Re: [RFC PATCH v2 1/3] add mikrobus descriptors to greybus_manifest

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Hi Zoran,

Thank you for your review,
On Mon, Aug 31, 2020 at 11:56 AM Zoran Stojsavljevic
<zoran.stojsavljevic@xxxxxxxxx> wrote:
>
> Hello Vaishnav,
>
> I should say, an excellent work on the greybus_manifest.h file.
>
> Actually, my thoughts will be to have a two-stage commit of the whole
> MikroBUS patch.
>
> The first one are these changes with greybus_manifest.h, followed by
> dependent mikrobus_core.h and mikrobus_manifest.h.
>
> These two should have included #include
> <linux/greybus/greybus_manifest.h> to reflect the correct hierarchical
> structure.
>
> The rest is with the mikrobus driver .c code.
>
> It is just an observation from me, I guess, it is obvious.
>
Sure, we can split up the mikrobus driver patch into two parts and
still ensure that each patch builds without errors, will fix this in the
next version.
> My two cent worth comment,
> Zoran
> _______
>
> On Thu, Aug 20, 2020 at 2:49 AM Vaishnav M A <vaishnav@xxxxxxxxxxxxxxx> wrote:
> >
> > Hi,
> >
> > Trying to add more information regarding the newly added
> > descriptors and describe how they are used now within the
> > mikroBUS driver.
> >
> > On Tue, Aug 18, 2020 at 6:18 PM Vaishnav M A <vaishnav@xxxxxxxxxxxxxxx> wrote:
> > >
> > > This patch adds new descriptors used in the manifest parsing inside
> > > the mikrobus driver, the device descriptor help to describe the
> > > devices on a mikroBUS port, mikrobus descriptor is used to set up
> > > the mikrobus port pinmux and GPIO states and property descriptor
> > > to pass named properties to device drivers through the Unified
> > > Properties API under linux/property.h
> > >
> > > The corresponding pull request for manifesto is updated
> > > at : https://github.com/projectara/manifesto/pull/2
> > >
> > > Signed-off-by: Vaishnav M A <vaishnav@xxxxxxxxxxxxxxx>
> > > ---
> > >  include/linux/greybus/greybus_manifest.h | 47 ++++++++++++++++++++++++
> > >  1 file changed, 47 insertions(+)
> > >
> > > diff --git a/include/linux/greybus/greybus_manifest.h b/include/linux/greybus/greybus_manifest.h
> > > index 6e62fe478712..821661ea7f01 100644
> > > --- a/include/linux/greybus/greybus_manifest.h
> > > +++ b/include/linux/greybus/greybus_manifest.h
> > > @@ -23,6 +23,9 @@ enum greybus_descriptor_type {
> > >         GREYBUS_TYPE_STRING             = 0x02,
> > >         GREYBUS_TYPE_BUNDLE             = 0x03,
> > >         GREYBUS_TYPE_CPORT              = 0x04,
> > > +       GREYBUS_TYPE_MIKROBUS           = 0x05,
> >
> > The mikrobus descriptor is used to pass information about
> > the specific pinmux settings and the default GPIO states on
> > the mikrobus port to be set up for the add-on board to work
> > correctly, this descriptor has 12 u8 fields(corresponding  to the
> > 12 pins on the mikrobus port) which includes information
> > about the prior setup required on the mikroBUS port for the
> > device(s) on the add-on board to work correctly. The mikrobus
> > descriptor is a fixed-length descriptor and there will be only a
> > single instance of mikrobus descriptor per add-on board manifest.
> >
> > > +       GREYBUS_TYPE_PROPERTY           = 0x06,
> >
> > The property descriptors are used to pass named properties
> > to the device drivers through the Unified device property interface
> > under linux/property.h , so that device drivers using the
> > device_property_read_* call can get the named properties,
> > the mikrobus driver fetches the information from the manifest
> > binary and forms a corresponding `struct property_entry` which
> > will be attached to the `struct device`.
> > The property descriptor is a variable-length descriptor similar
> > to the string descriptor and there can be multiple instances of
> > property descriptor per add-on board manifest.
> >
> > > +       GREYBUS_TYPE_DEVICE             = 0x07,
> >
> > The device descriptor is used to describe a device on the
> > mikrobus port and has necessary fields from `struct i2c_board_info`
> > and `struct spi_board_info` to describe a device on these buses
> > in a mikrobus port, even though  SPI/I2C device info structs are used
> > this descriptor has enough information to describe other kinds of
> > devices relevant to mikrobus as well.(serdev/platform devices).
> > The device descriptor is a fixed-length descriptor and there can be
> > multiple instances of device descriptors in an add-on board manifest
> > in cases where the add-on board presents more than one device
> > to the host.
> >
> > >  };
> > >
> > >  enum greybus_protocol {
> > > @@ -151,6 +154,47 @@ struct greybus_descriptor_cport {
> > >         __u8    protocol_id;    /* enum greybus_protocol */
> > >  } __packed;
> > >
> > > +/*
> > > + * A mikrobus descriptor is used to describe the details
> > > + * about the bus ocnfiguration for the add-on board
> > > + * connected to the mikrobus port.
> > > + */
> > > +struct greybus_descriptor_mikrobus {
> > > +       __u8 pin_state[12];
> > > +} __packed;
> > > +
> >
> > These 12 u8 fields describe the state of the pins in the
> > mikrobus port(in clock wise order starting from the PWM
> > pin)
> > mikrobus v2 standard specification :
> > https://download.mikroe.com/documents/standards/mikrobus/mikrobus-standard-specification-v200.pdf
> > This struct is filled from the mikrobus-descriptor
> > in the manifest and can have one of the values
> > for each pin group:
> > MIKROBUS_STATE_INPUT = 0x01,
> > MIKROBUS_STATE_OUTPUT_HIGH = 0x02,
> > MIKROBUS_STATE_OUTPUT_LOW = 0x03,
> > MIKROBUS_STATE_PWM = 0x04,  ( applicable only to  PWM pin)
> > MIKROBUS_STATE_SPI = 0x05, ( applicable only to
> > the group of MOSI, MISO, SCK , CS pins on mikroBUS port)
> > MIKROBUS_STATE_I2C = 0x06, (applicable only to the SCL, SDA
> > pins on the mikrobus port)
> > MIKROBUS_STATE_UART = 0x07,(applicable only to the RX, TX
> > pins on the mikrobus port)
> > There are two purposes for adding this descriptor,
> > 1) for some add-on boards some of the pins might need to
> > be configured as GPIOs deviating from their reserved purposes
> > An example for this case is an SHT15 Click (https://www.mikroe.com/sht1x-click),
> > where the SCL and SDA Pins need to be configured as GPIOs
> > for the driver (drivers/hwmon/sht15.c) to work. The mikrobus
> > descriptor for this case would look like this :
> > [mikrobus-descriptor]
> > pwm-state = 4 (default, pwm)
> > int-state = 1 (default, input)
> > rx-state = 7 (default, uart)
> > tx-state = 7 (default, uart)
> > scl-state = 3 (note the SCL Pin configured as GPIO)
> > sda-state = 3 (note the SCL Pin configured as GPIO)
> > mosi-state = 5 (default, spi)
> > miso-state = 5 (default, spi)
> > sck-state = 5 (default, spi)
> > cs-state = 5 (default, spi)
> > rst-state = 2 (default, GPIO)
> > an-state = 1 (default, input)
> > 2) for some add-on boards the driver may not take care
> > of some additional signals like reset/wake-up/other thus
> > the mikrobus driver can set-up these GPIOs to a required
> > default state from the information from the manifest, a good
> > example for this is the  ENC28J60 click (https://www.mikroe.com/eth-click)
> > where the reset line(RST pin on the mikrobus port) needs to be
> > pulled high. The manifest example for this add-on board can
> > be found here :
> > https://github.com/vaishnav98/manifesto/blob/mikrobusv3/manifests/ETH-CLICK.mnfs
> >
> > > +/*
> > > + * A property descriptor is used to pass named properties
> > > + * to device drivers through the unified device properties
> > > + * interface under linux/property.h
> > > + */
> > > +struct greybus_descriptor_property {
> > > +       __u8 length;
> > > +       __u8 id;
> > > +       __u8 propname_stringid;
> > > +       __u8 type;
> > > +       __u8 value[0];
> > > +} __packed;
> > > +
> >
> > This descriptor is used to fill in `struct property_entry`
> > (linux/property.h), the propname_stringid
> > field is used to map to the corresponding string descriptor
> > which has the property name, the type field has the types
> > under dev_prop_type (linux/property.h) and there are
> > some new types which are used within the mikrobus
> > driver, these are the new types :
> > MIKROBUS_PROPERTY_TYPE_LINK = 0x01
> > MIKROBUS_PROPERTY_TYPE_GPIO = 0x02
> >
> > The property-link type is used to attach an array of properties
> > to the corresponding device, for example, consider an SPI
> > EEPROM device which works with the AT25 driver(
> > drivers/misc/eeprom/at25.c), The device and property
> > descriptor parts of the manifest will look like this.
> >
> > [device-descriptor 1]
> > driver-string-id = 3
> > prop-link = 1 (The ID of the property-descriptor which
> > contains the list of IDs of the actual properties to attach with
> > the device)
> > protocol = 0xb
> > reg = 0
> > mode = 0x3
> > max-speed-hz = 5000000
> > [string-descriptor 3]
> > string = at25 (driver string)
> >
> > [property-descriptor 1]
> > name-string-id = 4
> > type = 0x01 (type is property-link)
> > value = <2 3 4>(attach properties with id 2,3,4 to the device)
> > [string-descriptor 4]
> > string = prop-link
> >
> > [property-descriptor 2]
> > name-string-id = 5 (string id for the property name string)
> > type = 0x05 (U32, driver uses device_property_read_u32 call
> > to read the value)
> > value = <262144>
> > [string-descriptor 5]
> > string = size (property name string)
> >
> > [property-descriptor 3]
> > name-string-id = 6
> > type = 0x05
> > value = <256>
> > [string-descriptor 6]
> > string = pagesize
> >
> > [property-descriptor 4]
> > name-string-id = 7
> > type = 0x05
> > value = <24>
> > [string-descriptor 7]
> > string = address-width
> >
> > The gpio-link type is very similar to property descriptor and is used to
> > pass an array of named gpios to the device driver through GPIO lookup tables,
> > consider an example for a SHT15 device (drivers/hwmon/sht15.c),
> > the device and the property(gpio) descriptors are as follows :
> >
> > [device-descriptor 1]
> > driver-string-id = 3
> > protocol = 0xfe
> > reg = 0
> > gpio-link = 1 (The ID of the property-descriptor which
> > contains the list of IDs of the named gpio properties to attach with
> > the device)
> >
> > [string-descriptor 3]
> > string = sht11 (device_id string)
> >
> > [property-descriptor 1]
> > name-string-id = 4
> > type = 0x02 (gpio-link)
> > value = <2 3> (attach properties with id 2,3 as named gpios to the device)
> > [string-descriptor 4]
> > string = gpio-link
> >
> > [property-descriptor 2]
> > name-string-id = 5
> > type = 0x03
> > value = <4>
> > [string-descriptor 5]
> > string = clk (name of the GPIO, the driver uses
> > devm_gpiod_get or similar calls to get the GPIO)
> >
> > [property-descriptor 3]
> > name-string-id = 6
> > type = 0x03
> > value = <5>
> > [string-descriptor 6]
> > string = data
> >
> > Note that the values here 4 and 5 for the GPIOs are
> > the offset numbers(clockwise starting from PWM pin)
> > within a mikrobus port, the mikrobus drivers translates this
> > offset information to the actual GPIO while creating the GPIO
> > lookup table, this ensures that the manifest doesn't have any
> > port-specific information and a single manifest can be used for
> > an add-on board over different platforms/sockets.
> >
> > > +/*
> > > + * A device descriptor is used to describe the
> > > + * details required by a add-on board device
> > > + * driver.
> > > + */
> > > +struct greybus_descriptor_device {
> > > +       __u8 id;
> > > +       __u8 driver_stringid;
> > > +       __u8 protocol;
> > > +       __u8 reg;
> > > +       __le32 max_speed_hz;
> > > +       __u8 irq;
> > > +       __u8 irq_type;
> > > +       __u8 mode;
> > > +       __u8 prop_link;
> > > +       __u8 gpio_link;
> > > +       __u8 pad[3];
> > > +} __packed;
> > > +
> >
> > The device descriptor is used to describe a device on the
> > mikrobus port and has necessary fields from `struct i2c_board_info`
> > and `struct spi_board_info`, of these fields, the irq field is similar to
> > the gpio descriptor value above in that the value under irq is also
> > the pin offset within the mikrobus port which will be translated to the
> > actual GPIO within the mikrobus driver and the irq-type takes types
> > defined under linux/interrupt.h . For a device with a
> > IRQF_TRIGGER_RISING interrupt on the INT pin on the mikrobus port
> > the fields will be :
> > irq = 1 (offset of INT pin)
> > irq_type = 1 ( IRQF_TRIGGER_RISING)
> >
> > >  struct greybus_descriptor_header {
> > >         __le16  size;
> > >         __u8    type;           /* enum greybus_descriptor_type */
> > > @@ -164,6 +208,9 @@ struct greybus_descriptor {
> > >                 struct greybus_descriptor_interface     interface;
> > >                 struct greybus_descriptor_bundle        bundle;
> > >                 struct greybus_descriptor_cport         cport;
> > > +               struct greybus_descriptor_mikrobus      mikrobus;
> > > +               struct greybus_descriptor_property      property;
> > > +               struct greybus_descriptor_device        device;
> > >         };
> > >  } __packed;
> > >
> > > --
> > > 2.25.1
> > >
> > Thanks and Regards,
> > Vaishnav
Thanks and Regards,
Vaishnav
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