succd: implement threshold outputs, rework processing

succd: show logo
succd: add logo
2024-09-27 02:12:38 +02:00 · 2024-09-27 02:12:38 +02:00 · 2024-09-27 02:12:38 +02:00 · 2024-09-27 02:12:38 +02:00
8 changed files with 447 additions and 168 deletions
--- a/succbone/succd/README.md
+++ b/succbone/succd/README.md
@ -9,6 +9,20 @@ Features:
 2. Allows enabling/disabling the diffusion/roughing pumps (builtin controller always keeps them enabled).
 3. Allows for simulating vent/pumpdown button presses.
 Pins
 ---
 | P9 pin number | Relay number   | Relay board / channel number | GPIO number | Function          |
 |---------------|----------------|------------------------------|-------------|-------------------|
 | 27            | -KFA1          | 1 / 4                        | 115         | Roughing Pump     |
 | 23            | -KFA2          | 1 / 3                        | 49          | Diffusion Pump    |
 | n/c           | -KFA3 (broken) | 1 / 2                        | n/c         |                   |
 | 12            | -KFA4          | 1 / 1                        | 60          | Vent Button       |
 | 15            | -KFA5          | 2 / 4                        | 48          | Pump Down Button  |
 | 11            | -KFA6          | 2 / 3                        | 30          | Rough Vacuum Out  |
 | 42            | -KFA7          | 2 / 2                        | 7           | High Vacuum Out   |
 | n/c           | -KFA8          | 2 / 1                        | n/c         |                   |
 Accessing at the lab
 ---
--- a/succbone/succd/http.go
+++ b/succbone/succd/http.go
@ -19,8 +19,15 @@ var (
 	//go:embed index.html
 	templateIndexText string
 	templateIndex     = template.Must(template.New("index").Parse(templateIndexText))
 	//go:embed succd.png
 	favicon []byte
 )
 func (d *daemon) httpFavicon(w http.ResponseWriter, r *http.Request) {
 	w.Header().Set("Content-Type", "image/png")
 	w.Write(favicon)
 }
 func formatVolts(v float32) string {
 	return fmt.Sprintf("%.4f V", v)
 }
@ -99,18 +106,23 @@ func (d *daemon) httpStream(w http.ResponseWriter, r *http.Request) {
 			volts, mbar := d.pirani()
 			rp := d.rpGet()
 			dp := d.dpGet()
 			rough, high := d.vacuumStatusGet()
 			v := struct {
-				Volts     string
+				Volts        string
-				Mbar      string
+				Mbar         string
-				MbarFloat float32
+				MbarFloat    float32
-				RPOn      bool
+				RPOn         bool
-				DPOn      bool
+				DPOn         bool
 				RoughReached bool
 				HighReached  bool
 			}{
-				Volts:     formatVolts(volts),
+				Volts:        formatVolts(volts),
-				Mbar:      string(formatMbar(mbar)),
+				Mbar:         string(formatMbar(mbar)),
-				MbarFloat: mbar,
+				MbarFloat:    mbar,
-				RPOn:      rp,
+				RPOn:         rp,
-				DPOn:      dp,
+				DPOn:         dp,
 				RoughReached: rough,
 				HighReached:  high,
 			}
 			if err := wsjson.Write(ctx, c, v); err != nil {
 				klog.Errorf("Websocket write failed: %v", err)
--- a/succbone/succd/index.html
+++ b/succbone/succd/index.html
@ -2,6 +2,7 @@
 <meta charset="utf-8">
 <title>succd</title>
 <meta name="viewport" content="width=device-width, initial-scale=1" />
 <link rel="shortcut icon" type="image/png" href="/favicon.png">
 <style>
 body {
    font-size: 14px;
@ -34,32 +35,53 @@ button {
    padding-left: 1.5em;
    padding-right: 1.5em;
 }
 td > span {
    padding: 0.2em;
 }
 .logo {
    float: left;
    margin-right: 2em;
 }
 .logo > img {
    height: 10em;
 }
 </style>
 <div class="logo"><img src="/favicon.png" /></div>
 <h1>succd</h1>
 <h2>nothing more permanent than a temporary solution</h2>
-<p style="margin-top: 2em;">
+<p style="margin-top: 2em; clear: both;">
 	<table>
 		<tr>
 			<th>Voltage</th>
-			<td id="volts">{{.volts}}</td>
+			<td id="volts" colspan="4">{{.volts}}</td>
 		</tr>
 		<tr>
 			<th>Pressure</th>
-			<td id="mbar">{{.mbar}}</td>
+			<td id="mbar" colspan="4">{{.mbar}}</td>
 		</tr>
        <tr>
            <th>Thresholds</th>
            <td>Rough:</td>
            <td id="trough">...</td>
            <td>High:</td>
            <td id="thigh">...</td>
        </tr>
 		<tr>
-			<th>Roughing Pump</th>
+			<th>Pumps</th>
-			<td id="rp">{{ if .rp }}ON{{ else }}OFF{{ end }}</td>
+            <td>RP:</td>
-		</tr>
+            <td id="rp">{{ if .rp }}ON{{ else }}OFF{{ end }}</td>
-		<tr>
+            <td>DP:</td>
-			<th>Diffusion Pump</th>
+            <td id="dp">{{ if .dp }}ON{{ else }}OFF{{ end }}</td>
 			<td id="dp">{{ if .dp }}ON{{ else }}OFF{{ end }}</td>
 		</tr>
        <tr>
            <th>Evac Control</th>
-            <td>
+            <td colspan="4">
                <button id="pd">Pump Down</button>
                <button id="vent">Vent</button>
                <button id="rpon">RP On</button>
@ -70,7 +92,7 @@ button {
        </tr>
 		<tr>
 			<th>Status</th>
-			<td id="status">OK</td>
+			<td id="status" colspan="4">OK</td>
 		</tr>
 	</table>
 </p>
@ -221,6 +243,8 @@ window.addEventListener("load", (_) => {
 	let volts = document.querySelector("#volts");
 	let mbar = document.querySelector("#mbar");
 	let ping = document.querySelector("#ping");
    let trough = document.querySelector("#trough");
    let thigh = document.querySelector("#thigh");
    // Buttons
 	let pd = document.querySelector("#pd");
@ -268,6 +292,22 @@ window.addEventListener("load", (_) => {
            } else {
                dp.style = "background-color: #f06060";
            }
            let t = [];
            if (data.RoughReached) {
                trough.innerHTML = "OK";
                trough.style = "background-color: #60f060";
            } else {
                trough.innerHTML = "NOK";
                trough.style = "background-color: #f06060";
            }
            if (data.HighReached) {
                thigh.innerHTML = "OK";
                thigh.style = "background-color: #60f060";
            } else {
                thigh.innerHTML = "NOK";
                thigh.style = "background-color: #f06060";
            }
            historicalPush(data.MbarFloat);
 			ping.innerHTML = Date.now();
 		});
--- a/succbone/succd/main.go
+++ b/succbone/succd/main.go
@ -2,166 +2,26 @@ package main
 import (
 	"context"
 	"errors"
 	"flag"
 	"fmt"
 	"math"
 	"net/http"
 	"os"
 	"os/signal"
 	"sync"
 	"time"
 	"k8s.io/klog"
 )
 // daemon is the main state of the succdaemon.
 type daemon struct {
 	// adcPirani is the adc implementation returning the voltage of the Pfeiffer
 	// Pirani gauge.
 	adcPirani adc
 	gpioDiffusionPump gpio
 	gpioRoughingPump  gpio
 	gpioBtnPumpDown   gpio
 	gpioBtnVent       gpio
 	// mu guards state variables below.
 	mu sync.RWMutex
 	// adcPiraniVolts is a moving window of read ADC values, used to calculate a
 	// moving average.
 	adcPiraniVolts []float32
 	rpOn           bool
 	dpOn           bool
 	// ventScheduled and pumpdownScheduled are timers which expire when the
 	// vent/pumpdown relays should be deactivated. This allows these outputs to
 	// be controlled momentarily.
 	ventScheduled     time.Time
 	pumpdownScheduled time.Time
 }
 // process runs the pain acquisition and control loop of succd.
 func (d *daemon) process(ctx context.Context) {
 	ticker := time.NewTicker(time.Millisecond * 100)
 	defer ticker.Stop()
 	for {
 		select {
 		case <-ticker.C:
 			if err := d.processOnce(ctx); err != nil {
 				if errors.Is(err, ctx.Err()) {
 					return
 				} else {
 					klog.Errorf("Processing error: %v", err)
 					time.Sleep(time.Second * 10)
 				}
 			}
 		case <-ctx.Done():
 			return
 		}
 	}
 }
 // processOnce runs the main loop step of succd.
 func (d *daemon) processOnce(_ context.Context) error {
 	v, err := d.adcPirani.Read()
 	if err != nil {
 		return fmt.Errorf("when reading ADC: %w", err)
 	}
 	d.mu.Lock()
 	defer d.mu.Unlock()
 	d.adcPiraniVolts = append(d.adcPiraniVolts, v)
 	trim := len(d.adcPiraniVolts) - 100
 	if trim > 0 {
 		d.adcPiraniVolts = d.adcPiraniVolts[trim:]
 	}
 	if err := d.gpioRoughingPump.set(d.rpOn); err != nil {
 		return fmt.Errorf("when configuring RP: %w", err)
 	}
 	if err := d.gpioDiffusionPump.set(!d.dpOn); err != nil {
 		return fmt.Errorf("when configuring RP: %w", err)
 	}
 	if err := d.gpioBtnPumpDown.set(!d.pumpdownScheduled.After(time.Now())); err != nil {
 		return fmt.Errorf("when configuring pumpdown: %w", err)
 	}
 	if err := d.gpioBtnVent.set(!d.ventScheduled.After(time.Now())); err != nil {
 		return fmt.Errorf("when configuring vent: %w", err)
 	}
 	return nil
 }
 // pirani returns the Pirani gauge voltage and pressure.
 func (d *daemon) pirani() (volts float32, mbar float32) {
 	d.mu.RLock()
 	volts = 0.0
 	for _, v := range d.adcPiraniVolts {
 		volts += v
 	}
 	if len(d.adcPiraniVolts) != 0 {
 		volts /= float32(len(d.adcPiraniVolts))
 	}
 	d.mu.RUnlock()
 	// Per Pirani probe docs.
 	bar := math.Pow(10.0, float64(volts)-8.5)
 	mbar = float32(bar * 1000.0)
 	return
 }
 // rpSet enables/disables the roughing pump.
 func (d *daemon) rpSet(state bool) {
 	d.mu.Lock()
 	defer d.mu.Unlock()
 	d.rpOn = state
 }
 // rpGet returns whether the roughing pump is enabled/disabled.
 func (d *daemon) rpGet() bool {
 	d.mu.RLock()
 	defer d.mu.RUnlock()
 	return d.rpOn
 }
 // dpSet enables/disables the diffusion pump.
 func (d *daemon) dpSet(state bool) {
 	d.mu.Lock()
 	defer d.mu.Unlock()
 	d.dpOn = state
 }
 // dpGet returns whether the diffusion pump is enabled/disabled.
 func (d *daemon) dpGet() bool {
 	d.mu.RLock()
 	defer d.mu.RUnlock()
 	return d.dpOn
 }
 // pumpDownPressed toggles the pump down relay for 500ms.
 func (d *daemon) pumpDownPress() {
 	d.mu.Lock()
 	defer d.mu.Unlock()
 	if d.pumpdownScheduled.Before(time.Now()) {
 		d.pumpdownScheduled = time.Now().Add(500 * time.Millisecond)
 	}
 }
 // ventPress toggles the vent relay for 500ms.
 func (d *daemon) ventPress() {
 	d.mu.Lock()
 	defer d.mu.Unlock()
 	if d.ventScheduled.Before(time.Now()) {
 		d.ventScheduled = time.Now().Add(500 * time.Millisecond)
 	}
 }
 var (
-	flagFake       bool
+	flagFake                   bool
-	flagListenHTTP string
+	flagListenHTTP             string
 	flagPressureThresholdRough = ScientificNotationValue(1e-1)
 	flagPressureThresholdHigh  = ScientificNotationValue(1e-4)
 )
 func main() {
 	flag.BoolVar(&flagFake, "fake", false, "Enable fake mode which allows to run succd for tests outside the succbone")
 	flag.StringVar(&flagListenHTTP, "listen_http", ":8080", "Address at which to listen for HTTP requests")
 	flag.TextVar(&flagPressureThresholdRough, "pressure_threshold_rough", &flagPressureThresholdRough, "Threshold for opening up diffusion pump (mbar)")
 	flag.TextVar(&flagPressureThresholdHigh, "pressure_threshold_high", &flagPressureThresholdHigh, "Threshold for enabling high voltage circuits (mbar)")
 	flag.Parse()
 	ctx, _ := signal.NotifyContext(context.Background(), os.Interrupt)
@ -169,6 +29,8 @@ func main() {
 	d := daemon{
 		rpOn: true,
 	}
 	d.aboveRough.threshold = float64(flagPressureThresholdRough)
 	d.aboveHigh.threshold = float64(flagPressureThresholdHigh)
 	if flagFake {
 		klog.Infof("Starting with fake peripherals")
 		d.adcPirani = &fakeADC{}
@ -176,6 +38,8 @@ func main() {
 		d.gpioDiffusionPump = &fakeGPIO{desc: "~dp"}
 		d.gpioBtnPumpDown = &fakeGPIO{desc: "~pd"}
 		d.gpioBtnVent = &fakeGPIO{desc: "~vent"}
 		d.gpioBelowRough = &fakeGPIO{desc: "~rough"}
 		d.gpioBelowHigh = &fakeGPIO{desc: "~high"}
 	} else {
 		adc, err := newBBADC(0)
 		if err != nil {
@ -191,8 +55,9 @@ func main() {
 			{&d.gpioDiffusionPump, 49},
 			{&d.gpioBtnPumpDown, 48},
 			{&d.gpioBtnVent, 60},
 			{&d.gpioBelowRough, 30},
 			{&d.gpioBelowHigh, 7},
 		} {
 			// Relay, active low.
 			*c.out, err = newBBGPIO(c.num, true)
 			if err != nil {
 				klog.Exitf("Failed to setup GPIO: %v", err)
@ -201,6 +66,7 @@ func main() {
 	}
 	http.HandleFunc("/", d.httpIndex)
 	http.HandleFunc("/favicon.png", d.httpFavicon)
 	http.HandleFunc("/stream", d.httpStream)
 	http.HandleFunc("/metrics", d.httpMetrics)
 	http.HandleFunc("/button/vent", d.httpButtonVent)
--- a/succbone/succd/process.go
+++ b/succbone/succd/process.go
@ -0,0 +1,225 @@
 package main
 import (
 	"context"
 	"errors"
 	"fmt"
 	"math"
 	"sync"
 	"time"
 	"k8s.io/klog"
 )
 // daemon is the main state of the succdaemon.
 type daemon struct {
 	// adcPirani is the adc implementation returning the voltage of the Pfeiffer
 	// Pirani gauge.
 	adcPirani adc
 	gpioDiffusionPump gpio
 	gpioRoughingPump  gpio
 	gpioBtnPumpDown   gpio
 	gpioBtnVent       gpio
 	gpioBelowRough    gpio
 	gpioBelowHigh     gpio
 	// mu guards state variables below.
 	mu sync.RWMutex
 	// adcPiraniVolts is a moving window of read ADC values, used to calculate a
 	// moving average.
 	adcPiraniVolts []float32
 	rpOn           bool
 	dpOn           bool
 	vent       momentaryOutput
 	pumpdown   momentaryOutput
 	aboveRough thresholdOutput
 	aboveHigh  thresholdOutput
 }
 // momentaryOutput is an output that can be triggered for 500ms.
 type momentaryOutput struct {
 	// output of the block.
 	output bool
 	// scheduledOff is when the block should be outputting false again.
 	scheduledOff time.Time
 }
 func (m *momentaryOutput) process() {
 	m.output = m.scheduledOff.After(time.Now())
 }
 func (m *momentaryOutput) trigger() {
 	m.scheduledOff = time.Now().Add(time.Millisecond * 500)
 }
 // thresholdOutput outputs true if a given value is above a setpoint/threshold.
 // It contains debounce logic for processing noisy analog signals.
 type thresholdOutput struct {
 	// output of the block.
 	output bool
 	// debounce is when the debouncer should be inactive again.
 	debounce time.Time
 	// threshold is the setpoint of the block.
 	threshold float64
 }
 func (t *thresholdOutput) process(value float64) {
 	if time.Now().Before(t.debounce) {
 		return
 	}
 	new := value > t.threshold
 	if new != t.output {
 		t.output = new
 		t.debounce = time.Now().Add(time.Second * 5)
 	}
 }
 // process runs the pain acquisition and control loop of succd.
 func (d *daemon) process(ctx context.Context) {
 	ticker := time.NewTicker(time.Millisecond * 100)
 	defer ticker.Stop()
 	for {
 		select {
 		case <-ticker.C:
 			if err := d.processOnce(ctx); err != nil {
 				if errors.Is(err, ctx.Err()) {
 					return
 				} else {
 					klog.Errorf("Processing error: %v", err)
 					time.Sleep(time.Second * 10)
 				}
 			}
 		case <-ctx.Done():
 			return
 		}
 	}
 }
 // processOnce runs the main loop step of succd.
 func (d *daemon) processOnce(_ context.Context) error {
 	v, err := d.adcPirani.Read()
 	if err != nil {
 		return fmt.Errorf("when reading ADC: %w", err)
 	}
 	d.mu.Lock()
 	defer d.mu.Unlock()
 	// Process pirani ringbuffer.
 	d.adcPiraniVolts = append(d.adcPiraniVolts, v)
 	trim := len(d.adcPiraniVolts) - 100
 	if trim > 0 {
 		d.adcPiraniVolts = d.adcPiraniVolts[trim:]
 	}
 	d.pumpdown.process()
 	d.vent.process()
 	_, mbar := d.piraniUnlocked()
 	d.aboveRough.process(float64(mbar))
 	d.aboveHigh.process(float64(mbar))
 	// Update relay outputs.
 	for _, rel := range []struct {
 		name string
 		gpio gpio
 		// activeHigh means the relay is active high, ie. a true source will
 		// mean that NO/COM get connected, and a false source means that NC/COM
 		// get connected.
 		activeHigh bool
 		source     bool
 	}{
 		{"rp", d.gpioRoughingPump, false, d.rpOn},
 		{"dp", d.gpioDiffusionPump, true, d.dpOn},
 		{"pumpdown", d.gpioBtnPumpDown, true, d.pumpdown.output},
 		{"vent", d.gpioBtnVent, true, d.vent.output},
 		{"rough", d.gpioBelowRough, false, d.aboveRough.output},
 		{"high", d.gpioBelowHigh, false, d.aboveHigh.output},
 	} {
 		val := rel.source
 		if rel.activeHigh {
 			// Invert because the relays go through logical inversion (ie. a
 			// GPIO false is a relay trigger).
 			val = !val
 		}
 		if err := rel.gpio.set(val); err != nil {
 			return fmt.Errorf("when outputting %s: %w", rel.name, err)
 		}
 	}
 	return nil
 }
 // pirani returns the Pirani gauge voltage and pressure.
 func (d *daemon) pirani() (volts float32, mbar float32) {
 	d.mu.RLock()
 	volts, mbar = d.piraniUnlocked()
 	d.mu.RUnlock()
 	return
 }
 func (d *daemon) piraniUnlocked() (volts float32, mbar float32) {
 	volts = 0.0
 	for _, v := range d.adcPiraniVolts {
 		volts += v
 	}
 	if len(d.adcPiraniVolts) != 0 {
 		volts /= float32(len(d.adcPiraniVolts))
 	}
 	// Per Pirani probe docs.
 	bar := math.Pow(10.0, float64(volts)-8.5)
 	mbar = float32(bar * 1000.0)
 	return
 }
 // rpSet enables/disables the roughing pump.
 func (d *daemon) rpSet(state bool) {
 	d.mu.Lock()
 	defer d.mu.Unlock()
 	d.rpOn = state
 }
 // rpGet returns whether the roughing pump is enabled/disabled.
 func (d *daemon) rpGet() bool {
 	d.mu.RLock()
 	defer d.mu.RUnlock()
 	return d.rpOn
 }
 // dpSet enables/disables the diffusion pump.
 func (d *daemon) dpSet(state bool) {
 	d.mu.Lock()
 	defer d.mu.Unlock()
 	d.dpOn = state
 }
 // dpGet returns whether the diffusion pump is enabled/disabled.
 func (d *daemon) dpGet() bool {
 	d.mu.RLock()
 	defer d.mu.RUnlock()
 	return d.dpOn
 }
 func (d *daemon) vacuumStatusGet() (rough, high bool) {
 	d.mu.RLock()
 	defer d.mu.RUnlock()
 	rough = !d.aboveRough.output
 	high = !d.aboveHigh.output
 	return
 }
 // pumpDownPressed toggles the pump down relay for 500ms.
 func (d *daemon) pumpDownPress() {
 	d.mu.Lock()
 	defer d.mu.Unlock()
 	d.pumpdown.trigger()
 }
 // ventPress toggles the vent relay for 500ms.
 func (d *daemon) ventPress() {
 	d.mu.Lock()
 	defer d.mu.Unlock()
 	d.vent.trigger()
 }
--- a/succbone/succd/scientific.go
+++ b/succbone/succd/scientific.go
@ -0,0 +1,33 @@
 package main
 import (
 	"fmt"
 	"strconv"
 )
 type ScientificNotationValue float64
 func (s *ScientificNotationValue) UnmarshalText(text []byte) error {
 	f, err := strconv.ParseFloat(string(text), 64)
 	if err != nil {
 		return err
 	}
 	*s = ScientificNotationValue(f)
 	return nil
 }
 func (s *ScientificNotationValue) MarshalText() ([]byte, error) {
 	v := float64(*s)
 	exp := 0
 	for v < 1 {
 		v *= 10
 		exp -= 1
 	}
 	for v >= 10 {
 		v /= 10
 		exp += 1
 	}
 	res := fmt.Sprintf("%.3f", v)
 	res += fmt.Sprintf("e%d", exp)
 	return []byte(res), nil
 }
--- a/succbone/succd/succd.png
+++ b/succbone/succd/succd.png
--- a/succbone/succd/succd.svg
+++ b/succbone/succd/succd.svg
@ -0,0 +1,86 @@
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Author	SHA1	Message	Date
Serge Bazanski	6d97eb62a8	succd: implement threshold outputs, rework processing	2024-09-27 02:12:38 +02:00
Serge Bazanski	781bbaaeb4	succd: show logo	2024-09-27 02:12:38 +02:00
Serge Bazanski	7dffd2a4b4	succd: add logo	2024-09-27 02:12:38 +02:00
Serge Bazanski	0eacd74484	succd: README: add pin table	2024-09-27 02:12:38 +02:00