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|
/*
* Copyright 2017 Benjamin Herrenschmidt, IBM Corporation
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License, version 2, as
* published by the Free Software Foundation.
*/
/* File to be included by other .c files */
#define XGLUE(a,b) a##b
#define GLUE(a,b) XGLUE(a,b)
/* Dummy interrupt used when taking interrupts out of a queue in H_CPPR */
#define XICS_DUMMY 1
static void GLUE(X_PFX,ack_pending)(struct kvmppc_xive_vcpu *xc)
{
u8 cppr;
u16 ack;
/*
* Ensure any previous store to CPPR is ordered vs.
* the subsequent loads from PIPR or ACK.
*/
eieio();
/*
* DD1 bug workaround: If PIPR is less favored than CPPR
* ignore the interrupt or we might incorrectly lose an IPB
* bit.
*/
if (cpu_has_feature(CPU_FTR_POWER9_DD1)) {
__be64 qw1 = __x_readq(__x_tima + TM_QW1_OS);
u8 pipr = be64_to_cpu(qw1) & 0xff;
if (pipr >= xc->hw_cppr)
return;
}
/* Perform the acknowledge OS to register cycle. */
ack = be16_to_cpu(__x_readw(__x_tima + TM_SPC_ACK_OS_REG));
/* Synchronize subsequent queue accesses */
mb();
/* XXX Check grouping level */
/* Anything ? */
if (!((ack >> 8) & TM_QW1_NSR_EO))
return;
/* Grab CPPR of the most favored pending interrupt */
cppr = ack & 0xff;
if (cppr < 8)
xc->pending |= 1 << cppr;
#ifdef XIVE_RUNTIME_CHECKS
/* Check consistency */
if (cppr >= xc->hw_cppr)
pr_warn("KVM-XIVE: CPU %d odd ack CPPR, got %d at %d\n",
smp_processor_id(), cppr, xc->hw_cppr);
#endif
/*
* Update our image of the HW CPPR. We don't yet modify
* xc->cppr, this will be done as we scan for interrupts
* in the queues.
*/
xc->hw_cppr = cppr;
}
static u8 GLUE(X_PFX,esb_load)(struct xive_irq_data *xd, u32 offset)
{
u64 val;
if (xd->flags & XIVE_IRQ_FLAG_SHIFT_BUG)
offset |= offset << 4;
val =__x_readq(__x_eoi_page(xd) + offset);
#ifdef __LITTLE_ENDIAN__
val >>= 64-8;
#endif
return (u8)val;
}
static void GLUE(X_PFX,source_eoi)(u32 hw_irq, struct xive_irq_data *xd)
{
/* If the XIVE supports the new "store EOI facility, use it */
if (xd->flags & XIVE_IRQ_FLAG_STORE_EOI)
__x_writeq(0, __x_eoi_page(xd) + XIVE_ESB_STORE_EOI);
else if (hw_irq && xd->flags & XIVE_IRQ_FLAG_EOI_FW) {
opal_int_eoi(hw_irq);
} else {
uint64_t eoi_val;
/*
* Otherwise for EOI, we use the special MMIO that does
* a clear of both P and Q and returns the old Q,
* except for LSIs where we use the "EOI cycle" special
* load.
*
* This allows us to then do a re-trigger if Q was set
* rather than synthetizing an interrupt in software
*
* For LSIs, using the HW EOI cycle works around a problem
* on P9 DD1 PHBs where the other ESB accesses don't work
* properly.
*/
if (xd->flags & XIVE_IRQ_FLAG_LSI)
__x_readq(__x_eoi_page(xd) + XIVE_ESB_LOAD_EOI);
else {
eoi_val = GLUE(X_PFX,esb_load)(xd, XIVE_ESB_SET_PQ_00);
/* Re-trigger if needed */
if ((eoi_val & 1) && __x_trig_page(xd))
__x_writeq(0, __x_trig_page(xd));
}
}
}
enum {
scan_fetch,
scan_poll,
scan_eoi,
};
static u32 GLUE(X_PFX,scan_interrupts)(struct kvmppc_xive_vcpu *xc,
u8 pending, int scan_type)
{
u32 hirq = 0;
u8 prio = 0xff;
/* Find highest pending priority */
while ((xc->mfrr != 0xff || pending != 0) && hirq == 0) {
struct xive_q *q;
u32 idx, toggle;
__be32 *qpage;
/*
* If pending is 0 this will return 0xff which is what
* we want
*/
prio = ffs(pending) - 1;
/*
* If the most favoured prio we found pending is less
* favored (or equal) than a pending IPI, we return
* the IPI instead.
*
* Note: If pending was 0 and mfrr is 0xff, we will
* not spurriously take an IPI because mfrr cannot
* then be smaller than cppr.
*/
if (prio >= xc->mfrr && xc->mfrr < xc->cppr) {
prio = xc->mfrr;
hirq = XICS_IPI;
break;
}
/* Don't scan past the guest cppr */
if (prio >= xc->cppr || prio > 7)
break;
/* Grab queue and pointers */
q = &xc->queues[prio];
idx = q->idx;
toggle = q->toggle;
/*
* Snapshot the queue page. The test further down for EOI
* must use the same "copy" that was used by __xive_read_eq
* since qpage can be set concurrently and we don't want
* to miss an EOI.
*/
qpage = READ_ONCE(q->qpage);
skip_ipi:
/*
* Try to fetch from the queue. Will return 0 for a
* non-queueing priority (ie, qpage = 0).
*/
hirq = __xive_read_eq(qpage, q->msk, &idx, &toggle);
/*
* If this was a signal for an MFFR change done by
* H_IPI we skip it. Additionally, if we were fetching
* we EOI it now, thus re-enabling reception of a new
* such signal.
*
* We also need to do that if prio is 0 and we had no
* page for the queue. In this case, we have non-queued
* IPI that needs to be EOId.
*
* This is safe because if we have another pending MFRR
* change that wasn't observed above, the Q bit will have
* been set and another occurrence of the IPI will trigger.
*/
if (hirq == XICS_IPI || (prio == 0 && !qpage)) {
if (scan_type == scan_fetch)
GLUE(X_PFX,source_eoi)(xc->vp_ipi,
&xc->vp_ipi_data);
/* Loop back on same queue with updated idx/toggle */
#ifdef XIVE_RUNTIME_CHECKS
WARN_ON(hirq && hirq != XICS_IPI);
#endif
if (hirq)
goto skip_ipi;
}
/* If it's the dummy interrupt, continue searching */
if (hirq == XICS_DUMMY)
goto skip_ipi;
/* If fetching, update queue pointers */
if (scan_type == scan_fetch) {
q->idx = idx;
q->toggle = toggle;
}
/* Something found, stop searching */
if (hirq)
break;
/* Clear the pending bit on the now empty queue */
pending &= ~(1 << prio);
/*
* Check if the queue count needs adjusting due to
* interrupts being moved away.
*/
if (atomic_read(&q->pending_count)) {
int p = atomic_xchg(&q->pending_count, 0);
if (p) {
#ifdef XIVE_RUNTIME_CHECKS
WARN_ON(p > atomic_read(&q->count));
#endif
atomic_sub(p, &q->count);
}
}
}
/* If we are just taking a "peek", do nothing else */
if (scan_type == scan_poll)
return hirq;
/* Update the pending bits */
xc->pending = pending;
/*
* If this is an EOI that's it, no CPPR adjustment done here,
* all we needed was cleanup the stale pending bits and check
* if there's anything left.
*/
if (scan_type == scan_eoi)
return hirq;
/*
* If we found an interrupt, adjust what the guest CPPR should
* be as if we had just fetched that interrupt from HW.
*
* Note: This can only make xc->cppr smaller as the previous
* loop will only exit with hirq != 0 if prio is lower than
* the current xc->cppr. Thus we don't need to re-check xc->mfrr
* for pending IPIs.
*/
if (hirq)
xc->cppr = prio;
/*
* If it was an IPI the HW CPPR might have been lowered too much
* as the HW interrupt we use for IPIs is routed to priority 0.
*
* We re-sync it here.
*/
if (xc->cppr != xc->hw_cppr) {
xc->hw_cppr = xc->cppr;
__x_writeb(xc->cppr, __x_tima + TM_QW1_OS + TM_CPPR);
}
return hirq;
}
X_STATIC unsigned long GLUE(X_PFX,h_xirr)(struct kvm_vcpu *vcpu)
{
struct kvmppc_xive_vcpu *xc = vcpu->arch.xive_vcpu;
u8 old_cppr;
u32 hirq;
pr_devel("H_XIRR\n");
xc->GLUE(X_STAT_PFX,h_xirr)++;
/* First collect pending bits from HW */
GLUE(X_PFX,ack_pending)(xc);
/*
* Cleanup the old-style bits if needed (they may have been
* set by pull or an escalation interrupts).
*/
if (test_bit(BOOK3S_IRQPRIO_EXTERNAL, &vcpu->arch.pending_exceptions))
clear_bit(BOOK3S_IRQPRIO_EXTERNAL_LEVEL,
&vcpu->arch.pending_exceptions);
pr_devel(" new pending=0x%02x hw_cppr=%d cppr=%d\n",
xc->pending, xc->hw_cppr, xc->cppr);
/* Grab previous CPPR and reverse map it */
old_cppr = xive_prio_to_guest(xc->cppr);
/* Scan for actual interrupts */
hirq = GLUE(X_PFX,scan_interrupts)(xc, xc->pending, scan_fetch);
pr_devel(" got hirq=0x%x hw_cppr=%d cppr=%d\n",
hirq, xc->hw_cppr, xc->cppr);
#ifdef XIVE_RUNTIME_CHECKS
/* That should never hit */
if (hirq & 0xff000000)
pr_warn("XIVE: Weird guest interrupt number 0x%08x\n", hirq);
#endif
/*
* XXX We could check if the interrupt is masked here and
* filter it. If we chose to do so, we would need to do:
*
* if (masked) {
* lock();
* if (masked) {
* old_Q = true;
* hirq = 0;
* }
* unlock();
* }
*/
/* Return interrupt and old CPPR in GPR4 */
vcpu->arch.gpr[4] = hirq | (old_cppr << 24);
return H_SUCCESS;
}
X_STATIC unsigned long GLUE(X_PFX,h_ipoll)(struct kvm_vcpu *vcpu, unsigned long server)
{
struct kvmppc_xive_vcpu *xc = vcpu->arch.xive_vcpu;
u8 pending = xc->pending;
u32 hirq;
pr_devel("H_IPOLL(server=%ld)\n", server);
xc->GLUE(X_STAT_PFX,h_ipoll)++;
/* Grab the target VCPU if not the current one */
if (xc->server_num != server) {
vcpu = kvmppc_xive_find_server(vcpu->kvm, server);
if (!vcpu)
return H_PARAMETER;
xc = vcpu->arch.xive_vcpu;
/* Scan all priorities */
pending = 0xff;
} else {
/* Grab pending interrupt if any */
__be64 qw1 = __x_readq(__x_tima + TM_QW1_OS);
u8 pipr = be64_to_cpu(qw1) & 0xff;
if (pipr < 8)
pending |= 1 << pipr;
}
hirq = GLUE(X_PFX,scan_interrupts)(xc, pending, scan_poll);
/* Return interrupt and old CPPR in GPR4 */
vcpu->arch.gpr[4] = hirq | (xc->cppr << 24);
return H_SUCCESS;
}
static void GLUE(X_PFX,push_pending_to_hw)(struct kvmppc_xive_vcpu *xc)
{
u8 pending, prio;
pending = xc->pending;
if (xc->mfrr != 0xff) {
if (xc->mfrr < 8)
pending |= 1 << xc->mfrr;
else
pending |= 0x80;
}
if (!pending)
return;
prio = ffs(pending) - 1;
__x_writeb(prio, __x_tima + TM_SPC_SET_OS_PENDING);
}
static void GLUE(X_PFX,scan_for_rerouted_irqs)(struct kvmppc_xive *xive,
struct kvmppc_xive_vcpu *xc)
{
unsigned int prio;
/* For each priority that is now masked */
for (prio = xc->cppr; prio < KVMPPC_XIVE_Q_COUNT; prio++) {
struct xive_q *q = &xc->queues[prio];
struct kvmppc_xive_irq_state *state;
struct kvmppc_xive_src_block *sb;
u32 idx, toggle, entry, irq, hw_num;
struct xive_irq_data *xd;
__be32 *qpage;
u16 src;
idx = q->idx;
toggle = q->toggle;
qpage = READ_ONCE(q->qpage);
if (!qpage)
continue;
/* For each interrupt in the queue */
for (;;) {
entry = be32_to_cpup(qpage + idx);
/* No more ? */
if ((entry >> 31) == toggle)
break;
irq = entry & 0x7fffffff;
/* Skip dummies and IPIs */
if (irq == XICS_DUMMY || irq == XICS_IPI)
goto next;
sb = kvmppc_xive_find_source(xive, irq, &src);
if (!sb)
goto next;
state = &sb->irq_state[src];
/* Has it been rerouted ? */
if (xc->server_num == state->act_server)
goto next;
/*
* Allright, it *has* been re-routed, kill it from
* the queue.
*/
qpage[idx] = cpu_to_be32((entry & 0x80000000) | XICS_DUMMY);
/* Find the HW interrupt */
kvmppc_xive_select_irq(state, &hw_num, &xd);
/* If it's not an LSI, set PQ to 11 the EOI will force a resend */
if (!(xd->flags & XIVE_IRQ_FLAG_LSI))
GLUE(X_PFX,esb_load)(xd, XIVE_ESB_SET_PQ_11);
/* EOI the source */
GLUE(X_PFX,source_eoi)(hw_num, xd);
next:
idx = (idx + 1) & q->msk;
if (idx == 0)
toggle ^= 1;
}
}
}
X_STATIC int GLUE(X_PFX,h_cppr)(struct kvm_vcpu *vcpu, unsigned long cppr)
{
struct kvmppc_xive_vcpu *xc = vcpu->arch.xive_vcpu;
struct kvmppc_xive *xive = vcpu->kvm->arch.xive;
u8 old_cppr;
pr_devel("H_CPPR(cppr=%ld)\n", cppr);
xc->GLUE(X_STAT_PFX,h_cppr)++;
/* Map CPPR */
cppr = xive_prio_from_guest(cppr);
/* Remember old and update SW state */
old_cppr = xc->cppr;
xc->cppr = cppr;
/*
* Order the above update of xc->cppr with the subsequent
* read of xc->mfrr inside push_pending_to_hw()
*/
smp_mb();
if (cppr > old_cppr) {
/*
* We are masking less, we need to look for pending things
* to deliver and set VP pending bits accordingly to trigger
* a new interrupt otherwise we might miss MFRR changes for
* which we have optimized out sending an IPI signal.
*/
GLUE(X_PFX,push_pending_to_hw)(xc);
} else {
/*
* We are masking more, we need to check the queue for any
* interrupt that has been routed to another CPU, take
* it out (replace it with the dummy) and retrigger it.
*
* This is necessary since those interrupts may otherwise
* never be processed, at least not until this CPU restores
* its CPPR.
*
* This is in theory racy vs. HW adding new interrupts to
* the queue. In practice this works because the interesting
* cases are when the guest has done a set_xive() to move the
* interrupt away, which flushes the xive, followed by the
* target CPU doing a H_CPPR. So any new interrupt coming into
* the queue must still be routed to us and isn't a source
* of concern.
*/
GLUE(X_PFX,scan_for_rerouted_irqs)(xive, xc);
}
/* Apply new CPPR */
xc->hw_cppr = cppr;
__x_writeb(cppr, __x_tima + TM_QW1_OS + TM_CPPR);
return H_SUCCESS;
}
X_STATIC int GLUE(X_PFX,h_eoi)(struct kvm_vcpu *vcpu, unsigned long xirr)
{
struct kvmppc_xive *xive = vcpu->kvm->arch.xive;
struct kvmppc_xive_src_block *sb;
struct kvmppc_xive_irq_state *state;
struct kvmppc_xive_vcpu *xc = vcpu->arch.xive_vcpu;
struct xive_irq_data *xd;
u8 new_cppr = xirr >> 24;
u32 irq = xirr & 0x00ffffff, hw_num;
u16 src;
int rc = 0;
pr_devel("H_EOI(xirr=%08lx)\n", xirr);
xc->GLUE(X_STAT_PFX,h_eoi)++;
xc->cppr = xive_prio_from_guest(new_cppr);
/*
* IPIs are synthetized from MFRR and thus don't need
* any special EOI handling. The underlying interrupt
* used to signal MFRR changes is EOId when fetched from
* the queue.
*/
if (irq == XICS_IPI || irq == 0) {
/*
* This barrier orders the setting of xc->cppr vs.
* subsquent test of xc->mfrr done inside
* scan_interrupts and push_pending_to_hw
*/
smp_mb();
goto bail;
}
/* Find interrupt source */
sb = kvmppc_xive_find_source(xive, irq, &src);
if (!sb) {
pr_devel(" source not found !\n");
rc = H_PARAMETER;
/* Same as above */
smp_mb();
goto bail;
}
state = &sb->irq_state[src];
kvmppc_xive_select_irq(state, &hw_num, &xd);
state->in_eoi = true;
/*
* This barrier orders both setting of in_eoi above vs,
* subsequent test of guest_priority, and the setting
* of xc->cppr vs. subsquent test of xc->mfrr done inside
* scan_interrupts and push_pending_to_hw
*/
smp_mb();
again:
if (state->guest_priority == MASKED) {
arch_spin_lock(&sb->lock);
if (state->guest_priority != MASKED) {
arch_spin_unlock(&sb->lock);
goto again;
}
pr_devel(" EOI on saved P...\n");
/* Clear old_p, that will cause unmask to perform an EOI */
state->old_p = false;
arch_spin_unlock(&sb->lock);
} else {
pr_devel(" EOI on source...\n");
/* Perform EOI on the source */
GLUE(X_PFX,source_eoi)(hw_num, xd);
/* If it's an emulated LSI, check level and resend */
if (state->lsi && state->asserted)
__x_writeq(0, __x_trig_page(xd));
}
/*
* This barrier orders the above guest_priority check
* and spin_lock/unlock with clearing in_eoi below.
*
* It also has to be a full mb() as it must ensure
* the MMIOs done in source_eoi() are completed before
* state->in_eoi is visible.
*/
mb();
state->in_eoi = false;
bail:
/* Re-evaluate pending IRQs and update HW */
GLUE(X_PFX,scan_interrupts)(xc, xc->pending, scan_eoi);
GLUE(X_PFX,push_pending_to_hw)(xc);
pr_devel(" after scan pending=%02x\n", xc->pending);
/* Apply new CPPR */
xc->hw_cppr = xc->cppr;
__x_writeb(xc->cppr, __x_tima + TM_QW1_OS + TM_CPPR);
return rc;
}
X_STATIC int GLUE(X_PFX,h_ipi)(struct kvm_vcpu *vcpu, unsigned long server,
unsigned long mfrr)
{
struct kvmppc_xive_vcpu *xc = vcpu->arch.xive_vcpu;
pr_devel("H_IPI(server=%08lx,mfrr=%ld)\n", server, mfrr);
xc->GLUE(X_STAT_PFX,h_ipi)++;
/* Find target */
vcpu = kvmppc_xive_find_server(vcpu->kvm, server);
if (!vcpu)
return H_PARAMETER;
xc = vcpu->arch.xive_vcpu;
/* Locklessly write over MFRR */
xc->mfrr = mfrr;
/*
* The load of xc->cppr below and the subsequent MMIO store
* to the IPI must happen after the above mfrr update is
* globally visible so that:
*
* - Synchronize with another CPU doing an H_EOI or a H_CPPR
* updating xc->cppr then reading xc->mfrr.
*
* - The target of the IPI sees the xc->mfrr update
*/
mb();
/* Shoot the IPI if most favored than target cppr */
if (mfrr < xc->cppr)
__x_writeq(0, __x_trig_page(&xc->vp_ipi_data));
return H_SUCCESS;
}
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