2. Configuring the sio driver

The sio driver provides support for NS8250-, NS16450-, NS16550 and NS16550A-based EIA RS-232C (CCITT V.24) communications interfaces. Several multiport cards are supported as well. See the sio(4) manual page for detailed technical documentation.

2.1. Digi International (DigiBoard) PC/8

Contributed by Andrew Webster . 26 August 1995.

Here is a config snippet from a machine with a Digi International PC/8 with 16550. It has 8 modems connected to these 8 lines, and they work just great. Do not forget to add options COM_MULTIPORT or it will not work very well!

device          sio4    at isa? port 0x100 flags 0xb05
device          sio5    at isa? port 0x108 flags 0xb05
device          sio6    at isa? port 0x110 flags 0xb05
device          sio7    at isa? port 0x118 flags 0xb05
device          sio8    at isa? port 0x120 flags 0xb05
device          sio9    at isa? port 0x128 flags 0xb05
device          sio10   at isa? port 0x130 flags 0xb05
device          sio11   at isa? port 0x138 flags 0xb05 irq 9

The trick in setting this up is that the MSB of the flags represent the last SIO port, in this case 11 so flags are 0xb05.

2.2. Boca 16

Contributed by Don Whiteside . 26 August 1995.

The procedures to make a Boca 16 port board with FreeBSD are pretty straightforward, but you will need a couple things to make it work:

  1. You either need the kernel sources installed so you can recompile the necessary options or you will need someone else to compile it for you. The 2.0.5 default kernel does not come with multiport support enabled and you will need to add a device entry for each port anyways.

  2. Two, you will need to know the interrupt and IO setting for your Boca Board so you can set these options properly in the kernel.

One important note — the actual UART chips for the Boca 16 are in the connector box, not on the internal board itself. So if you have it unplugged, probes of those ports will fail. I have never tested booting with the box unplugged and plugging it back in, and I suggest you do not either.

If you do not already have a custom kernel configuration file set up, refer to Kernel Configuration chapter of the FreeBSD Handbook for general procedures. The following are the specifics for the Boca 16 board and assume you are using the kernel name MYKERNEL and editing with vi.

  1. Add the line

    options COM_MULTIPORT

    to the config file.

  2. Where the current device sion lines are, you will need to add 16 more devices. The following example is for a Boca Board with an interrupt of 3, and a base IO address 100h. The IO address for Each port is +8 hexadecimal from the previous port, thus the 100h, 108h, 110h... addresses.

    device sio1 at isa? port 0x100 flags 0x1005
    device sio2 at isa? port 0x108 flags 0x1005
    device sio3 at isa? port 0x110 flags 0x1005
    device sio4 at isa? port 0x118 flags 0x1005
    …
    device sio15 at isa? port 0x170 flags 0x1005
    device sio16 at isa? port 0x178 flags 0x1005 irq 3

    The flags entry must be changed from this example unless you are using the exact same sio assignments. Flags are set according to 0xMYY where M indicates the minor number of the master port (the last port on a Boca 16) and YY indicates if FIFO is enabled or disabled(enabled), IRQ sharing is used(yes) and if there is an AST/4 compatible IRQ control register(no). In this example,

     flags
    	      0x1005

    indicates that the master port is sio16. If I added another board and assigned sio17 through sio28, the flags for all 16 ports on that board would be 0x1C05, where 1C indicates the minor number of the master port. Do not change the 05 setting.

  3. Save and complete the kernel configuration, recompile, install and reboot. Presuming you have successfully installed the recompiled kernel and have it set to the correct address and IRQ, your boot message should indicate the successful probe of the Boca ports as follows: (obviously the sio numbers, IO and IRQ could be different)

    sio1 at 0x100-0x107 flags 0x1005 on isa
    sio1: type 16550A (multiport)
    sio2 at 0x108-0x10f flags 0x1005 on isa
    sio2: type 16550A (multiport)
    sio3 at 0x110-0x117 flags 0x1005 on isa
    sio3: type 16550A (multiport)
    sio4 at 0x118-0x11f flags 0x1005 on isa
    sio4: type 16550A (multiport)
    sio5 at 0x120-0x127 flags 0x1005 on isa
    sio5: type 16550A (multiport)
    sio6 at 0x128-0x12f flags 0x1005 on isa
    sio6: type 16550A (multiport)
    sio7 at 0x130-0x137 flags 0x1005 on isa
    sio7: type 16550A (multiport)
    sio8 at 0x138-0x13f flags 0x1005 on isa
    sio8: type 16550A (multiport)
    sio9 at 0x140-0x147 flags 0x1005 on isa
    sio9: type 16550A (multiport)
    sio10 at 0x148-0x14f flags 0x1005 on isa
    sio10: type 16550A (multiport)
    sio11 at 0x150-0x157 flags 0x1005 on isa
    sio11: type 16550A (multiport)
    sio12 at 0x158-0x15f flags 0x1005 on isa
    sio12: type 16550A (multiport)
    sio13 at 0x160-0x167 flags 0x1005 on isa
    sio13: type 16550A (multiport)
    sio14 at 0x168-0x16f flags 0x1005 on isa
    sio14: type 16550A (multiport)
    sio15 at 0x170-0x177 flags 0x1005 on isa
    sio15: type 16550A (multiport)
    sio16 at 0x178-0x17f irq 3 flags 0x1005 on isa
    sio16: type 16550A (multiport master)

    If the messages go by too fast to see,

    # dmesg | more

    will show you the boot messages.

  4. Next, appropriate entries in /dev for the devices must be made using the /dev/MAKEDEV script. This step can be omitted if you are running FreeBSD 5.X with a kernel that has devfs(5) support compiled in.

    If you do need to create the /dev entries, run the following as root:

    # cd /dev
    # ./MAKEDEV tty1
    # ./MAKEDEV cua1
    (everything in between)
    # ./MAKEDEV ttyg
    # ./MAKEDEV cuag

    If you do not want or need call-out devices for some reason, you can dispense with making the cua* devices.

  5. If you want a quick and sloppy way to make sure the devices are working, you can simply plug a modem into each port and (as root)

    # echo at > ttyd*

    for each device you have made. You should see the RX lights flash for each working port.

2.3. Support for Cheap Multi-UART Cards

Contributed by Helge Oldach , September 1999

Ever wondered about FreeBSD support for your 20$ multi-I/O card with two (or more) COM ports, sharing IRQs? Here is how:

Usually the only option to support these kind of boards is to use a distinct IRQ for each port. For example, if your CPU board has an on-board COM1 port (aka sio0–I/O address 0x3F8 and IRQ 4) and you have an extension board with two UARTs, you will commonly need to configure them as COM2 (aka sio1–I/O address 0x2F8 and IRQ 3), and the third port (aka sio2) as I/O 0x3E8 and IRQ 5. Obviously this is a waste of IRQ resources, as it should be basically possible to run both extension board ports using a single IRQ with the COM_MULTIPORT configuration described in the previous sections.

Such cheap I/O boards commonly have a 4 by 3 jumper matrix for the COM ports, similar to the following:

            o  o  o  *
Port A               |
            o  *  o  *
Port B         |
            o  *  o  o
IRQ         2  3  4  5

Shown here is port A wired for IRQ 5 and port B wired for IRQ 3. The IRQ columns on your specific board may vary—other boards may supply jumpers for IRQs 3, 4, 5, and 7 instead.

One could conclude that wiring both ports for IRQ 3 using a handcrafted wire-made jumper covering all three connection points in the IRQ 3 column would solve the issue, but no. You cannot duplicate IRQ 3 because the output drivers of each UART are wired in a totem pole fashion, so if one of the UARTs drives IRQ 3, the output signal will not be what you would expect. Depending on the implementation of the extension board or your motherboard, the IRQ 3 line will continuously stay up, or always stay low.

You need to decouple the IRQ drivers for the two UARTs, so that the IRQ line of the board only goes up if (and only if) one of the UARTs asserts a IRQ, and stays low otherwise. The solution was proposed by Joerg Wunsch : To solder up a wired-or consisting of two diodes (Germanium or Schottky-types strongly preferred) and a 1 kOhm resistor. Here is the schematic, starting from the 4 by 3 jumper field above:

                          Diode
                +---------->|-------+
               /                    |
            o  *  o  o              |     1 kOhm
Port A                              +----|######|-------+
            o  *  o  o              |                   |
Port B          `-------------------+                 ==+==
            o  *  o  o              |                 Ground
                \                   |
                 +--------->|-------+
IRQ         2  3  4  5    Diode

The cathodes of the diodes are connected to a common point, together with a 1 kOhm pull-down resistor. It is essential to connect the resistor to ground to avoid floating of the IRQ line on the bus.

Now we are ready to configure a kernel. Staying with this example, we would configure:

# standard on-board COM1 port
device          sio0    at isa? port "IO_COM1" flags 0x10
# patched-up multi-I/O extension board
options         COM_MULTIPORT
device          sio1    at isa? port "IO_COM2" flags 0x205
device          sio2    at isa? port "IO_COM3" flags 0x205 irq 3

Note that the flags setting for sio1 and sio2 is truly essential; refer to sio(4) for details. (Generally, the 2 in the "flags" attribute refers to sio2 which holds the IRQ, and you surely want a 5 low nibble.) With kernel verbose mode turned on this should yield something similar to this:

sio0: irq maps: 0x1 0x11 0x1 0x1
sio0 at 0x3f8-0x3ff irq 4 flags 0x10 on isa
sio0: type 16550A
sio1: irq maps: 0x1 0x9 0x1 0x1
sio1 at 0x2f8-0x2ff flags 0x205 on isa
sio1: type 16550A (multiport)
sio2: irq maps: 0x1 0x9 0x1 0x1
sio2 at 0x3e8-0x3ef irq 3 flags 0x205 on isa
sio2: type 16550A (multiport master)

Though /sys/i386/isa/sio.c is somewhat cryptic with its use of the irq maps array above, the basic idea is that you observe 0x1 in the first, third, and fourth place. This means that the corresponding IRQ was set upon output and cleared after, which is just what we would expect. If your kernel does not display this behavior, most likely there is something wrong with your wiring.

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