| QEMU CAN bus emulation support |
| ============================== |
| |
| The CAN bus emulation provides mechanism to connect multiple |
| emulated CAN controller chips together by one or multiple CAN busses |
| (the controller device "canbus" parameter). The individual busses |
| can be connected to host system CAN API (at this time only Linux |
| SocketCAN is supported). |
| |
| The concept of busses is generic and different CAN controllers |
| can be implemented. |
| |
| The initial submission implemented SJA1000 controller which |
| is common and well supported by by drivers for the most operating |
| systems. |
| |
| The PCI addon card hardware has been selected as the first CAN |
| interface to implement because such device can be easily connected |
| to systems with different CPU architectures (x86, PowerPC, Arm, etc.). |
| |
| In 2020, CTU CAN FD controller model has been added as part |
| of the bachelor thesis of Jan Charvat. This controller is complete |
| open-source/design/hardware solution. The core designer |
| of the project is Ondrej Ille, the financial support has been |
| provided by CTU, and more companies including Volkswagen subsidiaries. |
| |
| The project has been initially started in frame of RTEMS GSoC 2013 |
| slot by Jin Yang under our mentoring The initial idea was to provide generic |
| CAN subsystem for RTEMS. But lack of common environment for code and RTEMS |
| testing lead to goal change to provide environment which provides complete |
| emulated environment for testing and RTEMS GSoC slot has been donated |
| to work on CAN hardware emulation on QEMU. |
| |
| Examples how to use CAN emulation for SJA1000 based boards |
| ========================================================== |
| |
| When QEMU with CAN PCI support is compiled then one of the next |
| CAN boards can be selected |
| |
| (1) CAN bus Kvaser PCI CAN-S (single SJA1000 channel) boad. QEMU startup options |
| -object can-bus,id=canbus0 |
| -device kvaser_pci,canbus=canbus0 |
| Add "can-host-socketcan" object to connect device to host system CAN bus |
| -object can-host-socketcan,id=canhost0,if=can0,canbus=canbus0 |
| |
| (2) CAN bus PCM-3680I PCI (dual SJA1000 channel) emulation |
| -object can-bus,id=canbus0 |
| -device pcm3680_pci,canbus0=canbus0,canbus1=canbus0 |
| |
| another example: |
| -object can-bus,id=canbus0 |
| -object can-bus,id=canbus1 |
| -device pcm3680_pci,canbus0=canbus0,canbus1=canbus1 |
| |
| (3) CAN bus MIOe-3680 PCI (dual SJA1000 channel) emulation |
| -device mioe3680_pci,canbus0=canbus0 |
| |
| |
| The ''kvaser_pci'' board/device model is compatible with and has been tested with |
| ''kvaser_pci'' driver included in mainline Linux kernel. |
| The tested setup was Linux 4.9 kernel on the host and guest side. |
| Example for qemu-system-x86_64: |
| |
| qemu-system-x86_64 -accel kvm -kernel /boot/vmlinuz-4.9.0-4-amd64 \ |
| -initrd ramdisk.cpio \ |
| -virtfs local,path=shareddir,security_model=none,mount_tag=shareddir \ |
| -object can-bus,id=canbus0 \ |
| -object can-host-socketcan,id=canhost0,if=can0,canbus=canbus0 \ |
| -device kvaser_pci,canbus=canbus0 \ |
| -nographic -append "console=ttyS0" |
| |
| Example for qemu-system-arm: |
| |
| qemu-system-arm -cpu arm1176 -m 256 -M versatilepb \ |
| -kernel kernel-qemu-arm1176-versatilepb \ |
| -hda rpi-wheezy-overlay \ |
| -append "console=ttyAMA0 root=/dev/sda2 ro init=/sbin/init-overlay" \ |
| -nographic \ |
| -virtfs local,path=shareddir,security_model=none,mount_tag=shareddir \ |
| -object can-bus,id=canbus0 \ |
| -object can-host-socketcan,id=canhost0,if=can0,canbus=canbus0 \ |
| -device kvaser_pci,canbus=canbus0,host=can0 \ |
| |
| The CAN interface of the host system has to be configured for proper |
| bitrate and set up. Configuration is not propagated from emulated |
| devices through bus to the physical host device. Example configuration |
| for 1 Mbit/s |
| |
| ip link set can0 type can bitrate 1000000 |
| ip link set can0 up |
| |
| Virtual (host local only) can interface can be used on the host |
| side instead of physical interface |
| |
| ip link add dev can0 type vcan |
| |
| The CAN interface on the host side can be used to analyze CAN |
| traffic with "candump" command which is included in "can-utils". |
| |
| candump can0 |
| |
| CTU CAN FD support examples |
| =========================== |
| |
| This open-source core provides CAN FD support. CAN FD drames are |
| delivered even to the host systems when SocketCAN interface is found |
| CAN FD capable. |
| |
| The PCIe board emulation is provided for now (the device identifier is |
| ctucan_pci). The default build defines two CTU CAN FD cores |
| on the board. |
| |
| Example how to connect the canbus0-bus (virtual wire) to the host |
| Linux system (SocketCAN used) and to both CTU CAN FD cores emulated |
| on the corresponding PCI card expects that host system CAN bus |
| is setup according to the previous SJA1000 section. |
| |
| qemu-system-x86_64 -enable-kvm -kernel /boot/vmlinuz-4.19.52+ \ |
| -initrd ramdisk.cpio \ |
| -virtfs local,path=shareddir,security_model=none,mount_tag=shareddir \ |
| -vga cirrus \ |
| -append "console=ttyS0" \ |
| -object can-bus,id=canbus0-bus \ |
| -object can-host-socketcan,if=can0,canbus=canbus0-bus,id=canbus0-socketcan \ |
| -device ctucan_pci,canbus0=canbus0-bus,canbus1=canbus0-bus \ |
| -nographic |
| |
| Setup of CTU CAN FD controller in a guest Linux system |
| |
| insmod ctucanfd.ko || modprobe ctucanfd |
| insmod ctucanfd_pci.ko || modprobe ctucanfd_pci |
| |
| for ifc in /sys/class/net/can* ; do |
| if [ -e $ifc/device/vendor ] ; then |
| if ! grep -q 0x1760 $ifc/device/vendor ; then |
| continue; |
| fi |
| else |
| continue; |
| fi |
| if [ -e $ifc/device/device ] ; then |
| if ! grep -q 0xff00 $ifc/device/device ; then |
| continue; |
| fi |
| else |
| continue; |
| fi |
| ifc=$(basename $ifc) |
| /bin/ip link set $ifc type can bitrate 1000000 dbitrate 10000000 fd on |
| /bin/ip link set $ifc up |
| done |
| |
| The test can run for example |
| |
| candump can1 |
| |
| in the guest system and next commands in the host system for basic CAN |
| |
| cangen can0 |
| |
| for CAN FD without bitrate switch |
| |
| cangen can0 -f |
| |
| and with bitrate switch |
| |
| cangen can0 -b |
| |
| The test can be run viceversa, generate messages in the guest system and capture them |
| in the host one and much more combinations. |
| |
| Links to other resources |
| ======================== |
| |
| (1) CAN related projects at Czech Technical University, Faculty of Electrical Engineering |
| http://canbus.pages.fel.cvut.cz/ |
| (2) Repository with development can-pci branch at Czech Technical University |
| https://gitlab.fel.cvut.cz/canbus/qemu-canbus |
| (3) RTEMS page describing project |
| https://devel.rtems.org/wiki/Developer/Simulators/QEMU/CANEmulation |
| (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 |
| (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 |
| (6) Linux SocketCAN utilities |
| https://github.com/linux-can/can-utils/ |
| (7) CTU CAN FD project including core VHDL design, Linux driver, |
| test utilities etc. |
| https://gitlab.fel.cvut.cz/canbus/ctucanfd_ip_core |
| (8) CTU CAN FD Core Datasheet Documentation |
| http://canbus.pages.fel.cvut.cz/ctucanfd_ip_core/Progdokum.pdf |
| (9) CTU CAN FD Core System Architecture Documentation |
| http://canbus.pages.fel.cvut.cz/ctucanfd_ip_core/ctu_can_fd_architecture.pdf |
| (10) CTU CAN FD Driver Documentation |
| http://canbus.pages.fel.cvut.cz/ctucanfd_ip_core/driver_doc/ctucanfd-driver.html |
| (11) Integration with PCIe interfacing for Intel/Altera Cyclone IV based board |
| https://gitlab.fel.cvut.cz/canbus/pcie-ctu_can_fd |
