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SubjectRe: [PATCH 2/3] PCI: designware: use untranslated address while programming ATU
Hi Pratyush,

On Thursday 26 June 2014 12:03 PM, Pratyush Anand wrote:
> Hi Kishon,
>
> On Thu, Jun 26, 2014 at 02:10:02PM +0800, Kishon Vijay Abraham I wrote:
>> Hi Pratyush,
>>
>> On Thursday 26 June 2014 11:07 AM, Pratyush Anand wrote:
>>> Hi Kishon,
>>>
>>> Few things, if you can help me to understand:
>>>
>>> On Wed, Jun 25, 2014 at 11:26 PM, Kishon Vijay Abraham I <kishon@ti.com> wrote:
>>>> In DRA7, the cpu sees 32bit address, but the pcie controller can see only 28bit
>>>> address. So whenever the cpu issues a read/write request, the 4 most
>>>> significant bits are used by L3 to determine the target controller.
>>>> For example, the cpu reserves 0x2000_0000 - 0x2FFF_FFFF for PCIe controller but
>>>> the PCIe controller will see only (0x000_0000 - 0xFFF_FFF). So for programming
>>>> the outbound translation window the *base* should be programmed as 0x000_0000.
>>>> Whenever we try to write to say 0x2000_0000, it will be translated to whatever
>>>> we have programmed in the translation window with base as 0x000_0000.
>>>>
>>>> This is needed when the dt node is modelled something like below
>>>> axi {
>>>> compatible = "simple-bus";
>>>> #size-cells = <1>;
>>>> #address-cells = <1>;
>>>> ranges = <0x0 0x20000000 0x10000000 // 28-bit bus
>>>> 0x51000000 0x51000000 0x3000>;
>>>> pcie@51000000 {
>>>> reg = <0x1000 0x2000>, <0x51002000 0x14c>, <0x51000000 0x2000>;
>>>> reg-names = "config", "ti_conf", "rc_dbics";
>>>
>>> So for DRA7, config base which will be coming from reg property should
>>> be 0x1000 and size 0x2000, no?
>>
>> right. The first element in 'reg' and 'reg-names' specify exactly that.
>>>
>>>> #address-cells = <3>;
>>>> #size-cells = <2>;
>>>> ranges = <0x81000000 0 0 0x03000 0 0x00010000
>>>
>>> range type 0x81000000 tells that it is IO
>>>
>>>> 0x82000000 0 0x20013000 0x13000 0 0xffed000>;
>>>
>>> range type 0x81000000 tells that it is mem
>>>
>>>
>>>> };
>>>> };
>>>>
>>>> Here the CPU address for configuration space is 0x20013000 and the controller
>>>> address for configuration space is 0x13000. The controller address should
>>> be
>>>
>>> If above understanding is correct then:
>>>
>>> Aren't these addresses(0x20013000 and 0x13000) from mem space
>>> instead of configuration space.
>>
>> Sorry. I didn't get you. Configuration space is different from mem space and IO
>> space. We specify only the configuration space in "reg", the IO space and
>> memory space should be specified in ranges.
>>
>> In my case
>> configuration space range: 0x20001000 - 0x20002fff
>> IO space range: 0x20003000 - 0x20012fff
>> Mem space range: 0x20013000 - 0x2fffffff
>>
>> Here only the configuration space is obtained from 'reg' and 'IO' and 'MEM'
>> space is obtained from ranges.
>>>
>>> If yes, then how can you get two addresses (CPU and Controller address)
>>> from reg property for configuration space?
>>
>> I used platform_get_resource_byname() to get CPU address and of_get_address()
>> to get the untranslated controller address.
>
> This is what I am not able to understand that how does
> platform_get_resource_byname gives correct CPU address from reg =
> <0x1000 0x2000>?
>
> cfg_res = platform_get_resource_byname(pdev, IORESOURCE_MEM, "config");
>
> how cfg_res->start is now 0x20001000? Shouldn't cfg_res->start be
> 0x1000?
>
> What am I missing?

IIUC, converting to the cpu address happens long back when the platform device
is created from dt node.

See if the following makes sense to you.

starting from drivers/of/platform.c
of_device_alloc() -> of_address_to_resource() -> __of_address_to_resource() ->
of_translate_address() -> __of_translate_address() -> of_translate_one() ->
of_bus_default_translate()

So the 'resource' in 'struct platform_device' already holds the translated
address. platform_get_resource_byname() just returns the resource from this
platform device.

Cheers
Kishon


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