLAG, fmt)
725
726 extern int apic_error;
727 /* values which apic_error can take. Not catastrophic, but may help debug */
728 #define APIC_ERR_BOOT_EOI 0x1
729 #define APIC_ERR_GET_IPIVECT_FAIL 0x2
730 #define APIC_ERR_INVALID_INDEX 0x4
731 #define APIC_ERR_MARK_VECTOR_FAIL 0x8
732 #define APIC_ERR_APIC_ERROR 0x40000000
733 #define APIC_ERR_NMI 0x80000000
734
735 /*
736 * ACPI definitions
737 */
738 /* _PIC method arguments */
739 #define ACPI_PIC_MODE 0
740 #define ACPI_APIC_MODE 1
741
742 /* APIC error flags we care about */
743 #define APIC_SEND_CS_ERROR 0x01
744 #define APIC_RECV_CS_ERROR 0x02
745 #define APIC_CS_ERRORS (APIC_SEND_CS_ERROR|APIC_RECV_CS_ERROR)
746
747 /* Maximum number of times to retry reprogramming at apic_intr_exit time */
748 #define APIC_REPROGRAM_MAX_TRIES 10000
749
750 /* Parameter to ioapic_init_intr(): Should ioapic ints be masked? */
751 #define IOAPIC_MASK 1
752 #define IOAPIC_NOMASK 0
753
754 #define INTR_ROUND_ROBIN_WITH_AFFINITY 0
755 #define INTR_ROUND_ROBIN 1
756 #define INTR_LOWEST_PRIORITY 2
757
758 struct ioapic_reprogram_data {
759 boolean_t done;
760 apic_irq_t *irqp;
761 /* The CPU to which the int will be bound */
762 int bindcpu;
763 /* # times the reprogram timeout was called */
764 unsigned tries;
765 };
766
767 /* The irq # is implicit in the array index: */
768 extern struct ioapic_reprogram_data apic_reprogram_info[];
769
770 extern void apic_intr_exit(int ipl, int irq);
771 extern void x2apic_intr_exit(int ipl, int irq);
772 extern int apic_probe_common();
773 extern void apic_init_common();
774 extern void ioapic_init_intr();
775 extern void ioapic_disable_redirection();
776 extern int apic_addspl_common(int irqno, int ipl, int min_ipl, int max_ipl);
777 extern int apic_delspl_common(int irqno, int ipl, int min_ipl, int max_ipl);
778 extern void apic_cleanup_busy();
779 extern void apic_intr_redistribute();
780 extern uchar_t apic_xlate_vector(uchar_t vector);
781 extern uchar_t apic_allocate_vector(int ipl, int irq, int pri);
782 extern void apic_free_vector(uchar_t vector);
783 extern int apic_allocate_irq(int irq);
784 extern uint32_t apic_bind_intr(dev_info_t *dip, int irq, uchar_t ioapicid,
785 uchar_t intin);
786 extern int apic_rebind(apic_irq_t *irq_ptr, int bind_cpu,
787 struct ioapic_reprogram_data *drep);
788 extern int apic_rebind_all(apic_irq_t *irq_ptr, int bind_cpu);
789 extern int apic_introp_xlate(dev_info_t *dip, struct intrspec *ispec, int type);
790 extern int apic_intr_ops(dev_info_t *dip, ddi_intr_handle_impl_t *hdlp,
791 psm_intr_op_t intr_op, int *result);
792 extern int apic_state(psm_state_request_t *);
793 extern boolean_t apic_cpu_in_range(int cpu);
794 extern int apic_check_msi_support();
795 extern apic_irq_t *apic_find_irq(dev_info_t *dip, struct intrspec *ispec,
796 int type);
797 extern int apic_navail_vector(dev_info_t *dip, int pri);
798 extern int apic_alloc_msi_vectors(dev_info_t *dip, int inum, int count,
799 int pri, int behavior);
800 extern int apic_alloc_msix_vectors(dev_info_t *dip, int inum, int count,
801 int pri, int behavior);
802 extern void apic_free_vectors(dev_info_t *dip, int inum, int count, int pri,
803 int type);
804 extern int apic_get_vector_intr_info(int vecirq,
805 apic_get_intr_t *intr_params_p);
806 extern uchar_t apic_find_multi_vectors(int pri, int count);
807 extern int apic_setup_io_intr(void *p, int irq, boolean_t deferred);
808 extern uint32_t *mapin_apic(uint32_t addr, size_t len, int flags);
809 extern uint32_t *mapin_ioapic(uint32_t addr, size_t len, int flags);
810 extern void mapout_apic(caddr_t addr, size_t len);
811 extern void mapout_ioapic(caddr_t addr, size_t len);
812 extern uchar_t apic_modify_vector(uchar_t vector, int irq);
813 extern void apic_pci_msi_unconfigure(dev_info_t *rdip, int type, int inum);
814 extern void apic_pci_msi_disable_mode(dev_info_t *rdip, int type);
815 extern void apic_pci_msi_enable_mode(dev_info_t *rdip, int type, int inum);
816 extern void apic_pci_msi_enable_vector(apic_irq_t *, int type, int inum,
817 int vector, int count, int target_apic_id);
818 extern char *apic_get_apic_type();
819 extern uint16_t apic_get_apic_version();
820 extern void x2apic_send_ipi();
821 extern void apic_ret();
822 extern int apic_detect_x2apic();
823 extern void apic_enable_x2apic();
824 extern int apic_local_mode();
825 extern void apic_change_eoi();
826 extern void apic_send_EOI(uint32_t);
827 extern void apic_send_directed_EOI(uint32_t);
828 extern uint_t apic_calibrate(volatile uint32_t *, uint16_t *);
829
830 extern volatile uint32_t *apicadr; /* virtual addr of local APIC */
831 extern int apic_forceload;
832 extern apic_cpus_info_t *apic_cpus;
833 #ifdef _MACHDEP
834 extern cpuset_t apic_cpumask;
835 #endif
836 extern uint_t apic_picinit_called;
837 extern uchar_t apic_ipltopri[MAXIPL+1];
838 extern uchar_t apic_vector_to_irq[APIC_MAX_VECTOR+1];
839 extern int apic_max_device_irq;
840 extern int apic_min_device_irq;
841 extern apic_irq_t *apic_irq_table[APIC_MAX_VECTOR+1];
842 extern volatile uint32_t *apicioadr[MAX_IO_APIC];
843 extern uchar_t apic_io_id[MAX_IO_APIC];
844 extern lock_t apic_ioapic_lock;
845 extern uint32_t apic_physaddr[MAX_IO_APIC];
846 extern kmutex_t airq_mutex;
847 extern int apic_first_avail_irq;
848 extern uchar_t apic_vectortoipl[APIC_AVAIL_VECTOR / APIC_VECTOR_PER_IPL];
849 extern int apic_imcrp;
850 extern int apic_revector_pending;
851 extern char apic_level_intr[APIC_MAX_VECTOR+1];
852 extern uchar_t apic_resv_vector[MAXIPL+1];
853 extern int apic_sample_factor_redistribution;
854 extern int apic_int_busy_mark;
855 extern int apic_int_free_mark;
856 extern int apic_diff_for_redistribution;
857 extern int apic_poweroff_method;
858 extern int apic_enable_acpi;
859 extern int apic_nproc;
860 extern int apic_max_nproc;
861 extern int apic_next_bind_cpu;
862 extern int apic_redistribute_sample_interval;
863 extern int apic_multi_msi_enable;
864 extern int apic_sci_vect;
865 extern int apic_hpet_vect;
866 extern uchar_t apic_ipls[];
867 extern apic_reg_ops_t *apic_reg_ops;
868 extern int apic_mode;
869 extern void x2apic_update_psm();
870 extern void apic_change_ops();
871 extern void apic_common_send_ipi(int, int);
872 extern void apic_set_directed_EOI_handler();
873 extern int apic_directed_EOI_supported();
874
875 extern apic_intrmap_ops_t *apic_vt_ops;
876
877 #ifdef __cplusplus
878 }
879 #endif
880
881 #endif /* _SYS_APIC_APIC_H */