succd: rewrite processing loop

This commit is contained in:
Serge Bazanski 2024-09-28 10:17:05 +02:00
parent 3d81a1f56c
commit 960be9cd23
3 changed files with 50 additions and 66 deletions

View file

@ -84,7 +84,8 @@ type apiData struct {
// not being served via websockets). // not being served via websockets).
func (s *webServer) apiData(skipSystem bool) *apiData { func (s *webServer) apiData(skipSystem bool) *apiData {
state := s.d.snapshot() state := s.d.snapshot()
volts, mbar := state.pirani() volts := state.piraniVolts100.avg
mbar := state.piraniMbar100.mbar
rough, high := state.vacuumStatus() rough, high := state.vacuumStatus()
var hostname, load string var hostname, load string
@ -164,7 +165,7 @@ func (s *webServer) viewMetrics(w http.ResponseWriter, r *http.Request) {
// library. // library.
// TODO(q3k): serve the rest of the data model // TODO(q3k): serve the rest of the data model
state := s.d.snapshot() state := s.d.snapshot()
_, mbar := state.pirani() mbar := state.piraniMbar100.mbar
fmt.Fprintf(w, "# HELP sem_pressure_mbar Pressure in the SEM chamber, in millibar\n") fmt.Fprintf(w, "# HELP sem_pressure_mbar Pressure in the SEM chamber, in millibar\n")
fmt.Fprintf(w, "# TYPE sem_pressure_mbar gauge\n") fmt.Fprintf(w, "# TYPE sem_pressure_mbar gauge\n")
fmt.Fprintf(w, "sem_pressure_mbar %f\n", mbar) fmt.Fprintf(w, "sem_pressure_mbar %f\n", mbar)

View file

@ -4,7 +4,6 @@ import (
"context" "context"
"errors" "errors"
"fmt" "fmt"
"math"
"sync" "sync"
"time" "time"
@ -42,7 +41,9 @@ type daemonState struct {
} }
piraniVolts100 ringbufferInput piraniVolts100 ringbufferInput
piraniMbar100 pfeifferVoltsToMbar
piraniVolts3 ringbufferInput piraniVolts3 ringbufferInput
piraniMbar3 pfeifferVoltsToMbar
rpOn bool rpOn bool
dpOn bool dpOn bool
@ -53,44 +54,6 @@ type daemonState struct {
aboveHigh thresholdOutput aboveHigh thresholdOutput
} }
type piraniDetection uint
const (
// piraniDetectionUnknown means the system isn't yet sure whether the pirani
// gauge is connected.
piraniDetectionUnknown piraniDetection = iota
// piraniDetectionConnected means the system assumes the pirani gauge is
// connected.
piraniDetectionConnected = iota
// piraniDetectionDisconnected means the system assumes the pirani gauge is
// disconnected.
piraniDetectionDisconnected = iota
)
func piraniVoltsToMbar(v float32) float32 {
// Per Pirani probe docs.
bar := math.Pow(10.0, float64(v)-8.5)
return float32(bar * 1000.0)
}
// piraniDetection guesses whether the pirani gauge is connected.
func (d *daemonState) piraniDetection() piraniDetection {
if !d.piraniVolts3.saturated() {
return piraniDetectionUnknown
}
mbar := piraniVoltsToMbar(d.piraniVolts3.avg)
if mbar < 4e-6 {
return piraniDetectionDisconnected
}
return piraniDetectionConnected
}
func (d *daemonState) pirani() (volts float32, mbar float32) {
volts = d.piraniVolts100.avg
mbar = piraniVoltsToMbar(volts)
return
}
func (d *daemonState) vacuumStatus() (rough, high bool) { func (d *daemonState) vacuumStatus() (rough, high bool) {
rough = !d.aboveRough.output rough = !d.aboveRough.output
high = !d.aboveHigh.output high = !d.aboveHigh.output
@ -129,51 +92,58 @@ func (d *daemon) processOnce(_ context.Context) error {
// Process pirani ringbuffers. // Process pirani ringbuffers.
d.piraniVolts3.process(v) d.piraniVolts3.process(v)
d.piraniMbar3.process(d.piraniVolts3.avg)
d.piraniVolts100.process(v) d.piraniVolts100.process(v)
d.piraniMbar100.process(d.piraniVolts100.avg)
d.pumpdown.process() d.pumpdown.process()
d.vent.process() d.vent.process()
_, mbar := d.daemonState.pirani() // Run safety checks based on small ringbuffer.
d.aboveRough.process(float64(mbar)) if d.piraniVolts3.saturated() {
d.aboveHigh.process(float64(mbar)) mbar := d.piraniMbar3.mbar
if !d.safety.failsafe && mbar < 4e-6 {
// Check if the pirani gauge is disconnected. Note: this will assume the
// pirani gauge is connected for the first couple of processing runs as
// samples are still being captured.
if d.piraniDetection() == piraniDetectionDisconnected {
// Unrealistic result, Pirani probe probably disconnected. Failsafe mode. // Unrealistic result, Pirani probe probably disconnected. Failsafe mode.
if !d.safety.failsafe { if !d.safety.failsafe {
d.safety.failsafe = true d.safety.failsafe = true
klog.Errorf("Pirani probe seems disconnected; enabling failsafe mode") klog.Errorf("Pirani probe seems disconnected; enabling failsafe mode")
} }
} else if d.piraniDetection() == piraniDetectionConnected { }
if d.safety.failsafe { if d.safety.failsafe && mbar > 1e2 {
if mbar >= 1e2 {
d.safety.failsafe = false d.safety.failsafe = false
klog.Infof("Pirani probe value (%s) is plausible again; quitting failsafe mode", formatMbar(mbar)) klog.Infof("Pirani probe value (%s) is plausible again; quitting failsafe mode", formatMbar(mbar))
} }
}
}
if mbar >= 1e-1 { if !d.safety.highPressure && mbar >= 1e-1 {
if !d.safety.highPressure {
d.safety.highPressure = true d.safety.highPressure = true
klog.Warningf("Pressure is too high (%s mbar); enabling diffusion pump lockout", formatMbar(mbar)) klog.Warningf("Pressure is too high (%s mbar); enabling diffusion pump lockout", formatMbar(mbar))
} }
} else if mbar < (1e-1)-(1e-2) { if d.safety.highPressure && mbar < (1e-1)-(1e-2) {
if d.safety.highPressure {
d.safety.highPressure = false d.safety.highPressure = false
klog.Infof("Pressure is low enough (%s mbar) for diffusion pump operation; quitting diffusion pump lockout", formatMbar(mbar)) klog.Infof("Pressure is low enough (%s mbar) for diffusion pump operation; quitting diffusion pump lockout", formatMbar(mbar))
} }
} else {
d.safety.failsafe = true
d.safety.highPressure = true
} }
// Control threhold/feedback values based on main pirani ringbuffer, failing
// safe if not enough data is present.
if d.piraniVolts100.saturated() {
mbar := d.piraniMbar100.mbar
d.aboveRough.process(float64(mbar))
d.aboveHigh.process(float64(mbar))
} else {
d.aboveRough.output = true
d.aboveHigh.output = true
}
// Apply safety overrides.
if d.safety.failsafe { if d.safety.failsafe {
d.aboveRough.output = true d.aboveRough.output = true
d.aboveHigh.output = true d.aboveHigh.output = true
d.dpOn = false d.dpOn = false
} }
if d.safety.highPressure { if d.safety.highPressure {
d.dpOn = false d.dpOn = false
} }

View file

@ -1,6 +1,9 @@
package main package main
import "time" import (
"math"
"time"
)
// momentaryOutput is an output that can be triggered for 500ms. // momentaryOutput is an output that can be triggered for 500ms.
type momentaryOutput struct { type momentaryOutput struct {
@ -73,3 +76,13 @@ func (r *ringbufferInput) process(input float32) {
func (r *ringbufferInput) saturated() bool { func (r *ringbufferInput) saturated() bool {
return len(r.data) >= int(r.limit) return len(r.data) >= int(r.limit)
} }
type pfeifferVoltsToMbar struct {
mbar float32
}
func (p *pfeifferVoltsToMbar) process(volts float32) {
// Per Pirani probe docs.
bar := math.Pow(10.0, float64(volts)-8.5)
p.mbar = float32(bar * 1000.0)
}