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By default, all the CHARON templates are located in the "/opt/charon/cfg
" folder. Copy the appropriate template configuration file(s) to your home directory ( or to any directory intended for CHARON-VAX). Name , name them meaningfully and set proper privileges.
For exampleExample:
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Once the file has been created you can open it in your favorite editing tool and proceed with modification modifications to reflect the exact features of the system you are going to emulate.
We will review all the parameters step by step issuing some recommendations and guidelines.
Note: the lines preceeded preceded by the comment sign "#" inside the configuration files will not be interpreted. You can use this sign to debug your configuration.
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The first configuration statement is the specification of the exact VAX hardware model to emulate, for example.
Example:
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If you create the CHARON-VAX configuration file from scratch, it must be the very first uncommented line in the configuration file.
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The next configuration statement is the "Configuration name" option.
Example:
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You can optionally uncomment this line to differentiate this CHARON-VAX instance from all others in a multi-instance instances environment. The configuration name can be any label that is meaningful. The example below shows the configuration name incorporated into It is reported in the log file and is used to set the log file name for rotating log (see further: Rotating log (default) ).
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Execution of CHARON-VAX creates one log file or a set of log files reflecting the progress of its start-up and ongoing operation - start and end time of execution, system information, license and configuration details, warnings, reports on problems that may occur, etc. In case of possible problems either with the running CHARON-VAX or the emulated system configuration (such as the absence or malfunction of certain devices), the log file(s) is the primary source to be analyzed for troubleshooting. If it becomes necessary to contact Stromasys for support, the cfg configuration and log files often , plus the license number, will be requested to begin problem resolution.
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The next group of parameters defines the name of the CHARON-VAX log file and how CHARON-VAX will use it:
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By default CHARON-VAX utilizes a so called "rotating log" mechanism. This means that a new default log file is always created each time CHARON starts and can switch to another log file if the size of the log file exceeds 64Kb (This this behavior can be changed with the "set session log_file_size" and "set session log_rotation_period" commandsparameters; see more details in the "General Settings" chapter of this guide). This
This mode is turned on if all the log parameters above are disabled (commented out) or the "session_log" parameter is pointing to a an existing directory rather than to a file. If a directory is specified, the log files will be created in that directory.
Names The names of the rotating log files are composed as follows:
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Note that "xxxxxxxxx" is an increasing decimal number starting from "000000000" to separate log files with the same time of creation.
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Only an existing directory can be used as a value of the "log" parameter. |
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Alternatively it is possible to use just a single log file. Uncomment : uncomment the "set session log" line and specify the desired CHARON-VAX log file name. Optionally, a path can be added to the log file name. If the path is not specified, the log file is created in the directory from where the guest (emulated machine) is started.
The log file can be extended ("log_method = append") or overwritten ("log_method = overwrite") by CHARON-VAX.
Below is a specification of a CHARON-VAX log file located in the "/my_logs
" directory which will be overwritten appended each time CHARON-VAX starts:
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TOY means "Time of Year"; its container records time, date and some console parameters while CHARON-VAX is not running. To enable the TOY, uncomment the following line:
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The ROM container stores an intermediate state of the Flash ROM and some console parameters. So its container It is also highly recommended to keep uncommenteddefine its location:
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EEPROM stores the NVRAM content, so its container is also recommended to keep uncommented. It is highly recommended to define its location:
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The next parameter defines the amount of host memory the chosen CHARON-VAX model reserves reserves for the emulation.
Example:
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The amount of RAM is specified in MB. It cannot exceed or be lower than certain values specific for each VAX model. It is very important to keep the listed predefined increment between possible memory values.
The following table shows lists all the parameters per model:
Hardware Model | RAM size (in MB) | |||
Min | Max | Default | Increment | |
MicroVAX_II | 1 | 16 | 16 | 1,8,16 |
MicroVAX_3600 | 16 | 64 | 16 | 16 |
MicroVAX_3900 | 16 | 64 | 16 | 16 |
VAXserver_3600 | 16 | 64 | 16 | 16 |
VAXserver_3900 | 16 | 64 | 16 | 16 |
VAXserver_3600_128 | 32 | 128 | 32 | 32 |
VAXserver_3900_128 | 32 | 128 | 32 | 32 |
MicroVAX_3100_Model_96 | 16 | 128 | 16 | 16 |
VAXstation_4000_Model_90 | 16 | 128 | 16 | 16 |
VAX_4000_Model_106 | 16 | 128 | 16 | 16 |
VAX_6000_Model_310 | 32 | 512 | 32 | 32 |
VAXserver_3600_512 | 32 | 512 | 32 | 32 |
VAXserver_3900_512 | 32 | 512 | 32 | 32 |
MicroVAX_3100_Model_98 | 16 | 512 | 16 | 16 |
VAX_4000_Model_108 | 16 | 512 | 16 | 16 |
VAX_4000_Model_700 | 64 | 512 | 64 | 64 |
VAX_4000_Model_705 | 64 | 512 | 64 | 64 |
VAX_6610 | 128 | 3584 | 128 | 128 |
VAX_6620 | 128 | 3584 | 128 | 128 |
VAX_6630 | 128 | 3584 | 128 | 128 |
VAX_6640 | 128 | 3584 | 128 | 128 |
VAX_6650 | 128 | 3584 | 128 | 128 |
VAX_6660 | 128 | 3584 | 128 | 128 |
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The next step is the specification of the VAX console (OPA0) serial line.
Example:
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Option | Description | |||||||||||||
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physical_serial_line | Mapping to host serial line, both physical and virtual. Use the following mapping for different types of host serial lines:
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virtual_serial_line | Mapping to an IP port of CHARON-VAX host. | |||||||||||||
operator_console | Mapping to the current TTY console |
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Note that the VAX 4000 and MicroVAX 3100 models have a 4-line QUART adapter onboard , so their configuration for the console line looks a bit different:
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In case of VAX IF VAX 4000 and MicroVAX 3100 models are used, it is possible to configure up to 4 independent console lines: OPA0, TT0, TT1 and TT2. The main one is OPA0.
Note there are a number of additional parameters for CHARON-VAX serial line configuration. Follow this link for details.
Exit on pressing F6
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key
A hot key can be defined to stop the execution of the CHARON-VAX virtual machine:
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It is strongly recommended to uncomment this line to provide CHARON-VAX the ability to exit by pressing the "F6" buttonkey.
Disk subsystem
The next step is the configuration of the disk subsystem and mapping it to the system resources using the samples given in the template configuration files.
CHARON-VAX supports MSCP, DSSI, CI and SCSI disk controllers. The examples below are for MSCP and SCSI controllers only. DSSI controllers are discussed in details in the following section, and CI controllers - in this section.
MSCP disk controllers (RQDX3, KDB50, KDM70)
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Type of mapping | Description | ||
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"<file-name>.vdisk" | Mapping to files representing physical disks of the VAX system (disk images). | ||
"/dev/sd<L>" | Mapping to physical disks. "L" is letter here. Be careful not to destroy all the information from the disk dedicated to CHARON-VAX by mistake! These disks can not be formatted by the host OS. It is also possible to use not a whole disk, but previously created partitions on it. In this case the syntax is the following: "/dev/sd<L><N>" where N is the number of partition to be used.
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"/dev/dm-<N>" "/dev/mapper/mpath<N>" "/dev/mapper/disk<N>" | Mapping to multipath disk. Be careful not to destroy all the information from the disk dedicated to CHARON-VAX by mistake. These disks must not be formatted by the host OS. | ||
"/dev/disk/by-*" | Mapping to physical disk.
Be careful not to destroy all the information from the disk dedicated to CHARON-VAX by mistake. These disks must not be formatted by the host OS. | ||
"/dev/sr<N>" | Mapping to CD-ROMs. There are some variants of this mapping: "/dev/cdrom<N>" or "/dev/cdrom" | ||
"<file-name>.iso" | Mapping to an ISO file for reading distribution CD-ROM images. |
Numbers The numbers in the square brackets represent unit numbers associated with each container of the MSCP controller. For example, the line 3 of the configuration sample above, referring container #2, creates disk the "DUA2" disk. The maximum unit number allowed is 9999, significantly more than the original hardware provided.
It is possible to load several RQDX3 controllers DUB, DUC, etc. (see lines 6-7, above) by configuring specific addresses for them on the Qbus. Use the "CONFIGURE" utility available on the VAX console to determine the addresses. Please refer to specific HP documentation for further information.
Please also refer to the HP documentation for information on placement of additional KDM70 controllers on an XMI bus (VAX 6000 models) and additional KDB50 controllers on a BI bus (VAX 6310).
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Follow this link for details of (T)MSCP controllers configuration.
Back to Table of Contents
SCSI controller NCR53C94
The VAX 4000 and MicroVAX 3100 have an NCR53C94 SCSI controller onboard for support of different types of SCSI devices including disks and tapes. Optionally a second controller can be added.
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Note that NCR53C94 SCSI controller mapping to system resources is done via specific auxiliary objects:
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Note that versions of VAX/VMS older than 5.5-2H4 do not support the optional SCSI controller and might fail to boot if it is loaded.
Follow this link for details of NCR53C94 SCSI controller controllers configuration.
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Some MSCP and SCSI controllers support tape devices, however CHARON-VAX also emulates specific MSCP tape devices such as TQK50 and TUK50.
Follow this link for more details of (T)MSCP controllers configuration.
TQK50 controller
Example statements to configure TQK50 are shown below:
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The first line loads a UNIBUS BI adapter "DWBUA". Then configure Configure then the "TUK50" tape controller the same way as the TQK50.
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Serial Lines
CHARON-VAX supports the following serial lines controllers: CXA16, CXB16, CXY08, DHQ11, DHV11, DZV11, DZQ11, DL11, DLV11, DZ11, DHW42-AA, DHW42-BA and DHW42-CA.
All of them are configured according to using the following template:
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The first 5 lines of the example above demonstrate loading serial line controllers of different types. The name of the controller ( in this example ) will be "TXA".
Once the controller is loaded it can be mapped to system resources (lines 6-11). The following options are available:
Option | Description | |||||||||||
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physical_serial_line | Mapping to host serial line, both physical and virtual. Use the following mapping for different types of host serial lines:
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virtual_serial_line | Mapping to an IP port of CHARON-VAX. |
The example above loads a DHQ11 serial line controller with one "TXA0" line mapped to the host virtual serial line "/dev/tty0".
Look at the line "set TXA line[0]=TXA0" in the example. This : this one and the following lines of similar syntax map the loaded virtual controller ("TXA") to instances of host serial lines ("TXA<N>").
The number of serial lines possible for each controller depends on its type and corresponds to the HP specification on of a given controller.
It is possible to load several CXA16, CXB16, CXY08, DHQ11, DHV11, DZV11, DZQ11, DL11, DLV11 and DZ11 controllers (see the lines 12-16) by configuring specific addresses for them on the Qbus. Use the "CONFIGURE" utility available on the VAX console to determine the addresses. Please refer to specific HP documentation for further information.
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VAX 4000 and MicroVAX3100 support DHW42-AA, DHW42-BA and DHW42-CA serial lines adapters:
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In the example above the first line loads a DELQA virtual adapter with a name named "XQA"; the . The following 2 lines map it to the host network interface "eth1".
Note that the mapping is performed in 2 steps:
- A mapping object "packet_port" with a name named "XQA0" is loaded and connected to the host interface "eth1" , so CHARON-VAX will use this interface for its networking
- The loaded DELQA virtual adapter "XQA" is connected to the "packet_port" object "XQA0"
It is possible to load several DEQNA, DESQA, DELQA, DEUNA and DELUA controllers (see the lines 4-5) by configuring specific addresses for them on the Qbus. Use the "CONFIGURE" utility available on the VAX console to determine the addresses. Please refer to the HP specific HP documentation for further information.
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CHARON supports VLAN adapters. If used, proceed with their installation and configuration according to the network adapter vendor User's Guide and then use the resulting VLAN interface the same way as the regular network interface. |
Follow this link for more details of CHARON-VAX network controllers configuration.
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Auto boot
CHARON-VAX can be configured to automatically boot an operating system at start up.
The MicroVAX 3100, VAX 6310 and VAX 4000 models boot automatically if the correct boot flags are set with at the VAX console level:
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Please check that the TOY, EEPROM and ROM containers (see above) are enabled so the console command changes are saved between upon reboots.
The ROM of certain VAXes VAX models (MicroVAX II, MicroVAX 3600, MicroVAX 3900, VAXserver 3600 and VAXserver 3900) does not allow the SRM console to accept the commands above command to enable auto booting. In this case, use a configuration file setting insteadAs a workaround, a specific setting can be defined in the configuration file:
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The CHARON-VAX 6000 models have a similar configuration setting:
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Host load balance for SMP systems
The VAX 6620 through VAX 6660 models emulate 2-6 CPUs respectively. In this situation, loading of the host system can be tuned with the following configuration file settings:
Setting | Description | Example | ||||||||
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affinity | This setting binds the running instance of the emulator CPUs to particular host CPUs. This should be used for soft partitioning host CPU resources or for isolating multiple CHARON instances on the same host from each other. By default the emulator instance allocates as many host CPUs as possible. “Affinity” overrides the default and allows explicit specification of which host CPUs will be used by the instance. Affinity does not reserve the CPU for exclusive use. |
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n_of_io_cpus | Reserves host CPUs (of those specified by “affinity” parameter, if any) for use by the emulator for I/O handling. By default the emulator instance reserves one third of available host CPUs for I/O processing (round down, at least one). The “n_of_io_cpus” overrides the default by specifying the number of I/O host CPUs explicitly. |
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