#
# Copyright (C) 1999-2018 STROMASYS
# All rights reserved.
#
# The software contained on this media is proprietary to and embodies
# the confidential technology of STROMASYS. Possession, use, duplication,
# or dissemination of the software and media is authorized only pursuant
# to a valid written license from STROMASYS.
#
#============================================================================
#
# Sample configuration file for VAX 6000 Model 310.
#
#----------------------------------------------------------------------------
set session hw_model = VAX_6310
#============================================================================
#
# Choose a name for the instance, if needed, to differentiate it among other
# instances running on the same host.
#
#----------------------------------------------------------------------------
include configuration_name.icfg
#============================================================================
#
# Use the following commands to disable the rotating LOG files and enable
# a single LOG file. Select either append or overwrite (for each time the
# instance starts) and specify desired log path and file name.
#
#----------------------------------------------------------------------------
set session log_method = append
#set session log_method = overwrite
#set session log = VAX_6310.log
#
# It is possible to reduce the size of the log file using filtering
# possibilities:
#
# 1) Based on message type (info, warning, error)
# 2) Based on repeatetive messages removing.
#
# You can specify which type of messages should be logged using option
# 'log_show_messages' which is a string option containing mentioned above
# message types delimited by comma. Default is "all" which means to log
# all existing message types.
#
# You can specify that repeatetive messages should be filtered out using
# 'log_repeat_filter' "on"/"off" option. Default value is "off"
#
# The same as default "all"
set session log_show_messages="info, warning, error"
# Show only information and error messages
#set session log_show_messages="info, error"
# Show only error messages
#set session log_show_messages="error"
# Filter repeatetive messages out
#set session log_repeat_filter="on"
#
# The following lines tell the emulator where to preserve NVRAM content.
# It will keep the current time of the emulated VAX (when you do not
# run the emulator) and console parameters (such as default boot device).
# Both files must be enabled to correctly preserve the saved state of the console.
#
#set toy container="charon.dat"
#set eeprom container="charon.rom"
#
# Specify the size of RAM (default 512MB). Remember that the dongle
# license might limit the maximum amount of memory.
#
set ram size=32
#set ram size=64
#set ram size=128
#set ram size=256
#set ram size=512
#
# Now assign console built-in serial line. Currently the
# emulator offers three possible ways using serial lines. First
# of them is connection to COM ports (via physical_serial_line).
# The second is to attach a third party terminal emulator
# (virtual_serial_line). And the third one is to connect to MOXA
# NPort 5210 box ports (via np5210_serial_line).
#
# Once desired way of connection is chosen load the interface
# like OPA0 which is expected by built-in console controller.
#
# MOXA NPort 5210 box connection
#load np5210_serial_line/chserial OPA0
#set OPA0 ip="xxx.xxx.xxx.xxx" rs_port=n
# Physical COM port connection
#load physical_serial_line/chserial OPA0 line="COM1:"
#
# Virtual serial line connection listening for the TCP/IP port
# number 10003 on the host system. It is possible to connect to
# this port from any appropriate application (standard terminal,
# user written terminal, etc...).
#
#load virtual_serial_line/chserial OPA0 port=10003
#
# Virtual serial line connection listening for the TCP/IP port
# number 10003 on the host system. Specified program is started
# automatically.
#
load virtual_serial_line/chserial OPA0
#set OPA0 port=10003 application="opa0.ht"
set OPA0 port=10003 application="putty.exe -load OPA0"
#set OPA0 port=10003 application="c:\kea\user\opa0.ktc"
# load DWMBB XMI-to-VAXBI adapter into slot 14 of the XMI
load DWMBB XBA xmi_node_id=14
#
# Slots 1 - 15 (1 - F) of the VAXBI are able to handle I/O adapters.
#
# load KDB50 MSCP disk controller into slot 1 of the VAX BI
load KDB50 PUA vax_bi_node_id=1
#
# Attach unit 0 of the PUA controller to disk image (.dsk or .vdisk);
# VMS would see it as "DUA0:"
#
#set PUA container[0]="..\vdisk\vmssys.vdisk"
#
# Attach unit 1 of the PUA controller to physical disk drive (N to be
# replaced with decimal number); VMS would see it as "DUA1:"
#set PUA container[1]="\\.\PhysicalDriveN"
#
# ...
#
# Attach unit 9 of the PUA controller to CDROM drive (0 might to be
# replaced with another decimal number, if necessary); VMS would see
# it as "DUA9:"
#set PUA container[9]="\\.\CdRomN"
#
# Attach unit 10 of the PUA controller to floppy disk drive ('A' to be
# replaced with 'B', if necessary); VMS would see it as "DUA10:"
#set PUA container[10]="\\.\A:"
# ...
# load DEBNI Ethernet Controller into slot 2 of the VAXBI
load DEBNI/DEMNA ETA vax_bi_node_id=2
# connect the ETA Ethernet controller to host network interface
#load packet_port/chnetwrk ETA0 interface="connection:<connection-name>"
#set ETA interface=ETA0
# Load VAXBI to UNIBUS adapter
load DWBUA UBA vax_bi_node_id=14
# Load TMSCP tape to have the tape instead of non-implemented TBK70
load TUK50 MUA
#
# Attach MUA controller to tape image (.mtd or .vtape); VMS would see
# it as "MUA0:"
#
set MUA container[0]="mua0.mtd"
#
# Attach MUA controller to physical tape drive (N to be replaced with
# decimal number); VMS would see it as "MUA0:"
#
#set MUA container[0]="\\.\TapeN"
# ...
# this is the end of the configuration file #################################