Jeroen Van den Keybus wrote:
I tried this patch and it doesn't solve the issue I'm facing. With and
without this patch, my symptoms are the same.
I tested (and intended) the patch for MSI (w/o maskbits), not MSI-X.
What e1000 chip are you using exactly? Easiest way to tell is by using
'/sbin/lspci'. I may be able to help you out with MSI-X as well, but in
that case, I have no hardware platform to test on.
Could you post the patch you are successfully using to boot your box? TIA,
You can check whether or not MSI is actually being used by doing
'/sbin/lspci -v' and look for the Capability: Message Signalled
Interrupt. When the driver is running in MSI mode, it should read
'Enable+' instead of 'Enable-'.
Finally, verify how interrupts are dispatched. Have a look at
/proc/interrupts for this (cat /proc/interrupts').
I'm running a Dell 2850, dual CPU machine.
As it's a Dell, I assume there's two Intel Penium CPU's inside. Are you
running with SMP enabled ?
When I build a kernel without
Adeos then things are fine. When I build with Adeos and MSI enabled
1) If BIOS has USB disabled then the system will hang without even a
num-lock respose (i.e. tapping the num-lock key doesn't toggle the
The hang occurs just about the time the E1000 driver would load and
an MSI interrupt.
2) If BIOS has USB enabled then the system will run much longer but
during heavy interrupt load on the E1000 driver.
Are you using the e1000 driver in NAPI mode ? It is recommended to do
this, especially on the preemptible kernel, as it may significantly
reduce the interrupt volume. In that case, I think it is doubtful if
using MSI would give you any benefit at all over normal, shared IRQs.
My assumption based on past experience is that no num-lock response
infinite interrupt loop.
The local (internal) CPU APIC hasn't been informed that the interrupt
has been dealt with and it will therefore allow no other interrupts
anymore to arrive in the CPU (including your keyboard's). In fact, your
CPU is idle.
[The original 8259 was designed to detect the IRET instruction bit
pattern on the databus and use that as an acknowledge signal. Upon
arrival of the second 8259 in the PC/AT, this could no longer be done. I
don't know if the APIC could do it today (it seems possible,
When I build a kernel with Adeos but disable MSI then the system works fine
for the most part. There is one scenario where the system will
doing disk and network accesses under a moderate load of I/O.
Hm. That may indicate another issue.
Indeed. This behaviour has not been reported yet with patches from the Adeos
I-pipe series. Does it also happen with SMP disabled, or Hyperthreading disabled?
Both of these tests are just to get a stable kernel before I really
using Adeos. So Adeos is in its default configuration and I haven't
Xenomai modules when these hangs occur.
I'm currently running the 184.108.40.206 <http://220.127.116.11> kernel with the
2.6.14-1.0-12 patch of
adeos and then I included your msi.c patch from the previous
e-mail. If you
have any further hints or suggestions I'll try them. Meanwhile I'm
different versions of various drivers (e1000 and scsi) as well as
the patch level of the kernel itself.
Try upgrading the kernel. The kernel usually comes with updated drivers
as well. Currently I'm running 2.6.16-rc2, which I had to patch manually
for Adeos (about 3 'hunks' from the 2.6.15-i386-1.2-00 patch didn't
apply properly). By using 2.6.16-rc2, I got much better Intel
(especially i865 graphics) chipset support than 2.6.15. Note, however,
that I did the bug fixing in this thread on a plain 2.6.15, though (and
the msi.c code is nearly identical).
I would recommend upgrading to 2.6.15 with the latest Adeos patch and
try to get a stable system before enabling MSI.
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