README.modules
==============

As an example of how to use isapnp to initialise some devices,
using driver modules, consider what I do in my system.

I have two PnP cards in my system, a modem (DFX0000/1493) and an
ethernet card (EDI0119/236861364) (NE2000 clone).

My /etc/isapnp.conf file looks like this:

--------------------------------------------------------------------
# LD n = Logical device, ie write to reg 7
# IO n = IO descriptor n
# BASE n = IO/Mem address
# INT n = Interrupt req n
# IRQ n = Interrupt level
# MODE = line levels etc
# ACT = Activate

#(debug)
#(IGNORECRC)
(READPORT 0x3bb)
(ISOLATE)
(IDENTIFY *)
# Card 1: (serial identifier 13 0e 1e 37 b4 19 01 89 14)
# EDI0119 Serial No 236861364 [checksum 13]
# Version 1.0, Vendor version 1.0
# ANSI string -->PLUG & PLAY ETHERNET CARD<--
#
# Logical device id EDI0119
#     Device support I/O range check register
#
# Edit the entries below to uncomment out the configuration required.
# Note that only the first value of any range is given, this may be changed if required
# Don't forget to uncomment the activate (ACT Y) when happy

(CONFIGURE EDI0119/236861364 (LD 0
#     Compatible device id PNP80d6
#     Logical device decodes 10 bit IO address lines
#         Minimum IO base address 0x0240
#         Maximum IO base address 0x03e0
#         IO base alignment 32 bytes
#         Number of IO addresses required: 32
(IO 0 (BASE 0x0340))
#     IRQ 3, 4, 5, 9, 10, 11, 12 or 15.
#         High true, edge sensitive interrupt
(INT 0 (IRQ 10 (MODE +E)))
#     Memory is non-writeable (ROM)
#     Memory is non-cacheable
#     Memory decode supports high address
#     memory is 8-bit only
#     memory is shadowable
#     memory is an expansion ROM
#     Minimum memory base address 0x0c0000
#     Maximum memory base address 0x0dc000
#     Range base alignment mask 0xff4000 bytes
#     Range length 16384 bytes
# Choose UPPER = Range, or UPPER = Upper limit to suit hardware
# (MEM 0 (BASE 0x0c0000) (MODE bu) (UPPER 0x0c4000))
# (MEM 0 (BASE 0x0c0000) (MODE br) (UPPER 0x004000))
(ACT Y)))
# End tag... Checksum 0x00 (OK)

(CONFIGURE DFX0000/1493 (LD 0 (IO 0 (BASE 0x3e8)) (INT 0 (IRQ 12 (MODE +E))) (ACT Y)))
(WAITFORKEY)
--------------------------------------------------------------------

As you can see, the modem has been configured to use
IO address 0x3e8 and interrupt 12, and the ethernet card
has been configured to use IO address 0x340 and interrupt 10.

So my bootup scripts need to tell the kernel drivers about this, which
I do with the following commands:

--------------------------------------------------------------------
#
# Install the PnP devices
#
isapnp /etc/isapnp.conf
#
# Configure the pnp devices: the modem
#
setserial /dev/ttyS2 irq 12 autoconfig
setserial /dev/ttyS2 spd_vhi
setserial /dev/ttyS2
# Stop it chattering to itself
stty -echo < /dev/ttyS2
#
# And the network card
#
insmod /usr/src/linux/modules/8390.o
insmod /usr/src/linux/modules/ne.o io=0x340
--------------------------------------------------------------------

The address of the modem port is set by the device I use.
Look in /usr/src/linux/drivers/char/serial.c. I use setserial
to configure the interrupt.

The address of the NE2000 clone is specified when loading the
module, and it correctly probes for the interrupt during initialisation.

This is done fairly early in the bootup sequence, before the devices
are used. In my case, the commands are in rc.extra which is called
from rc.multi just after mounting all disks and clearing /tmp etc.

If you have PnP IDE interfaces, it may be appropriate to move the
device and driver initialisation even earlier in the boot up sequence.

If you want to know what scripts are executed during boot, look at
/etc/inittab, and man inittab.