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- Added scriptcontext driver for Dornier choppers

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- Added scriptcontext driver for EL737 counter
This commit is contained in:
koennecke
2009-02-13 09:02:07 +00:00
parent e92706e09b
commit bb1776f24e
2 changed files with 646 additions and 0 deletions
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#--------------------------------------------------------------
# This is a new style driver for the Astrium chopper systems in
# the new sicsobj/scriptcontext based system. Please note that
# actual implementations may differ in the number of choppers
# and the address of the chopper on the network.
#
# copyright: see file COPYRIGHT
#
# SCRIPT CHAINS:
# - reading parameters:
# astchopread - readastriumchopperpar - readastriumchopperpar - ...
# - writing
# astchopwrite - astchopwritereply
#
# Another remark:
# In order for chosta to work properly, the chopperparlist and
# chopperlonglist must be aligned.
#
# Mark Koennecke, February 2009
#--------------------------------------------------------------
MakeSICSObj choco AstriumChopper
#-------------------------------------------------------------
proc astriumchopperputerror {txt} {
global choppers chopperparlist
foreach chopper $choppers {
foreach par $chopperparlist {
set path /sics/choco/${chopper}/${par}
hsetprop $path geterror $txt
}
}
}
#--------------------------------------------------------------
# Paramamters look like: name value, entries for parameters are
# separated by ;
#---------------------------------------------------------------
proc astriumsplitreply {chopper reply} {
set parlist [split $reply ";"]
foreach par $parlist {
catch {stscan $par "%s %s" token val} count
if {[string first ERROR $count] < 0 && $count == 2} {
set val [string trim $val]
set token [string trim $token]
catch {hupdate /sics/choco/${chopper}/${token} $val}
hdelprop /sics/choco/${chopper}/${token} geterror
} else {
#-------- special fix for dphas and averl
if {[string first dphas $par] >= 0} {
set val [string range $par 5 end]
if {$val > 360} {
set val [expr $val -360.]
}
hupdate /sics/choco/${chopper}/dphas $val
hdelprop /sics/choco/${chopper}/dphas geterror
}
if {[string first averl $par] >= 0} {
set val [string range $par 5 end]
hupdate /sics/choco/${chopper}/averl $val
hdelprop /sics/choco/${chopper}/averl geterror
}
}
}
}
#-------------------------------------------------------------
# update those parameters which are dependent on the chopper
# status just read. Some of them may or may not be there, this
# is why this is protected by catch'es.
#-------------------------------------------------------------
proc astcopydependentpar {} {
global choppers
foreach chop $choppers {
set val [hval /sics/choco/${chop}/aspee]
catch {hupdate /sics/choco/${chop}/speed $val}
set val [hval /sics/choco/${chop}/nphas]
set dp [hval /sics/choco/${chop}/dphas]
set val [expr $val + $dp]
catch {hupdate /sics/choco/${chop}/phase $val}
}
}
#--------------------------------------------------------------
proc readastriumchopperpar {} {
global choppers
set reply [sct result]
if {[string first ERR $reply] >= 0} {
astriumchopperputerror $reply
return idle
}
if {[string first "not valid" $reply] >= 0 } {
astriumchopperputerror "ERROR: chopper responded with not valid"
return idle
}
set count [sct replycount]
if {$count == -1} {
sct send @@NOSEND@@
sct replycount 0
hupdate /sics/choco/asyst ""
hdelprop /sics/choco/asyst geterror
return astchoppar
} else {
set oldval [hval /sics/choco/asyst]
hupdate /sics/choco/asyst "$oldval $reply"
astriumsplitreply [lindex $choppers $count] $reply
incr count
sct replycount $count
if {$count < [llength $choppers] } {
sct send @@NOSEND@@
return astchoppar
} else {
astcopydependentpar
return idle
}
}
}
#--------------------------------------------------------------
proc astchopread {} {
sct send "asyst 1"
sct replycount -1
return astchoppar
}
#---------------------------------------------------------------
proc astriumMakeChopperParameters {} {
global choppers chopperparlist
foreach chopper $choppers {
hfactory /sics/choco/${chopper} plain spy none
foreach par $chopperparlist {
set path /sics/choco/${chopper}/${par}
hfactory $path plain user text
chocosct connect $path
}
}
hfactory /sics/choco/asyst plain user text
hsetprop /sics/choco/asyst read astchopread
hsetprop /sics/choco/asyst astchoppar readastriumchopperpar
hfactory /sics/choco/stop plain user int
# chocosct poll /sics/choco/asyst 60
#--------- This is for debugging
chocosct poll /sics/choco/asyst 10
}
#=================== write support ==============================
proc astchopwrite {prefix} {
set val [sct target]
sct send "$prefix $val"
sct writestart 1
hupdate /sics/choco/stop 0
return astchopwritereply
}
#----------------------------------------------------------------
# Make sure to send a status request immediatly after a reply in
# order to avoid timing problems
#----------------------------------------------------------------
proc astchopwritereply {} {
set reply [sct result]
if {[string first ERR $reply] >= 0} {
sct print $reply
hupdate /sics/choco/stop 1
return idle
}
if {[string first "chopper error" $reply] >= 0} {
sct print "ERROR: $reply"
hupdate /sics/choco/stop 1
return idle
}
if {[string first "not valid" $reply] >= 0 } {
sct print "ERROR: chopper responded with not valid"
hupdate /sics/choco/stop 1
return idle
}
set state [sct writestart]
if {$state == 1} {
sct writestart 0
sct send "asyst 1"
sct replycount -1
return astchopwritereply
} else {
set status [readastriumchopperpar]
if {[string first idle $status] >= 0} {
return idle
} else {
return astchopwritereply
}
}
}
#--------------------------------------------------------------------
proc astchopcompare {path1 path2 delta} {
set v1 [hval $path1]
set v2 [hval $path2]
if {abs($v1 - $v2) < $delta} {
return 1
} else {
return 0
}
}
#--------------------------------------------------------------------
proc astchopcheckspeed {chopper} {
set stop [hval /sics/choco/stop]
if {$stop == 1} {
return fault
}
chocosct queue /sics/choco/asyst progress read
set tg [sct target]
set p1 /sics/choco/${chopper}/nspee
set p2 /sics/choco/${chopper}/aspee
set tst [astchopcompare $p1 $p2 50]
if {$tst == 1 } {
return idle
} else {
return busy
}
}
#---------------------------------------------------------------------
proc astchopcheckphase {chopper} {
set stop [hval /sics/choco/stop]
if {$stop == 1} {
return fault
}
chocosct queue /sics/choco/asyst progress read
set p2 [hval /sics/choco/${chopper}/dphas]
if {abs($p2) < .03} {
return idle
} else {
return busy
}
}
#---------------------------------------------------------------------
proc astchopcheckratio {} {
set stop [hval /sics/choco/stop]
if {$stop == 1} {
return fault
}
chocosct queue /sics/choco/asyst progress read
set p1 [hval /sics/choco/chopper1/aspee]
set p2 [hval /sics/choco/chopper2/aspee]
set target [sct target]
if {$p2 < 10} {
return busy
}
if {abs($p1/$ps - $target*1.) < .3} {
set tst 1
} else {
set tst 0
}
if {$tst == 1 } {
return idle
} else {
return busy
}
}
#----------------------------------------------------------------------
proc astchopstop {} {
sct print "No real way to stop choppers but I will release"
sct send @@NOSEND@@
hupdate /sics/choco/stop 1
return idle
}
#---------------------------------------------------------------------
proc astspeedread {chopper} {
set val [hval /sics/choco/${chopper}/aspee]
sct update $val
sct send @@NOSEND@@
return idle
}
#---------------------------------------------------------------------
proc astchopspeedlimit {chidx} {
global choppers maxspeed
set chname [lindex $choppers $chidx]
set val [sct target]
if {$val < 0 || $val > $maxspeed} {
error "Desired chopper speed out of range"
}
if {$chidx > 0} {
set state [hval /sics/choco/${chname}/state]
if {[string first async $state] < 0} {
error "Chopper in wrong state"
}
}
return OK
}
#----------------------------------------------------------------------
proc astMakeChopperSpeed1 {var} {
global choppers
set ch [lindex $choppers 0]
set path /sics/choco/${ch}/speed
hfactory $path plain mugger float
hsetprop $path read astspeedread $ch
hsetprop $path write astchopwrite "nspee 1 "
hsetprop $path astchopwritereply astchopwritereply
chocosct write $path
hsetprop $path checklimits astchopspeedlimit 0
hsetprop $path halt astchopstop
hsetprop $path checkstatus astchopcheckspeed $ch
makesctdriveobj $var $path DriveAdapter chocosct
}
#----------------------------------------------------------------------
proc astMakeChopperSpeed2 {var} {
global choppers
set ch [lindex $choppers 1]
set path /sics/choco/${ch}/speed
hfactory $path plain mugger float
hsetprop $path read astspeedread $ch
hsetprop $path write astchopwrite "nspee 2 "
hsetprop $path astchopwritereply astchopwritereply
chocosct write $path
hsetprop $path checklimits astchopspeedlimit 0
hsetprop $path halt astchopstop
hsetprop $path checkstatus astchopcheckspeed $ch
makesctdriveobj $var $path DriveAdapter chocosct
}
#-----------------------------------------------------------------------
proc astchopphaselimit {} {
set val [sct target]
if {$val < -359.9 || $val > 359.9} {
error "chopper phase out of range"
}
return OK
}
#---------------------------------------------------------------------
proc astphaseread {chopper} {
set val [hval /sics/choco/${chopper}/aphas]
sct update $val
sct send @@NOSEND@@
return idle
}
#-----------------------------------------------------------------------
proc astMakeChopperPhase1 {var} {
global choppers
set ch [lindex $choppers 0]
set path /sics/choco/${ch}/phase
hfactory $path plain mugger float
hsetprop $path read astphaseread $ch
hsetprop $path write astchopwrite "nphas 1 "
hsetprop $path astchopwritereply astchopwritereply
chocosct write $path
hsetprop $path checklimits astchopphaselimit
hsetprop $path halt astchopstop
hsetprop $path checkstatus astchopcheckphase $ch
makesctdriveobj $var $path DriveAdapter chocosct
}
#-----------------------------------------------------------------------
proc astMakeChopperPhase2 {var} {
global choppers
set ch [lindex $choppers 1]
set path /sics/choco/${ch}/phase
hfactory $path plain mugger float
hsetprop $path read astphaseread $ch
hsetprop $path write astchopwrite "nphas 2 "
hsetprop $path astchopwritereply astchopwritereply
chocosct write $path
hsetprop $path checklimits astchopphaselimit
hsetprop $path halt astchopstop
hsetprop $path checkstatus astchopcheckphase $ch
makesctdriveobj $var $path DriveAdapter chocosct
}
#----------------------------------------------------------------------
proc astchopratiolimit {} {
set val [sct target]
if {$val < 1} {
error "Ratio out of range"
}
return OK
}
#-----------------------------------------------------------------------
proc astMakeChopperRatio {var} {
global choppers
set ch [lindex $choppers 1]
set path /sics/choco/${ch}/ratio
hsetprop $path write astchopwrite "ratio 2 "
hsetprop $path astchopwritereply astchopwritereply
chocosct write $path
hsetprop $path checklimits astchopratiolimit
hsetprop $path halt astchopstop
hsetprop $path checkstatus astchopcheckratio
makesctdriveobj $var $path DriveAdapter chocosct
}
#------------------------------------------------------------------------
proc chosta {} {
global chopperlonglist chopperparlist choppers chopperheader
set result "$chopperheader\n"
append line [format "%-20s " ""]
set count 1
foreach ch $choppers {
append line [format "%-20s " "Chopper $count"]
incr count
}
append result $line "\n"
set nchop [llength $choppers]
set len [llength $chopperlonglist]
for {set i 0} {$i < $len} {incr i} {
set line ""
set par [lindex $chopperlonglist $i]
append line [format "%-20s " $par]
for {set n 0} {$n < $nchop} {incr n} {
set chname [lindex $choppers $n]
set parname [lindex $chopperparlist $i]
set val [hval /sics/choco/${chname}/${parname}]
append line [format "%-20s " $val]
}
append result $line "\n"
}
return $result
}
#======================= Configuration Section ==========================
set amor 1
if {$amor == 1} {
set choppers [list chopper1 chopper2]
set chopperparlist [list amode aspee nspee nphas dphas averl ratio vibra t_cho \
durch vakum valve sumsi spver state]
set chopperlonglist [list "Chopper Mode" "Actual Speed" "Set Speed" "Phase" "Phase Error" \
"Loss Current" Ratio Vibration Temperature "Water Flow" Vakuum \
Valve Sumsi]
set chopperheader "AMOR Chopper Status"
makesctcontroller chocosct std psts224:3014 "\r\n" 60
# makesctcontroller chocosct std localhost:8080 "\r\n" 60
chocosct debug 0
set maxspeed 5000
set minphase 0
astriumMakeChopperParameters
astMakeChopperSpeed1 chopperspeed
# astMakeChopperRatio chratio
astMakeChopperPhase2 chopper2phase
Publish chosta Spy
}

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#-----------------------------------------------------
# This is a second generation counter driver for
# the PSI EL737 counter boxes using scriptcontext
# communication.
#
# copyright: see file COPYRIGHT
#
# Scriptchains:
# start: el737sendstart - el737cmdreply
# pause,cont, stop: el737sendcmd - el737cmdreply
# status: el737readstatus - el737status
# values: el737readvalues - el737val
#
# Mark Koennecke, February 2009
#-----------------------------------------------------
proc el737error {reply} {
if {[string first ERR $reply] >= 0} {
error $reply
}
if {[string first ? $reply] < 0} {
return ok
}
if {[string first "?OV" $reply] >= 0} {
error overflow
}
if {[string first "?1" $reply] >= 0} {
error "out of range"
}
if {[string first "?2" $reply] >= 0} {
error "bad command"
}
if {[string first "?3" $reply] >= 0} {
error "bad parameter"
}
if {[string first "?4" $reply] >= 0} {
error "bad counter"
}
if {[string first "?5" $reply] >= 0} {
error "parameter missing"
}
if {[string first "?6" $reply] >= 0} {
error "to many counts"
}
return ok
}
#---------------------------------------------------
proc el737cmdreply {} {
set reply [sct result]
set status [catch {el737error $reply} err]
if {$status != 0} {
sct geterror $err
sct print "ERROR: $err"
}
return idle
}
#---------------------------------------------------
proc sctroot {} {
set path [sct]
return [file dirname $path]
}
#----------------------------------------------------
proc el737sendstart {} {
set obj [sctroot]
set mode [string trim [hval $obj/mode]]
set preset [string trim [hval $obj/preset]]
hdelprop [sct] geterror
switch $mode {
timer {
set cmd [format "TP %.2f" $preset]
}
default {
set cmd [format "MP %d" [expr int($preset)]]
}
}
sct send $cmd
set con [sct controller]
$con queue $obj/status progress read
return el737cmdreply
}
#----------------------------------------------------
proc el737sendcmd {cmd} {
hdelprop [sct] geterror
sct send $cmd
return el737cmdreply
}
#---------------------------------------------------
proc el737control {} {
set target [sct target]
switch $target {
1000 {return [el737sendstart] }
1001 {return [el737sendcmd S] }
1002 {return [el737sendcmd PS] }
1003 {return [el737sendcmd CO] }
default {
sct print "ERROR: bad start target $target given to control"
return idle
}
}
}
#----------------------------------------------------
proc el737readstatus {} {
hdelprop [sct] geterror
sct send RS
return el737status
}
#--------------------------------------------------
proc el737status {} {
set reply [sct result]
set status [catch {el737error $reply} err]
if {$status != 0} {
sct geterror $err
sct update error
sct print "ERROR: $err"
return idle
}
set path [sct]
set con [sct controller]
switch [string trim $reply] {
0 {
sct update idle
}
1 -
2 {
sct update run
$con queue $path progress read
}
5 -
6 {
sct update nobeam
$con queue $path progress read
}
default {
sct update pause
$con queue $path progress read
}
}
set count [sct moncount]
if {$count >= 10} {
set root [sctroot]
$con queue $root/values progress read
sct moncount 0
} else {
incr count
sct moncount $count
}
return idle
}
#------------------------------------------------
proc el737readvalues {} {
hdelprop [sct] geterror
sct send RA
return el737val
}
#---------------------------------------------------
# There are two types of reponses to the RA command:
# the old form with 5 values and the new one
# with 9 values
#---------------------------------------------------
proc el737val {} {
set reply [sct result]
set status [catch {el737error $reply} err]
if {$status != 0} {
sct geterror $err
sct print "ERROR: $err"
return idle
}
set l [split $reply]
set root [sctroot]
if {[llength $l] > 5} {
set l2 [lrange $l 1 end]
sct update [join $l2]
set time [lindex $l 0]
hupdate ${root}/time $time
} else {
set last [expr [llength $l] - 1]
set l2 [lrange $l 0 $last]
sct update [join $l2]
set time [lindex $l $last]
hupdate ${root}/time $time
}
set mode [hval ${root}/mode]
switch $mode {
timer {
hupdate ${root}/control $time
}
default {
set mon [lindex $l2 1]
hupdate ${root}/control $time
}
}
return idle
}
#----------------------------------------------
proc el737func {controller path} {
$controller queue $path write
}
#============================================
proc MakeSecEL737 {name netaddr} {
MakeSecCounter $name 8
set conname ${name}sct
makesctcontroller $conname std $netaddr "\r" 10
$conname send "RMT 1"
$conname send "RMT 1"
$conname send "ECHO 2"
set path /sics/${name}/values
hsetprop $path read el737readvalues
hsetprop $path el737val el737val
$conname poll $path 60
set path /sics/${name}/status
hsetprop $path read el737readstatus
hsetprop $path el737status el737status
hsetprop $path moncount 0
$conname poll $path 60
$conname debug -1
set path /sics/${name}/control
hsetprop $path write el737control
hsetprop $path el737cmdreply el737cmdreply
$conname write $path
}