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Document basic concepts, APIs and behaviour of the ISO 15675-2 (ISO-TP) CAN stack. Signed-off-by: Francesco Valla <valla.francesco@gmail.com> Reviewed-by: Bagas Sanjaya <bagasdotme@gmail.com> Reviewed-by: Vincent Mailhol <mailhol.vincent@wanadoo.fr> Link: https://lore.kernel.org/all/20240501092413.414700-2-valla.francesco@gmail.com Signed-off-by: Marc Kleine-Budde <mkl@pengutronix.de>
387 lines
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ReStructuredText
387 lines
13 KiB
ReStructuredText
.. SPDX-License-Identifier: (GPL-2.0 OR BSD-3-Clause)
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====================
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ISO 15765-2 (ISO-TP)
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====================
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Overview
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========
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ISO 15765-2, also known as ISO-TP, is a transport protocol specifically defined
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for diagnostic communication on CAN. It is widely used in the automotive
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industry, for example as the transport protocol for UDSonCAN (ISO 14229-3) or
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emission-related diagnostic services (ISO 15031-5).
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ISO-TP can be used both on CAN CC (aka Classical CAN) and CAN FD (CAN with
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Flexible Datarate) based networks. It is also designed to be compatible with a
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CAN network using SAE J1939 as data link layer (however, this is not a
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requirement).
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Specifications used
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-------------------
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* ISO 15765-2:2024 : Road vehicles - Diagnostic communication over Controller
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Area Network (DoCAN). Part 2: Transport protocol and network layer services.
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Addressing
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----------
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In its simplest form, ISO-TP is based on two kinds of addressing modes for the
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nodes connected to the same network:
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* physical addressing is implemented by two node-specific addresses and is used
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in 1-to-1 communication.
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* functional addressing is implemented by one node-specific address and is used
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in 1-to-N communication.
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Three different addressing formats can be employed:
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* "normal" : each address is represented simply by a CAN ID.
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* "extended": each address is represented by a CAN ID plus the first byte of
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the CAN payload; both the CAN ID and the byte inside the payload shall be
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different between two addresses.
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* "mixed": each address is represented by a CAN ID plus the first byte of
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the CAN payload; the CAN ID is different between two addresses, but the
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additional byte is the same.
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Transport protocol and associated frame types
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---------------------------------------------
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When transmitting data using the ISO-TP protocol, the payload can either fit
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inside one single CAN message or not, also considering the overhead the protocol
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is generating and the optional extended addressing. In the first case, the data
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is transmitted at once using a so-called Single Frame (SF). In the second case,
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ISO-TP defines a multi-frame protocol, in which the sender provides (through a
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First Frame - FF) the PDU length which is to be transmitted and also asks for a
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Flow Control (FC) frame, which provides the maximum supported size of a macro
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data block (``blocksize``) and the minimum time between the single CAN messages
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composing such block (``stmin``). Once this information has been received, the
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sender starts to send frames containing fragments of the data payload (called
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Consecutive Frames - CF), stopping after every ``blocksize``-sized block to wait
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confirmation from the receiver which should then send another Flow Control
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frame to inform the sender about its availability to receive more data.
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How to Use ISO-TP
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=================
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As with others CAN protocols, the ISO-TP stack support is built into the
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Linux network subsystem for the CAN bus, aka. Linux-CAN or SocketCAN, and
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thus follows the same socket API.
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Creation and basic usage of an ISO-TP socket
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--------------------------------------------
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To use the ISO-TP stack, ``#include <linux/can/isotp.h>`` shall be used. A
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socket can then be created using the ``PF_CAN`` protocol family, the
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``SOCK_DGRAM`` type (as the underlying protocol is datagram-based by design)
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and the ``CAN_ISOTP`` protocol:
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.. code-block:: C
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s = socket(PF_CAN, SOCK_DGRAM, CAN_ISOTP);
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After the socket has been successfully created, ``bind(2)`` shall be called to
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bind the socket to the desired CAN interface; to do so:
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* a TX CAN ID shall be specified as part of the sockaddr supplied to the call
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itself.
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* a RX CAN ID shall also be specified, unless broadcast flags have been set
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through socket option (explained below).
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Once bound to an interface, the socket can be read from and written to using
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the usual ``read(2)`` and ``write(2)`` system calls, as well as ``send(2)``,
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``sendmsg(2)``, ``recv(2)`` and ``recvmsg(2)``.
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Unlike the CAN_RAW socket API, only the ISO-TP data field (the actual payload)
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is sent and received by the userspace application using these calls. The address
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information and the protocol information are automatically filled by the ISO-TP
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stack using the configuration supplied during socket creation. In the same way,
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the stack will use the transport mechanism when required (i.e., when the size
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of the data payload exceeds the MTU of the underlying CAN bus).
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The sockaddr structure used for SocketCAN has extensions for use with ISO-TP,
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as specified below:
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.. code-block:: C
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struct sockaddr_can {
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sa_family_t can_family;
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int can_ifindex;
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union {
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struct { canid_t rx_id, tx_id; } tp;
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...
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} can_addr;
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}
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* ``can_family`` and ``can_ifindex`` serve the same purpose as for other
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SocketCAN sockets.
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* ``can_addr.tp.rx_id`` specifies the receive (RX) CAN ID and will be used as
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a RX filter.
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* ``can_addr.tp.tx_id`` specifies the transmit (TX) CAN ID
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ISO-TP socket options
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---------------------
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When creating an ISO-TP socket, reasonable defaults are set. Some options can
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be modified with ``setsockopt(2)`` and/or read back with ``getsockopt(2)``.
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General options
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~~~~~~~~~~~~~~~
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General socket options can be passed using the ``CAN_ISOTP_OPTS`` optname:
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.. code-block:: C
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struct can_isotp_options opts;
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ret = setsockopt(s, SOL_CAN_ISOTP, CAN_ISOTP_OPTS, &opts, sizeof(opts))
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where the ``can_isotp_options`` structure has the following contents:
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.. code-block:: C
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struct can_isotp_options {
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u32 flags;
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u32 frame_txtime;
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u8 ext_address;
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u8 txpad_content;
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u8 rxpad_content;
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u8 rx_ext_address;
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};
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* ``flags``: modifiers to be applied to the default behaviour of the ISO-TP
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stack. Following flags are available:
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* ``CAN_ISOTP_LISTEN_MODE``: listen only (do not send FC frames); normally
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used as a testing feature.
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* ``CAN_ISOTP_EXTEND_ADDR``: use the byte specified in ``ext_address`` as an
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additional address component. This enables the "mixed" addressing format if
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used alone, or the "extended" addressing format if used in conjunction with
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``CAN_ISOTP_RX_EXT_ADDR``.
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* ``CAN_ISOTP_TX_PADDING``: enable padding for transmitted frames, using
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``txpad_content`` as value for the padding bytes.
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* ``CAN_ISOTP_RX_PADDING``: enable padding for the received frames, using
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``rxpad_content`` as value for the padding bytes.
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* ``CAN_ISOTP_CHK_PAD_LEN``: check for correct padding length on the received
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frames.
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* ``CAN_ISOTP_CHK_PAD_DATA``: check padding bytes on the received frames
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against ``rxpad_content``; if ``CAN_ISOTP_RX_PADDING`` is not specified,
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this flag is ignored.
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* ``CAN_ISOTP_HALF_DUPLEX``: force ISO-TP socket in half duplex mode
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(that is, transport mechanism can only be incoming or outgoing at the same
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time, not both).
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* ``CAN_ISOTP_FORCE_TXSTMIN``: ignore stmin from received FC; normally
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used as a testing feature.
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* ``CAN_ISOTP_FORCE_RXSTMIN``: ignore CFs depending on rx stmin; normally
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used as a testing feature.
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* ``CAN_ISOTP_RX_EXT_ADDR``: use ``rx_ext_address`` instead of ``ext_address``
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as extended addressing byte on the reception path. If used in conjunction
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with ``CAN_ISOTP_EXTEND_ADDR``, this flag effectively enables the "extended"
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addressing format.
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* ``CAN_ISOTP_WAIT_TX_DONE``: wait until the frame is sent before returning
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from ``write(2)`` and ``send(2)`` calls (i.e., blocking write operations).
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* ``CAN_ISOTP_SF_BROADCAST``: use 1-to-N functional addressing (cannot be
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specified alongside ``CAN_ISOTP_CF_BROADCAST``).
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* ``CAN_ISOTP_CF_BROADCAST``: use 1-to-N transmission without flow control
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(cannot be specified alongside ``CAN_ISOTP_SF_BROADCAST``).
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NOTE: this is not covered by the ISO 15765-2 standard.
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* ``CAN_ISOTP_DYN_FC_PARMS``: enable dynamic update of flow control
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parameters.
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* ``frame_txtime``: frame transmission time (defined as N_As/N_Ar inside the
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ISO standard); if ``0``, the default (or the last set value) is used.
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To set the transmission time to ``0``, the ``CAN_ISOTP_FRAME_TXTIME_ZERO``
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macro (equal to 0xFFFFFFFF) shall be used.
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* ``ext_address``: extended addressing byte, used if the
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``CAN_ISOTP_EXTEND_ADDR`` flag is specified.
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* ``txpad_content``: byte used as padding value for transmitted frames.
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* ``rxpad_content``: byte used as padding value for received frames.
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* ``rx_ext_address``: extended addressing byte for the reception path, used if
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the ``CAN_ISOTP_RX_EXT_ADDR`` flag is specified.
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Flow Control options
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~~~~~~~~~~~~~~~~~~~~
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Flow Control (FC) options can be passed using the ``CAN_ISOTP_RECV_FC`` optname
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to provide the communication parameters for receiving ISO-TP PDUs.
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.. code-block:: C
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struct can_isotp_fc_options fc_opts;
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ret = setsockopt(s, SOL_CAN_ISOTP, CAN_ISOTP_RECV_FC, &fc_opts, sizeof(fc_opts));
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where the ``can_isotp_fc_options`` structure has the following contents:
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.. code-block:: C
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struct can_isotp_options {
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u8 bs;
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u8 stmin;
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u8 wftmax;
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};
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* ``bs``: blocksize provided in flow control frames.
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* ``stmin``: minimum separation time provided in flow control frames; can
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have the following values (others are reserved):
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* 0x00 - 0x7F : 0 - 127 ms
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* 0xF1 - 0xF9 : 100 us - 900 us
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* ``wftmax``: maximum number of wait frames provided in flow control frames.
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Link Layer options
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~~~~~~~~~~~~~~~~~~
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Link Layer (LL) options can be passed using the ``CAN_ISOTP_LL_OPTS`` optname:
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.. code-block:: C
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struct can_isotp_ll_options ll_opts;
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ret = setsockopt(s, SOL_CAN_ISOTP, CAN_ISOTP_LL_OPTS, &ll_opts, sizeof(ll_opts));
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where the ``can_isotp_ll_options`` structure has the following contents:
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.. code-block:: C
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struct can_isotp_ll_options {
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u8 mtu;
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u8 tx_dl;
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u8 tx_flags;
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};
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* ``mtu``: generated and accepted CAN frame type, can be equal to ``CAN_MTU``
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for classical CAN frames or ``CANFD_MTU`` for CAN FD frames.
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* ``tx_dl``: maximum payload length for transmitted frames, can have one value
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among: 8, 12, 16, 20, 24, 32, 48, 64. Values above 8 only apply to CAN FD
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traffic (i.e.: ``mtu = CANFD_MTU``).
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* ``tx_flags``: flags set into ``struct canfd_frame.flags`` at frame creation.
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Only applies to CAN FD traffic (i.e.: ``mtu = CANFD_MTU``).
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Transmission stmin
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~~~~~~~~~~~~~~~~~~
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The transmission minimum separation time (stmin) can be forced using the
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``CAN_ISOTP_TX_STMIN`` optname and providing an stmin value in microseconds as
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a 32bit unsigned integer; this will overwrite the value sent by the receiver in
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flow control frames:
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.. code-block:: C
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uint32_t stmin;
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ret = setsockopt(s, SOL_CAN_ISOTP, CAN_ISOTP_TX_STMIN, &stmin, sizeof(stmin));
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Reception stmin
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~~~~~~~~~~~~~~~
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The reception minimum separation time (stmin) can be forced using the
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``CAN_ISOTP_RX_STMIN`` optname and providing an stmin value in microseconds as
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a 32bit unsigned integer; received Consecutive Frames (CF) which timestamps
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differ less than this value will be ignored:
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.. code-block:: C
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uint32_t stmin;
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ret = setsockopt(s, SOL_CAN_ISOTP, CAN_ISOTP_RX_STMIN, &stmin, sizeof(stmin));
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Multi-frame transport support
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-----------------------------
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The ISO-TP stack contained inside the Linux kernel supports the multi-frame
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transport mechanism defined by the standard, with the following constraints:
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* the maximum size of a PDU is defined by a module parameter, with an hard
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limit imposed at build time.
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* when a transmission is in progress, subsequent calls to ``write(2)`` will
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block, while calls to ``send(2)`` will either block or fail depending on the
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presence of the ``MSG_DONTWAIT`` flag.
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* no support is present for sending "wait frames": whether a PDU can be fully
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received or not is decided when the First Frame is received.
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Errors
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------
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Following errors are reported to userspace:
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RX path errors
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~~~~~~~~~~~~~~
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============ ===============================================================
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-ETIMEDOUT timeout of data reception
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-EILSEQ sequence number mismatch during a multi-frame reception
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-EBADMSG data reception with wrong padding
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============ ===============================================================
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TX path errors
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~~~~~~~~~~~~~~
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========== =================================================================
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-ECOMM flow control reception timeout
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-EMSGSIZE flow control reception overflow
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-EBADMSG flow control reception with wrong layout/padding
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========== =================================================================
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Examples
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========
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Basic node example
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------------------
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Following example implements a node using "normal" physical addressing, with
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RX ID equal to 0x18DAF142 and a TX ID equal to 0x18DA42F1. All options are left
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to their default.
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.. code-block:: C
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int s;
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struct sockaddr_can addr;
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int ret;
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s = socket(PF_CAN, SOCK_DGRAM, CAN_ISOTP);
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if (s < 0)
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exit(1);
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addr.can_family = AF_CAN;
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addr.can_ifindex = if_nametoindex("can0");
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addr.tp.tx_id = 0x18DA42F1 | CAN_EFF_FLAG;
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addr.tp.rx_id = 0x18DAF142 | CAN_EFF_FLAG;
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ret = bind(s, (struct sockaddr *)&addr, sizeof(addr));
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if (ret < 0)
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exit(1);
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/* Data can now be received using read(s, ...) and sent using write(s, ...) */
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Additional examples
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-------------------
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More complete (and complex) examples can be found inside the ``isotp*`` userland
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tools, distributed as part of the ``can-utils`` utilities at:
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https://github.com/linux-can/can-utils
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