Hi, A few changes for you to consider: On 4/15/20 9:56 PM, Rishi Gupta wrote: > The commit documents how to use ttyvs driver to create/delete > virtual tty devices, how to emulate various serial port events > through this driver etc. > > Signed-off-by: Rishi Gupta <gupt21@xxxxxxxxx> > --- > Changes in v3: > - Rebased on top of v5.7-rc1 > - Moved virtual-tty-ttyvs.rst from Documentation/virtual to Documentation/admin-guide > > Changes in v2: > - Added this file from v2 only > > Documentation/admin-guide/index.rst | 1 + > Documentation/admin-guide/virtual-tty-ttyvs.rst | 142 ++++++++++++++++++++++++ > 2 files changed, 143 insertions(+) > create mode 100644 Documentation/admin-guide/virtual-tty-ttyvs.rst > diff --git a/Documentation/admin-guide/virtual-tty-ttyvs.rst b/Documentation/admin-guide/virtual-tty-ttyvs.rst > new file mode 100644 > index 0000000..c30b768 > --- /dev/null > +++ b/Documentation/admin-guide/virtual-tty-ttyvs.rst > @@ -0,0 +1,142 @@ > +================================================ > +Kernel driver for virtual tty null modem devices > +================================================ > + > +Author: Rishi Gupta <gupt21@xxxxxxxxx> > + > +The ttyvs driver (drivers/tty/ttyvs.c) creates virtual tty devices > +that can be used with standard POSIX APIs for terminal devices. > + > +Applications can write to the sysfs file provided by this driver to > +emulate various serial port communication events and error conditions. > + > +This driver creates a virtual card which can have 0 to 65535 virtual > +tty devices. > + > +Use cases > +========= > +- Automated performance and scalability testing > +- Serial port redirector to any other subsystem like TCP/IP > +- Feeding data to GPS simulator > +- Segregating hardware issues from software bugs quickly > +- Serial port communication sniffer or test sniffer application itself > +- Application development when hardware is still not available > +- Testing user space drivers & corner case by injecting handcrafted data > +- Migrate binary only or legacy applications to new communication medium > +- Analyze and reverse-engineer serial protocols > +- Cases where socat utility does not meet requirements for unix-like OS > +- Cases where available physical serial ports don't meet requirements > +- Product demo where data from hardware needs to be sent to the GUI app > +- Stress and corner case testing of user space application > + > +How to create devices > +===================== > +There are two ways to create devices: > + > +1. Using device tree: > +The card is modelled as a node with zero or more child nodes each > +representing a virtual tty device. To create a device simply define > +a child node with the required device parameters. This is explained > +in detail in DT binding file: > +Documentation/devicetree/bindings/serial/ttyvs.yaml > + > +2. Using configfs: > +When ttyvs driver is loaded, it will create ttyvs directory inside > +configfs mount point. For ex; if configfs is mounted at /config, then either For example, or E.g., > +/config/ttyvs directory will be created. To create a device, simply > +create directory inside this, write values to be used as device > +parameters and finally write 1 to create attribute. Defining ownidx > +and devtype is mandatory. > + > +Pin mappings are bit maps; set bit 0 to connect a pin to CTS pin, > +set bit 1 to connect to DCD pin, set bit 2 to connect to DSR and > +set bit 3 to connect to RI. Pin naming conventions are follows > +standard RS232 DB9 connector naming conventions. A table would be better here IMO. > + > +An example to create a loop-back device with device number as 0 loopback > +(/dev/ttyvs0), RTS and DTR pins unconnected, no need to assert DTR > +when device is opened would be something like this: > + > +.. code-block:: sh > + > + mkdir /config/ttyvs/devlb-0 > + echo 0 > /config/ttyvs/devlb-0/ownidx > + echo lb > /config/ttyvs/devlb-0/devtype > + echo 0 > /config/ttyvs/devlb-0/ortsmap > + echo 0 > /config/ttyvs/devlb-0/odtrmap > + echo 0 > /config/ttyvs/devlb-0/odtratopn > + echo 1 > /config/ttyvs/devlb-0/create > + > +An example to create a standard null modem pair with device numbers > +0 and 1 with pin numbers as per RS232 standards will be something > +like this: > + > +.. code-block:: sh > + > + /dev/ttyvs0 /dev/ttyvs1 > + TX (3) ----> (2) RX > + RX (2) <---- (3) TX > + RTS (7) ----> (8) CTS > + DTR (4) --+-> (1) DCD > + +-> (6) DSR > + CTS (8) <---- (7) RTS > + DCD (1) <-+-- (4) DTR > + DSR (6) <-+ > + > + mkdir /config/ttyvs/devnm-0-1 > + echo nm > /config/ttyvs/devnm-0-1/devtype > + echo 0 > /config/ttyvs/devnm-0-1/ownidx > + echo 1 > /config/ttyvs/devnm-0-1/ortsmap > + echo 6 > /config/ttyvs/devnm-0-1/odtrmap > + echo 0 > /config/ttyvs/devnm-0-1/odtratopn > + echo 1 > /config/ttyvs/devnm-0-1/peeridx > + echo 1 > /config/ttyvs/devnm-0-1/prtsmap > + echo 6 > /config/ttyvs/devnm-0-1/pdtrmap > + echo 0 > /config/ttyvs/devnm-0-1/pdtratopn > + echo 1 > /config/ttyvs/devnm-0-1/create > + > +Directory name devnm-0-1 can be user defined. We used this simple style > +as it is intuitive to understand that the device is null modem with > +numbers 0 and 1. Further, to use configfs based approach, kernel must > +be compiled with CONFIG_CONFIGFS_FS=y option. > + > +How to delete devices > +===================== > +To delete a device created by configfs simply delete the directory > +created in /config/ttyvs directory. If the device is part of a null > +modem pair, peer device will also be deleted automatically. > + > +How to emulate events > +===================== > +When a virtual tty device is created, an event sysfs file will also > +be created by the driver (/sys/class/tty/ttyvsN/event N is device > +number). > + > +1. Emulating framing error: the driver inserts -7 in data buffer as > +the byte that got corrupted due to framing error while receiving data. > +To emulate this write 1 to /sys/class/tty/ttyvsN/event file. > + > +2. Emulating parity error: the driver inserts -8 in data buffer as > +the byte that got corrupted due to parity error while receiving data. > +To emulate this write 2 to /sys/class/tty/ttyvsN/event file. > + > +3. Emulating overrun error: the driver reports to tty layer that an > +overrun has happened.To emulate this write 3 to /sys/class/tty/ttyvsN/event happened. To > +file. > + > +4. Emulating ring indication: to emulate as if ring indication has been > +observed write 4 to the event file. To emulate as if ring indication has > +been removed write 5 to the event file. > + > +5. Emulate break received: to emulate as if break condition has been received > +write 6 to the /sys/class/tty/ttyvsN/event file. > + > +6. Emulate faulty cable: to emulate as if the cable is faulty write 7 > +to the event file. In this case data sent from sender will not be received > +by the receiver end. To remove this condition write 8 to the event file. > + > +How to support more devices > +=========================== > +By default ttyvs driver supports upto 64 devices. This can be up to > +changed by passing module parameter max_num_vs_devs or by defining > +max-num-vs-devs device tree property. > thanks. -- ~Randy