xref: /openbmc/qemu/docs/system/devices/can.rst (revision ab1b2ba9)
1CAN Bus Emulation Support
2=========================
3The CAN bus emulation provides mechanism to connect multiple
4emulated CAN controller chips together by one or multiple CAN busses
5(the controller device "canbus"  parameter). The individual busses
6can be connected to host system CAN API (at this time only Linux
7SocketCAN is supported).
8
9The concept of busses is generic and different CAN controllers
10can be implemented.
11
12The initial submission implemented SJA1000 controller which
13is common and well supported by by drivers for the most operating
14systems.
15
16The PCI addon card hardware has been selected as the first CAN
17interface to implement because such device can be easily connected
18to systems with different CPU architectures (x86, PowerPC, Arm, etc.).
19
20In 2020, CTU CAN FD controller model has been added as part
21of the bachelor thesis of Jan Charvat. This controller is complete
22open-source/design/hardware solution. The core designer
23of the project is Ondrej Ille, the financial support has been
24provided by CTU, and more companies including Volkswagen subsidiaries.
25
26The project has been initially started in frame of RTEMS GSoC 2013
27slot by Jin Yang under our mentoring  The initial idea was to provide generic
28CAN subsystem for RTEMS. But lack of common environment for code and RTEMS
29testing lead to goal change to provide environment which provides complete
30emulated environment for testing and RTEMS GSoC slot has been donated
31to work on CAN hardware emulation on QEMU.
32
33Examples how to use CAN emulation for SJA1000 based boards
34----------------------------------------------------------
35When QEMU with CAN PCI support is compiled then one of the next
36CAN boards can be selected
37
38(1) CAN bus Kvaser PCI CAN-S (single SJA1000 channel) board. QEMU startup options::
39
40    -object can-bus,id=canbus0
41    -device kvaser_pci,canbus=canbus0
42
43Add "can-host-socketcan" object to connect device to host system CAN bus::
44
45    -object can-host-socketcan,id=canhost0,if=can0,canbus=canbus0
46
47(2) CAN bus PCM-3680I PCI (dual SJA1000 channel) emulation::
48
49    -object can-bus,id=canbus0
50    -device pcm3680_pci,canbus0=canbus0,canbus1=canbus0
51
52Another example::
53
54    -object can-bus,id=canbus0
55    -object can-bus,id=canbus1
56    -device pcm3680_pci,canbus0=canbus0,canbus1=canbus1
57
58(3) CAN bus MIOe-3680 PCI (dual SJA1000 channel) emulation::
59
60    -device mioe3680_pci,canbus0=canbus0
61
62The ''kvaser_pci'' board/device model is compatible with and has been tested with
63the ''kvaser_pci'' driver included in mainline Linux kernel.
64The tested setup was Linux 4.9 kernel on the host and guest side.
65
66Example for qemu-system-x86_64::
67
68    qemu-system-x86_64 -accel kvm -kernel /boot/vmlinuz-4.9.0-4-amd64 \
69      -initrd ramdisk.cpio \
70      -virtfs local,path=shareddir,security_model=none,mount_tag=shareddir \
71      -object can-bus,id=canbus0 \
72      -object can-host-socketcan,id=canhost0,if=can0,canbus=canbus0 \
73      -device kvaser_pci,canbus=canbus0 \
74      -nographic -append "console=ttyS0"
75
76Example for qemu-system-arm::
77
78    qemu-system-arm -cpu arm1176 -m 256 -M versatilepb \
79      -kernel kernel-qemu-arm1176-versatilepb \
80      -hda rpi-wheezy-overlay \
81      -append "console=ttyAMA0 root=/dev/sda2 ro init=/sbin/init-overlay" \
82      -nographic \
83      -virtfs local,path=shareddir,security_model=none,mount_tag=shareddir \
84      -object can-bus,id=canbus0 \
85      -object can-host-socketcan,id=canhost0,if=can0,canbus=canbus0 \
86      -device kvaser_pci,canbus=canbus0,host=can0 \
87
88The CAN interface of the host system has to be configured for proper
89bitrate and set up. Configuration is not propagated from emulated
90devices through bus to the physical host device. Example configuration
91for 1 Mbit/s::
92
93  ip link set can0 type can bitrate 1000000
94  ip link set can0 up
95
96Virtual (host local only) can interface can be used on the host
97side instead of physical interface::
98
99  ip link add dev can0 type vcan
100
101The CAN interface on the host side can be used to analyze CAN
102traffic with "candump" command which is included in "can-utils"::
103
104  candump can0
105
106CTU CAN FD support examples
107---------------------------
108This open-source core provides CAN FD support. CAN FD drames are
109delivered even to the host systems when SocketCAN interface is found
110CAN FD capable.
111
112The PCIe board emulation is provided for now (the device identifier is
113ctucan_pci). The default build defines two CTU CAN FD cores
114on the board.
115
116Example how to connect the canbus0-bus (virtual wire) to the host
117Linux system (SocketCAN used) and to both CTU CAN FD cores emulated
118on the corresponding PCI card expects that host system CAN bus
119is setup according to the previous SJA1000 section::
120
121  qemu-system-x86_64 -enable-kvm -kernel /boot/vmlinuz-4.19.52+ \
122      -initrd ramdisk.cpio \
123      -virtfs local,path=shareddir,security_model=none,mount_tag=shareddir \
124      -vga cirrus \
125      -append "console=ttyS0" \
126      -object can-bus,id=canbus0-bus \
127      -object can-host-socketcan,if=can0,canbus=canbus0-bus,id=canbus0-socketcan \
128      -device ctucan_pci,canbus0=canbus0-bus,canbus1=canbus0-bus \
129      -nographic
130
131Setup of CTU CAN FD controller in a guest Linux system::
132
133  insmod ctucanfd.ko || modprobe ctucanfd
134  insmod ctucanfd_pci.ko || modprobe ctucanfd_pci
135
136  for ifc in /sys/class/net/can* ; do
137    if [ -e  $ifc/device/vendor ] ; then
138      if ! grep -q 0x1760 $ifc/device/vendor ; then
139        continue;
140      fi
141    else
142      continue;
143    fi
144    if [ -e  $ifc/device/device ] ; then
145       if ! grep -q 0xff00 $ifc/device/device ; then
146         continue;
147       fi
148    else
149      continue;
150    fi
151    ifc=$(basename $ifc)
152    /bin/ip link set $ifc type can bitrate 1000000 dbitrate 10000000 fd on
153    /bin/ip link set $ifc up
154  done
155
156The test can run for example::
157
158  candump can1
159
160in the guest system and next commands in the host system for basic CAN::
161
162  cangen can0
163
164for CAN FD without bitrate switch::
165
166  cangen can0 -f
167
168and with bitrate switch::
169
170  cangen can0 -b
171
172The test can also be run the other way around, generating messages in the
173guest system and capturing them in the host system. Other combinations are
174also possible.
175
176Links to other resources
177------------------------
178
179 (1) `CAN related projects at Czech Technical University, Faculty of Electrical Engineering <http://canbus.pages.fel.cvut.cz>`_
180 (2) `Repository with development can-pci branch at Czech Technical University <https://gitlab.fel.cvut.cz/canbus/qemu-canbus>`_
181 (3) `RTEMS page describing project <https://devel.rtems.org/wiki/Developer/Simulators/QEMU/CANEmulation>`_
182 (4) `RTLWS 2015 article about the project and its use with CANopen emulation <http://cmp.felk.cvut.cz/~pisa/can/doc/rtlws-17-pisa-qemu-can.pdf>`_
183 (5) `GNU/Linux, CAN and CANopen in Real-time Control Applications Slides from LinuxDays 2017 (include updated RTLWS 2015 content) <https://www.linuxdays.cz/2017/video/Pavel_Pisa-CAN_canopen.pdf>`_
184 (6) `Linux SocketCAN utilities <https://github.com/linux-can/can-utils>`_
185 (7) `CTU CAN FD project including core VHDL design, Linux driver, test utilities etc. <https://gitlab.fel.cvut.cz/canbus/ctucanfd_ip_core>`_
186 (8) `CTU CAN FD Core Datasheet Documentation <http://canbus.pages.fel.cvut.cz/ctucanfd_ip_core/doc/Datasheet.pdf>`_
187 (9) `CTU CAN FD Core System Architecture Documentation <http://canbus.pages.fel.cvut.cz/ctucanfd_ip_core/doc/System_Architecture.pdf>`_
188 (10) `CTU CAN FD Driver Documentation <https://canbus.pages.fel.cvut.cz/ctucanfd_ip_core/doc/linux_driver/build/ctucanfd-driver.html>`_
189 (11) `Integration with PCIe interfacing for Intel/Altera Cyclone IV based board <https://gitlab.fel.cvut.cz/canbus/pcie-ctu_can_fd>`_
190