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1 1626 jcastillo
                    LINUX DRIVER FOR BAYCOM MODEMS
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             Thomas M. Sailer 
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This document describes the Linux Kernel Driver for simple Baycom style
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amateur radio modems. The driver supports the following modems:
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ser12: This is a very simple 1200 baud AFSK modem. The modem consists only
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       of a modulator/demodulator chip, usually a TI TCM3105. The computer
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       is responsible for regenerating the receiver bit clock, as well as
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       for handling the HDLC protocol. The modem connects to a serial port,
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       hence the name. Since the serial port is not used as an async serial
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       port, the kernel driver for serial ports cannot be used, and this
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       driver only supports standard serial hardware (8250, 16450, 16550)
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par96: This is a modem for 9600 baud FSK compatible to the G3RUH standard.
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       The modem does all the filtering and regenerates the receiver clock.
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       Data is transferred from and to the PC via a shift register.
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       The shift register is filled with 16 bits and an interrupt is signalled.
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       The PC then empties the shift register in a burst. This modem connects
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       to the parallel port, hence the name. The modem leaves the
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       implementation of the HDLC protocol and the scrambler polynomial to
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       the PC.
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par97: This is a redesign of the par96 modem by Henning Rech, DF9IC. The modem
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       is protocol compatible to par96, but uses only three low power ICs
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       and can therefore be fed from the parallel port and does not require
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       an additional power supply.
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All of the above modems only support half duplex communications. However,
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the driver supports the KISS (see below) fullduplex command. It then simply
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starts to send as soon as there's a packet to transmit and does not care
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about DCD, i.e. it starts to send even if there's someone else on the channel.
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This command is required by some implementations of the DAMA channel
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access protocol.
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The Interface of the driver
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The driver interfaces to the AX25 stack via a KISS interface. The driver
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can be accessed as a character device with major 60. Major 60 is the first
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number of the local/experimental range. I did no steps to coordinate a
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major number for this driver, but I plan to do so in the near future.
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The driver supports multiple modems (currently four, as defined with
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NR_PORTS). It therefore responds to minor numbers 0 to 3. I recommend
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to access the driver via the special device files /dev/bc[0-3], which
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can be created with 'make bc'.
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Compiling and installing the driver
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First unpack the source files into a directory. Then enter the following: (you
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must be root to do it)
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  make dep
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  make
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This will create the files baycom.o and setbaycom. baycom.o is as well copied
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to /lib/modules/`uname -n`/misc. If you plan to use kerneld, do the following:
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  depmod -a
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Do not forget to create the device special files if you install the driver the
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first time. This can be done with:
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  make bc
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You are now ready to use the driver. You can now activate the driver manually
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by entering
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  insmod baycom
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or leave this task to kerneld (if installed). Add the following line to
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/etc/conf.modules
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  alias char-major-60 baycom
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Configuring the driver
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Every time the driver is inserted into the kernel, it has to know which
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modems it should access at which ports. This can be done with the setbaycom
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utility. If you are only using one modem, you can also configure the
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driver from the insmod command line (or by means of an option line in
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/etc/conf.modules).
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Examples:
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  insmod baycom modem=1 iobase=0x3f8 irq=4 options=1
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  setbaycom -i /dev/bc0 -p ser12 0x3f8 4 1
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Both lines configure the first port to drive a ser12 modem at the first
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serial port (COM1 under DOS). options=1 instructs the driver to use
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the software DCD algorithm (see below).
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  insmod baycom modem=2 iobase=0x378 irq=7 options=1
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  setbaycom -i /dev/bc0 -p par96 0x378 7 1
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Both lines configure the first port to drive a par96 or par97 modem at the
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first parallel port (LPT1 under DOS). options=1 instructs the driver to use
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the software DCD algorithm (see below).
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The channel access parameters must be set through KISS parameter frames. The
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AX25 stack may be used to generate such frames. KA9Q NET derivatives such
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as WAMPES or TNOS offer the 'param' command for this purpose.
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Hardware DCD versus Software DCD
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To avoid collisions on the air, the driver must know when the channel is
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busy. This is the task of the DCD circuitry/software. The driver may either
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utilise a software DCD algorithm (options=1) or use a DCD signal from
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the hardware (options=0).
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ser12: if software DCD is utilised, the radio's squelch should always be
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       open. It is highly recommended to use the software DCD algorithm,
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       as it is much faster than most hardware squelch circuitry. The
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       disadvantage is a slightly higher load on the system.
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par96: the software DCD algorithm for this type of modem is rather poor.
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       The modem simply does not provide enough information to implement
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       a reasonable DCD algorithm in software. Therefore, if your radio
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       feeds the DCD input of the PAR96 modem, the use of the hardware
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       DCD circuitry is recommended.
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par97: as far as I know it is in this respect equivalent to par96.
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Compatibility with the rest of the Linux kernel
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The tty interface gave me some headaches. I did not find a reasonable
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documentation of its interfaces, so I'm not particularly sure if I implemented
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it the way I should. Perhaps someone with a more profound knowledge about
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tty drivers could check the interface routines.
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The driver produces a rather high interrupt load. par96/par97 generates 600
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interrupts per second, ser12 1200 while transmitting and 2400 if hardware
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DCD is used, 3600 otherwise. If other device drivers disable interrupts
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too long, the performance of the driver drops (the packet loss rate increases),
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especially with the ser12 modem.
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There were also reports that under rather high load situations the driver
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drops frames. This might be either an interrupt problem, or an AX25 stack
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running in user mode might not get enough CPU time to process the packets
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before the drivers internal buffers overflow. There is no way to throttle
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the other radio stations from this layer, throttling must be done in the
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AX25 layer.
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The serial driver, the line printer (lp) driver and the baycom driver compete
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for the same hardware resources. Of course only one driver can access a given
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interface at a time. The serial driver grabs all interfaces it can find at
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startup time. Therefore the baycom driver subsequently won't be able to
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access a serial port. You might therefore find it necessary to release
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a port owned by the serial driver with 'setserial /dev/ttyS# uart none', where
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# is the number of the interface. The baycom driver does not reserve any
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port at startup, unless one is specified on the 'insmod' command line. Another
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method to solve the problem is to compile all three drivers as modules and
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leave it to kerneld to load the correct driver depending on the application.
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vy 73s de
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Tom Sailer, hb9jnx@radio.amiv.ethz.ch
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hb9jnx @ hb9w.ampr.org

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