Re: Recent commits reject RPi4B booting: pcib0 vs. pcib1 "rman_manage_region: <pcib1 memory window> request" leads to panic

On 2/14/24 9:57 AM, Mark Millard wrote:
> On Feb 14, 2024, at 08:08, John Baldwin <jhb@FreeBSD.org> wrote:
> 
>> On 2/12/24 5:57 PM, Mark Millard wrote:
>>> On Feb 12, 2024, at 16:36, Mark Millard <marklmi@yahoo.com> wrote:
>>>> On Feb 12, 2024, at 16:10, Mark Millard <marklmi@yahoo.com> wrote:
>>>>
>>>>> On Feb 12, 2024, at 12:00, Mark Millard <marklmi@yahoo.com> wrote:
>>>>>
>>>>>> [Gack: I was looking at the wrong vintage of source code, predating
>>>>>> your changes: wrong system used.]
>>>>>>
>>>>>>
>>>>>> On Feb 12, 2024, at 10:41, Mark Millard <marklmi@yahoo.com> wrote:
>>>>>>
>>>>>>> On Feb 12, 2024, at 09:32, John Baldwin <jhb@freebsd.org> wrote:
>>>>>>>
>>>>>>>> On 2/9/24 8:13 PM, Mark Millard wrote:
>>>>>>>>> Summary:
>>>>>>>>> pcib0: <BCM2838-compatible PCI-express controller> mem 0x7d500000-0x7d50930f irq 80,81 on simplebus2
>>>>>>>>> pcib0: parsing FDT for ECAM0:
>>>>>>>>> pcib0:  PCI addr: 0xc0000000, CPU addr: 0x600000000, Size: 0x40000000
>>>>>>>>> . . .
>>>>>>>>> rman_manage_region: <pcib1 memory window> request: start 0x600000000, end 0x6000fffff
>>>>>>>>> panic: Failed to add resource to rman
>>>>>>>>
>>>>>>>> Hmmm, I suspect this is due to the way that bus_translate_resource works which is
>>>>>>>> fundamentally broken.  It rewrites the start address of a resource in-situ instead
>>>>>>>> of keeping downstream resources separate from the upstream resources.   For example,
>>>>>>>> I don't see how you could ever release a resource in this design without completely
>>>>>>>> screwing up your rman.  That is, I expect trying to detach a PCI device behind a
>>>>>>>> translating bridge that uses the current approach should corrupt the allocated
>>>>>>>> resource ranges in an rman long before my changes.
>>>>>>>>
>>>>>>>> That said, that doesn't really explain the panic.  Hmm, the panic might be because
>>>>>>>> for PCI bridge windows the driver now passes RF_ACTIVE and the bus_translate_resource
>>>>>>>> hack only kicks in the activate_resource method of pci_host_generic.c.
>>>>>>>>
>>>>>>>>> Detail:
>>>>>>>>> . . .
>>>>>>>>> pcib0: <BCM2838-compatible PCI-express controller> mem 0x7d500000-0x7d50930f irq 80,81 on simplebus2
>>>>>>>>> pcib0: parsing FDT for ECAM0:
>>>>>>>>> pcib0: PCI addr: 0xc0000000, CPU addr: 0x600000000, Size: 0x40000000
>>>>>>>>
>>>>>>>> This indicates this is a translating bus.
>>>>>>>>
>>>>>>>>> pcib1: <PCI-PCI bridge> irq 91 at device 0.0 on pci0
>>>>>>>>> rman_manage_region: <pcib1 bus numbers> request: start 0x1, end 0x1
>>>>>>>>> pcib0: rman_reserve_resource: start=0xc0000000, end=0xc00fffff, count=0x100000
>>>>>>>>> rman_reserve_resource_bound: <PCIe Memory> request: [0xc0000000, 0xc00fffff], length 0x100000, flags 102, device pcib1
>>>>>>>>> rman_reserve_resource_bound: trying 0xffffffff <0xc0000000,0xfffff>
>>>>>>>>> considering [0xc0000000, 0xffffffff]
>>>>>>>>> truncated region: [0xc0000000, 0xc00fffff]; size 0x100000 (requested 0x100000)
>>>>>>>>> candidate region: [0xc0000000, 0xc00fffff], size 0x100000
>>>>>>>>> allocating from the beginning
>>>>>>>>> rman_manage_region: <pcib1 memory window> request: start 0x600000000, end 0x6000fffff
>>>>>
>>>>> What you later typed does not match:
>>>>>
>>>>> 0x600000000
>>>>> 0x6000fffff
>>>>>
>>>>> You later typed:
>>>>>
>>>>> 0x60000000
>>>>> 0x600fffffff
>>>>>
>>>>> This seems to have lead to some confusion from using the
>>>>> wrong figure(s).
>>>>>
>>>>>>>> The fact that we are trying to reserve the CPU addresses in the rman is because
>>>>>>>> bus_translate_resource rewrote the start address in the resource after it was allocated.
>>>>>>>>
>>>>>>>> That said, I can't see why rman_manage_region would actually fail.  At this point the
>>>>>>>> rman is empty (this is the first call to rman_manage_region for "pcib1 memory window"),
>>>>>>>> so only the check that should be failing are the checks against rm_start and
>>>>>>>> rm_end.  For the memory window, rm_start is always 0, and rm_end is always
>>>>>>>> 0xffffffff, so both the old (0xc00000000 - 0xc00fffff) and new (0x60000000 - 0x600fffffff)
>>>>>>>> ranges are within those bounds.
>>>>>
>>>>> No:
>>>>>
>>>>> 0xffffffff
>>>>>
>>>>> .vs (actual):
>>>>>
>>>>> 0x600000000
>>>>> 0x6000fffff
>>
>> Ok, then this explains the failure if the "raw" addresses are above 4G.  I have
>> access to an emag I'm currently using to test fixes to pci_host_generic.c to
>> avoid corrupting struct resource objects.  I'll post the diff once I've got
>> something verified to work.
>>
>>> It looks to me like in sys/dev/pci/pci_pci.c the:
>>> static void
>>> pcib_probe_windows(struct pcib_softc *sc)
>>> {
>>> . . .
>>>          pcib_alloc_window(sc, &sc->mem, SYS_RES_MEMORY, 0, 0xffffffff);
>>> . . .
>>> is just inappropriately restrictive about where in the system
>>> address space a PCIe can validly be mapped to on the high end.
>>> That, in turn, leads to the rejection on the RPi4B now that
>>> the range use is checked.
>>
>> No, the physical register in PCI-PCI bridges is only 32-bits.  Only the
>> prefetchable BAR supports 64-bit addresses.
> 
> Just for my edification . . .
> 
> As I understand, SYS_RES_MEMORY for the BCM2711
> means the 35 bit addressing space in the BCM2711,
> not a PCIe device internal address range that
> corresponds. Am I wrong about that?
> 
> If I'm wrong, what does identify the 35 bit
> addressing space in the BCM2711?
> 
> If I'm correct, then the 0..0xffffffff
> seems to be from the wrong address space up
> front. Or, may be, the SYS_RES_MEMORY and the
> 0xffffffff argments are not related as I
> expected and the 0xffffffff is not a
> SYS_RES_MEMORY value?

We use SYS_RES_MEMORY for both address spaces.  SYS_RES_MEMORY is more of
an address space "type" and doesn't necessarily name a single, unique
address space.  The way to think about these address spaces is instances
of 'struct rman'.  There's a global 'struct rman' in the arm64 nexus
driver that represents the CPU physical memory address space.  The
pci_host_generic driver contains its own 'struct rman' instances that
represent the SYS_RES_MEMORY (for memory PCI BARs) and SYS_RES_IOPORT
(for I/O port PCI BARs) address spaces.

Put another way, SYS_RES_MEMORY names an I/O memory address space
relative to a device's given position in the tree.  For a given device
node in the tree, SYS_RES_MEMORY is unique, but what it maps onto is
defined by a parent bus device.

-- 
John Baldwin