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Message-ID: <4524393.8AzpATULMB@wuerfel>
Date:	Tue, 04 Feb 2014 11:09:44 +0100
From:	Arnd Bergmann <arnd@...db.de>
To:	Liviu Dudau <Liviu.Dudau@....com>
Cc:	linux-pci <linux-pci@...r.kernel.org>,
	Bjorn Helgaas <bhelgaas@...gle.com>,
	Catalin Marinas <Catalin.Marinas@....com>,
	Will Deacon <Will.Deacon@....com>,
	LKML <linux-kernel@...r.kernel.org>,
	"devicetree@...r.kernel.org" <devicetree@...r.kernel.org>,
	LAKML <linux-arm-kernel@...ts.infradead.org>,
	linaro-kernel <linaro-kernel@...ts.linaro.org>
Subject: Re: [PATCH] pci: Add support for creating a generic host_bridge from device tree

On Monday 03 February 2014 22:17:44 Liviu Dudau wrote:
> On Mon, Feb 03, 2014 at 07:31:31PM +0000, Arnd Bergmann wrote:
> > Let's try to come up with nomenclature so we can talk about this better
> >
> > The ioport_resource is in "logical I/O space", which is a Linux fiction,
> > it goes from 0 to IO_SPACE_LIMIT (2MB on ARM) and is mapped into "virtual
> > I/O space", which start at (void __iomem *)PCI_IO_VIRT_BASE.
> >
> > Each PCI domain can have its own "bus I/O aperture", which is typically
> > between 0x1000 and 0xffff and reflects the address that is used in PCI
> > transactions and in BARs.
> 
> Actually, the bus I/O aperture can start from 0x0000 if you are talking about
> PCI bus addresses.

Right.

> > The aperture here reflects the subset of the
> > 4GB bus I/O space that is actually mapped into a CPU visible "physical
> > I/O aperture" using an inbound mapping of the host bridge. The physical
> > I/O aperture in turn gets mapped to the virtual I/O space using
> > pci_ioremap_io.
> 
> Agree.
> 
> > The difference between a bus I/O address and a logical
> > I/O address is stored in the io_offset.
> 
> Not exactly. If that would be true that means that for an I/O range that
> start at bus I/O address zero but physical I/O apperture starts at
> 0x40000000 the io_offset is zero. For me, the io_offset should be 0x40000000.

That's not how we do it on any of the existing host controllers.
Typically the io_offset is zero for the first one, and may be
either zero for all the others (meaning BARs get > 64KB values
for secondary buses) or between 64KB and 2MB (meaning each bus
starts at I/O port number 0).

> Let me see if I can summarise this correctly, using only CPU addresses:
> 
> 0x0000 - IO_SPACE_LIMIT           <-  logical I/O address
> 0xPPPPPPPP - 0xPPPPPPPP+IO_SIZE   <-  physical address for PCI I/O space
> 0xVVVVVVVV - 0xVVVVVVVV+IO_SPACE_LIMIT <- virtual address for I/O
> 
> The io_offset then is 0xPPPPPPPP - logical I/O address. At least that is
> the intent of the io_offset variable that I introduced in pci_host_bridge.

That is highly confusing then, because we already have something called
io_offset with a different meaning. I would call 0xPPPPPPPP the io_phys_base
if I had to come up with a variable name for it.

> The bus I/O address is generated by the host bridge, I think we can ignore
> it here as it tends to confuse the message.

No, it's important because the PCI core code has to transform between
bus I/O address and logical I/O address when accessing the BARs.

> > So much for basic definitions. When a device driver calls pci_request_region,
> > the port number it sees is the bus I/O port number adjusted using the
> > io_offset to turn it into a logical I/O port number, which should
> > always be within the host bridge window, which in turn is a subset
> > of the ioport_resource.
> 
> My understanding is that device drivers all user port numbers that are logical
> I/O numbers, so no io_offset needs to be applied here. It is only when one
> wants to access the port, that the translation happens. First, inb or outb
> will add the PCI_IO_VIRT_BASE to generate the virtual address, the MMU will
> then convert that address to physical address and the host bridge will
> then translate the physical address into bus address.

This is correct. The bus I/O number is not visible to the device driver,
but it is what you put into the 'ranges' property in DT, and it gets
used during PCI resource scanning.


> > > And that is why the code in probe.c has been added to deal with that. It is
> > > too early to do the adjustments here as all we have is the list of resources
> > > and that might get culled by the architecture fixup code. Remembering the
> > > io_offset will happen once the pci_host_bridge gets created, and the resources
> > > are then adjusted.
> >
> > So you want to register an incorrect I/O resource first and then
> > have it fixed up later, rather than registering the correct
> > one from the start as everyone else?
> 
> The incorrect I/O resource is added to a temporary list of resources, it has not
> been attached yet to the list of windows in the bridge. What gets added is the
> I/O resource as described if it would be an ordinary resource.

I'm not completely sure I'm following here, but let's work out the
other things first, this will probably get clearer then.

> > > > > diff --git a/drivers/pci/probe.c b/drivers/pci/probe.c
> > > > > index 6e34498..16febae 100644
> > > > > --- a/drivers/pci/probe.c
> > > > > +++ b/drivers/pci/probe.c
> > > > > @@ -1787,6 +1787,17 @@ struct pci_bus *pci_create_root_bus(struct device *parent, int bus,
> > > > >     list_for_each_entry_safe(window, n, resources, list) {
> > > > >             list_move_tail(&window->list, &bridge->windows);
> > > > >             res = window->res;
> > > > > +           /*
> > > > > +            * IO resources are stored in the kernel with a CPU start
> > > > > +            * address of zero. Adjust the data accordingly and remember
> > > > > +            * the offset
> > > > > +            */
> > > > > +           if (resource_type(res) == IORESOURCE_IO) {
> > > > > +                   bridge->io_offset = res->start;
> > > > > +                   res->end -= res->start;
> > > > > +                   window->offset -= res->start;
> > > > > +                   res->start = 0;
> > > > > +           }
> 
> Here, we correct for the fact that IORESOURCE_IO is not a normal resource, because Linux wants
> a logical I/O as start and end address, not the physical CPU address. We adjust to that and
> remember the offset.

But the offset (phys_base) doesn't actually matter to the PCI core or
the driver. Why save it?

> > > > >             offset = window->offset;
> > > > >             if (res->flags & IORESOURCE_BUS)
> > > >
> > > > Won't this break all existing host bridges?
> > >
> > > I am not sure. I believe not, due to what I've explained earlier, but you might be right.
> > >
> > > The adjustment happens before the resource is added to the host bridge windows and translates
> > > it from MMIO range into IO range.
> >
> > AFAICT, the resource_type of the resource you register above should be
> > IORESOURCE_MEM, so you are not actually matching it here.
> 
> No, all resources are added here. For IORESOURCE_IO we do an adjustment.

But there should never be an IORESOURCE_IO resource structure that is
not in IO space, i.e. within ioport_resource. Doing an "adjustment"
is not an operation defined on this structure. What I meant above is that
the pci range parser gets this right and gives you a resource that looks
like { .flags = IORESOURCE_MEM, .start = phys_base, .end = phys_base +
size - 1}, while the resource we want to register is { .flags = IORESOURCE_IO,
.start = log_base, .end = log_base + size -1}. In the of_pci_range struct for
the I/O space, the "pci_space" is IORESOURCE_IO (for the pci_addr), while the
"flags" are IORESOURCE_MEM, to go along with the cpu_addr.

	Arnd
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