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SubjectRe: [RFC PATCH 00/11] pci: support for configurable PCI endpoint
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Hi Arnd,

On Monday 26 September 2016 11:38 AM, Kishon Vijay Abraham I wrote:
> Hi Arnd,
>
> On Thursday 22 September 2016 07:04 PM, Arnd Bergmann wrote:
>> On Thursday, September 15, 2016 2:03:05 PM CEST Kishon Vijay Abraham I wrote:
>>> On Wednesday 14 September 2016 06:55 PM, Arnd Bergmann wrote:
>>>> On Wednesday, September 14, 2016 10:41:56 AM CEST Kishon Vijay Abraham I wrote:
>>>> I've added the drivers/ntb maintainers to Cc, given that there is
>>>> a certain degree of overlap between your work and the existing
>>>> code, I think they should be part of the discussion.
>>>>
>>>>> Known Limitation:
>>>>> *) Does not support multi-function devices
>>>>
>>>> If I understand it right, this was a problem for USB and adding
>>>> it later made it somewhat inconsistent. Maybe we can at least
>>>> try to come up with an idea of how multi-function devices
>>>> could be handled even if we don't implement it until someone
>>>> actually needs it.
>>>
>>> Actually IMO multi-function device in PCI should be much simpler than it is for
>>> USB. In the case of USB, all the functions in a multi-function device will
>>> share the same *usb configuration* . (USB device can have multiple
>>> configuration but only one can be enabled at a time). A multi-function USB
>>> device will still have a single vendor-id/product-id/class... So I think a
>>> separate library (composite.c) in USB makes sense.
>>
>> Ok, makes sense.
>>
>>> But in the case of PCI, every function can be treated independently since all
>>> the functions have it's own 4KB configuration space. Each function can be
>>> configured independently. Each can have it's own vendor-id/product-id/class..
>>> I'm not sure if we'll need a separate library for PCI like we have for USB.
>>
>> I think it depends on whether we want to add the software multi-function
>> support you mention.
>>
>>> Now the restriction for not allowing multi-function device is because of the
>>> following structure definition.
>>>
>>> struct pci_epc {
>>> ..
>>> struct pci_epf *epf;
>>> ..
>>> };
>>>
>>> EPC has a single reference to EPF and it is used *only* to notify the function
>>> driver when the link is up. (If this can be changed to use notification
>>> mechanism, multi-function devices can be supported here)
>>>
>>> One more place where this restriction arises is in designware driver
>>>
>>> struct dw_pcie_ep {
>>> ..
>>> u8 bar_to_atu[6];
>>> ..
>>> };
>>>
>>> We use single ATU window to configure a BAR (in BAR). If there are multiple
>>> functions, then this should also be modified since each function has 6 BARs.
>>>
>>> This can be fixed without much effort unless some other issue props up.
>>
>> Ok.
>>
>>>>
>>>> Is your hardware able to make the PCIe endpoint look like
>>>> a device with multiple PCI functions, or would one have to
>>>> do this in software inside of a single PCI function if we
>>>> ever need it?
>>>
>>> The hardware I have doesn't support multiple PCI functions (like having a
>>> separate configuration space for each function). It has a dedicated space for
>>> configuration space supporting only one function. [Section 24.9.7.3.2
>>> PCIe_SS_EP_CFG_DBICS Register Description in [1]].
>>>
>>> yeah, it has to be done in software (but that won't be multi-function device in
>>> PCI terms).
>>>
>>> [1] -> http://www.ti.com/lit/ug/spruhz6g/spruhz6g.pdf
>>
>> Ok, so in theory there can be other hardware (and quite likely is)
>> that supports multiple functions, and we can extend the framework
>> to support them without major obstacles, but your hardware doesn't,
>> so you kept it simple with one hardcoded function, right?
>
> right, PCIe can have upto 8 functions. So the issues with the current framework
> has to be fixed. I don't expect major obstacles with this as of now.
>>
>> Seems completely reasonable to me.
>>
>>>>> TODO:
>>>>> *) access buffers in RC
>>>>> *) raise MSI interrupts
>>>>> *) Enable user space control for the RC side PCI driver
>>>>
>>>> The user space control would end up just being one of several
>>>> gadget drivers, right? E.g. gadget drivers for standard hardware
>>>> (8250 uart, ATA, NVMe, some ethernet) could be done as kernel
>>>> drivers while a user space driver can be used for things that
>>>> are more unusual and that don't need to interface to another
>>>> part of the kernel?
>>>
>>> Actually I didn't mean that. It was more with respect to the host side PCI test
>>> driver (drivers/misc/pci_endpoint_test.c). Right now it validates BAR, irq
>>> itself. I wanted to change this so that the user controls which tests to run.
>>> (Like for USB gadget zero tests, testusb.c invokes ioctls to perform various
>>> tests). Similarly I want to have a userspace program invoke pci_endpoint_test
>>> to perform various PCI tests.
>>
>> Ok, I see. So what I described above would be yet another function
>> driver that can be implemented, but so far, you have not planned
>> to do that because there was not need, right?
>
> right. I felt pci_endpoint_test is the generic function that would be of
> interest to all the vendors. Any new function can be added by taking
> pci_endpoint_test as a reference.
>
> The simple usecase I plan to work on after completing the framework is to have
> a camera sensor in one board and display in another board (the boards connected
> using PCIe) and the display showing the the camera capture.
>>
>>>>
>>>>> *) Adapt all other users of designware to use the new design (only
>>>>> dra7xx has been adapted)
>>>>
>>>> I don't fully understand this part. Does every designware based
>>>> driver need modifications, or are the changes to the
>>>> generic parts of the designware driver enough to make it
>>>> work for the simpler platforms?
>>>
>>> I have changed the core designware driver structures (like previously the
>>> platform drivers will only use pcie_port, but now I introduced struct dw_pcie
>>> to support both host and endpoint). This will break (compilation failure) all
>>> the designware based drivers (except dra7xx). All these drivers should be
>>> adapted to the new change (even if they work only in host mode these has to be
>>> adapted).
>>
>> Ah, so we have to do two separate modifications to each designware driver:
>>
>> a) make it work with your patch (mandatory)
>> b) make it support endpoint mode (optional)
>
> yes.
>>
>>>>> HOW TO:
>>>>>
>>>>> ON THE EP SIDE:
>>>>> ***************
>>>>>
>>>>> /* EP function is configured using configfs */
>>>>> # mount -t configfs none /sys/kernel/config
>>>>>
>>>>> /* PCI EP core layer creates "pci_ep" entry in configfs */
>>>>> # cd /sys/kernel/config/pci_ep/
>>>>>
>>>>> /*
>>>>> * This is the 1st step in creating an endpoint function. This
>>>>> * creates the endpoint function device *instance*. The string
>>>>> * before the .<num> suffix will identify the driver this
>>>>> * EP function will bind to.
>>>>> * Just pci_epf_test is also valid. The .<num> suffix is used
>>>>> * if there are multiple PCI controllers and all of them wants
>>>>> * to use the same function.
>>>>> */
>>>>> # mkdir pci_epf_test.0
>>>>
>>>> I haven't used USB gadgets, but I assume this is modeled around
>>>> the same interface. If there are notable differences, please mention
>>>> what they are. Otherwise the general concept seems rather nice to me.
>>>
>>> Yeah, both USB gadget and PCI endpoint use configfs interface but the semantics
>>> are quite different.
>>>
>>> Every directory in *usb_gadget* corresponds to a gadget device, and the gadget
>>> device has a functions sub-directory which has the USB functions. And these
>>> directories have fields or attributes specific to USB.
>>>
>>> But in the case of PCI, every directory in *pci_ep* corresponds to a PCI
>>> function and it has fields or attributes specific to PCI function.
>>
>> Ok, I see.
>>
>>> The main reason for using configfs for PCI endpoint is to give the users to
>>> control "which function has to be bound to which controller". The same concept
>>> is used for USB gadget as well but there it is "which gadget device has to be
>>> bound to which controller".
>>
>> We should still find out whether it's important that you can have
>> a single PCI function with a software multi-function support of some
>> sort. We'd still be limited to six BARs in total, and would also need
>> something to identify those sub-functions, so implementing that might
>> get quite hairy.

Thought a bit on how to implement this and felt we should have the following
entities:-
* Function (or main function)
* sub-Function
* device

Function: a single PCI function (as defined in the PCI specification with a
separate configuration space). It will have control over the PCI header, manage
BAR's and interrupts. It may or may not have sub-functions (sub-functions can
be one or many).
Managing BAR's: The sub-functions will not have information
about BAR's. It will just request the number of
address space it requires to the main *function*. The
main function will allocate one BAR for each such
request based on the BAR availability.

Managing interrupts:
FOR MSI: Say each main function is capable of supporting 32 MSI
interrupts. Each sub-function can request 'n' number
of interrupts. (The sub-function will not be aware of
the MSI number allocated to it). For each
sub-function the interrupts will be numbered from
'1..n'. The main function will map the sub-function
interrupt to MSI interrupt number.

For legacy: No management is required, since one interrupt
line will be shared by all sub-functions. The host
driver will check the interrupt status register.

Is there any thing else that has to be managed by the main Function?

Here the framework should be modified to add a new interface between the
sub-function and main Function. A *simple* main Function should also be added
to manage only the BARs and interrupts. For any special use case, new main
Function has to be created.
The host side driver for this main function will be bound to it using the
existing PCI host side mechanism. (using device id/vendor id/class code etc..).

sub-Function: Not defined in PCI specification. It will be *part* of the main
function. There can be one or more sub-function within a main function. Each
sub-function within a main function will be independent of each other.
It will request the number of local address space required and the number of
MSI interrupts from the main function.
Each sub-function should have a separate host side driver. But how do we bind
the host side driver with the sub-function? Here the existing host side PCI
framework won't work.

Some options for binding sub-function to it's host side driver:
Have a separate vendor-id/product id for each sub function. (But the *pci_dev*
for the sub-function will not be created by host side PCI framework. The PCI
framework shouldn't also have to do it because this is not standard).

The main *function* driver will scan the list of it's sub-functions (We can
make the 1st BAR to be used by main *Function* and have these informations
there.) and for each function it creates a new *pci_dev* allocating the memory
resources. This way the sub-function host side driver can be created just like
a regular PCI driver. I'm not sure if creating a pci_dev from a pci driver will
have any adverse effects.

The other option is to define a new type of device (say pci_func_dev) and make
the main *function* driver create these devices when it is getting probed. For
binding, we can maybe just use a compatible string populated by the
sub-function driver when it registers with the main function driver. Since this
doesn't use an existing data structure, this should not be very difficult to
implement.

With either options, lspci won't list any sub-functions.

device: one or more function (main function) will constitute a device. This
shouldn't be too difficult to implement.

I think most of the complexity lies in the design of sub-function. Please let
me know your thoughts and other ideas.

Thanks
Kishon

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