jeol-t330a/succbone/succd/process_state.go

74 lines
1.9 KiB
Go

package main
import "math"
// daemonState contains all the state of the daemon. A copy of it can be
// requested for consumers, eg. the web view.
type daemonState struct {
safety safetyStatus
piraniVolts100 ringbufferInput
piraniVolts3 ringbufferInput
rpOn bool
dpOn bool
vent momentaryOutput
pumpdown momentaryOutput
aboveRough thresholdOutput
aboveHigh thresholdOutput
}
type safetyStatus struct {
// failsafe mode is enabled when the pirani gauge appears to be
// disconnected, and is disabled only when an atmosphere is read.
failsafe bool
// highPressure mode is enabled when the pressure reading is above 1e-1
// mbar, locking out the diffusion pump from being enabled.
highPressure bool
}
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) {
rough = !d.aboveRough.output
high = !d.aboveHigh.output
return
}