1*12683SJimmy.Vetayases@oracle.com /*
2*12683SJimmy.Vetayases@oracle.com * CDDL HEADER START
3*12683SJimmy.Vetayases@oracle.com *
4*12683SJimmy.Vetayases@oracle.com * The contents of this file are subject to the terms of the
5*12683SJimmy.Vetayases@oracle.com * Common Development and Distribution License (the "License").
6*12683SJimmy.Vetayases@oracle.com * You may not use this file except in compliance with the License.
7*12683SJimmy.Vetayases@oracle.com *
8*12683SJimmy.Vetayases@oracle.com * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9*12683SJimmy.Vetayases@oracle.com * or http://www.opensolaris.org/os/licensing.
10*12683SJimmy.Vetayases@oracle.com * See the License for the specific language governing permissions
11*12683SJimmy.Vetayases@oracle.com * and limitations under the License.
12*12683SJimmy.Vetayases@oracle.com *
13*12683SJimmy.Vetayases@oracle.com * When distributing Covered Code, include this CDDL HEADER in each
14*12683SJimmy.Vetayases@oracle.com * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15*12683SJimmy.Vetayases@oracle.com * If applicable, add the following below this CDDL HEADER, with the
16*12683SJimmy.Vetayases@oracle.com * fields enclosed by brackets "[]" replaced with your own identifying
17*12683SJimmy.Vetayases@oracle.com * information: Portions Copyright [yyyy] [name of copyright owner]
18*12683SJimmy.Vetayases@oracle.com *
19*12683SJimmy.Vetayases@oracle.com * CDDL HEADER END
20*12683SJimmy.Vetayases@oracle.com */
21*12683SJimmy.Vetayases@oracle.com /*
22*12683SJimmy.Vetayases@oracle.com * Copyright (c) 2010, Oracle and/or its affiliates. All rights reserved.
23*12683SJimmy.Vetayases@oracle.com */
24*12683SJimmy.Vetayases@oracle.com /*
25*12683SJimmy.Vetayases@oracle.com * Copyright (c) 2010, Intel Corporation.
26*12683SJimmy.Vetayases@oracle.com * All rights reserved.
27*12683SJimmy.Vetayases@oracle.com */
28*12683SJimmy.Vetayases@oracle.com
29*12683SJimmy.Vetayases@oracle.com /*
30*12683SJimmy.Vetayases@oracle.com * PSMI 1.1 extensions are supported only in 2.6 and later versions.
31*12683SJimmy.Vetayases@oracle.com * PSMI 1.2 extensions are supported only in 2.7 and later versions.
32*12683SJimmy.Vetayases@oracle.com * PSMI 1.3 and 1.4 extensions are supported in Solaris 10.
33*12683SJimmy.Vetayases@oracle.com * PSMI 1.5 extensions are supported in Solaris Nevada.
34*12683SJimmy.Vetayases@oracle.com * PSMI 1.6 extensions are supported in Solaris Nevada.
35*12683SJimmy.Vetayases@oracle.com * PSMI 1.7 extensions are supported in Solaris Nevada.
36*12683SJimmy.Vetayases@oracle.com */
37*12683SJimmy.Vetayases@oracle.com #define PSMI_1_7
38*12683SJimmy.Vetayases@oracle.com
39*12683SJimmy.Vetayases@oracle.com #include <sys/processor.h>
40*12683SJimmy.Vetayases@oracle.com #include <sys/time.h>
41*12683SJimmy.Vetayases@oracle.com #include <sys/psm.h>
42*12683SJimmy.Vetayases@oracle.com #include <sys/smp_impldefs.h>
43*12683SJimmy.Vetayases@oracle.com #include <sys/inttypes.h>
44*12683SJimmy.Vetayases@oracle.com #include <sys/cram.h>
45*12683SJimmy.Vetayases@oracle.com #include <sys/acpi/acpi.h>
46*12683SJimmy.Vetayases@oracle.com #include <sys/acpica.h>
47*12683SJimmy.Vetayases@oracle.com #include <sys/psm_common.h>
48*12683SJimmy.Vetayases@oracle.com #include <sys/apic.h>
49*12683SJimmy.Vetayases@oracle.com #include <sys/apic_common.h>
50*12683SJimmy.Vetayases@oracle.com #include <sys/pit.h>
51*12683SJimmy.Vetayases@oracle.com #include <sys/ddi.h>
52*12683SJimmy.Vetayases@oracle.com #include <sys/sunddi.h>
53*12683SJimmy.Vetayases@oracle.com #include <sys/ddi_impldefs.h>
54*12683SJimmy.Vetayases@oracle.com #include <sys/pci.h>
55*12683SJimmy.Vetayases@oracle.com #include <sys/promif.h>
56*12683SJimmy.Vetayases@oracle.com #include <sys/x86_archext.h>
57*12683SJimmy.Vetayases@oracle.com #include <sys/cpc_impl.h>
58*12683SJimmy.Vetayases@oracle.com #include <sys/uadmin.h>
59*12683SJimmy.Vetayases@oracle.com #include <sys/panic.h>
60*12683SJimmy.Vetayases@oracle.com #include <sys/debug.h>
61*12683SJimmy.Vetayases@oracle.com #include <sys/archsystm.h>
62*12683SJimmy.Vetayases@oracle.com #include <sys/trap.h>
63*12683SJimmy.Vetayases@oracle.com #include <sys/machsystm.h>
64*12683SJimmy.Vetayases@oracle.com #include <sys/cpuvar.h>
65*12683SJimmy.Vetayases@oracle.com #include <sys/rm_platter.h>
66*12683SJimmy.Vetayases@oracle.com #include <sys/privregs.h>
67*12683SJimmy.Vetayases@oracle.com #include <sys/cyclic.h>
68*12683SJimmy.Vetayases@oracle.com #include <sys/note.h>
69*12683SJimmy.Vetayases@oracle.com #include <sys/pci_intr_lib.h>
70*12683SJimmy.Vetayases@oracle.com #include <sys/sunndi.h>
71*12683SJimmy.Vetayases@oracle.com #include <sys/hpet.h>
72*12683SJimmy.Vetayases@oracle.com #include <sys/clock.h>
73*12683SJimmy.Vetayases@oracle.com
74*12683SJimmy.Vetayases@oracle.com /*
75*12683SJimmy.Vetayases@oracle.com * Part of mp_platfrom_common.c that's used only by pcplusmp & xpv_psm
76*12683SJimmy.Vetayases@oracle.com * but not apix.
77*12683SJimmy.Vetayases@oracle.com * These functions may be moved to xpv_psm later when apix and pcplusmp
78*12683SJimmy.Vetayases@oracle.com * are merged together
79*12683SJimmy.Vetayases@oracle.com */
80*12683SJimmy.Vetayases@oracle.com
81*12683SJimmy.Vetayases@oracle.com /*
82*12683SJimmy.Vetayases@oracle.com * Local Function Prototypes
83*12683SJimmy.Vetayases@oracle.com */
84*12683SJimmy.Vetayases@oracle.com static void apic_mark_vector(uchar_t oldvector, uchar_t newvector);
85*12683SJimmy.Vetayases@oracle.com static void apic_xlate_vector_free_timeout_handler(void *arg);
86*12683SJimmy.Vetayases@oracle.com static int apic_check_stuck_interrupt(apic_irq_t *irq_ptr, int old_bind_cpu,
87*12683SJimmy.Vetayases@oracle.com int new_bind_cpu, int apicindex, int intin_no, int which_irq,
88*12683SJimmy.Vetayases@oracle.com struct ioapic_reprogram_data *drep);
89*12683SJimmy.Vetayases@oracle.com static int apic_setup_irq_table(dev_info_t *dip, int irqno,
90*12683SJimmy.Vetayases@oracle.com struct apic_io_intr *intrp, struct intrspec *ispec, iflag_t *intr_flagp,
91*12683SJimmy.Vetayases@oracle.com int type);
92*12683SJimmy.Vetayases@oracle.com static void apic_try_deferred_reprogram(int ipl, int vect);
93*12683SJimmy.Vetayases@oracle.com static void delete_defer_repro_ent(int which_irq);
94*12683SJimmy.Vetayases@oracle.com static void apic_ioapic_wait_pending_clear(int ioapicindex,
95*12683SJimmy.Vetayases@oracle.com int intin_no);
96*12683SJimmy.Vetayases@oracle.com
97*12683SJimmy.Vetayases@oracle.com extern int apic_acpi_translate_pci_irq(dev_info_t *dip, int busid, int devid,
98*12683SJimmy.Vetayases@oracle.com int ipin, int *pci_irqp, iflag_t *intr_flagp);
99*12683SJimmy.Vetayases@oracle.com extern int apic_handle_pci_pci_bridge(dev_info_t *idip, int child_devno,
100*12683SJimmy.Vetayases@oracle.com int child_ipin, struct apic_io_intr **intrp);
101*12683SJimmy.Vetayases@oracle.com extern uchar_t acpi_find_ioapic(int irq);
102*12683SJimmy.Vetayases@oracle.com extern struct apic_io_intr *apic_find_io_intr_w_busid(int irqno, int busid);
103*12683SJimmy.Vetayases@oracle.com extern int apic_find_bus_id(int bustype);
104*12683SJimmy.Vetayases@oracle.com extern int apic_find_intin(uchar_t ioapic, uchar_t intin);
105*12683SJimmy.Vetayases@oracle.com extern void apic_record_rdt_entry(apic_irq_t *irqptr, int irq);
106*12683SJimmy.Vetayases@oracle.com
107*12683SJimmy.Vetayases@oracle.com extern int apic_sci_vect;
108*12683SJimmy.Vetayases@oracle.com extern iflag_t apic_sci_flags;
109*12683SJimmy.Vetayases@oracle.com /* ACPI HPET interrupt configuration; -1 if HPET not used */
110*12683SJimmy.Vetayases@oracle.com extern int apic_hpet_vect;
111*12683SJimmy.Vetayases@oracle.com extern iflag_t apic_hpet_flags;
112*12683SJimmy.Vetayases@oracle.com extern int apic_intr_policy;
113*12683SJimmy.Vetayases@oracle.com extern char *psm_name;
114*12683SJimmy.Vetayases@oracle.com
115*12683SJimmy.Vetayases@oracle.com /*
116*12683SJimmy.Vetayases@oracle.com * number of bits per byte, from <sys/param.h>
117*12683SJimmy.Vetayases@oracle.com */
118*12683SJimmy.Vetayases@oracle.com #define UCHAR_MAX UINT8_MAX
119*12683SJimmy.Vetayases@oracle.com
120*12683SJimmy.Vetayases@oracle.com /* Max wait time (in repetitions) for flags to clear in an RDT entry. */
121*12683SJimmy.Vetayases@oracle.com extern int apic_max_reps_clear_pending;
122*12683SJimmy.Vetayases@oracle.com
123*12683SJimmy.Vetayases@oracle.com /* The irq # is implicit in the array index: */
124*12683SJimmy.Vetayases@oracle.com struct ioapic_reprogram_data apic_reprogram_info[APIC_MAX_VECTOR+1];
125*12683SJimmy.Vetayases@oracle.com /*
126*12683SJimmy.Vetayases@oracle.com * APIC_MAX_VECTOR + 1 is the maximum # of IRQs as well. ioapic_reprogram_info
127*12683SJimmy.Vetayases@oracle.com * is indexed by IRQ number, NOT by vector number.
128*12683SJimmy.Vetayases@oracle.com */
129*12683SJimmy.Vetayases@oracle.com
130*12683SJimmy.Vetayases@oracle.com extern int apic_int_busy_mark;
131*12683SJimmy.Vetayases@oracle.com extern int apic_int_free_mark;
132*12683SJimmy.Vetayases@oracle.com extern int apic_diff_for_redistribution;
133*12683SJimmy.Vetayases@oracle.com extern int apic_sample_factor_redistribution;
134*12683SJimmy.Vetayases@oracle.com extern int apic_redist_cpu_skip;
135*12683SJimmy.Vetayases@oracle.com extern int apic_num_imbalance;
136*12683SJimmy.Vetayases@oracle.com extern int apic_num_rebind;
137*12683SJimmy.Vetayases@oracle.com
138*12683SJimmy.Vetayases@oracle.com /* timeout for xlate_vector, mark_vector */
139*12683SJimmy.Vetayases@oracle.com int apic_revector_timeout = 16 * 10000; /* 160 millisec */
140*12683SJimmy.Vetayases@oracle.com
141*12683SJimmy.Vetayases@oracle.com extern int apic_defconf;
142*12683SJimmy.Vetayases@oracle.com extern int apic_irq_translate;
143*12683SJimmy.Vetayases@oracle.com
144*12683SJimmy.Vetayases@oracle.com extern int apic_use_acpi_madt_only; /* 1=ONLY use MADT from ACPI */
145*12683SJimmy.Vetayases@oracle.com
146*12683SJimmy.Vetayases@oracle.com extern uchar_t apic_io_vectbase[MAX_IO_APIC];
147*12683SJimmy.Vetayases@oracle.com
148*12683SJimmy.Vetayases@oracle.com extern boolean_t ioapic_mask_workaround[MAX_IO_APIC];
149*12683SJimmy.Vetayases@oracle.com
150*12683SJimmy.Vetayases@oracle.com /*
151*12683SJimmy.Vetayases@oracle.com * First available slot to be used as IRQ index into the apic_irq_table
152*12683SJimmy.Vetayases@oracle.com * for those interrupts (like MSI/X) that don't have a physical IRQ.
153*12683SJimmy.Vetayases@oracle.com */
154*12683SJimmy.Vetayases@oracle.com extern int apic_first_avail_irq;
155*12683SJimmy.Vetayases@oracle.com
156*12683SJimmy.Vetayases@oracle.com /*
157*12683SJimmy.Vetayases@oracle.com * apic_defer_reprogram_lock ensures that only one processor is handling
158*12683SJimmy.Vetayases@oracle.com * deferred interrupt programming at *_intr_exit time.
159*12683SJimmy.Vetayases@oracle.com */
160*12683SJimmy.Vetayases@oracle.com static lock_t apic_defer_reprogram_lock;
161*12683SJimmy.Vetayases@oracle.com
162*12683SJimmy.Vetayases@oracle.com /*
163*12683SJimmy.Vetayases@oracle.com * The current number of deferred reprogrammings outstanding
164*12683SJimmy.Vetayases@oracle.com */
165*12683SJimmy.Vetayases@oracle.com uint_t apic_reprogram_outstanding = 0;
166*12683SJimmy.Vetayases@oracle.com
167*12683SJimmy.Vetayases@oracle.com #ifdef DEBUG
168*12683SJimmy.Vetayases@oracle.com /*
169*12683SJimmy.Vetayases@oracle.com * Counters that keep track of deferred reprogramming stats
170*12683SJimmy.Vetayases@oracle.com */
171*12683SJimmy.Vetayases@oracle.com uint_t apic_intr_deferrals = 0;
172*12683SJimmy.Vetayases@oracle.com uint_t apic_intr_deliver_timeouts = 0;
173*12683SJimmy.Vetayases@oracle.com uint_t apic_last_ditch_reprogram_failures = 0;
174*12683SJimmy.Vetayases@oracle.com uint_t apic_deferred_setup_failures = 0;
175*12683SJimmy.Vetayases@oracle.com uint_t apic_defer_repro_total_retries = 0;
176*12683SJimmy.Vetayases@oracle.com uint_t apic_defer_repro_successes = 0;
177*12683SJimmy.Vetayases@oracle.com uint_t apic_deferred_spurious_enters = 0;
178*12683SJimmy.Vetayases@oracle.com #endif
179*12683SJimmy.Vetayases@oracle.com
180*12683SJimmy.Vetayases@oracle.com extern int apic_io_max;
181*12683SJimmy.Vetayases@oracle.com extern struct apic_io_intr *apic_io_intrp;
182*12683SJimmy.Vetayases@oracle.com
183*12683SJimmy.Vetayases@oracle.com uchar_t apic_vector_to_irq[APIC_MAX_VECTOR+1];
184*12683SJimmy.Vetayases@oracle.com
185*12683SJimmy.Vetayases@oracle.com extern uint32_t eisa_level_intr_mask;
186*12683SJimmy.Vetayases@oracle.com /* At least MSB will be set if EISA bus */
187*12683SJimmy.Vetayases@oracle.com
188*12683SJimmy.Vetayases@oracle.com extern int apic_pci_bus_total;
189*12683SJimmy.Vetayases@oracle.com extern uchar_t apic_single_pci_busid;
190*12683SJimmy.Vetayases@oracle.com
191*12683SJimmy.Vetayases@oracle.com /*
192*12683SJimmy.Vetayases@oracle.com * Following declarations are for revectoring; used when ISRs at different
193*12683SJimmy.Vetayases@oracle.com * IPLs share an irq.
194*12683SJimmy.Vetayases@oracle.com */
195*12683SJimmy.Vetayases@oracle.com static lock_t apic_revector_lock;
196*12683SJimmy.Vetayases@oracle.com int apic_revector_pending = 0;
197*12683SJimmy.Vetayases@oracle.com static uchar_t *apic_oldvec_to_newvec;
198*12683SJimmy.Vetayases@oracle.com static uchar_t *apic_newvec_to_oldvec;
199*12683SJimmy.Vetayases@oracle.com
200*12683SJimmy.Vetayases@oracle.com /* ACPI Interrupt Source Override Structure ptr */
201*12683SJimmy.Vetayases@oracle.com extern ACPI_MADT_INTERRUPT_OVERRIDE *acpi_isop;
202*12683SJimmy.Vetayases@oracle.com extern int acpi_iso_cnt;
203*12683SJimmy.Vetayases@oracle.com
204*12683SJimmy.Vetayases@oracle.com /*
205*12683SJimmy.Vetayases@oracle.com * Auto-configuration routines
206*12683SJimmy.Vetayases@oracle.com */
207*12683SJimmy.Vetayases@oracle.com
208*12683SJimmy.Vetayases@oracle.com /*
209*12683SJimmy.Vetayases@oracle.com * Initialise vector->ipl and ipl->pri arrays. level_intr and irqtable
210*12683SJimmy.Vetayases@oracle.com * are also set to NULL. vector->irq is set to a value which cannot map
211*12683SJimmy.Vetayases@oracle.com * to a real irq to show that it is free.
212*12683SJimmy.Vetayases@oracle.com */
213*12683SJimmy.Vetayases@oracle.com void
apic_init_common(void)214*12683SJimmy.Vetayases@oracle.com apic_init_common(void)
215*12683SJimmy.Vetayases@oracle.com {
216*12683SJimmy.Vetayases@oracle.com int i, j, indx;
217*12683SJimmy.Vetayases@oracle.com int *iptr;
218*12683SJimmy.Vetayases@oracle.com
219*12683SJimmy.Vetayases@oracle.com /*
220*12683SJimmy.Vetayases@oracle.com * Initialize apic_ipls from apic_vectortoipl. This array is
221*12683SJimmy.Vetayases@oracle.com * used in apic_intr_enter to determine the IPL to use for the
222*12683SJimmy.Vetayases@oracle.com * corresponding vector. On some systems, due to hardware errata
223*12683SJimmy.Vetayases@oracle.com * and interrupt sharing, the IPL may not correspond to the IPL listed
224*12683SJimmy.Vetayases@oracle.com * in apic_vectortoipl (see apic_addspl and apic_delspl).
225*12683SJimmy.Vetayases@oracle.com */
226*12683SJimmy.Vetayases@oracle.com for (i = 0; i < (APIC_AVAIL_VECTOR / APIC_VECTOR_PER_IPL); i++) {
227*12683SJimmy.Vetayases@oracle.com indx = i * APIC_VECTOR_PER_IPL;
228*12683SJimmy.Vetayases@oracle.com
229*12683SJimmy.Vetayases@oracle.com for (j = 0; j < APIC_VECTOR_PER_IPL; j++, indx++)
230*12683SJimmy.Vetayases@oracle.com apic_ipls[indx] = apic_vectortoipl[i];
231*12683SJimmy.Vetayases@oracle.com }
232*12683SJimmy.Vetayases@oracle.com
233*12683SJimmy.Vetayases@oracle.com /* cpu 0 is always up (for now) */
234*12683SJimmy.Vetayases@oracle.com apic_cpus[0].aci_status = APIC_CPU_ONLINE | APIC_CPU_INTR_ENABLE;
235*12683SJimmy.Vetayases@oracle.com
236*12683SJimmy.Vetayases@oracle.com iptr = (int *)&apic_irq_table[0];
237*12683SJimmy.Vetayases@oracle.com for (i = 0; i <= APIC_MAX_VECTOR; i++) {
238*12683SJimmy.Vetayases@oracle.com apic_level_intr[i] = 0;
239*12683SJimmy.Vetayases@oracle.com *iptr++ = NULL;
240*12683SJimmy.Vetayases@oracle.com apic_vector_to_irq[i] = APIC_RESV_IRQ;
241*12683SJimmy.Vetayases@oracle.com
242*12683SJimmy.Vetayases@oracle.com /* These *must* be initted to B_TRUE! */
243*12683SJimmy.Vetayases@oracle.com apic_reprogram_info[i].done = B_TRUE;
244*12683SJimmy.Vetayases@oracle.com apic_reprogram_info[i].irqp = NULL;
245*12683SJimmy.Vetayases@oracle.com apic_reprogram_info[i].tries = 0;
246*12683SJimmy.Vetayases@oracle.com apic_reprogram_info[i].bindcpu = 0;
247*12683SJimmy.Vetayases@oracle.com }
248*12683SJimmy.Vetayases@oracle.com
249*12683SJimmy.Vetayases@oracle.com /*
250*12683SJimmy.Vetayases@oracle.com * Allocate a dummy irq table entry for the reserved entry.
251*12683SJimmy.Vetayases@oracle.com * This takes care of the race between removing an irq and
252*12683SJimmy.Vetayases@oracle.com * clock detecting a CPU in that irq during interrupt load
253*12683SJimmy.Vetayases@oracle.com * sampling.
254*12683SJimmy.Vetayases@oracle.com */
255*12683SJimmy.Vetayases@oracle.com apic_irq_table[APIC_RESV_IRQ] =
256*12683SJimmy.Vetayases@oracle.com kmem_zalloc(sizeof (apic_irq_t), KM_SLEEP);
257*12683SJimmy.Vetayases@oracle.com
258*12683SJimmy.Vetayases@oracle.com mutex_init(&airq_mutex, NULL, MUTEX_DEFAULT, NULL);
259*12683SJimmy.Vetayases@oracle.com }
260*12683SJimmy.Vetayases@oracle.com
261*12683SJimmy.Vetayases@oracle.com void
ioapic_init_intr(int mask_apic)262*12683SJimmy.Vetayases@oracle.com ioapic_init_intr(int mask_apic)
263*12683SJimmy.Vetayases@oracle.com {
264*12683SJimmy.Vetayases@oracle.com int ioapic_ix;
265*12683SJimmy.Vetayases@oracle.com struct intrspec ispec;
266*12683SJimmy.Vetayases@oracle.com apic_irq_t *irqptr;
267*12683SJimmy.Vetayases@oracle.com int i, j;
268*12683SJimmy.Vetayases@oracle.com ulong_t iflag;
269*12683SJimmy.Vetayases@oracle.com
270*12683SJimmy.Vetayases@oracle.com LOCK_INIT_CLEAR(&apic_revector_lock);
271*12683SJimmy.Vetayases@oracle.com LOCK_INIT_CLEAR(&apic_defer_reprogram_lock);
272*12683SJimmy.Vetayases@oracle.com
273*12683SJimmy.Vetayases@oracle.com /* mask interrupt vectors */
274*12683SJimmy.Vetayases@oracle.com for (j = 0; j < apic_io_max && mask_apic; j++) {
275*12683SJimmy.Vetayases@oracle.com int intin_max;
276*12683SJimmy.Vetayases@oracle.com
277*12683SJimmy.Vetayases@oracle.com ioapic_ix = j;
278*12683SJimmy.Vetayases@oracle.com /* Bits 23-16 define the maximum redirection entries */
279*12683SJimmy.Vetayases@oracle.com intin_max = (ioapic_read(ioapic_ix, APIC_VERS_CMD) >> 16)
280*12683SJimmy.Vetayases@oracle.com & 0xff;
281*12683SJimmy.Vetayases@oracle.com for (i = 0; i <= intin_max; i++)
282*12683SJimmy.Vetayases@oracle.com ioapic_write(ioapic_ix, APIC_RDT_CMD + 2 * i, AV_MASK);
283*12683SJimmy.Vetayases@oracle.com }
284*12683SJimmy.Vetayases@oracle.com
285*12683SJimmy.Vetayases@oracle.com /*
286*12683SJimmy.Vetayases@oracle.com * Hack alert: deal with ACPI SCI interrupt chicken/egg here
287*12683SJimmy.Vetayases@oracle.com */
288*12683SJimmy.Vetayases@oracle.com if (apic_sci_vect > 0) {
289*12683SJimmy.Vetayases@oracle.com /*
290*12683SJimmy.Vetayases@oracle.com * acpica has already done add_avintr(); we just
291*12683SJimmy.Vetayases@oracle.com * to finish the job by mimicing translate_irq()
292*12683SJimmy.Vetayases@oracle.com *
293*12683SJimmy.Vetayases@oracle.com * Fake up an intrspec and setup the tables
294*12683SJimmy.Vetayases@oracle.com */
295*12683SJimmy.Vetayases@oracle.com ispec.intrspec_vec = apic_sci_vect;
296*12683SJimmy.Vetayases@oracle.com ispec.intrspec_pri = SCI_IPL;
297*12683SJimmy.Vetayases@oracle.com
298*12683SJimmy.Vetayases@oracle.com if (apic_setup_irq_table(NULL, apic_sci_vect, NULL,
299*12683SJimmy.Vetayases@oracle.com &ispec, &apic_sci_flags, DDI_INTR_TYPE_FIXED) < 0) {
300*12683SJimmy.Vetayases@oracle.com cmn_err(CE_WARN, "!apic: SCI setup failed");
301*12683SJimmy.Vetayases@oracle.com return;
302*12683SJimmy.Vetayases@oracle.com }
303*12683SJimmy.Vetayases@oracle.com irqptr = apic_irq_table[apic_sci_vect];
304*12683SJimmy.Vetayases@oracle.com
305*12683SJimmy.Vetayases@oracle.com iflag = intr_clear();
306*12683SJimmy.Vetayases@oracle.com lock_set(&apic_ioapic_lock);
307*12683SJimmy.Vetayases@oracle.com
308*12683SJimmy.Vetayases@oracle.com /* Program I/O APIC */
309*12683SJimmy.Vetayases@oracle.com (void) apic_setup_io_intr(irqptr, apic_sci_vect, B_FALSE);
310*12683SJimmy.Vetayases@oracle.com
311*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_ioapic_lock);
312*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
313*12683SJimmy.Vetayases@oracle.com
314*12683SJimmy.Vetayases@oracle.com irqptr->airq_share++;
315*12683SJimmy.Vetayases@oracle.com }
316*12683SJimmy.Vetayases@oracle.com
317*12683SJimmy.Vetayases@oracle.com /*
318*12683SJimmy.Vetayases@oracle.com * Hack alert: deal with ACPI HPET interrupt chicken/egg here.
319*12683SJimmy.Vetayases@oracle.com */
320*12683SJimmy.Vetayases@oracle.com if (apic_hpet_vect > 0) {
321*12683SJimmy.Vetayases@oracle.com /*
322*12683SJimmy.Vetayases@oracle.com * hpet has already done add_avintr(); we just need
323*12683SJimmy.Vetayases@oracle.com * to finish the job by mimicing translate_irq()
324*12683SJimmy.Vetayases@oracle.com *
325*12683SJimmy.Vetayases@oracle.com * Fake up an intrspec and setup the tables
326*12683SJimmy.Vetayases@oracle.com */
327*12683SJimmy.Vetayases@oracle.com ispec.intrspec_vec = apic_hpet_vect;
328*12683SJimmy.Vetayases@oracle.com ispec.intrspec_pri = CBE_HIGH_PIL;
329*12683SJimmy.Vetayases@oracle.com
330*12683SJimmy.Vetayases@oracle.com if (apic_setup_irq_table(NULL, apic_hpet_vect, NULL,
331*12683SJimmy.Vetayases@oracle.com &ispec, &apic_hpet_flags, DDI_INTR_TYPE_FIXED) < 0) {
332*12683SJimmy.Vetayases@oracle.com cmn_err(CE_WARN, "!apic: HPET setup failed");
333*12683SJimmy.Vetayases@oracle.com return;
334*12683SJimmy.Vetayases@oracle.com }
335*12683SJimmy.Vetayases@oracle.com irqptr = apic_irq_table[apic_hpet_vect];
336*12683SJimmy.Vetayases@oracle.com
337*12683SJimmy.Vetayases@oracle.com iflag = intr_clear();
338*12683SJimmy.Vetayases@oracle.com lock_set(&apic_ioapic_lock);
339*12683SJimmy.Vetayases@oracle.com
340*12683SJimmy.Vetayases@oracle.com /* Program I/O APIC */
341*12683SJimmy.Vetayases@oracle.com (void) apic_setup_io_intr(irqptr, apic_hpet_vect, B_FALSE);
342*12683SJimmy.Vetayases@oracle.com
343*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_ioapic_lock);
344*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
345*12683SJimmy.Vetayases@oracle.com
346*12683SJimmy.Vetayases@oracle.com irqptr->airq_share++;
347*12683SJimmy.Vetayases@oracle.com }
348*12683SJimmy.Vetayases@oracle.com }
349*12683SJimmy.Vetayases@oracle.com
350*12683SJimmy.Vetayases@oracle.com /*
351*12683SJimmy.Vetayases@oracle.com * Add mask bits to disable interrupt vector from happening
352*12683SJimmy.Vetayases@oracle.com * at or above IPL. In addition, it should remove mask bits
353*12683SJimmy.Vetayases@oracle.com * to enable interrupt vectors below the given IPL.
354*12683SJimmy.Vetayases@oracle.com *
355*12683SJimmy.Vetayases@oracle.com * Both add and delspl are complicated by the fact that different interrupts
356*12683SJimmy.Vetayases@oracle.com * may share IRQs. This can happen in two ways.
357*12683SJimmy.Vetayases@oracle.com * 1. The same H/W line is shared by more than 1 device
358*12683SJimmy.Vetayases@oracle.com * 1a. with interrupts at different IPLs
359*12683SJimmy.Vetayases@oracle.com * 1b. with interrupts at same IPL
360*12683SJimmy.Vetayases@oracle.com * 2. We ran out of vectors at a given IPL and started sharing vectors.
361*12683SJimmy.Vetayases@oracle.com * 1b and 2 should be handled gracefully, except for the fact some ISRs
362*12683SJimmy.Vetayases@oracle.com * will get called often when no interrupt is pending for the device.
363*12683SJimmy.Vetayases@oracle.com * For 1a, we handle it at the higher IPL.
364*12683SJimmy.Vetayases@oracle.com */
365*12683SJimmy.Vetayases@oracle.com /*ARGSUSED*/
366*12683SJimmy.Vetayases@oracle.com int
apic_addspl_common(int irqno,int ipl,int min_ipl,int max_ipl)367*12683SJimmy.Vetayases@oracle.com apic_addspl_common(int irqno, int ipl, int min_ipl, int max_ipl)
368*12683SJimmy.Vetayases@oracle.com {
369*12683SJimmy.Vetayases@oracle.com uchar_t vector;
370*12683SJimmy.Vetayases@oracle.com ulong_t iflag;
371*12683SJimmy.Vetayases@oracle.com apic_irq_t *irqptr, *irqheadptr;
372*12683SJimmy.Vetayases@oracle.com int irqindex;
373*12683SJimmy.Vetayases@oracle.com
374*12683SJimmy.Vetayases@oracle.com ASSERT(max_ipl <= UCHAR_MAX);
375*12683SJimmy.Vetayases@oracle.com irqindex = IRQINDEX(irqno);
376*12683SJimmy.Vetayases@oracle.com
377*12683SJimmy.Vetayases@oracle.com if ((irqindex == -1) || (!apic_irq_table[irqindex]))
378*12683SJimmy.Vetayases@oracle.com return (PSM_FAILURE);
379*12683SJimmy.Vetayases@oracle.com
380*12683SJimmy.Vetayases@oracle.com mutex_enter(&airq_mutex);
381*12683SJimmy.Vetayases@oracle.com irqptr = irqheadptr = apic_irq_table[irqindex];
382*12683SJimmy.Vetayases@oracle.com
383*12683SJimmy.Vetayases@oracle.com DDI_INTR_IMPLDBG((CE_CONT, "apic_addspl: dip=0x%p type=%d irqno=0x%x "
384*12683SJimmy.Vetayases@oracle.com "vector=0x%x\n", (void *)irqptr->airq_dip,
385*12683SJimmy.Vetayases@oracle.com irqptr->airq_mps_intr_index, irqno, irqptr->airq_vector));
386*12683SJimmy.Vetayases@oracle.com
387*12683SJimmy.Vetayases@oracle.com while (irqptr) {
388*12683SJimmy.Vetayases@oracle.com if (VIRTIRQ(irqindex, irqptr->airq_share_id) == irqno)
389*12683SJimmy.Vetayases@oracle.com break;
390*12683SJimmy.Vetayases@oracle.com irqptr = irqptr->airq_next;
391*12683SJimmy.Vetayases@oracle.com }
392*12683SJimmy.Vetayases@oracle.com irqptr->airq_share++;
393*12683SJimmy.Vetayases@oracle.com
394*12683SJimmy.Vetayases@oracle.com mutex_exit(&airq_mutex);
395*12683SJimmy.Vetayases@oracle.com
396*12683SJimmy.Vetayases@oracle.com /* return if it is not hardware interrupt */
397*12683SJimmy.Vetayases@oracle.com if (irqptr->airq_mps_intr_index == RESERVE_INDEX)
398*12683SJimmy.Vetayases@oracle.com return (PSM_SUCCESS);
399*12683SJimmy.Vetayases@oracle.com
400*12683SJimmy.Vetayases@oracle.com /* Or if there are more interupts at a higher IPL */
401*12683SJimmy.Vetayases@oracle.com if (ipl != max_ipl)
402*12683SJimmy.Vetayases@oracle.com return (PSM_SUCCESS);
403*12683SJimmy.Vetayases@oracle.com
404*12683SJimmy.Vetayases@oracle.com /*
405*12683SJimmy.Vetayases@oracle.com * if apic_picinit() has not been called yet, just return.
406*12683SJimmy.Vetayases@oracle.com * At the end of apic_picinit(), we will call setup_io_intr().
407*12683SJimmy.Vetayases@oracle.com */
408*12683SJimmy.Vetayases@oracle.com
409*12683SJimmy.Vetayases@oracle.com if (!apic_picinit_called)
410*12683SJimmy.Vetayases@oracle.com return (PSM_SUCCESS);
411*12683SJimmy.Vetayases@oracle.com
412*12683SJimmy.Vetayases@oracle.com /*
413*12683SJimmy.Vetayases@oracle.com * Upgrade vector if max_ipl is not earlier ipl. If we cannot allocate,
414*12683SJimmy.Vetayases@oracle.com * return failure.
415*12683SJimmy.Vetayases@oracle.com */
416*12683SJimmy.Vetayases@oracle.com if (irqptr->airq_ipl != max_ipl &&
417*12683SJimmy.Vetayases@oracle.com !ioapic_mask_workaround[irqptr->airq_ioapicindex]) {
418*12683SJimmy.Vetayases@oracle.com
419*12683SJimmy.Vetayases@oracle.com vector = apic_allocate_vector(max_ipl, irqindex, 1);
420*12683SJimmy.Vetayases@oracle.com if (vector == 0) {
421*12683SJimmy.Vetayases@oracle.com irqptr->airq_share--;
422*12683SJimmy.Vetayases@oracle.com return (PSM_FAILURE);
423*12683SJimmy.Vetayases@oracle.com }
424*12683SJimmy.Vetayases@oracle.com irqptr = irqheadptr;
425*12683SJimmy.Vetayases@oracle.com apic_mark_vector(irqptr->airq_vector, vector);
426*12683SJimmy.Vetayases@oracle.com while (irqptr) {
427*12683SJimmy.Vetayases@oracle.com irqptr->airq_vector = vector;
428*12683SJimmy.Vetayases@oracle.com irqptr->airq_ipl = (uchar_t)max_ipl;
429*12683SJimmy.Vetayases@oracle.com /*
430*12683SJimmy.Vetayases@oracle.com * reprogram irq being added and every one else
431*12683SJimmy.Vetayases@oracle.com * who is not in the UNINIT state
432*12683SJimmy.Vetayases@oracle.com */
433*12683SJimmy.Vetayases@oracle.com if ((VIRTIRQ(irqindex, irqptr->airq_share_id) ==
434*12683SJimmy.Vetayases@oracle.com irqno) || (irqptr->airq_temp_cpu != IRQ_UNINIT)) {
435*12683SJimmy.Vetayases@oracle.com apic_record_rdt_entry(irqptr, irqindex);
436*12683SJimmy.Vetayases@oracle.com
437*12683SJimmy.Vetayases@oracle.com iflag = intr_clear();
438*12683SJimmy.Vetayases@oracle.com lock_set(&apic_ioapic_lock);
439*12683SJimmy.Vetayases@oracle.com
440*12683SJimmy.Vetayases@oracle.com (void) apic_setup_io_intr(irqptr, irqindex,
441*12683SJimmy.Vetayases@oracle.com B_FALSE);
442*12683SJimmy.Vetayases@oracle.com
443*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_ioapic_lock);
444*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
445*12683SJimmy.Vetayases@oracle.com }
446*12683SJimmy.Vetayases@oracle.com irqptr = irqptr->airq_next;
447*12683SJimmy.Vetayases@oracle.com }
448*12683SJimmy.Vetayases@oracle.com return (PSM_SUCCESS);
449*12683SJimmy.Vetayases@oracle.com
450*12683SJimmy.Vetayases@oracle.com } else if (irqptr->airq_ipl != max_ipl &&
451*12683SJimmy.Vetayases@oracle.com ioapic_mask_workaround[irqptr->airq_ioapicindex]) {
452*12683SJimmy.Vetayases@oracle.com /*
453*12683SJimmy.Vetayases@oracle.com * We cannot upgrade the vector, but we can change
454*12683SJimmy.Vetayases@oracle.com * the IPL that this vector induces.
455*12683SJimmy.Vetayases@oracle.com *
456*12683SJimmy.Vetayases@oracle.com * Note that we subtract APIC_BASE_VECT from the vector
457*12683SJimmy.Vetayases@oracle.com * here because this array is used in apic_intr_enter
458*12683SJimmy.Vetayases@oracle.com * (no need to add APIC_BASE_VECT in that hot code
459*12683SJimmy.Vetayases@oracle.com * path since we can do it in the rarely-executed path
460*12683SJimmy.Vetayases@oracle.com * here).
461*12683SJimmy.Vetayases@oracle.com */
462*12683SJimmy.Vetayases@oracle.com apic_ipls[irqptr->airq_vector - APIC_BASE_VECT] =
463*12683SJimmy.Vetayases@oracle.com (uchar_t)max_ipl;
464*12683SJimmy.Vetayases@oracle.com
465*12683SJimmy.Vetayases@oracle.com irqptr = irqheadptr;
466*12683SJimmy.Vetayases@oracle.com while (irqptr) {
467*12683SJimmy.Vetayases@oracle.com irqptr->airq_ipl = (uchar_t)max_ipl;
468*12683SJimmy.Vetayases@oracle.com irqptr = irqptr->airq_next;
469*12683SJimmy.Vetayases@oracle.com }
470*12683SJimmy.Vetayases@oracle.com
471*12683SJimmy.Vetayases@oracle.com return (PSM_SUCCESS);
472*12683SJimmy.Vetayases@oracle.com }
473*12683SJimmy.Vetayases@oracle.com
474*12683SJimmy.Vetayases@oracle.com ASSERT(irqptr);
475*12683SJimmy.Vetayases@oracle.com
476*12683SJimmy.Vetayases@oracle.com iflag = intr_clear();
477*12683SJimmy.Vetayases@oracle.com lock_set(&apic_ioapic_lock);
478*12683SJimmy.Vetayases@oracle.com
479*12683SJimmy.Vetayases@oracle.com (void) apic_setup_io_intr(irqptr, irqindex, B_FALSE);
480*12683SJimmy.Vetayases@oracle.com
481*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_ioapic_lock);
482*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
483*12683SJimmy.Vetayases@oracle.com
484*12683SJimmy.Vetayases@oracle.com return (PSM_SUCCESS);
485*12683SJimmy.Vetayases@oracle.com }
486*12683SJimmy.Vetayases@oracle.com
487*12683SJimmy.Vetayases@oracle.com /*
488*12683SJimmy.Vetayases@oracle.com * Recompute mask bits for the given interrupt vector.
489*12683SJimmy.Vetayases@oracle.com * If there is no interrupt servicing routine for this
490*12683SJimmy.Vetayases@oracle.com * vector, this function should disable interrupt vector
491*12683SJimmy.Vetayases@oracle.com * from happening at all IPLs. If there are still
492*12683SJimmy.Vetayases@oracle.com * handlers using the given vector, this function should
493*12683SJimmy.Vetayases@oracle.com * disable the given vector from happening below the lowest
494*12683SJimmy.Vetayases@oracle.com * IPL of the remaining hadlers.
495*12683SJimmy.Vetayases@oracle.com */
496*12683SJimmy.Vetayases@oracle.com /*ARGSUSED*/
497*12683SJimmy.Vetayases@oracle.com int
apic_delspl_common(int irqno,int ipl,int min_ipl,int max_ipl)498*12683SJimmy.Vetayases@oracle.com apic_delspl_common(int irqno, int ipl, int min_ipl, int max_ipl)
499*12683SJimmy.Vetayases@oracle.com {
500*12683SJimmy.Vetayases@oracle.com uchar_t vector;
501*12683SJimmy.Vetayases@oracle.com uint32_t bind_cpu;
502*12683SJimmy.Vetayases@oracle.com int intin, irqindex;
503*12683SJimmy.Vetayases@oracle.com int ioapic_ix;
504*12683SJimmy.Vetayases@oracle.com apic_irq_t *irqptr, *preirqptr, *irqheadptr, *irqp;
505*12683SJimmy.Vetayases@oracle.com ulong_t iflag;
506*12683SJimmy.Vetayases@oracle.com
507*12683SJimmy.Vetayases@oracle.com mutex_enter(&airq_mutex);
508*12683SJimmy.Vetayases@oracle.com irqindex = IRQINDEX(irqno);
509*12683SJimmy.Vetayases@oracle.com irqptr = preirqptr = irqheadptr = apic_irq_table[irqindex];
510*12683SJimmy.Vetayases@oracle.com
511*12683SJimmy.Vetayases@oracle.com DDI_INTR_IMPLDBG((CE_CONT, "apic_delspl: dip=0x%p type=%d irqno=0x%x "
512*12683SJimmy.Vetayases@oracle.com "vector=0x%x\n", (void *)irqptr->airq_dip,
513*12683SJimmy.Vetayases@oracle.com irqptr->airq_mps_intr_index, irqno, irqptr->airq_vector));
514*12683SJimmy.Vetayases@oracle.com
515*12683SJimmy.Vetayases@oracle.com while (irqptr) {
516*12683SJimmy.Vetayases@oracle.com if (VIRTIRQ(irqindex, irqptr->airq_share_id) == irqno)
517*12683SJimmy.Vetayases@oracle.com break;
518*12683SJimmy.Vetayases@oracle.com preirqptr = irqptr;
519*12683SJimmy.Vetayases@oracle.com irqptr = irqptr->airq_next;
520*12683SJimmy.Vetayases@oracle.com }
521*12683SJimmy.Vetayases@oracle.com ASSERT(irqptr);
522*12683SJimmy.Vetayases@oracle.com
523*12683SJimmy.Vetayases@oracle.com irqptr->airq_share--;
524*12683SJimmy.Vetayases@oracle.com
525*12683SJimmy.Vetayases@oracle.com mutex_exit(&airq_mutex);
526*12683SJimmy.Vetayases@oracle.com
527*12683SJimmy.Vetayases@oracle.com /*
528*12683SJimmy.Vetayases@oracle.com * If there are more interrupts at a higher IPL, we don't need
529*12683SJimmy.Vetayases@oracle.com * to disable anything.
530*12683SJimmy.Vetayases@oracle.com */
531*12683SJimmy.Vetayases@oracle.com if (ipl < max_ipl)
532*12683SJimmy.Vetayases@oracle.com return (PSM_SUCCESS);
533*12683SJimmy.Vetayases@oracle.com
534*12683SJimmy.Vetayases@oracle.com /* return if it is not hardware interrupt */
535*12683SJimmy.Vetayases@oracle.com if (irqptr->airq_mps_intr_index == RESERVE_INDEX)
536*12683SJimmy.Vetayases@oracle.com return (PSM_SUCCESS);
537*12683SJimmy.Vetayases@oracle.com
538*12683SJimmy.Vetayases@oracle.com if (!apic_picinit_called) {
539*12683SJimmy.Vetayases@oracle.com /*
540*12683SJimmy.Vetayases@oracle.com * Clear irq_struct. If two devices shared an intpt
541*12683SJimmy.Vetayases@oracle.com * line & 1 unloaded before picinit, we are hosed. But, then
542*12683SJimmy.Vetayases@oracle.com * we hope the machine survive.
543*12683SJimmy.Vetayases@oracle.com */
544*12683SJimmy.Vetayases@oracle.com irqptr->airq_mps_intr_index = FREE_INDEX;
545*12683SJimmy.Vetayases@oracle.com irqptr->airq_temp_cpu = IRQ_UNINIT;
546*12683SJimmy.Vetayases@oracle.com apic_free_vector(irqptr->airq_vector);
547*12683SJimmy.Vetayases@oracle.com return (PSM_SUCCESS);
548*12683SJimmy.Vetayases@oracle.com }
549*12683SJimmy.Vetayases@oracle.com /*
550*12683SJimmy.Vetayases@oracle.com * Downgrade vector to new max_ipl if needed. If we cannot allocate,
551*12683SJimmy.Vetayases@oracle.com * use old IPL. Not very elegant, but it should work.
552*12683SJimmy.Vetayases@oracle.com */
553*12683SJimmy.Vetayases@oracle.com if ((irqptr->airq_ipl != max_ipl) && (max_ipl != PSM_INVALID_IPL) &&
554*12683SJimmy.Vetayases@oracle.com !ioapic_mask_workaround[irqptr->airq_ioapicindex]) {
555*12683SJimmy.Vetayases@oracle.com apic_irq_t *irqp;
556*12683SJimmy.Vetayases@oracle.com if (vector = apic_allocate_vector(max_ipl, irqno, 1)) {
557*12683SJimmy.Vetayases@oracle.com apic_mark_vector(irqheadptr->airq_vector, vector);
558*12683SJimmy.Vetayases@oracle.com irqp = irqheadptr;
559*12683SJimmy.Vetayases@oracle.com while (irqp) {
560*12683SJimmy.Vetayases@oracle.com irqp->airq_vector = vector;
561*12683SJimmy.Vetayases@oracle.com irqp->airq_ipl = (uchar_t)max_ipl;
562*12683SJimmy.Vetayases@oracle.com if (irqp->airq_temp_cpu != IRQ_UNINIT) {
563*12683SJimmy.Vetayases@oracle.com apic_record_rdt_entry(irqp, irqindex);
564*12683SJimmy.Vetayases@oracle.com
565*12683SJimmy.Vetayases@oracle.com iflag = intr_clear();
566*12683SJimmy.Vetayases@oracle.com lock_set(&apic_ioapic_lock);
567*12683SJimmy.Vetayases@oracle.com
568*12683SJimmy.Vetayases@oracle.com (void) apic_setup_io_intr(irqp,
569*12683SJimmy.Vetayases@oracle.com irqindex, B_FALSE);
570*12683SJimmy.Vetayases@oracle.com
571*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_ioapic_lock);
572*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
573*12683SJimmy.Vetayases@oracle.com }
574*12683SJimmy.Vetayases@oracle.com irqp = irqp->airq_next;
575*12683SJimmy.Vetayases@oracle.com }
576*12683SJimmy.Vetayases@oracle.com }
577*12683SJimmy.Vetayases@oracle.com
578*12683SJimmy.Vetayases@oracle.com } else if (irqptr->airq_ipl != max_ipl &&
579*12683SJimmy.Vetayases@oracle.com max_ipl != PSM_INVALID_IPL &&
580*12683SJimmy.Vetayases@oracle.com ioapic_mask_workaround[irqptr->airq_ioapicindex]) {
581*12683SJimmy.Vetayases@oracle.com
582*12683SJimmy.Vetayases@oracle.com /*
583*12683SJimmy.Vetayases@oracle.com * We cannot downgrade the IPL of the vector below the vector's
584*12683SJimmy.Vetayases@oracle.com * hardware priority. If we did, it would be possible for a
585*12683SJimmy.Vetayases@oracle.com * higher-priority hardware vector to interrupt a CPU running at an IPL
586*12683SJimmy.Vetayases@oracle.com * lower than the hardware priority of the interrupting vector (but
587*12683SJimmy.Vetayases@oracle.com * higher than the soft IPL of this IRQ). When this happens, we would
588*12683SJimmy.Vetayases@oracle.com * then try to drop the IPL BELOW what it was (effectively dropping
589*12683SJimmy.Vetayases@oracle.com * below base_spl) which would be potentially catastrophic.
590*12683SJimmy.Vetayases@oracle.com *
591*12683SJimmy.Vetayases@oracle.com * (e.g. Suppose the hardware vector associated with this IRQ is 0x40
592*12683SJimmy.Vetayases@oracle.com * (hardware IPL of 4). Further assume that the old IPL of this IRQ
593*12683SJimmy.Vetayases@oracle.com * was 4, but the new IPL is 1. If we forced vector 0x40 to result in
594*12683SJimmy.Vetayases@oracle.com * an IPL of 1, it would be possible for the processor to be executing
595*12683SJimmy.Vetayases@oracle.com * at IPL 3 and for an interrupt to come in on vector 0x40, interrupting
596*12683SJimmy.Vetayases@oracle.com * the currently-executing ISR. When apic_intr_enter consults
597*12683SJimmy.Vetayases@oracle.com * apic_irqs[], it will return 1, bringing the IPL of the CPU down to 1
598*12683SJimmy.Vetayases@oracle.com * so even though the processor was running at IPL 4, an IPL 1
599*12683SJimmy.Vetayases@oracle.com * interrupt will have interrupted it, which must not happen)).
600*12683SJimmy.Vetayases@oracle.com *
601*12683SJimmy.Vetayases@oracle.com * Effectively, this means that the hardware priority corresponding to
602*12683SJimmy.Vetayases@oracle.com * the IRQ's IPL (in apic_ipls[]) cannot be lower than the vector's
603*12683SJimmy.Vetayases@oracle.com * hardware priority.
604*12683SJimmy.Vetayases@oracle.com *
605*12683SJimmy.Vetayases@oracle.com * (In the above example, then, after removal of the IPL 4 device's
606*12683SJimmy.Vetayases@oracle.com * interrupt handler, the new IPL will continue to be 4 because the
607*12683SJimmy.Vetayases@oracle.com * hardware priority that IPL 1 implies is lower than the hardware
608*12683SJimmy.Vetayases@oracle.com * priority of the vector used.)
609*12683SJimmy.Vetayases@oracle.com */
610*12683SJimmy.Vetayases@oracle.com /* apic_ipls is indexed by vector, starting at APIC_BASE_VECT */
611*12683SJimmy.Vetayases@oracle.com const int apic_ipls_index = irqptr->airq_vector -
612*12683SJimmy.Vetayases@oracle.com APIC_BASE_VECT;
613*12683SJimmy.Vetayases@oracle.com const int vect_inherent_hwpri = irqptr->airq_vector >>
614*12683SJimmy.Vetayases@oracle.com APIC_IPL_SHIFT;
615*12683SJimmy.Vetayases@oracle.com
616*12683SJimmy.Vetayases@oracle.com /*
617*12683SJimmy.Vetayases@oracle.com * If there are still devices using this IRQ, determine the
618*12683SJimmy.Vetayases@oracle.com * new ipl to use.
619*12683SJimmy.Vetayases@oracle.com */
620*12683SJimmy.Vetayases@oracle.com if (irqptr->airq_share) {
621*12683SJimmy.Vetayases@oracle.com int vect_desired_hwpri, hwpri;
622*12683SJimmy.Vetayases@oracle.com
623*12683SJimmy.Vetayases@oracle.com ASSERT(max_ipl < MAXIPL);
624*12683SJimmy.Vetayases@oracle.com vect_desired_hwpri = apic_ipltopri[max_ipl] >>
625*12683SJimmy.Vetayases@oracle.com APIC_IPL_SHIFT;
626*12683SJimmy.Vetayases@oracle.com
627*12683SJimmy.Vetayases@oracle.com /*
628*12683SJimmy.Vetayases@oracle.com * If the desired IPL's hardware priority is lower
629*12683SJimmy.Vetayases@oracle.com * than that of the vector, use the hardware priority
630*12683SJimmy.Vetayases@oracle.com * of the vector to determine the new IPL.
631*12683SJimmy.Vetayases@oracle.com */
632*12683SJimmy.Vetayases@oracle.com hwpri = (vect_desired_hwpri < vect_inherent_hwpri) ?
633*12683SJimmy.Vetayases@oracle.com vect_inherent_hwpri : vect_desired_hwpri;
634*12683SJimmy.Vetayases@oracle.com
635*12683SJimmy.Vetayases@oracle.com /*
636*12683SJimmy.Vetayases@oracle.com * Now, to get the right index for apic_vectortoipl,
637*12683SJimmy.Vetayases@oracle.com * we need to subtract APIC_BASE_VECT from the
638*12683SJimmy.Vetayases@oracle.com * hardware-vector-equivalent (in hwpri). Since hwpri
639*12683SJimmy.Vetayases@oracle.com * is already shifted, we shift APIC_BASE_VECT before
640*12683SJimmy.Vetayases@oracle.com * doing the subtraction.
641*12683SJimmy.Vetayases@oracle.com */
642*12683SJimmy.Vetayases@oracle.com hwpri -= (APIC_BASE_VECT >> APIC_IPL_SHIFT);
643*12683SJimmy.Vetayases@oracle.com
644*12683SJimmy.Vetayases@oracle.com ASSERT(hwpri >= 0);
645*12683SJimmy.Vetayases@oracle.com ASSERT(hwpri < MAXIPL);
646*12683SJimmy.Vetayases@oracle.com max_ipl = apic_vectortoipl[hwpri];
647*12683SJimmy.Vetayases@oracle.com apic_ipls[apic_ipls_index] = max_ipl;
648*12683SJimmy.Vetayases@oracle.com
649*12683SJimmy.Vetayases@oracle.com irqp = irqheadptr;
650*12683SJimmy.Vetayases@oracle.com while (irqp) {
651*12683SJimmy.Vetayases@oracle.com irqp->airq_ipl = (uchar_t)max_ipl;
652*12683SJimmy.Vetayases@oracle.com irqp = irqp->airq_next;
653*12683SJimmy.Vetayases@oracle.com }
654*12683SJimmy.Vetayases@oracle.com } else {
655*12683SJimmy.Vetayases@oracle.com /*
656*12683SJimmy.Vetayases@oracle.com * No more devices on this IRQ, so reset this vector's
657*12683SJimmy.Vetayases@oracle.com * element in apic_ipls to the original IPL for this
658*12683SJimmy.Vetayases@oracle.com * vector
659*12683SJimmy.Vetayases@oracle.com */
660*12683SJimmy.Vetayases@oracle.com apic_ipls[apic_ipls_index] =
661*12683SJimmy.Vetayases@oracle.com apic_vectortoipl[vect_inherent_hwpri];
662*12683SJimmy.Vetayases@oracle.com }
663*12683SJimmy.Vetayases@oracle.com }
664*12683SJimmy.Vetayases@oracle.com
665*12683SJimmy.Vetayases@oracle.com /*
666*12683SJimmy.Vetayases@oracle.com * If there are still active interrupts, we are done.
667*12683SJimmy.Vetayases@oracle.com */
668*12683SJimmy.Vetayases@oracle.com if (irqptr->airq_share)
669*12683SJimmy.Vetayases@oracle.com return (PSM_SUCCESS);
670*12683SJimmy.Vetayases@oracle.com
671*12683SJimmy.Vetayases@oracle.com iflag = intr_clear();
672*12683SJimmy.Vetayases@oracle.com lock_set(&apic_ioapic_lock);
673*12683SJimmy.Vetayases@oracle.com
674*12683SJimmy.Vetayases@oracle.com if (irqptr->airq_mps_intr_index == MSI_INDEX) {
675*12683SJimmy.Vetayases@oracle.com /*
676*12683SJimmy.Vetayases@oracle.com * Disable the MSI vector
677*12683SJimmy.Vetayases@oracle.com * Make sure we only disable on the last
678*12683SJimmy.Vetayases@oracle.com * of the multi-MSI support
679*12683SJimmy.Vetayases@oracle.com */
680*12683SJimmy.Vetayases@oracle.com if (i_ddi_intr_get_current_nenables(irqptr->airq_dip) == 1) {
681*12683SJimmy.Vetayases@oracle.com apic_pci_msi_disable_mode(irqptr->airq_dip,
682*12683SJimmy.Vetayases@oracle.com DDI_INTR_TYPE_MSI);
683*12683SJimmy.Vetayases@oracle.com }
684*12683SJimmy.Vetayases@oracle.com } else if (irqptr->airq_mps_intr_index == MSIX_INDEX) {
685*12683SJimmy.Vetayases@oracle.com /*
686*12683SJimmy.Vetayases@oracle.com * Disable the MSI-X vector
687*12683SJimmy.Vetayases@oracle.com * needs to clear its mask and addr/data for each MSI-X
688*12683SJimmy.Vetayases@oracle.com */
689*12683SJimmy.Vetayases@oracle.com apic_pci_msi_unconfigure(irqptr->airq_dip, DDI_INTR_TYPE_MSIX,
690*12683SJimmy.Vetayases@oracle.com irqptr->airq_origirq);
691*12683SJimmy.Vetayases@oracle.com /*
692*12683SJimmy.Vetayases@oracle.com * Make sure we only disable on the last MSI-X
693*12683SJimmy.Vetayases@oracle.com */
694*12683SJimmy.Vetayases@oracle.com if (i_ddi_intr_get_current_nenables(irqptr->airq_dip) == 1) {
695*12683SJimmy.Vetayases@oracle.com apic_pci_msi_disable_mode(irqptr->airq_dip,
696*12683SJimmy.Vetayases@oracle.com DDI_INTR_TYPE_MSIX);
697*12683SJimmy.Vetayases@oracle.com }
698*12683SJimmy.Vetayases@oracle.com } else {
699*12683SJimmy.Vetayases@oracle.com /*
700*12683SJimmy.Vetayases@oracle.com * The assumption here is that this is safe, even for
701*12683SJimmy.Vetayases@oracle.com * systems with IOAPICs that suffer from the hardware
702*12683SJimmy.Vetayases@oracle.com * erratum because all devices have been quiesced before
703*12683SJimmy.Vetayases@oracle.com * they unregister their interrupt handlers. If that
704*12683SJimmy.Vetayases@oracle.com * assumption turns out to be false, this mask operation
705*12683SJimmy.Vetayases@oracle.com * can induce the same erratum result we're trying to
706*12683SJimmy.Vetayases@oracle.com * avoid.
707*12683SJimmy.Vetayases@oracle.com */
708*12683SJimmy.Vetayases@oracle.com ioapic_ix = irqptr->airq_ioapicindex;
709*12683SJimmy.Vetayases@oracle.com intin = irqptr->airq_intin_no;
710*12683SJimmy.Vetayases@oracle.com ioapic_write(ioapic_ix, APIC_RDT_CMD + 2 * intin, AV_MASK);
711*12683SJimmy.Vetayases@oracle.com }
712*12683SJimmy.Vetayases@oracle.com
713*12683SJimmy.Vetayases@oracle.com apic_vt_ops->apic_intrmap_free_entry(&irqptr->airq_intrmap_private);
714*12683SJimmy.Vetayases@oracle.com
715*12683SJimmy.Vetayases@oracle.com /*
716*12683SJimmy.Vetayases@oracle.com * This irq entry is the only one in the chain.
717*12683SJimmy.Vetayases@oracle.com */
718*12683SJimmy.Vetayases@oracle.com if (irqheadptr->airq_next == NULL) {
719*12683SJimmy.Vetayases@oracle.com ASSERT(irqheadptr == irqptr);
720*12683SJimmy.Vetayases@oracle.com bind_cpu = irqptr->airq_temp_cpu;
721*12683SJimmy.Vetayases@oracle.com if (((uint32_t)bind_cpu != IRQ_UNBOUND) &&
722*12683SJimmy.Vetayases@oracle.com ((uint32_t)bind_cpu != IRQ_UNINIT)) {
723*12683SJimmy.Vetayases@oracle.com ASSERT(apic_cpu_in_range(bind_cpu));
724*12683SJimmy.Vetayases@oracle.com if (bind_cpu & IRQ_USER_BOUND) {
725*12683SJimmy.Vetayases@oracle.com /* If hardbound, temp_cpu == cpu */
726*12683SJimmy.Vetayases@oracle.com bind_cpu &= ~IRQ_USER_BOUND;
727*12683SJimmy.Vetayases@oracle.com apic_cpus[bind_cpu].aci_bound--;
728*12683SJimmy.Vetayases@oracle.com } else
729*12683SJimmy.Vetayases@oracle.com apic_cpus[bind_cpu].aci_temp_bound--;
730*12683SJimmy.Vetayases@oracle.com }
731*12683SJimmy.Vetayases@oracle.com irqptr->airq_temp_cpu = IRQ_UNINIT;
732*12683SJimmy.Vetayases@oracle.com irqptr->airq_mps_intr_index = FREE_INDEX;
733*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_ioapic_lock);
734*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
735*12683SJimmy.Vetayases@oracle.com apic_free_vector(irqptr->airq_vector);
736*12683SJimmy.Vetayases@oracle.com return (PSM_SUCCESS);
737*12683SJimmy.Vetayases@oracle.com }
738*12683SJimmy.Vetayases@oracle.com
739*12683SJimmy.Vetayases@oracle.com /*
740*12683SJimmy.Vetayases@oracle.com * If we get here, we are sharing the vector and there are more than
741*12683SJimmy.Vetayases@oracle.com * one active irq entries in the chain.
742*12683SJimmy.Vetayases@oracle.com */
743*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_ioapic_lock);
744*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
745*12683SJimmy.Vetayases@oracle.com
746*12683SJimmy.Vetayases@oracle.com mutex_enter(&airq_mutex);
747*12683SJimmy.Vetayases@oracle.com /* Remove the irq entry from the chain */
748*12683SJimmy.Vetayases@oracle.com if (irqptr == irqheadptr) { /* The irq entry is at the head */
749*12683SJimmy.Vetayases@oracle.com apic_irq_table[irqindex] = irqptr->airq_next;
750*12683SJimmy.Vetayases@oracle.com } else {
751*12683SJimmy.Vetayases@oracle.com preirqptr->airq_next = irqptr->airq_next;
752*12683SJimmy.Vetayases@oracle.com }
753*12683SJimmy.Vetayases@oracle.com /* Free the irq entry */
754*12683SJimmy.Vetayases@oracle.com kmem_free(irqptr, sizeof (apic_irq_t));
755*12683SJimmy.Vetayases@oracle.com mutex_exit(&airq_mutex);
756*12683SJimmy.Vetayases@oracle.com
757*12683SJimmy.Vetayases@oracle.com return (PSM_SUCCESS);
758*12683SJimmy.Vetayases@oracle.com }
759*12683SJimmy.Vetayases@oracle.com
760*12683SJimmy.Vetayases@oracle.com /*
761*12683SJimmy.Vetayases@oracle.com * apic_introp_xlate() replaces apic_translate_irq() and is
762*12683SJimmy.Vetayases@oracle.com * called only from apic_intr_ops(). With the new ADII framework,
763*12683SJimmy.Vetayases@oracle.com * the priority can no longer be retrieved through i_ddi_get_intrspec().
764*12683SJimmy.Vetayases@oracle.com * It has to be passed in from the caller.
765*12683SJimmy.Vetayases@oracle.com *
766*12683SJimmy.Vetayases@oracle.com * Return value:
767*12683SJimmy.Vetayases@oracle.com * Success: irqno for the given device
768*12683SJimmy.Vetayases@oracle.com * Failure: -1
769*12683SJimmy.Vetayases@oracle.com */
770*12683SJimmy.Vetayases@oracle.com int
apic_introp_xlate(dev_info_t * dip,struct intrspec * ispec,int type)771*12683SJimmy.Vetayases@oracle.com apic_introp_xlate(dev_info_t *dip, struct intrspec *ispec, int type)
772*12683SJimmy.Vetayases@oracle.com {
773*12683SJimmy.Vetayases@oracle.com char dev_type[16];
774*12683SJimmy.Vetayases@oracle.com int dev_len, pci_irq, newirq, bustype, devid, busid, i;
775*12683SJimmy.Vetayases@oracle.com int irqno = ispec->intrspec_vec;
776*12683SJimmy.Vetayases@oracle.com ddi_acc_handle_t cfg_handle;
777*12683SJimmy.Vetayases@oracle.com uchar_t ipin;
778*12683SJimmy.Vetayases@oracle.com struct apic_io_intr *intrp;
779*12683SJimmy.Vetayases@oracle.com iflag_t intr_flag;
780*12683SJimmy.Vetayases@oracle.com ACPI_SUBTABLE_HEADER *hp;
781*12683SJimmy.Vetayases@oracle.com ACPI_MADT_INTERRUPT_OVERRIDE *isop;
782*12683SJimmy.Vetayases@oracle.com apic_irq_t *airqp;
783*12683SJimmy.Vetayases@oracle.com int parent_is_pci_or_pciex = 0;
784*12683SJimmy.Vetayases@oracle.com int child_is_pciex = 0;
785*12683SJimmy.Vetayases@oracle.com
786*12683SJimmy.Vetayases@oracle.com DDI_INTR_IMPLDBG((CE_CONT, "apic_introp_xlate: dip=0x%p name=%s "
787*12683SJimmy.Vetayases@oracle.com "type=%d irqno=0x%x\n", (void *)dip, ddi_get_name(dip), type,
788*12683SJimmy.Vetayases@oracle.com irqno));
789*12683SJimmy.Vetayases@oracle.com
790*12683SJimmy.Vetayases@oracle.com dev_len = sizeof (dev_type);
791*12683SJimmy.Vetayases@oracle.com if (ddi_getlongprop_buf(DDI_DEV_T_ANY, ddi_get_parent(dip),
792*12683SJimmy.Vetayases@oracle.com DDI_PROP_DONTPASS, "device_type", (caddr_t)dev_type,
793*12683SJimmy.Vetayases@oracle.com &dev_len) == DDI_PROP_SUCCESS) {
794*12683SJimmy.Vetayases@oracle.com if ((strcmp(dev_type, "pci") == 0) ||
795*12683SJimmy.Vetayases@oracle.com (strcmp(dev_type, "pciex") == 0))
796*12683SJimmy.Vetayases@oracle.com parent_is_pci_or_pciex = 1;
797*12683SJimmy.Vetayases@oracle.com }
798*12683SJimmy.Vetayases@oracle.com
799*12683SJimmy.Vetayases@oracle.com if (ddi_getlongprop_buf(DDI_DEV_T_ANY, dip,
800*12683SJimmy.Vetayases@oracle.com DDI_PROP_DONTPASS, "compatible", (caddr_t)dev_type,
801*12683SJimmy.Vetayases@oracle.com &dev_len) == DDI_PROP_SUCCESS) {
802*12683SJimmy.Vetayases@oracle.com if (strstr(dev_type, "pciex"))
803*12683SJimmy.Vetayases@oracle.com child_is_pciex = 1;
804*12683SJimmy.Vetayases@oracle.com }
805*12683SJimmy.Vetayases@oracle.com
806*12683SJimmy.Vetayases@oracle.com if (DDI_INTR_IS_MSI_OR_MSIX(type)) {
807*12683SJimmy.Vetayases@oracle.com if ((airqp = apic_find_irq(dip, ispec, type)) != NULL) {
808*12683SJimmy.Vetayases@oracle.com airqp->airq_iflag.bustype =
809*12683SJimmy.Vetayases@oracle.com child_is_pciex ? BUS_PCIE : BUS_PCI;
810*12683SJimmy.Vetayases@oracle.com return (apic_vector_to_irq[airqp->airq_vector]);
811*12683SJimmy.Vetayases@oracle.com }
812*12683SJimmy.Vetayases@oracle.com return (apic_setup_irq_table(dip, irqno, NULL, ispec,
813*12683SJimmy.Vetayases@oracle.com NULL, type));
814*12683SJimmy.Vetayases@oracle.com }
815*12683SJimmy.Vetayases@oracle.com
816*12683SJimmy.Vetayases@oracle.com bustype = 0;
817*12683SJimmy.Vetayases@oracle.com
818*12683SJimmy.Vetayases@oracle.com /* check if we have already translated this irq */
819*12683SJimmy.Vetayases@oracle.com mutex_enter(&airq_mutex);
820*12683SJimmy.Vetayases@oracle.com newirq = apic_min_device_irq;
821*12683SJimmy.Vetayases@oracle.com for (; newirq <= apic_max_device_irq; newirq++) {
822*12683SJimmy.Vetayases@oracle.com airqp = apic_irq_table[newirq];
823*12683SJimmy.Vetayases@oracle.com while (airqp) {
824*12683SJimmy.Vetayases@oracle.com if ((airqp->airq_dip == dip) &&
825*12683SJimmy.Vetayases@oracle.com (airqp->airq_origirq == irqno) &&
826*12683SJimmy.Vetayases@oracle.com (airqp->airq_mps_intr_index != FREE_INDEX)) {
827*12683SJimmy.Vetayases@oracle.com
828*12683SJimmy.Vetayases@oracle.com mutex_exit(&airq_mutex);
829*12683SJimmy.Vetayases@oracle.com return (VIRTIRQ(newirq, airqp->airq_share_id));
830*12683SJimmy.Vetayases@oracle.com }
831*12683SJimmy.Vetayases@oracle.com airqp = airqp->airq_next;
832*12683SJimmy.Vetayases@oracle.com }
833*12683SJimmy.Vetayases@oracle.com }
834*12683SJimmy.Vetayases@oracle.com mutex_exit(&airq_mutex);
835*12683SJimmy.Vetayases@oracle.com
836*12683SJimmy.Vetayases@oracle.com if (apic_defconf)
837*12683SJimmy.Vetayases@oracle.com goto defconf;
838*12683SJimmy.Vetayases@oracle.com
839*12683SJimmy.Vetayases@oracle.com if ((dip == NULL) || (!apic_irq_translate && !apic_enable_acpi))
840*12683SJimmy.Vetayases@oracle.com goto nonpci;
841*12683SJimmy.Vetayases@oracle.com
842*12683SJimmy.Vetayases@oracle.com if (parent_is_pci_or_pciex) {
843*12683SJimmy.Vetayases@oracle.com /* pci device */
844*12683SJimmy.Vetayases@oracle.com if (acpica_get_bdf(dip, &busid, &devid, NULL) != 0)
845*12683SJimmy.Vetayases@oracle.com goto nonpci;
846*12683SJimmy.Vetayases@oracle.com if (busid == 0 && apic_pci_bus_total == 1)
847*12683SJimmy.Vetayases@oracle.com busid = (int)apic_single_pci_busid;
848*12683SJimmy.Vetayases@oracle.com
849*12683SJimmy.Vetayases@oracle.com if (pci_config_setup(dip, &cfg_handle) != DDI_SUCCESS)
850*12683SJimmy.Vetayases@oracle.com return (-1);
851*12683SJimmy.Vetayases@oracle.com ipin = pci_config_get8(cfg_handle, PCI_CONF_IPIN) - PCI_INTA;
852*12683SJimmy.Vetayases@oracle.com pci_config_teardown(&cfg_handle);
853*12683SJimmy.Vetayases@oracle.com if (apic_enable_acpi && !apic_use_acpi_madt_only) {
854*12683SJimmy.Vetayases@oracle.com if (apic_acpi_translate_pci_irq(dip, busid, devid,
855*12683SJimmy.Vetayases@oracle.com ipin, &pci_irq, &intr_flag) != ACPI_PSM_SUCCESS)
856*12683SJimmy.Vetayases@oracle.com return (-1);
857*12683SJimmy.Vetayases@oracle.com
858*12683SJimmy.Vetayases@oracle.com intr_flag.bustype = child_is_pciex ? BUS_PCIE : BUS_PCI;
859*12683SJimmy.Vetayases@oracle.com return (apic_setup_irq_table(dip, pci_irq, NULL, ispec,
860*12683SJimmy.Vetayases@oracle.com &intr_flag, type));
861*12683SJimmy.Vetayases@oracle.com } else {
862*12683SJimmy.Vetayases@oracle.com pci_irq = ((devid & 0x1f) << 2) | (ipin & 0x3);
863*12683SJimmy.Vetayases@oracle.com if ((intrp = apic_find_io_intr_w_busid(pci_irq, busid))
864*12683SJimmy.Vetayases@oracle.com == NULL) {
865*12683SJimmy.Vetayases@oracle.com if ((pci_irq = apic_handle_pci_pci_bridge(dip,
866*12683SJimmy.Vetayases@oracle.com devid, ipin, &intrp)) == -1)
867*12683SJimmy.Vetayases@oracle.com return (-1);
868*12683SJimmy.Vetayases@oracle.com }
869*12683SJimmy.Vetayases@oracle.com return (apic_setup_irq_table(dip, pci_irq, intrp, ispec,
870*12683SJimmy.Vetayases@oracle.com NULL, type));
871*12683SJimmy.Vetayases@oracle.com }
872*12683SJimmy.Vetayases@oracle.com } else if (strcmp(dev_type, "isa") == 0)
873*12683SJimmy.Vetayases@oracle.com bustype = BUS_ISA;
874*12683SJimmy.Vetayases@oracle.com else if (strcmp(dev_type, "eisa") == 0)
875*12683SJimmy.Vetayases@oracle.com bustype = BUS_EISA;
876*12683SJimmy.Vetayases@oracle.com
877*12683SJimmy.Vetayases@oracle.com nonpci:
878*12683SJimmy.Vetayases@oracle.com if (apic_enable_acpi && !apic_use_acpi_madt_only) {
879*12683SJimmy.Vetayases@oracle.com /* search iso entries first */
880*12683SJimmy.Vetayases@oracle.com if (acpi_iso_cnt != 0) {
881*12683SJimmy.Vetayases@oracle.com hp = (ACPI_SUBTABLE_HEADER *)acpi_isop;
882*12683SJimmy.Vetayases@oracle.com i = 0;
883*12683SJimmy.Vetayases@oracle.com while (i < acpi_iso_cnt) {
884*12683SJimmy.Vetayases@oracle.com if (hp->Type ==
885*12683SJimmy.Vetayases@oracle.com ACPI_MADT_TYPE_INTERRUPT_OVERRIDE) {
886*12683SJimmy.Vetayases@oracle.com isop =
887*12683SJimmy.Vetayases@oracle.com (ACPI_MADT_INTERRUPT_OVERRIDE *) hp;
888*12683SJimmy.Vetayases@oracle.com if (isop->Bus == 0 &&
889*12683SJimmy.Vetayases@oracle.com isop->SourceIrq == irqno) {
890*12683SJimmy.Vetayases@oracle.com newirq = isop->GlobalIrq;
891*12683SJimmy.Vetayases@oracle.com intr_flag.intr_po =
892*12683SJimmy.Vetayases@oracle.com isop->IntiFlags &
893*12683SJimmy.Vetayases@oracle.com ACPI_MADT_POLARITY_MASK;
894*12683SJimmy.Vetayases@oracle.com intr_flag.intr_el =
895*12683SJimmy.Vetayases@oracle.com (isop->IntiFlags &
896*12683SJimmy.Vetayases@oracle.com ACPI_MADT_TRIGGER_MASK)
897*12683SJimmy.Vetayases@oracle.com >> 2;
898*12683SJimmy.Vetayases@oracle.com intr_flag.bustype = BUS_ISA;
899*12683SJimmy.Vetayases@oracle.com
900*12683SJimmy.Vetayases@oracle.com return (apic_setup_irq_table(
901*12683SJimmy.Vetayases@oracle.com dip, newirq, NULL, ispec,
902*12683SJimmy.Vetayases@oracle.com &intr_flag, type));
903*12683SJimmy.Vetayases@oracle.com
904*12683SJimmy.Vetayases@oracle.com }
905*12683SJimmy.Vetayases@oracle.com i++;
906*12683SJimmy.Vetayases@oracle.com }
907*12683SJimmy.Vetayases@oracle.com hp = (ACPI_SUBTABLE_HEADER *)(((char *)hp) +
908*12683SJimmy.Vetayases@oracle.com hp->Length);
909*12683SJimmy.Vetayases@oracle.com }
910*12683SJimmy.Vetayases@oracle.com }
911*12683SJimmy.Vetayases@oracle.com intr_flag.intr_po = INTR_PO_ACTIVE_HIGH;
912*12683SJimmy.Vetayases@oracle.com intr_flag.intr_el = INTR_EL_EDGE;
913*12683SJimmy.Vetayases@oracle.com intr_flag.bustype = BUS_ISA;
914*12683SJimmy.Vetayases@oracle.com return (apic_setup_irq_table(dip, irqno, NULL, ispec,
915*12683SJimmy.Vetayases@oracle.com &intr_flag, type));
916*12683SJimmy.Vetayases@oracle.com } else {
917*12683SJimmy.Vetayases@oracle.com if (bustype == 0) /* not initialized */
918*12683SJimmy.Vetayases@oracle.com bustype = eisa_level_intr_mask ? BUS_EISA : BUS_ISA;
919*12683SJimmy.Vetayases@oracle.com for (i = 0; i < 2; i++) {
920*12683SJimmy.Vetayases@oracle.com if (((busid = apic_find_bus_id(bustype)) != -1) &&
921*12683SJimmy.Vetayases@oracle.com ((intrp = apic_find_io_intr_w_busid(irqno, busid))
922*12683SJimmy.Vetayases@oracle.com != NULL)) {
923*12683SJimmy.Vetayases@oracle.com if ((newirq = apic_setup_irq_table(dip, irqno,
924*12683SJimmy.Vetayases@oracle.com intrp, ispec, NULL, type)) != -1) {
925*12683SJimmy.Vetayases@oracle.com return (newirq);
926*12683SJimmy.Vetayases@oracle.com }
927*12683SJimmy.Vetayases@oracle.com goto defconf;
928*12683SJimmy.Vetayases@oracle.com }
929*12683SJimmy.Vetayases@oracle.com bustype = (bustype == BUS_EISA) ? BUS_ISA : BUS_EISA;
930*12683SJimmy.Vetayases@oracle.com }
931*12683SJimmy.Vetayases@oracle.com }
932*12683SJimmy.Vetayases@oracle.com
933*12683SJimmy.Vetayases@oracle.com /* MPS default configuration */
934*12683SJimmy.Vetayases@oracle.com defconf:
935*12683SJimmy.Vetayases@oracle.com newirq = apic_setup_irq_table(dip, irqno, NULL, ispec, NULL, type);
936*12683SJimmy.Vetayases@oracle.com if (newirq == -1)
937*12683SJimmy.Vetayases@oracle.com return (-1);
938*12683SJimmy.Vetayases@oracle.com ASSERT(IRQINDEX(newirq) == irqno);
939*12683SJimmy.Vetayases@oracle.com ASSERT(apic_irq_table[irqno]);
940*12683SJimmy.Vetayases@oracle.com return (newirq);
941*12683SJimmy.Vetayases@oracle.com }
942*12683SJimmy.Vetayases@oracle.com
943*12683SJimmy.Vetayases@oracle.com /*
944*12683SJimmy.Vetayases@oracle.com * Attempt to share vector with someone else
945*12683SJimmy.Vetayases@oracle.com */
946*12683SJimmy.Vetayases@oracle.com static int
apic_share_vector(int irqno,iflag_t * intr_flagp,short intr_index,int ipl,uchar_t ioapicindex,uchar_t ipin,apic_irq_t ** irqptrp)947*12683SJimmy.Vetayases@oracle.com apic_share_vector(int irqno, iflag_t *intr_flagp, short intr_index, int ipl,
948*12683SJimmy.Vetayases@oracle.com uchar_t ioapicindex, uchar_t ipin, apic_irq_t **irqptrp)
949*12683SJimmy.Vetayases@oracle.com {
950*12683SJimmy.Vetayases@oracle.com #ifdef DEBUG
951*12683SJimmy.Vetayases@oracle.com apic_irq_t *tmpirqp = NULL;
952*12683SJimmy.Vetayases@oracle.com #endif /* DEBUG */
953*12683SJimmy.Vetayases@oracle.com apic_irq_t *irqptr, dummyirq;
954*12683SJimmy.Vetayases@oracle.com int newirq, chosen_irq = -1, share = 127;
955*12683SJimmy.Vetayases@oracle.com int lowest, highest, i;
956*12683SJimmy.Vetayases@oracle.com uchar_t share_id;
957*12683SJimmy.Vetayases@oracle.com
958*12683SJimmy.Vetayases@oracle.com DDI_INTR_IMPLDBG((CE_CONT, "apic_share_vector: irqno=0x%x "
959*12683SJimmy.Vetayases@oracle.com "intr_index=0x%x ipl=0x%x\n", irqno, intr_index, ipl));
960*12683SJimmy.Vetayases@oracle.com
961*12683SJimmy.Vetayases@oracle.com highest = apic_ipltopri[ipl] + APIC_VECTOR_MASK;
962*12683SJimmy.Vetayases@oracle.com lowest = apic_ipltopri[ipl-1] + APIC_VECTOR_PER_IPL;
963*12683SJimmy.Vetayases@oracle.com
964*12683SJimmy.Vetayases@oracle.com if (highest < lowest) /* Both ipl and ipl-1 map to same pri */
965*12683SJimmy.Vetayases@oracle.com lowest -= APIC_VECTOR_PER_IPL;
966*12683SJimmy.Vetayases@oracle.com dummyirq.airq_mps_intr_index = intr_index;
967*12683SJimmy.Vetayases@oracle.com dummyirq.airq_ioapicindex = ioapicindex;
968*12683SJimmy.Vetayases@oracle.com dummyirq.airq_intin_no = ipin;
969*12683SJimmy.Vetayases@oracle.com if (intr_flagp)
970*12683SJimmy.Vetayases@oracle.com dummyirq.airq_iflag = *intr_flagp;
971*12683SJimmy.Vetayases@oracle.com apic_record_rdt_entry(&dummyirq, irqno);
972*12683SJimmy.Vetayases@oracle.com for (i = lowest; i <= highest; i++) {
973*12683SJimmy.Vetayases@oracle.com newirq = apic_vector_to_irq[i];
974*12683SJimmy.Vetayases@oracle.com if (newirq == APIC_RESV_IRQ)
975*12683SJimmy.Vetayases@oracle.com continue;
976*12683SJimmy.Vetayases@oracle.com irqptr = apic_irq_table[newirq];
977*12683SJimmy.Vetayases@oracle.com
978*12683SJimmy.Vetayases@oracle.com if ((dummyirq.airq_rdt_entry & 0xFF00) !=
979*12683SJimmy.Vetayases@oracle.com (irqptr->airq_rdt_entry & 0xFF00))
980*12683SJimmy.Vetayases@oracle.com /* not compatible */
981*12683SJimmy.Vetayases@oracle.com continue;
982*12683SJimmy.Vetayases@oracle.com
983*12683SJimmy.Vetayases@oracle.com if (irqptr->airq_share < share) {
984*12683SJimmy.Vetayases@oracle.com share = irqptr->airq_share;
985*12683SJimmy.Vetayases@oracle.com chosen_irq = newirq;
986*12683SJimmy.Vetayases@oracle.com }
987*12683SJimmy.Vetayases@oracle.com }
988*12683SJimmy.Vetayases@oracle.com if (chosen_irq != -1) {
989*12683SJimmy.Vetayases@oracle.com /*
990*12683SJimmy.Vetayases@oracle.com * Assign a share id which is free or which is larger
991*12683SJimmy.Vetayases@oracle.com * than the largest one.
992*12683SJimmy.Vetayases@oracle.com */
993*12683SJimmy.Vetayases@oracle.com share_id = 1;
994*12683SJimmy.Vetayases@oracle.com mutex_enter(&airq_mutex);
995*12683SJimmy.Vetayases@oracle.com irqptr = apic_irq_table[chosen_irq];
996*12683SJimmy.Vetayases@oracle.com while (irqptr) {
997*12683SJimmy.Vetayases@oracle.com if (irqptr->airq_mps_intr_index == FREE_INDEX) {
998*12683SJimmy.Vetayases@oracle.com share_id = irqptr->airq_share_id;
999*12683SJimmy.Vetayases@oracle.com break;
1000*12683SJimmy.Vetayases@oracle.com }
1001*12683SJimmy.Vetayases@oracle.com if (share_id <= irqptr->airq_share_id)
1002*12683SJimmy.Vetayases@oracle.com share_id = irqptr->airq_share_id + 1;
1003*12683SJimmy.Vetayases@oracle.com #ifdef DEBUG
1004*12683SJimmy.Vetayases@oracle.com tmpirqp = irqptr;
1005*12683SJimmy.Vetayases@oracle.com #endif /* DEBUG */
1006*12683SJimmy.Vetayases@oracle.com irqptr = irqptr->airq_next;
1007*12683SJimmy.Vetayases@oracle.com }
1008*12683SJimmy.Vetayases@oracle.com if (!irqptr) {
1009*12683SJimmy.Vetayases@oracle.com irqptr = kmem_zalloc(sizeof (apic_irq_t), KM_SLEEP);
1010*12683SJimmy.Vetayases@oracle.com irqptr->airq_temp_cpu = IRQ_UNINIT;
1011*12683SJimmy.Vetayases@oracle.com irqptr->airq_next =
1012*12683SJimmy.Vetayases@oracle.com apic_irq_table[chosen_irq]->airq_next;
1013*12683SJimmy.Vetayases@oracle.com apic_irq_table[chosen_irq]->airq_next = irqptr;
1014*12683SJimmy.Vetayases@oracle.com #ifdef DEBUG
1015*12683SJimmy.Vetayases@oracle.com tmpirqp = apic_irq_table[chosen_irq];
1016*12683SJimmy.Vetayases@oracle.com #endif /* DEBUG */
1017*12683SJimmy.Vetayases@oracle.com }
1018*12683SJimmy.Vetayases@oracle.com irqptr->airq_mps_intr_index = intr_index;
1019*12683SJimmy.Vetayases@oracle.com irqptr->airq_ioapicindex = ioapicindex;
1020*12683SJimmy.Vetayases@oracle.com irqptr->airq_intin_no = ipin;
1021*12683SJimmy.Vetayases@oracle.com if (intr_flagp)
1022*12683SJimmy.Vetayases@oracle.com irqptr->airq_iflag = *intr_flagp;
1023*12683SJimmy.Vetayases@oracle.com irqptr->airq_vector = apic_irq_table[chosen_irq]->airq_vector;
1024*12683SJimmy.Vetayases@oracle.com irqptr->airq_share_id = share_id;
1025*12683SJimmy.Vetayases@oracle.com apic_record_rdt_entry(irqptr, irqno);
1026*12683SJimmy.Vetayases@oracle.com *irqptrp = irqptr;
1027*12683SJimmy.Vetayases@oracle.com #ifdef DEBUG
1028*12683SJimmy.Vetayases@oracle.com /* shuffle the pointers to test apic_delspl path */
1029*12683SJimmy.Vetayases@oracle.com if (tmpirqp) {
1030*12683SJimmy.Vetayases@oracle.com tmpirqp->airq_next = irqptr->airq_next;
1031*12683SJimmy.Vetayases@oracle.com irqptr->airq_next = apic_irq_table[chosen_irq];
1032*12683SJimmy.Vetayases@oracle.com apic_irq_table[chosen_irq] = irqptr;
1033*12683SJimmy.Vetayases@oracle.com }
1034*12683SJimmy.Vetayases@oracle.com #endif /* DEBUG */
1035*12683SJimmy.Vetayases@oracle.com mutex_exit(&airq_mutex);
1036*12683SJimmy.Vetayases@oracle.com return (VIRTIRQ(chosen_irq, share_id));
1037*12683SJimmy.Vetayases@oracle.com }
1038*12683SJimmy.Vetayases@oracle.com return (-1);
1039*12683SJimmy.Vetayases@oracle.com }
1040*12683SJimmy.Vetayases@oracle.com
1041*12683SJimmy.Vetayases@oracle.com /*
1042*12683SJimmy.Vetayases@oracle.com * Allocate/Initialize the apic_irq_table[] entry for given irqno. If the entry
1043*12683SJimmy.Vetayases@oracle.com * is used already, we will try to allocate a new irqno.
1044*12683SJimmy.Vetayases@oracle.com *
1045*12683SJimmy.Vetayases@oracle.com * Return value:
1046*12683SJimmy.Vetayases@oracle.com * Success: irqno
1047*12683SJimmy.Vetayases@oracle.com * Failure: -1
1048*12683SJimmy.Vetayases@oracle.com */
1049*12683SJimmy.Vetayases@oracle.com static int
apic_setup_irq_table(dev_info_t * dip,int irqno,struct apic_io_intr * intrp,struct intrspec * ispec,iflag_t * intr_flagp,int type)1050*12683SJimmy.Vetayases@oracle.com apic_setup_irq_table(dev_info_t *dip, int irqno, struct apic_io_intr *intrp,
1051*12683SJimmy.Vetayases@oracle.com struct intrspec *ispec, iflag_t *intr_flagp, int type)
1052*12683SJimmy.Vetayases@oracle.com {
1053*12683SJimmy.Vetayases@oracle.com int origirq = ispec->intrspec_vec;
1054*12683SJimmy.Vetayases@oracle.com uchar_t ipl = ispec->intrspec_pri;
1055*12683SJimmy.Vetayases@oracle.com int newirq, intr_index;
1056*12683SJimmy.Vetayases@oracle.com uchar_t ipin, ioapic, ioapicindex, vector;
1057*12683SJimmy.Vetayases@oracle.com apic_irq_t *irqptr;
1058*12683SJimmy.Vetayases@oracle.com major_t major;
1059*12683SJimmy.Vetayases@oracle.com dev_info_t *sdip;
1060*12683SJimmy.Vetayases@oracle.com
1061*12683SJimmy.Vetayases@oracle.com DDI_INTR_IMPLDBG((CE_CONT, "apic_setup_irq_table: dip=0x%p type=%d "
1062*12683SJimmy.Vetayases@oracle.com "irqno=0x%x origirq=0x%x\n", (void *)dip, type, irqno, origirq));
1063*12683SJimmy.Vetayases@oracle.com
1064*12683SJimmy.Vetayases@oracle.com ASSERT(ispec != NULL);
1065*12683SJimmy.Vetayases@oracle.com
1066*12683SJimmy.Vetayases@oracle.com major = (dip != NULL) ? ddi_driver_major(dip) : 0;
1067*12683SJimmy.Vetayases@oracle.com
1068*12683SJimmy.Vetayases@oracle.com if (DDI_INTR_IS_MSI_OR_MSIX(type)) {
1069*12683SJimmy.Vetayases@oracle.com /* MSI/X doesn't need to setup ioapic stuffs */
1070*12683SJimmy.Vetayases@oracle.com ioapicindex = 0xff;
1071*12683SJimmy.Vetayases@oracle.com ioapic = 0xff;
1072*12683SJimmy.Vetayases@oracle.com ipin = (uchar_t)0xff;
1073*12683SJimmy.Vetayases@oracle.com intr_index = (type == DDI_INTR_TYPE_MSI) ? MSI_INDEX :
1074*12683SJimmy.Vetayases@oracle.com MSIX_INDEX;
1075*12683SJimmy.Vetayases@oracle.com mutex_enter(&airq_mutex);
1076*12683SJimmy.Vetayases@oracle.com if ((irqno = apic_allocate_irq(apic_first_avail_irq)) == -1) {
1077*12683SJimmy.Vetayases@oracle.com mutex_exit(&airq_mutex);
1078*12683SJimmy.Vetayases@oracle.com /* need an irq for MSI/X to index into autovect[] */
1079*12683SJimmy.Vetayases@oracle.com cmn_err(CE_WARN, "No interrupt irq: %s instance %d",
1080*12683SJimmy.Vetayases@oracle.com ddi_get_name(dip), ddi_get_instance(dip));
1081*12683SJimmy.Vetayases@oracle.com return (-1);
1082*12683SJimmy.Vetayases@oracle.com }
1083*12683SJimmy.Vetayases@oracle.com mutex_exit(&airq_mutex);
1084*12683SJimmy.Vetayases@oracle.com
1085*12683SJimmy.Vetayases@oracle.com } else if (intrp != NULL) {
1086*12683SJimmy.Vetayases@oracle.com intr_index = (int)(intrp - apic_io_intrp);
1087*12683SJimmy.Vetayases@oracle.com ioapic = intrp->intr_destid;
1088*12683SJimmy.Vetayases@oracle.com ipin = intrp->intr_destintin;
1089*12683SJimmy.Vetayases@oracle.com /* Find ioapicindex. If destid was ALL, we will exit with 0. */
1090*12683SJimmy.Vetayases@oracle.com for (ioapicindex = apic_io_max - 1; ioapicindex; ioapicindex--)
1091*12683SJimmy.Vetayases@oracle.com if (apic_io_id[ioapicindex] == ioapic)
1092*12683SJimmy.Vetayases@oracle.com break;
1093*12683SJimmy.Vetayases@oracle.com ASSERT((ioapic == apic_io_id[ioapicindex]) ||
1094*12683SJimmy.Vetayases@oracle.com (ioapic == INTR_ALL_APIC));
1095*12683SJimmy.Vetayases@oracle.com
1096*12683SJimmy.Vetayases@oracle.com /* check whether this intin# has been used by another irqno */
1097*12683SJimmy.Vetayases@oracle.com if ((newirq = apic_find_intin(ioapicindex, ipin)) != -1) {
1098*12683SJimmy.Vetayases@oracle.com return (newirq);
1099*12683SJimmy.Vetayases@oracle.com }
1100*12683SJimmy.Vetayases@oracle.com
1101*12683SJimmy.Vetayases@oracle.com } else if (intr_flagp != NULL) {
1102*12683SJimmy.Vetayases@oracle.com /* ACPI case */
1103*12683SJimmy.Vetayases@oracle.com intr_index = ACPI_INDEX;
1104*12683SJimmy.Vetayases@oracle.com ioapicindex = acpi_find_ioapic(irqno);
1105*12683SJimmy.Vetayases@oracle.com ASSERT(ioapicindex != 0xFF);
1106*12683SJimmy.Vetayases@oracle.com ioapic = apic_io_id[ioapicindex];
1107*12683SJimmy.Vetayases@oracle.com ipin = irqno - apic_io_vectbase[ioapicindex];
1108*12683SJimmy.Vetayases@oracle.com if (apic_irq_table[irqno] &&
1109*12683SJimmy.Vetayases@oracle.com apic_irq_table[irqno]->airq_mps_intr_index == ACPI_INDEX) {
1110*12683SJimmy.Vetayases@oracle.com ASSERT(apic_irq_table[irqno]->airq_intin_no == ipin &&
1111*12683SJimmy.Vetayases@oracle.com apic_irq_table[irqno]->airq_ioapicindex ==
1112*12683SJimmy.Vetayases@oracle.com ioapicindex);
1113*12683SJimmy.Vetayases@oracle.com return (irqno);
1114*12683SJimmy.Vetayases@oracle.com }
1115*12683SJimmy.Vetayases@oracle.com
1116*12683SJimmy.Vetayases@oracle.com } else {
1117*12683SJimmy.Vetayases@oracle.com /* default configuration */
1118*12683SJimmy.Vetayases@oracle.com ioapicindex = 0;
1119*12683SJimmy.Vetayases@oracle.com ioapic = apic_io_id[ioapicindex];
1120*12683SJimmy.Vetayases@oracle.com ipin = (uchar_t)irqno;
1121*12683SJimmy.Vetayases@oracle.com intr_index = DEFAULT_INDEX;
1122*12683SJimmy.Vetayases@oracle.com }
1123*12683SJimmy.Vetayases@oracle.com
1124*12683SJimmy.Vetayases@oracle.com if (ispec == NULL) {
1125*12683SJimmy.Vetayases@oracle.com APIC_VERBOSE_IOAPIC((CE_WARN, "No intrspec for irqno = %x\n",
1126*12683SJimmy.Vetayases@oracle.com irqno));
1127*12683SJimmy.Vetayases@oracle.com } else if ((vector = apic_allocate_vector(ipl, irqno, 0)) == 0) {
1128*12683SJimmy.Vetayases@oracle.com if ((newirq = apic_share_vector(irqno, intr_flagp, intr_index,
1129*12683SJimmy.Vetayases@oracle.com ipl, ioapicindex, ipin, &irqptr)) != -1) {
1130*12683SJimmy.Vetayases@oracle.com irqptr->airq_ipl = ipl;
1131*12683SJimmy.Vetayases@oracle.com irqptr->airq_origirq = (uchar_t)origirq;
1132*12683SJimmy.Vetayases@oracle.com irqptr->airq_dip = dip;
1133*12683SJimmy.Vetayases@oracle.com irqptr->airq_major = major;
1134*12683SJimmy.Vetayases@oracle.com sdip = apic_irq_table[IRQINDEX(newirq)]->airq_dip;
1135*12683SJimmy.Vetayases@oracle.com /* This is OK to do really */
1136*12683SJimmy.Vetayases@oracle.com if (sdip == NULL) {
1137*12683SJimmy.Vetayases@oracle.com cmn_err(CE_WARN, "Sharing vectors: %s"
1138*12683SJimmy.Vetayases@oracle.com " instance %d and SCI",
1139*12683SJimmy.Vetayases@oracle.com ddi_get_name(dip), ddi_get_instance(dip));
1140*12683SJimmy.Vetayases@oracle.com } else {
1141*12683SJimmy.Vetayases@oracle.com cmn_err(CE_WARN, "Sharing vectors: %s"
1142*12683SJimmy.Vetayases@oracle.com " instance %d and %s instance %d",
1143*12683SJimmy.Vetayases@oracle.com ddi_get_name(sdip), ddi_get_instance(sdip),
1144*12683SJimmy.Vetayases@oracle.com ddi_get_name(dip), ddi_get_instance(dip));
1145*12683SJimmy.Vetayases@oracle.com }
1146*12683SJimmy.Vetayases@oracle.com return (newirq);
1147*12683SJimmy.Vetayases@oracle.com }
1148*12683SJimmy.Vetayases@oracle.com /* try high priority allocation now that share has failed */
1149*12683SJimmy.Vetayases@oracle.com if ((vector = apic_allocate_vector(ipl, irqno, 1)) == 0) {
1150*12683SJimmy.Vetayases@oracle.com cmn_err(CE_WARN, "No interrupt vector: %s instance %d",
1151*12683SJimmy.Vetayases@oracle.com ddi_get_name(dip), ddi_get_instance(dip));
1152*12683SJimmy.Vetayases@oracle.com return (-1);
1153*12683SJimmy.Vetayases@oracle.com }
1154*12683SJimmy.Vetayases@oracle.com }
1155*12683SJimmy.Vetayases@oracle.com
1156*12683SJimmy.Vetayases@oracle.com mutex_enter(&airq_mutex);
1157*12683SJimmy.Vetayases@oracle.com if (apic_irq_table[irqno] == NULL) {
1158*12683SJimmy.Vetayases@oracle.com irqptr = kmem_zalloc(sizeof (apic_irq_t), KM_SLEEP);
1159*12683SJimmy.Vetayases@oracle.com irqptr->airq_temp_cpu = IRQ_UNINIT;
1160*12683SJimmy.Vetayases@oracle.com apic_irq_table[irqno] = irqptr;
1161*12683SJimmy.Vetayases@oracle.com } else {
1162*12683SJimmy.Vetayases@oracle.com irqptr = apic_irq_table[irqno];
1163*12683SJimmy.Vetayases@oracle.com if (irqptr->airq_mps_intr_index != FREE_INDEX) {
1164*12683SJimmy.Vetayases@oracle.com /*
1165*12683SJimmy.Vetayases@oracle.com * The slot is used by another irqno, so allocate
1166*12683SJimmy.Vetayases@oracle.com * a free irqno for this interrupt
1167*12683SJimmy.Vetayases@oracle.com */
1168*12683SJimmy.Vetayases@oracle.com newirq = apic_allocate_irq(apic_first_avail_irq);
1169*12683SJimmy.Vetayases@oracle.com if (newirq == -1) {
1170*12683SJimmy.Vetayases@oracle.com mutex_exit(&airq_mutex);
1171*12683SJimmy.Vetayases@oracle.com return (-1);
1172*12683SJimmy.Vetayases@oracle.com }
1173*12683SJimmy.Vetayases@oracle.com irqno = newirq;
1174*12683SJimmy.Vetayases@oracle.com irqptr = apic_irq_table[irqno];
1175*12683SJimmy.Vetayases@oracle.com if (irqptr == NULL) {
1176*12683SJimmy.Vetayases@oracle.com irqptr = kmem_zalloc(sizeof (apic_irq_t),
1177*12683SJimmy.Vetayases@oracle.com KM_SLEEP);
1178*12683SJimmy.Vetayases@oracle.com irqptr->airq_temp_cpu = IRQ_UNINIT;
1179*12683SJimmy.Vetayases@oracle.com apic_irq_table[irqno] = irqptr;
1180*12683SJimmy.Vetayases@oracle.com }
1181*12683SJimmy.Vetayases@oracle.com vector = apic_modify_vector(vector, newirq);
1182*12683SJimmy.Vetayases@oracle.com }
1183*12683SJimmy.Vetayases@oracle.com }
1184*12683SJimmy.Vetayases@oracle.com apic_max_device_irq = max(irqno, apic_max_device_irq);
1185*12683SJimmy.Vetayases@oracle.com apic_min_device_irq = min(irqno, apic_min_device_irq);
1186*12683SJimmy.Vetayases@oracle.com mutex_exit(&airq_mutex);
1187*12683SJimmy.Vetayases@oracle.com irqptr->airq_ioapicindex = ioapicindex;
1188*12683SJimmy.Vetayases@oracle.com irqptr->airq_intin_no = ipin;
1189*12683SJimmy.Vetayases@oracle.com irqptr->airq_ipl = ipl;
1190*12683SJimmy.Vetayases@oracle.com irqptr->airq_vector = vector;
1191*12683SJimmy.Vetayases@oracle.com irqptr->airq_origirq = (uchar_t)origirq;
1192*12683SJimmy.Vetayases@oracle.com irqptr->airq_share_id = 0;
1193*12683SJimmy.Vetayases@oracle.com irqptr->airq_mps_intr_index = (short)intr_index;
1194*12683SJimmy.Vetayases@oracle.com irqptr->airq_dip = dip;
1195*12683SJimmy.Vetayases@oracle.com irqptr->airq_major = major;
1196*12683SJimmy.Vetayases@oracle.com irqptr->airq_cpu = apic_bind_intr(dip, irqno, ioapic, ipin);
1197*12683SJimmy.Vetayases@oracle.com if (intr_flagp)
1198*12683SJimmy.Vetayases@oracle.com irqptr->airq_iflag = *intr_flagp;
1199*12683SJimmy.Vetayases@oracle.com
1200*12683SJimmy.Vetayases@oracle.com if (!DDI_INTR_IS_MSI_OR_MSIX(type)) {
1201*12683SJimmy.Vetayases@oracle.com /* setup I/O APIC entry for non-MSI/X interrupts */
1202*12683SJimmy.Vetayases@oracle.com apic_record_rdt_entry(irqptr, irqno);
1203*12683SJimmy.Vetayases@oracle.com }
1204*12683SJimmy.Vetayases@oracle.com return (irqno);
1205*12683SJimmy.Vetayases@oracle.com }
1206*12683SJimmy.Vetayases@oracle.com
1207*12683SJimmy.Vetayases@oracle.com /*
1208*12683SJimmy.Vetayases@oracle.com * return the cpu to which this intr should be bound.
1209*12683SJimmy.Vetayases@oracle.com * Check properties or any other mechanism to see if user wants it
1210*12683SJimmy.Vetayases@oracle.com * bound to a specific CPU. If so, return the cpu id with high bit set.
1211*12683SJimmy.Vetayases@oracle.com * If not, use the policy to choose a cpu and return the id.
1212*12683SJimmy.Vetayases@oracle.com */
1213*12683SJimmy.Vetayases@oracle.com uint32_t
apic_bind_intr(dev_info_t * dip,int irq,uchar_t ioapicid,uchar_t intin)1214*12683SJimmy.Vetayases@oracle.com apic_bind_intr(dev_info_t *dip, int irq, uchar_t ioapicid, uchar_t intin)
1215*12683SJimmy.Vetayases@oracle.com {
1216*12683SJimmy.Vetayases@oracle.com int instance, instno, prop_len, bind_cpu, count;
1217*12683SJimmy.Vetayases@oracle.com uint_t i, rc;
1218*12683SJimmy.Vetayases@oracle.com uint32_t cpu;
1219*12683SJimmy.Vetayases@oracle.com major_t major;
1220*12683SJimmy.Vetayases@oracle.com char *name, *drv_name, *prop_val, *cptr;
1221*12683SJimmy.Vetayases@oracle.com char prop_name[32];
1222*12683SJimmy.Vetayases@oracle.com ulong_t iflag;
1223*12683SJimmy.Vetayases@oracle.com
1224*12683SJimmy.Vetayases@oracle.com
1225*12683SJimmy.Vetayases@oracle.com if (apic_intr_policy == INTR_LOWEST_PRIORITY)
1226*12683SJimmy.Vetayases@oracle.com return (IRQ_UNBOUND);
1227*12683SJimmy.Vetayases@oracle.com
1228*12683SJimmy.Vetayases@oracle.com if (apic_nproc == 1)
1229*12683SJimmy.Vetayases@oracle.com return (0);
1230*12683SJimmy.Vetayases@oracle.com
1231*12683SJimmy.Vetayases@oracle.com drv_name = NULL;
1232*12683SJimmy.Vetayases@oracle.com rc = DDI_PROP_NOT_FOUND;
1233*12683SJimmy.Vetayases@oracle.com major = (major_t)-1;
1234*12683SJimmy.Vetayases@oracle.com if (dip != NULL) {
1235*12683SJimmy.Vetayases@oracle.com name = ddi_get_name(dip);
1236*12683SJimmy.Vetayases@oracle.com major = ddi_name_to_major(name);
1237*12683SJimmy.Vetayases@oracle.com drv_name = ddi_major_to_name(major);
1238*12683SJimmy.Vetayases@oracle.com instance = ddi_get_instance(dip);
1239*12683SJimmy.Vetayases@oracle.com if (apic_intr_policy == INTR_ROUND_ROBIN_WITH_AFFINITY) {
1240*12683SJimmy.Vetayases@oracle.com i = apic_min_device_irq;
1241*12683SJimmy.Vetayases@oracle.com for (; i <= apic_max_device_irq; i++) {
1242*12683SJimmy.Vetayases@oracle.com
1243*12683SJimmy.Vetayases@oracle.com if ((i == irq) || (apic_irq_table[i] == NULL) ||
1244*12683SJimmy.Vetayases@oracle.com (apic_irq_table[i]->airq_mps_intr_index
1245*12683SJimmy.Vetayases@oracle.com == FREE_INDEX))
1246*12683SJimmy.Vetayases@oracle.com continue;
1247*12683SJimmy.Vetayases@oracle.com
1248*12683SJimmy.Vetayases@oracle.com if ((apic_irq_table[i]->airq_major == major) &&
1249*12683SJimmy.Vetayases@oracle.com (!(apic_irq_table[i]->airq_cpu &
1250*12683SJimmy.Vetayases@oracle.com IRQ_USER_BOUND))) {
1251*12683SJimmy.Vetayases@oracle.com
1252*12683SJimmy.Vetayases@oracle.com cpu = apic_irq_table[i]->airq_cpu;
1253*12683SJimmy.Vetayases@oracle.com
1254*12683SJimmy.Vetayases@oracle.com cmn_err(CE_CONT,
1255*12683SJimmy.Vetayases@oracle.com "!%s: %s (%s) instance #%d "
1256*12683SJimmy.Vetayases@oracle.com "irq 0x%x vector 0x%x ioapic 0x%x "
1257*12683SJimmy.Vetayases@oracle.com "intin 0x%x is bound to cpu %d\n",
1258*12683SJimmy.Vetayases@oracle.com psm_name,
1259*12683SJimmy.Vetayases@oracle.com name, drv_name, instance, irq,
1260*12683SJimmy.Vetayases@oracle.com apic_irq_table[irq]->airq_vector,
1261*12683SJimmy.Vetayases@oracle.com ioapicid, intin, cpu);
1262*12683SJimmy.Vetayases@oracle.com return (cpu);
1263*12683SJimmy.Vetayases@oracle.com }
1264*12683SJimmy.Vetayases@oracle.com }
1265*12683SJimmy.Vetayases@oracle.com }
1266*12683SJimmy.Vetayases@oracle.com /*
1267*12683SJimmy.Vetayases@oracle.com * search for "drvname"_intpt_bind_cpus property first, the
1268*12683SJimmy.Vetayases@oracle.com * syntax of the property should be "a[,b,c,...]" where
1269*12683SJimmy.Vetayases@oracle.com * instance 0 binds to cpu a, instance 1 binds to cpu b,
1270*12683SJimmy.Vetayases@oracle.com * instance 3 binds to cpu c...
1271*12683SJimmy.Vetayases@oracle.com * ddi_getlongprop() will search /option first, then /
1272*12683SJimmy.Vetayases@oracle.com * if "drvname"_intpt_bind_cpus doesn't exist, then find
1273*12683SJimmy.Vetayases@oracle.com * intpt_bind_cpus property. The syntax is the same, and
1274*12683SJimmy.Vetayases@oracle.com * it applies to all the devices if its "drvname" specific
1275*12683SJimmy.Vetayases@oracle.com * property doesn't exist
1276*12683SJimmy.Vetayases@oracle.com */
1277*12683SJimmy.Vetayases@oracle.com (void) strcpy(prop_name, drv_name);
1278*12683SJimmy.Vetayases@oracle.com (void) strcat(prop_name, "_intpt_bind_cpus");
1279*12683SJimmy.Vetayases@oracle.com rc = ddi_getlongprop(DDI_DEV_T_ANY, dip, 0, prop_name,
1280*12683SJimmy.Vetayases@oracle.com (caddr_t)&prop_val, &prop_len);
1281*12683SJimmy.Vetayases@oracle.com if (rc != DDI_PROP_SUCCESS) {
1282*12683SJimmy.Vetayases@oracle.com rc = ddi_getlongprop(DDI_DEV_T_ANY, dip, 0,
1283*12683SJimmy.Vetayases@oracle.com "intpt_bind_cpus", (caddr_t)&prop_val, &prop_len);
1284*12683SJimmy.Vetayases@oracle.com }
1285*12683SJimmy.Vetayases@oracle.com }
1286*12683SJimmy.Vetayases@oracle.com if (rc == DDI_PROP_SUCCESS) {
1287*12683SJimmy.Vetayases@oracle.com for (i = count = 0; i < (prop_len - 1); i++)
1288*12683SJimmy.Vetayases@oracle.com if (prop_val[i] == ',')
1289*12683SJimmy.Vetayases@oracle.com count++;
1290*12683SJimmy.Vetayases@oracle.com if (prop_val[i-1] != ',')
1291*12683SJimmy.Vetayases@oracle.com count++;
1292*12683SJimmy.Vetayases@oracle.com /*
1293*12683SJimmy.Vetayases@oracle.com * if somehow the binding instances defined in the
1294*12683SJimmy.Vetayases@oracle.com * property are not enough for this instno., then
1295*12683SJimmy.Vetayases@oracle.com * reuse the pattern for the next instance until
1296*12683SJimmy.Vetayases@oracle.com * it reaches the requested instno
1297*12683SJimmy.Vetayases@oracle.com */
1298*12683SJimmy.Vetayases@oracle.com instno = instance % count;
1299*12683SJimmy.Vetayases@oracle.com i = 0;
1300*12683SJimmy.Vetayases@oracle.com cptr = prop_val;
1301*12683SJimmy.Vetayases@oracle.com while (i < instno)
1302*12683SJimmy.Vetayases@oracle.com if (*cptr++ == ',')
1303*12683SJimmy.Vetayases@oracle.com i++;
1304*12683SJimmy.Vetayases@oracle.com bind_cpu = stoi(&cptr);
1305*12683SJimmy.Vetayases@oracle.com kmem_free(prop_val, prop_len);
1306*12683SJimmy.Vetayases@oracle.com /* if specific CPU is bogus, then default to next cpu */
1307*12683SJimmy.Vetayases@oracle.com if (!apic_cpu_in_range(bind_cpu)) {
1308*12683SJimmy.Vetayases@oracle.com cmn_err(CE_WARN, "%s: %s=%s: CPU %d not present",
1309*12683SJimmy.Vetayases@oracle.com psm_name, prop_name, prop_val, bind_cpu);
1310*12683SJimmy.Vetayases@oracle.com rc = DDI_PROP_NOT_FOUND;
1311*12683SJimmy.Vetayases@oracle.com } else {
1312*12683SJimmy.Vetayases@oracle.com /* indicate that we are bound at user request */
1313*12683SJimmy.Vetayases@oracle.com bind_cpu |= IRQ_USER_BOUND;
1314*12683SJimmy.Vetayases@oracle.com }
1315*12683SJimmy.Vetayases@oracle.com /*
1316*12683SJimmy.Vetayases@oracle.com * no need to check apic_cpus[].aci_status, if specific CPU is
1317*12683SJimmy.Vetayases@oracle.com * not up, then post_cpu_start will handle it.
1318*12683SJimmy.Vetayases@oracle.com */
1319*12683SJimmy.Vetayases@oracle.com }
1320*12683SJimmy.Vetayases@oracle.com if (rc != DDI_PROP_SUCCESS) {
1321*12683SJimmy.Vetayases@oracle.com iflag = intr_clear();
1322*12683SJimmy.Vetayases@oracle.com lock_set(&apic_ioapic_lock);
1323*12683SJimmy.Vetayases@oracle.com bind_cpu = apic_get_next_bind_cpu();
1324*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_ioapic_lock);
1325*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
1326*12683SJimmy.Vetayases@oracle.com }
1327*12683SJimmy.Vetayases@oracle.com
1328*12683SJimmy.Vetayases@oracle.com if (drv_name != NULL)
1329*12683SJimmy.Vetayases@oracle.com cmn_err(CE_CONT, "!%s: %s (%s) instance %d irq 0x%x "
1330*12683SJimmy.Vetayases@oracle.com "vector 0x%x ioapic 0x%x intin 0x%x is bound to cpu %d\n",
1331*12683SJimmy.Vetayases@oracle.com psm_name, name, drv_name, instance, irq,
1332*12683SJimmy.Vetayases@oracle.com apic_irq_table[irq]->airq_vector, ioapicid, intin,
1333*12683SJimmy.Vetayases@oracle.com bind_cpu & ~IRQ_USER_BOUND);
1334*12683SJimmy.Vetayases@oracle.com else
1335*12683SJimmy.Vetayases@oracle.com cmn_err(CE_CONT, "!%s: irq 0x%x "
1336*12683SJimmy.Vetayases@oracle.com "vector 0x%x ioapic 0x%x intin 0x%x is bound to cpu %d\n",
1337*12683SJimmy.Vetayases@oracle.com psm_name, irq, apic_irq_table[irq]->airq_vector, ioapicid,
1338*12683SJimmy.Vetayases@oracle.com intin, bind_cpu & ~IRQ_USER_BOUND);
1339*12683SJimmy.Vetayases@oracle.com
1340*12683SJimmy.Vetayases@oracle.com return ((uint32_t)bind_cpu);
1341*12683SJimmy.Vetayases@oracle.com }
1342*12683SJimmy.Vetayases@oracle.com
1343*12683SJimmy.Vetayases@oracle.com /*
1344*12683SJimmy.Vetayases@oracle.com * Mark vector as being in the process of being deleted. Interrupts
1345*12683SJimmy.Vetayases@oracle.com * may still come in on some CPU. The moment an interrupt comes with
1346*12683SJimmy.Vetayases@oracle.com * the new vector, we know we can free the old one. Called only from
1347*12683SJimmy.Vetayases@oracle.com * addspl and delspl with interrupts disabled. Because an interrupt
1348*12683SJimmy.Vetayases@oracle.com * can be shared, but no interrupt from either device may come in,
1349*12683SJimmy.Vetayases@oracle.com * we also use a timeout mechanism, which we arbitrarily set to
1350*12683SJimmy.Vetayases@oracle.com * apic_revector_timeout microseconds.
1351*12683SJimmy.Vetayases@oracle.com */
1352*12683SJimmy.Vetayases@oracle.com static void
apic_mark_vector(uchar_t oldvector,uchar_t newvector)1353*12683SJimmy.Vetayases@oracle.com apic_mark_vector(uchar_t oldvector, uchar_t newvector)
1354*12683SJimmy.Vetayases@oracle.com {
1355*12683SJimmy.Vetayases@oracle.com ulong_t iflag;
1356*12683SJimmy.Vetayases@oracle.com
1357*12683SJimmy.Vetayases@oracle.com iflag = intr_clear();
1358*12683SJimmy.Vetayases@oracle.com lock_set(&apic_revector_lock);
1359*12683SJimmy.Vetayases@oracle.com if (!apic_oldvec_to_newvec) {
1360*12683SJimmy.Vetayases@oracle.com apic_oldvec_to_newvec =
1361*12683SJimmy.Vetayases@oracle.com kmem_zalloc(sizeof (newvector) * APIC_MAX_VECTOR * 2,
1362*12683SJimmy.Vetayases@oracle.com KM_NOSLEEP);
1363*12683SJimmy.Vetayases@oracle.com
1364*12683SJimmy.Vetayases@oracle.com if (!apic_oldvec_to_newvec) {
1365*12683SJimmy.Vetayases@oracle.com /*
1366*12683SJimmy.Vetayases@oracle.com * This failure is not catastrophic.
1367*12683SJimmy.Vetayases@oracle.com * But, the oldvec will never be freed.
1368*12683SJimmy.Vetayases@oracle.com */
1369*12683SJimmy.Vetayases@oracle.com apic_error |= APIC_ERR_MARK_VECTOR_FAIL;
1370*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_revector_lock);
1371*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
1372*12683SJimmy.Vetayases@oracle.com return;
1373*12683SJimmy.Vetayases@oracle.com }
1374*12683SJimmy.Vetayases@oracle.com apic_newvec_to_oldvec = &apic_oldvec_to_newvec[APIC_MAX_VECTOR];
1375*12683SJimmy.Vetayases@oracle.com }
1376*12683SJimmy.Vetayases@oracle.com
1377*12683SJimmy.Vetayases@oracle.com /* See if we already did this for drivers which do double addintrs */
1378*12683SJimmy.Vetayases@oracle.com if (apic_oldvec_to_newvec[oldvector] != newvector) {
1379*12683SJimmy.Vetayases@oracle.com apic_oldvec_to_newvec[oldvector] = newvector;
1380*12683SJimmy.Vetayases@oracle.com apic_newvec_to_oldvec[newvector] = oldvector;
1381*12683SJimmy.Vetayases@oracle.com apic_revector_pending++;
1382*12683SJimmy.Vetayases@oracle.com }
1383*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_revector_lock);
1384*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
1385*12683SJimmy.Vetayases@oracle.com (void) timeout(apic_xlate_vector_free_timeout_handler,
1386*12683SJimmy.Vetayases@oracle.com (void *)(uintptr_t)oldvector, drv_usectohz(apic_revector_timeout));
1387*12683SJimmy.Vetayases@oracle.com }
1388*12683SJimmy.Vetayases@oracle.com
1389*12683SJimmy.Vetayases@oracle.com /*
1390*12683SJimmy.Vetayases@oracle.com * xlate_vector is called from intr_enter if revector_pending is set.
1391*12683SJimmy.Vetayases@oracle.com * It will xlate it if needed and mark the old vector as free.
1392*12683SJimmy.Vetayases@oracle.com */
1393*12683SJimmy.Vetayases@oracle.com uchar_t
apic_xlate_vector(uchar_t vector)1394*12683SJimmy.Vetayases@oracle.com apic_xlate_vector(uchar_t vector)
1395*12683SJimmy.Vetayases@oracle.com {
1396*12683SJimmy.Vetayases@oracle.com uchar_t newvector, oldvector = 0;
1397*12683SJimmy.Vetayases@oracle.com
1398*12683SJimmy.Vetayases@oracle.com lock_set(&apic_revector_lock);
1399*12683SJimmy.Vetayases@oracle.com /* Do we really need to do this ? */
1400*12683SJimmy.Vetayases@oracle.com if (!apic_revector_pending) {
1401*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_revector_lock);
1402*12683SJimmy.Vetayases@oracle.com return (vector);
1403*12683SJimmy.Vetayases@oracle.com }
1404*12683SJimmy.Vetayases@oracle.com if ((newvector = apic_oldvec_to_newvec[vector]) != 0)
1405*12683SJimmy.Vetayases@oracle.com oldvector = vector;
1406*12683SJimmy.Vetayases@oracle.com else {
1407*12683SJimmy.Vetayases@oracle.com /*
1408*12683SJimmy.Vetayases@oracle.com * The incoming vector is new . See if a stale entry is
1409*12683SJimmy.Vetayases@oracle.com * remaining
1410*12683SJimmy.Vetayases@oracle.com */
1411*12683SJimmy.Vetayases@oracle.com if ((oldvector = apic_newvec_to_oldvec[vector]) != 0)
1412*12683SJimmy.Vetayases@oracle.com newvector = vector;
1413*12683SJimmy.Vetayases@oracle.com }
1414*12683SJimmy.Vetayases@oracle.com
1415*12683SJimmy.Vetayases@oracle.com if (oldvector) {
1416*12683SJimmy.Vetayases@oracle.com apic_revector_pending--;
1417*12683SJimmy.Vetayases@oracle.com apic_oldvec_to_newvec[oldvector] = 0;
1418*12683SJimmy.Vetayases@oracle.com apic_newvec_to_oldvec[newvector] = 0;
1419*12683SJimmy.Vetayases@oracle.com apic_free_vector(oldvector);
1420*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_revector_lock);
1421*12683SJimmy.Vetayases@oracle.com /* There could have been more than one reprogramming! */
1422*12683SJimmy.Vetayases@oracle.com return (apic_xlate_vector(newvector));
1423*12683SJimmy.Vetayases@oracle.com }
1424*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_revector_lock);
1425*12683SJimmy.Vetayases@oracle.com return (vector);
1426*12683SJimmy.Vetayases@oracle.com }
1427*12683SJimmy.Vetayases@oracle.com
1428*12683SJimmy.Vetayases@oracle.com void
apic_xlate_vector_free_timeout_handler(void * arg)1429*12683SJimmy.Vetayases@oracle.com apic_xlate_vector_free_timeout_handler(void *arg)
1430*12683SJimmy.Vetayases@oracle.com {
1431*12683SJimmy.Vetayases@oracle.com ulong_t iflag;
1432*12683SJimmy.Vetayases@oracle.com uchar_t oldvector, newvector;
1433*12683SJimmy.Vetayases@oracle.com
1434*12683SJimmy.Vetayases@oracle.com oldvector = (uchar_t)(uintptr_t)arg;
1435*12683SJimmy.Vetayases@oracle.com iflag = intr_clear();
1436*12683SJimmy.Vetayases@oracle.com lock_set(&apic_revector_lock);
1437*12683SJimmy.Vetayases@oracle.com if ((newvector = apic_oldvec_to_newvec[oldvector]) != 0) {
1438*12683SJimmy.Vetayases@oracle.com apic_free_vector(oldvector);
1439*12683SJimmy.Vetayases@oracle.com apic_oldvec_to_newvec[oldvector] = 0;
1440*12683SJimmy.Vetayases@oracle.com apic_newvec_to_oldvec[newvector] = 0;
1441*12683SJimmy.Vetayases@oracle.com apic_revector_pending--;
1442*12683SJimmy.Vetayases@oracle.com }
1443*12683SJimmy.Vetayases@oracle.com
1444*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_revector_lock);
1445*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
1446*12683SJimmy.Vetayases@oracle.com }
1447*12683SJimmy.Vetayases@oracle.com
1448*12683SJimmy.Vetayases@oracle.com /*
1449*12683SJimmy.Vetayases@oracle.com * Bind interrupt corresponding to irq_ptr to bind_cpu.
1450*12683SJimmy.Vetayases@oracle.com * Must be called with interrupts disabled and apic_ioapic_lock held
1451*12683SJimmy.Vetayases@oracle.com */
1452*12683SJimmy.Vetayases@oracle.com int
apic_rebind(apic_irq_t * irq_ptr,int bind_cpu,struct ioapic_reprogram_data * drep)1453*12683SJimmy.Vetayases@oracle.com apic_rebind(apic_irq_t *irq_ptr, int bind_cpu,
1454*12683SJimmy.Vetayases@oracle.com struct ioapic_reprogram_data *drep)
1455*12683SJimmy.Vetayases@oracle.com {
1456*12683SJimmy.Vetayases@oracle.com int ioapicindex, intin_no;
1457*12683SJimmy.Vetayases@oracle.com uint32_t airq_temp_cpu;
1458*12683SJimmy.Vetayases@oracle.com apic_cpus_info_t *cpu_infop;
1459*12683SJimmy.Vetayases@oracle.com uint32_t rdt_entry;
1460*12683SJimmy.Vetayases@oracle.com int which_irq;
1461*12683SJimmy.Vetayases@oracle.com ioapic_rdt_t irdt;
1462*12683SJimmy.Vetayases@oracle.com
1463*12683SJimmy.Vetayases@oracle.com which_irq = apic_vector_to_irq[irq_ptr->airq_vector];
1464*12683SJimmy.Vetayases@oracle.com
1465*12683SJimmy.Vetayases@oracle.com intin_no = irq_ptr->airq_intin_no;
1466*12683SJimmy.Vetayases@oracle.com ioapicindex = irq_ptr->airq_ioapicindex;
1467*12683SJimmy.Vetayases@oracle.com airq_temp_cpu = irq_ptr->airq_temp_cpu;
1468*12683SJimmy.Vetayases@oracle.com if (airq_temp_cpu != IRQ_UNINIT && airq_temp_cpu != IRQ_UNBOUND) {
1469*12683SJimmy.Vetayases@oracle.com if (airq_temp_cpu & IRQ_USER_BOUND)
1470*12683SJimmy.Vetayases@oracle.com /* Mask off high bit so it can be used as array index */
1471*12683SJimmy.Vetayases@oracle.com airq_temp_cpu &= ~IRQ_USER_BOUND;
1472*12683SJimmy.Vetayases@oracle.com
1473*12683SJimmy.Vetayases@oracle.com ASSERT(apic_cpu_in_range(airq_temp_cpu));
1474*12683SJimmy.Vetayases@oracle.com }
1475*12683SJimmy.Vetayases@oracle.com
1476*12683SJimmy.Vetayases@oracle.com /*
1477*12683SJimmy.Vetayases@oracle.com * Can't bind to a CPU that's not accepting interrupts:
1478*12683SJimmy.Vetayases@oracle.com */
1479*12683SJimmy.Vetayases@oracle.com cpu_infop = &apic_cpus[bind_cpu & ~IRQ_USER_BOUND];
1480*12683SJimmy.Vetayases@oracle.com if (!(cpu_infop->aci_status & APIC_CPU_INTR_ENABLE))
1481*12683SJimmy.Vetayases@oracle.com return (1);
1482*12683SJimmy.Vetayases@oracle.com
1483*12683SJimmy.Vetayases@oracle.com /*
1484*12683SJimmy.Vetayases@oracle.com * If we are about to change the interrupt vector for this interrupt,
1485*12683SJimmy.Vetayases@oracle.com * and this interrupt is level-triggered, attached to an IOAPIC,
1486*12683SJimmy.Vetayases@oracle.com * has been delivered to a CPU and that CPU has not handled it
1487*12683SJimmy.Vetayases@oracle.com * yet, we cannot reprogram the IOAPIC now.
1488*12683SJimmy.Vetayases@oracle.com */
1489*12683SJimmy.Vetayases@oracle.com if (!APIC_IS_MSI_OR_MSIX_INDEX(irq_ptr->airq_mps_intr_index)) {
1490*12683SJimmy.Vetayases@oracle.com
1491*12683SJimmy.Vetayases@oracle.com rdt_entry = READ_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapicindex,
1492*12683SJimmy.Vetayases@oracle.com intin_no);
1493*12683SJimmy.Vetayases@oracle.com
1494*12683SJimmy.Vetayases@oracle.com if ((irq_ptr->airq_vector != RDT_VECTOR(rdt_entry)) &&
1495*12683SJimmy.Vetayases@oracle.com apic_check_stuck_interrupt(irq_ptr, airq_temp_cpu,
1496*12683SJimmy.Vetayases@oracle.com bind_cpu, ioapicindex, intin_no, which_irq, drep) != 0) {
1497*12683SJimmy.Vetayases@oracle.com
1498*12683SJimmy.Vetayases@oracle.com return (0);
1499*12683SJimmy.Vetayases@oracle.com }
1500*12683SJimmy.Vetayases@oracle.com
1501*12683SJimmy.Vetayases@oracle.com /*
1502*12683SJimmy.Vetayases@oracle.com * NOTE: We do not unmask the RDT here, as an interrupt MAY
1503*12683SJimmy.Vetayases@oracle.com * still come in before we have a chance to reprogram it below.
1504*12683SJimmy.Vetayases@oracle.com * The reprogramming below will simultaneously change and
1505*12683SJimmy.Vetayases@oracle.com * unmask the RDT entry.
1506*12683SJimmy.Vetayases@oracle.com */
1507*12683SJimmy.Vetayases@oracle.com
1508*12683SJimmy.Vetayases@oracle.com if ((uint32_t)bind_cpu == IRQ_UNBOUND) {
1509*12683SJimmy.Vetayases@oracle.com irdt.ir_lo = AV_LDEST | AV_LOPRI |
1510*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_rdt_entry;
1511*12683SJimmy.Vetayases@oracle.com
1512*12683SJimmy.Vetayases@oracle.com irdt.ir_hi = AV_TOALL >> APIC_ID_BIT_OFFSET;
1513*12683SJimmy.Vetayases@oracle.com
1514*12683SJimmy.Vetayases@oracle.com apic_vt_ops->apic_intrmap_alloc_entry(
1515*12683SJimmy.Vetayases@oracle.com &irq_ptr->airq_intrmap_private, NULL,
1516*12683SJimmy.Vetayases@oracle.com DDI_INTR_TYPE_FIXED, 1, ioapicindex);
1517*12683SJimmy.Vetayases@oracle.com apic_vt_ops->apic_intrmap_map_entry(
1518*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_intrmap_private, (void *)&irdt,
1519*12683SJimmy.Vetayases@oracle.com DDI_INTR_TYPE_FIXED, 1);
1520*12683SJimmy.Vetayases@oracle.com apic_vt_ops->apic_intrmap_record_rdt(
1521*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_intrmap_private, &irdt);
1522*12683SJimmy.Vetayases@oracle.com
1523*12683SJimmy.Vetayases@oracle.com /* Write the RDT entry -- no specific CPU binding */
1524*12683SJimmy.Vetayases@oracle.com WRITE_IOAPIC_RDT_ENTRY_HIGH_DWORD(ioapicindex, intin_no,
1525*12683SJimmy.Vetayases@oracle.com irdt.ir_hi | AV_TOALL);
1526*12683SJimmy.Vetayases@oracle.com
1527*12683SJimmy.Vetayases@oracle.com if (airq_temp_cpu != IRQ_UNINIT && airq_temp_cpu !=
1528*12683SJimmy.Vetayases@oracle.com IRQ_UNBOUND)
1529*12683SJimmy.Vetayases@oracle.com apic_cpus[airq_temp_cpu].aci_temp_bound--;
1530*12683SJimmy.Vetayases@oracle.com
1531*12683SJimmy.Vetayases@oracle.com /*
1532*12683SJimmy.Vetayases@oracle.com * Write the vector, trigger, and polarity portion of
1533*12683SJimmy.Vetayases@oracle.com * the RDT
1534*12683SJimmy.Vetayases@oracle.com */
1535*12683SJimmy.Vetayases@oracle.com WRITE_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapicindex, intin_no,
1536*12683SJimmy.Vetayases@oracle.com irdt.ir_lo);
1537*12683SJimmy.Vetayases@oracle.com
1538*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_temp_cpu = IRQ_UNBOUND;
1539*12683SJimmy.Vetayases@oracle.com return (0);
1540*12683SJimmy.Vetayases@oracle.com }
1541*12683SJimmy.Vetayases@oracle.com }
1542*12683SJimmy.Vetayases@oracle.com
1543*12683SJimmy.Vetayases@oracle.com if (bind_cpu & IRQ_USER_BOUND) {
1544*12683SJimmy.Vetayases@oracle.com cpu_infop->aci_bound++;
1545*12683SJimmy.Vetayases@oracle.com } else {
1546*12683SJimmy.Vetayases@oracle.com cpu_infop->aci_temp_bound++;
1547*12683SJimmy.Vetayases@oracle.com }
1548*12683SJimmy.Vetayases@oracle.com ASSERT(apic_cpu_in_range(bind_cpu));
1549*12683SJimmy.Vetayases@oracle.com
1550*12683SJimmy.Vetayases@oracle.com if ((airq_temp_cpu != IRQ_UNBOUND) && (airq_temp_cpu != IRQ_UNINIT)) {
1551*12683SJimmy.Vetayases@oracle.com apic_cpus[airq_temp_cpu].aci_temp_bound--;
1552*12683SJimmy.Vetayases@oracle.com }
1553*12683SJimmy.Vetayases@oracle.com if (!APIC_IS_MSI_OR_MSIX_INDEX(irq_ptr->airq_mps_intr_index)) {
1554*12683SJimmy.Vetayases@oracle.com
1555*12683SJimmy.Vetayases@oracle.com irdt.ir_lo = AV_PDEST | AV_FIXED | irq_ptr->airq_rdt_entry;
1556*12683SJimmy.Vetayases@oracle.com irdt.ir_hi = cpu_infop->aci_local_id;
1557*12683SJimmy.Vetayases@oracle.com
1558*12683SJimmy.Vetayases@oracle.com apic_vt_ops->apic_intrmap_alloc_entry(
1559*12683SJimmy.Vetayases@oracle.com &irq_ptr->airq_intrmap_private, NULL, DDI_INTR_TYPE_FIXED,
1560*12683SJimmy.Vetayases@oracle.com 1, ioapicindex);
1561*12683SJimmy.Vetayases@oracle.com apic_vt_ops->apic_intrmap_map_entry(
1562*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_intrmap_private,
1563*12683SJimmy.Vetayases@oracle.com (void *)&irdt, DDI_INTR_TYPE_FIXED, 1);
1564*12683SJimmy.Vetayases@oracle.com apic_vt_ops->apic_intrmap_record_rdt(
1565*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_intrmap_private, &irdt);
1566*12683SJimmy.Vetayases@oracle.com
1567*12683SJimmy.Vetayases@oracle.com /* Write the RDT entry -- bind to a specific CPU: */
1568*12683SJimmy.Vetayases@oracle.com WRITE_IOAPIC_RDT_ENTRY_HIGH_DWORD(ioapicindex, intin_no,
1569*12683SJimmy.Vetayases@oracle.com irdt.ir_hi);
1570*12683SJimmy.Vetayases@oracle.com
1571*12683SJimmy.Vetayases@oracle.com /* Write the vector, trigger, and polarity portion of the RDT */
1572*12683SJimmy.Vetayases@oracle.com WRITE_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapicindex, intin_no,
1573*12683SJimmy.Vetayases@oracle.com irdt.ir_lo);
1574*12683SJimmy.Vetayases@oracle.com
1575*12683SJimmy.Vetayases@oracle.com } else {
1576*12683SJimmy.Vetayases@oracle.com int type = (irq_ptr->airq_mps_intr_index == MSI_INDEX) ?
1577*12683SJimmy.Vetayases@oracle.com DDI_INTR_TYPE_MSI : DDI_INTR_TYPE_MSIX;
1578*12683SJimmy.Vetayases@oracle.com if (type == DDI_INTR_TYPE_MSI) {
1579*12683SJimmy.Vetayases@oracle.com if (irq_ptr->airq_ioapicindex ==
1580*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_origirq) {
1581*12683SJimmy.Vetayases@oracle.com /* first one */
1582*12683SJimmy.Vetayases@oracle.com DDI_INTR_IMPLDBG((CE_CONT, "apic_rebind: call "
1583*12683SJimmy.Vetayases@oracle.com "apic_pci_msi_enable_vector\n"));
1584*12683SJimmy.Vetayases@oracle.com apic_pci_msi_enable_vector(irq_ptr,
1585*12683SJimmy.Vetayases@oracle.com type, which_irq, irq_ptr->airq_vector,
1586*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_intin_no,
1587*12683SJimmy.Vetayases@oracle.com cpu_infop->aci_local_id);
1588*12683SJimmy.Vetayases@oracle.com }
1589*12683SJimmy.Vetayases@oracle.com if ((irq_ptr->airq_ioapicindex +
1590*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_intin_no - 1) ==
1591*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_origirq) { /* last one */
1592*12683SJimmy.Vetayases@oracle.com DDI_INTR_IMPLDBG((CE_CONT, "apic_rebind: call "
1593*12683SJimmy.Vetayases@oracle.com "apic_pci_msi_enable_mode\n"));
1594*12683SJimmy.Vetayases@oracle.com apic_pci_msi_enable_mode(irq_ptr->airq_dip,
1595*12683SJimmy.Vetayases@oracle.com type, which_irq);
1596*12683SJimmy.Vetayases@oracle.com }
1597*12683SJimmy.Vetayases@oracle.com } else { /* MSI-X */
1598*12683SJimmy.Vetayases@oracle.com apic_pci_msi_enable_vector(irq_ptr, type,
1599*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_origirq, irq_ptr->airq_vector, 1,
1600*12683SJimmy.Vetayases@oracle.com cpu_infop->aci_local_id);
1601*12683SJimmy.Vetayases@oracle.com apic_pci_msi_enable_mode(irq_ptr->airq_dip, type,
1602*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_origirq);
1603*12683SJimmy.Vetayases@oracle.com }
1604*12683SJimmy.Vetayases@oracle.com }
1605*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_temp_cpu = (uint32_t)bind_cpu;
1606*12683SJimmy.Vetayases@oracle.com apic_redist_cpu_skip &= ~(1 << (bind_cpu & ~IRQ_USER_BOUND));
1607*12683SJimmy.Vetayases@oracle.com return (0);
1608*12683SJimmy.Vetayases@oracle.com }
1609*12683SJimmy.Vetayases@oracle.com
1610*12683SJimmy.Vetayases@oracle.com static void
apic_last_ditch_clear_remote_irr(int ioapic_ix,int intin_no)1611*12683SJimmy.Vetayases@oracle.com apic_last_ditch_clear_remote_irr(int ioapic_ix, int intin_no)
1612*12683SJimmy.Vetayases@oracle.com {
1613*12683SJimmy.Vetayases@oracle.com if ((READ_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix, intin_no)
1614*12683SJimmy.Vetayases@oracle.com & AV_REMOTE_IRR) != 0) {
1615*12683SJimmy.Vetayases@oracle.com /*
1616*12683SJimmy.Vetayases@oracle.com * Trying to clear the bit through normal
1617*12683SJimmy.Vetayases@oracle.com * channels has failed. So as a last-ditch
1618*12683SJimmy.Vetayases@oracle.com * effort, try to set the trigger mode to
1619*12683SJimmy.Vetayases@oracle.com * edge, then to level. This has been
1620*12683SJimmy.Vetayases@oracle.com * observed to work on many systems.
1621*12683SJimmy.Vetayases@oracle.com */
1622*12683SJimmy.Vetayases@oracle.com WRITE_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix,
1623*12683SJimmy.Vetayases@oracle.com intin_no,
1624*12683SJimmy.Vetayases@oracle.com READ_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix,
1625*12683SJimmy.Vetayases@oracle.com intin_no) & ~AV_LEVEL);
1626*12683SJimmy.Vetayases@oracle.com
1627*12683SJimmy.Vetayases@oracle.com WRITE_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix,
1628*12683SJimmy.Vetayases@oracle.com intin_no,
1629*12683SJimmy.Vetayases@oracle.com READ_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix,
1630*12683SJimmy.Vetayases@oracle.com intin_no) | AV_LEVEL);
1631*12683SJimmy.Vetayases@oracle.com
1632*12683SJimmy.Vetayases@oracle.com /*
1633*12683SJimmy.Vetayases@oracle.com * If the bit's STILL set, this interrupt may
1634*12683SJimmy.Vetayases@oracle.com * be hosed.
1635*12683SJimmy.Vetayases@oracle.com */
1636*12683SJimmy.Vetayases@oracle.com if ((READ_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix,
1637*12683SJimmy.Vetayases@oracle.com intin_no) & AV_REMOTE_IRR) != 0) {
1638*12683SJimmy.Vetayases@oracle.com
1639*12683SJimmy.Vetayases@oracle.com prom_printf("%s: Remote IRR still "
1640*12683SJimmy.Vetayases@oracle.com "not clear for IOAPIC %d intin %d.\n"
1641*12683SJimmy.Vetayases@oracle.com "\tInterrupts to this pin may cease "
1642*12683SJimmy.Vetayases@oracle.com "functioning.\n", psm_name, ioapic_ix,
1643*12683SJimmy.Vetayases@oracle.com intin_no);
1644*12683SJimmy.Vetayases@oracle.com #ifdef DEBUG
1645*12683SJimmy.Vetayases@oracle.com apic_last_ditch_reprogram_failures++;
1646*12683SJimmy.Vetayases@oracle.com #endif
1647*12683SJimmy.Vetayases@oracle.com }
1648*12683SJimmy.Vetayases@oracle.com }
1649*12683SJimmy.Vetayases@oracle.com }
1650*12683SJimmy.Vetayases@oracle.com
1651*12683SJimmy.Vetayases@oracle.com /*
1652*12683SJimmy.Vetayases@oracle.com * This function is protected by apic_ioapic_lock coupled with the
1653*12683SJimmy.Vetayases@oracle.com * fact that interrupts are disabled.
1654*12683SJimmy.Vetayases@oracle.com */
1655*12683SJimmy.Vetayases@oracle.com static void
delete_defer_repro_ent(int which_irq)1656*12683SJimmy.Vetayases@oracle.com delete_defer_repro_ent(int which_irq)
1657*12683SJimmy.Vetayases@oracle.com {
1658*12683SJimmy.Vetayases@oracle.com ASSERT(which_irq >= 0);
1659*12683SJimmy.Vetayases@oracle.com ASSERT(which_irq <= 255);
1660*12683SJimmy.Vetayases@oracle.com ASSERT(LOCK_HELD(&apic_ioapic_lock));
1661*12683SJimmy.Vetayases@oracle.com
1662*12683SJimmy.Vetayases@oracle.com if (apic_reprogram_info[which_irq].done)
1663*12683SJimmy.Vetayases@oracle.com return;
1664*12683SJimmy.Vetayases@oracle.com
1665*12683SJimmy.Vetayases@oracle.com apic_reprogram_info[which_irq].done = B_TRUE;
1666*12683SJimmy.Vetayases@oracle.com
1667*12683SJimmy.Vetayases@oracle.com #ifdef DEBUG
1668*12683SJimmy.Vetayases@oracle.com apic_defer_repro_total_retries +=
1669*12683SJimmy.Vetayases@oracle.com apic_reprogram_info[which_irq].tries;
1670*12683SJimmy.Vetayases@oracle.com
1671*12683SJimmy.Vetayases@oracle.com apic_defer_repro_successes++;
1672*12683SJimmy.Vetayases@oracle.com #endif
1673*12683SJimmy.Vetayases@oracle.com
1674*12683SJimmy.Vetayases@oracle.com if (--apic_reprogram_outstanding == 0) {
1675*12683SJimmy.Vetayases@oracle.com
1676*12683SJimmy.Vetayases@oracle.com setlvlx = psm_intr_exit_fn();
1677*12683SJimmy.Vetayases@oracle.com }
1678*12683SJimmy.Vetayases@oracle.com }
1679*12683SJimmy.Vetayases@oracle.com
1680*12683SJimmy.Vetayases@oracle.com
1681*12683SJimmy.Vetayases@oracle.com /*
1682*12683SJimmy.Vetayases@oracle.com * Interrupts must be disabled during this function to prevent
1683*12683SJimmy.Vetayases@oracle.com * self-deadlock. Interrupts are disabled because this function
1684*12683SJimmy.Vetayases@oracle.com * is called from apic_check_stuck_interrupt(), which is called
1685*12683SJimmy.Vetayases@oracle.com * from apic_rebind(), which requires its caller to disable interrupts.
1686*12683SJimmy.Vetayases@oracle.com */
1687*12683SJimmy.Vetayases@oracle.com static void
add_defer_repro_ent(apic_irq_t * irq_ptr,int which_irq,int new_bind_cpu)1688*12683SJimmy.Vetayases@oracle.com add_defer_repro_ent(apic_irq_t *irq_ptr, int which_irq, int new_bind_cpu)
1689*12683SJimmy.Vetayases@oracle.com {
1690*12683SJimmy.Vetayases@oracle.com ASSERT(which_irq >= 0);
1691*12683SJimmy.Vetayases@oracle.com ASSERT(which_irq <= 255);
1692*12683SJimmy.Vetayases@oracle.com ASSERT(!interrupts_enabled());
1693*12683SJimmy.Vetayases@oracle.com
1694*12683SJimmy.Vetayases@oracle.com /*
1695*12683SJimmy.Vetayases@oracle.com * On the off-chance that there's already a deferred
1696*12683SJimmy.Vetayases@oracle.com * reprogramming on this irq, check, and if so, just update the
1697*12683SJimmy.Vetayases@oracle.com * CPU and irq pointer to which the interrupt is targeted, then return.
1698*12683SJimmy.Vetayases@oracle.com */
1699*12683SJimmy.Vetayases@oracle.com if (!apic_reprogram_info[which_irq].done) {
1700*12683SJimmy.Vetayases@oracle.com apic_reprogram_info[which_irq].bindcpu = new_bind_cpu;
1701*12683SJimmy.Vetayases@oracle.com apic_reprogram_info[which_irq].irqp = irq_ptr;
1702*12683SJimmy.Vetayases@oracle.com return;
1703*12683SJimmy.Vetayases@oracle.com }
1704*12683SJimmy.Vetayases@oracle.com
1705*12683SJimmy.Vetayases@oracle.com apic_reprogram_info[which_irq].irqp = irq_ptr;
1706*12683SJimmy.Vetayases@oracle.com apic_reprogram_info[which_irq].bindcpu = new_bind_cpu;
1707*12683SJimmy.Vetayases@oracle.com apic_reprogram_info[which_irq].tries = 0;
1708*12683SJimmy.Vetayases@oracle.com /*
1709*12683SJimmy.Vetayases@oracle.com * This must be the last thing set, since we're not
1710*12683SJimmy.Vetayases@oracle.com * grabbing any locks, apic_try_deferred_reprogram() will
1711*12683SJimmy.Vetayases@oracle.com * make its decision about using this entry iff done
1712*12683SJimmy.Vetayases@oracle.com * is false.
1713*12683SJimmy.Vetayases@oracle.com */
1714*12683SJimmy.Vetayases@oracle.com apic_reprogram_info[which_irq].done = B_FALSE;
1715*12683SJimmy.Vetayases@oracle.com
1716*12683SJimmy.Vetayases@oracle.com /*
1717*12683SJimmy.Vetayases@oracle.com * If there were previously no deferred reprogrammings, change
1718*12683SJimmy.Vetayases@oracle.com * setlvlx to call apic_try_deferred_reprogram()
1719*12683SJimmy.Vetayases@oracle.com */
1720*12683SJimmy.Vetayases@oracle.com if (++apic_reprogram_outstanding == 1) {
1721*12683SJimmy.Vetayases@oracle.com
1722*12683SJimmy.Vetayases@oracle.com setlvlx = apic_try_deferred_reprogram;
1723*12683SJimmy.Vetayases@oracle.com }
1724*12683SJimmy.Vetayases@oracle.com }
1725*12683SJimmy.Vetayases@oracle.com
1726*12683SJimmy.Vetayases@oracle.com static void
apic_try_deferred_reprogram(int prev_ipl,int irq)1727*12683SJimmy.Vetayases@oracle.com apic_try_deferred_reprogram(int prev_ipl, int irq)
1728*12683SJimmy.Vetayases@oracle.com {
1729*12683SJimmy.Vetayases@oracle.com int reproirq;
1730*12683SJimmy.Vetayases@oracle.com ulong_t iflag;
1731*12683SJimmy.Vetayases@oracle.com struct ioapic_reprogram_data *drep;
1732*12683SJimmy.Vetayases@oracle.com
1733*12683SJimmy.Vetayases@oracle.com (*psm_intr_exit_fn())(prev_ipl, irq);
1734*12683SJimmy.Vetayases@oracle.com
1735*12683SJimmy.Vetayases@oracle.com if (!lock_try(&apic_defer_reprogram_lock)) {
1736*12683SJimmy.Vetayases@oracle.com return;
1737*12683SJimmy.Vetayases@oracle.com }
1738*12683SJimmy.Vetayases@oracle.com
1739*12683SJimmy.Vetayases@oracle.com /*
1740*12683SJimmy.Vetayases@oracle.com * Acquire the apic_ioapic_lock so that any other operations that
1741*12683SJimmy.Vetayases@oracle.com * may affect the apic_reprogram_info state are serialized.
1742*12683SJimmy.Vetayases@oracle.com * It's still possible for the last deferred reprogramming to clear
1743*12683SJimmy.Vetayases@oracle.com * between the time we entered this function and the time we get to
1744*12683SJimmy.Vetayases@oracle.com * the for loop below. In that case, *setlvlx will have been set
1745*12683SJimmy.Vetayases@oracle.com * back to *_intr_exit and drep will be NULL. (There's no way to
1746*12683SJimmy.Vetayases@oracle.com * stop that from happening -- we would need to grab a lock before
1747*12683SJimmy.Vetayases@oracle.com * calling *setlvlx, which is neither realistic nor prudent).
1748*12683SJimmy.Vetayases@oracle.com */
1749*12683SJimmy.Vetayases@oracle.com iflag = intr_clear();
1750*12683SJimmy.Vetayases@oracle.com lock_set(&apic_ioapic_lock);
1751*12683SJimmy.Vetayases@oracle.com
1752*12683SJimmy.Vetayases@oracle.com /*
1753*12683SJimmy.Vetayases@oracle.com * For each deferred RDT entry, try to reprogram it now. Note that
1754*12683SJimmy.Vetayases@oracle.com * there is no lock acquisition to read apic_reprogram_info because
1755*12683SJimmy.Vetayases@oracle.com * '.done' is set only after the other fields in the structure are set.
1756*12683SJimmy.Vetayases@oracle.com */
1757*12683SJimmy.Vetayases@oracle.com
1758*12683SJimmy.Vetayases@oracle.com drep = NULL;
1759*12683SJimmy.Vetayases@oracle.com for (reproirq = 0; reproirq <= APIC_MAX_VECTOR; reproirq++) {
1760*12683SJimmy.Vetayases@oracle.com if (apic_reprogram_info[reproirq].done == B_FALSE) {
1761*12683SJimmy.Vetayases@oracle.com drep = &apic_reprogram_info[reproirq];
1762*12683SJimmy.Vetayases@oracle.com break;
1763*12683SJimmy.Vetayases@oracle.com }
1764*12683SJimmy.Vetayases@oracle.com }
1765*12683SJimmy.Vetayases@oracle.com
1766*12683SJimmy.Vetayases@oracle.com /*
1767*12683SJimmy.Vetayases@oracle.com * Either we found a deferred action to perform, or
1768*12683SJimmy.Vetayases@oracle.com * we entered this function spuriously, after *setlvlx
1769*12683SJimmy.Vetayases@oracle.com * was restored to point to *_intr_exit. Any other
1770*12683SJimmy.Vetayases@oracle.com * permutation is invalid.
1771*12683SJimmy.Vetayases@oracle.com */
1772*12683SJimmy.Vetayases@oracle.com ASSERT(drep != NULL || *setlvlx == psm_intr_exit_fn());
1773*12683SJimmy.Vetayases@oracle.com
1774*12683SJimmy.Vetayases@oracle.com /*
1775*12683SJimmy.Vetayases@oracle.com * Though we can't really do anything about errors
1776*12683SJimmy.Vetayases@oracle.com * at this point, keep track of them for reporting.
1777*12683SJimmy.Vetayases@oracle.com * Note that it is very possible for apic_setup_io_intr
1778*12683SJimmy.Vetayases@oracle.com * to re-register this very timeout if the Remote IRR bit
1779*12683SJimmy.Vetayases@oracle.com * has not yet cleared.
1780*12683SJimmy.Vetayases@oracle.com */
1781*12683SJimmy.Vetayases@oracle.com
1782*12683SJimmy.Vetayases@oracle.com #ifdef DEBUG
1783*12683SJimmy.Vetayases@oracle.com if (drep != NULL) {
1784*12683SJimmy.Vetayases@oracle.com if (apic_setup_io_intr(drep, reproirq, B_TRUE) != 0) {
1785*12683SJimmy.Vetayases@oracle.com apic_deferred_setup_failures++;
1786*12683SJimmy.Vetayases@oracle.com }
1787*12683SJimmy.Vetayases@oracle.com } else {
1788*12683SJimmy.Vetayases@oracle.com apic_deferred_spurious_enters++;
1789*12683SJimmy.Vetayases@oracle.com }
1790*12683SJimmy.Vetayases@oracle.com #else
1791*12683SJimmy.Vetayases@oracle.com if (drep != NULL)
1792*12683SJimmy.Vetayases@oracle.com (void) apic_setup_io_intr(drep, reproirq, B_TRUE);
1793*12683SJimmy.Vetayases@oracle.com #endif
1794*12683SJimmy.Vetayases@oracle.com
1795*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_ioapic_lock);
1796*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
1797*12683SJimmy.Vetayases@oracle.com
1798*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_defer_reprogram_lock);
1799*12683SJimmy.Vetayases@oracle.com }
1800*12683SJimmy.Vetayases@oracle.com
1801*12683SJimmy.Vetayases@oracle.com static void
apic_ioapic_wait_pending_clear(int ioapic_ix,int intin_no)1802*12683SJimmy.Vetayases@oracle.com apic_ioapic_wait_pending_clear(int ioapic_ix, int intin_no)
1803*12683SJimmy.Vetayases@oracle.com {
1804*12683SJimmy.Vetayases@oracle.com int waited;
1805*12683SJimmy.Vetayases@oracle.com
1806*12683SJimmy.Vetayases@oracle.com /*
1807*12683SJimmy.Vetayases@oracle.com * Wait for the delivery pending bit to clear.
1808*12683SJimmy.Vetayases@oracle.com */
1809*12683SJimmy.Vetayases@oracle.com if ((READ_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix, intin_no) &
1810*12683SJimmy.Vetayases@oracle.com (AV_LEVEL|AV_PENDING)) == (AV_LEVEL|AV_PENDING)) {
1811*12683SJimmy.Vetayases@oracle.com
1812*12683SJimmy.Vetayases@oracle.com /*
1813*12683SJimmy.Vetayases@oracle.com * If we're still waiting on the delivery of this interrupt,
1814*12683SJimmy.Vetayases@oracle.com * continue to wait here until it is delivered (this should be
1815*12683SJimmy.Vetayases@oracle.com * a very small amount of time, but include a timeout just in
1816*12683SJimmy.Vetayases@oracle.com * case).
1817*12683SJimmy.Vetayases@oracle.com */
1818*12683SJimmy.Vetayases@oracle.com for (waited = 0; waited < apic_max_reps_clear_pending;
1819*12683SJimmy.Vetayases@oracle.com waited++) {
1820*12683SJimmy.Vetayases@oracle.com if ((READ_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix,
1821*12683SJimmy.Vetayases@oracle.com intin_no) & AV_PENDING) == 0) {
1822*12683SJimmy.Vetayases@oracle.com break;
1823*12683SJimmy.Vetayases@oracle.com }
1824*12683SJimmy.Vetayases@oracle.com }
1825*12683SJimmy.Vetayases@oracle.com }
1826*12683SJimmy.Vetayases@oracle.com }
1827*12683SJimmy.Vetayases@oracle.com
1828*12683SJimmy.Vetayases@oracle.com
1829*12683SJimmy.Vetayases@oracle.com /*
1830*12683SJimmy.Vetayases@oracle.com * Checks to see if the IOAPIC interrupt entry specified has its Remote IRR
1831*12683SJimmy.Vetayases@oracle.com * bit set. Calls functions that modify the function that setlvlx points to,
1832*12683SJimmy.Vetayases@oracle.com * so that the reprogramming can be retried very shortly.
1833*12683SJimmy.Vetayases@oracle.com *
1834*12683SJimmy.Vetayases@oracle.com * This function will mask the RDT entry if the interrupt is level-triggered.
1835*12683SJimmy.Vetayases@oracle.com * (The caller is responsible for unmasking the RDT entry.)
1836*12683SJimmy.Vetayases@oracle.com *
1837*12683SJimmy.Vetayases@oracle.com * Returns non-zero if the caller should defer IOAPIC reprogramming.
1838*12683SJimmy.Vetayases@oracle.com */
1839*12683SJimmy.Vetayases@oracle.com static int
apic_check_stuck_interrupt(apic_irq_t * irq_ptr,int old_bind_cpu,int new_bind_cpu,int ioapic_ix,int intin_no,int which_irq,struct ioapic_reprogram_data * drep)1840*12683SJimmy.Vetayases@oracle.com apic_check_stuck_interrupt(apic_irq_t *irq_ptr, int old_bind_cpu,
1841*12683SJimmy.Vetayases@oracle.com int new_bind_cpu, int ioapic_ix, int intin_no, int which_irq,
1842*12683SJimmy.Vetayases@oracle.com struct ioapic_reprogram_data *drep)
1843*12683SJimmy.Vetayases@oracle.com {
1844*12683SJimmy.Vetayases@oracle.com int32_t rdt_entry;
1845*12683SJimmy.Vetayases@oracle.com int waited;
1846*12683SJimmy.Vetayases@oracle.com int reps = 0;
1847*12683SJimmy.Vetayases@oracle.com
1848*12683SJimmy.Vetayases@oracle.com /*
1849*12683SJimmy.Vetayases@oracle.com * Wait for the delivery pending bit to clear.
1850*12683SJimmy.Vetayases@oracle.com */
1851*12683SJimmy.Vetayases@oracle.com do {
1852*12683SJimmy.Vetayases@oracle.com ++reps;
1853*12683SJimmy.Vetayases@oracle.com
1854*12683SJimmy.Vetayases@oracle.com apic_ioapic_wait_pending_clear(ioapic_ix, intin_no);
1855*12683SJimmy.Vetayases@oracle.com
1856*12683SJimmy.Vetayases@oracle.com /*
1857*12683SJimmy.Vetayases@oracle.com * Mask the RDT entry, but only if it's a level-triggered
1858*12683SJimmy.Vetayases@oracle.com * interrupt
1859*12683SJimmy.Vetayases@oracle.com */
1860*12683SJimmy.Vetayases@oracle.com rdt_entry = READ_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix,
1861*12683SJimmy.Vetayases@oracle.com intin_no);
1862*12683SJimmy.Vetayases@oracle.com if ((rdt_entry & (AV_LEVEL|AV_MASK)) == AV_LEVEL) {
1863*12683SJimmy.Vetayases@oracle.com
1864*12683SJimmy.Vetayases@oracle.com /* Mask it */
1865*12683SJimmy.Vetayases@oracle.com WRITE_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix, intin_no,
1866*12683SJimmy.Vetayases@oracle.com AV_MASK | rdt_entry);
1867*12683SJimmy.Vetayases@oracle.com }
1868*12683SJimmy.Vetayases@oracle.com
1869*12683SJimmy.Vetayases@oracle.com if ((rdt_entry & AV_LEVEL) == AV_LEVEL) {
1870*12683SJimmy.Vetayases@oracle.com /*
1871*12683SJimmy.Vetayases@oracle.com * If there was a race and an interrupt was injected
1872*12683SJimmy.Vetayases@oracle.com * just before we masked, check for that case here.
1873*12683SJimmy.Vetayases@oracle.com * Then, unmask the RDT entry and try again. If we're
1874*12683SJimmy.Vetayases@oracle.com * on our last try, don't unmask (because we want the
1875*12683SJimmy.Vetayases@oracle.com * RDT entry to remain masked for the rest of the
1876*12683SJimmy.Vetayases@oracle.com * function).
1877*12683SJimmy.Vetayases@oracle.com */
1878*12683SJimmy.Vetayases@oracle.com rdt_entry = READ_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix,
1879*12683SJimmy.Vetayases@oracle.com intin_no);
1880*12683SJimmy.Vetayases@oracle.com if ((rdt_entry & AV_PENDING) &&
1881*12683SJimmy.Vetayases@oracle.com (reps < apic_max_reps_clear_pending)) {
1882*12683SJimmy.Vetayases@oracle.com /* Unmask it */
1883*12683SJimmy.Vetayases@oracle.com WRITE_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix,
1884*12683SJimmy.Vetayases@oracle.com intin_no, rdt_entry & ~AV_MASK);
1885*12683SJimmy.Vetayases@oracle.com }
1886*12683SJimmy.Vetayases@oracle.com }
1887*12683SJimmy.Vetayases@oracle.com
1888*12683SJimmy.Vetayases@oracle.com } while ((rdt_entry & AV_PENDING) &&
1889*12683SJimmy.Vetayases@oracle.com (reps < apic_max_reps_clear_pending));
1890*12683SJimmy.Vetayases@oracle.com
1891*12683SJimmy.Vetayases@oracle.com #ifdef DEBUG
1892*12683SJimmy.Vetayases@oracle.com if (rdt_entry & AV_PENDING)
1893*12683SJimmy.Vetayases@oracle.com apic_intr_deliver_timeouts++;
1894*12683SJimmy.Vetayases@oracle.com #endif
1895*12683SJimmy.Vetayases@oracle.com
1896*12683SJimmy.Vetayases@oracle.com /*
1897*12683SJimmy.Vetayases@oracle.com * If the remote IRR bit is set, then the interrupt has been sent
1898*12683SJimmy.Vetayases@oracle.com * to a CPU for processing. We have no choice but to wait for
1899*12683SJimmy.Vetayases@oracle.com * that CPU to process the interrupt, at which point the remote IRR
1900*12683SJimmy.Vetayases@oracle.com * bit will be cleared.
1901*12683SJimmy.Vetayases@oracle.com */
1902*12683SJimmy.Vetayases@oracle.com if ((READ_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix, intin_no) &
1903*12683SJimmy.Vetayases@oracle.com (AV_LEVEL|AV_REMOTE_IRR)) == (AV_LEVEL|AV_REMOTE_IRR)) {
1904*12683SJimmy.Vetayases@oracle.com
1905*12683SJimmy.Vetayases@oracle.com /*
1906*12683SJimmy.Vetayases@oracle.com * If the CPU that this RDT is bound to is NOT the current
1907*12683SJimmy.Vetayases@oracle.com * CPU, wait until that CPU handles the interrupt and ACKs
1908*12683SJimmy.Vetayases@oracle.com * it. If this interrupt is not bound to any CPU (that is,
1909*12683SJimmy.Vetayases@oracle.com * if it's bound to the logical destination of "anyone"), it
1910*12683SJimmy.Vetayases@oracle.com * may have been delivered to the current CPU so handle that
1911*12683SJimmy.Vetayases@oracle.com * case by deferring the reprogramming (below).
1912*12683SJimmy.Vetayases@oracle.com */
1913*12683SJimmy.Vetayases@oracle.com if ((old_bind_cpu != IRQ_UNBOUND) &&
1914*12683SJimmy.Vetayases@oracle.com (old_bind_cpu != IRQ_UNINIT) &&
1915*12683SJimmy.Vetayases@oracle.com (old_bind_cpu != psm_get_cpu_id())) {
1916*12683SJimmy.Vetayases@oracle.com for (waited = 0; waited < apic_max_reps_clear_pending;
1917*12683SJimmy.Vetayases@oracle.com waited++) {
1918*12683SJimmy.Vetayases@oracle.com if ((READ_IOAPIC_RDT_ENTRY_LOW_DWORD(ioapic_ix,
1919*12683SJimmy.Vetayases@oracle.com intin_no) & AV_REMOTE_IRR) == 0) {
1920*12683SJimmy.Vetayases@oracle.com
1921*12683SJimmy.Vetayases@oracle.com delete_defer_repro_ent(which_irq);
1922*12683SJimmy.Vetayases@oracle.com
1923*12683SJimmy.Vetayases@oracle.com /* Remote IRR has cleared! */
1924*12683SJimmy.Vetayases@oracle.com return (0);
1925*12683SJimmy.Vetayases@oracle.com }
1926*12683SJimmy.Vetayases@oracle.com }
1927*12683SJimmy.Vetayases@oracle.com }
1928*12683SJimmy.Vetayases@oracle.com
1929*12683SJimmy.Vetayases@oracle.com /*
1930*12683SJimmy.Vetayases@oracle.com * If we waited and the Remote IRR bit is still not cleared,
1931*12683SJimmy.Vetayases@oracle.com * AND if we've invoked the timeout APIC_REPROGRAM_MAX_TIMEOUTS
1932*12683SJimmy.Vetayases@oracle.com * times for this interrupt, try the last-ditch workaround:
1933*12683SJimmy.Vetayases@oracle.com */
1934*12683SJimmy.Vetayases@oracle.com if (drep && drep->tries >= APIC_REPROGRAM_MAX_TRIES) {
1935*12683SJimmy.Vetayases@oracle.com
1936*12683SJimmy.Vetayases@oracle.com apic_last_ditch_clear_remote_irr(ioapic_ix, intin_no);
1937*12683SJimmy.Vetayases@oracle.com
1938*12683SJimmy.Vetayases@oracle.com /* Mark this one as reprogrammed: */
1939*12683SJimmy.Vetayases@oracle.com delete_defer_repro_ent(which_irq);
1940*12683SJimmy.Vetayases@oracle.com
1941*12683SJimmy.Vetayases@oracle.com return (0);
1942*12683SJimmy.Vetayases@oracle.com } else {
1943*12683SJimmy.Vetayases@oracle.com #ifdef DEBUG
1944*12683SJimmy.Vetayases@oracle.com apic_intr_deferrals++;
1945*12683SJimmy.Vetayases@oracle.com #endif
1946*12683SJimmy.Vetayases@oracle.com
1947*12683SJimmy.Vetayases@oracle.com /*
1948*12683SJimmy.Vetayases@oracle.com * If waiting for the Remote IRR bit (above) didn't
1949*12683SJimmy.Vetayases@oracle.com * allow it to clear, defer the reprogramming.
1950*12683SJimmy.Vetayases@oracle.com * Add a new deferred-programming entry if the
1951*12683SJimmy.Vetayases@oracle.com * caller passed a NULL one (and update the existing one
1952*12683SJimmy.Vetayases@oracle.com * in case anything changed).
1953*12683SJimmy.Vetayases@oracle.com */
1954*12683SJimmy.Vetayases@oracle.com add_defer_repro_ent(irq_ptr, which_irq, new_bind_cpu);
1955*12683SJimmy.Vetayases@oracle.com if (drep)
1956*12683SJimmy.Vetayases@oracle.com drep->tries++;
1957*12683SJimmy.Vetayases@oracle.com
1958*12683SJimmy.Vetayases@oracle.com /* Inform caller to defer IOAPIC programming: */
1959*12683SJimmy.Vetayases@oracle.com return (1);
1960*12683SJimmy.Vetayases@oracle.com }
1961*12683SJimmy.Vetayases@oracle.com
1962*12683SJimmy.Vetayases@oracle.com }
1963*12683SJimmy.Vetayases@oracle.com
1964*12683SJimmy.Vetayases@oracle.com /* Remote IRR is clear */
1965*12683SJimmy.Vetayases@oracle.com delete_defer_repro_ent(which_irq);
1966*12683SJimmy.Vetayases@oracle.com
1967*12683SJimmy.Vetayases@oracle.com return (0);
1968*12683SJimmy.Vetayases@oracle.com }
1969*12683SJimmy.Vetayases@oracle.com
1970*12683SJimmy.Vetayases@oracle.com /*
1971*12683SJimmy.Vetayases@oracle.com * Called to migrate all interrupts at an irq to another cpu.
1972*12683SJimmy.Vetayases@oracle.com * Must be called with interrupts disabled and apic_ioapic_lock held
1973*12683SJimmy.Vetayases@oracle.com */
1974*12683SJimmy.Vetayases@oracle.com int
apic_rebind_all(apic_irq_t * irq_ptr,int bind_cpu)1975*12683SJimmy.Vetayases@oracle.com apic_rebind_all(apic_irq_t *irq_ptr, int bind_cpu)
1976*12683SJimmy.Vetayases@oracle.com {
1977*12683SJimmy.Vetayases@oracle.com apic_irq_t *irqptr = irq_ptr;
1978*12683SJimmy.Vetayases@oracle.com int retval = 0;
1979*12683SJimmy.Vetayases@oracle.com
1980*12683SJimmy.Vetayases@oracle.com while (irqptr) {
1981*12683SJimmy.Vetayases@oracle.com if (irqptr->airq_temp_cpu != IRQ_UNINIT)
1982*12683SJimmy.Vetayases@oracle.com retval |= apic_rebind(irqptr, bind_cpu, NULL);
1983*12683SJimmy.Vetayases@oracle.com irqptr = irqptr->airq_next;
1984*12683SJimmy.Vetayases@oracle.com }
1985*12683SJimmy.Vetayases@oracle.com
1986*12683SJimmy.Vetayases@oracle.com return (retval);
1987*12683SJimmy.Vetayases@oracle.com }
1988*12683SJimmy.Vetayases@oracle.com
1989*12683SJimmy.Vetayases@oracle.com /*
1990*12683SJimmy.Vetayases@oracle.com * apic_intr_redistribute does all the messy computations for identifying
1991*12683SJimmy.Vetayases@oracle.com * which interrupt to move to which CPU. Currently we do just one interrupt
1992*12683SJimmy.Vetayases@oracle.com * at a time. This reduces the time we spent doing all this within clock
1993*12683SJimmy.Vetayases@oracle.com * interrupt. When it is done in idle, we could do more than 1.
1994*12683SJimmy.Vetayases@oracle.com * First we find the most busy and the most free CPU (time in ISR only)
1995*12683SJimmy.Vetayases@oracle.com * skipping those CPUs that has been identified as being ineligible (cpu_skip)
1996*12683SJimmy.Vetayases@oracle.com * Then we look for IRQs which are closest to the difference between the
1997*12683SJimmy.Vetayases@oracle.com * most busy CPU and the average ISR load. We try to find one whose load
1998*12683SJimmy.Vetayases@oracle.com * is less than difference.If none exists, then we chose one larger than the
1999*12683SJimmy.Vetayases@oracle.com * difference, provided it does not make the most idle CPU worse than the
2000*12683SJimmy.Vetayases@oracle.com * most busy one. In the end, we clear all the busy fields for CPUs. For
2001*12683SJimmy.Vetayases@oracle.com * IRQs, they are cleared as they are scanned.
2002*12683SJimmy.Vetayases@oracle.com */
2003*12683SJimmy.Vetayases@oracle.com void
apic_intr_redistribute(void)2004*12683SJimmy.Vetayases@oracle.com apic_intr_redistribute(void)
2005*12683SJimmy.Vetayases@oracle.com {
2006*12683SJimmy.Vetayases@oracle.com int busiest_cpu, most_free_cpu;
2007*12683SJimmy.Vetayases@oracle.com int cpu_free, cpu_busy, max_busy, min_busy;
2008*12683SJimmy.Vetayases@oracle.com int min_free, diff;
2009*12683SJimmy.Vetayases@oracle.com int average_busy, cpus_online;
2010*12683SJimmy.Vetayases@oracle.com int i, busy;
2011*12683SJimmy.Vetayases@oracle.com ulong_t iflag;
2012*12683SJimmy.Vetayases@oracle.com apic_cpus_info_t *cpu_infop;
2013*12683SJimmy.Vetayases@oracle.com apic_irq_t *min_busy_irq = NULL;
2014*12683SJimmy.Vetayases@oracle.com apic_irq_t *max_busy_irq = NULL;
2015*12683SJimmy.Vetayases@oracle.com
2016*12683SJimmy.Vetayases@oracle.com busiest_cpu = most_free_cpu = -1;
2017*12683SJimmy.Vetayases@oracle.com cpu_free = cpu_busy = max_busy = average_busy = 0;
2018*12683SJimmy.Vetayases@oracle.com min_free = apic_sample_factor_redistribution;
2019*12683SJimmy.Vetayases@oracle.com cpus_online = 0;
2020*12683SJimmy.Vetayases@oracle.com /*
2021*12683SJimmy.Vetayases@oracle.com * Below we will check for CPU_INTR_ENABLE, bound, temp_bound, temp_cpu
2022*12683SJimmy.Vetayases@oracle.com * without ioapic_lock. That is OK as we are just doing statistical
2023*12683SJimmy.Vetayases@oracle.com * sampling anyway and any inaccuracy now will get corrected next time
2024*12683SJimmy.Vetayases@oracle.com * The call to rebind which actually changes things will make sure
2025*12683SJimmy.Vetayases@oracle.com * we are consistent.
2026*12683SJimmy.Vetayases@oracle.com */
2027*12683SJimmy.Vetayases@oracle.com for (i = 0; i < apic_nproc; i++) {
2028*12683SJimmy.Vetayases@oracle.com if (apic_cpu_in_range(i) &&
2029*12683SJimmy.Vetayases@oracle.com !(apic_redist_cpu_skip & (1 << i)) &&
2030*12683SJimmy.Vetayases@oracle.com (apic_cpus[i].aci_status & APIC_CPU_INTR_ENABLE)) {
2031*12683SJimmy.Vetayases@oracle.com
2032*12683SJimmy.Vetayases@oracle.com cpu_infop = &apic_cpus[i];
2033*12683SJimmy.Vetayases@oracle.com /*
2034*12683SJimmy.Vetayases@oracle.com * If no unbound interrupts or only 1 total on this
2035*12683SJimmy.Vetayases@oracle.com * CPU, skip
2036*12683SJimmy.Vetayases@oracle.com */
2037*12683SJimmy.Vetayases@oracle.com if (!cpu_infop->aci_temp_bound ||
2038*12683SJimmy.Vetayases@oracle.com (cpu_infop->aci_bound + cpu_infop->aci_temp_bound)
2039*12683SJimmy.Vetayases@oracle.com == 1) {
2040*12683SJimmy.Vetayases@oracle.com apic_redist_cpu_skip |= 1 << i;
2041*12683SJimmy.Vetayases@oracle.com continue;
2042*12683SJimmy.Vetayases@oracle.com }
2043*12683SJimmy.Vetayases@oracle.com
2044*12683SJimmy.Vetayases@oracle.com busy = cpu_infop->aci_busy;
2045*12683SJimmy.Vetayases@oracle.com average_busy += busy;
2046*12683SJimmy.Vetayases@oracle.com cpus_online++;
2047*12683SJimmy.Vetayases@oracle.com if (max_busy < busy) {
2048*12683SJimmy.Vetayases@oracle.com max_busy = busy;
2049*12683SJimmy.Vetayases@oracle.com busiest_cpu = i;
2050*12683SJimmy.Vetayases@oracle.com }
2051*12683SJimmy.Vetayases@oracle.com if (min_free > busy) {
2052*12683SJimmy.Vetayases@oracle.com min_free = busy;
2053*12683SJimmy.Vetayases@oracle.com most_free_cpu = i;
2054*12683SJimmy.Vetayases@oracle.com }
2055*12683SJimmy.Vetayases@oracle.com if (busy > apic_int_busy_mark) {
2056*12683SJimmy.Vetayases@oracle.com cpu_busy |= 1 << i;
2057*12683SJimmy.Vetayases@oracle.com } else {
2058*12683SJimmy.Vetayases@oracle.com if (busy < apic_int_free_mark)
2059*12683SJimmy.Vetayases@oracle.com cpu_free |= 1 << i;
2060*12683SJimmy.Vetayases@oracle.com }
2061*12683SJimmy.Vetayases@oracle.com }
2062*12683SJimmy.Vetayases@oracle.com }
2063*12683SJimmy.Vetayases@oracle.com if ((cpu_busy && cpu_free) ||
2064*12683SJimmy.Vetayases@oracle.com (max_busy >= (min_free + apic_diff_for_redistribution))) {
2065*12683SJimmy.Vetayases@oracle.com
2066*12683SJimmy.Vetayases@oracle.com apic_num_imbalance++;
2067*12683SJimmy.Vetayases@oracle.com #ifdef DEBUG
2068*12683SJimmy.Vetayases@oracle.com if (apic_verbose & APIC_VERBOSE_IOAPIC_FLAG) {
2069*12683SJimmy.Vetayases@oracle.com prom_printf(
2070*12683SJimmy.Vetayases@oracle.com "redistribute busy=%x free=%x max=%x min=%x",
2071*12683SJimmy.Vetayases@oracle.com cpu_busy, cpu_free, max_busy, min_free);
2072*12683SJimmy.Vetayases@oracle.com }
2073*12683SJimmy.Vetayases@oracle.com #endif /* DEBUG */
2074*12683SJimmy.Vetayases@oracle.com
2075*12683SJimmy.Vetayases@oracle.com
2076*12683SJimmy.Vetayases@oracle.com average_busy /= cpus_online;
2077*12683SJimmy.Vetayases@oracle.com
2078*12683SJimmy.Vetayases@oracle.com diff = max_busy - average_busy;
2079*12683SJimmy.Vetayases@oracle.com min_busy = max_busy; /* start with the max possible value */
2080*12683SJimmy.Vetayases@oracle.com max_busy = 0;
2081*12683SJimmy.Vetayases@oracle.com min_busy_irq = max_busy_irq = NULL;
2082*12683SJimmy.Vetayases@oracle.com i = apic_min_device_irq;
2083*12683SJimmy.Vetayases@oracle.com for (; i <= apic_max_device_irq; i++) {
2084*12683SJimmy.Vetayases@oracle.com apic_irq_t *irq_ptr;
2085*12683SJimmy.Vetayases@oracle.com /* Change to linked list per CPU ? */
2086*12683SJimmy.Vetayases@oracle.com if ((irq_ptr = apic_irq_table[i]) == NULL)
2087*12683SJimmy.Vetayases@oracle.com continue;
2088*12683SJimmy.Vetayases@oracle.com /* Check for irq_busy & decide which one to move */
2089*12683SJimmy.Vetayases@oracle.com /* Also zero them for next round */
2090*12683SJimmy.Vetayases@oracle.com if ((irq_ptr->airq_temp_cpu == busiest_cpu) &&
2091*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_busy) {
2092*12683SJimmy.Vetayases@oracle.com if (irq_ptr->airq_busy < diff) {
2093*12683SJimmy.Vetayases@oracle.com /*
2094*12683SJimmy.Vetayases@oracle.com * Check for least busy CPU,
2095*12683SJimmy.Vetayases@oracle.com * best fit or what ?
2096*12683SJimmy.Vetayases@oracle.com */
2097*12683SJimmy.Vetayases@oracle.com if (max_busy < irq_ptr->airq_busy) {
2098*12683SJimmy.Vetayases@oracle.com /*
2099*12683SJimmy.Vetayases@oracle.com * Most busy within the
2100*12683SJimmy.Vetayases@oracle.com * required differential
2101*12683SJimmy.Vetayases@oracle.com */
2102*12683SJimmy.Vetayases@oracle.com max_busy = irq_ptr->airq_busy;
2103*12683SJimmy.Vetayases@oracle.com max_busy_irq = irq_ptr;
2104*12683SJimmy.Vetayases@oracle.com }
2105*12683SJimmy.Vetayases@oracle.com } else {
2106*12683SJimmy.Vetayases@oracle.com if (min_busy > irq_ptr->airq_busy) {
2107*12683SJimmy.Vetayases@oracle.com /*
2108*12683SJimmy.Vetayases@oracle.com * least busy, but more than
2109*12683SJimmy.Vetayases@oracle.com * the reqd diff
2110*12683SJimmy.Vetayases@oracle.com */
2111*12683SJimmy.Vetayases@oracle.com if (min_busy <
2112*12683SJimmy.Vetayases@oracle.com (diff + average_busy -
2113*12683SJimmy.Vetayases@oracle.com min_free)) {
2114*12683SJimmy.Vetayases@oracle.com /*
2115*12683SJimmy.Vetayases@oracle.com * Making sure new cpu
2116*12683SJimmy.Vetayases@oracle.com * will not end up
2117*12683SJimmy.Vetayases@oracle.com * worse
2118*12683SJimmy.Vetayases@oracle.com */
2119*12683SJimmy.Vetayases@oracle.com min_busy =
2120*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_busy;
2121*12683SJimmy.Vetayases@oracle.com
2122*12683SJimmy.Vetayases@oracle.com min_busy_irq = irq_ptr;
2123*12683SJimmy.Vetayases@oracle.com }
2124*12683SJimmy.Vetayases@oracle.com }
2125*12683SJimmy.Vetayases@oracle.com }
2126*12683SJimmy.Vetayases@oracle.com }
2127*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_busy = 0;
2128*12683SJimmy.Vetayases@oracle.com }
2129*12683SJimmy.Vetayases@oracle.com
2130*12683SJimmy.Vetayases@oracle.com if (max_busy_irq != NULL) {
2131*12683SJimmy.Vetayases@oracle.com #ifdef DEBUG
2132*12683SJimmy.Vetayases@oracle.com if (apic_verbose & APIC_VERBOSE_IOAPIC_FLAG) {
2133*12683SJimmy.Vetayases@oracle.com prom_printf("rebinding %x to %x",
2134*12683SJimmy.Vetayases@oracle.com max_busy_irq->airq_vector, most_free_cpu);
2135*12683SJimmy.Vetayases@oracle.com }
2136*12683SJimmy.Vetayases@oracle.com #endif /* DEBUG */
2137*12683SJimmy.Vetayases@oracle.com iflag = intr_clear();
2138*12683SJimmy.Vetayases@oracle.com if (lock_try(&apic_ioapic_lock)) {
2139*12683SJimmy.Vetayases@oracle.com if (apic_rebind_all(max_busy_irq,
2140*12683SJimmy.Vetayases@oracle.com most_free_cpu) == 0) {
2141*12683SJimmy.Vetayases@oracle.com /* Make change permenant */
2142*12683SJimmy.Vetayases@oracle.com max_busy_irq->airq_cpu =
2143*12683SJimmy.Vetayases@oracle.com (uint32_t)most_free_cpu;
2144*12683SJimmy.Vetayases@oracle.com }
2145*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_ioapic_lock);
2146*12683SJimmy.Vetayases@oracle.com }
2147*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
2148*12683SJimmy.Vetayases@oracle.com
2149*12683SJimmy.Vetayases@oracle.com } else if (min_busy_irq != NULL) {
2150*12683SJimmy.Vetayases@oracle.com #ifdef DEBUG
2151*12683SJimmy.Vetayases@oracle.com if (apic_verbose & APIC_VERBOSE_IOAPIC_FLAG) {
2152*12683SJimmy.Vetayases@oracle.com prom_printf("rebinding %x to %x",
2153*12683SJimmy.Vetayases@oracle.com min_busy_irq->airq_vector, most_free_cpu);
2154*12683SJimmy.Vetayases@oracle.com }
2155*12683SJimmy.Vetayases@oracle.com #endif /* DEBUG */
2156*12683SJimmy.Vetayases@oracle.com
2157*12683SJimmy.Vetayases@oracle.com iflag = intr_clear();
2158*12683SJimmy.Vetayases@oracle.com if (lock_try(&apic_ioapic_lock)) {
2159*12683SJimmy.Vetayases@oracle.com if (apic_rebind_all(min_busy_irq,
2160*12683SJimmy.Vetayases@oracle.com most_free_cpu) == 0) {
2161*12683SJimmy.Vetayases@oracle.com /* Make change permenant */
2162*12683SJimmy.Vetayases@oracle.com min_busy_irq->airq_cpu =
2163*12683SJimmy.Vetayases@oracle.com (uint32_t)most_free_cpu;
2164*12683SJimmy.Vetayases@oracle.com }
2165*12683SJimmy.Vetayases@oracle.com lock_clear(&apic_ioapic_lock);
2166*12683SJimmy.Vetayases@oracle.com }
2167*12683SJimmy.Vetayases@oracle.com intr_restore(iflag);
2168*12683SJimmy.Vetayases@oracle.com
2169*12683SJimmy.Vetayases@oracle.com } else {
2170*12683SJimmy.Vetayases@oracle.com if (cpu_busy != (1 << busiest_cpu)) {
2171*12683SJimmy.Vetayases@oracle.com apic_redist_cpu_skip |= 1 << busiest_cpu;
2172*12683SJimmy.Vetayases@oracle.com /*
2173*12683SJimmy.Vetayases@oracle.com * We leave cpu_skip set so that next time we
2174*12683SJimmy.Vetayases@oracle.com * can choose another cpu
2175*12683SJimmy.Vetayases@oracle.com */
2176*12683SJimmy.Vetayases@oracle.com }
2177*12683SJimmy.Vetayases@oracle.com }
2178*12683SJimmy.Vetayases@oracle.com apic_num_rebind++;
2179*12683SJimmy.Vetayases@oracle.com } else {
2180*12683SJimmy.Vetayases@oracle.com /*
2181*12683SJimmy.Vetayases@oracle.com * found nothing. Could be that we skipped over valid CPUs
2182*12683SJimmy.Vetayases@oracle.com * or we have balanced everything. If we had a variable
2183*12683SJimmy.Vetayases@oracle.com * ticks_for_redistribution, it could be increased here.
2184*12683SJimmy.Vetayases@oracle.com * apic_int_busy, int_free etc would also need to be
2185*12683SJimmy.Vetayases@oracle.com * changed.
2186*12683SJimmy.Vetayases@oracle.com */
2187*12683SJimmy.Vetayases@oracle.com if (apic_redist_cpu_skip)
2188*12683SJimmy.Vetayases@oracle.com apic_redist_cpu_skip = 0;
2189*12683SJimmy.Vetayases@oracle.com }
2190*12683SJimmy.Vetayases@oracle.com for (i = 0; i < apic_nproc; i++) {
2191*12683SJimmy.Vetayases@oracle.com if (apic_cpu_in_range(i)) {
2192*12683SJimmy.Vetayases@oracle.com apic_cpus[i].aci_busy = 0;
2193*12683SJimmy.Vetayases@oracle.com }
2194*12683SJimmy.Vetayases@oracle.com }
2195*12683SJimmy.Vetayases@oracle.com }
2196*12683SJimmy.Vetayases@oracle.com
2197*12683SJimmy.Vetayases@oracle.com void
apic_cleanup_busy(void)2198*12683SJimmy.Vetayases@oracle.com apic_cleanup_busy(void)
2199*12683SJimmy.Vetayases@oracle.com {
2200*12683SJimmy.Vetayases@oracle.com int i;
2201*12683SJimmy.Vetayases@oracle.com apic_irq_t *irq_ptr;
2202*12683SJimmy.Vetayases@oracle.com
2203*12683SJimmy.Vetayases@oracle.com for (i = 0; i < apic_nproc; i++) {
2204*12683SJimmy.Vetayases@oracle.com if (apic_cpu_in_range(i)) {
2205*12683SJimmy.Vetayases@oracle.com apic_cpus[i].aci_busy = 0;
2206*12683SJimmy.Vetayases@oracle.com }
2207*12683SJimmy.Vetayases@oracle.com }
2208*12683SJimmy.Vetayases@oracle.com
2209*12683SJimmy.Vetayases@oracle.com for (i = apic_min_device_irq; i <= apic_max_device_irq; i++) {
2210*12683SJimmy.Vetayases@oracle.com if ((irq_ptr = apic_irq_table[i]) != NULL)
2211*12683SJimmy.Vetayases@oracle.com irq_ptr->airq_busy = 0;
2212*12683SJimmy.Vetayases@oracle.com }
2213*12683SJimmy.Vetayases@oracle.com }
2214