[PATCH v5 1/2] dt-bindings: i2c: Add support for ASPEED i2Cv2
Ryan Chen
ryan_chen at aspeedtech.com
Wed Feb 22 13:59:26 AEDT 2023
Hello Krzysztof,
> -----Original Message-----
> From: Krzysztof Kozlowski <krzysztof.kozlowski at linaro.org>
> Sent: Tuesday, February 21, 2023 7:05 PM
> To: Ryan Chen <ryan_chen at aspeedtech.com>; Rob Herring
> <robh+dt at kernel.org>; Krzysztof Kozlowski
> <krzysztof.kozlowski+dt at linaro.org>; Joel Stanley <joel at jms.id.au>; Andrew
> Jeffery <andrew at aj.id.au>; Philipp Zabel <p.zabel at pengutronix.de>;
> openbmc at lists.ozlabs.org; linux-arm-kernel at lists.infradead.org;
> linux-aspeed at lists.ozlabs.org; linux-kernel at vger.kernel.org
> Subject: Re: [PATCH v5 1/2] dt-bindings: i2c: Add support for ASPEED i2Cv2
>
> On 21/02/2023 11:42, Ryan Chen wrote:
> >>>>> + type: boolean
> >>>>> + description: Enable i2c bus timeout for master/slave (35ms)
> >>>>
> >>>> Why this is property for DT? It's for sure not bool, but proper
> >>>> type coming from units.
> >>> This is i2c controller feature for enable slave mode inactive
> >>> timeout and also master mode sda/scl auto release timeout.
> >>> So I will modify to
> >>> aspeed,timeout:
> >>> type: boolean
> >>> description: I2C bus timeout enable for master/slave mode
> >>
> >> This does not answer my concerns. Why this is board specific?
> > Sorry, can’t catch your point.
> > It is not board specific. It is controller feature.
> > ASPEED SOC chip is server product, master connect may have fingerprint
> > connect to another board. And also support hotplug.
> > For example I2C controller as slave mode, and suddenly disconnected.
> > Slave state machine will keep waiting for master clock in for rx/tx transfer.
> > So it need timeout setting to enable timeout unlock controller state.
> > And in another side. As master mode, slave is clock stretching.
> > The master will be keep waiting, until slave release cll stretching.
>
> OK, thanks for describing the feature. I still do not see how this is DT related.
Let me draw more about the board-specific.
The following is an example about i2c layout in board.
Board A Board B
-------------------------------------------------------- --------------------------------------------------------
| i2c bus#1(master/slave) <--------------------> fingerprint.(can be unplug) <--------------------> i2c bus#x (master/slave) |
| i2c bus#2(master) -> tmp i2c device | | |
| i2c bus#3(master) -> adc i2c device | | |
-------------------------------------------------------- --------------------------------------------------------
In this case i2c bus#1 need enable timeout, avoid suddenly unplug the connector. That slave will keep state to drive clock stretching.
So it is specific enable in i2c bus#1. Others is not needed enable timeout.
Does this draw is more clear in scenario?
> >
> > So in those reason add this timeout design in controller.
>
> You need to justify why DT is correct place for this property. DT is not for
> configuring OS, but to describe hardware. I gave you one possibility
> - why different boards would like to set this property. You said it is not board
> specific, thus all boards will have it (or none of them).
> Without any other reason, this is not a DT property. Drop.
>
> >>
> >>>
> >>>>> +
> >>>>> + byte-mode:
> >>>>> + type: boolean
> >>>>> + description: Force i2c driver use byte mode transmit
> >>>>
> >>>> Drop, not a DT property.
> >>>>
> >>>>> +
> >>>>> + buff-mode:
> >>>>> + type: boolean
> >>>>> + description: Force i2c driver use buffer mode transmit
> >>>>
> >>>> Drop, not a DT property.
> >>>>
> >>> The controller support 3 different for transfer.
> >>> Byte mode: it means step by step to issue transfer.
> >>> Example i2c read, each step will issue interrupt then enable next step.
> >>> Sr (start read) | D | D | D | P
> >>> Buffer mode: it means, the data can prepare into buffer register,
> >>> then Trigger transfer. So Sr D D D P, only have only 1 interrupt handling.
> >>> The DMA mode most like with buffer mode, The differ is data prepare
> >>> in DRAM, than trigger transfer.
> >>>
> >>> So, should I modify to
> >>> aspeed,byte:
> >>> type: boolean
> >>> description: Enable i2c controller transfer with byte mode
> >>>
> >>> aspeed,buff:
> >>> type: boolean
> >>> description: Enable i2c controller transfer with buff mode
> >>
> >> 1. No, these are not bools but enum in such case.
> >
> > Thanks, will modify following.
> > aspeed,xfer_mode:
> > enum: [0, 1, 2]
> > description:
> > 0: byte mode, 1: buff_mode, 2: dma_mode
>
> Just keep it text - byte, buffered, dma
>
> >
> >> 2. And why exactly this is board-specific?
> >
> > No, it not depends on board design. It is only for register control for
> controller transfer behave.
> > The controller support 3 different trigger mode for transfer.
> > Assign bus#1 ~ 3 : dma tranfer and assign bus#4 ~ 6 : buffer mode
> > transfer, That can reduce the dram usage.
>
> Then anyway it does not look like property for Devicetree. DT describes
> hardware, not OS behavior.
The same draw, in this case, i2c bus#1 that is multi-master transfer architecture.
Both will inactive with trunk data. That cane enable i2c#1 use DMA transfer to reduce CPU utilized.
Others (bus#2/3) can keep byte/buff mode.
Board A Board B
-------------------------------------------------------- --------------------------------------------------------
| i2c bus#1(master/slave) <--------------------> fingerprint.(can be unplug) <--------------------> i2c bus#x (master/slave) |
| i2c bus#2(master) -> tmp i2c device | | |
| i2c bus#3(master) -> adc i2c device | | |
-------------------------------------------------------- --------------------------------------------------------
Best regards,
Ryan
More information about the Linux-aspeed
mailing list