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==nat==
==NAT==


10.0.0.1 # cisco firewall, default gateway
10.0.0.1 # cisco firewall, default gateway


==core decomposition computers==
defines the 10.0.x.x private network for GT (netmask 255.255.0.0 or /16).
The WAN name for this NAT is gt1.phy.anl.gov.
Note: this NATBOX is not the standard GT ASA box; but the Cisco NAT box we use many places at ANL.


10.0.1.100              n0000 n0000.gam
==Decomposition computers==
10.0.1.1                n0001 n0001.gam
 
10.0.1.2                n0002 n0002.gam
10.0.1.100              n0000 n0000.gam
10.0.1.3                n0003 n0003.gam
10.0.1.1                n0001 n0001.gam
10.0.1.4                n0004 n0004.gam
.
10.0.1.5                n0005 n0005.gam
.
10.0.1.6                n0006 n0006.gam
10.0.1.62               n0062 n0062.gam
10.0.1.7                n0007 n0007.gam
 
10.0.1.8                n0008 n0008.gam
n0000 is the Global Event Builder (GEB). The other ~60 nodes are decomposition computers. A few of them are dead.
10.0.1.9                n0009 n0009.gam
 
10.0.1.10               n0010 n0010.gam
You can only ssh to them from certain machines, like a1 and a2, and you must be user 'gretina'
10.0.1.11              n0011 n0011.gam
 
10.0.1.12              n0012 n0012.gam
==mysterious IP addresses==
10.0.1.13              n0013 n0013.gam
 
10.0.1.14              n0014 n0014.gam
10.2.0.1   ipmi-master_eth
10.0.1.15              n0015 n0015.gam
10.2.0.200 ipmi-master
10.0.1.16              n0016 n0016.gam
10.2.0.98  ipmi-a1.gam
10.0.1.17              n0017 n0017.gam
10.2.0.52  fs1-bmc
10.0.1.18              n0018 n0018.gam
10.2.0.154 ipmi-r610
10.0.1.19              n0019 n0019.gam
 
10.0.1.20              n0020 n0020.gam
# IPMI
10.0.1.21              n0021 n0021.gam
#
10.0.1.22              n0022 n0022.gam
10.2.1.100              ipmi-n0000
10.0.1.23              n0023 n0023.gam
10.2.1.1               ipmi-n0001
10.0.1.24              n0024 n0024.gam
10.2.1.2                ipmi-n0002
10.0.1.25              n0025 n0025.gam
10.2.1.3                ipmi-n0003
10.0.1.26              n0026 n0026.gam
.
10.0.1.27              n0027 n0027.gam
.
10.0.1.28              n0028 n0028.gam
10.2.1.58               ipmi-n0058
10.0.1.29              n0029 n0029.gam
10.2.1.59               ipmi-n0059
10.0.1.30              n0030 n0030.gam
10.2.1.60               ipmi-n0060
10.0.1.31              n0031 n0031.gam
10.2.1.61               ipmi-n0061
10.0.1.32              n0032 n0032.gam
10.2.1.62               ipmi-n0062
10.0.1.33              n0033 n0033.gam
 
10.0.1.34              n0034 n0034.gam
==storage nodes==
10.0.1.35              n0035 n0035.gam
 
10.0.1.36              n0036 n0036.gam
10.0.1.168 n0168 n0168.gam #storage node
10.0.1.37              n0037 n0037.gam
10.0.1.169 n0169 n0169.gam #storage node
10.0.1.38               n0038 n0038.gam
10.0.1.39               n0039 n0039.gam
10.0.1.40               n0040 n0040.gam
10.0.1.41               n0041 n0041.gam
10.0.1.42               n0042 n0042.gam
10.0.1.43              n0043 n0043.gam
10.0.1.44              n0044 n0044.gam
10.0.1.45              n0045 n0045.gam
10.0.1.46              n0046 n0046.gam
10.0.1.47              n0047 n0047.gam
10.0.1.48              n0048 n0048.gam
10.0.1.49              n0049 n0049.gam
10.0.1.50              n0050 n0050.gam
10.0.1.51              n0051 n0051.gam
10.0.1.52              n0052 n0052.gam
10.0.1.53              n0053 n0053.gam
10.0.1.54              n0054 n0054.gam
10.0.1.55              n0055 n0055.gam
10.0.1.56              n0056 n0056.gam
10.0.1.57              n0057 n0057.gam
10.0.1.58              n0058 n0058.gam
10.0.1.59              n0059 n0059.gam
10.0.1.60              n0060 n0060.gam
10.0.1.61              n0061 n0061.gam
10.0.1.62              n0062 n0062.gam


==service/analysis computers==
==service/analysis computers==
10.0.0.5 dell-6248-master # Dell swith, master, middle rack
10.0.0.7 dell-6248-shack # Dell swith, up on the shack
10.0.0.79 a0.gam a0 a0.gam.nscl.msu.edu
10.0.0.98 a1.gam.nscl.msu.edu a1.gam
10.0.0.99 a2.gam a2 a2.gam.nscl.msu.edu
The role of a1.gam is that of the NIS server, but like a2.gam it is also used for general software developments. At the moment we run all the DAQ control screens (and soft IOCs) from a1.gam
10.0.0.10 dogs.gam dogs dogs.gam.nscl.msu.edu
10.0.0.14      master1
10.0.0.15      master2
the decomposition machines get their systems from dogs (true?) - master1 I think
10.0.0.50 fs.gam fs fs.gam.nscl.msu.edu
10.0.0.51 fs2.gam fs2 fs2.gam.nscl.msu.edu
10.0.0.52 fs1.gam fs1 fs1.gam.nscl.msu.edu
the root host machine for fs1.gam is a1 (we think)
10.0.0.70 spdaq44 spdaq44.gam
10.0.0.71 spdaq38 spdaq38.gam
10.0.0.85 op0.gam op0 op0.gam.nscl.msu.edu
10.0.0.86 op1.gam op1 op1.gam.nscl.msu.edu
10.0.0.29 op2.gam op2 op2.gam.nscl.msu.edu
10.0.0.30 op3.gam op3 op3.gam.nscl.msu.edu
10.0.0.31 op4.gam op4 op3.gam.nscl.msu.edu
10.0.0.32 op5.gam op5 op5.gam.nscl.msu.edu
10.0.0.33 op6.gam op6 op6.gam.nscl.msu.edu
10.0.0.34 op7.gam op7 op7.gam.nscl.msu.edu
10.0.0.35 op8.gam op8 op8.gam.nscl.msu.edu
10.0.0.36 op9.gam op9 op9.gam.nscl.msu.edu
10.0.0.37 e1.gam e1 e1.gam.nscl.msu.edu
10.0.0.38 e2.gam e2 e2.gam.nscl.msu.edu
10.0.0.39 m1.gam m1 m1.gam.nscl.msu.edu
10.0.0.40 m2.gam m2 m2.gam.nscl.msu.edu
10.0.0.60 metal.gam metal metal.gam.nscl.msu.edu
10.0.0.11 gret-ts.gam gret-ts gret-ts.gam.nscl.msu.edu
10.0.0.110 sol.gam sol.gam.nscl.msu.edu sol
sol is the boothost for all the Digiticer IOCs
The computers above get their password file via NIS from a1.gam. Not all computers exists
==Digitizer IOCs==
10.0.3.1 vme01
10.0.3.2 vme02
.
.
10.0.3.47 vme47
10.0.3.48 vme48
10.0.3.49 vme49
==User and access computers==
10.0.10.11    reserved for tl laptop
10.0.10.12    ws1.gam ws1
10.0.10.13    ws2.gam ws2
10.0.10.14    ws3 gam ws3
these computers have their own password files independent of the NIS server a1.gam. In particular,
access to ws1 is restricted to personel that need outside access to the GRETINA network at anl.
(ws1), ws2 and ws3 are general purpose linux workstations for users to use and sort data on during experiments.


==LN fill computers==
==LN fill computers==
10.0.4.11 gln1
10.0.4.12 gln2
==misc other computers we know of==
10.0.4.1      caenps01
10.0.4.2      caenps02
10.0.8.11 jays-happy-place
10.0.8.12 daqtape
10.0.9.11 middlemac
10.0.10.16    Chico Labview Laptop
10.0.10.19    Chico National Instruments card
10.0.10.18    Chico DAQ
10.0.10.19    Chico HV
10.0.10.21 Orruba DAQ
10.0.47.47 PHY FS1 file server
==computer shutdown procedure==
(for computers in g126 computer room)
  see readme file
==computer powerup procedure==
see README file
==dFMA info==
The dFMA DAQ system is using non standard EPICS ports so that it can coexist with the DGS and GT acquisition systems. The ports the DFMA DAQ are using are
  export EPICS_CA_SERVER_PORT=5068
  export EPICS_CA_REPEATER_PORT=5069
==How to move dFMA DAQ to the GT network==
To move the digital FMA DAQ (dFMA) from onenet network to the GT network, a number of steps must be followed. They are outlined below.
On the GRETINA network, we will used these IP addresses for dFMA
10.0.50.189  dfmadarek  'set manually'
10.0.50.190  dfma_ts    'set manually'
10.0.50.191  dfma_ioc0  telnet dfma_ts 2004 TRIGGER VME32.cmd
10.0.50.192  dfma_ioc1  telnet dfma_ts 2001
10.0.50.193  dfma_ioc2  telnet dfma_ts 2002
10.0.50.194  dfma_ioc3  telnet dfma_ts 2003
10.0.50.195  dfma_ioc4  telnet dfma_ts 2005
10.0.50.196  dfma_ioc5  telnet dfma_ts 2012
10.0.50.197  dfma_ioc6  telnet dfma_ts 2007
10.0.50.198  dfma_ioc7  telnet dfma_ts 2008
10.0.50.199  dfma_ioc8  telnet dfma_ts 2009
10.0.50.200  dfma_ioc9  not therdfma_tse
10.0.50.201  dfma_ioc10  telnet dfma_ts 2010
10.0.50.202  dfma_ioc11  telnet dfma_ts 2011
10.0.50.203  dfma_ioc12  not there
10.0.50.204  dfma_ioc13  not there
10.0.50.205  dfma_ioc14  not there
10.0.50.205  dfma_ioc15  not there
Also shown in the list are the terminal access commands (they may change in the future).
- First access all the OICs and reboot them, but leave them at the boot prompt. Type 'ctrl x' and then hit any key when they try to boot.
- There is no DHCP service for the dFMA DAQ on the GT network, but you can set the IP for the dFMA_darek and dfma_ts as: log into the terminal server through it's web interface 'firefox http://192.168.203.190' while on onenet. The username is 'root' and the password is xxx. Now do this
IP setting
  change IP to 10.0.50.190
  with netmask 255.255.0.0
  Gateway 10.0.0.1
reboot and turn off
-After this step, the terminal server does not function on onenet anymore, but it should come alive on the GT network (see below).  Be careful about this step!! If you do it wrong, you may have trouble getting to the terminal server again.
-now switch the WAN connection on the switch from onenet to GT
-reboot dfma_darek, or restart the network if you just stopped it. The machine should come up on the GT network.
-turn on the dfma_ts terminal server. If the above steps were done properly, it should come up on the GT network
-on dfma_darek, change the entries in the /etc/hosts to have these entries rather than the onenet IPs
  10.0.50.189 dfma_darek
  10.0.50.190 dfma_ts
  10.0.50.191 dfma_ioc0
  10.0.50.192 dfma_ioc1
  10.0.50.193 dfma_ioc2
  10.0.50.194 dfma_ioc3
  10.0.50.195 dfma_ioc4
  10.0.50.196 dfma_ioc5
  10.0.50.197 dfma_ioc6
  10.0.50.198 dfma_ioc7
  10.0.50.199 dfma_ioc8
  10.0.50.200 dfma_ioc9
  10.0.50.201 dfma_ioc10
  10.0.50.202 dfma_ioc11
  10.0.50.203 dfma_ioc12
  10.0.50.204 dfma_ioc13
  10.0.50.205 dfma_ioc14
  10.0.50.205 dfma_ioc15
You can accomplish that by
  cd /etc
  cp hosts.GT hosts
note that we do not have to change the .rhosts file in the dgs account because it is using the IP information from the /etc/hosts file.
-now, through the terminal server, access the IOCs, one by one, and change the IP
  from
    192.168.203.n:ffffff00
  to
    10.0.50.n:ffff0000
 
where n is the one from onenet (same last number on the GT network). Also change the host
  from
    192.168.203.189
  to
    10.0.50.189
You should now be able to boot the IOC (type @)
- once all IOCs are rebooted, you should be able to start the dFMA DAQ by typing this command
  (cd; dfmaCSS)
(remember to start the soft IOC).
NOTE: the dFMA DAQ can function on the onenet with the dGS and with GRETINA on the GT network because the dFMA DAQ is using  these non standard EPICS ports
  export EPICS_CA_SERVER_PORT=5068
  export EPICS_CA_REPEATER_PORT=5069
Although any linux box on the GT network in principle can access the dFMA, only dfma_darek is set up for it.
==How to move dFMA DAQ to the dGS network (onenet)==
To move the digital FMA DAQ (dFMA) from the GT network to the onenet network, a number of steps must be followed. They are outlined below
On the onenet network, we will used these IP addresses
for dFMA
192.168.203.189  dfma_darek  DHCP
192.168.203.190  dfma_ts    DHCP
192.168.203.191  dfma_ioc0  telnet dfma_ts 2004 TRIGGER VME32.cmd
192.168.203.192  dfma_ioc1  telnet dfma_ts 2001
192.168.203.193  dfma_ioc2  telnet dfma_ts 2002
192.168.203.194  dfma_ioc3  telnet dfma_ts 2003
192.168.203.195  dfma_ioc4  telnet dfma_ts 2005
192.168.203.196  dfma_ioc5  telnet dfma_ts 2012
192.168.203.197  dfma_ioc6  telnet dfma_ts 2007
192.168.203.198  dfma_ioc7  telnet dfma_ts 2008
192.168.203.199  dfma_ioc8  telnet dfma_ts 2009
192.168.203.200  dfma_ioc9  not there
192.168.203.201  dfma_ioc10  telnet dfma_ts 2010
192.168.203.202  dfma_ioc11  telnet dfma_ts 2011
192.168.203.203  dfma_ioc12  not there
192.168.203.204  dfma_ioc13  not there
192.168.203.205  dfma_ioc14  not there
192.168.203.205  dfma_ioc15  not there
you can accomplish that by:
  cd /etc
  cp hosts.onenet hosts
Also shown in the list above are the terminal access commands (subject to change in the future)
- First access all the OICs and reboot them, but leave them at the boot prompt. Type 'ctrl x' and then hit any key when they try to boot.
- [this step should no longer be necessary. The TS should already be in the default DHCP mode] now log into the terminal server through it's web interface 'firefox http://10.0.50.190'. The username is 'root' and the password is xxx. Now do this
change to use DHCP
reboot and turn off
-After this step, the terminal server does not function on the GT network anymore, but it should come alive on the onenet network (see below). Be careful about this step!! If you do it wrong, you may have trouble getting to the terminal server again.
-change the IP and netmask on the dfma_darek computer to use DHCP .
-[this step should no longer be necessary. The computer should already be in the default DHCP mode] now switch the WAN connection on the switch from GT to onenet
-reboot dfma_darek, or restart the network if you just stopped it. The machine should come up on the onenet network.
-turn on the dfma_ts terminal server. If the above steps were done properly, it should come up on the onenet network
-on dfma_darek, change the entries in the /etc/hosts to have these entries rather than the onenet IPs
192.168.203.189  dfma_darek
192.168.203.190  dfma_ts
192.168.203.191  dfma_ioc0
192.168.203.192  dfma_ioc1
192.168.203.193  dfma_ioc2
192.168.203.194  dfma_ioc3
192.168.203.195  dfma_ioc4
192.168.203.196  dfma_ioc5
192.168.203.197  dfma_ioc6
192.168.203.198  dfma_ioc7
192.168.203.199  dfma_ioc8
192.168.203.200  dfma_ioc9
192.168.203.201  dfma_ioc10
192.168.203.202  dfma_ioc11
192.168.203.203  dfma_ioc12
192.168.203.204  dfma_ioc13
192.168.203.205  dfma_ioc14
192.168.203.205  dfma_ioc15
note that we do not have to change the .rhosts file in the dgs account because it is using the IP information from the /etc/hosts file.
-now, through the terminal server, access the IOCs, one by one, and change the IP
  from
    10.0.50.n:ffff0000
  to
    192.168.203.n:ffffff00
 
where n is the one from the GT nat (same last number as on the onenet network). Also change the host
  from
    10.0.50.189
  to
    192.168.203.189
You should now be able to boot the IOC (type @)
- once all IOCs are rebooted, you should be able to start the dFMA DAQ by typing this command
  (cd; dfmaCSS)
(remember to start the soft IOC).
Although any linux box on the onenet network in principle can access the dFMA, only dfma_darek is set up for it.
==reset TS16 to factory defaults==
If you loose contact with the DIGI TS16 terminal server, bring it up to the 'bench' private network in the f-wing terninal room.
  Power off the unit.
  Hold in the Reset button (white next to LEDs in front).
  While keeping the Reset button depressed, power the unit back on.
  Continue holding in the Reset button for 45 seconds, at which point you can release it.
The default username is root and the default password is dbps. The TS comes up in DHCP mode, so you just have to find it on the private network under 'bench' and set it up again. After the reset, set up port 1 to use TCP sockets, go to advanced and allow 4 connections to the port. Use copy to set all the other ports up the same way.
==Move DFMA PDUs to GT network==
The remote PDUs are accessible on onenet using a browser with the IP 192.168.203.21 and 192.168.203.22. User and pw are localadmin. Click on the left on Configuration, then Network. On the top you can choose Internet and give them static IPs on the Gretina network. The used IPs are 10.0.10.30 and 10.0.10.31 respectively with subnet mask 255.255.0.0 and gateway (same for dns) 10.0.0.1. The changes take a few minutes, then they are accessible on Gretina network via their IP in the browser again. To switch back to onenet, one has to change just to dhcp and connect the other network cables. If there is a problem connecting via browser, usually an exception has to be accepted. In Firefox it only shows up, if typing the correct url, then changing e.g. one number, and hitting the "Back" button. Otherwise firefox doesn't show the exception dialog. This should be a one-time procedure and not necessary unless changing the IP or computer/browser.

Latest revision as of 20:56, July 26, 2024

NAT

10.0.0.1 # cisco firewall, default gateway

defines the 10.0.x.x private network for GT (netmask 255.255.0.0 or /16). The WAN name for this NAT is gt1.phy.anl.gov. Note: this NATBOX is not the standard GT ASA box; but the Cisco NAT box we use many places at ANL.

Decomposition computers

10.0.1.100              n0000 n0000.gam
10.0.1.1                n0001 n0001.gam
.
.
10.0.1.62               n0062 n0062.gam

n0000 is the Global Event Builder (GEB). The other ~60 nodes are decomposition computers. A few of them are dead.

You can only ssh to them from certain machines, like a1 and a2, and you must be user 'gretina'

mysterious IP addresses

10.2.0.1   ipmi-master_eth
10.2.0.200 ipmi-master
10.2.0.98  ipmi-a1.gam
10.2.0.52  fs1-bmc
10.2.0.154 ipmi-r610
# IPMI
#
10.2.1.100              ipmi-n0000
10.2.1.1                ipmi-n0001
10.2.1.2                ipmi-n0002
10.2.1.3                ipmi-n0003
.
.
10.2.1.58               ipmi-n0058
10.2.1.59               ipmi-n0059
10.2.1.60               ipmi-n0060
10.2.1.61               ipmi-n0061
10.2.1.62               ipmi-n0062

storage nodes

10.0.1.168		n0168 n0168.gam #storage node
10.0.1.169		n0169 n0169.gam #storage node

service/analysis computers

10.0.0.5	dell-6248-master # Dell swith, master, middle rack
10.0.0.7	dell-6248-shack # Dell swith, up on the shack
10.0.0.79	a0.gam a0 a0.gam.nscl.msu.edu
10.0.0.98	a1.gam.nscl.msu.edu a1.gam
10.0.0.99	a2.gam a2 a2.gam.nscl.msu.edu

The role of a1.gam is that of the NIS server, but like a2.gam it is also used for general software developments. At the moment we run all the DAQ control screens (and soft IOCs) from a1.gam

10.0.0.10	dogs.gam dogs dogs.gam.nscl.msu.edu
10.0.0.14      master1
10.0.0.15      master2

the decomposition machines get their systems from dogs (true?) - master1 I think

10.0.0.50	fs.gam fs fs.gam.nscl.msu.edu
10.0.0.51	fs2.gam fs2 fs2.gam.nscl.msu.edu
10.0.0.52	fs1.gam fs1 fs1.gam.nscl.msu.edu

the root host machine for fs1.gam is a1 (we think)

10.0.0.70	spdaq44 spdaq44.gam
10.0.0.71	spdaq38 spdaq38.gam
10.0.0.85	op0.gam op0 op0.gam.nscl.msu.edu
10.0.0.86	op1.gam op1 op1.gam.nscl.msu.edu
10.0.0.29	op2.gam op2 op2.gam.nscl.msu.edu
10.0.0.30	op3.gam op3 op3.gam.nscl.msu.edu
10.0.0.31	op4.gam op4 op3.gam.nscl.msu.edu
10.0.0.32	op5.gam op5 op5.gam.nscl.msu.edu
10.0.0.33	op6.gam op6 op6.gam.nscl.msu.edu
10.0.0.34	op7.gam op7 op7.gam.nscl.msu.edu
10.0.0.35	op8.gam op8 op8.gam.nscl.msu.edu
10.0.0.36	op9.gam op9 op9.gam.nscl.msu.edu
10.0.0.37	e1.gam e1 e1.gam.nscl.msu.edu
10.0.0.38	e2.gam e2 e2.gam.nscl.msu.edu
10.0.0.39	m1.gam m1 m1.gam.nscl.msu.edu
10.0.0.40	m2.gam m2 m2.gam.nscl.msu.edu
10.0.0.60	metal.gam metal metal.gam.nscl.msu.edu
10.0.0.11	gret-ts.gam gret-ts gret-ts.gam.nscl.msu.edu
10.0.0.110	sol.gam sol.gam.nscl.msu.edu sol

sol is the boothost for all the Digiticer IOCs

The computers above get their password file via NIS from a1.gam. Not all computers exists

Digitizer IOCs

10.0.3.1		vme01
10.0.3.2		vme02
.
.
10.0.3.47		vme47
10.0.3.48		vme48
10.0.3.49		vme49

User and access computers

10.0.10.11     reserved for tl laptop
10.0.10.12     ws1.gam ws1
10.0.10.13     ws2.gam ws2
10.0.10.14     ws3 gam ws3

these computers have their own password files independent of the NIS server a1.gam. In particular, access to ws1 is restricted to personel that need outside access to the GRETINA network at anl. (ws1), ws2 and ws3 are general purpose linux workstations for users to use and sort data on during experiments.

LN fill computers

10.0.4.11		gln1
10.0.4.12		gln2

misc other computers we know of

10.0.4.1       caenps01
10.0.4.2       caenps02
10.0.8.11	jays-happy-place
10.0.8.12	daqtape
10.0.9.11	middlemac
10.0.10.16     Chico Labview Laptop
10.0.10.19     Chico National Instruments card
10.0.10.18     Chico DAQ
10.0.10.19     Chico HV
10.0.10.21	Orruba DAQ
10.0.47.47 PHY FS1 file server

computer shutdown procedure

(for computers in g126 computer room)

 see readme file

computer powerup procedure

see README file

dFMA info

The dFMA DAQ system is using non standard EPICS ports so that it can coexist with the DGS and GT acquisition systems. The ports the DFMA DAQ are using are

  export EPICS_CA_SERVER_PORT=5068
  export EPICS_CA_REPEATER_PORT=5069

How to move dFMA DAQ to the GT network

To move the digital FMA DAQ (dFMA) from onenet network to the GT network, a number of steps must be followed. They are outlined below.

On the GRETINA network, we will used these IP addresses for dFMA

10.0.50.189   dfmadarek  'set manually'
10.0.50.190   dfma_ts     'set manually'
10.0.50.191   dfma_ioc0   telnet dfma_ts 2004 TRIGGER VME32.cmd
10.0.50.192   dfma_ioc1   telnet dfma_ts 2001
10.0.50.193   dfma_ioc2   telnet dfma_ts 2002
10.0.50.194   dfma_ioc3   telnet dfma_ts 2003
10.0.50.195   dfma_ioc4   telnet dfma_ts 2005
10.0.50.196   dfma_ioc5   telnet dfma_ts 2012
10.0.50.197   dfma_ioc6   telnet dfma_ts 2007
10.0.50.198   dfma_ioc7   telnet dfma_ts 2008
10.0.50.199   dfma_ioc8   telnet dfma_ts 2009
10.0.50.200   dfma_ioc9   not therdfma_tse
10.0.50.201   dfma_ioc10  telnet dfma_ts 2010
10.0.50.202   dfma_ioc11  telnet dfma_ts 2011
10.0.50.203   dfma_ioc12  not there
10.0.50.204   dfma_ioc13  not there
10.0.50.205   dfma_ioc14  not there
10.0.50.205   dfma_ioc15  not there

Also shown in the list are the terminal access commands (they may change in the future).

- First access all the OICs and reboot them, but leave them at the boot prompt. Type 'ctrl x' and then hit any key when they try to boot.

- There is no DHCP service for the dFMA DAQ on the GT network, but you can set the IP for the dFMA_darek and dfma_ts as: log into the terminal server through it's web interface 'firefox http://192.168.203.190' while on onenet. The username is 'root' and the password is xxx. Now do this

IP setting
  change IP to 10.0.50.190
  with netmask 255.255.0.0
  Gateway 10.0.0.1
reboot and turn off

-After this step, the terminal server does not function on onenet anymore, but it should come alive on the GT network (see below). Be careful about this step!! If you do it wrong, you may have trouble getting to the terminal server again.

-now switch the WAN connection on the switch from onenet to GT

-reboot dfma_darek, or restart the network if you just stopped it. The machine should come up on the GT network.

-turn on the dfma_ts terminal server. If the above steps were done properly, it should come up on the GT network

-on dfma_darek, change the entries in the /etc/hosts to have these entries rather than the onenet IPs

 10.0.50.189 dfma_darek
 10.0.50.190 dfma_ts
 10.0.50.191 dfma_ioc0
 10.0.50.192 dfma_ioc1
 10.0.50.193 dfma_ioc2
 10.0.50.194 dfma_ioc3
 10.0.50.195 dfma_ioc4
 10.0.50.196 dfma_ioc5
 10.0.50.197 dfma_ioc6
 10.0.50.198 dfma_ioc7
 10.0.50.199 dfma_ioc8
 10.0.50.200 dfma_ioc9
 10.0.50.201 dfma_ioc10
 10.0.50.202 dfma_ioc11
 10.0.50.203 dfma_ioc12
 10.0.50.204 dfma_ioc13
 10.0.50.205 dfma_ioc14
 10.0.50.205 dfma_ioc15

You can accomplish that by

 cd /etc
 cp hosts.GT hosts

note that we do not have to change the .rhosts file in the dgs account because it is using the IP information from the /etc/hosts file.

-now, through the terminal server, access the IOCs, one by one, and change the IP

 from
   192.168.203.n:ffffff00
 to
   10.0.50.n:ffff0000
  

where n is the one from onenet (same last number on the GT network). Also change the host

 from
   192.168.203.189
 to 
   10.0.50.189

You should now be able to boot the IOC (type @)

- once all IOCs are rebooted, you should be able to start the dFMA DAQ by typing this command

 (cd; dfmaCSS)

(remember to start the soft IOC).

NOTE: the dFMA DAQ can function on the onenet with the dGS and with GRETINA on the GT network because the dFMA DAQ is using these non standard EPICS ports

 export EPICS_CA_SERVER_PORT=5068
 export EPICS_CA_REPEATER_PORT=5069

Although any linux box on the GT network in principle can access the dFMA, only dfma_darek is set up for it.

How to move dFMA DAQ to the dGS network (onenet)

To move the digital FMA DAQ (dFMA) from the GT network to the onenet network, a number of steps must be followed. They are outlined below

On the onenet network, we will used these IP addresses for dFMA

192.168.203.189   dfma_darek  DHCP
192.168.203.190   dfma_ts     DHCP
192.168.203.191   dfma_ioc0   telnet dfma_ts 2004 TRIGGER VME32.cmd
192.168.203.192   dfma_ioc1   telnet dfma_ts 2001
192.168.203.193   dfma_ioc2   telnet dfma_ts 2002
192.168.203.194   dfma_ioc3   telnet dfma_ts 2003
192.168.203.195   dfma_ioc4   telnet dfma_ts 2005
192.168.203.196   dfma_ioc5   telnet dfma_ts 2012
192.168.203.197   dfma_ioc6   telnet dfma_ts 2007
192.168.203.198   dfma_ioc7   telnet dfma_ts 2008
192.168.203.199   dfma_ioc8   telnet dfma_ts 2009
192.168.203.200   dfma_ioc9   not there
192.168.203.201   dfma_ioc10  telnet dfma_ts 2010
192.168.203.202   dfma_ioc11  telnet dfma_ts 2011
192.168.203.203   dfma_ioc12  not there
192.168.203.204   dfma_ioc13  not there
192.168.203.205   dfma_ioc14  not there
192.168.203.205   dfma_ioc15  not there

you can accomplish that by:

 cd /etc
 cp hosts.onenet hosts

Also shown in the list above are the terminal access commands (subject to change in the future)

- First access all the OICs and reboot them, but leave them at the boot prompt. Type 'ctrl x' and then hit any key when they try to boot.

- [this step should no longer be necessary. The TS should already be in the default DHCP mode] now log into the terminal server through it's web interface 'firefox http://10.0.50.190'. The username is 'root' and the password is xxx. Now do this

change to use DHCP
reboot and turn off

-After this step, the terminal server does not function on the GT network anymore, but it should come alive on the onenet network (see below). Be careful about this step!! If you do it wrong, you may have trouble getting to the terminal server again.

-change the IP and netmask on the dfma_darek computer to use DHCP .

-[this step should no longer be necessary. The computer should already be in the default DHCP mode] now switch the WAN connection on the switch from GT to onenet

-reboot dfma_darek, or restart the network if you just stopped it. The machine should come up on the onenet network.

-turn on the dfma_ts terminal server. If the above steps were done properly, it should come up on the onenet network

-on dfma_darek, change the entries in the /etc/hosts to have these entries rather than the onenet IPs

192.168.203.189   dfma_darek
192.168.203.190   dfma_ts
192.168.203.191   dfma_ioc0
192.168.203.192   dfma_ioc1
192.168.203.193   dfma_ioc2
192.168.203.194   dfma_ioc3
192.168.203.195   dfma_ioc4
192.168.203.196   dfma_ioc5
192.168.203.197   dfma_ioc6
192.168.203.198   dfma_ioc7
192.168.203.199   dfma_ioc8
192.168.203.200   dfma_ioc9
192.168.203.201   dfma_ioc10
192.168.203.202   dfma_ioc11
192.168.203.203   dfma_ioc12
192.168.203.204   dfma_ioc13
192.168.203.205   dfma_ioc14
192.168.203.205   dfma_ioc15

note that we do not have to change the .rhosts file in the dgs account because it is using the IP information from the /etc/hosts file.

-now, through the terminal server, access the IOCs, one by one, and change the IP

 from
   10.0.50.n:ffff0000
 to
   192.168.203.n:ffffff00


where n is the one from the GT nat (same last number as on the onenet network). Also change the host

 from
   10.0.50.189
 to 
   192.168.203.189

You should now be able to boot the IOC (type @)

- once all IOCs are rebooted, you should be able to start the dFMA DAQ by typing this command

 (cd; dfmaCSS)

(remember to start the soft IOC).

Although any linux box on the onenet network in principle can access the dFMA, only dfma_darek is set up for it.

reset TS16 to factory defaults

If you loose contact with the DIGI TS16 terminal server, bring it up to the 'bench' private network in the f-wing terninal room.

 Power off the unit.
 Hold in the Reset button (white next to LEDs in front).
 While keeping the Reset button depressed, power the unit back on.
 Continue holding in the Reset button for 45 seconds, at which point you can release it.

The default username is root and the default password is dbps. The TS comes up in DHCP mode, so you just have to find it on the private network under 'bench' and set it up again. After the reset, set up port 1 to use TCP sockets, go to advanced and allow 4 connections to the port. Use copy to set all the other ports up the same way.

Move DFMA PDUs to GT network

The remote PDUs are accessible on onenet using a browser with the IP 192.168.203.21 and 192.168.203.22. User and pw are localadmin. Click on the left on Configuration, then Network. On the top you can choose Internet and give them static IPs on the Gretina network. The used IPs are 10.0.10.30 and 10.0.10.31 respectively with subnet mask 255.255.0.0 and gateway (same for dns) 10.0.0.1. The changes take a few minutes, then they are accessible on Gretina network via their IP in the browser again. To switch back to onenet, one has to change just to dhcp and connect the other network cables. If there is a problem connecting via browser, usually an exception has to be accepted. In Firefox it only shows up, if typing the correct url, then changing e.g. one number, and hitting the "Back" button. Otherwise firefox doesn't show the exception dialog. This should be a one-time procedure and not necessary unless changing the IP or computer/browser.