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Driver for the Hamilton Modular Valve Positioner (MVP)

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r3223 | dcl | 2011-06-22 17:09:21 +1000 (Wed, 22 Jun 2011) | 1 line
This commit is contained in:
Douglas Clowes
2011-06-22 17:09:21 +10:00
parent 6a157ede79
commit 992e32bc10
1 changed files with 526 additions and 0 deletions
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526
site_ansto/instrument/config/environment/sct_mvp.tcl Executable file
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# Define procs in ::scobj::xxx namespace
# MakeSICSObj $obj SCT_<class>
# The MakeSICSObj cmd adds a /sics/$obj node. NOTE the /sics node is not browsable.
namespace eval ::scobj::mvp {
# Environment controllers should have at least the following nodes
# /envcont/setpoint
# /envcont/sensor/value
proc debug_log {args} {
set fd [open "../log/mvp.log" a]
puts $fd "[clock format [clock seconds] -format "%T"] $args"
close $fd
}
# issue a command to read a register and expect a value response
proc getValue {tc_root nextState cmd} {
debug_log "getValue $cmd sct=[sct] root=$tc_root nextState=$nextState"
set dev [SplitReply [hgetprop $tc_root device]]
sct send "$dev$cmd"
return $nextState
}
# issue a command with a value in the target property of the variable
proc setValue {tc_root nextState cmd} {
debug_log "setValue cmd=$cmd sct=[sct] $tc_root"
set par "[sct target]"
sct send "$cmd $par"
debug_log "setValue $cmd $par"
return $nextState
}
proc setDirn {tc_root nextState cmd} {
debug_log "setDirn cmd=$cmd [sct target] sct=[sct] $tc_root"
set data [string tolower [sct target]]
if {"$data" != "[sct oldval]"} {
sct oldval "$data"
sct update "$data"
sct utime readtime
}
debug_log "setDirn $cmd$data"
return $nextState
}
proc setPosn {tc_root nextState cmd} {
debug_log "setPosn cmd=$cmd [sct target] sct=[sct] $tc_root"
set data [string tolower [sct target]]
if {$data >= "1" || $data <= "6"} {
if {"$data" != "[sct oldval]"} {
sct oldval "$data"
sct update "$data"
sct utime readtime
}
}
debug_log "setPosn $data"
return $nextState
}
proc setCmnd {tc_root nextState cmd} {
debug_log "setCmnd cmd=$cmd [sct target] sct=[sct] $tc_root"
set dev [SplitReply [hgetprop $tc_root device]]
if {[string range [sct target] 0 1] == "1"} {
set data [sct target]
} else {
set data "$dev[string toupper [sct target]]"
}
sct send "$data"
debug_log "setCmnd $data"
return $nextState
}
proc chkWrite {tc_root} {
set data [sct result]
debug_log "chkWrite resp=$data sct=[sct] tc_root=$tc_root"
if {[string equal -nocase -length 7 $data "ASCERR:"]} {
sct geterror "$data"
} elseif {[string equal -nocase -length 1 $data "\025"]} {
sct geterror "Error NAK: $data"
} else {
if {[string equal -nocase -length 1 $data "\006"]} {
set data [string range $data 1 end]
}
set cmnd [string toupper [sct target]]
debug_log "Command: \"$cmnd\" Response: \"$data\""
set data "$cmnd -> $data"
if {$data != [sct oldval]} {
sct oldval $data
sct update $data
sct utime readtime
debug_log "chkWrite new data for $tc_root [sct] result=\"$data\""
}
}
return idle
}
proc setPoint {tc_root nextState cmd} {
set catch_status [ catch {
debug_log "setPoint: $tc_root $nextState $cmd sct=[sct]"
debug_log "setPoint: sct=[sct] target=[sct target] writestatus=[sct writestatus]"
set err_msg ""
set data [expr {[sct target]}]
if { $data < 1 || $data > 6 } {
set err_msg "Invalid Position: $data"
}
if { $err_msg != "" } {
sct print "error:$err_msg"
debug_log "error:$err_msg"
return -code error "$err_msg"
}
if { [hval $tc_root/Control/Direction] == "cw" } {
set par "0"
} elseif { [hval $tc_root/Control/Direction] == "ccw" } {
set par "1"
} else {
#=IF(B2-A2<-2,6+B2-A2,IF(B2-A2<0,B2-A2,IF(B2-A2>3,B2-A2-6,B2-A2)))
if {"[sct oldval]" == "UNKNOWN"} {
sct oldval 1
}
if {($data - [sct oldval]) < -2} {
set par "0"
} elseif {($data - [sct oldval]) < 0} {
set par "1"
} elseif {($data - [sct oldval]) > 3} {
set par "1"
} else {
set par "0"
}
}
if {$data != [sct oldval]} {
sct oldval $data
sct update $data
sct utime readtime
debug_log "setPoint new data for $tc_root [sct] data=$data"
}
set dev [SplitReply [hgetprop $tc_root device]]
debug_log "setPoint send: ${dev}LP${par}${data}R"
sct send "${dev}LP${par}${data}R"
debug_log "status: busy"
hsetprop $tc_root/control/setpoint driving 1
} catch_message ]
if {$catch_status != 0} {
return -code error $catch_message
}
return $nextState
}
proc rdValue {tc_root} {
debug_log "rdValue tc_root=$tc_root sct=[sct] [lindex [split [sct] "/"] end]"
set data [sct result]
if {[ catch {
debug_log "rdValue $tc_root [sct] result=$data"
} catch_message ]} {
debug_log "rdValue $tc_root failure"
}
if {[string equal -nocase -length 7 $data "ASCERR:"]} {
sct geterror "$data"
set nextState idle
} elseif {[string equal -nocase -length 1 $data "\025"]} {
sct geterror "Error NAK: $data"
set nextState idle
} else {
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
if {[string equal -nocase -length 1 $data "\006"]} {
set data [string range $data 1 end]
}
if {$data != [sct oldval]} {
debug_log "rdValue new data for $tc_root [sct] was=[sct oldval] now=$data"
sct oldval $data
sct update $data
sct utime readtime
}
if {[lindex [split [sct] "/"] end] == "Finished" && $data == "Y"} {
if {[SplitReply [hgetprop $tc_root/control/setpoint driving]] == 1} {
hsetprop $tc_root/control/setpoint driving 0
debug_log "status: idle"
}
}
}
return idle
}
# This is the command phase of the state machine that drives the controller.
# For each state, it sends the appropriate command to get values from, or set
# values in the controller in a sequence intended to transition the controller
# between states.
proc getState {tc_root nextState} {
debug_log "getState $tc_root $nextState sct=[sct]"
if {[ catch {
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set my_state [sct my_state]
set my_substate [sct my_substate]
if {$my_state == "STATE_INIT"} {
if {$my_substate == 0} {
set my_cmd "1a"
} elseif {$my_substate == 1} {
set my_cmd "U"
} elseif {$my_substate == 2} {
set my_cmd "LXR"
} elseif {$my_substate == 3} {
set my_cmd "F"
} elseif {$my_substate == 4} {
set my_cmd "LP0[hval $tc_root/Control/Setpoint]R"
}
} elseif {$my_state == "STATE_IDLE"} {
set my_cmd "LQP"
} elseif {$my_state == "STATE_BUSY"} {
set my_cmd "F"
} elseif {$my_state == "STATE_ERROR"} {
set my_cmd "E2"
}
if {![string equal "$my_cmd" "1a"]} {
set dev [SplitReply [hgetprop $tc_root device]]
set my_cmd "${dev}${my_cmd}"
}
debug_log "getState sends: $my_cmd"
sct send "$my_cmd"
} catch_message ]} {
debug_log "getState error: $catch_message"
}
debug_log "getState returns: $nextState"
return $nextState
}
# This is the response phase of the state machine that drives the controller.
# For each state, it reads the appropriate command response from the controller
# and, based on the response and internal variables performs a sequence
# intended to transition the controller between states.
##
# @brief Reads the current MVP state and error messages.
proc rdState {tc_root} {
debug_log "rdState $tc_root sct=[sct] response=\"[sct result]\""
set nextState {}
if {[ catch {
set data "[sct result]"
if {[string equal -nocase -length 7 $data "ASCERR:"]} {
sct geterror "$data"
sct my_state "STATE_INIT"
sct my_substate 0
set nextState idle
} elseif {[string equal -nocase -length 1 $data "\025"]} {
sct geterror "Error NAK: $data"
set nextState idle
} else {
if {[string equal -nocase -length 1 $data "\006"]} {
set data [string range $data 1 end]
}
set my_state [sct my_state]
set my_substate [sct my_substate]
if { $my_state == "STATE_INIT" } {
if { $my_substate == 0 } {
if {[string length $data] == 0} {
sct my_substate 1
} elseif { [string equal -length 2 $data "1b"] } {
sct my_substate 1
}
} elseif { $my_substate == 1 } {
if { [string equal -length 2 $data "MV"] } {
sct my_substate 2
}
} elseif { $my_substate == 2 } {
sct my_substate 3
} elseif { $my_substate == 3 } {
if { [string equal -length 1 $data "Y"] } {
sct my_state "STATE_IDLE"
sct my_substate 0
if {[hval $tc_root/Control/Setpoint] != "UNKNOWN"} {
if {[hval $tc_root/Control/Setpoint] != [hval $tc_root/Display/Position]} {
if {[hval $tc_root/Control/Setpoint] >= 1 && [hval $tc_root/Control/Setpoint] <= 6} {
sct my_state "STATE_INIT"
sct my_substate 4
}
}
}
}
} elseif { $my_substate == 4 } {
sct my_substate 3
}
} elseif { $my_state == "STATE_IDLE" } {
if { "[SplitReply [hgetprop $tc_root/Control/Setpoint driving]]" } {
sct my_state "STATE_BUSY"
sct my_substate 0
}
} elseif { $my_state == "STATE_BUSY" } {
if {[string equal -nocase -length 1 $data "Y"]} {
hsetprop $tc_root/Control/Setpoint driving 0
sct my_state "STATE_IDLE"
sct my_substate 0
}
} elseif { $my_state == "STATE_ERROR" } {
sct my_state "STATE_IDLE"
sct my_substate 0
}
}
} catch_message ]} {
debug_log "rdState error: $catch_message"
}
if { "$nextState" == "" } {
set nextState "idle"
}
if {![string equal [sct oldval] [sct my_state]]} {
sct oldval [sct my_state]
sct update [sct my_state]
sct utime readtime
}
debug_log "rdState returns: $nextState"
return $nextState
}
proc noResponse {} {
return idle
}
proc wrtValue {wcmd args} {
}
# check that a target is within allowable limits
proc check {tc_root} {
set setpoint [sct target]
set lolimit 1
set hilimit 6
if {$setpoint < $lolimit || $setpoint > $hilimit} {
error "setpoint violates limits"
}
return OK
}
##
# @brief Implement the checkstatus command for the drivable interface
#
# NOTE: The drive adapter initially sets the writestatus to "start" and will
# only call this when writestatus!="start"
proc drivestatus {tc_root} {
if {[sct driving]} {
return busy
} else {
return idle
}
}
proc halt {tc_root} {
debug_log "halt $tc_root"
sct print "halt $tc_root"
return idle
}
##
# @brief createNode() creates a node for the given nodename with the properties and virtual
# function names provided
# @param scobj_hpath string variable holding the path to the object's base node in sics (/sample/tc1)
# @param sct_controller name of the scriptcontext object (typically sct_xxx_yyy)
# @param cmdGroup subdirectory (below /sample/tc*/) in which the node is to be created
# @param varName name of the actual node typically representing one device command
# @param readable set to 1 if the node represents a query command, 0 if it is not
# @param writable set to 1 if the node represents a request for a change in settings sent to the device
# @param drivable if set to 1 it prepares the node to provide a drivable interface
# @param dataType data type of the node, must be one of none, int, float, text
# @param permission defines what user group may read/write to this node (is one of spy, user, manager)
# @param rdCmd actual device query command to be sent to the device
# @param rdFunc nextState Function to be called after the getValue function, typically rdValue()
# @param wrCmd actual device write command to be sent to the device
# @param wrFunc Function to be called to send the wrCmd to the device, typically setValue()
# @param allowedValues allowed values for the node data - does not permit other
# @param klass Nexus class name (?)
# @return OK
proc createNode {scobj_hpath sct_controller cmdGroup varName readable writable nexus gumtree\
drivable dataType permission rdCmd rdFunc wrCmd\
wrFunc allowedValues klass} {
set catch_status [ catch {
set ns "[namespace current]"
set nodeName "$scobj_hpath/$cmdGroup/$varName"
if {1 > [string length $cmdGroup]} {
set nodeName "$scobj_hpath/$varName"
}
debug_log "Creating node $nodeName"
hfactory $nodeName plain $permission $dataType
if {$readable > 0} {
hsetprop $nodeName read ${ns}::getValue $scobj_hpath $rdFunc $rdCmd
hsetprop $nodeName $rdFunc ${ns}::$rdFunc $scobj_hpath
set poll_period 30
if { $readable >= 0 && $readable <= 9 } {
set poll_period [lindex [list 0 1 2 3 4 5 10 15 20 30] $readable]
}
debug_log "Registering node $nodeName for poll at $poll_period seconds"
$sct_controller poll $nodeName $poll_period
}
if {$writable == 1 && "$wrFunc" != ""} {
set pos [string first "." "$wrFunc"]
if { $pos > 0 } {
set parts [split "$wrFunc" "."]
if { [llength $parts] >= 2 } {
set func_name [lindex $parts 0]
set next_state [lindex $parts 1]
hsetprop $nodeName write ${ns}::$func_name $scobj_hpath $next_state $wrCmd
hsetprop $nodeName $next_state ${ns}::$next_state $scobj_hpath
}
} else {
hsetprop $nodeName write ${ns}::$wrFunc $scobj_hpath noResponse $wrCmd
hsetprop $nodeName noResponse ${ns}::noResponse
}
hsetprop $nodeName writestatus UNKNOWN
debug_log "Registering node $nodeName for write callback"
$sct_controller write $nodeName
}
switch -exact $dataType {
"none" { }
"int" { hsetprop $nodeName oldval -1 }
"float" { hsetprop $nodeName oldval -1.0 }
default { hsetprop $nodeName oldval UNKNOWN }
}
if {1 < [string length $allowedValues]} {
hsetprop $nodeName values $allowedValues
}
# Drive adapter interface
if {$drivable == 1} {
hsetprop $nodeName check ${ns}::check $scobj_hpath
hsetprop $nodeName driving 0
hsetprop $nodeName checklimits ${ns}::check $scobj_hpath
hsetprop $nodeName checkstatus ${ns}::drivestatus $scobj_hpath
hsetprop $nodeName halt ${ns}::halt $scobj_hpath
}
if {$nexus == 1} {
hsetprop $nodeName type part
hsetprop $nodeName klass $klass
hsetprop $nodeName privilege $permission
hsetprop $nodeName control true
hsetprop $nodeName data true
hsetprop $nodeName nxsave true
hsetprop $nodeName data true
}
if {$gumtree == 1} {
}
} message ]
if {$catch_status != 0} {
return -code error "in createNode $message"
}
return OK
}
proc mk_sct_mvp {sct_controller klass tempobj dev} {
set catch_status [ catch {
set ns "[namespace current]"
MakeSICSObj $tempobj SCT_OBJECT
sicslist setatt $tempobj klass $klass
sicslist setatt $tempobj long_name $tempobj
set scobj_hpath /sics/$tempobj
hsetprop $scobj_hpath device "$dev"
set deviceCommand {\
Display Position 1 0 1 1 0 text internal {LQP} {rdValue} {} {} {}\
Display Angle 1 0 1 1 0 text internal {LQA} {rdValue} {} {} {}\
Display Hertz 1 0 1 1 0 text internal {LQF} {rdValue} {} {} {}\
Display Finished 1 0 1 1 0 text internal {F} {rdValue} {} {} {}\
Display Overload 1 0 1 1 0 text internal {G} {rdValue} {} {} {}\
Display Status 1 0 1 1 0 text internal {E1} {rdValue} {} {} {}\
Display Error 1 0 1 1 0 text internal {E2} {rdValue} {} {} {}\
Display Device 1 0 1 1 0 text internal {E3} {rdValue} {} {} {}\
Display Encoder 1 0 1 1 0 text internal {E4} {rdValue} {} {} {}\
Control Direction 0 1 1 1 0 text user {} {} {} {setDirn} {}\
Control SetPoint 0 1 1 1 1 text user {} {} {} {setPoint} {}\
Control Command 0 1 1 1 0 text user {} {} {} {setCmnd.chkWrite} {}\
}
hfactory $scobj_hpath/Display plain spy none
hfactory $scobj_hpath/Control plain spy none
foreach {cmdGroup varName readable writable nexus gumtree drivable dataType permission rdCmd rdFunc wrCmd wrFunc allowedValues} $deviceCommand {
createNode $scobj_hpath $sct_controller $cmdGroup $varName $readable $writable $nexus $gumtree $drivable $dataType $permission $rdCmd $rdFunc $wrCmd $wrFunc $allowedValues $klass
}
hfactory $scobj_hpath/status plain spy text
hset $scobj_hpath/status "idle"
hsetprop $scobj_hpath/status values busy,idle
hfactory $scobj_hpath/device_state plain spy text
hsetprop $scobj_hpath/device_state read ${ns}::getState $scobj_hpath rdState
hsetprop $scobj_hpath/device_state rdState ${ns}::rdState $scobj_hpath
hsetprop $scobj_hpath/device_state oldval UNKNOWN
hsetprop $scobj_hpath/device_state my_state "STATE_INIT"
hsetprop $scobj_hpath/device_state my_substate "0"
# if {[SplitReply [environment_simulation]]=="false"} {
# }
debug_log "Registering node $scobj_hpath/device_state for poll at 1 seconds"
$sct_controller poll $scobj_hpath/device_state 1 halt read
ansto_makesctdrive ${tempobj}_driveable $scobj_hpath/control/setpoint $scobj_hpath/display/position $sct_controller
} catch_message ]
if {$catch_status != 0} {
return -code error $catch_message
}
}
namespace export mk_sct_mvp
}
##
# @brief Create an MVP Controller
#
# @param name, the name of the MVP
# @param IP, the IP address of the device, this can be a hostname, (eg ca1-kowari)
# @param port, the IP protocol port number of the device
proc add_mvp {name IP port dev} {
set fd [open "../log/mvp.log" a]
if {[SplitReply [environment_simulation]]=="false"} {
makesctcontroller sct_mvp hamilton ${IP}:$port "\r"
}
puts $fd "mk_sct_mvp sct_mvp environment $name"
mk_sct_mvp sct_mvp environment $name $dev
close $fd
}
puts stdout "file evaluation of sct_mvp.tcl"
set fd [open "../log/mvp.log" w]
puts $fd "file evaluation of sct_mvp.tcl"
close $fd
namespace import ::scobj::mvp::*
#add_mvp mvp 192.168.56.101 6000