1 // SPDX-License-Identifier: GPL-2.0-only
3 * Copyright 2012 Michael Ellerman, IBM Corporation.
4 * Copyright 2012 Benjamin Herrenschmidt, IBM Corporation.
7 #include <linux/kernel.h>
8 #include <linux/kvm_host.h>
10 #include <linux/gfp.h>
11 #include <linux/anon_inodes.h>
12 #include <linux/spinlock.h>
14 #include <linux/uaccess.h>
15 #include <asm/kvm_book3s.h>
16 #include <asm/kvm_ppc.h>
17 #include <asm/hvcall.h>
19 #include <asm/debugfs.h>
22 #include <linux/seq_file.h>
24 #include "book3s_xics.h"
27 #define XICS_DBG(fmt...) do { } while (0)
29 #define XICS_DBG(fmt...) trace_printk(fmt)
32 #define ENABLE_REALMODE true
33 #define DEBUG_REALMODE false
39 * Each ICS has a spin lock protecting the information about the IRQ
40 * sources and avoiding simultaneous deliveries of the same interrupt.
42 * ICP operations are done via a single compare & swap transaction
43 * (most ICP state fits in the union kvmppc_icp_state)
50 * - To speed up resends, keep a bitmap of "resend" set bits in the
53 * - Speed up server# -> ICP lookup (array ? hash table ?)
55 * - Make ICS lockless as well, or at least a per-interrupt lock or hashed
56 * locks array to improve scalability
59 /* -- ICS routines -- */
61 static void icp_deliver_irq(struct kvmppc_xics
*xics
, struct kvmppc_icp
*icp
,
62 u32 new_irq
, bool check_resend
);
65 * Return value ideally indicates how the interrupt was handled, but no
66 * callers look at it (given that we don't implement KVM_IRQ_LINE_STATUS),
69 static int ics_deliver_irq(struct kvmppc_xics
*xics
, u32 irq
, u32 level
)
71 struct ics_irq_state
*state
;
72 struct kvmppc_ics
*ics
;
76 XICS_DBG("ics deliver %#x (level: %d)\n", irq
, level
);
78 ics
= kvmppc_xics_find_ics(xics
, irq
, &src
);
80 XICS_DBG("ics_deliver_irq: IRQ 0x%06x not found !\n", irq
);
83 state
= &ics
->irq_state
[src
];
87 if (level
== KVM_INTERRUPT_SET_LEVEL
|| level
== KVM_INTERRUPT_SET
)
89 else if (level
== KVM_INTERRUPT_UNSET
)
92 * Take other values the same as 1, consistent with original code.
96 if (!state
->lsi
&& level
== 0) /* noop for MSI */
100 pq_old
= state
->pq_state
;
103 if (pq_old
& PQ_PRESENTED
)
104 /* Setting already set LSI ... */
107 pq_new
= PQ_PRESENTED
;
111 pq_new
= ((pq_old
<< 1) & 3) | PQ_PRESENTED
;
112 } while (cmpxchg(&state
->pq_state
, pq_old
, pq_new
) != pq_old
);
114 /* Test P=1, Q=0, this is the only case where we present */
115 if (pq_new
== PQ_PRESENTED
)
116 icp_deliver_irq(xics
, NULL
, irq
, false);
118 /* Record which CPU this arrived on for passed-through interrupts */
120 state
->intr_cpu
= raw_smp_processor_id();
125 static void ics_check_resend(struct kvmppc_xics
*xics
, struct kvmppc_ics
*ics
,
126 struct kvmppc_icp
*icp
)
130 for (i
= 0; i
< KVMPPC_XICS_IRQ_PER_ICS
; i
++) {
131 struct ics_irq_state
*state
= &ics
->irq_state
[i
];
133 XICS_DBG("resend %#x prio %#x\n", state
->number
,
135 icp_deliver_irq(xics
, icp
, state
->number
, true);
140 static bool write_xive(struct kvmppc_xics
*xics
, struct kvmppc_ics
*ics
,
141 struct ics_irq_state
*state
,
142 u32 server
, u32 priority
, u32 saved_priority
)
147 local_irq_save(flags
);
148 arch_spin_lock(&ics
->lock
);
150 state
->server
= server
;
151 state
->priority
= priority
;
152 state
->saved_priority
= saved_priority
;
154 if ((state
->masked_pending
|| state
->resend
) && priority
!= MASKED
) {
155 state
->masked_pending
= 0;
160 arch_spin_unlock(&ics
->lock
);
161 local_irq_restore(flags
);
166 int kvmppc_xics_set_xive(struct kvm
*kvm
, u32 irq
, u32 server
, u32 priority
)
168 struct kvmppc_xics
*xics
= kvm
->arch
.xics
;
169 struct kvmppc_icp
*icp
;
170 struct kvmppc_ics
*ics
;
171 struct ics_irq_state
*state
;
177 ics
= kvmppc_xics_find_ics(xics
, irq
, &src
);
180 state
= &ics
->irq_state
[src
];
182 icp
= kvmppc_xics_find_server(kvm
, server
);
186 XICS_DBG("set_xive %#x server %#x prio %#x MP:%d RS:%d\n",
187 irq
, server
, priority
,
188 state
->masked_pending
, state
->resend
);
190 if (write_xive(xics
, ics
, state
, server
, priority
, priority
))
191 icp_deliver_irq(xics
, icp
, irq
, false);
196 int kvmppc_xics_get_xive(struct kvm
*kvm
, u32 irq
, u32
*server
, u32
*priority
)
198 struct kvmppc_xics
*xics
= kvm
->arch
.xics
;
199 struct kvmppc_ics
*ics
;
200 struct ics_irq_state
*state
;
207 ics
= kvmppc_xics_find_ics(xics
, irq
, &src
);
210 state
= &ics
->irq_state
[src
];
212 local_irq_save(flags
);
213 arch_spin_lock(&ics
->lock
);
214 *server
= state
->server
;
215 *priority
= state
->priority
;
216 arch_spin_unlock(&ics
->lock
);
217 local_irq_restore(flags
);
222 int kvmppc_xics_int_on(struct kvm
*kvm
, u32 irq
)
224 struct kvmppc_xics
*xics
= kvm
->arch
.xics
;
225 struct kvmppc_icp
*icp
;
226 struct kvmppc_ics
*ics
;
227 struct ics_irq_state
*state
;
233 ics
= kvmppc_xics_find_ics(xics
, irq
, &src
);
236 state
= &ics
->irq_state
[src
];
238 icp
= kvmppc_xics_find_server(kvm
, state
->server
);
242 if (write_xive(xics
, ics
, state
, state
->server
, state
->saved_priority
,
243 state
->saved_priority
))
244 icp_deliver_irq(xics
, icp
, irq
, false);
249 int kvmppc_xics_int_off(struct kvm
*kvm
, u32 irq
)
251 struct kvmppc_xics
*xics
= kvm
->arch
.xics
;
252 struct kvmppc_ics
*ics
;
253 struct ics_irq_state
*state
;
259 ics
= kvmppc_xics_find_ics(xics
, irq
, &src
);
262 state
= &ics
->irq_state
[src
];
264 write_xive(xics
, ics
, state
, state
->server
, MASKED
, state
->priority
);
269 /* -- ICP routines, including hcalls -- */
271 static inline bool icp_try_update(struct kvmppc_icp
*icp
,
272 union kvmppc_icp_state old
,
273 union kvmppc_icp_state
new,
278 /* Calculate new output value */
279 new.out_ee
= (new.xisr
&& (new.pending_pri
< new.cppr
));
281 /* Attempt atomic update */
282 success
= cmpxchg64(&icp
->state
.raw
, old
.raw
, new.raw
) == old
.raw
;
286 XICS_DBG("UPD [%04lx] - C:%02x M:%02x PP: %02x PI:%06x R:%d O:%d\n",
288 old
.cppr
, old
.mfrr
, old
.pending_pri
, old
.xisr
,
289 old
.need_resend
, old
.out_ee
);
290 XICS_DBG("UPD - C:%02x M:%02x PP: %02x PI:%06x R:%d O:%d\n",
291 new.cppr
, new.mfrr
, new.pending_pri
, new.xisr
,
292 new.need_resend
, new.out_ee
);
294 * Check for output state update
296 * Note that this is racy since another processor could be updating
297 * the state already. This is why we never clear the interrupt output
298 * here, we only ever set it. The clear only happens prior to doing
299 * an update and only by the processor itself. Currently we do it
300 * in Accept (H_XIRR) and Up_Cppr (H_XPPR).
302 * We also do not try to figure out whether the EE state has changed,
303 * we unconditionally set it if the new state calls for it. The reason
304 * for that is that we opportunistically remove the pending interrupt
305 * flag when raising CPPR, so we need to set it back here if an
306 * interrupt is still pending.
309 kvmppc_book3s_queue_irqprio(icp
->vcpu
,
310 BOOK3S_INTERRUPT_EXTERNAL
);
312 kvmppc_fast_vcpu_kick(icp
->vcpu
);
318 static void icp_check_resend(struct kvmppc_xics
*xics
,
319 struct kvmppc_icp
*icp
)
323 /* Order this load with the test for need_resend in the caller */
325 for_each_set_bit(icsid
, icp
->resend_map
, xics
->max_icsid
+ 1) {
326 struct kvmppc_ics
*ics
= xics
->ics
[icsid
];
328 if (!test_and_clear_bit(icsid
, icp
->resend_map
))
332 ics_check_resend(xics
, ics
, icp
);
336 static bool icp_try_to_deliver(struct kvmppc_icp
*icp
, u32 irq
, u8 priority
,
339 union kvmppc_icp_state old_state
, new_state
;
342 XICS_DBG("try deliver %#x(P:%#x) to server %#lx\n", irq
, priority
,
346 old_state
= new_state
= READ_ONCE(icp
->state
);
350 /* See if we can deliver */
351 success
= new_state
.cppr
> priority
&&
352 new_state
.mfrr
> priority
&&
353 new_state
.pending_pri
> priority
;
356 * If we can, check for a rejection and perform the
360 *reject
= new_state
.xisr
;
361 new_state
.xisr
= irq
;
362 new_state
.pending_pri
= priority
;
365 * If we failed to deliver we set need_resend
366 * so a subsequent CPPR state change causes us
367 * to try a new delivery.
369 new_state
.need_resend
= true;
372 } while (!icp_try_update(icp
, old_state
, new_state
, false));
377 static void icp_deliver_irq(struct kvmppc_xics
*xics
, struct kvmppc_icp
*icp
,
378 u32 new_irq
, bool check_resend
)
380 struct ics_irq_state
*state
;
381 struct kvmppc_ics
*ics
;
387 * This is used both for initial delivery of an interrupt and
388 * for subsequent rejection.
390 * Rejection can be racy vs. resends. We have evaluated the
391 * rejection in an atomic ICP transaction which is now complete,
392 * so potentially the ICP can already accept the interrupt again.
394 * So we need to retry the delivery. Essentially the reject path
395 * boils down to a failed delivery. Always.
397 * Now the interrupt could also have moved to a different target,
398 * thus we may need to re-do the ICP lookup as well
402 /* Get the ICS state and lock it */
403 ics
= kvmppc_xics_find_ics(xics
, new_irq
, &src
);
405 XICS_DBG("icp_deliver_irq: IRQ 0x%06x not found !\n", new_irq
);
408 state
= &ics
->irq_state
[src
];
410 /* Get a lock on the ICS */
411 local_irq_save(flags
);
412 arch_spin_lock(&ics
->lock
);
415 if (!icp
|| state
->server
!= icp
->server_num
) {
416 icp
= kvmppc_xics_find_server(xics
->kvm
, state
->server
);
418 pr_warn("icp_deliver_irq: IRQ 0x%06x server 0x%x not found !\n",
419 new_irq
, state
->server
);
428 /* Clear the resend bit of that interrupt */
432 * If masked, bail out
434 * Note: PAPR doesn't mention anything about masked pending
435 * when doing a resend, only when doing a delivery.
437 * However that would have the effect of losing a masked
438 * interrupt that was rejected and isn't consistent with
439 * the whole masked_pending business which is about not
440 * losing interrupts that occur while masked.
442 * I don't differentiate normal deliveries and resends, this
443 * implementation will differ from PAPR and not lose such
446 if (state
->priority
== MASKED
) {
447 XICS_DBG("irq %#x masked pending\n", new_irq
);
448 state
->masked_pending
= 1;
453 * Try the delivery, this will set the need_resend flag
454 * in the ICP as part of the atomic transaction if the
455 * delivery is not possible.
457 * Note that if successful, the new delivery might have itself
458 * rejected an interrupt that was "delivered" before we took the
461 * In this case we do the whole sequence all over again for the
462 * new guy. We cannot assume that the rejected interrupt is less
463 * favored than the new one, and thus doesn't need to be delivered,
464 * because by the time we exit icp_try_to_deliver() the target
465 * processor may well have alrady consumed & completed it, and thus
466 * the rejected interrupt might actually be already acceptable.
468 if (icp_try_to_deliver(icp
, new_irq
, state
->priority
, &reject
)) {
470 * Delivery was successful, did we reject somebody else ?
472 if (reject
&& reject
!= XICS_IPI
) {
473 arch_spin_unlock(&ics
->lock
);
474 local_irq_restore(flags
);
476 check_resend
= false;
481 * We failed to deliver the interrupt we need to set the
482 * resend map bit and mark the ICS state as needing a resend
487 * Make sure when checking resend, we don't miss the resend
488 * if resend_map bit is seen and cleared.
491 set_bit(ics
->icsid
, icp
->resend_map
);
494 * If the need_resend flag got cleared in the ICP some time
495 * between icp_try_to_deliver() atomic update and now, then
496 * we know it might have missed the resend_map bit. So we
500 if (!icp
->state
.need_resend
) {
502 arch_spin_unlock(&ics
->lock
);
503 local_irq_restore(flags
);
504 check_resend
= false;
509 arch_spin_unlock(&ics
->lock
);
510 local_irq_restore(flags
);
513 static void icp_down_cppr(struct kvmppc_xics
*xics
, struct kvmppc_icp
*icp
,
516 union kvmppc_icp_state old_state
, new_state
;
520 * This handles several related states in one operation:
522 * ICP State: Down_CPPR
524 * Load CPPR with new value and if the XISR is 0
525 * then check for resends:
529 * If MFRR is more favored than CPPR, check for IPIs
530 * and notify ICS of a potential resend. This is done
531 * asynchronously (when used in real mode, we will have
534 * We do not handle the complete Check_IPI as documented
535 * here. In the PAPR, this state will be used for both
536 * Set_MFRR and Down_CPPR. However, we know that we aren't
537 * changing the MFRR state here so we don't need to handle
538 * the case of an MFRR causing a reject of a pending irq,
539 * this will have been handled when the MFRR was set in the
542 * Thus we don't have to handle rejects, only resends.
544 * When implementing real mode for HV KVM, resend will lead to
545 * a H_TOO_HARD return and the whole transaction will be handled
549 old_state
= new_state
= READ_ONCE(icp
->state
);
552 new_state
.cppr
= new_cppr
;
555 * Cut down Resend / Check_IPI / IPI
557 * The logic is that we cannot have a pending interrupt
558 * trumped by an IPI at this point (see above), so we
559 * know that either the pending interrupt is already an
560 * IPI (in which case we don't care to override it) or
561 * it's either more favored than us or non existent
563 if (new_state
.mfrr
< new_cppr
&&
564 new_state
.mfrr
<= new_state
.pending_pri
) {
565 WARN_ON(new_state
.xisr
!= XICS_IPI
&&
566 new_state
.xisr
!= 0);
567 new_state
.pending_pri
= new_state
.mfrr
;
568 new_state
.xisr
= XICS_IPI
;
571 /* Latch/clear resend bit */
572 resend
= new_state
.need_resend
;
573 new_state
.need_resend
= 0;
575 } while (!icp_try_update(icp
, old_state
, new_state
, true));
578 * Now handle resend checks. Those are asynchronous to the ICP
579 * state update in HW (ie bus transactions) so we can handle them
580 * separately here too
583 icp_check_resend(xics
, icp
);
586 static noinline
unsigned long kvmppc_h_xirr(struct kvm_vcpu
*vcpu
)
588 union kvmppc_icp_state old_state
, new_state
;
589 struct kvmppc_icp
*icp
= vcpu
->arch
.icp
;
592 /* First, remove EE from the processor */
593 kvmppc_book3s_dequeue_irqprio(icp
->vcpu
, BOOK3S_INTERRUPT_EXTERNAL
);
596 * ICP State: Accept_Interrupt
598 * Return the pending interrupt (if any) along with the
599 * current CPPR, then clear the XISR & set CPPR to the
603 old_state
= new_state
= READ_ONCE(icp
->state
);
605 xirr
= old_state
.xisr
| (((u32
)old_state
.cppr
) << 24);
608 new_state
.cppr
= new_state
.pending_pri
;
609 new_state
.pending_pri
= 0xff;
612 } while (!icp_try_update(icp
, old_state
, new_state
, true));
614 XICS_DBG("h_xirr vcpu %d xirr %#x\n", vcpu
->vcpu_id
, xirr
);
619 static noinline
int kvmppc_h_ipi(struct kvm_vcpu
*vcpu
, unsigned long server
,
622 union kvmppc_icp_state old_state
, new_state
;
623 struct kvmppc_xics
*xics
= vcpu
->kvm
->arch
.xics
;
624 struct kvmppc_icp
*icp
;
629 XICS_DBG("h_ipi vcpu %d to server %lu mfrr %#lx\n",
630 vcpu
->vcpu_id
, server
, mfrr
);
632 icp
= vcpu
->arch
.icp
;
633 local
= icp
->server_num
== server
;
635 icp
= kvmppc_xics_find_server(vcpu
->kvm
, server
);
641 * ICP state: Set_MFRR
643 * If the CPPR is more favored than the new MFRR, then
644 * nothing needs to be rejected as there can be no XISR to
645 * reject. If the MFRR is being made less favored then
646 * there might be a previously-rejected interrupt needing
649 * ICP state: Check_IPI
651 * If the CPPR is less favored, then we might be replacing
652 * an interrupt, and thus need to possibly reject it.
656 * Besides rejecting any pending interrupts, we also
657 * update XISR and pending_pri to mark IPI as pending.
659 * PAPR does not describe this state, but if the MFRR is being
660 * made less favored than its earlier value, there might be
661 * a previously-rejected interrupt needing to be resent.
662 * Ideally, we would want to resend only if
663 * prio(pending_interrupt) < mfrr &&
664 * prio(pending_interrupt) < cppr
665 * where pending interrupt is the one that was rejected. But
666 * we don't have that state, so we simply trigger a resend
667 * whenever the MFRR is made less favored.
670 old_state
= new_state
= READ_ONCE(icp
->state
);
673 new_state
.mfrr
= mfrr
;
678 if (mfrr
< new_state
.cppr
) {
679 /* Reject a pending interrupt if not an IPI */
680 if (mfrr
<= new_state
.pending_pri
) {
681 reject
= new_state
.xisr
;
682 new_state
.pending_pri
= mfrr
;
683 new_state
.xisr
= XICS_IPI
;
687 if (mfrr
> old_state
.mfrr
) {
688 resend
= new_state
.need_resend
;
689 new_state
.need_resend
= 0;
691 } while (!icp_try_update(icp
, old_state
, new_state
, local
));
694 if (reject
&& reject
!= XICS_IPI
)
695 icp_deliver_irq(xics
, icp
, reject
, false);
699 icp_check_resend(xics
, icp
);
704 static int kvmppc_h_ipoll(struct kvm_vcpu
*vcpu
, unsigned long server
)
706 union kvmppc_icp_state state
;
707 struct kvmppc_icp
*icp
;
709 icp
= vcpu
->arch
.icp
;
710 if (icp
->server_num
!= server
) {
711 icp
= kvmppc_xics_find_server(vcpu
->kvm
, server
);
715 state
= READ_ONCE(icp
->state
);
716 kvmppc_set_gpr(vcpu
, 4, ((u32
)state
.cppr
<< 24) | state
.xisr
);
717 kvmppc_set_gpr(vcpu
, 5, state
.mfrr
);
721 static noinline
void kvmppc_h_cppr(struct kvm_vcpu
*vcpu
, unsigned long cppr
)
723 union kvmppc_icp_state old_state
, new_state
;
724 struct kvmppc_xics
*xics
= vcpu
->kvm
->arch
.xics
;
725 struct kvmppc_icp
*icp
= vcpu
->arch
.icp
;
728 XICS_DBG("h_cppr vcpu %d cppr %#lx\n", vcpu
->vcpu_id
, cppr
);
731 * ICP State: Set_CPPR
733 * We can safely compare the new value with the current
734 * value outside of the transaction as the CPPR is only
735 * ever changed by the processor on itself
737 if (cppr
> icp
->state
.cppr
)
738 icp_down_cppr(xics
, icp
, cppr
);
739 else if (cppr
== icp
->state
.cppr
)
745 * The processor is raising its priority, this can result
746 * in a rejection of a pending interrupt:
748 * ICP State: Reject_Current
750 * We can remove EE from the current processor, the update
751 * transaction will set it again if needed
753 kvmppc_book3s_dequeue_irqprio(icp
->vcpu
, BOOK3S_INTERRUPT_EXTERNAL
);
756 old_state
= new_state
= READ_ONCE(icp
->state
);
759 new_state
.cppr
= cppr
;
761 if (cppr
<= new_state
.pending_pri
) {
762 reject
= new_state
.xisr
;
764 new_state
.pending_pri
= 0xff;
767 } while (!icp_try_update(icp
, old_state
, new_state
, true));
770 * Check for rejects. They are handled by doing a new delivery
771 * attempt (see comments in icp_deliver_irq).
773 if (reject
&& reject
!= XICS_IPI
)
774 icp_deliver_irq(xics
, icp
, reject
, false);
777 static int ics_eoi(struct kvm_vcpu
*vcpu
, u32 irq
)
779 struct kvmppc_xics
*xics
= vcpu
->kvm
->arch
.xics
;
780 struct kvmppc_icp
*icp
= vcpu
->arch
.icp
;
781 struct kvmppc_ics
*ics
;
782 struct ics_irq_state
*state
;
787 * ICS EOI handling: For LSI, if P bit is still set, we need to
790 * For MSI, we move Q bit into P (and clear Q). If it is set,
794 ics
= kvmppc_xics_find_ics(xics
, irq
, &src
);
796 XICS_DBG("ios_eoi: IRQ 0x%06x not found !\n", irq
);
799 state
= &ics
->irq_state
[src
];
802 pq_new
= state
->pq_state
;
805 pq_old
= state
->pq_state
;
806 pq_new
= pq_old
>> 1;
807 } while (cmpxchg(&state
->pq_state
, pq_old
, pq_new
) != pq_old
);
809 if (pq_new
& PQ_PRESENTED
)
810 icp_deliver_irq(xics
, icp
, irq
, false);
812 kvm_notify_acked_irq(vcpu
->kvm
, 0, irq
);
817 static noinline
int kvmppc_h_eoi(struct kvm_vcpu
*vcpu
, unsigned long xirr
)
819 struct kvmppc_xics
*xics
= vcpu
->kvm
->arch
.xics
;
820 struct kvmppc_icp
*icp
= vcpu
->arch
.icp
;
821 u32 irq
= xirr
& 0x00ffffff;
823 XICS_DBG("h_eoi vcpu %d eoi %#lx\n", vcpu
->vcpu_id
, xirr
);
828 * Note: If EOI is incorrectly used by SW to lower the CPPR
829 * value (ie more favored), we do not check for rejection of
830 * a pending interrupt, this is a SW error and PAPR specifies
831 * that we don't have to deal with it.
833 * The sending of an EOI to the ICS is handled after the
836 * ICP State: Down_CPPR which we handle
837 * in a separate function as it's shared with H_CPPR.
839 icp_down_cppr(xics
, icp
, xirr
>> 24);
841 /* IPIs have no EOI */
845 return ics_eoi(vcpu
, irq
);
848 int kvmppc_xics_rm_complete(struct kvm_vcpu
*vcpu
, u32 hcall
)
850 struct kvmppc_xics
*xics
= vcpu
->kvm
->arch
.xics
;
851 struct kvmppc_icp
*icp
= vcpu
->arch
.icp
;
853 XICS_DBG("XICS_RM: H_%x completing, act: %x state: %lx tgt: %p\n",
854 hcall
, icp
->rm_action
, icp
->rm_dbgstate
.raw
, icp
->rm_dbgtgt
);
856 if (icp
->rm_action
& XICS_RM_KICK_VCPU
) {
857 icp
->n_rm_kick_vcpu
++;
858 kvmppc_fast_vcpu_kick(icp
->rm_kick_target
);
860 if (icp
->rm_action
& XICS_RM_CHECK_RESEND
) {
861 icp
->n_rm_check_resend
++;
862 icp_check_resend(xics
, icp
->rm_resend_icp
);
864 if (icp
->rm_action
& XICS_RM_NOTIFY_EOI
) {
865 icp
->n_rm_notify_eoi
++;
866 kvm_notify_acked_irq(vcpu
->kvm
, 0, icp
->rm_eoied_irq
);
873 EXPORT_SYMBOL_GPL(kvmppc_xics_rm_complete
);
875 int kvmppc_xics_hcall(struct kvm_vcpu
*vcpu
, u32 req
)
877 struct kvmppc_xics
*xics
= vcpu
->kvm
->arch
.xics
;
881 /* Check if we have an ICP */
882 if (!xics
|| !vcpu
->arch
.icp
)
885 /* These requests don't have real-mode implementations at present */
888 res
= kvmppc_h_xirr(vcpu
);
889 kvmppc_set_gpr(vcpu
, 4, res
);
890 kvmppc_set_gpr(vcpu
, 5, get_tb());
893 rc
= kvmppc_h_ipoll(vcpu
, kvmppc_get_gpr(vcpu
, 4));
897 /* Check for real mode returning too hard */
898 if (xics
->real_mode
&& is_kvmppc_hv_enabled(vcpu
->kvm
))
899 return kvmppc_xics_rm_complete(vcpu
, req
);
903 res
= kvmppc_h_xirr(vcpu
);
904 kvmppc_set_gpr(vcpu
, 4, res
);
907 kvmppc_h_cppr(vcpu
, kvmppc_get_gpr(vcpu
, 4));
910 rc
= kvmppc_h_eoi(vcpu
, kvmppc_get_gpr(vcpu
, 4));
913 rc
= kvmppc_h_ipi(vcpu
, kvmppc_get_gpr(vcpu
, 4),
914 kvmppc_get_gpr(vcpu
, 5));
920 EXPORT_SYMBOL_GPL(kvmppc_xics_hcall
);
923 /* -- Initialisation code etc. -- */
925 static void xics_debugfs_irqmap(struct seq_file
*m
,
926 struct kvmppc_passthru_irqmap
*pimap
)
932 seq_printf(m
, "========\nPIRQ mappings: %d maps\n===========\n",
934 for (i
= 0; i
< pimap
->n_mapped
; i
++) {
935 seq_printf(m
, "r_hwirq=%x, v_hwirq=%x\n",
936 pimap
->mapped
[i
].r_hwirq
, pimap
->mapped
[i
].v_hwirq
);
940 static int xics_debug_show(struct seq_file
*m
, void *private)
942 struct kvmppc_xics
*xics
= m
->private;
943 struct kvm
*kvm
= xics
->kvm
;
944 struct kvm_vcpu
*vcpu
;
947 unsigned long t_rm_kick_vcpu
, t_rm_check_resend
;
948 unsigned long t_rm_notify_eoi
;
949 unsigned long t_reject
, t_check_resend
;
956 t_rm_check_resend
= 0;
960 xics_debugfs_irqmap(m
, kvm
->arch
.pimap
);
962 seq_printf(m
, "=========\nICP state\n=========\n");
964 kvm_for_each_vcpu(i
, vcpu
, kvm
) {
965 struct kvmppc_icp
*icp
= vcpu
->arch
.icp
;
966 union kvmppc_icp_state state
;
971 state
.raw
= READ_ONCE(icp
->state
.raw
);
972 seq_printf(m
, "cpu server %#lx XIRR:%#x PPRI:%#x CPPR:%#x MFRR:%#x OUT:%d NR:%d\n",
973 icp
->server_num
, state
.xisr
,
974 state
.pending_pri
, state
.cppr
, state
.mfrr
,
975 state
.out_ee
, state
.need_resend
);
976 t_rm_kick_vcpu
+= icp
->n_rm_kick_vcpu
;
977 t_rm_notify_eoi
+= icp
->n_rm_notify_eoi
;
978 t_rm_check_resend
+= icp
->n_rm_check_resend
;
979 t_check_resend
+= icp
->n_check_resend
;
980 t_reject
+= icp
->n_reject
;
983 seq_printf(m
, "ICP Guest->Host totals: kick_vcpu=%lu check_resend=%lu notify_eoi=%lu\n",
984 t_rm_kick_vcpu
, t_rm_check_resend
,
986 seq_printf(m
, "ICP Real Mode totals: check_resend=%lu resend=%lu\n",
987 t_check_resend
, t_reject
);
988 for (icsid
= 0; icsid
<= KVMPPC_XICS_MAX_ICS_ID
; icsid
++) {
989 struct kvmppc_ics
*ics
= xics
->ics
[icsid
];
994 seq_printf(m
, "=========\nICS state for ICS 0x%x\n=========\n",
997 local_irq_save(flags
);
998 arch_spin_lock(&ics
->lock
);
1000 for (i
= 0; i
< KVMPPC_XICS_IRQ_PER_ICS
; i
++) {
1001 struct ics_irq_state
*irq
= &ics
->irq_state
[i
];
1003 seq_printf(m
, "irq 0x%06x: server %#x prio %#x save prio %#x pq_state %d resend %d masked pending %d\n",
1004 irq
->number
, irq
->server
, irq
->priority
,
1005 irq
->saved_priority
, irq
->pq_state
,
1006 irq
->resend
, irq
->masked_pending
);
1009 arch_spin_unlock(&ics
->lock
);
1010 local_irq_restore(flags
);
1015 DEFINE_SHOW_ATTRIBUTE(xics_debug
);
1017 static void xics_debugfs_init(struct kvmppc_xics
*xics
)
1021 name
= kasprintf(GFP_KERNEL
, "kvm-xics-%p", xics
);
1023 pr_err("%s: no memory for name\n", __func__
);
1027 xics
->dentry
= debugfs_create_file(name
, 0444, powerpc_debugfs_root
,
1028 xics
, &xics_debug_fops
);
1030 pr_debug("%s: created %s\n", __func__
, name
);
1034 static struct kvmppc_ics
*kvmppc_xics_create_ics(struct kvm
*kvm
,
1035 struct kvmppc_xics
*xics
, int irq
)
1037 struct kvmppc_ics
*ics
;
1040 icsid
= irq
>> KVMPPC_XICS_ICS_SHIFT
;
1042 mutex_lock(&kvm
->lock
);
1044 /* ICS already exists - somebody else got here first */
1045 if (xics
->ics
[icsid
])
1048 /* Create the ICS */
1049 ics
= kzalloc(sizeof(struct kvmppc_ics
), GFP_KERNEL
);
1055 for (i
= 0; i
< KVMPPC_XICS_IRQ_PER_ICS
; i
++) {
1056 ics
->irq_state
[i
].number
= (icsid
<< KVMPPC_XICS_ICS_SHIFT
) | i
;
1057 ics
->irq_state
[i
].priority
= MASKED
;
1058 ics
->irq_state
[i
].saved_priority
= MASKED
;
1061 xics
->ics
[icsid
] = ics
;
1063 if (icsid
> xics
->max_icsid
)
1064 xics
->max_icsid
= icsid
;
1067 mutex_unlock(&kvm
->lock
);
1068 return xics
->ics
[icsid
];
1071 static int kvmppc_xics_create_icp(struct kvm_vcpu
*vcpu
, unsigned long server_num
)
1073 struct kvmppc_icp
*icp
;
1075 if (!vcpu
->kvm
->arch
.xics
)
1078 if (kvmppc_xics_find_server(vcpu
->kvm
, server_num
))
1081 icp
= kzalloc(sizeof(struct kvmppc_icp
), GFP_KERNEL
);
1086 icp
->server_num
= server_num
;
1087 icp
->state
.mfrr
= MASKED
;
1088 icp
->state
.pending_pri
= MASKED
;
1089 vcpu
->arch
.icp
= icp
;
1091 XICS_DBG("created server for vcpu %d\n", vcpu
->vcpu_id
);
1096 u64
kvmppc_xics_get_icp(struct kvm_vcpu
*vcpu
)
1098 struct kvmppc_icp
*icp
= vcpu
->arch
.icp
;
1099 union kvmppc_icp_state state
;
1104 return ((u64
)state
.cppr
<< KVM_REG_PPC_ICP_CPPR_SHIFT
) |
1105 ((u64
)state
.xisr
<< KVM_REG_PPC_ICP_XISR_SHIFT
) |
1106 ((u64
)state
.mfrr
<< KVM_REG_PPC_ICP_MFRR_SHIFT
) |
1107 ((u64
)state
.pending_pri
<< KVM_REG_PPC_ICP_PPRI_SHIFT
);
1110 int kvmppc_xics_set_icp(struct kvm_vcpu
*vcpu
, u64 icpval
)
1112 struct kvmppc_icp
*icp
= vcpu
->arch
.icp
;
1113 struct kvmppc_xics
*xics
= vcpu
->kvm
->arch
.xics
;
1114 union kvmppc_icp_state old_state
, new_state
;
1115 struct kvmppc_ics
*ics
;
1116 u8 cppr
, mfrr
, pending_pri
;
1124 cppr
= icpval
>> KVM_REG_PPC_ICP_CPPR_SHIFT
;
1125 xisr
= (icpval
>> KVM_REG_PPC_ICP_XISR_SHIFT
) &
1126 KVM_REG_PPC_ICP_XISR_MASK
;
1127 mfrr
= icpval
>> KVM_REG_PPC_ICP_MFRR_SHIFT
;
1128 pending_pri
= icpval
>> KVM_REG_PPC_ICP_PPRI_SHIFT
;
1130 /* Require the new state to be internally consistent */
1132 if (pending_pri
!= 0xff)
1134 } else if (xisr
== XICS_IPI
) {
1135 if (pending_pri
!= mfrr
|| pending_pri
>= cppr
)
1138 if (pending_pri
>= mfrr
|| pending_pri
>= cppr
)
1140 ics
= kvmppc_xics_find_ics(xics
, xisr
, &src
);
1146 new_state
.cppr
= cppr
;
1147 new_state
.xisr
= xisr
;
1148 new_state
.mfrr
= mfrr
;
1149 new_state
.pending_pri
= pending_pri
;
1152 * Deassert the CPU interrupt request.
1153 * icp_try_update will reassert it if necessary.
1155 kvmppc_book3s_dequeue_irqprio(icp
->vcpu
, BOOK3S_INTERRUPT_EXTERNAL
);
1158 * Note that if we displace an interrupt from old_state.xisr,
1159 * we don't mark it as rejected. We expect userspace to set
1160 * the state of the interrupt sources to be consistent with
1161 * the ICP states (either before or afterwards, which doesn't
1162 * matter). We do handle resends due to CPPR becoming less
1163 * favoured because that is necessary to end up with a
1164 * consistent state in the situation where userspace restores
1165 * the ICS states before the ICP states.
1168 old_state
= READ_ONCE(icp
->state
);
1170 if (new_state
.mfrr
<= old_state
.mfrr
) {
1172 new_state
.need_resend
= old_state
.need_resend
;
1174 resend
= old_state
.need_resend
;
1175 new_state
.need_resend
= 0;
1177 } while (!icp_try_update(icp
, old_state
, new_state
, false));
1180 icp_check_resend(xics
, icp
);
1185 static int xics_get_source(struct kvmppc_xics
*xics
, long irq
, u64 addr
)
1188 struct kvmppc_ics
*ics
;
1189 struct ics_irq_state
*irqp
;
1190 u64 __user
*ubufp
= (u64 __user
*) addr
;
1193 unsigned long flags
;
1195 ics
= kvmppc_xics_find_ics(xics
, irq
, &idx
);
1199 irqp
= &ics
->irq_state
[idx
];
1200 local_irq_save(flags
);
1201 arch_spin_lock(&ics
->lock
);
1205 prio
= irqp
->priority
;
1206 if (prio
== MASKED
) {
1207 val
|= KVM_XICS_MASKED
;
1208 prio
= irqp
->saved_priority
;
1210 val
|= prio
<< KVM_XICS_PRIORITY_SHIFT
;
1212 val
|= KVM_XICS_LEVEL_SENSITIVE
;
1213 if (irqp
->pq_state
& PQ_PRESENTED
)
1214 val
|= KVM_XICS_PENDING
;
1215 } else if (irqp
->masked_pending
|| irqp
->resend
)
1216 val
|= KVM_XICS_PENDING
;
1218 if (irqp
->pq_state
& PQ_PRESENTED
)
1219 val
|= KVM_XICS_PRESENTED
;
1221 if (irqp
->pq_state
& PQ_QUEUED
)
1222 val
|= KVM_XICS_QUEUED
;
1226 arch_spin_unlock(&ics
->lock
);
1227 local_irq_restore(flags
);
1229 if (!ret
&& put_user(val
, ubufp
))
1235 static int xics_set_source(struct kvmppc_xics
*xics
, long irq
, u64 addr
)
1237 struct kvmppc_ics
*ics
;
1238 struct ics_irq_state
*irqp
;
1239 u64 __user
*ubufp
= (u64 __user
*) addr
;
1244 unsigned long flags
;
1246 if (irq
< KVMPPC_XICS_FIRST_IRQ
|| irq
>= KVMPPC_XICS_NR_IRQS
)
1249 ics
= kvmppc_xics_find_ics(xics
, irq
, &idx
);
1251 ics
= kvmppc_xics_create_ics(xics
->kvm
, xics
, irq
);
1255 irqp
= &ics
->irq_state
[idx
];
1256 if (get_user(val
, ubufp
))
1259 server
= val
& KVM_XICS_DESTINATION_MASK
;
1260 prio
= val
>> KVM_XICS_PRIORITY_SHIFT
;
1261 if (prio
!= MASKED
&&
1262 kvmppc_xics_find_server(xics
->kvm
, server
) == NULL
)
1265 local_irq_save(flags
);
1266 arch_spin_lock(&ics
->lock
);
1267 irqp
->server
= server
;
1268 irqp
->saved_priority
= prio
;
1269 if (val
& KVM_XICS_MASKED
)
1271 irqp
->priority
= prio
;
1273 irqp
->masked_pending
= 0;
1276 if (val
& KVM_XICS_LEVEL_SENSITIVE
)
1278 /* If PENDING, set P in case P is not saved because of old code */
1279 if (val
& KVM_XICS_PRESENTED
|| val
& KVM_XICS_PENDING
)
1280 irqp
->pq_state
|= PQ_PRESENTED
;
1281 if (val
& KVM_XICS_QUEUED
)
1282 irqp
->pq_state
|= PQ_QUEUED
;
1284 arch_spin_unlock(&ics
->lock
);
1285 local_irq_restore(flags
);
1287 if (val
& KVM_XICS_PENDING
)
1288 icp_deliver_irq(xics
, NULL
, irqp
->number
, false);
1293 int kvmppc_xics_set_irq(struct kvm
*kvm
, int irq_source_id
, u32 irq
, int level
,
1296 struct kvmppc_xics
*xics
= kvm
->arch
.xics
;
1300 return ics_deliver_irq(xics
, irq
, level
);
1303 static int xics_set_attr(struct kvm_device
*dev
, struct kvm_device_attr
*attr
)
1305 struct kvmppc_xics
*xics
= dev
->private;
1307 switch (attr
->group
) {
1308 case KVM_DEV_XICS_GRP_SOURCES
:
1309 return xics_set_source(xics
, attr
->attr
, attr
->addr
);
1314 static int xics_get_attr(struct kvm_device
*dev
, struct kvm_device_attr
*attr
)
1316 struct kvmppc_xics
*xics
= dev
->private;
1318 switch (attr
->group
) {
1319 case KVM_DEV_XICS_GRP_SOURCES
:
1320 return xics_get_source(xics
, attr
->attr
, attr
->addr
);
1325 static int xics_has_attr(struct kvm_device
*dev
, struct kvm_device_attr
*attr
)
1327 switch (attr
->group
) {
1328 case KVM_DEV_XICS_GRP_SOURCES
:
1329 if (attr
->attr
>= KVMPPC_XICS_FIRST_IRQ
&&
1330 attr
->attr
< KVMPPC_XICS_NR_IRQS
)
1338 * Called when device fd is closed. kvm->lock is held.
1340 static void kvmppc_xics_release(struct kvm_device
*dev
)
1342 struct kvmppc_xics
*xics
= dev
->private;
1344 struct kvm
*kvm
= xics
->kvm
;
1345 struct kvm_vcpu
*vcpu
;
1347 pr_devel("Releasing xics device\n");
1350 * Since this is the device release function, we know that
1351 * userspace does not have any open fd referring to the
1352 * device. Therefore there can not be any of the device
1353 * attribute set/get functions being executed concurrently,
1354 * and similarly, the connect_vcpu and set/clr_mapped
1355 * functions also cannot be being executed.
1358 debugfs_remove(xics
->dentry
);
1361 * We should clean up the vCPU interrupt presenters first.
1363 kvm_for_each_vcpu(i
, vcpu
, kvm
) {
1365 * Take vcpu->mutex to ensure that no one_reg get/set ioctl
1366 * (i.e. kvmppc_xics_[gs]et_icp) can be done concurrently.
1367 * Holding the vcpu->mutex also means that execution is
1368 * excluded for the vcpu until the ICP was freed. When the vcpu
1369 * can execute again, vcpu->arch.icp and vcpu->arch.irq_type
1370 * have been cleared and the vcpu will not be going into the
1371 * XICS code anymore.
1373 mutex_lock(&vcpu
->mutex
);
1374 kvmppc_xics_free_icp(vcpu
);
1375 mutex_unlock(&vcpu
->mutex
);
1379 kvm
->arch
.xics
= NULL
;
1381 for (i
= 0; i
<= xics
->max_icsid
; i
++) {
1382 kfree(xics
->ics
[i
]);
1383 xics
->ics
[i
] = NULL
;
1386 * A reference of the kvmppc_xics pointer is now kept under
1387 * the xics_device pointer of the machine for reuse. It is
1388 * freed when the VM is destroyed for now until we fix all the
1394 static struct kvmppc_xics
*kvmppc_xics_get_device(struct kvm
*kvm
)
1396 struct kvmppc_xics
**kvm_xics_device
= &kvm
->arch
.xics_device
;
1397 struct kvmppc_xics
*xics
= *kvm_xics_device
;
1400 xics
= kzalloc(sizeof(*xics
), GFP_KERNEL
);
1401 *kvm_xics_device
= xics
;
1403 memset(xics
, 0, sizeof(*xics
));
1409 static int kvmppc_xics_create(struct kvm_device
*dev
, u32 type
)
1411 struct kvmppc_xics
*xics
;
1412 struct kvm
*kvm
= dev
->kvm
;
1414 pr_devel("Creating xics for partition\n");
1416 /* Already there ? */
1420 xics
= kvmppc_xics_get_device(kvm
);
1424 dev
->private = xics
;
1427 kvm
->arch
.xics
= xics
;
1429 #ifdef CONFIG_KVM_BOOK3S_HV_POSSIBLE
1430 if (cpu_has_feature(CPU_FTR_ARCH_206
) &&
1431 cpu_has_feature(CPU_FTR_HVMODE
)) {
1432 /* Enable real mode support */
1433 xics
->real_mode
= ENABLE_REALMODE
;
1434 xics
->real_mode_dbg
= DEBUG_REALMODE
;
1436 #endif /* CONFIG_KVM_BOOK3S_HV_POSSIBLE */
1441 static void kvmppc_xics_init(struct kvm_device
*dev
)
1443 struct kvmppc_xics
*xics
= (struct kvmppc_xics
*)dev
->private;
1445 xics_debugfs_init(xics
);
1448 struct kvm_device_ops kvm_xics_ops
= {
1450 .create
= kvmppc_xics_create
,
1451 .init
= kvmppc_xics_init
,
1452 .release
= kvmppc_xics_release
,
1453 .set_attr
= xics_set_attr
,
1454 .get_attr
= xics_get_attr
,
1455 .has_attr
= xics_has_attr
,
1458 int kvmppc_xics_connect_vcpu(struct kvm_device
*dev
, struct kvm_vcpu
*vcpu
,
1461 struct kvmppc_xics
*xics
= dev
->private;
1464 if (dev
->ops
!= &kvm_xics_ops
)
1466 if (xics
->kvm
!= vcpu
->kvm
)
1468 if (vcpu
->arch
.irq_type
!= KVMPPC_IRQ_DEFAULT
)
1471 r
= kvmppc_xics_create_icp(vcpu
, xcpu
);
1473 vcpu
->arch
.irq_type
= KVMPPC_IRQ_XICS
;
1478 void kvmppc_xics_free_icp(struct kvm_vcpu
*vcpu
)
1480 if (!vcpu
->arch
.icp
)
1482 kfree(vcpu
->arch
.icp
);
1483 vcpu
->arch
.icp
= NULL
;
1484 vcpu
->arch
.irq_type
= KVMPPC_IRQ_DEFAULT
;
1487 void kvmppc_xics_set_mapped(struct kvm
*kvm
, unsigned long irq
,
1488 unsigned long host_irq
)
1490 struct kvmppc_xics
*xics
= kvm
->arch
.xics
;
1491 struct kvmppc_ics
*ics
;
1494 ics
= kvmppc_xics_find_ics(xics
, irq
, &idx
);
1498 ics
->irq_state
[idx
].host_irq
= host_irq
;
1499 ics
->irq_state
[idx
].intr_cpu
= -1;
1501 EXPORT_SYMBOL_GPL(kvmppc_xics_set_mapped
);
1503 void kvmppc_xics_clr_mapped(struct kvm
*kvm
, unsigned long irq
,
1504 unsigned long host_irq
)
1506 struct kvmppc_xics
*xics
= kvm
->arch
.xics
;
1507 struct kvmppc_ics
*ics
;
1510 ics
= kvmppc_xics_find_ics(xics
, irq
, &idx
);
1514 ics
->irq_state
[idx
].host_irq
= 0;
1516 EXPORT_SYMBOL_GPL(kvmppc_xics_clr_mapped
);