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irq_build_affinity_masks() allocates improper affinity if num_possible_cpus() > num_present_cpus()?

Message ID KU1P153MB0120D20BC6ED8CF54168EEE6BF0D0@KU1P153MB0120.APCP153.PROD.OUTLOOK.COM (mailing list archive)
State Not Applicable, archived
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Series irq_build_affinity_masks() allocates improper affinity if num_possible_cpus() > num_present_cpus()? | expand

Commit Message

Dexuan Cui Oct. 6, 2020, 6:47 a.m. UTC
Hi all,
I'm running a single-CPU Linux VM on Hyper-V. The Linux kernel is v5.9-rc7
and I have CONFIG_NR_CPUS=256.

The Hyper-V Host (Version 17763-10.0-1-0.1457) provides a guest firmware,
which always reports 128 Local APIC entries in the ACPI MADT table. Here
only the first Local APIC entry's "Processor Enabled" is 1 since this
Linux VM is configured to have only 1 CPU. This means: in the Linux kernel,
the "cpu_present_mask" and " cpu_online_mask " have only 1 CPU (i.e. CPU0),
while the "cpu_possible_mask" has 128 CPUs, and the "nr_cpu_ids" is 128.

I pass through an MSI-X-capable PCI device to the Linux VM (which has
only 1 virtual CPU), and the below code does *not* report any error
(i.e. pci_alloc_irq_vectors_affinity() returns 2, and request_irq()
returns 0), but the code does not work: the second MSI-X interrupt is not
happening while the first interrupt does work fine.

int nr_irqs = 2;
int i, nvec, irq;

nvec = pci_alloc_irq_vectors_affinity(pdev, nr_irqs, nr_irqs,
                PCI_IRQ_MSIX | PCI_IRQ_AFFINITY, NULL);

for (i = 0; i < nvec; i++) {
        irq = pci_irq_vector(pdev, i);
        err = request_irq(irq, test_intr, 0, "test_intr", &intr_cxt[i]);
}

It turns out that pci_alloc_irq_vectors_affinity() -> ... ->
irq_create_affinity_masks() allocates an improper affinity for the second
interrupt. The below printk() shows that the second interrupt's affinity is
1-64, but only CPU0 is present in the system! As a result, later,
request_irq() -> ... -> irq_startup() -> __irq_startup_managed() returns
IRQ_STARTUP_ABORT because cpumask_any_and(aff, cpu_online_mask) is 
empty (i.e. >= nr_cpu_ids), and irq_startup() *silently* fails (i.e. "return 0;"),
since __irq_startup() is only called for IRQ_STARTUP_MANAGED and
IRQ_STARTUP_NORMAL.

[   43.770477] i=0, affi = 0,65-127
[   43.770484] i=1, affi = 1-64

Though here the issue happens to a Linux VM on Hyper-V, I think the same
issue can also happen to a physical machine, if the physical machine also
uses a lot of static MADT entries, of which only the entries of the present
CPUs are marked to be "Processor Enabled == 1".

I think pci_alloc_irq_vectors_affinity() -> __pci_enable_msix_range() ->
irq_calc_affinity_vectors() -> cpumask_weight(cpu_possible_mask) should
use cpu_present_mask rather than cpu_possible_mask (), so here
irq_calc_affinity_vectors() would return 1, and
__pci_enable_msix_range() would immediately return -ENOSPC to avoid a
*silent* failure.

However, git-log shows that this 2018 commit intentionally changed the
cpu_present_mask to cpu_possible_mask:
84676c1f21e8 ("genirq/affinity: assign vectors to all possible CPUs")

so I'm not sure whether (and how?) we should address the *silent* failure.

BTW, here I use a single-CPU VM to simplify the discussion. Actually,
if the VM has n CPUs, with the above usage of
pci_alloc_irq_vectors_affinity() (which might seem incorrect, but my point is
that it's really not good to have a silent failure, which makes it a lot more 
difficult to figure out what goes wrong), it looks only the first n MSI-X interrupts
can work, and the (n+1)'th MSI-X interrupt can not work due to the allocated
improper affinity.

According to my tests, if we need n+1 MSI-X interrupts in such a VM that
has n CPUs, it looks we have 2 options (the second should be better):

1. Do not use the PCI_IRQ_AFFINITY flag, i.e.
        pci_alloc_irq_vectors_affinity(pdev, n+1, n+1, PCI_IRQ_MSIX, NULL);

2. Use the PCI_IRQ_AFFINITY flag, and pass a struct irq_affinity affd,
which tells the API that we don't care about the first interrupt's affinity:

        struct irq_affinity affd = {
                .pre_vectors = 1,
				...
        };

        pci_alloc_irq_vectors_affinity(pdev, n+1, n+1,
                PCI_IRQ_MSIX | PCI_IRQ_AFFINITY, &affd);

PS, irq_create_affinity_masks() is complicated. Let me know if you're
interested to know how it allocates the invalid affinity "1-64" for the
second MSI-X interrupt.

PS2, the latest Hyper-V provides only one ACPI MADT entry to a 1-CPU VM,
so the issue described above can not reproduce there.

Thanks,
-- Dexuan

Comments

David Woodhouse Oct. 6, 2020, 8:37 a.m. UTC | #1
On Tue, 2020-10-06 at 06:47 +0000, Dexuan Cui wrote:
> Hi all,
> I'm running a single-CPU Linux VM on Hyper-V. The Linux kernel is v5.9-rc7
> and I have CONFIG_NR_CPUS=256.
> 
> The Hyper-V Host (Version 17763-10.0-1-0.1457) provides a guest firmware,
> which always reports 128 Local APIC entries in the ACPI MADT table. Here
> only the first Local APIC entry's "Processor Enabled" is 1 since this
> Linux VM is configured to have only 1 CPU. This means: in the Linux kernel,
> the "cpu_present_mask" and " cpu_online_mask " have only 1 CPU (i.e. CPU0),
> while the "cpu_possible_mask" has 128 CPUs, and the "nr_cpu_ids" is 128.
> 
> I pass through an MSI-X-capable PCI device to the Linux VM (which has
> only 1 virtual CPU), and the below code does *not* report any error
> (i.e. pci_alloc_irq_vectors_affinity() returns 2, and request_irq()
> returns 0), but the code does not work: the second MSI-X interrupt is not
> happening while the first interrupt does work fine.
> 
> int nr_irqs = 2;
> int i, nvec, irq;
> 
> nvec = pci_alloc_irq_vectors_affinity(pdev, nr_irqs, nr_irqs,
>                 PCI_IRQ_MSIX | PCI_IRQ_AFFINITY, NULL);
> 
> for (i = 0; i < nvec; i++) {
>         irq = pci_irq_vector(pdev, i);
>         err = request_irq(irq, test_intr, 0, "test_intr", &intr_cxt[i]);
> }
> 
> It turns out that pci_alloc_irq_vectors_affinity() -> ... ->
> irq_create_affinity_masks() allocates an improper affinity for the second
> interrupt. The below printk() shows that the second interrupt's affinity is
> 1-64, but only CPU0 is present in the system! As a result, later,
> request_irq() -> ... -> irq_startup() -> __irq_startup_managed() returns
> IRQ_STARTUP_ABORT because cpumask_any_and(aff, cpu_online_mask) is 
> empty (i.e. >= nr_cpu_ids), and irq_startup() *silently* fails (i.e. "return 0;"),
> since __irq_startup() is only called for IRQ_STARTUP_MANAGED and
> IRQ_STARTUP_NORMAL.
> 
> --- a/kernel/irq/affinity.c
> +++ b/kernel/irq/affinity.c
> @@ -484,6 +484,9 @@ struct irq_affinity_desc *
>         for (i = affd->pre_vectors; i < nvecs - affd->post_vectors; i++)
>                 masks[i].is_managed = 1;
> 
> +       for (i = 0; i < nvecs; i++)
> +               printk("i=%d, affi = %*pbl\n", i,
> +                      cpumask_pr_args(&masks[i].mask));
>         return masks;
>  }
> 
> [   43.770477] i=0, affi = 0,65-127
> [   43.770484] i=1, affi = 1-64
> 
> Though here the issue happens to a Linux VM on Hyper-V, I think the same
> issue can also happen to a physical machine, if the physical machine also
> uses a lot of static MADT entries, of which only the entries of the present
> CPUs are marked to be "Processor Enabled == 1".
> 
> I think pci_alloc_irq_vectors_affinity() -> __pci_enable_msix_range() ->
> irq_calc_affinity_vectors() -> cpumask_weight(cpu_possible_mask) should
> use cpu_present_mask rather than cpu_possible_mask (), so here
> irq_calc_affinity_vectors() would return 1, and
> __pci_enable_msix_range() would immediately return -ENOSPC to avoid a
> *silent* failure.
> 
> However, git-log shows that this 2018 commit intentionally changed the
> cpu_present_mask to cpu_possible_mask:
> 84676c1f21e8 ("genirq/affinity: assign vectors to all possible CPUs")
> 
> so I'm not sure whether (and how?) we should address the *silent* failure.
> 
> BTW, here I use a single-CPU VM to simplify the discussion. Actually,
> if the VM has n CPUs, with the above usage of
> pci_alloc_irq_vectors_affinity() (which might seem incorrect, but my point is
> that it's really not good to have a silent failure, which makes it a lot more 
> difficult to figure out what goes wrong), it looks only the first n MSI-X interrupts
> can work, and the (n+1)'th MSI-X interrupt can not work due to the allocated
> improper affinity.
> 
> According to my tests, if we need n+1 MSI-X interrupts in such a VM that
> has n CPUs, it looks we have 2 options (the second should be better):
> 
> 1. Do not use the PCI_IRQ_AFFINITY flag, i.e.
>         pci_alloc_irq_vectors_affinity(pdev, n+1, n+1, PCI_IRQ_MSIX, NULL);
> 
> 2. Use the PCI_IRQ_AFFINITY flag, and pass a struct irq_affinity affd,
> which tells the API that we don't care about the first interrupt's affinity:
> 
>         struct irq_affinity affd = {
>                 .pre_vectors = 1,
> 				...
>         };
> 
>         pci_alloc_irq_vectors_affinity(pdev, n+1, n+1,
>                 PCI_IRQ_MSIX | PCI_IRQ_AFFINITY, &affd);
> 
> PS, irq_create_affinity_masks() is complicated. Let me know if you're
> interested to know how it allocates the invalid affinity "1-64" for the
> second MSI-X interrupt.

Go on. It'll save me a cup of coffee or two...

> PS2, the latest Hyper-V provides only one ACPI MADT entry to a 1-CPU VM,
> so the issue described above can not reproduce there.

It seems fairly easy to reproduce in qemu with -smp 1,maxcpus=128 and a
virtio-blk drive, having commented out the 'desc->pre_vectors++' around
line 130 of virtio_pci_common.c so that it does actually spread them.

[    0.836252] i=0, affi = 0,65-127
[    0.836672] i=1, affi = 1-64
[    0.837905] virtio_blk virtio1: [vda] 41943040 512-byte logical blocks (21.5 GB/20.0 GiB)
[    0.839080] vda: detected capacity change from 0 to 21474836480

In my build I had to add 'nox2apic' because I think I actually already
fixed this for the x2apic + no-irq-remapping case with the max_affinity
patch series¹. But mostly by accident.


¹ https://git.infradead.org/users/dwmw2/linux.git/shortlog/refs/heads/irqaffinity
David Woodhouse Oct. 6, 2020, 11:17 a.m. UTC | #2
On Tue, 2020-10-06 at 09:37 +0100, David Woodhouse wrote:
> On Tue, 2020-10-06 at 06:47 +0000, Dexuan Cui wrote:
> > Hi all,
> > I'm running a single-CPU Linux VM on Hyper-V. The Linux kernel is v5.9-rc7
> > and I have CONFIG_NR_CPUS=256.
> > 
> > The Hyper-V Host (Version 17763-10.0-1-0.1457) provides a guest firmware,
> > which always reports 128 Local APIC entries in the ACPI MADT table. Here
> > only the first Local APIC entry's "Processor Enabled" is 1 since this
> > Linux VM is configured to have only 1 CPU. This means: in the Linux kernel,
> > the "cpu_present_mask" and " cpu_online_mask " have only 1 CPU (i.e. CPU0),
> > while the "cpu_possible_mask" has 128 CPUs, and the "nr_cpu_ids" is 128.
> > 
> > I pass through an MSI-X-capable PCI device to the Linux VM (which has
> > only 1 virtual CPU), and the below code does *not* report any error
> > (i.e. pci_alloc_irq_vectors_affinity() returns 2, and request_irq()
> > returns 0), but the code does not work: the second MSI-X interrupt is not
> > happening while the first interrupt does work fine.
> > 
> > int nr_irqs = 2;
> > int i, nvec, irq;
> > 
> > nvec = pci_alloc_irq_vectors_affinity(pdev, nr_irqs, nr_irqs,
> >                 PCI_IRQ_MSIX | PCI_IRQ_AFFINITY, NULL);
> > 
> > for (i = 0; i < nvec; i++) {
> >         irq = pci_irq_vector(pdev, i);
> >         err = request_irq(irq, test_intr, 0, "test_intr", &intr_cxt[i]);
> > }
> > 
> > It turns out that pci_alloc_irq_vectors_affinity() -> ... ->
> > irq_create_affinity_masks() allocates an improper affinity for the second
> > interrupt. The below printk() shows that the second interrupt's affinity is
> > 1-64, but only CPU0 is present in the system! As a result, later,
> > request_irq() -> ... -> irq_startup() -> __irq_startup_managed() returns
> > IRQ_STARTUP_ABORT because cpumask_any_and(aff, cpu_online_mask) is 
> > empty (i.e. >= nr_cpu_ids), and irq_startup() *silently* fails (i.e. "return 0;"),
> > since __irq_startup() is only called for IRQ_STARTUP_MANAGED and
> > IRQ_STARTUP_NORMAL.
> > 
> > --- a/kernel/irq/affinity.c
> > +++ b/kernel/irq/affinity.c
> > @@ -484,6 +484,9 @@ struct irq_affinity_desc *
> >         for (i = affd->pre_vectors; i < nvecs - affd->post_vectors; i++)
> >                 masks[i].is_managed = 1;
> > 
> > +       for (i = 0; i < nvecs; i++)
> > +               printk("i=%d, affi = %*pbl\n", i,
> > +                      cpumask_pr_args(&masks[i].mask));
> >         return masks;
> >  }
> > 
> > [   43.770477] i=0, affi = 0,65-127
> > [   43.770484] i=1, affi = 1-64
> > 
> > Though here the issue happens to a Linux VM on Hyper-V, I think the same
> > issue can also happen to a physical machine, if the physical machine also
> > uses a lot of static MADT entries, of which only the entries of the present
> > CPUs are marked to be "Processor Enabled == 1".
> > 
> > I think pci_alloc_irq_vectors_affinity() -> __pci_enable_msix_range() ->
> > irq_calc_affinity_vectors() -> cpumask_weight(cpu_possible_mask) should
> > use cpu_present_mask rather than cpu_possible_mask (), so here
> > irq_calc_affinity_vectors() would return 1, and
> > __pci_enable_msix_range() would immediately return -ENOSPC to avoid a
> > *silent* failure.
> > 
> > However, git-log shows that this 2018 commit intentionally changed the
> > cpu_present_mask to cpu_possible_mask:
> > 84676c1f21e8 ("genirq/affinity: assign vectors to all possible CPUs")
> > 
> > so I'm not sure whether (and how?) we should address the *silent* failure.
> > 
> > BTW, here I use a single-CPU VM to simplify the discussion. Actually,
> > if the VM has n CPUs, with the above usage of
> > pci_alloc_irq_vectors_affinity() (which might seem incorrect, but my point is
> > that it's really not good to have a silent failure, which makes it a lot more 
> > difficult to figure out what goes wrong), it looks only the first n MSI-X interrupts
> > can work, and the (n+1)'th MSI-X interrupt can not work due to the allocated
> > improper affinity.
> > 
> > According to my tests, if we need n+1 MSI-X interrupts in such a VM that
> > has n CPUs, it looks we have 2 options (the second should be better):
> > 
> > 1. Do not use the PCI_IRQ_AFFINITY flag, i.e.
> >         pci_alloc_irq_vectors_affinity(pdev, n+1, n+1, PCI_IRQ_MSIX, NULL);
> > 
> > 2. Use the PCI_IRQ_AFFINITY flag, and pass a struct irq_affinity affd,
> > which tells the API that we don't care about the first interrupt's affinity:
> > 
> >         struct irq_affinity affd = {
> >                 .pre_vectors = 1,
> > 				...
> >         };
> > 
> >         pci_alloc_irq_vectors_affinity(pdev, n+1, n+1,
> >                 PCI_IRQ_MSIX | PCI_IRQ_AFFINITY, &affd);
> > 
> > PS, irq_create_affinity_masks() is complicated. Let me know if you're
> > interested to know how it allocates the invalid affinity "1-64" for the
> > second MSI-X interrupt.
> 
> Go on. It'll save me a cup of coffee or two...
> 
> > PS2, the latest Hyper-V provides only one ACPI MADT entry to a 1-CPU VM,
> > so the issue described above can not reproduce there.
> 
> It seems fairly easy to reproduce in qemu with -smp 1,maxcpus=128 and a
> virtio-blk drive, having commented out the 'desc->pre_vectors++' around
> line 130 of virtio_pci_common.c so that it does actually spread them.
> 
> [    0.836252] i=0, affi = 0,65-127
> [    0.836672] i=1, affi = 1-64
> [    0.837905] virtio_blk virtio1: [vda] 41943040 512-byte logical blocks (21.5 GB/20.0 GiB)
> [    0.839080] vda: detected capacity change from 0 to 21474836480
> 
> In my build I had to add 'nox2apic' because I think I actually already
> fixed this for the x2apic + no-irq-remapping case with the max_affinity
> patch series¹. But mostly by accident.
> 
> 
> ¹ https://git.infradead.org/users/dwmw2/linux.git/shortlog/refs/heads/irqaffinity

Is it fixed by 
https://git.infradead.org/users/dwmw2/linux.git/commitdiff/41cfe6d54e5?


---
 kernel/irq/affinity.c | 17 +++++++++++------
 1 file changed, 11 insertions(+), 6 deletions(-)

diff --git a/kernel/irq/affinity.c b/kernel/irq/affinity.c
index 6d7dbcf91061..00aa0ba6b32a 100644
--- a/kernel/irq/affinity.c
+++ b/kernel/irq/affinity.c
@@ -364,12 +364,17 @@ static int irq_build_affinity_masks(unsigned int startvec, unsigned int numvecs,
 		cpumask_copy(npresmsk, cpu_present_mask);
 
 	/* Spread on present CPUs starting from affd->pre_vectors */
-	ret = __irq_build_affinity_masks(curvec, numvecs, firstvec,
-					 node_to_cpumask, cpu_present_mask,
-					 nmsk, masks);
-	if (ret < 0)
-		goto fail_build_affinity;
-	nr_present = ret;
+	while (nr_present < numvecs) {
+		curvec = firstvec + nr_present;
+		ret = __irq_build_affinity_masks(curvec, numvecs, firstvec,
+						 node_to_cpumask, npresmsk,
+						 nmsk, masks);
+		if (ret < 0)
+			goto fail_build_affinity;
+		if (!ret)
+			break;
+		nr_present += ret;
+	}
 
 	/*
 	 * Spread on non present CPUs starting from the next vector to be
Thomas Gleixner Oct. 6, 2020, 6:57 p.m. UTC | #3
On Tue, Oct 06 2020 at 06:47, Dexuan Cui wrote:
> I'm running a single-CPU Linux VM on Hyper-V. The Linux kernel is v5.9-rc7
> and I have CONFIG_NR_CPUS=256.
>
> The Hyper-V Host (Version 17763-10.0-1-0.1457) provides a guest firmware,
> which always reports 128 Local APIC entries in the ACPI MADT table. Here
> only the first Local APIC entry's "Processor Enabled" is 1 since this
> Linux VM is configured to have only 1 CPU. This means: in the Linux kernel,
> the "cpu_present_mask" and " cpu_online_mask " have only 1 CPU (i.e. CPU0),
> while the "cpu_possible_mask" has 128 CPUs, and the "nr_cpu_ids" is 128.
>
> I pass through an MSI-X-capable PCI device to the Linux VM (which has
> only 1 virtual CPU), and the below code does *not* report any error
> (i.e. pci_alloc_irq_vectors_affinity() returns 2, and request_irq()
> returns 0), but the code does not work: the second MSI-X interrupt is not
> happening while the first interrupt does work fine.
>
> int nr_irqs = 2;
> int i, nvec, irq;
>
> nvec = pci_alloc_irq_vectors_affinity(pdev, nr_irqs, nr_irqs,
>                 PCI_IRQ_MSIX | PCI_IRQ_AFFINITY, NULL);

Why should it return an error?

> for (i = 0; i < nvec; i++) {
>         irq = pci_irq_vector(pdev, i);
>         err = request_irq(irq, test_intr, 0, "test_intr", &intr_cxt[i]);
> }

And why do you expect that the second interrupt works?

This is about managed interrupts and the spreading code has two vectors
to which it can spread the interrupts. One is assigned to one half of
the possible CPUs and the other one to the other half. Now you have only
one CPU online so only the interrupt with has the online CPU in the
assigned affinity mask is started up.

That's how managed interrupts work. If you don't want managed interrupts
then don't use them.

Thanks,

        tglx
Thomas Gleixner Oct. 6, 2020, 7 p.m. UTC | #4
On Tue, Oct 06 2020 at 09:37, David Woodhouse wrote:
> On Tue, 2020-10-06 at 06:47 +0000, Dexuan Cui wrote:
>> PS2, the latest Hyper-V provides only one ACPI MADT entry to a 1-CPU VM,
>> so the issue described above can not reproduce there.
>
> It seems fairly easy to reproduce in qemu with -smp 1,maxcpus=128 and a
> virtio-blk drive, having commented out the 'desc->pre_vectors++' around
> line 130 of virtio_pci_common.c so that it does actually spread them.
>
> [    0.836252] i=0, affi = 0,65-127
> [    0.836672] i=1, affi = 1-64
> [    0.837905] virtio_blk virtio1: [vda] 41943040 512-byte logical blocks (21.5 GB/20.0 GiB)
> [    0.839080] vda: detected capacity change from 0 to 21474836480
>
> In my build I had to add 'nox2apic' because I think I actually already
> fixed this for the x2apic + no-irq-remapping case with the max_affinity
> patch series¹. But mostly by accident.

There is nothing to fix. It's intentional behaviour. Managed interrupts
and their spreading (aside of the rather odd spread here) work that way.

And virtio-blk works perfectly fine with that.

Thanks,

        tglx
Dexuan Cui Oct. 7, 2020, 3:08 a.m. UTC | #5
> From: Thomas Gleixner <tglx@linutronix.de>
> Sent: Tuesday, October 6, 2020 11:58 AM
> > ...
> > I pass through an MSI-X-capable PCI device to the Linux VM (which has
> > only 1 virtual CPU), and the below code does *not* report any error
> > (i.e. pci_alloc_irq_vectors_affinity() returns 2, and request_irq()
> > returns 0), but the code does not work: the second MSI-X interrupt is not
> > happening while the first interrupt does work fine.
> >
> > int nr_irqs = 2;
> > int i, nvec, irq;
> >
> > nvec = pci_alloc_irq_vectors_affinity(pdev, nr_irqs, nr_irqs,
> >                 PCI_IRQ_MSIX | PCI_IRQ_AFFINITY, NULL);
> 
> Why should it return an error?

The above code returns -ENOSPC if num_possible_cpus() is also 1, and
returns 0 if num_possible_cpus() is 128. So it looks the above code is
not using the API correctly, and hence gets undefined results.

> > for (i = 0; i < nvec; i++) {
> >         irq = pci_irq_vector(pdev, i);
> >         err = request_irq(irq, test_intr, 0, "test_intr", &intr_cxt[i]);
> > }
> 
> And why do you expect that the second interrupt works?
> 
> This is about managed interrupts and the spreading code has two vectors
> to which it can spread the interrupts. One is assigned to one half of
> the possible CPUs and the other one to the other half. Now you have only
> one CPU online so only the interrupt with has the online CPU in the
> assigned affinity mask is started up.
> 
> That's how managed interrupts work. If you don't want managed interrupts
> then don't use them.
> 
> Thanks,
> 
>         tglx

Thanks for the clarification! It looks with PCI_IRQ_AFFINITY the kernel 
guarantees that the allocated interrutps are 1:1 bound to CPUs, and the
userspace is unable to change the affinities. This is very useful to support
per-CPU I/O queues.

Thanks,
-- Dexuan
diff mbox series

Patch

--- a/kernel/irq/affinity.c
+++ b/kernel/irq/affinity.c
@@ -484,6 +484,9 @@  struct irq_affinity_desc *
        for (i = affd->pre_vectors; i < nvecs - affd->post_vectors; i++)
                masks[i].is_managed = 1;

+       for (i = 0; i < nvecs; i++)
+               printk("i=%d, affi = %*pbl\n", i,
+                      cpumask_pr_args(&masks[i].mask));
        return masks;
 }