2b88119e35
The mtty driver exposes a PCI serial device to userspace and therefore makes an easy target for a sample device supporting migration. The device does not make use of DMA, therefore we can easily claim support for the migration P2P states, as well as dirty logging. This implementation also makes use of PRE_COPY support in order to provide migration stream compatibility testing, which should generally be considered good practice. Reviewed-by: Cédric Le Goater <clg@redhat.com> Link: https://lore.kernel.org/r/20231016224736.2575718-3-alex.williamson@redhat.com Signed-off-by: Alex Williamson <alex.williamson@redhat.com> |
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Makefile | ||
mbochs.c | ||
mdpy-defs.h | ||
mdpy-fb.c | ||
mdpy.c | ||
mtty.c | ||
README.rst |
Using the mtty vfio-mdev sample code ==================================== mtty is a sample vfio-mdev driver that demonstrates how to use the mediated device framework. The sample driver creates an mdev device that simulates a serial port over a PCI card. 1. Build and load the mtty.ko module. This step creates a dummy device, /sys/devices/virtual/mtty/mtty/ Files in this device directory in sysfs are similar to the following:: # tree /sys/devices/virtual/mtty/mtty/ /sys/devices/virtual/mtty/mtty/ |-- mdev_supported_types | |-- mtty-1 | | |-- available_instances | | |-- create | | |-- device_api | | |-- devices | | `-- name | `-- mtty-2 | |-- available_instances | |-- create | |-- device_api | |-- devices | `-- name |-- mtty_dev | `-- sample_mtty_dev |-- power | |-- autosuspend_delay_ms | |-- control | |-- runtime_active_time | |-- runtime_status | `-- runtime_suspended_time |-- subsystem -> ../../../../class/mtty `-- uevent 2. Create a mediated device by using the dummy device that you created in the previous step:: # echo "83b8f4f2-509f-382f-3c1e-e6bfe0fa1001" > \ /sys/devices/virtual/mtty/mtty/mdev_supported_types/mtty-2/create 3. Add parameters to qemu-kvm:: -device vfio-pci,\ sysfsdev=/sys/bus/mdev/devices/83b8f4f2-509f-382f-3c1e-e6bfe0fa1001 4. Boot the VM. In the Linux guest VM, with no hardware on the host, the device appears as follows:: # lspci -s 00:05.0 -xxvv 00:05.0 Serial controller: Device 4348:3253 (rev 10) (prog-if 02 [16550]) Subsystem: Device 4348:3253 Physical Slot: 5 Control: I/O+ Mem- BusMaster- SpecCycle- MemWINV- VGASnoop- ParErr- Stepping- SERR- FastB2B- DisINTx- Status: Cap- 66MHz- UDF- FastB2B- ParErr- DEVSEL=medium >TAbort- <TAbort- <MAbort- >SERR- <PERR- INTx- Interrupt: pin A routed to IRQ 10 Region 0: I/O ports at c150 [size=8] Region 1: I/O ports at c158 [size=8] Kernel driver in use: serial 00: 48 43 53 32 01 00 00 02 10 02 00 07 00 00 00 00 10: 51 c1 00 00 59 c1 00 00 00 00 00 00 00 00 00 00 20: 00 00 00 00 00 00 00 00 00 00 00 00 48 43 53 32 30: 00 00 00 00 00 00 00 00 00 00 00 00 0a 01 00 00 In the Linux guest VM, dmesg output for the device is as follows: serial 0000:00:05.0: PCI INT A -> Link[LNKA] -> GSI 10 (level, high) -> IRQ 10 0000:00:05.0: ttyS1 at I/O 0xc150 (irq = 10) is a 16550A 0000:00:05.0: ttyS2 at I/O 0xc158 (irq = 10) is a 16550A 5. In the Linux guest VM, check the serial ports:: # setserial -g /dev/ttyS* /dev/ttyS0, UART: 16550A, Port: 0x03f8, IRQ: 4 /dev/ttyS1, UART: 16550A, Port: 0xc150, IRQ: 10 /dev/ttyS2, UART: 16550A, Port: 0xc158, IRQ: 10 6. Using minicom or any terminal emulation program, open port /dev/ttyS1 or /dev/ttyS2 with hardware flow control disabled. 7. Type data on the minicom terminal or send data to the terminal emulation program and read the data. Data is loop backed from hosts mtty driver. 8. Destroy the mediated device that you created:: # echo 1 > /sys/bus/mdev/devices/83b8f4f2-509f-382f-3c1e-e6bfe0fa1001/remove