xen_intr.c revision 1.24 1 1.24 bouyer /* $NetBSD: xen_intr.c,v 1.24 2020/04/25 15:26:17 bouyer Exp $ */
2 1.2 bouyer
3 1.2 bouyer /*-
4 1.2 bouyer * Copyright (c) 1998, 2001 The NetBSD Foundation, Inc.
5 1.2 bouyer * All rights reserved.
6 1.2 bouyer *
7 1.2 bouyer * This code is derived from software contributed to The NetBSD Foundation
8 1.2 bouyer * by Charles M. Hannum, and by Jason R. Thorpe.
9 1.2 bouyer *
10 1.2 bouyer * Redistribution and use in source and binary forms, with or without
11 1.2 bouyer * modification, are permitted provided that the following conditions
12 1.2 bouyer * are met:
13 1.2 bouyer * 1. Redistributions of source code must retain the above copyright
14 1.2 bouyer * notice, this list of conditions and the following disclaimer.
15 1.2 bouyer * 2. Redistributions in binary form must reproduce the above copyright
16 1.2 bouyer * notice, this list of conditions and the following disclaimer in the
17 1.2 bouyer * documentation and/or other materials provided with the distribution.
18 1.2 bouyer *
19 1.2 bouyer * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
20 1.2 bouyer * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
21 1.2 bouyer * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
22 1.2 bouyer * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
23 1.2 bouyer * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
24 1.2 bouyer * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
25 1.2 bouyer * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
26 1.2 bouyer * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
27 1.2 bouyer * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
28 1.2 bouyer * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
29 1.2 bouyer * POSSIBILITY OF SUCH DAMAGE.
30 1.2 bouyer */
31 1.2 bouyer
32 1.2 bouyer #include <sys/cdefs.h>
33 1.24 bouyer __KERNEL_RCSID(0, "$NetBSD: xen_intr.c,v 1.24 2020/04/25 15:26:17 bouyer Exp $");
34 1.19 ad
35 1.19 ad #include "opt_multiprocessor.h"
36 1.2 bouyer
37 1.2 bouyer #include <sys/param.h>
38 1.10 cherry #include <sys/kernel.h>
39 1.10 cherry #include <sys/kmem.h>
40 1.11 cherry #include <sys/cpu.h>
41 1.19 ad #include <sys/device.h>
42 1.11 cherry
43 1.24 bouyer #include <xen/intr.h>
44 1.10 cherry #include <xen/evtchn.h>
45 1.15 cherry #include <xen/xenfunc.h>
46 1.2 bouyer
47 1.12 cherry #include <uvm/uvm.h>
48 1.12 cherry
49 1.2 bouyer #include <machine/cpu.h>
50 1.2 bouyer #include <machine/intr.h>
51 1.2 bouyer
52 1.11 cherry #include "acpica.h"
53 1.11 cherry #include "ioapic.h"
54 1.11 cherry #include "lapic.h"
55 1.11 cherry #include "pci.h"
56 1.11 cherry
57 1.11 cherry #if NACPICA > 0
58 1.11 cherry #include <dev/acpi/acpivar.h>
59 1.11 cherry #endif
60 1.11 cherry
61 1.11 cherry #if NIOAPIC > 0 || NACPICA > 0
62 1.11 cherry #include <machine/i82093var.h>
63 1.11 cherry #endif
64 1.11 cherry
65 1.11 cherry #if NLAPIC > 0
66 1.11 cherry #include <machine/i82489var.h>
67 1.11 cherry #endif
68 1.11 cherry
69 1.11 cherry #if NPCI > 0
70 1.11 cherry #include <dev/pci/ppbreg.h>
71 1.23 jdolecek #ifdef __HAVE_PCI_MSI_MSIX
72 1.23 jdolecek #include <x86/pci/msipic.h>
73 1.23 jdolecek #include <x86/pci/pci_msi_machdep.h>
74 1.23 jdolecek #endif
75 1.11 cherry #endif
76 1.11 cherry
77 1.19 ad #if defined(MULTIPROCESSOR)
78 1.19 ad static const char *xen_ipi_names[XEN_NIPIS] = XEN_IPI_NAMES;
79 1.19 ad #endif
80 1.19 ad
81 1.17 cherry #if !defined(XENPVHVM)
82 1.2 bouyer void
83 1.16 bouyer x86_disable_intr(void)
84 1.2 bouyer {
85 1.16 bouyer curcpu()->ci_vcpu->evtchn_upcall_mask = 1;
86 1.16 bouyer x86_lfence();
87 1.2 bouyer }
88 1.2 bouyer
89 1.2 bouyer void
90 1.16 bouyer x86_enable_intr(void)
91 1.2 bouyer {
92 1.16 bouyer volatile struct vcpu_info *_vci = curcpu()->ci_vcpu;
93 1.16 bouyer __insn_barrier();
94 1.16 bouyer _vci->evtchn_upcall_mask = 0;
95 1.16 bouyer x86_lfence(); /* unmask then check (avoid races) */
96 1.16 bouyer if (__predict_false(_vci->evtchn_upcall_pending))
97 1.16 bouyer hypervisor_force_callback();
98 1.2 bouyer }
99 1.2 bouyer
100 1.17 cherry #endif /* !XENPVHVM */
101 1.17 cherry
102 1.2 bouyer u_long
103 1.11 cherry xen_read_psl(void)
104 1.2 bouyer {
105 1.2 bouyer
106 1.4 cegger return (curcpu()->ci_vcpu->evtchn_upcall_mask);
107 1.2 bouyer }
108 1.2 bouyer
109 1.2 bouyer void
110 1.11 cherry xen_write_psl(u_long psl)
111 1.2 bouyer {
112 1.4 cegger struct cpu_info *ci = curcpu();
113 1.2 bouyer
114 1.4 cegger ci->ci_vcpu->evtchn_upcall_mask = psl;
115 1.9 jym xen_rmb();
116 1.4 cegger if (ci->ci_vcpu->evtchn_upcall_pending && psl == 0) {
117 1.2 bouyer hypervisor_force_callback();
118 1.2 bouyer }
119 1.2 bouyer }
120 1.10 cherry
121 1.10 cherry void *
122 1.10 cherry xen_intr_establish(int legacy_irq, struct pic *pic, int pin,
123 1.10 cherry int type, int level, int (*handler)(void *), void *arg,
124 1.10 cherry bool known_mpsafe)
125 1.10 cherry {
126 1.10 cherry
127 1.10 cherry return xen_intr_establish_xname(legacy_irq, pic, pin, type, level,
128 1.10 cherry handler, arg, known_mpsafe, "XEN");
129 1.10 cherry }
130 1.10 cherry
131 1.10 cherry void *
132 1.10 cherry xen_intr_establish_xname(int legacy_irq, struct pic *pic, int pin,
133 1.10 cherry int type, int level, int (*handler)(void *), void *arg,
134 1.10 cherry bool known_mpsafe, const char *xname)
135 1.10 cherry {
136 1.10 cherry const char *intrstr;
137 1.10 cherry char intrstr_buf[INTRIDBUF];
138 1.10 cherry
139 1.10 cherry if (pic->pic_type == PIC_XEN) {
140 1.10 cherry struct intrhand *rih;
141 1.10 cherry
142 1.10 cherry intrstr = intr_create_intrid(legacy_irq, pic, pin, intrstr_buf,
143 1.10 cherry sizeof(intrstr_buf));
144 1.10 cherry
145 1.24 bouyer rih = event_set_handler(pin, handler, arg, level,
146 1.24 bouyer intrstr, xname, known_mpsafe, true);
147 1.10 cherry
148 1.10 cherry if (rih == NULL) {
149 1.24 bouyer printf("%s: can't establish interrupt\n", __func__);
150 1.10 cherry return NULL;
151 1.10 cherry }
152 1.10 cherry
153 1.10 cherry return rih;
154 1.10 cherry } /* Else we assume pintr */
155 1.10 cherry
156 1.14 cherry #if (NPCI > 0 || NISA > 0) && defined(XENPV) /* XXX: support PVHVM pirq */
157 1.10 cherry struct pintrhand *pih;
158 1.10 cherry int gsi;
159 1.10 cherry int vector, evtchn;
160 1.10 cherry
161 1.10 cherry KASSERTMSG(legacy_irq == -1 || (0 <= legacy_irq && legacy_irq < NUM_XEN_IRQS),
162 1.10 cherry "bad legacy IRQ value: %d", legacy_irq);
163 1.10 cherry KASSERTMSG(!(legacy_irq == -1 && pic == &i8259_pic),
164 1.10 cherry "non-legacy IRQon i8259 ");
165 1.10 cherry
166 1.10 cherry gsi = xen_pic_to_gsi(pic, pin);
167 1.10 cherry
168 1.10 cherry intrstr = intr_create_intrid(gsi, pic, pin, intrstr_buf,
169 1.10 cherry sizeof(intrstr_buf));
170 1.10 cherry
171 1.10 cherry vector = xen_vec_alloc(gsi);
172 1.10 cherry
173 1.10 cherry if (irq2port[gsi] == 0) {
174 1.10 cherry extern struct cpu_info phycpu_info_primary; /* XXX */
175 1.10 cherry struct cpu_info *ci = &phycpu_info_primary;
176 1.10 cherry
177 1.10 cherry pic->pic_addroute(pic, ci, pin, vector, type);
178 1.10 cherry
179 1.10 cherry evtchn = bind_pirq_to_evtch(gsi);
180 1.10 cherry KASSERT(evtchn > 0);
181 1.10 cherry KASSERT(evtchn < NR_EVENT_CHANNELS);
182 1.10 cherry irq2port[gsi] = evtchn + 1;
183 1.10 cherry xen_atomic_set_bit(&ci->ci_evtmask[0], evtchn);
184 1.10 cherry } else {
185 1.10 cherry /*
186 1.10 cherry * Shared interrupt - we can't rebind.
187 1.10 cherry * The port is shared instead.
188 1.10 cherry */
189 1.10 cherry evtchn = irq2port[gsi] - 1;
190 1.10 cherry }
191 1.10 cherry
192 1.10 cherry pih = pirq_establish(gsi, evtchn, handler, arg, level,
193 1.21 jdolecek intrstr, xname, known_mpsafe);
194 1.24 bouyer pih->pic = pic;
195 1.10 cherry return pih;
196 1.10 cherry #endif /* NPCI > 0 || NISA > 0 */
197 1.10 cherry
198 1.10 cherry /* FALLTHROUGH */
199 1.10 cherry return NULL;
200 1.10 cherry }
201 1.10 cherry
202 1.10 cherry /*
203 1.18 thorpej * Mask an interrupt source.
204 1.18 thorpej */
205 1.18 thorpej void
206 1.18 thorpej xen_intr_mask(struct intrhand *ih)
207 1.18 thorpej {
208 1.18 thorpej /* XXX */
209 1.18 thorpej panic("xen_intr_mask: not yet implemented.");
210 1.18 thorpej }
211 1.18 thorpej
212 1.18 thorpej /*
213 1.18 thorpej * Unmask an interrupt source.
214 1.18 thorpej */
215 1.18 thorpej void
216 1.18 thorpej xen_intr_unmask(struct intrhand *ih)
217 1.18 thorpej {
218 1.18 thorpej /* XXX */
219 1.18 thorpej panic("xen_intr_unmask: not yet implemented.");
220 1.18 thorpej }
221 1.18 thorpej
222 1.18 thorpej /*
223 1.10 cherry * Deregister an interrupt handler.
224 1.10 cherry */
225 1.10 cherry void
226 1.10 cherry xen_intr_disestablish(struct intrhand *ih)
227 1.10 cherry {
228 1.10 cherry
229 1.24 bouyer if (ih->ih_pic->pic_type == PIC_XEN) {
230 1.10 cherry event_remove_handler(ih->ih_pin, ih->ih_realfun,
231 1.10 cherry ih->ih_realarg);
232 1.24 bouyer /* event_remove_handler frees ih */
233 1.10 cherry return;
234 1.10 cherry }
235 1.10 cherry #if defined(DOM0OPS)
236 1.10 cherry /*
237 1.10 cherry * Cache state, to prevent a use after free situation with
238 1.10 cherry * ih.
239 1.10 cherry */
240 1.10 cherry
241 1.10 cherry struct pintrhand *pih = (struct pintrhand *)ih;
242 1.10 cherry
243 1.10 cherry int pirq = pih->pirq;
244 1.10 cherry int port = pih->evtch;
245 1.10 cherry KASSERT(irq2port[pirq] != 0);
246 1.10 cherry
247 1.10 cherry pirq_disestablish(pih);
248 1.10 cherry
249 1.10 cherry if (evtsource[port] == NULL) {
250 1.10 cherry /*
251 1.10 cherry * Last handler was removed by
252 1.10 cherry * event_remove_handler().
253 1.10 cherry *
254 1.10 cherry * We can safely unbind the pirq now.
255 1.10 cherry */
256 1.10 cherry
257 1.10 cherry port = unbind_pirq_from_evtch(pirq);
258 1.10 cherry KASSERT(port == pih->evtch);
259 1.10 cherry irq2port[pirq] = 0;
260 1.10 cherry }
261 1.10 cherry #endif
262 1.10 cherry return;
263 1.10 cherry }
264 1.10 cherry
265 1.11 cherry /* MI interface for kern_cpu.c */
266 1.11 cherry void xen_cpu_intr_redistribute(void);
267 1.11 cherry
268 1.11 cherry void
269 1.11 cherry xen_cpu_intr_redistribute(void)
270 1.11 cherry {
271 1.11 cherry KASSERT(mutex_owned(&cpu_lock));
272 1.11 cherry KASSERT(mp_online);
273 1.11 cherry
274 1.11 cherry return;
275 1.11 cherry }
276 1.11 cherry
277 1.11 cherry /* MD - called by x86/cpu.c */
278 1.12 cherry #if defined(INTRSTACKSIZE)
279 1.12 cherry static inline bool
280 1.12 cherry redzone_const_or_false(bool x)
281 1.12 cherry {
282 1.12 cherry #ifdef DIAGNOSTIC
283 1.12 cherry return x;
284 1.12 cherry #else
285 1.12 cherry return false;
286 1.12 cherry #endif /* !DIAGNOSTIC */
287 1.12 cherry }
288 1.12 cherry
289 1.12 cherry static inline int
290 1.12 cherry redzone_const_or_zero(int x)
291 1.12 cherry {
292 1.12 cherry return redzone_const_or_false(true) ? x : 0;
293 1.12 cherry }
294 1.12 cherry #endif
295 1.12 cherry
296 1.14 cherry void xen_cpu_intr_init(struct cpu_info *);
297 1.11 cherry void
298 1.14 cherry xen_cpu_intr_init(struct cpu_info *ci)
299 1.11 cherry {
300 1.24 bouyer #if defined(__HAVE_PREEMPTION)
301 1.24 bouyer x86_init_preempt(ci);
302 1.24 bouyer #endif
303 1.24 bouyer x86_intr_calculatemasks(ci);
304 1.11 cherry
305 1.11 cherry #if defined(INTRSTACKSIZE)
306 1.11 cherry vaddr_t istack;
307 1.11 cherry
308 1.11 cherry /*
309 1.11 cherry * If the red zone is activated, protect both the top and
310 1.11 cherry * the bottom of the stack with an unmapped page.
311 1.11 cherry */
312 1.11 cherry istack = uvm_km_alloc(kernel_map,
313 1.11 cherry INTRSTACKSIZE + redzone_const_or_zero(2 * PAGE_SIZE), 0,
314 1.11 cherry UVM_KMF_WIRED|UVM_KMF_ZERO);
315 1.11 cherry if (redzone_const_or_false(true)) {
316 1.11 cherry pmap_kremove(istack, PAGE_SIZE);
317 1.11 cherry pmap_kremove(istack + INTRSTACKSIZE + PAGE_SIZE, PAGE_SIZE);
318 1.11 cherry pmap_update(pmap_kernel());
319 1.11 cherry }
320 1.11 cherry
321 1.11 cherry /*
322 1.11 cherry * 33 used to be 1. Arbitrarily reserve 32 more register_t's
323 1.11 cherry * of space for ddb(4) to examine some subroutine arguments
324 1.11 cherry * and to hunt for the next stack frame.
325 1.11 cherry */
326 1.11 cherry ci->ci_intrstack = (char *)istack + redzone_const_or_zero(PAGE_SIZE) +
327 1.11 cherry INTRSTACKSIZE - 33 * sizeof(register_t);
328 1.11 cherry #endif
329 1.11 cherry
330 1.19 ad #ifdef MULTIPROCESSOR
331 1.24 bouyer for (int i = 0; i < XEN_NIPIS; i++)
332 1.19 ad evcnt_attach_dynamic(&ci->ci_ipi_events[i], EVCNT_TYPE_MISC,
333 1.19 ad NULL, device_xname(ci->ci_dev), xen_ipi_names[i]);
334 1.19 ad #endif
335 1.19 ad
336 1.11 cherry ci->ci_idepth = -1;
337 1.11 cherry }
338 1.11 cherry
339 1.11 cherry /*
340 1.11 cherry * Everything below from here is duplicated from x86/intr.c
341 1.11 cherry * When intr.c and xen_intr.c are unified, these will need to be
342 1.11 cherry * merged.
343 1.11 cherry */
344 1.11 cherry
345 1.11 cherry u_int xen_cpu_intr_count(struct cpu_info *ci);
346 1.11 cherry
347 1.11 cherry u_int
348 1.11 cherry xen_cpu_intr_count(struct cpu_info *ci)
349 1.11 cherry {
350 1.11 cherry
351 1.11 cherry KASSERT(ci->ci_nintrhand >= 0);
352 1.11 cherry
353 1.11 cherry return ci->ci_nintrhand;
354 1.11 cherry }
355 1.11 cherry
356 1.11 cherry static const char *
357 1.11 cherry xen_intr_string(int port, char *buf, size_t len, struct pic *pic)
358 1.11 cherry {
359 1.11 cherry KASSERT(pic->pic_type == PIC_XEN);
360 1.11 cherry
361 1.11 cherry KASSERT(port >= 0);
362 1.11 cherry KASSERT(port < NR_EVENT_CHANNELS);
363 1.11 cherry
364 1.24 bouyer snprintf(buf, len, "%s chan %d", pic->pic_name, port);
365 1.11 cherry
366 1.11 cherry return buf;
367 1.11 cherry }
368 1.11 cherry
369 1.11 cherry static const char *
370 1.11 cherry legacy_intr_string(int ih, char *buf, size_t len, struct pic *pic)
371 1.11 cherry {
372 1.11 cherry int legacy_irq;
373 1.11 cherry
374 1.11 cherry KASSERT(pic->pic_type == PIC_I8259);
375 1.11 cherry #if NLAPIC > 0
376 1.11 cherry KASSERT(APIC_IRQ_ISLEGACY(ih));
377 1.11 cherry
378 1.11 cherry legacy_irq = APIC_IRQ_LEGACY_IRQ(ih);
379 1.11 cherry #else
380 1.11 cherry legacy_irq = ih;
381 1.11 cherry #endif
382 1.11 cherry KASSERT(legacy_irq >= 0 && legacy_irq < 16);
383 1.11 cherry
384 1.11 cherry snprintf(buf, len, "%s pin %d", pic->pic_name, legacy_irq);
385 1.11 cherry
386 1.11 cherry return buf;
387 1.11 cherry }
388 1.11 cherry
389 1.14 cherry const char * xintr_string(intr_handle_t ih, char *buf, size_t len);
390 1.14 cherry
391 1.11 cherry const char *
392 1.14 cherry xintr_string(intr_handle_t ih, char *buf, size_t len)
393 1.11 cherry {
394 1.11 cherry #if NIOAPIC > 0
395 1.11 cherry struct ioapic_softc *pic;
396 1.11 cherry #endif
397 1.11 cherry
398 1.11 cherry if (ih == 0)
399 1.11 cherry panic("%s: bogus handle 0x%" PRIx64, __func__, ih);
400 1.11 cherry
401 1.11 cherry #if NIOAPIC > 0
402 1.11 cherry if (ih & APIC_INT_VIA_APIC) {
403 1.11 cherry pic = ioapic_find(APIC_IRQ_APIC(ih));
404 1.11 cherry if (pic != NULL) {
405 1.11 cherry snprintf(buf, len, "%s pin %d",
406 1.11 cherry device_xname(pic->sc_dev), APIC_IRQ_PIN(ih));
407 1.11 cherry } else {
408 1.11 cherry snprintf(buf, len,
409 1.11 cherry "apic %d int %d (irq %d)",
410 1.11 cherry APIC_IRQ_APIC(ih),
411 1.11 cherry APIC_IRQ_PIN(ih),
412 1.11 cherry APIC_IRQ_LEGACY_IRQ(ih));
413 1.11 cherry }
414 1.11 cherry } else
415 1.11 cherry snprintf(buf, len, "irq %d", APIC_IRQ_LEGACY_IRQ(ih));
416 1.11 cherry
417 1.11 cherry #elif NLAPIC > 0
418 1.14 cherry snprintf(buf, len, "irq %d", APIC_IRQ_LEGACY_IRQ(ih));
419 1.11 cherry #else
420 1.11 cherry snprintf(buf, len, "irq %d", (int) ih);
421 1.11 cherry #endif
422 1.11 cherry return buf;
423 1.11 cherry
424 1.11 cherry }
425 1.11 cherry
426 1.11 cherry /*
427 1.11 cherry * Create an interrupt id such as "ioapic0 pin 9". This interrupt id is used
428 1.11 cherry * by MI code and intrctl(8).
429 1.11 cherry */
430 1.14 cherry const char * xen_intr_create_intrid(int legacy_irq, struct pic *pic,
431 1.14 cherry int pin, char *buf, size_t len);
432 1.14 cherry
433 1.11 cherry const char *
434 1.14 cherry xen_intr_create_intrid(int legacy_irq, struct pic *pic, int pin, char *buf, size_t len)
435 1.11 cherry {
436 1.11 cherry int ih = 0;
437 1.11 cherry
438 1.24 bouyer #if NPCI > 0 && defined(XENPV)
439 1.11 cherry #if defined(__HAVE_PCI_MSI_MSIX)
440 1.11 cherry if ((pic->pic_type == PIC_MSI) || (pic->pic_type == PIC_MSIX)) {
441 1.11 cherry uint64_t pih;
442 1.11 cherry int dev, vec;
443 1.11 cherry
444 1.11 cherry dev = msipic_get_devid(pic);
445 1.11 cherry vec = pin;
446 1.11 cherry pih = __SHIFTIN((uint64_t)dev, MSI_INT_DEV_MASK)
447 1.11 cherry | __SHIFTIN((uint64_t)vec, MSI_INT_VEC_MASK)
448 1.11 cherry | APIC_INT_VIA_MSI;
449 1.11 cherry if (pic->pic_type == PIC_MSI)
450 1.11 cherry MSI_INT_MAKE_MSI(pih);
451 1.11 cherry else if (pic->pic_type == PIC_MSIX)
452 1.11 cherry MSI_INT_MAKE_MSIX(pih);
453 1.11 cherry
454 1.11 cherry return x86_pci_msi_string(NULL, pih, buf, len);
455 1.11 cherry }
456 1.11 cherry #endif /* __HAVE_PCI_MSI_MSIX */
457 1.11 cherry #endif
458 1.11 cherry
459 1.11 cherry if (pic->pic_type == PIC_XEN) {
460 1.11 cherry ih = pin; /* Port == pin */
461 1.11 cherry return xen_intr_string(pin, buf, len, pic);
462 1.11 cherry }
463 1.11 cherry
464 1.11 cherry /*
465 1.11 cherry * If the device is pci, "legacy_irq" is alway -1. Least 8 bit of "ih"
466 1.11 cherry * is only used in intr_string() to show the irq number.
467 1.11 cherry * If the device is "legacy"(such as floppy), it should not use
468 1.11 cherry * intr_string().
469 1.11 cherry */
470 1.11 cherry if (pic->pic_type == PIC_I8259) {
471 1.11 cherry ih = legacy_irq;
472 1.11 cherry return legacy_intr_string(ih, buf, len, pic);
473 1.11 cherry }
474 1.11 cherry
475 1.11 cherry #if NIOAPIC > 0 || NACPICA > 0
476 1.11 cherry ih = ((pic->pic_apicid << APIC_INT_APIC_SHIFT) & APIC_INT_APIC_MASK)
477 1.11 cherry | ((pin << APIC_INT_PIN_SHIFT) & APIC_INT_PIN_MASK);
478 1.11 cherry if (pic->pic_type == PIC_IOAPIC) {
479 1.11 cherry ih |= APIC_INT_VIA_APIC;
480 1.11 cherry }
481 1.11 cherry ih |= pin;
482 1.11 cherry return intr_string(ih, buf, len);
483 1.11 cherry #endif
484 1.11 cherry
485 1.11 cherry return NULL; /* No pic found! */
486 1.11 cherry }
487 1.11 cherry
488 1.23 jdolecek static struct intrsource xen_dummy_intrsource;
489 1.23 jdolecek
490 1.23 jdolecek struct intrsource *
491 1.23 jdolecek xen_intr_allocate_io_intrsource(const char *intrid)
492 1.23 jdolecek {
493 1.23 jdolecek /* Nothing to do, required by MSI code */
494 1.23 jdolecek return &xen_dummy_intrsource;
495 1.23 jdolecek }
496 1.23 jdolecek
497 1.23 jdolecek void
498 1.23 jdolecek xen_intr_free_io_intrsource(const char *intrid)
499 1.23 jdolecek {
500 1.23 jdolecek /* Nothing to do, required by MSI code */
501 1.23 jdolecek }
502 1.23 jdolecek
503 1.24 bouyer #if defined(XENPV)
504 1.14 cherry __strong_alias(x86_read_psl, xen_read_psl);
505 1.14 cherry __strong_alias(x86_write_psl, xen_write_psl);
506 1.14 cherry
507 1.14 cherry __strong_alias(intr_string, xintr_string);
508 1.14 cherry __strong_alias(intr_create_intrid, xen_intr_create_intrid);
509 1.14 cherry __strong_alias(intr_establish, xen_intr_establish);
510 1.14 cherry __strong_alias(intr_establish_xname, xen_intr_establish_xname);
511 1.18 thorpej __strong_alias(intr_mask, xen_intr_mask);
512 1.18 thorpej __strong_alias(intr_unmask, xen_intr_unmask);
513 1.14 cherry __strong_alias(intr_disestablish, xen_intr_disestablish);
514 1.14 cherry __strong_alias(cpu_intr_redistribute, xen_cpu_intr_redistribute);
515 1.14 cherry __strong_alias(cpu_intr_count, xen_cpu_intr_count);
516 1.14 cherry __strong_alias(cpu_intr_init, xen_cpu_intr_init);
517 1.23 jdolecek __strong_alias(intr_allocate_io_intrsource, xen_intr_allocate_io_intrsource);
518 1.23 jdolecek __strong_alias(intr_free_io_intrsource, xen_intr_free_io_intrsource);
519 1.24 bouyer #endif /* XENPV */
520