[v2,1/1] can: ucan: add driver for Theobroma Systems UCAN devices

The UCAN driver supports the microcontroller-based USB/CAN
adapters from Theobroma Systems. There are two form-factors
that run essentially the same firmware:

* Seal: standalone USB stick ( https://www.theobroma-systems.com/seal )

* Mule: integrated on the PCB of various System-on-Modules from
  Theobroma Systems like the A31-µQ7 and the RK3399-Q7
  ( https://www.theobroma-systems.com/rk3399-q7 )

The USB wire protocol has been designed to be as generic and
hardware-indendent as possible in the hope of being useful for
implementation on other microcontrollers.

Signed-off-by: Martin Elshuber <martin.elshuber@theobroma-systems.com>

Signed-off-by: Jakob Unterwurzacher <jakob.unterwurzacher@theobroma-systems.com>

Signed-off-by: Philipp Tomsich <philipp.tomsich@theobroma-systems.com>

---
 Documentation/networking/can_ucan_protocol.rst |  315 +++++
 Documentation/networking/index.rst             |    1 +
 drivers/net/can/usb/Kconfig                    |   10 +
 drivers/net/can/usb/Makefile                   |    1 +
 drivers/net/can/usb/ucan.c                     | 1587 ++++++++++++++++++++++++
 5 files changed, 1914 insertions(+)
 create mode 100644 Documentation/networking/can_ucan_protocol.rst
 create mode 100644 drivers/net/can/usb/ucan.c

-- 
2.11.0

On 03/13/2018 06:53 PM, Jakob Unterwurzacher wrote:
> On 13.03.18 18:44, Marc Kleine-Budde wrote:

>> On 03/13/2018 06:35 PM, Jakob Unterwurzacher wrote:

>>

>> [...]

>>

>> Please mark all multibyte values going over the USB as either le or be.

> 

> This is documented in can_ucan_protocol.rst,

> 

>      All multi-byte integers are encoded as Little Endian.

> 

> but it's probably worth mentioning here as well.


Yes, but in the code, use "__le16" and "__le32" instead of "u16" and "u32"

Marc

-- 
Pengutronix e.K.                  | Marc Kleine-Budde           |
Industrial Linux Solutions        | Phone: +49-231-2826-924     |
Vertretung West/Dortmund          | Fax:   +49-5121-206917-5555 |
Amtsgericht Hildesheim, HRA 2686  | http://www.pengutronix.de   |

On 03/13/2018 06:35 PM, Jakob Unterwurzacher wrote:
> The UCAN driver supports the microcontroller-based USB/CAN

> adapters from Theobroma Systems. There are two form-factors

> that run essentially the same firmware:

> 

> * Seal: standalone USB stick ( https://www.theobroma-systems.com/seal )

> 

> * Mule: integrated on the PCB of various System-on-Modules from

>   Theobroma Systems like the A31-µQ7 and the RK3399-Q7

>   ( https://www.theobroma-systems.com/rk3399-q7 )

> 

> The USB wire protocol has been designed to be as generic and

> hardware-indendent as possible in the hope of being useful for

> implementation on other microcontrollers.

> 

> Signed-off-by: Martin Elshuber <martin.elshuber@theobroma-systems.com>

> Signed-off-by: Jakob Unterwurzacher <jakob.unterwurzacher@theobroma-systems.com>

> Signed-off-by: Philipp Tomsich <philipp.tomsich@theobroma-systems.com>

> ---

>  Documentation/networking/can_ucan_protocol.rst |  315 +++++

>  Documentation/networking/index.rst             |    1 +

>  drivers/net/can/usb/Kconfig                    |   10 +

>  drivers/net/can/usb/Makefile                   |    1 +

>  drivers/net/can/usb/ucan.c                     | 1587 ++++++++++++++++++++++++

>  5 files changed, 1914 insertions(+)

>  create mode 100644 Documentation/networking/can_ucan_protocol.rst

>  create mode 100644 drivers/net/can/usb/ucan.c

> 

> diff --git a/Documentation/networking/can_ucan_protocol.rst b/Documentation/networking/can_ucan_protocol.rst

> new file mode 100644

> index 000000000000..d859b36200b4

> --- /dev/null

> +++ b/Documentation/networking/can_ucan_protocol.rst

> @@ -0,0 +1,315 @@

> +=================

> +The UCAN Protocol

> +=================

> +

> +UCAN is the protocol used by the microcontroller-based USB-CAN

> +adapter that is integrated on System-on-Modules from Theobroma Systems

> +and that is also available as a standalone USB stick.

> +

> +The UCAN protocol has been designed to be hardware-independent.

> +It is modeled closely after how Linux represents CAN devices

> +internally. All multi-byte integers are encoded as Little Endian.

> +

> +All structures mentioned in this document are defined in

> +``drivers/net/can/usb/ucan.c``.

> +

> +USB Endpoints

> +=============

> +

> +UCAN devices use three USB endpoints:

> +

> +CONTROL endpoint

> +  The driver sends device management commands on this endpoint

> +

> +IN endpoint

> +  The device sends CAN data frames and CAN error frames

> +

> +OUT endpoint

> +  The driver sends CAN data frames on the out endpoint

> +

> +

> +CONTROL Messages

> +================

> +

> +UCAN devices are configured using vendor requests on the control pipe.

> +

> +To support multiple CAN interfaces in a single USB device all

> +configuration commands target the corresponding interface in the USB

> +descriptor.

> +

> +The driver uses ``ucan_ctrl_command_in/out`` and

> +``ucan_device_request_in`` to deliver commands to the device.

> +

> +Setup Packet

> +------------

> +

> +=================  =====================================================

> +``bmRequestType``  Direction | Vendor | (Interface or Device)

> +``bRequest``       Command Number

> +``wValue``         Subcommand Number (16 Bit) or 0 if not used

> +``wIndex``         USB Interface Index (0 for device commands)

> +``wLength``        * Host to Device - Number of bytes to transmit

> +                   * Device to Host - Maximum Number of bytes to

> +                     receive. If the device send less. Commom ZLP

> +                     semantics are used.

> +=================  =====================================================

> +

> +Error Handling

> +--------------

> +

> +The device indicates failed control commands by stalling the

> +pipe.

> +

> +Device Commands

> +---------------

> +

> +UCAN_DEVICE_GET_FW_STRING

> +~~~~~~~~~~~~~~~~~~~~~~~~~

> +

> +*Dev2Host; optional*

> +

> +Request the device firmware string.

> +

> +

> +Interface Commands

> +------------------

> +

> +UCAN_COMMAND_START

> +~~~~~~~~~~~~~~~~~~

> +

> +*Host2Dev; mandatory*

> +

> +Bring the CAN interface up.

> +

> +Payload Format

> +  ``ucan_ctl_payload_t.cmd_start``

> +

> +====  ============================

> +mode  or mask of ``UCAN_MODE_*``

> +====  ============================

> +

> +UCAN_COMMAND_STOP

> +~~~~~~~~~~~~~~~~~~

> +

> +*Host2Dev; mandatory*

> +

> +Stop the CAN interface

> +

> +Payload Format

> +  *empty*

> +

> +UCAN_COMMAND_RESET

> +~~~~~~~~~~~~~~~~~~

> +

> +*Host2Dev; mandatory*

> +

> +Reset the CAN controller (including error counters)

> +

> +Payload Format

> +  *empty*

> +

> +UCAN_COMMAND_GET

> +~~~~~~~~~~~~~~~~

> +

> +*Host2Dev; mandatory*

> +

> +Get Information from the Device

> +

> +Subcommands

> +^^^^^^^^^^^

> +

> +UCAN_COMMAND_GET_INFO

> +  Request the device information structure ``ucan_ctl_payload_t.device_info``.

> +

> +  See the ``device_info`` field for details, and

> +  ``uapi/linux/can/netlink.h`` for an explanation of the

> +  ``can_bittiming fields``.

> +

> +  Payload Format

> +    ``ucan_ctl_payload_t.device_info``

> +

> +UCAN_COMMAND_GET_PROTOCOL_VERSION

> +

> +  Request the device protocol version

> +  ``ucan_ctl_payload_t.protocol_version``. The current protocol version is 3.

> +

> +  Payload Format

> +    ``ucan_ctl_payload_t.protocol_version``

> +

> +.. note:: Devices that do not implement this command use the old

> +          protocol version 1

> +

> +UCAN_COMMAND_SET_BITTIMING

> +~~~~~~~~~~~~~~~~~~~~~~~~~~

> +

> +*Host2Dev; mandatory*

> +

> +Setup bittiming by sending the the structure

> +``ucan_ctl_payload_t.cmd_set_bittiming`` (see ``struct bittiming`` for

> +details)

> +

> +Payload Format

> +  ``ucan_ctl_payload_t.cmd_set_bittiming``.

> +

> +UCAN_SLEEP/WAKE

> +~~~~~~~~~~~~~~~

> +

> +*Host2Dev; optional*

> +

> +Configure sleep and wake modes. Not yet supported by the driver.

> +

> +UCAN_FILTER

> +~~~~~~~~~~~

> +

> +*Host2Dev; optional*

> +

> +Setup hardware CAN filters. Not yet supported by the driver.

> +

> +Allowed interface commands

> +--------------------------

> +

> +==================  ===================  ==================

> +Legal Device State  Command              New Device State

> +==================  ===================  ==================

> +stopped             SET_BITTIMING        stopped

> +stopped             START                started

> +started             STOP or RESET        stopped

> +stopped             STOP or RESET        stopped

> +started             RESTART              started

> +any                 GET                  *no change*

> +==================  ===================  ==================

> +

> +IN Message Format

> +=================

> +

> +A data packet on the USB IN endpoint contains one or more

> +``ucan_message_in`` values. If multiple messages are batched in a USB

> +data packet, the ``len`` field can be used to jump to the next

> +``ucan_message_in`` value (take care to sanity-check the ``len`` value

> +against the actual data size).

> +

> +.. _can_ucan_in_message_len:

> +

> +``len`` field

> +-------------

> +

> +Each ``ucan_message_in`` must be aligned to a 4-byte boundary (relative

> +to the start of the start of the data buffer). That means that there

> +may be padding bytes between multiple ``ucan_message_in`` values:

> +

> +.. code::

> +

> +    +----------------------------+ < 0

> +    |                            |

> +    |   struct ucan_message_in   |

> +    |                            |

> +    +----------------------------+ < len

> +              [padding]

> +    +----------------------------+ < round_up(len, 4)

> +    |                            |

> +    |   struct ucan_message_in   |

> +    |                            |

> +    +----------------------------+

> +                [...]

> +

> +``type`` field

> +--------------

> +

> +The ``type`` field specifies the type of the message.

> +

> +UCAN_IN_RX

> +~~~~~~~~~~

> +

> +``subtype``

> +  zero

> +

> +Data received from the CAN bus (ID + payload).

> +

> +UCAN_IN_TX_COMPLETE

> +~~~~~~~~~~~~~~~~~~~

> +

> +``subtype``

> +  zero

> +

> +The CAN device has sent a message to the CAN bus. It answers with a

> +set of echo-ids from previous UCAN_OUT_TX messages

> +

> +Flow Control

> +------------

> +

> +When receiving CAN messages there is no flow control on the USB

> +buffer. The driver has to handle inbound message quickly enough to

> +avoid drops. I case the device buffer overflow the condition is

> +reported by sending corresponding error frames (see

> +:ref:`can_ucan_error_handling`)

> +

> +

> +OUT Message Format

> +==================

> +

> +A data packet on the USB OUT endpoint contains one or more ``struct

> +ucan_message_out`` values. If multiple messages are batched into one

> +data packet, the device uses the ``len`` field to jump to the next

> +ucan_message_out value. Each ucan_message_out must be aligned to 4

> +bytes (relative to the start of the data buffer). The mechanism is

> +same as described in :ref:`can_ucan_in_message_len`.

> +

> +.. code::

> +

> +    +----------------------------+ < 0

> +    |                            |

> +    |   struct ucan_message_out  |

> +    |                            |

> +    +----------------------------+ < len

> +              [padding]

> +    +----------------------------+ < round_up(len, 4)

> +    |                            |

> +    |   struct ucan_message_out  |

> +    |                            |

> +    +----------------------------+

> +                [...]

> +

> +``type`` field

> +--------------

> +

> +In protocol version 3 only ``UCAN_OUT_TX`` is defined, others are used

> +only by legacy devices (protocol version 1).

> +

> +UCAN_OUT_TX

> +~~~~~~~~~~~

> +``subtype``

> +  echo id to be replied within a CAN_IN_TX_COMPLETE message

> +

> +Transmit a CAN frame. (parameters: ``id``, ``data``)

> +

> +Flow Control

> +------------

> +

> +When the device outbound buffers are full it starts sending *NAKs* on

> +the *OUT* pipe until more buffers are available. The driver stops the

> +queue when a certain threshold of out packets are incomplete.

> +

> +.. _can_ucan_error_handling:

> +

> +CAN Error Handling

> +==================

> +

> +If error reporting is turned on the device encodes errors into CAN

> +error frames (see ``uapi/linux/can/error.h``) and sends it using the

> +IN endpoint. The driver updates its error statistics and forwards

> +it.

> +

> +Although UCAN devices can suppress error frames completely, in Linux

> +the driver is always interested. Hence, the device is always started with

> +the ``UCAN_MODE_BERR_REPORT`` set. Filtering those messages for the

> +user space is done by the driver.

> +

> +Example Conversation

> +====================

> +

> +#) Device is connected to USB

> +#) Host sends command ``UCAN_COMMAND_RESET``, subcmd 0

> +#) Host sends command ``UCAN_COMMAND_GET``, subcmd ``UCAN_COMMAND_GET_INFO``

> +#) Device sends ``UCAN_IN_DEVICE_INFO``

> +#) Host sends command ``UCAN_OUT_SET_BITTIMING``

> +#) Host sends command ``UCAN_COMMAND_START``, subcmd 0, mode ``UCAN_MODE_BERR_REPORT``

> diff --git a/Documentation/networking/index.rst b/Documentation/networking/index.rst

> index 90966c2692d8..18903968cebf 100644

> --- a/Documentation/networking/index.rst

> +++ b/Documentation/networking/index.rst

> @@ -8,6 +8,7 @@ Contents:

>  

>     batman-adv

>     can

> +   can_ucan_protocol

>     kapi

>     z8530book

>     msg_zerocopy

> diff --git a/drivers/net/can/usb/Kconfig b/drivers/net/can/usb/Kconfig

> index c36f4bdcbf4f..490cdce1f1da 100644

> --- a/drivers/net/can/usb/Kconfig

> +++ b/drivers/net/can/usb/Kconfig

> @@ -89,4 +89,14 @@ config CAN_MCBA_USB

>  	  This driver supports the CAN BUS Analyzer interface

>  	  from Microchip (http://www.microchip.com/development-tools/).

>  

> +config CAN_UCAN

> +	tristate "Theobroma Systems UCAN interface"

> +	---help---

> +	  This driver supports the Theobroma Systems

> +	  UCAN USB-CAN interface.

> +

> +	  UCAN is an microcontroller-based USB-CAN interface that

> +	  is integrated on System-on-Modules made by Theobroma Systems

> +	  (https://www.theobroma-systems.com/som-products).

> +

>  endmenu

> diff --git a/drivers/net/can/usb/Makefile b/drivers/net/can/usb/Makefile

> index 49ac7b99ba32..4176e8358232 100644

> --- a/drivers/net/can/usb/Makefile

> +++ b/drivers/net/can/usb/Makefile

> @@ -10,3 +10,4 @@ obj-$(CONFIG_CAN_KVASER_USB) += kvaser_usb.o

>  obj-$(CONFIG_CAN_PEAK_USB) += peak_usb/

>  obj-$(CONFIG_CAN_8DEV_USB) += usb_8dev.o

>  obj-$(CONFIG_CAN_MCBA_USB) += mcba_usb.o

> +obj-$(CONFIG_CAN_UCAN) += ucan.o

> diff --git a/drivers/net/can/usb/ucan.c b/drivers/net/can/usb/ucan.c

> new file mode 100644

> index 000000000000..61348e8c4747

> --- /dev/null

> +++ b/drivers/net/can/usb/ucan.c

> @@ -0,0 +1,1587 @@

> +// SPDX-License-Identifier: GPL-2.0

> +

> +/* Driver for Theobroma Systems UCAN devices Protocol Version 3

> + *

> + * Copyright (C) 2018 Theobroma Systems Design und Consulting GmbH

> + *

> + *

> + * General Description:

> + *

> + * The USB Device uses three Endpoints:

> + *

> + *   CONTROL Endpoint: Is used the setup the device (start, stop,

> + *   info, configure).

> + *

> + *   IN Endpoint: The device sends CAN Frame Messages and Device

> + *   Information using the IN endpoint.

> + *

> + *   OUT Endpoint: The driver sends configuration requests, and CAN

> + *   Frames on the out endpoint.

> + *

> + * Error Handling:

> + *

> + *   If error reporting is turned on the device encodes error into CAN

> + *   error frames (see uapi/linux/can/error.h) and sends it using the

> + *   IN Endpoint. The driver updates statistics and forward it.

> + */

> +

> +#include <linux/can.h>

> +#include <linux/can/dev.h>

> +#include <linux/can/error.h>

> +#include <linux/module.h>

> +#include <linux/netdevice.h>

> +#include <linux/signal.h>

> +#include <linux/skbuff.h>

> +#include <linux/slab.h>

> +#include <linux/usb.h>

> +

> +#include <linux/can.h>

> +#include <linux/can/dev.h>

> +#include <linux/can/error.h>

> +

> +#define UCAN_MAX_RX_URBS 8

> +/* the CAN controller needs a while to enable/disable the bus */

> +#define UCAN_USB_CTL_PIPE_TIMEOUT 1000

> +/* this driver currently supports protocol version 3 only */

> +#define UCAN_PROTOCOL_VERSION_MIN 3

> +#define UCAN_PROTOCOL_VERSION_MAX 3

> +

> +/* UCAN Message Definitions --------------------------------------------

> + *

> + *  ucan_message_out_t and ucan_message_in_t define the messages

> + *  transmitted on the OUT and IN endpoint.

> + *

> + *  Multibyte fields are transmitted with little endianness

> + *

> + *  INTR Endpoint: a single uint32_t storing the current space in the fifo

> + *

> + *  OUT Endpoint: single message of type ucan_message_out_t is

> + *    transmitted on the out endpoint

> + *

> + *  IN Endpoint: multiple messages ucan_message_in_t concateted in

> + *    the following way:

> + *

> + *	m[n].len <=> the length if message n(including the header in bytes)

> + *	m[n] is is aligned to a 4 byte boundary, hence

> + *	  offset(m[0])	 := 0;

> + *	  offset(m[n+1]) := offset(m[n]) + (m[n].len + 3) & 3

> + *

> + *	this implies that

> + *	  offset(m[n]) % 4 <=> 0

> + */

> +

> +/* Device Global Commands */

> +enum {

> +	UCAN_DEVICE_GET_FW_STRING = 0,

> +};

> +

> +/* UCAN Commands */

> +enum {

> +	/* start the can transceiver - val defines the operation mode */

> +	UCAN_COMMAND_START    = 0,


Just one spaces in front of the '='.

> +	/* cancel pending transmissions and stop the can transceiver */

> +	UCAN_COMMAND_STOP     = 1,

> +	/* send can transceiver into low-power sleep mode */

> +	UCAN_COMMAND_SLEEP    = 2,

> +	/* wake up can transceiver from low-power sleep mode */

> +	UCAN_COMMAND_WAKEUP   = 3,

> +	/* reset the can transceiver */

> +	UCAN_COMMAND_RESET    = 4,

> +	/* get piece of info from the can transceiver - subcmd defines what

> +	 * piece

> +	 */

> +	UCAN_COMMAND_GET      = 5,

> +	/* clear or disable hardware filter - subcmd defines which of the two */

> +	UCAN_COMMAND_FILTER   = 6,

> +	/* Setup bittiming */

> +	UCAN_COMMAND_SET_BITTIMING = 7,

> +	/* recover from bus-off state */

> +	UCAN_COMMAND_RESTART  = 8,

> +};

> +

> +/* UCAN_COMMAND_START and UCAN_COMMAND_GET_INFO operation modes (bitmap).

> + * Undefined bits must be set to 0.

> + */

> +enum {

> +	UCAN_MODE_LOOPBACK    = (1 << 0),


Use BIT()

> +	UCAN_MODE_SILENT      = (1 << 1),

> +	UCAN_MODE_3_SAMPLES   = (1 << 2),

> +	UCAN_MODE_ONE_SHOT    = (1 << 3),

> +	UCAN_MODE_BERR_REPORT = (1 << 4),

> +};

> +

> +/* UCAN_COMMAND_GET subcommands */

> +enum {

> +	UCAN_COMMAND_GET_INFO             = 0,

> +	UCAN_COMMAND_GET_PROTOCOL_VERSION = 1,

> +};

> +

> +/* UCAN_COMMAND_FILTER subcommands */

> +enum {

> +	UCAN_FILTER_CLEAR     = 0,

> +	UCAN_FILTER_DISABLE   = 1,

> +	UCAN_FILTER_ENABLE    = 2,

> +};

> +

> +/* OUT endpoint message types */

> +enum {

> +	UCAN_OUT_TX = 2, /* transmit a CAN frame */

> +};

> +

> +/* IN endpoint message types */

> +enum {

> +	UCAN_IN_TX_COMPLETE = 1,  /* CAN frame transmission completed */

> +	UCAN_IN_RX          = 2,  /* CAN frame received */

> +};

> +

> +struct ucan_ctl_cmd_start {

> +	u16 mode;            /* oring any of UCAN_MODE_* */


__le16 as discussed in the previous mail.

> +} __packed;

> +

> +struct ucan_ctl_cmd_set_bittiming {

> +	u32 tq;		     /* Time quanta (TQ) in nanoseconds */


__le32

> +	u16 brp;	     /* TQ Prescaler */

> +	u16 sample_point;    /* Samplepoint on tenth percent */

> +	u8 prop_seg;	     /* Propagation segment in TQs */

> +	u8 phase_seg1;	     /* Phase buffer segment 1 in TQs */

> +	u8 phase_seg2;	     /* Phase buffer segment 2 in TQs */

> +	u8 sjw;		     /* Synchronisation jump width in TQs */

> +} __packed;

> +

> +struct ucan_ctl_cmd_device_info {

> +	u32 freq;   /* Clock Frequency for tq generation */

> +	u8 tx_fifo; /* Size of the transmission fifo */

> +	u8 sjw_max;   /* can_bittiming fields... */

> +	u8 tseg1_min;

> +	u8 tseg1_max;

> +	u8 tseg2_min;

> +	u8 tseg2_max;

> +	u16 brp_inc;

> +	u32 brp_min;

> +	u32 brp_max; /* ...can_bittiming fields */

> +	u16 ctrlmodes; /* supported control modes */

> +	u16 hwfilter;  /* Number of HW filter banks */

> +	u16 rxmboxes;  /* Number of receive Mailboxes */

> +} __packed;

> +

> +struct ucan_ctl_cmd_get_protocol_version {

> +	u32 version;

> +} __packed;

> +

> +union ucan_ctl_payload {

> +	/***************************************************

> +	 * Setup Bittiming

> +	 * bmRequest == UCAN_COMMAND_START

> +	 ***************************************************/

> +	struct ucan_ctl_cmd_start cmd_start;

> +	/***************************************************

> +	 * Setup Bittiming

> +	 * bmRequest == UCAN_COMMAND_SET_BITTIMING

> +	 ***************************************************/

> +	struct ucan_ctl_cmd_set_bittiming cmd_set_bittiming;

> +	/***************************************************

> +	 * Get Device Information

> +	 * bmRequest == UCAN_COMMAND_GET; wValue = UCAN_COMMAND_GET_INFO

> +	 ***************************************************/

> +	struct ucan_ctl_cmd_device_info cmd_get_device_info;

> +	/***************************************************

> +	 * Get Protocol Version

> +	 * bmRequest == UCAN_COMMAND_GET;

> +	 * wValue = UCAN_COMMAND_GET_PROTOCOL_VERSION

> +	 ***************************************************/

> +	struct ucan_ctl_cmd_get_protocol_version cmd_get_protocol_version;

> +

> +	u8 raw[128];

> +} __packed;

> +

> +enum {

> +	UCAN_TX_COMPLETE_SUCCESS = (1 << 0),

> +};

> +

> +/* Transmission Complete within ucan_message_in */

> +struct ucan_tx_complete_entry_t {

> +	u8 echo_id;

> +	u8 flags;

> +}  __packed __aligned(0x2);

> +

> +/* CAN Data message format within ucan_message_in/out */

> +struct ucan_can_msg {

> +	/* note DLC is computed by

> +	 *    msg.len - sizeof (msg.len)

> +	 *	       - sizeof (msg.type)

> +	 *	       - sizeof (msg.can_msg.id)

> +	 */

> +	u32 id;

> +

> +	union {

> +		u8 data[CAN_MAX_DLEN];  /* Data of CAN frames */

> +		u8 dlc;                 /* RTR dlc */

> +	};

> +} __packed;

> +

> +/* OUT Endpoint, outbound messages */

> +struct ucan_message_out {

> +	u16 len;  /* Length of the content include header */

> +	u8  type; /* UCAN_OUT_TX and friends */


one space after 'u8'

> +	u8  subtype; /* command sub type */

> +	union {

> +		/***************************************************

> +		 * Transmit CAN frame

> +		 * (type == UCAN_TX) && ((msg.can_msg.id & CAN_RTR_FLAG) == 0)

> +		 * subtype stores the echo id

> +		 ***************************************************/

> +		struct ucan_can_msg can_msg;

> +	} msg;

> +} __packed __aligned(0x4);

> +

> +/* IN Endpoint, inbound messages */

> +struct ucan_message_in {

> +	u16 len;     /* Length of the content include header */

> +	u8  type;    /* UCAN_IN_RX and friends */

> +	u8  subtype; /* command sub type */

> +

> +	union {

> +		/***************************************************

> +		 * CAN Frame received

> +		 * (type == UCAN_IN_RX)

> +		 * && ((msg.can_msg.id & CAN_RTR_FLAG) == 0)

> +		 ***************************************************/

> +		struct ucan_can_msg can_msg;

> +

> +		/***************************************************

> +		 * CAN transmission complete

> +		 * (type == UCAN_IN_TX_COMPLETE)

> +		 ***************************************************/

> +		struct ucan_tx_complete_entry_t can_tx_complete_msg[0];

> +

> +	} __aligned(0x4) msg;

> +} __packed;

> +

> +/* Macros to calculate message lengths */

> +#define UCAN_OUT_HDR_SIZE offsetof(struct ucan_message_out, msg)

> +

> +#define UCAN_IN_HDR_SIZE offsetof(struct ucan_message_in, msg)

> +#define UCAN_IN_LEN(member) (UCAN_OUT_HDR_SIZE + sizeof(member))

> +

> +struct ucan_priv;

> +

> +/* Context Information for transmission URBs */

> +struct ucan_urb_context {

> +	struct ucan_priv *up;

> +	u32 echo_index;

> +	u8 dlc;

> +	atomic_t allocated;

> +};

> +

> +/* Information reported by the USB device */

> +struct ucan_device_info {

> +	struct can_bittiming_const bittiming_const;

> +	u8 tx_fifo;

> +};

> +

> +/* Driver private data */

> +struct ucan_priv {

> +	struct can_priv can; /* must be the first member */

> +

> +	u8 intf_index;

> +	struct usb_device *udev;

> +	struct usb_interface *intf;

> +	struct net_device *netdev;

> +

> +	struct usb_endpoint_descriptor *out_ep;

> +	struct usb_endpoint_descriptor *in_ep;

> +

> +	struct usb_anchor rx_urbs;

> +	struct usb_anchor tx_urbs;

> +

> +	union ucan_ctl_payload *ctl_msg_buffer;

> +	struct ucan_device_info device_info;

> +

> +	atomic_t available_tx_urbs;

> +	struct ucan_urb_context *tx_contexts;

> +};

> +

> +static u8 ucan_compute_dlc(u16 len, struct ucan_can_msg *msg)


We usually put pointers we're working on as first parameters.

> +{

> +	u16 res = 0;


Why is the function a u8 while res a u16?

> +

> +	if (msg->id & CAN_RTR_FLAG)

> +		res = msg->dlc;

> +	else

> +		res = len - (UCAN_IN_HDR_SIZE + sizeof(msg->id));

> +

> +	if (res > CAN_MAX_DLEN)

> +		return -1;

> +

> +	return res;

> +}

> +

> +static void ucan_release_contexts(struct ucan_priv *up)

> +{

> +	if (!up->tx_contexts)

> +		return;

> +

> +	atomic_set(&up->available_tx_urbs, 0);

> +

> +	kfree(up->tx_contexts);

> +	up->tx_contexts = NULL;

> +}

> +

> +static int ucan_allocate_contexts(struct ucan_priv *up)

> +{

> +	int i;

> +

> +	/* release contexts if any */

> +	ucan_release_contexts(up);

> +

> +	up->tx_contexts = kmalloc_array(up->device_info.tx_fifo,

> +					sizeof(*up->tx_contexts),

> +					GFP_KERNEL);

> +	if (!up->tx_contexts) {

> +		dev_err(&up->udev->dev, "Not enough memory to allocate tx contexts\n");


As fas as I know, the kernel will print an error message if kmalloc fails.

> +		return -ENOMEM;

> +	}

> +

> +	memset(up->tx_contexts, 0,

> +	       sizeof(*up->tx_contexts) * up->device_info.tx_fifo);


use kcalloc(), then you don't need the memset()

> +	for (i = 0; i < up->device_info.tx_fifo; i++) {

> +		atomic_set(&up->tx_contexts[i].allocated, 0);

> +		up->tx_contexts[i].up = up;

> +		up->tx_contexts[i].echo_index = i;

> +	}

> +

> +	atomic_set(&up->available_tx_urbs, up->device_info.tx_fifo);

> +

> +	return 0;

> +}

> +

> +static struct ucan_urb_context *ucan_allocate_context(struct ucan_priv *up)

> +{

> +	int i, allocated, avail;

> +

> +	if (!up->tx_contexts)

> +		return NULL;

> +

> +	for (i = 0; i < up->device_info.tx_fifo; i++) {

> +		allocated = atomic_cmpxchg(&up->tx_contexts[i].allocated, 0, 1);

> +		if (allocated == 0) {


if (!allocated)

> +			avail = atomic_sub_return(1, &up->available_tx_urbs);

> +			if (avail == 0)


if (!avail)

> +				netif_stop_queue(up->netdev);

> +			return &up->tx_contexts[i];

> +		}

> +	}

> +	return NULL;

> +}

> +

> +static void ucan_release_context(struct ucan_priv *up,

> +				 struct ucan_urb_context *ctx)

> +{

> +	WARN_ON_ONCE(!up->tx_contexts);

> +	if (!up->tx_contexts)


if ((WARN_ON_ONCE(!up->tx_contexts))

> +		return;

> +

> +	if (atomic_cmpxchg(&ctx->allocated, 1, 0) == 0) {

> +		dev_warn(&up->udev->dev,

> +			 "context %p (#%ld) was not allocated\n",

> +			 ctx, ctx - up->tx_contexts);


This should also not happen, right? If so, make it WARN_ON_ONCE()

> +	} else {

> +		atomic_inc(&up->available_tx_urbs);

> +		netif_wake_queue(up->netdev);

> +	}

> +}

> +

> +static int ucan_ctrl_command_out(struct ucan_priv *up,

> +				 u8 cmd,

> +				 u16 subcmd,

> +				 size_t datalen)


Why is datalen a size_t? In usb_control_msg() it's a u16.

> +{

> +	if (datalen > sizeof(union ucan_ctl_payload))

> +		return -ENOMEM;


This should or even cannot happen. You call this function directly.

> +

> +	return usb_control_msg(up->udev,

> +			usb_sndctrlpipe(up->udev, 0),

> +			cmd,

> +			USB_DIR_OUT | USB_TYPE_VENDOR | USB_RECIP_INTERFACE,

> +			cpu_to_le16(subcmd),

> +			up->intf_index,

> +			up->ctl_msg_buffer,

> +			datalen,

> +			UCAN_USB_CTL_PIPE_TIMEOUT);

> +}

> +

> +static int ucan_device_request_in(struct ucan_priv *up,

> +				  u8 cmd,

> +				  u16 subcmd,

> +				  size_t datalen)

> +{

> +	if (datalen > sizeof(union ucan_ctl_payload))

> +		return -ENOMEM;

> +

> +	return usb_control_msg(up->udev,

> +			usb_rcvctrlpipe(up->udev, 0),

> +			cmd,

> +			USB_DIR_IN | USB_TYPE_VENDOR | USB_RECIP_DEVICE,

> +			cpu_to_le16(subcmd),

> +			0,

> +			up->ctl_msg_buffer,

> +			datalen,

> +			UCAN_USB_CTL_PIPE_TIMEOUT);

> +}

> +

> +/* Parse the device information structure reported by the device and

> + * setup private variables accordingly

> + */

> +static void ucan_parse_device_info(struct ucan_priv *up,

> +				   struct ucan_ctl_cmd_device_info

> +					*ctl_cmd_device_info)

> +{

> +	struct can_bittiming_const *bittiming =

> +		&up->device_info.bittiming_const;

> +	u16 ctrlmodes;

> +

> +	/* store the data */

> +	up->can.clock.freq = le32_to_cpu(ctl_cmd_device_info->freq);

> +	up->device_info.tx_fifo = ctl_cmd_device_info->tx_fifo;

> +	strcpy(bittiming->name, "ucan");

> +	bittiming->tseg1_min = ctl_cmd_device_info->tseg1_min;

> +	bittiming->tseg1_max = ctl_cmd_device_info->tseg1_max;

> +	bittiming->tseg2_min = ctl_cmd_device_info->tseg2_min;

> +	bittiming->tseg2_max = ctl_cmd_device_info->tseg2_max;

> +	bittiming->sjw_max = ctl_cmd_device_info->sjw_max;

> +	bittiming->brp_min = le32_to_cpu(ctl_cmd_device_info->brp_min);

> +	bittiming->brp_max = le32_to_cpu(ctl_cmd_device_info->brp_max);

> +	bittiming->brp_inc = le16_to_cpu(ctl_cmd_device_info->brp_inc);

> +

> +	ctrlmodes = le16_to_cpu(ctl_cmd_device_info->ctrlmodes);

> +

> +	up->can.ctrlmode_supported = 0;

> +

> +	if (ctrlmodes & UCAN_MODE_LOOPBACK)

> +		up->can.ctrlmode_supported |= CAN_CTRLMODE_LOOPBACK;

> +	if (ctrlmodes & UCAN_MODE_SILENT)

> +		up->can.ctrlmode_supported |= CAN_CTRLMODE_LISTENONLY;

> +	if (ctrlmodes & UCAN_MODE_3_SAMPLES)

> +		up->can.ctrlmode_supported |= CAN_CTRLMODE_3_SAMPLES;

> +	if (ctrlmodes & UCAN_MODE_ONE_SHOT)

> +		up->can.ctrlmode_supported |= CAN_CTRLMODE_ONE_SHOT;

> +	if (ctrlmodes & UCAN_MODE_BERR_REPORT)

> +		up->can.ctrlmode_supported |= CAN_CTRLMODE_BERR_REPORTING;

> +}

> +

> +/* Handle a CAN error frame that we have received from the device */

> +static void ucan_handle_error_frame(struct ucan_priv *up,

> +				    struct ucan_message_in *m,

> +				    u32 canid)


canid_t?

> +{

> +	enum can_state new_state = CAN_STATE_ERROR_ACTIVE;

> +	struct net_device_stats *net_stats = &up->netdev->stats;

> +	struct can_device_stats *can_stats = &up->can.can_stats;

> +

> +	if (canid & CAN_ERR_LOSTARB)

> +		can_stats->arbitration_lost++;

> +

> +	if (canid & CAN_ERR_BUSERROR)

> +		can_stats->bus_error++;

> +

> +	if (canid & CAN_ERR_ACK)

> +		net_stats->tx_errors++;

> +

> +	if (canid & CAN_ERR_BUSOFF)

> +		new_state = CAN_STATE_BUS_OFF;

> +

> +	/* controller problems, details in data[1] */

> +	if (canid & CAN_ERR_CRTL) {

> +		u8 d1 = m->msg.can_msg.data[1];

> +

> +		if (d1 & (CAN_ERR_CRTL_RX_PASSIVE | CAN_ERR_CRTL_TX_PASSIVE))

> +			new_state = max(new_state, (enum can_state)

> +					CAN_STATE_ERROR_PASSIVE);

> +

> +		if (d1 & (CAN_ERR_CRTL_RX_WARNING | CAN_ERR_CRTL_TX_WARNING))

> +			new_state = max(new_state, (enum can_state)

> +					CAN_STATE_ERROR_WARNING);

> +

> +		if (d1 & CAN_ERR_CRTL_RX_OVERFLOW)

> +			net_stats->rx_over_errors++;

> +	}

> +

> +	/* protocol error, details in data[2] */

> +	if (canid & CAN_ERR_PROT) {

> +		u8 d2 = m->msg.can_msg.data[2];

> +

> +		if (d2 & CAN_ERR_PROT_TX)

> +			net_stats->tx_errors++;

> +		else

> +			net_stats->rx_errors++;

> +	}

> +

> +	/* we switched into a better state */

> +	if (up->can.state >= new_state) {

> +		up->can.state = new_state;

> +		return;

> +	}

> +

> +	/* we switched into a worse state */

> +	up->can.state = new_state;

> +	switch (new_state) {

> +	case CAN_STATE_BUS_OFF:

> +		can_stats->bus_off++;

> +		can_bus_off(up->netdev);

> +		netdev_info(up->netdev,

> +			    "link has gone into BUS-OFF state\n");

> +		break;

> +	case CAN_STATE_ERROR_PASSIVE:

> +		can_stats->error_passive++;

> +		break;

> +	case CAN_STATE_ERROR_WARNING:

> +		can_stats->error_warning++;

> +		break;

> +	default:

> +		break;

> +	}

> +}

> +

> +/* Callback on reception of a can frame via the IN endpoint

> + *

> + * This function allocates an skb and transferres it to the Linux

> + * network stack

> + */

> +static void ucan_rx_can_msg(struct ucan_priv *up, struct ucan_message_in *m)

> +{

> +	int len;

> +	u32 canid;


canid_t

> +	struct can_frame *cf;

> +	struct sk_buff *skb;

> +	struct net_device_stats *stats = &up->netdev->stats;

> +

> +	/* get the contents of the length field */

> +	len = le16_to_cpu(m->len);

> +

> +	/* check sanity */

> +	if (len < UCAN_IN_HDR_SIZE + sizeof(m->msg.can_msg.id)) {

> +		dev_warn(&up->udev->dev, "invalid input message len\n");

> +		return;

> +	}

> +

> +	/* handle error frames */

> +	canid = le32_to_cpu(m->msg.can_msg.id);

> +	if (canid & CAN_ERR_FLAG) {

> +		ucan_handle_error_frame(up, m, canid);

> +		/* drop frame if berr-reporting is off */

> +		if (!(up->can.ctrlmode & CAN_CTRLMODE_BERR_REPORTING))

> +			return;

> +	}

> +

> +	/* allocate skb */

> +	skb = alloc_can_skb(up->netdev, &cf);

> +	if (!skb)

> +		return;

> +

> +	/* fill the can frame */

> +	cf->can_id = le32_to_cpu(m->msg.can_msg.id);


= canid;

> +

> +	/* compute DLC taking RTR_FLAG into account */

> +	cf->can_dlc = ucan_compute_dlc(len, &m->msg.can_msg);

> +

> +	if (cf->can_dlc > CAN_MAX_DLEN) {


Just get_can_dlc();

> +		dev_warn(&up->udev->dev,

> +			 "dropping CAN frame due to DLC field\n");

> +		goto err_freeskb;

> +	}

> +

> +	if (cf->can_id & CAN_EFF_FLAG)

> +		cf->can_id &=

> +		    (CAN_EFF_MASK | CAN_EFF_FLAG | CAN_RTR_FLAG | CAN_ERR_FLAG);

> +	else

> +		cf->can_id &= (CAN_SFF_MASK | CAN_RTR_FLAG | CAN_ERR_FLAG);


What about moving the common flags in front of the if()?

> +

> +	if ((cf->can_id & CAN_RTR_FLAG) != CAN_RTR_FLAG)


if (cf->can_id & CAN_RTR_FLAG)

should be enough

> +		memcpy(cf->data, m->msg.can_msg.data, cf->can_dlc);

> +

> +	/* don't count error frames as real packets */

> +	if (!(canid & CAN_ERR_FLAG)) {

> +		stats->rx_packets++;

> +		stats->rx_bytes += cf->can_dlc;

> +	}


Please count them, too.

> +

> +	/* pass it to Linux */

> +	netif_rx(skb);

> +

> +	return;

> +err_freeskb:

> +	kfree_skb(skb);

> +}

> +

> +/* callback indicating completed transmission */

> +static void ucan_tx_complete_msg(struct ucan_priv *up,

> +				 struct ucan_message_in *m)

> +{

> +	u16 count, i;

> +	u8 echo_id;

> +	u16 len = le16_to_cpu(m->len);

> +

> +	struct ucan_urb_context *context;

> +

> +	if (len < UCAN_IN_HDR_SIZE || (len % 2 != 0)) {

> +		dev_dbg(&up->udev->dev, "%s Invalid tx complete length\n",

> +			__func__);


Can you handle packages with wrong length?

> +	}

> +

> +	count = (len - UCAN_IN_HDR_SIZE) / 2;

> +	for (i = 0; i < count; i++) {

> +		/* we did not submit such echo ids */

> +		echo_id = m->msg.can_tx_complete_msg[i].echo_id;

> +		if (echo_id >= up->device_info.tx_fifo) {

> +			up->netdev->stats.tx_errors++;

> +			dev_err(&up->udev->dev,

> +				"device answered with invalid echo_id\n");

> +			continue;

> +		}

> +

> +		context = &up->tx_contexts[echo_id];

> +		if (atomic_read(&context->allocated) == 0) {

> +			dev_err(&up->udev->dev,

> +				"device answered with unallocated echo id %d\n",

> +				echo_id);

> +			continue;

> +		}

> +

> +		if (m->msg.can_tx_complete_msg[i].flags &

> +		    UCAN_TX_COMPLETE_SUCCESS) {

> +			/* update statistics */

> +			up->netdev->stats.tx_packets++;

> +			up->netdev->stats.tx_bytes += context->dlc;

> +			can_get_echo_skb(up->netdev, context->echo_index);

> +		} else {

> +			up->netdev->stats.tx_dropped++;

> +			can_free_echo_skb(up->netdev, context->echo_index);

> +		}

> +

> +		/* Release context and restart queue if necessary */

> +		ucan_release_context(up, context);

> +	}

> +}

> +

> +/* callback on reception of a USB message */

> +static void ucan_read_bulk_callback(struct urb *urb)

> +{

> +	int ret;

> +	int pos;

> +	struct ucan_priv *up = urb->context;

> +	struct net_device *netdev = up->netdev;

> +	struct ucan_message_in *m;

> +

> +	/* the device is not up and the driver should not receive any

> +	 * data on the bulk in pipe

> +	 */

> +	WARN_ON(!up->tx_contexts);

> +	if (!up->tx_contexts) {


if (WARN_ON())

... I'll review the rest later.

regards,
Marc

-- 
Pengutronix e.K.                  | Marc Kleine-Budde           |
Industrial Linux Solutions        | Phone: +49-231-2826-924     |
Vertretung West/Dortmund          | Fax:   +49-5121-206917-5555 |
Amtsgericht Hildesheim, HRA 2686  | http://www.pengutronix.de   |

On 14.03.18 08:51, Marc Kleine-Budde wrote:
>> +		memcpy(cf->data, m->msg.can_msg.data, cf->can_dlc);

>> +

>> +	/* don't count error frames as real packets */

>> +	if (!(canid & CAN_ERR_FLAG)) {

>> +		stats->rx_packets++;

>> +		stats->rx_bytes += cf->can_dlc;

>> +	}

> Please count them, too.


We do count them, as errors!

This is what happens when you transmit a single CAN frame with nothing 
connected: "TX errors" shoots up but "RX packets" stays zero.

> root@rk3399-q7:~# ip -details -statistics link show can0

[...]
>     RX: bytes  packets  errors  dropped overrun mcast

>     0          0        0       0       0       0

>     TX: bytes  packets  errors  dropped carrier collsns

>     0          0        20425   0       0       0

Hello,

Am 13.03.2018 um 18:35 schrieb Jakob Unterwurzacher:
> The UCAN driver supports the microcontroller-based USB/CAN

> adapters from Theobroma Systems. There are two form-factors

> that run essentially the same firmware:

> 

> * Seal: standalone USB stick ( https://www.theobroma-systems.com/seal )

> 

> * Mule: integrated on the PCB of various System-on-Modules from

>    Theobroma Systems like the A31-µQ7 and the RK3399-Q7

>    ( https://www.theobroma-systems.com/rk3399-q7 )

> 

> The USB wire protocol has been designed to be as generic and

> hardware-indendent as possible in the hope of being useful for

> implementation on other microcontrollers.

> 

> Signed-off-by: Martin Elshuber <martin.elshuber@theobroma-systems.com>

> Signed-off-by: Jakob Unterwurzacher <jakob.unterwurzacher@theobroma-systems.com>

> Signed-off-by: Philipp Tomsich <philipp.tomsich@theobroma-systems.com>

> ---

>   Documentation/networking/can_ucan_protocol.rst |  315 +++++

>   Documentation/networking/index.rst             |    1 +

>   drivers/net/can/usb/Kconfig                    |   10 +

>   drivers/net/can/usb/Makefile                   |    1 +

>   drivers/net/can/usb/ucan.c                     | 1587 ++++++++++++++++++++++++

>   5 files changed, 1914 insertions(+)

>   create mode 100644 Documentation/networking/can_ucan_protocol.rst

>   create mode 100644 drivers/net/can/usb/ucan.c

> 

> diff --git a/Documentation/networking/can_ucan_protocol.rst b/Documentation/networking/can_ucan_protocol.rst

> new file mode 100644

> index 000000000000..d859b36200b4

> --- /dev/null

> +++ b/Documentation/networking/can_ucan_protocol.rst

> @@ -0,0 +1,315 @@

> +=================

> +The UCAN Protocol

> +=================

> +

> +UCAN is the protocol used by the microcontroller-based USB-CAN

> +adapter that is integrated on System-on-Modules from Theobroma Systems

> +and that is also available as a standalone USB stick.

> +

> +The UCAN protocol has been designed to be hardware-independent.

> +It is modeled closely after how Linux represents CAN devices

> +internally. All multi-byte integers are encoded as Little Endian.

> +

> +All structures mentioned in this document are defined in

> +``drivers/net/can/usb/ucan.c``.

> +

> +USB Endpoints

> +=============

> +

> +UCAN devices use three USB endpoints:

> +

> +CONTROL endpoint

> +  The driver sends device management commands on this endpoint

> +

> +IN endpoint

> +  The device sends CAN data frames and CAN error frames

> +

> +OUT endpoint

> +  The driver sends CAN data frames on the out endpoint

> +

> +

> +CONTROL Messages

> +================

> +

> +UCAN devices are configured using vendor requests on the control pipe.

> +

> +To support multiple CAN interfaces in a single USB device all

> +configuration commands target the corresponding interface in the USB

> +descriptor.

> +

> +The driver uses ``ucan_ctrl_command_in/out`` and

> +``ucan_device_request_in`` to deliver commands to the device.

> +

> +Setup Packet

> +------------

> +

> +=================  =====================================================

> +``bmRequestType``  Direction | Vendor | (Interface or Device)

> +``bRequest``       Command Number

> +``wValue``         Subcommand Number (16 Bit) or 0 if not used

> +``wIndex``         USB Interface Index (0 for device commands)

> +``wLength``        * Host to Device - Number of bytes to transmit

> +                   * Device to Host - Maximum Number of bytes to

> +                     receive. If the device send less. Commom ZLP

> +                     semantics are used.

> +=================  =====================================================

> +

> +Error Handling

> +--------------

> +

> +The device indicates failed control commands by stalling the

> +pipe.

> +

> +Device Commands

> +---------------

> +

> +UCAN_DEVICE_GET_FW_STRING

> +~~~~~~~~~~~~~~~~~~~~~~~~~

> +

> +*Dev2Host; optional*

> +

> +Request the device firmware string.

> +

> +

> +Interface Commands

> +------------------

> +

> +UCAN_COMMAND_START

> +~~~~~~~~~~~~~~~~~~

> +

> +*Host2Dev; mandatory*

> +

> +Bring the CAN interface up.

> +

> +Payload Format

> +  ``ucan_ctl_payload_t.cmd_start``

> +

> +====  ============================

> +mode  or mask of ``UCAN_MODE_*``

> +====  ============================

> +

> +UCAN_COMMAND_STOP

> +~~~~~~~~~~~~~~~~~~

> +

> +*Host2Dev; mandatory*

> +

> +Stop the CAN interface

> +

> +Payload Format

> +  *empty*

> +

> +UCAN_COMMAND_RESET

> +~~~~~~~~~~~~~~~~~~

> +

> +*Host2Dev; mandatory*

> +

> +Reset the CAN controller (including error counters)

> +

> +Payload Format

> +  *empty*

> +

> +UCAN_COMMAND_GET

> +~~~~~~~~~~~~~~~~

> +

> +*Host2Dev; mandatory*

> +

> +Get Information from the Device

> +

> +Subcommands

> +^^^^^^^^^^^

> +

> +UCAN_COMMAND_GET_INFO

> +  Request the device information structure ``ucan_ctl_payload_t.device_info``.

> +

> +  See the ``device_info`` field for details, and

> +  ``uapi/linux/can/netlink.h`` for an explanation of the

> +  ``can_bittiming fields``.

> +

> +  Payload Format

> +    ``ucan_ctl_payload_t.device_info``

> +

> +UCAN_COMMAND_GET_PROTOCOL_VERSION

> +

> +  Request the device protocol version

> +  ``ucan_ctl_payload_t.protocol_version``. The current protocol version is 3.

> +

> +  Payload Format

> +    ``ucan_ctl_payload_t.protocol_version``

> +

> +.. note:: Devices that do not implement this command use the old

> +          protocol version 1

> +

> +UCAN_COMMAND_SET_BITTIMING

> +~~~~~~~~~~~~~~~~~~~~~~~~~~

> +

> +*Host2Dev; mandatory*

> +

> +Setup bittiming by sending the the structure

> +``ucan_ctl_payload_t.cmd_set_bittiming`` (see ``struct bittiming`` for

> +details)

> +

> +Payload Format

> +  ``ucan_ctl_payload_t.cmd_set_bittiming``.

> +

> +UCAN_SLEEP/WAKE

> +~~~~~~~~~~~~~~~

> +

> +*Host2Dev; optional*

> +

> +Configure sleep and wake modes. Not yet supported by the driver.

> +

> +UCAN_FILTER

> +~~~~~~~~~~~

> +

> +*Host2Dev; optional*

> +

> +Setup hardware CAN filters. Not yet supported by the driver.

> +

> +Allowed interface commands

> +--------------------------

> +

> +==================  ===================  ==================

> +Legal Device State  Command              New Device State

> +==================  ===================  ==================

> +stopped             SET_BITTIMING        stopped

> +stopped             START                started

> +started             STOP or RESET        stopped

> +stopped             STOP or RESET        stopped

> +started             RESTART              started

> +any                 GET                  *no change*

> +==================  ===================  ==================

> +

> +IN Message Format

> +=================

> +

> +A data packet on the USB IN endpoint contains one or more

> +``ucan_message_in`` values. If multiple messages are batched in a USB

> +data packet, the ``len`` field can be used to jump to the next

> +``ucan_message_in`` value (take care to sanity-check the ``len`` value

> +against the actual data size).

> +

> +.. _can_ucan_in_message_len:

> +

> +``len`` field

> +-------------

> +

> +Each ``ucan_message_in`` must be aligned to a 4-byte boundary (relative

> +to the start of the start of the data buffer). That means that there

> +may be padding bytes between multiple ``ucan_message_in`` values:

> +

> +.. code::

> +

> +    +----------------------------+ < 0

> +    |                            |

> +    |   struct ucan_message_in   |

> +    |                            |

> +    +----------------------------+ < len

> +              [padding]

> +    +----------------------------+ < round_up(len, 4)

> +    |                            |

> +    |   struct ucan_message_in   |

> +    |                            |

> +    +----------------------------+

> +                [...]

> +

> +``type`` field

> +--------------

> +

> +The ``type`` field specifies the type of the message.

> +

> +UCAN_IN_RX

> +~~~~~~~~~~

> +

> +``subtype``

> +  zero

> +

> +Data received from the CAN bus (ID + payload).

> +

> +UCAN_IN_TX_COMPLETE

> +~~~~~~~~~~~~~~~~~~~

> +

> +``subtype``

> +  zero

> +

> +The CAN device has sent a message to the CAN bus. It answers with a

> +set of echo-ids from previous UCAN_OUT_TX messages

> +

> +Flow Control

> +------------

> +

> +When receiving CAN messages there is no flow control on the USB

> +buffer. The driver has to handle inbound message quickly enough to

> +avoid drops. I case the device buffer overflow the condition is

> +reported by sending corresponding error frames (see

> +:ref:`can_ucan_error_handling`)

> +

> +

> +OUT Message Format

> +==================

> +

> +A data packet on the USB OUT endpoint contains one or more ``struct

> +ucan_message_out`` values. If multiple messages are batched into one

> +data packet, the device uses the ``len`` field to jump to the next

> +ucan_message_out value. Each ucan_message_out must be aligned to 4

> +bytes (relative to the start of the data buffer). The mechanism is

> +same as described in :ref:`can_ucan_in_message_len`.

> +

> +.. code::

> +

> +    +----------------------------+ < 0

> +    |                            |

> +    |   struct ucan_message_out  |

> +    |                            |

> +    +----------------------------+ < len

> +              [padding]

> +    +----------------------------+ < round_up(len, 4)

> +    |                            |

> +    |   struct ucan_message_out  |

> +    |                            |

> +    +----------------------------+

> +                [...]

> +

> +``type`` field

> +--------------

> +

> +In protocol version 3 only ``UCAN_OUT_TX`` is defined, others are used

> +only by legacy devices (protocol version 1).

> +

> +UCAN_OUT_TX

> +~~~~~~~~~~~

> +``subtype``

> +  echo id to be replied within a CAN_IN_TX_COMPLETE message

> +

> +Transmit a CAN frame. (parameters: ``id``, ``data``)

> +

> +Flow Control

> +------------

> +

> +When the device outbound buffers are full it starts sending *NAKs* on

> +the *OUT* pipe until more buffers are available. The driver stops the

> +queue when a certain threshold of out packets are incomplete.

> +

> +.. _can_ucan_error_handling:

> +

> +CAN Error Handling

> +==================

> +

> +If error reporting is turned on the device encodes errors into CAN

> +error frames (see ``uapi/linux/can/error.h``) and sends it using the

> +IN endpoint. The driver updates its error statistics and forwards

> +it.

> +

> +Although UCAN devices can suppress error frames completely, in Linux

> +the driver is always interested. Hence, the device is always started with

> +the ``UCAN_MODE_BERR_REPORT`` set. Filtering those messages for the

> +user space is done by the driver.

> +

> +Example Conversation

> +====================

> +

> +#) Device is connected to USB

> +#) Host sends command ``UCAN_COMMAND_RESET``, subcmd 0

> +#) Host sends command ``UCAN_COMMAND_GET``, subcmd ``UCAN_COMMAND_GET_INFO``

> +#) Device sends ``UCAN_IN_DEVICE_INFO``

> +#) Host sends command ``UCAN_OUT_SET_BITTIMING``

> +#) Host sends command ``UCAN_COMMAND_START``, subcmd 0, mode ``UCAN_MODE_BERR_REPORT``

> diff --git a/Documentation/networking/index.rst b/Documentation/networking/index.rst

> index 90966c2692d8..18903968cebf 100644

> --- a/Documentation/networking/index.rst

> +++ b/Documentation/networking/index.rst

> @@ -8,6 +8,7 @@ Contents:

>   

>      batman-adv

>      can

> +   can_ucan_protocol

>      kapi

>      z8530book

>      msg_zerocopy

> diff --git a/drivers/net/can/usb/Kconfig b/drivers/net/can/usb/Kconfig

> index c36f4bdcbf4f..490cdce1f1da 100644

> --- a/drivers/net/can/usb/Kconfig

> +++ b/drivers/net/can/usb/Kconfig

> @@ -89,4 +89,14 @@ config CAN_MCBA_USB

>   	  This driver supports the CAN BUS Analyzer interface

>   	  from Microchip (http://www.microchip.com/development-tools/).

>   

> +config CAN_UCAN

> +	tristate "Theobroma Systems UCAN interface"

> +	---help---

> +	  This driver supports the Theobroma Systems

> +	  UCAN USB-CAN interface.

> +

> +	  UCAN is an microcontroller-based USB-CAN interface that

> +	  is integrated on System-on-Modules made by Theobroma Systems

> +	  (https://www.theobroma-systems.com/som-products).

> +

>   endmenu

> diff --git a/drivers/net/can/usb/Makefile b/drivers/net/can/usb/Makefile

> index 49ac7b99ba32..4176e8358232 100644

> --- a/drivers/net/can/usb/Makefile

> +++ b/drivers/net/can/usb/Makefile

> @@ -10,3 +10,4 @@ obj-$(CONFIG_CAN_KVASER_USB) += kvaser_usb.o

>   obj-$(CONFIG_CAN_PEAK_USB) += peak_usb/

>   obj-$(CONFIG_CAN_8DEV_USB) += usb_8dev.o

>   obj-$(CONFIG_CAN_MCBA_USB) += mcba_usb.o

> +obj-$(CONFIG_CAN_UCAN) += ucan.o

> diff --git a/drivers/net/can/usb/ucan.c b/drivers/net/can/usb/ucan.c

> new file mode 100644

> index 000000000000..61348e8c4747

> --- /dev/null

> +++ b/drivers/net/can/usb/ucan.c

> @@ -0,0 +1,1587 @@

> +// SPDX-License-Identifier: GPL-2.0

> +

> +/* Driver for Theobroma Systems UCAN devices Protocol Version 3

> + *

> + * Copyright (C) 2018 Theobroma Systems Design und Consulting GmbH

> + *

> + *

> + * General Description:

> + *

> + * The USB Device uses three Endpoints:

> + *

> + *   CONTROL Endpoint: Is used the setup the device (start, stop,

> + *   info, configure).

> + *

> + *   IN Endpoint: The device sends CAN Frame Messages and Device

> + *   Information using the IN endpoint.

> + *

> + *   OUT Endpoint: The driver sends configuration requests, and CAN

> + *   Frames on the out endpoint.

> + *

> + * Error Handling:

> + *

> + *   If error reporting is turned on the device encodes error into CAN

> + *   error frames (see uapi/linux/can/error.h) and sends it using the

> + *   IN Endpoint. The driver updates statistics and forward it.

> + */

> +

> +#include <linux/can.h>

> +#include <linux/can/dev.h>

> +#include <linux/can/error.h>

> +#include <linux/module.h>

> +#include <linux/netdevice.h>

> +#include <linux/signal.h>

> +#include <linux/skbuff.h>

> +#include <linux/slab.h>

> +#include <linux/usb.h>

> +

> +#include <linux/can.h>

> +#include <linux/can/dev.h>

> +#include <linux/can/error.h>

> +

> +#define UCAN_MAX_RX_URBS 8

> +/* the CAN controller needs a while to enable/disable the bus */

> +#define UCAN_USB_CTL_PIPE_TIMEOUT 1000

> +/* this driver currently supports protocol version 3 only */

> +#define UCAN_PROTOCOL_VERSION_MIN 3

> +#define UCAN_PROTOCOL_VERSION_MAX 3

> +

> +/* UCAN Message Definitions --------------------------------------------

> + *

> + *  ucan_message_out_t and ucan_message_in_t define the messages

> + *  transmitted on the OUT and IN endpoint.

> + *

> + *  Multibyte fields are transmitted with little endianness

> + *

> + *  INTR Endpoint: a single uint32_t storing the current space in the fifo

> + *

> + *  OUT Endpoint: single message of type ucan_message_out_t is

> + *    transmitted on the out endpoint

> + *

> + *  IN Endpoint: multiple messages ucan_message_in_t concateted in

> + *    the following way:

> + *

> + *	m[n].len <=> the length if message n(including the header in bytes)

> + *	m[n] is is aligned to a 4 byte boundary, hence

> + *	  offset(m[0])	 := 0;

> + *	  offset(m[n+1]) := offset(m[n]) + (m[n].len + 3) & 3

> + *

> + *	this implies that

> + *	  offset(m[n]) % 4 <=> 0

> + */

> +

> +/* Device Global Commands */

> +enum {

> +	UCAN_DEVICE_GET_FW_STRING = 0,

> +};

> +

> +/* UCAN Commands */

> +enum {

> +	/* start the can transceiver - val defines the operation mode */

> +	UCAN_COMMAND_START    = 0,

> +	/* cancel pending transmissions and stop the can transceiver */

> +	UCAN_COMMAND_STOP     = 1,

> +	/* send can transceiver into low-power sleep mode */

> +	UCAN_COMMAND_SLEEP    = 2,

> +	/* wake up can transceiver from low-power sleep mode */

> +	UCAN_COMMAND_WAKEUP   = 3,

> +	/* reset the can transceiver */

> +	UCAN_COMMAND_RESET    = 4,

> +	/* get piece of info from the can transceiver - subcmd defines what

> +	 * piece

> +	 */

> +	UCAN_COMMAND_GET      = 5,

> +	/* clear or disable hardware filter - subcmd defines which of the two */

> +	UCAN_COMMAND_FILTER   = 6,

> +	/* Setup bittiming */

> +	UCAN_COMMAND_SET_BITTIMING = 7,

> +	/* recover from bus-off state */

> +	UCAN_COMMAND_RESTART  = 8,

> +};

> +

> +/* UCAN_COMMAND_START and UCAN_COMMAND_GET_INFO operation modes (bitmap).

> + * Undefined bits must be set to 0.

> + */

> +enum {

> +	UCAN_MODE_LOOPBACK    = (1 << 0),

> +	UCAN_MODE_SILENT      = (1 << 1),

> +	UCAN_MODE_3_SAMPLES   = (1 << 2),

> +	UCAN_MODE_ONE_SHOT    = (1 << 3),

> +	UCAN_MODE_BERR_REPORT = (1 << 4),

> +};

> +

> +/* UCAN_COMMAND_GET subcommands */

> +enum {

> +	UCAN_COMMAND_GET_INFO             = 0,

> +	UCAN_COMMAND_GET_PROTOCOL_VERSION = 1,

> +};

> +

> +/* UCAN_COMMAND_FILTER subcommands */

> +enum {

> +	UCAN_FILTER_CLEAR     = 0,

> +	UCAN_FILTER_DISABLE   = 1,

> +	UCAN_FILTER_ENABLE    = 2,

> +};

> +

> +/* OUT endpoint message types */

> +enum {

> +	UCAN_OUT_TX = 2, /* transmit a CAN frame */

> +};

> +

> +/* IN endpoint message types */

> +enum {

> +	UCAN_IN_TX_COMPLETE = 1,  /* CAN frame transmission completed */

> +	UCAN_IN_RX          = 2,  /* CAN frame received */

> +};

> +

> +struct ucan_ctl_cmd_start {

> +	u16 mode;            /* oring any of UCAN_MODE_* */

> +} __packed;

> +

> +struct ucan_ctl_cmd_set_bittiming {

> +	u32 tq;		     /* Time quanta (TQ) in nanoseconds */

> +	u16 brp;	     /* TQ Prescaler */

> +	u16 sample_point;    /* Samplepoint on tenth percent */

> +	u8 prop_seg;	     /* Propagation segment in TQs */

> +	u8 phase_seg1;	     /* Phase buffer segment 1 in TQs */

> +	u8 phase_seg2;	     /* Phase buffer segment 2 in TQs */

> +	u8 sjw;		     /* Synchronisation jump width in TQs */

> +} __packed;

> +

> +struct ucan_ctl_cmd_device_info {

> +	u32 freq;   /* Clock Frequency for tq generation */

> +	u8 tx_fifo; /* Size of the transmission fifo */

> +	u8 sjw_max;   /* can_bittiming fields... */

> +	u8 tseg1_min;

> +	u8 tseg1_max;

> +	u8 tseg2_min;

> +	u8 tseg2_max;

> +	u16 brp_inc;

> +	u32 brp_min;

> +	u32 brp_max; /* ...can_bittiming fields */

> +	u16 ctrlmodes; /* supported control modes */

> +	u16 hwfilter;  /* Number of HW filter banks */

> +	u16 rxmboxes;  /* Number of receive Mailboxes */

> +} __packed;

> +

> +struct ucan_ctl_cmd_get_protocol_version {

> +	u32 version;

> +} __packed;

> +

> +union ucan_ctl_payload {

> +	/***************************************************

> +	 * Setup Bittiming

> +	 * bmRequest == UCAN_COMMAND_START

> +	 ***************************************************/

> +	struct ucan_ctl_cmd_start cmd_start;

> +	/***************************************************

> +	 * Setup Bittiming

> +	 * bmRequest == UCAN_COMMAND_SET_BITTIMING

> +	 ***************************************************/

> +	struct ucan_ctl_cmd_set_bittiming cmd_set_bittiming;

> +	/***************************************************

> +	 * Get Device Information

> +	 * bmRequest == UCAN_COMMAND_GET; wValue = UCAN_COMMAND_GET_INFO

> +	 ***************************************************/

> +	struct ucan_ctl_cmd_device_info cmd_get_device_info;

> +	/***************************************************

> +	 * Get Protocol Version

> +	 * bmRequest == UCAN_COMMAND_GET;

> +	 * wValue = UCAN_COMMAND_GET_PROTOCOL_VERSION

> +	 ***************************************************/

> +	struct ucan_ctl_cmd_get_protocol_version cmd_get_protocol_version;

> +

> +	u8 raw[128];

> +} __packed;

> +

> +enum {

> +	UCAN_TX_COMPLETE_SUCCESS = (1 << 0),

> +};

> +

> +/* Transmission Complete within ucan_message_in */

> +struct ucan_tx_complete_entry_t {

> +	u8 echo_id;

> +	u8 flags;

> +}  __packed __aligned(0x2);

> +

> +/* CAN Data message format within ucan_message_in/out */

> +struct ucan_can_msg {

> +	/* note DLC is computed by

> +	 *    msg.len - sizeof (msg.len)

> +	 *	       - sizeof (msg.type)

> +	 *	       - sizeof (msg.can_msg.id)

> +	 */

> +	u32 id;

> +

> +	union {

> +		u8 data[CAN_MAX_DLEN];  /* Data of CAN frames */

> +		u8 dlc;                 /* RTR dlc */

> +	};

> +} __packed;

> +

> +/* OUT Endpoint, outbound messages */

> +struct ucan_message_out {

> +	u16 len;  /* Length of the content include header */

> +	u8  type; /* UCAN_OUT_TX and friends */

> +	u8  subtype; /* command sub type */

> +	union {

> +		/***************************************************

> +		 * Transmit CAN frame

> +		 * (type == UCAN_TX) && ((msg.can_msg.id & CAN_RTR_FLAG) == 0)

> +		 * subtype stores the echo id

> +		 ***************************************************/

> +		struct ucan_can_msg can_msg;

> +	} msg;

> +} __packed __aligned(0x4);

> +

> +/* IN Endpoint, inbound messages */

> +struct ucan_message_in {

> +	u16 len;     /* Length of the content include header */

> +	u8  type;    /* UCAN_IN_RX and friends */

> +	u8  subtype; /* command sub type */

> +

> +	union {

> +		/***************************************************

> +		 * CAN Frame received

> +		 * (type == UCAN_IN_RX)

> +		 * && ((msg.can_msg.id & CAN_RTR_FLAG) == 0)

> +		 ***************************************************/

> +		struct ucan_can_msg can_msg;

> +

> +		/***************************************************

> +		 * CAN transmission complete

> +		 * (type == UCAN_IN_TX_COMPLETE)

> +		 ***************************************************/

> +		struct ucan_tx_complete_entry_t can_tx_complete_msg[0];

> +

> +	} __aligned(0x4) msg;

> +} __packed;

> +

> +/* Macros to calculate message lengths */

> +#define UCAN_OUT_HDR_SIZE offsetof(struct ucan_message_out, msg)

> +

> +#define UCAN_IN_HDR_SIZE offsetof(struct ucan_message_in, msg)

> +#define UCAN_IN_LEN(member) (UCAN_OUT_HDR_SIZE + sizeof(member))

> +

> +struct ucan_priv;

> +

> +/* Context Information for transmission URBs */

> +struct ucan_urb_context {

> +	struct ucan_priv *up;

> +	u32 echo_index;

> +	u8 dlc;

> +	atomic_t allocated;

> +};

> +

> +/* Information reported by the USB device */

> +struct ucan_device_info {

> +	struct can_bittiming_const bittiming_const;

> +	u8 tx_fifo;

> +};

> +

> +/* Driver private data */

> +struct ucan_priv {

> +	struct can_priv can; /* must be the first member */

> +

> +	u8 intf_index;

> +	struct usb_device *udev;

> +	struct usb_interface *intf;

> +	struct net_device *netdev;

> +

> +	struct usb_endpoint_descriptor *out_ep;

> +	struct usb_endpoint_descriptor *in_ep;

> +

> +	struct usb_anchor rx_urbs;

> +	struct usb_anchor tx_urbs;

> +

> +	union ucan_ctl_payload *ctl_msg_buffer;

> +	struct ucan_device_info device_info;

> +

> +	atomic_t available_tx_urbs;

> +	struct ucan_urb_context *tx_contexts;

> +};

> +

> +static u8 ucan_compute_dlc(u16 len, struct ucan_can_msg *msg)

> +{

> +	u16 res = 0;

> +

> +	if (msg->id & CAN_RTR_FLAG)

> +		res = msg->dlc;

> +	else

> +		res = len - (UCAN_IN_HDR_SIZE + sizeof(msg->id));

> +

> +	if (res > CAN_MAX_DLEN)

> +		return -1;

> +

> +	return res;

> +}

> +

> +static void ucan_release_contexts(struct ucan_priv *up)

> +{

> +	if (!up->tx_contexts)

> +		return;

> +

> +	atomic_set(&up->available_tx_urbs, 0);

> +

> +	kfree(up->tx_contexts);

> +	up->tx_contexts = NULL;

> +}

> +

> +static int ucan_allocate_contexts(struct ucan_priv *up)

> +{

> +	int i;

> +

> +	/* release contexts if any */

> +	ucan_release_contexts(up);

> +

> +	up->tx_contexts = kmalloc_array(up->device_info.tx_fifo,

> +					sizeof(*up->tx_contexts),

> +					GFP_KERNEL);

> +	if (!up->tx_contexts) {

> +		dev_err(&up->udev->dev, "Not enough memory to allocate tx contexts\n");

> +		return -ENOMEM;

> +	}

> +

> +	memset(up->tx_contexts, 0,

> +	       sizeof(*up->tx_contexts) * up->device_info.tx_fifo);

> +	for (i = 0; i < up->device_info.tx_fifo; i++) {

> +		atomic_set(&up->tx_contexts[i].allocated, 0);

> +		up->tx_contexts[i].up = up;

> +		up->tx_contexts[i].echo_index = i;

> +	}

> +

> +	atomic_set(&up->available_tx_urbs, up->device_info.tx_fifo);

> +

> +	return 0;

> +}

> +

> +static struct ucan_urb_context *ucan_allocate_context(struct ucan_priv *up)

> +{

> +	int i, allocated, avail;

> +

> +	if (!up->tx_contexts)

> +		return NULL;

> +

> +	for (i = 0; i < up->device_info.tx_fifo; i++) {

> +		allocated = atomic_cmpxchg(&up->tx_contexts[i].allocated, 0, 1);

> +		if (allocated == 0) {

> +			avail = atomic_sub_return(1, &up->available_tx_urbs);

> +			if (avail == 0)

> +				netif_stop_queue(up->netdev);

> +			return &up->tx_contexts[i];

> +		}

> +	}

> +	return NULL;

> +}

> +

> +static void ucan_release_context(struct ucan_priv *up,

> +				 struct ucan_urb_context *ctx)

> +{

> +	WARN_ON_ONCE(!up->tx_contexts);

> +	if (!up->tx_contexts)

> +		return;

> +

> +	if (atomic_cmpxchg(&ctx->allocated, 1, 0) == 0) {

> +		dev_warn(&up->udev->dev,

> +			 "context %p (#%ld) was not allocated\n",

> +			 ctx, ctx - up->tx_contexts);

> +	} else {

> +		atomic_inc(&up->available_tx_urbs);

> +		netif_wake_queue(up->netdev);

> +	}

> +}

> +

> +static int ucan_ctrl_command_out(struct ucan_priv *up,

> +				 u8 cmd,

> +				 u16 subcmd,

> +				 size_t datalen)

> +{

> +	if (datalen > sizeof(union ucan_ctl_payload))

> +		return -ENOMEM;

> +

> +	return usb_control_msg(up->udev,

> +			usb_sndctrlpipe(up->udev, 0),

> +			cmd,

> +			USB_DIR_OUT | USB_TYPE_VENDOR | USB_RECIP_INTERFACE,

> +			cpu_to_le16(subcmd),

> +			up->intf_index,

> +			up->ctl_msg_buffer,

> +			datalen,

> +			UCAN_USB_CTL_PIPE_TIMEOUT);

> +}

> +

> +static int ucan_device_request_in(struct ucan_priv *up,

> +				  u8 cmd,

> +				  u16 subcmd,

> +				  size_t datalen)

> +{

> +	if (datalen > sizeof(union ucan_ctl_payload))

> +		return -ENOMEM;

> +

> +	return usb_control_msg(up->udev,

> +			usb_rcvctrlpipe(up->udev, 0),

> +			cmd,

> +			USB_DIR_IN | USB_TYPE_VENDOR | USB_RECIP_DEVICE,

> +			cpu_to_le16(subcmd),

> +			0,

> +			up->ctl_msg_buffer,

> +			datalen,

> +			UCAN_USB_CTL_PIPE_TIMEOUT);

> +}

> +

> +/* Parse the device information structure reported by the device and

> + * setup private variables accordingly

> + */

> +static void ucan_parse_device_info(struct ucan_priv *up,

> +				   struct ucan_ctl_cmd_device_info

> +					*ctl_cmd_device_info)

> +{

> +	struct can_bittiming_const *bittiming =

> +		&up->device_info.bittiming_const;

> +	u16 ctrlmodes;

> +

> +	/* store the data */

> +	up->can.clock.freq = le32_to_cpu(ctl_cmd_device_info->freq);

> +	up->device_info.tx_fifo = ctl_cmd_device_info->tx_fifo;

> +	strcpy(bittiming->name, "ucan");

> +	bittiming->tseg1_min = ctl_cmd_device_info->tseg1_min;

> +	bittiming->tseg1_max = ctl_cmd_device_info->tseg1_max;

> +	bittiming->tseg2_min = ctl_cmd_device_info->tseg2_min;

> +	bittiming->tseg2_max = ctl_cmd_device_info->tseg2_max;

> +	bittiming->sjw_max = ctl_cmd_device_info->sjw_max;

> +	bittiming->brp_min = le32_to_cpu(ctl_cmd_device_info->brp_min);

> +	bittiming->brp_max = le32_to_cpu(ctl_cmd_device_info->brp_max);

> +	bittiming->brp_inc = le16_to_cpu(ctl_cmd_device_info->brp_inc);

> +

> +	ctrlmodes = le16_to_cpu(ctl_cmd_device_info->ctrlmodes);

> +

> +	up->can.ctrlmode_supported = 0;

> +

> +	if (ctrlmodes & UCAN_MODE_LOOPBACK)

> +		up->can.ctrlmode_supported |= CAN_CTRLMODE_LOOPBACK;

> +	if (ctrlmodes & UCAN_MODE_SILENT)

> +		up->can.ctrlmode_supported |= CAN_CTRLMODE_LISTENONLY;

> +	if (ctrlmodes & UCAN_MODE_3_SAMPLES)

> +		up->can.ctrlmode_supported |= CAN_CTRLMODE_3_SAMPLES;

> +	if (ctrlmodes & UCAN_MODE_ONE_SHOT)

> +		up->can.ctrlmode_supported |= CAN_CTRLMODE_ONE_SHOT;

> +	if (ctrlmodes & UCAN_MODE_BERR_REPORT)

> +		up->can.ctrlmode_supported |= CAN_CTRLMODE_BERR_REPORTING;

> +}

> +

> +/* Handle a CAN error frame that we have received from the device */

> +static void ucan_handle_error_frame(struct ucan_priv *up,

> +				    struct ucan_message_in *m,

> +				    u32 canid)

> +{

> +	enum can_state new_state = CAN_STATE_ERROR_ACTIVE;

> +	struct net_device_stats *net_stats = &up->netdev->stats;

> +	struct can_device_stats *can_stats = &up->can.can_stats;

> +

> +	if (canid & CAN_ERR_LOSTARB)

> +		can_stats->arbitration_lost++;

> +

> +	if (canid & CAN_ERR_BUSERROR)

> +		can_stats->bus_error++;

> +

> +	if (canid & CAN_ERR_ACK)

> +		net_stats->tx_errors++;

> +

> +	if (canid & CAN_ERR_BUSOFF)

> +		new_state = CAN_STATE_BUS_OFF;

> +

> +	/* controller problems, details in data[1] */

> +	if (canid & CAN_ERR_CRTL) {

> +		u8 d1 = m->msg.can_msg.data[1];

> +

> +		if (d1 & (CAN_ERR_CRTL_RX_PASSIVE | CAN_ERR_CRTL_TX_PASSIVE))

> +			new_state = max(new_state, (enum can_state)

> +					CAN_STATE_ERROR_PASSIVE);

> +

> +		if (d1 & (CAN_ERR_CRTL_RX_WARNING | CAN_ERR_CRTL_TX_WARNING))

> +			new_state = max(new_state, (enum can_state)

> +					CAN_STATE_ERROR_WARNING);

> +

> +		if (d1 & CAN_ERR_CRTL_RX_OVERFLOW)

> +			net_stats->rx_over_errors++;

> +	}

> +

> +	/* protocol error, details in data[2] */

> +	if (canid & CAN_ERR_PROT) {

> +		u8 d2 = m->msg.can_msg.data[2];

> +

> +		if (d2 & CAN_ERR_PROT_TX)

> +			net_stats->tx_errors++;

> +		else

> +			net_stats->rx_errors++;

> +	}

> +

> +	/* we switched into a better state */

> +	if (up->can.state >= new_state) {

> +		up->can.state = new_state;

> +		return;

> +	}

> +

> +	/* we switched into a worse state */

> +	up->can.state = new_state;

> +	switch (new_state) {

> +	case CAN_STATE_BUS_OFF:

> +		can_stats->bus_off++;

> +		can_bus_off(up->netdev);

> +		netdev_info(up->netdev,

> +			    "link has gone into BUS-OFF state\n");

> +		break;

> +	case CAN_STATE_ERROR_PASSIVE:

> +		can_stats->error_passive++;

> +		break;

> +	case CAN_STATE_ERROR_WARNING:

> +		can_stats->error_warning++;

> +		break;

> +	default:

> +		break;

> +	}

> +}

> +

> +/* Callback on reception of a can frame via the IN endpoint

> + *

> + * This function allocates an skb and transferres it to the Linux

> + * network stack

> + */

> +static void ucan_rx_can_msg(struct ucan_priv *up, struct ucan_message_in *m)

> +{

> +	int len;

> +	u32 canid;

> +	struct can_frame *cf;

> +	struct sk_buff *skb;

> +	struct net_device_stats *stats = &up->netdev->stats;

> +

> +	/* get the contents of the length field */

> +	len = le16_to_cpu(m->len);

> +

> +	/* check sanity */

> +	if (len < UCAN_IN_HDR_SIZE + sizeof(m->msg.can_msg.id)) {

> +		dev_warn(&up->udev->dev, "invalid input message len\n");

> +		return;

> +	}

> +

> +	/* handle error frames */

> +	canid = le32_to_cpu(m->msg.can_msg.id);

> +	if (canid & CAN_ERR_FLAG) {

> +		ucan_handle_error_frame(up, m, canid);

> +		/* drop frame if berr-reporting is off */

> +		if (!(up->can.ctrlmode & CAN_CTRLMODE_BERR_REPORTING))

> +			return;

> +	}


You still do not generate error messages for state changes, IIUC.

Wolfgang.

On 14.03.18 10:11, Wolfgang Grandegger wrote:
>> +    /* handle error frames */

>> +    canid = le32_to_cpu(m->msg.can_msg.id);

>> +    if (canid & CAN_ERR_FLAG) {

>> +        ucan_handle_error_frame(up, m, canid);

>> +        /* drop frame if berr-reporting is off */

>> +        if (!(up->can.ctrlmode & CAN_CTRLMODE_BERR_REPORTING))

>> +            return;

>> +    }

> 

> You still do not generate error messages for state changes, IIUC.


The hardware generates error frames on state changes - is that what you 
mean?

In our testing, the state shows up (and updates) correctly in

	ip -details -statistics link show can0

Best regards,
Jakob

Am 14.03.2018 um 10:14 schrieb Jakob Unterwurzacher:
> On 14.03.18 10:11, Wolfgang Grandegger wrote:

>>> +    /* handle error frames */

>>> +    canid = le32_to_cpu(m->msg.can_msg.id);

>>> +    if (canid & CAN_ERR_FLAG) {

>>> +        ucan_handle_error_frame(up, m, canid);

>>> +        /* drop frame if berr-reporting is off */

>>> +        if (!(up->can.ctrlmode & CAN_CTRLMODE_BERR_REPORTING))

>>> +            return;

>>> +    }

>>

>> You still do not generate error messages for state changes, IIUC.

> 

> The hardware generates error frames on state changes - is that what you 

> mean?

> 

> In our testing, the state shows up (and updates) correctly in

> 

>      ip -details -statistics link show can0


Counting the state changes is one thing but you should also generate 
error messages for them.

Wolfgang.

On 14.03.18 10:17, Wolfgang Grandegger wrote:
> Counting the state changes is one thing but you should also generate 

> error messages for them.


We do for BUS-OFF already (see below), but not for other states - will 
do in v3.

> +	/* we switched into a worse state */

> +	up->can.state = new_state;

> +	switch (new_state) {

> +	case CAN_STATE_BUS_OFF:

> +		can_stats->bus_off++;

> +		can_bus_off(up->netdev);

> +		netdev_info(up->netdev,

> +			    "link has gone into BUS-OFF state\n");

> +		break;

Am 14.03.2018 um 10:17 schrieb Wolfgang Grandegger:
> 

> 

> Am 14.03.2018 um 10:14 schrieb Jakob Unterwurzacher:

>> On 14.03.18 10:11, Wolfgang Grandegger wrote:

>>>> +    /* handle error frames */

>>>> +    canid = le32_to_cpu(m->msg.can_msg.id);

>>>> +    if (canid & CAN_ERR_FLAG) {

>>>> +        ucan_handle_error_frame(up, m, canid);

>>>> +        /* drop frame if berr-reporting is off */

>>>> +        if (!(up->can.ctrlmode & CAN_CTRLMODE_BERR_REPORTING))

>>>> +            return;

>>>> +    }

>>>

>>> You still do not generate error messages for state changes, IIUC.

>>

>> The hardware generates error frames on state changes - is that what 

>> you mean?

>>

>> In our testing, the state shows up (and updates) correctly in

>>

>>      ip -details -statistics link show can0

> 

> Counting the state changes is one thing but you should also generate 

> error messages for them.


The usual test here is:

$ candump -td -e any,0:0,#FFFFFFFF

should report proper state changes, if you send messages with

1. no cable connected
2. CAN high and low short-circuited

Also downwards if the hardware error is gone and you continue to send 
messages.

Wolfgang.

Am 14.03.2018 um 10:36 schrieb Marc Kleine-Budde:
> On 03/14/2018 10:09 AM, Jakob Unterwurzacher wrote:

>> On 14.03.18 08:51, Marc Kleine-Budde wrote:

>>>> +		memcpy(cf->data, m->msg.can_msg.data, cf->can_dlc);

>>>> +

>>>> +	/* don't count error frames as real packets */

>>>> +	if (!(canid & CAN_ERR_FLAG)) {

>>>> +		stats->rx_packets++;

>>>> +		stats->rx_bytes += cf->can_dlc;

>>>> +	}

>>> Please count them, too.

>>

>> We do count them, as errors!

>>

>> This is what happens when you transmit a single CAN frame with nothing

>> connected: "TX errors" shoots up but "RX packets" stays zero.

> 

> This is handled not consistent in the existing CAN drivers. In flexcan

> all and c_can (all but rx overflow) are counted as rx_packets and

> rx_bytes. (I haven't looked at the other drivers.)

> 

> I tend to count the error frames as ordinary frames.


+1, I think we should count the packets and bytes delivered to the 
network layer.

Wolfgang.

On 14.03.18 10:25, Wolfgang Grandegger wrote:
>> Counting the state changes is one thing but you should also generate 

>> error messages for them.

> 

> The usual test here is:

> 

> $ candump -td -e any,0:0,#FFFFFFFF

> 

> should report proper state changes, if you send messages with

> 

> 1. no cable connected

> 2. CAN high and low short-circuited

> 

> Also downwards if the hardware error is gone and you continue to send 

> messages.

Yes, we do, the hardware does it. Testcases:

(1) no cable connected

> root@rk3399-q7:~# candump -td -e any,0:0,#FFFFFFFF | head -n 1000

>  (000.000000)  can0  178   [0]

>  (000.000410)  can0  20000030   [8]  00 00 00 00 00 00 08 00   ERRORFRAME

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{8}{0}}

>  (000.000445)  can0  20000030   [8]  00 00 00 00 00 00 10 00   ERRORFRAME

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{16}{0}}

>  (000.000425)  can0  20000030   [8]  00 00 00 00 00 00 18 00   ERRORFRAME

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{24}{0}}

>  (000.000451)  can0  20000030   [8]  00 00 00 00 00 00 20 00   ERRORFRAME

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{32}{0}}

>  (000.000429)  can0  20000030   [8]  00 00 00 00 00 00 28 00   ERRORFRAME

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{40}{0}}

>  (000.000448)  can0  20000030   [8]  00 00 00 00 00 00 30 00   ERRORFRAME

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{48}{0}}

>  (000.000433)  can0  20000030   [8]  00 00 00 00 00 00 38 00   ERRORFRAME

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{56}{0}}

>  (000.000437)  can0  20000030   [8]  00 00 00 00 00 00 40 00   ERRORFRAME

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{64}{0}}

>  (000.000443)  can0  20000030   [8]  00 00 00 00 00 00 48 00   ERRORFRAME

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{72}{0}}

>  (000.000437)  can0  20000030   [8]  00 00 00 00 00 00 50 00   ERRORFRAME

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{80}{0}}

>  (000.000498)  can0  20000030   [8]  00 00 00 00 00 00 58 00   ERRORFRAME

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{88}{0}}

>  (000.000394)  can0  20000034   [8]  00 0C 00 00 00 00 60 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning}

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{96}{0}}

>  (000.000433)  can0  20000034   [8]  00 0C 00 00 00 00 68 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning}

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{104}{0}}

>  (000.000437)  can0  20000034   [8]  00 0C 00 00 00 00 70 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning}

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{112}{0}}

>  (000.000443)  can0  20000034   [8]  00 0C 00 00 00 00 78 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning}

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{120}{0}}

>  (000.000444)  can0  20000034   [8]  00 3C 00 00 00 00 80 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{128}{0}}

>  (000.000495)  can0  20000024   [8]  00 3C 00 00 00 00 80 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{128}{0}}


Repeats ad infinitum...


(1b) cable gets connected:

>  (000.000883)  can0  20000034   [8]  00 3C 00 00 00 00 80 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{128}{0}}

>  (000.000996)  can0  20000004   [8]  00 0C 00 00 00 00 7F 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning}

> 	error-counter-tx-rx{{127}{0}}



(2) short circuit

> root@rk3399-q7:~# candump -td -e any,0:0,#FFFFFFFF | head -n 1000

>  (000.000000)  can0  6AB   [7]  33 39 62 29 00 F5 31

>  (000.000201)  can0  20000018   [8]  00 00 08 00 00 00 18 00   ERRORFRAME

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{24}{0}}

>  (000.000141)  can0  2000000C   [8]  00 3C 08 00 00 00 88 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	error-counter-tx-rx{{136}{0}}

>  (000.000202)  can0  2000001C   [8]  00 3C 08 00 00 00 90 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{144}{0}}

>  (000.000174)  can0  2000001C   [8]  00 3C 08 00 00 00 98 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{152}{0}}

>  (000.000229)  can0  2000001C   [8]  00 3C 08 00 00 00 A0 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{160}{0}}

>  (000.000191)  can0  2000001C   [8]  00 3C 08 00 00 00 A8 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{168}{0}}

>  (000.000227)  can0  2000001C   [8]  00 3C 08 00 00 00 B0 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{176}{0}}

>  (000.000204)  can0  2000001C   [8]  00 3C 08 00 00 00 B8 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{184}{0}}

>  (000.000200)  can0  2000001C   [8]  00 3C 08 00 00 00 C0 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{192}{0}}

>  (000.000216)  can0  2000001C   [8]  00 3C 08 00 00 00 C8 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{200}{0}}

>  (000.000214)  can0  2000001C   [8]  00 3C 08 00 00 00 D0 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{208}{0}}

>  (000.000188)  can0  2000001C   [8]  00 3C 08 00 00 00 D8 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{216}{0}}

>  (000.000206)  can0  2000001C   [8]  00 3C 08 00 00 00 E0 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{224}{0}}

>  (000.000202)  can0  2000001C   [8]  00 3C 08 00 00 00 E8 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{232}{0}}

>  (000.000218)  can0  2000001C   [8]  00 3C 08 00 00 00 F0 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{240}{0}}

>  (000.000203)  can0  2000001C   [8]  00 3C 08 00 00 00 F8 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	transceiver-status

> 	error-counter-tx-rx{{248}{0}}

>  (000.007153)  can0  2000004C   [8]  00 3C 08 00 00 00 F8 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 	protocol-violation{{tx-dominant-bit-error}{}}

> 	bus-off

> 	error-counter-tx-rx{{248}{0}}

On 14.03.18 10:46, Wolfgang Grandegger wrote:
>>> We do count them, as errors!

>>>

>>> This is what happens when you transmit a single CAN frame with nothing

>>> connected: "TX errors" shoots up but "RX packets" stays zero.

>>

>> This is handled not consistent in the existing CAN drivers. In flexcan

>> all and c_can (all but rx overflow) are counted as rx_packets and

>> rx_bytes. (I haven't looked at the other drivers.)

>>

>> I tend to count the error frames as ordinary frames.

> 

> +1, I think we should count the packets and bytes delivered to the 

> network layer.


Documentation/ABI/testing/sysfs-class-net-statistics says:

> What:		/sys/class/<iface>/statistics/rx_packets

> Date:		April 2005

> KernelVersion:	2.6.12

> Contact:	netdev@vger.kernel.org

> Description:

> 		Indicates the total number of good packets received by this

> 		network device.


I considered error frames not "good packets", but I can change that for 
v3, no problem.

Best regards,
Jakob

Hello Jakob,

Am 14.03.2018 um 10:48 schrieb Jakob Unterwurzacher:
> On 14.03.18 10:25, Wolfgang Grandegger wrote:

>>> Counting the state changes is one thing but you should also generate 

>>> error messages for them.

>>

>> The usual test here is:

>>

>> $ candump -td -e any,0:0,#FFFFFFFF

>>

>> should report proper state changes, if you send messages with

>>

>> 1. no cable connected

>> 2. CAN high and low short-circuited

>>

>> Also downwards if the hardware error is gone and you continue to send 

>> messages.

> Yes, we do, the hardware does it. Testcases:

> 

> (1) no cable connected

> 

>> root@rk3399-q7:~# candump -td -e any,0:0,#FFFFFFFF | head -n 1000

>>  (000.000000)  can0  178   [0]

>>  (000.000410)  can0  20000030   [8]  00 00 00 00 00 00 08 00   ERRORFRAME

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{8}{0}}

>>  (000.000445)  can0  20000030   [8]  00 00 00 00 00 00 10 00   ERRORFRAME

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{16}{0}}

>>  (000.000425)  can0  20000030   [8]  00 00 00 00 00 00 18 00   ERRORFRAME

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{24}{0}}

>>  (000.000451)  can0  20000030   [8]  00 00 00 00 00 00 20 00   ERRORFRAME

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{32}{0}}

>>  (000.000429)  can0  20000030   [8]  00 00 00 00 00 00 28 00   ERRORFRAME

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{40}{0}}

>>  (000.000448)  can0  20000030   [8]  00 00 00 00 00 00 30 00   ERRORFRAME

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{48}{0}}

>>  (000.000433)  can0  20000030   [8]  00 00 00 00 00 00 38 00   ERRORFRAME

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{56}{0}}

>>  (000.000437)  can0  20000030   [8]  00 00 00 00 00 00 40 00   ERRORFRAME

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{64}{0}}

>>  (000.000443)  can0  20000030   [8]  00 00 00 00 00 00 48 00   ERRORFRAME

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{72}{0}}

>>  (000.000437)  can0  20000030   [8]  00 00 00 00 00 00 50 00   ERRORFRAME

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{80}{0}}

>>  (000.000498)  can0  20000030   [8]  00 00 00 00 00 00 58 00   ERRORFRAME

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{88}{0}}

>>  (000.000394)  can0  20000034   [8]  00 0C 00 00 00 00 60 00   ERRORFRAME

>>     controller-problem{rx-error-warning,tx-error-warning}

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{96}{0}}

>>  (000.000433)  can0  20000034   [8]  00 0C 00 00 00 00 68 00   ERRORFRAME

>>     controller-problem{rx-error-warning,tx-error-warning}

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{104}{0}}

>>  (000.000437)  can0  20000034   [8]  00 0C 00 00 00 00 70 00   ERRORFRAME

>>     controller-problem{rx-error-warning,tx-error-warning}

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{112}{0}}

>>  (000.000443)  can0  20000034   [8]  00 0C 00 00 00 00 78 00   ERRORFRAME

>>     controller-problem{rx-error-warning,tx-error-warning}

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{120}{0}}

>>  (000.000444)  can0  20000034   [8]  00 3C 00 00 00 00 80 00   ERRORFRAME

>>     controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive} 


Just,

       controller-problem{rx-error-passive,tx-error-passive} 

>>

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{128}{0}}

>>  (000.000495)  can0  20000024   [8]  00 3C 00 00 00 00 80 00   ERRORFRAME

>>     controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive} 

>>

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{128}{0}}

> 

> Repeats ad infinitum...


Good! And without "berr-reporting" just the state changes should show up.

> 

> 

> (1b) cable gets connected:

> 

>>  (000.000883)  can0  20000034   [8]  00 3C 00 00 00 00 80 00   ERRORFRAME

>>     controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive} 

>>

>>     transceiver-status

>>     no-acknowledgement-on-tx

>>     error-counter-tx-rx{{128}{0}}

>>  (000.000996)  can0  20000004   [8]  00 0C 00 00 00 00 7F 00   ERRORFRAME

>>     controller-problem{rx-error-warning,tx-error-warning}

>>     error-counter-tx-rx{{127}{0}}


Back to error active is missing!? Have a look to:

https://elixir.bootlin.com/linux/latest/source/drivers/net/can/dev.c#L364

Wolfgang.

On 14.03.18 11:04, Wolfgang Grandegger wrote:
>>>      controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

> 

> Just,

> 

>         controller-problem{rx-error-passive,tx-error-passive}


Ok.

>> (1b) cable gets connected:

>>

>>>   (000.000883)  can0  20000034   [8]  00 3C 00 00 00 00 80 00   ERRORFRAME

>>>      controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive}

>>>

>>>      transceiver-status

>>>      no-acknowledgement-on-tx

>>>      error-counter-tx-rx{{128}{0}}

>>>   (000.000996)  can0  20000004   [8]  00 0C 00 00 00 00 7F 00   ERRORFRAME

>>>      controller-problem{rx-error-warning,tx-error-warning}

>>>      error-counter-tx-rx{{127}{0}}

> 

> Back to error active is missing!? Have a look to:

> 

> https://elixir.bootlin.com/linux/latest/source/drivers/net/can/dev.c#L364


Should be sent out once the error counter drops further, will check.

Thanks,
Jakob

On 14.03.18 11:04, Wolfgang Grandegger wrote:
>>>  (000.000443)  can0  20000034   [8]  00 0C 00 00 00 00 78 00   ERRORFRAME

>>>     controller-problem{rx-error-warning,tx-error-warning}

>>>     transceiver-status

>>>     no-acknowledgement-on-tx

>>>     error-counter-tx-rx{{120}{0}}

>>>  (000.000444)  can0  20000034   [8]  00 3C 00 00 00 00 80 00   ERRORFRAME

>>>     controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive} 

> 

> Just,

> 

>        controller-problem{rx-error-passive,tx-error-passive} 

>[...]

> 

> Back to error active is missing!?


That was indeed missing. We have fixed the missing back-to-error-active 
in our firmware.

Also, we no longer send the controller status in every error frame, but 
only on state changes (see below) which seems to be how other drivers 
are handling things.

Thanks,
Jakob

*** test output ***

Disconnect cable, send one frame

> root@rk3399-q7:~# candump -td -e any,0:0,#FFFFFFFF | head -n 100

>  (000.000000)  can0  6E7   [2]  7A F9

>  (000.000558)  can0  20000030   [8]  00 00 00 00 00 00 08 00   ERRORFRAME

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{8}{0}}

[...]
>  (000.000567)  can0  20000034   [8]  00 0C 00 00 00 00 60 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning}

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{96}{0}}

[...]
>  (000.000527)  can0  20000034   [8]  00 30 00 00 00 00 80 00   ERRORFRAME

> 	controller-problem{rx-error-passive,tx-error-passive}

> 	transceiver-status

> 	no-acknowledgement-on-tx

> 	error-counter-tx-rx{{128}{0}}

[...]

Reconnect cable

>  (000.000687)  can1  6E7   [2]  7A F9

>  (000.000015)  can0  20000004   [8]  00 0C 00 00 00 00 7F 00   ERRORFRAME

> 	controller-problem{rx-error-warning,tx-error-warning}

> 	error-counter-tx-rx{{127}{0}}


Send more frames

>  (046.485245)  can0  61B   [2]  E2 D8

>  (000.000621)  can1  61B   [2]  E2 D8

[...]
>  (000.199224)  can0  3E6   [0]

>  (000.000477)  can1  3E6   [0]

>  (000.000044)  can0  20000004   [8]  00 40 00 00 00 00 5F 00   ERRORFRAME

> 	controller-problem{back-to-error-active}

> 	error-counter-tx-rx{{95}{0}}

Am 14.03.2018 um 20:07 schrieb Jakob Unterwurzacher:
> On 14.03.18 11:04, Wolfgang Grandegger wrote:

>>>>  (000.000443)  can0  20000034   [8]  00 0C 00 00 00 00 78 00   

>>>> ERRORFRAME

>>>>     controller-problem{rx-error-warning,tx-error-warning}

>>>>     transceiver-status

>>>>     no-acknowledgement-on-tx

>>>>     error-counter-tx-rx{{120}{0}}

>>>>  (000.000444)  can0  20000034   [8]  00 3C 00 00 00 00 80 00   

>>>> ERRORFRAME

>>>>     

>>>> controller-problem{rx-error-warning,tx-error-warning,rx-error-passive,tx-error-passive} 

>>

>>

>> Just,

>>

>>        controller-problem{rx-error-passive,tx-error-passive} [...]

>>

>> Back to error active is missing!?

> 

> That was indeed missing. We have fixed the missing back-to-error-active 

> in our firmware.

> 

> Also, we no longer send the controller status in every error frame, but 

> only on state changes (see below) which seems to be how other drivers 

> are handling things.


Good, it would also be useful, if berr-reporting could be enabled by the 
firmware. This avoids a lot of traffic and load, especially if no cable 
is connected.

Wolfgang.

Hi Jakob,

Thank you for the patch! Perhaps something to improve:

[auto build test WARNING on linus/master]
[also build test WARNING on v4.16-rc5]
[cannot apply to next-20180315]
[if your patch is applied to the wrong git tree, please drop us a note to help improve the system]

url:    https://github.com/0day-ci/linux/commits/Jakob-Unterwurzacher/can-ucan-add-driver-for-Theobroma-Systems-UCAN-devices/20180316-111528
config: i386-allmodconfig (attached as .config)
compiler: gcc-7 (Debian 7.3.0-1) 7.3.0
reproduce:
        # save the attached .config to linux build tree
        make ARCH=i386 

All warnings (new ones prefixed by >>):

   drivers/net/can/usb/ucan.c: In function 'ucan_release_context':
>> drivers/net/can/usb/ucan.c:386:21: warning: format '%ld' expects argument of type 'long int', but argument 4 has type 'int' [-Wformat=]

        "context %p (#%ld) was not allocated\n",
                      ~~^
                      %d
        ctx, ctx - up->tx_contexts);
             ~~~~~~~~~~~~~~~~~~~~~

vim +386 drivers/net/can/usb/ucan.c

   376	
   377	static void ucan_release_context(struct ucan_priv *up,
   378					 struct ucan_urb_context *ctx)
   379	{
   380		WARN_ON_ONCE(!up->tx_contexts);
   381		if (!up->tx_contexts)
   382			return;
   383	
   384		if (atomic_cmpxchg(&ctx->allocated, 1, 0) == 0) {
   385			dev_warn(&up->udev->dev,
 > 386				 "context %p (#%ld) was not allocated\n",

   387				 ctx, ctx - up->tx_contexts);
   388		} else {
   389			atomic_inc(&up->available_tx_urbs);
   390			netif_wake_queue(up->netdev);
   391		}
   392	}
   393	

---
0-DAY kernel test infrastructure                Open Source Technology Center
https://lists.01.org/pipermail/kbuild-all                   Intel Corporation

Hi Jakob,

Thank you for the patch! Perhaps something to improve:

[auto build test WARNING on linus/master]
[also build test WARNING on v4.16-rc5]
[cannot apply to next-20180316]
[if your patch is applied to the wrong git tree, please drop us a note to help improve the system]

url:    https://github.com/0day-ci/linux/commits/Jakob-Unterwurzacher/can-ucan-add-driver-for-Theobroma-Systems-UCAN-devices/20180316-111528
reproduce:
        # apt-get install sparse
        make ARCH=x86_64 allmodconfig
        make C=1 CF=-D__CHECK_ENDIAN__


sparse warnings: (new ones prefixed by >>)

>> drivers/net/can/usb/ucan.c:406:25: sparse: incorrect type in argument 5 (different base types) @@    expected unsigned short [unsigned] [usertype] value @@    got  short [unsigned] [usertype] value @@

   drivers/net/can/usb/ucan.c:406:25:    expected unsigned short [unsigned] [usertype] value
   drivers/net/can/usb/ucan.c:406:25:    got restricted __le16 [usertype] <noident>
   drivers/net/can/usb/ucan.c:425:25: sparse: incorrect type in argument 5 (different base types) @@    expected unsigned short [unsigned] [usertype] value @@    got  short [unsigned] [usertype] value @@
   drivers/net/can/usb/ucan.c:425:25:    expected unsigned short [unsigned] [usertype] value
   drivers/net/can/usb/ucan.c:425:25:    got restricted __le16 [usertype] <noident>
>> drivers/net/can/usb/ucan.c:444:30: sparse: cast to restricted __le32

   drivers/net/can/usb/ucan.c:452:30: sparse: cast to restricted __le32
   drivers/net/can/usb/ucan.c:453:30: sparse: cast to restricted __le32
>> drivers/net/can/usb/ucan.c:454:30: sparse: cast to restricted __le16

   drivers/net/can/usb/ucan.c:456:21: sparse: cast to restricted __le16
   drivers/net/can/usb/ucan.c:559:15: sparse: cast to restricted __le16
   drivers/net/can/usb/ucan.c:568:17: sparse: cast to restricted __le32
   drivers/net/can/usb/ucan.c:582:22: sparse: cast to restricted __le32
   drivers/net/can/usb/ucan.c:622:19: sparse: cast to restricted __le16
>> drivers/net/can/usb/ucan.c:681:44: sparse: incorrect type in argument 2 (different base types) @@    expected unsigned long [unsigned] [usertype] size @@    got d long [unsigned] [usertype] size @@

   drivers/net/can/usb/ucan.c:681:44:    expected unsigned long [unsigned] [usertype] size
   drivers/net/can/usb/ucan.c:681:44:    got restricted __le16 [usertype] wMaxPacketSize
   drivers/net/can/usb/ucan.c:698:44: sparse: incorrect type in argument 2 (different base types) @@    expected unsigned long [unsigned] [usertype] size @@    got d long [unsigned] [usertype] size @@
   drivers/net/can/usb/ucan.c:698:44:    expected unsigned long [unsigned] [usertype] size
   drivers/net/can/usb/ucan.c:698:44:    got restricted __le16 [usertype] wMaxPacketSize
   drivers/net/can/usb/ucan.c:728:23: sparse: cast to restricted __le16
   drivers/net/can/usb/ucan.c:746:25: sparse: cast to restricted __le16
>> drivers/net/can/usb/ucan.c:772:36: sparse: incorrect type in argument 5 (different base types) @@    expected int [signed] buffer_length @@    got restricted __le1int [signed] buffer_length @@

   drivers/net/can/usb/ucan.c:772:36:    expected int [signed] buffer_length
   drivers/net/can/usb/ucan.c:772:36:    got restricted __le16 [usertype] wMaxPacketSize
   drivers/net/can/usb/ucan.c:784:54: sparse: incorrect type in argument 2 (different base types) @@    expected unsigned long [unsigned] [usertype] size @@    got d long [unsigned] [usertype] size @@
   drivers/net/can/usb/ucan.c:784:54:    expected unsigned long [unsigned] [usertype] size
   drivers/net/can/usb/ucan.c:784:54:    got restricted __le16 [usertype] wMaxPacketSize
   drivers/net/can/usb/ucan.c:842:62: sparse: incorrect type in argument 2 (different base types) @@    expected unsigned long [unsigned] [usertype] size @@    got d long [unsigned] [usertype] size @@
   drivers/net/can/usb/ucan.c:842:62:    expected unsigned long [unsigned] [usertype] size
   drivers/net/can/usb/ucan.c:842:62:    got restricted __le16 [usertype] wMaxPacketSize
   drivers/net/can/usb/ucan.c:866:61: sparse: incorrect type in argument 2 (different base types) @@    expected unsigned long [unsigned] [usertype] size @@    got d long [unsigned] [usertype] size @@
   drivers/net/can/usb/ucan.c:866:61:    expected unsigned long [unsigned] [usertype] size
   drivers/net/can/usb/ucan.c:866:61:    got restricted __le16 [usertype] wMaxPacketSize
   drivers/net/can/usb/ucan.c:880:44: sparse: incorrect type in argument 5 (different base types) @@    expected int [signed] buffer_length @@    got restricted __le1int [signed] buffer_length @@
   drivers/net/can/usb/ucan.c:880:44:    expected int [signed] buffer_length
   drivers/net/can/usb/ucan.c:880:44:    got restricted __le16 [usertype] wMaxPacketSize
>> drivers/net/can/usb/ucan.c:968:44: sparse: incorrect type in assignment (different base types) @@    expected unsigned short [unsigned] [usertype] mode @@    got  short [unsigned] [usertype] mode @@

   drivers/net/can/usb/ucan.c:968:44:    expected unsigned short [unsigned] [usertype] mode
   drivers/net/can/usb/ucan.c:968:44:    got restricted __le16 [usertype] <noident>
>> drivers/net/can/usb/ucan.c:1051:27: sparse: incorrect type in assignment (different base types) @@    expected unsigned int [unsigned] [usertype] id @@    got ed int [unsigned] [usertype] id @@

   drivers/net/can/usb/ucan.c:1051:27:    expected unsigned int [unsigned] [usertype] id
   drivers/net/can/usb/ucan.c:1051:27:    got restricted __le32 [usertype] <noident>
>> drivers/net/can/usb/ucan.c:1063:16: sparse: incorrect type in assignment (different base types) @@    expected unsigned short [unsigned] [usertype] len @@    got  short [unsigned] [usertype] len @@

   drivers/net/can/usb/ucan.c:1063:16:    expected unsigned short [unsigned] [usertype] len
   drivers/net/can/usb/ucan.c:1063:16:    got restricted __le16 [usertype] <noident>
>> drivers/net/can/usb/ucan.c:1212:31: sparse: incorrect type in assignment (different base types) @@    expected unsigned int [unsigned] [usertype] tq @@    got ed int [unsigned] [usertype] tq @@

   drivers/net/can/usb/ucan.c:1212:31:    expected unsigned int [unsigned] [usertype] tq
   drivers/net/can/usb/ucan.c:1212:31:    got restricted __le32 [usertype] <noident>
>> drivers/net/can/usb/ucan.c:1213:32: sparse: incorrect type in assignment (different base types) @@    expected unsigned short [unsigned] [usertype] brp @@    got  short [unsigned] [usertype] brp @@

   drivers/net/can/usb/ucan.c:1213:32:    expected unsigned short [unsigned] [usertype] brp
   drivers/net/can/usb/ucan.c:1213:32:    got restricted __le16 [usertype] <noident>
>> drivers/net/can/usb/ucan.c:1214:41: sparse: incorrect type in assignment (different base types) @@    expected unsigned short [unsigned] [usertype] sample_point @@    got  short [unsigned] [usertype] sample_point @@

   drivers/net/can/usb/ucan.c:1214:41:    expected unsigned short [unsigned] [usertype] sample_point
   drivers/net/can/usb/ucan.c:1214:41:    got restricted __le32 [usertype] <noident>
>> drivers/net/can/usb/ucan.c:1334:18: sparse: restricted __le16 degrades to integer

   drivers/net/can/usb/ucan.c:1338:19: sparse: restricted __le16 degrades to integer
   drivers/net/can/usb/ucan.c:1372:31: sparse: incorrect type in argument 5 (different base types) @@    expected unsigned short [unsigned] [usertype] value @@    got  short [unsigned] [usertype] value @@
   drivers/net/can/usb/ucan.c:1372:31:    expected unsigned short [unsigned] [usertype] value
   drivers/net/can/usb/ucan.c:1372:31:    got restricted __le16 [usertype] <noident>
   drivers/net/can/usb/ucan.c:1392:17: sparse: cast to restricted __le32
   drivers/net/can/usb/ucan.c:1412:31: sparse: incorrect type in argument 5 (different base types) @@    expected unsigned short [unsigned] [usertype] value @@    got  short [unsigned] [usertype] value @@
   drivers/net/can/usb/ucan.c:1412:31:    expected unsigned short [unsigned] [usertype] value
   drivers/net/can/usb/ucan.c:1412:31:    got restricted __le16 [usertype] <noident>

vim +406 drivers/net/can/usb/ucan.c

   393	
   394	static int ucan_ctrl_command_out(struct ucan_priv *up,
   395					 u8 cmd,
   396					 u16 subcmd,
   397					 size_t datalen)
   398	{
   399		if (datalen > sizeof(union ucan_ctl_payload))
   400			return -ENOMEM;
   401	
   402		return usb_control_msg(up->udev,
   403				usb_sndctrlpipe(up->udev, 0),
   404				cmd,
   405				USB_DIR_OUT | USB_TYPE_VENDOR | USB_RECIP_INTERFACE,
 > 406				cpu_to_le16(subcmd),

   407				up->intf_index,
   408				up->ctl_msg_buffer,
   409				datalen,
   410				UCAN_USB_CTL_PIPE_TIMEOUT);
   411	}
   412	
   413	static int ucan_device_request_in(struct ucan_priv *up,
   414					  u8 cmd,
   415					  u16 subcmd,
   416					  size_t datalen)
   417	{
   418		if (datalen > sizeof(union ucan_ctl_payload))
   419			return -ENOMEM;
   420	
   421		return usb_control_msg(up->udev,
   422				usb_rcvctrlpipe(up->udev, 0),
   423				cmd,
   424				USB_DIR_IN | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
   425				cpu_to_le16(subcmd),
   426				0,
   427				up->ctl_msg_buffer,
   428				datalen,
   429				UCAN_USB_CTL_PIPE_TIMEOUT);
   430	}
   431	
   432	/* Parse the device information structure reported by the device and
   433	 * setup private variables accordingly
   434	 */
   435	static void ucan_parse_device_info(struct ucan_priv *up,
   436					   struct ucan_ctl_cmd_device_info
   437						*ctl_cmd_device_info)
   438	{
   439		struct can_bittiming_const *bittiming =
   440			&up->device_info.bittiming_const;
   441		u16 ctrlmodes;
   442	
   443		/* store the data */
 > 444		up->can.clock.freq = le32_to_cpu(ctl_cmd_device_info->freq);

   445		up->device_info.tx_fifo = ctl_cmd_device_info->tx_fifo;
   446		strcpy(bittiming->name, "ucan");
   447		bittiming->tseg1_min = ctl_cmd_device_info->tseg1_min;
   448		bittiming->tseg1_max = ctl_cmd_device_info->tseg1_max;
   449		bittiming->tseg2_min = ctl_cmd_device_info->tseg2_min;
   450		bittiming->tseg2_max = ctl_cmd_device_info->tseg2_max;
   451		bittiming->sjw_max = ctl_cmd_device_info->sjw_max;
   452		bittiming->brp_min = le32_to_cpu(ctl_cmd_device_info->brp_min);
   453		bittiming->brp_max = le32_to_cpu(ctl_cmd_device_info->brp_max);
 > 454		bittiming->brp_inc = le16_to_cpu(ctl_cmd_device_info->brp_inc);

   455	
   456		ctrlmodes = le16_to_cpu(ctl_cmd_device_info->ctrlmodes);
   457	
   458		up->can.ctrlmode_supported = 0;
   459	
   460		if (ctrlmodes & UCAN_MODE_LOOPBACK)
   461			up->can.ctrlmode_supported |= CAN_CTRLMODE_LOOPBACK;
   462		if (ctrlmodes & UCAN_MODE_SILENT)
   463			up->can.ctrlmode_supported |= CAN_CTRLMODE_LISTENONLY;
   464		if (ctrlmodes & UCAN_MODE_3_SAMPLES)
   465			up->can.ctrlmode_supported |= CAN_CTRLMODE_3_SAMPLES;
   466		if (ctrlmodes & UCAN_MODE_ONE_SHOT)
   467			up->can.ctrlmode_supported |= CAN_CTRLMODE_ONE_SHOT;
   468		if (ctrlmodes & UCAN_MODE_BERR_REPORT)
   469			up->can.ctrlmode_supported |= CAN_CTRLMODE_BERR_REPORTING;
   470	}
   471	

---
0-DAY kernel test infrastructure                Open Source Technology Center
https://lists.01.org/pipermail/kbuild-all                   Intel Corporation