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Author | SHA1 | Date | |
---|---|---|---|
3b9c1ba912 | |||
9ec580c26f | |||
Rahix | 152290f5a3 | ||
6f93b96c39 | |||
d8a467a0c4 | |||
e7fd2dd7d7 | |||
606d470577 | |||
Rahix | 0e45650972 | ||
Rahix | edb9051708 | ||
Rahix | 4ac1b5eb32 | ||
Rahix | c02d24414f | ||
2e6a3be100 | |||
4edabc5c56 |
|
@ -4,5 +4,8 @@ go 1.22.3
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|||
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require (
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github.com/coder/websocket v1.8.12
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github.com/simonvetter/modbus v1.6.3
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k8s.io/klog v1.0.0
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)
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require github.com/goburrow/serial v0.1.0 // indirect
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@ -1,5 +1,9 @@
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github.com/coder/websocket v1.8.12 h1:5bUXkEPPIbewrnkU8LTCLVaxi4N4J8ahufH2vlo4NAo=
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github.com/coder/websocket v1.8.12/go.mod h1:LNVeNrXQZfe5qhS9ALED3uA+l5pPqvwXg3CKoDBB2gs=
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github.com/go-logr/logr v0.1.0/go.mod h1:ixOQHD9gLJUVQQ2ZOR7zLEifBX6tGkNJF4QyIY7sIas=
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github.com/goburrow/serial v0.1.0 h1:v2T1SQa/dlUqQiYIT8+Cu7YolfqAi3K96UmhwYyuSrA=
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github.com/goburrow/serial v0.1.0/go.mod h1:sAiqG0nRVswsm1C97xsttiYCzSLBmUZ/VSlVLZJ8haA=
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github.com/simonvetter/modbus v1.6.3 h1:kDzwVfIPczsM4Iz09il/Dij/bqlT4XiJVa0GYaOVA9w=
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github.com/simonvetter/modbus v1.6.3/go.mod h1:hh90ZaTaPLcK2REj6/fpTbiV0J6S7GWmd8q+GVRObPw=
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k8s.io/klog v1.0.0 h1:Pt+yjF5aB1xDSVbau4VsWe+dQNzA0qv1LlXdC2dF6Q8=
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k8s.io/klog v1.0.0/go.mod h1:4Bi6QPql/J/LkTDqv7R/cd3hPo4k2DG6Ptcz060Ez5I=
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@ -62,6 +62,17 @@ type apiData struct {
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// DPOn means the diffusion pump is turned on.
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DPOn bool
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}
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// Temperature state.
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Temperatures struct {
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DPBottom float32
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DPTop float32
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DPInlet float32
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SEM float32
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}
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// Humidity state.
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Humidity struct {
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SEM float32
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}
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// Pressure feedback into evacuation board.
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Feedback struct {
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// RoughReached is true when the system has reached a rough vacuum
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@ -115,6 +126,11 @@ func (s *webServer) apiData(skipSystem bool) *apiData {
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ad.Pirani.MbarFloat = mbar
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ad.Pumps.RPOn = state.rpOn
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ad.Pumps.DPOn = state.dpOn
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ad.Temperatures.DPBottom = state.tempDPBottom
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ad.Temperatures.DPTop = state.tempDPTop
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ad.Temperatures.DPInlet = state.tempDPInlet
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ad.Temperatures.SEM = state.tempSEM
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ad.Humidity.SEM = state.humiditySEM
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ad.Feedback.RoughReached = rough
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ad.Feedback.HighReached = high
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ad.LoopLoad = s.d.loopLoad()
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@ -217,6 +233,26 @@ func (s *webServer) viewMetrics(w http.ResponseWriter, r *http.Request) {
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fmt.Fprintf(w, "# HELP sem_vacuum_high_reached Whether a high vacuum has been reached (boolean)\n")
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fmt.Fprintf(w, "# TYPE sem_vacuum_high_reached gauge\n")
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fmt.Fprintf(w, "sem_vacuum_high_reached %f\n", boolToFloat(high))
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fmt.Fprintf(w, "# HELP sem_environment_temperature_celsius Environmental temperature of the SEM, in degrees celsius\n")
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fmt.Fprintf(w, "# TYPE sem_environment_temperature_celsius gauge\n")
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fmt.Fprintf(w, "sem_environment_temperature_celsius %f\n", state.tempSEM)
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fmt.Fprintf(w, "# HELP sem_environment_humidity_percent Environmental relative humidity of the SEM, in percent\n")
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fmt.Fprintf(w, "# TYPE sem_environment_humidity_percent gauge\n")
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fmt.Fprintf(w, "sem_environment_humidity_percent %f\n", state.humiditySEM)
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fmt.Fprintf(w, "# HELP sem_dp_bottom_temperature_celsius Temperature of the DP bottom, in degrees celsius\n")
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fmt.Fprintf(w, "# TYPE sem_dp_bottom_temperature_celsius gauge\n")
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fmt.Fprintf(w, "sem_dp_bottom_temperature_celsius %f\n", state.tempDPBottom)
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fmt.Fprintf(w, "# HELP sem_dp_top_temperature_celsius Temperature of the DP top, in degrees celsius\n")
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fmt.Fprintf(w, "# TYPE sem_dp_top_temperature_celsius gauge\n")
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fmt.Fprintf(w, "sem_dp_top_temperature_celsius %f\n", state.tempDPTop)
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fmt.Fprintf(w, "# HELP sem_dp_inlet_temperature_celsius Temperature of the DP inlet flange, in degrees celsius\n")
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fmt.Fprintf(w, "# TYPE sem_dp_inlet_temperature_celsius gauge\n")
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fmt.Fprintf(w, "sem_dp_inlet_temperature_celsius %f\n", state.tempDPInlet)
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}
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func (s *webServer) viewRoughingPumpEnable(w http.ResponseWriter, r *http.Request) {
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@ -9,19 +9,19 @@ body {
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padding: 2em;
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}
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table {
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font-size: 40px;
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font-size: 30px;
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}
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table.status td {
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width: 2em;
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}
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th, td {
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background-color: #e8e8e8;
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padding: 0.4em;
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padding: 0.3em;
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}
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th {
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font-weight: 100;
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text-align: right;
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font-size: 30px;
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font-size: 25px;
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}
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td {
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text-align: left;
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@ -34,7 +34,7 @@ h2 {
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font-weight: 100;
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}
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button {
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height: 4.5em;
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height: 3.3em;
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padding-left: 1.5em;
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padding-right: 1.5em;
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}
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@ -76,6 +76,7 @@ td > span {
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.has-hidden:hover .hidden-text {
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display: block;
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}
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@media only screen and (max-width: 700px) {
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body {
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@ -120,19 +121,6 @@ td > span {
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</tr>
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</table>
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<table>
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<tr>
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<th>Pirani Pressure</th>
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<td class="has-hidden">
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<div id="mbar">{{ .Pirani.Mbar }}</div>
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<div class="hidden-text" style="color: #606060;">
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<span>Voltage: </span><span id="volts">{{ .Pirani.Volts }}</span>
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</div>
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</td>
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</tr>
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</table>
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<table>
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<tr>
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<th rowspan="3">Control</th>
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@ -163,6 +151,41 @@ td > span {
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</tr>
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</table>
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<table>
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<tr>
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<th>Pirani Pressure</th>
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<td colspan="2" class="has-hidden">
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<div id="mbar">{{ .Pirani.Mbar }}</div>
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<div class="hidden-text" style="color: #606060;">
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<span>Voltage: </span><span id="volts">{{ .Pirani.Volts }}</span>
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</div>
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</td>
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</tr>
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<tr>
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<th rowspan="4">Temperatures</th>
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<th>DP Bottom</th>
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<td id="temp-dp-bottom">{{ .Temperatures.DPBottom }} °C</td>
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</tr>
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<tr>
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<th>DP Top</th>
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<td id="temp-dp-top">{{ .Temperatures.DPTop }} °C</td>
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</tr>
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<tr>
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<th>DP Inlet</th>
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<td id="temp-dp-inlet">{{ .Temperatures.DPInlet }} °C</td>
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</tr>
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<tr>
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<th>SEM Environment</th>
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<td id="temp-sem">{{ .Temperatures.SEM }} °C</td>
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</tr>
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<tr>
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<th>Humidity</th>
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<th>SEM Environment</th>
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<td id="humidity-sem">{{ .Humidity.SEM }}%</td>
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</tr>
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</table>
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<div class="graph-container">
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<canvas id="graph" width="1024" height="512" style="max-width: 100%;"></canvas>
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</div>
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@ -316,6 +339,11 @@ window.addEventListener("load", (_) => {
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let trough = document.querySelector("#trough");
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let thigh = document.querySelector("#thigh");
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let load = document.querySelector("#load");
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let tempSEM = document.querySelector("#temp-sem");
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let tempDPBottom = document.querySelector("#temp-dp-bottom");
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let tempDPTop = document.querySelector("#temp-dp-top");
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let tempDPInlet = document.querySelector("#temp-dp-inlet");
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let humiditySEM = document.querySelector('#humidity-sem');
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// Buttons
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let pd = document.querySelector("#pd");
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@ -388,6 +416,30 @@ window.addEventListener("load", (_) => {
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dp.style = colors.default;
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}
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tempSEM.innerHTML = data.Temperatures.SEM + " °C";
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tempSEM.style = (data.Temperatures.SEM > 30) ?
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colors.highlightCaution : colors.default;
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humiditySEM.innerHTML = data.Humidity.SEM + "%";
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humiditySEM.style = (data.Humidity.SEM > 59) ?
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colors.highlightCaution : colors.default;
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tempDPTop.innerHTML = data.Temperatures.DPTop + " °C";
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tempDPTop.style = (data.Temperatures.DPTop > 30) ?
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colors.highlightCaution : colors.default;
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tempDPInlet.innerHTML = data.Temperatures.DPInlet + " °C";
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tempDPInlet.style = (data.Temperatures.DPInlet > 30) ?
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colors.highlightCaution : colors.default;
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tempDPBottom.innerHTML = data.Temperatures.DPBottom + " °C";
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if (data.Temperatures.DPBottom > 200) {
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tempDPBottom.style = colors.highlightFault;
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} else if (data.Temperatures.DPBottom > 50) {
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tempDPBottom.style = colors.highlightNeutral;
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} else {
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tempDPBottom.style = colors.default;
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}
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let t = [];
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if (data.Feedback.RoughReached) {
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trough.innerHTML = "OK";
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@ -413,7 +465,7 @@ window.addEventListener("load", (_) => {
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// Indicate all process values as unknown
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[failsafe, highpressure, rp, dp, trough, thigh, volts, mbar].forEach((el) => {
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[failsafe, highpressure, rp, dp, trough, thigh, volts, mbar, tempDPBottom, tempDPTop, tempDPInlet].forEach((el) => {
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if (!el.innerHTML.includes("??")) {
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el.innerHTML += "??";
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}
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@ -35,6 +35,12 @@ func main() {
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d.daemonState.piraniVolts3.limit = 3
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d.daemonState.piraniVolts100.limit = 100
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d.tempDPBottom = 420.6
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d.tempDPTop = 69.0
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d.tempDPInlet = 42.0
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d.tempSEM = 42.5
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d.humiditySEM = 66.6
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d.aboveRough.threshold = float64(flagPressureThresholdRough)
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d.aboveRough.hysteresis = float64(flagPressureThresholdRoughHysteresis)
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d.aboveHigh.threshold = float64(flagPressureThresholdHigh)
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@ -42,12 +48,6 @@ func main() {
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if flagFake {
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klog.Infof("Starting with fake peripherals")
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d.adcPirani = &fakeADC{}
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d.gpioRoughingPump = &fakeGPIO{desc: "rp"}
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d.gpioDiffusionPump = &fakeGPIO{desc: "~dp"}
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d.gpioBtnPumpDown = &fakeGPIO{desc: "~pd"}
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d.gpioBtnVent = &fakeGPIO{desc: "~vent"}
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d.gpioBelowRough = &fakeGPIO{desc: "~rough"}
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d.gpioBelowHigh = &fakeGPIO{desc: "~high"}
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} else {
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adc, err := newBBADC(0)
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if err != nil {
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@ -55,21 +55,9 @@ func main() {
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}
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d.adcPirani = adc
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for _, c := range []struct {
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out *gpio
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num int
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}{
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{&d.gpioRoughingPump, 115},
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{&d.gpioDiffusionPump, 49},
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{&d.gpioBtnPumpDown, 48},
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{&d.gpioBtnVent, 60},
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{&d.gpioBelowRough, 30},
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{&d.gpioBelowHigh, 7},
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} {
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*c.out, err = newBBGPIO(c.num, true)
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err = d.modbusConnect()
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if err != nil {
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klog.Exitf("Failed to setup GPIO: %v", err)
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}
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klog.Exitf("Failed to connect to modbus %v", err)
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}
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}
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|
@ -86,5 +74,9 @@ func main() {
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}()
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go d.process(ctx)
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if !flagFake {
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go d.modbusProcess(ctx)
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}
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<-ctx.Done()
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}
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|
|
186
succbone/succd/modbus.go
Normal file
186
succbone/succd/modbus.go
Normal file
|
@ -0,0 +1,186 @@
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package main
|
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import (
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"context"
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"time"
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"github.com/simonvetter/modbus"
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"k8s.io/klog"
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)
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func modbusValuesToFloat(v uint16) float32 {
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return float32(v) / 10.0
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}
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func (d *daemon) modbusConnect() error {
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var err error
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d.mu.Lock()
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defer d.mu.Unlock()
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// Setup modbus client
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d.modbusClient, err = modbus.NewClient(&modbus.ClientConfiguration{
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URL: "tcp://10.250.241.20:8887",
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Timeout: 1 * time.Second,
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})
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if err != nil {
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return err
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}
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// Connect to modbus client
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err = d.modbusClient.Open()
|
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if err != nil {
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return err
|
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}
|
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|
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return nil
|
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}
|
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func (d *daemon) modbusRestart() error {
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d.modbusClient.Close()
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return d.modbusClient.Open()
|
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}
|
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|
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// There are currently two devices connected to the modbus.
|
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// The first one (slave 1) is a temperature/humidity sensor.
|
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// The second one (slave 2) is a PTA8D08 transmitter
|
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//
|
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// Returns whether modbus should restart (only in case of an underlying network error)
|
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func (d *daemon) modbusUpdate() bool {
|
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var err error
|
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var numDevicesNotResponding int
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|
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// Switch to slave 1 (BTA1)
|
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d.modbusClient.SetUnitId(1)
|
||||
|
||||
// Read temperature and humidity
|
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var registersBTA1 []uint16 // temperature, humidity
|
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registersBTA1, err = d.modbusClient.ReadRegisters(1, 2, modbus.INPUT_REGISTER)
|
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if err != nil {
|
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numDevicesNotResponding += 1
|
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klog.Warningf("error while reading registers from BTA1 %v", err)
|
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} else if len(registersBTA1) != 2 {
|
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klog.Warningf("expected two registers from modbus slave 1, but got %d", len(registersBTA1))
|
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} else {
|
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d.mu.Lock()
|
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d.daemonState.tempSEM = modbusValuesToFloat(registersBTA1[0])
|
||||
d.daemonState.humiditySEM = modbusValuesToFloat(registersBTA1[1])
|
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d.mu.Unlock()
|
||||
}
|
||||
|
||||
// Switch to slave 2 (KEC2)
|
||||
d.modbusClient.SetUnitId(2)
|
||||
|
||||
// PT100 mapping
|
||||
// Channel 0: Cable -WGA6, Sensor "dp bottom"
|
||||
// Channel 1: Cable -WGA8, Sensor "dp inlet"
|
||||
// Channel 2: Cable WGA7, Sensor "dp top"
|
||||
var registersKEC2 []uint16 // temperatures dp
|
||||
registersKEC2, err = d.modbusClient.ReadRegisters(0, 3, modbus.HOLDING_REGISTER)
|
||||
if err != nil {
|
||||
numDevicesNotResponding += 1
|
||||
klog.Warningf("error while reading registers from KEC2 %v", err)
|
||||
} else if len(registersKEC2) != 3 {
|
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klog.Warningf("expected three registers from modbus slave 2, but got %d", len(registersKEC2))
|
||||
} else {
|
||||
d.mu.Lock()
|
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d.daemonState.tempDPBottom = modbusValuesToFloat(registersKEC2[0])
|
||||
d.daemonState.tempDPInlet = modbusValuesToFloat(registersKEC2[1])
|
||||
d.daemonState.tempDPTop = modbusValuesToFloat(registersKEC2[2])
|
||||
d.mu.Unlock()
|
||||
}
|
||||
|
||||
// Switch to slave 3 (KEC1)
|
||||
d.modbusClient.SetUnitId(3)
|
||||
|
||||
// Do a read first to avoid side-effects from the subsequent write to the relay states
|
||||
var digitalInputs [8]bool
|
||||
var digitalInputRegisters []uint16
|
||||
|
||||
digitalInputRegisters, err = d.modbusClient.ReadRegisters(0x81, 8, modbus.HOLDING_REGISTER)
|
||||
if err != nil {
|
||||
numDevicesNotResponding += 1
|
||||
klog.Warningf("error while reading digital inputs from KEC1 %v", err)
|
||||
} else {
|
||||
// Convert MODBUS words into bools
|
||||
for idx, value := range digitalInputRegisters {
|
||||
if value != 0 {
|
||||
digitalInputs[idx] = true
|
||||
} else {
|
||||
digitalInputs[idx] = false
|
||||
}
|
||||
}
|
||||
// TODO: Input mapping goes here
|
||||
}
|
||||
|
||||
// We must wait between reading and writing to the -KEC1 relay board
|
||||
// because otherwise it chokes and times out the write registers
|
||||
// command.
|
||||
time.Sleep(time.Millisecond * 10)
|
||||
|
||||
// KFA1-KFA8
|
||||
var relayState [8]bool
|
||||
d.mu.Lock()
|
||||
// -KFA1 Roughing Pump (normally closed contact)
|
||||
relayState[0] = !d.daemonState.rpOn
|
||||
// -KFA2 Diffusion Pump
|
||||
relayState[1] = d.daemonState.dpOn
|
||||
// -KFA4 Button Vent
|
||||
relayState[3] = d.daemonState.vent.output
|
||||
// -KFA5 Button Pump-Down
|
||||
relayState[4] = d.daemonState.pumpdown.output
|
||||
// -KFA6 Fake-Pirani Rough (normally closed contact)
|
||||
relayState[5] = !d.aboveRough.output
|
||||
// -KFA7 Fake-Pirani High (normally closed contact)
|
||||
relayState[6] = !d.aboveHigh.output
|
||||
d.mu.Unlock()
|
||||
|
||||
// The KEC1 module uses a non-standard MODBUS interface
|
||||
// instead of coils
|
||||
// 0x0100 is the open command
|
||||
// 0x0200 is the close command
|
||||
// We write 8 words (16-bit) to address 0x01 to update the relays
|
||||
var registerValuesKEC1 [8]uint16
|
||||
// Convert the boolean values to the commands
|
||||
for idx, state := range relayState {
|
||||
if state {
|
||||
registerValuesKEC1[idx] = 0x0100
|
||||
} else {
|
||||
registerValuesKEC1[idx] = 0x0200
|
||||
}
|
||||
}
|
||||
|
||||
err = d.modbusClient.WriteRegisters(0x01, registerValuesKEC1[:])
|
||||
if err != nil {
|
||||
numDevicesNotResponding += 1
|
||||
klog.Warningf("error while updating registers %v", err)
|
||||
}
|
||||
|
||||
if numDevicesNotResponding >= 4 {
|
||||
klog.Warningf("no device did respond to our request. Probably a network timeout.")
|
||||
return true
|
||||
}
|
||||
|
||||
return false
|
||||
}
|
||||
|
||||
// Call modbusUpdate every 100 milliseconds
|
||||
func (d *daemon) modbusProcess(ctx context.Context) {
|
||||
for {
|
||||
select {
|
||||
case <-ctx.Done():
|
||||
return
|
||||
default:
|
||||
shouldRestart := d.modbusUpdate()
|
||||
// the modbus library does not reopen the tcp socket in case of
|
||||
// a connection loss.
|
||||
if shouldRestart {
|
||||
klog.Infof("restarting modbus connection...")
|
||||
err := d.modbusRestart()
|
||||
if err != nil {
|
||||
klog.Warningf("failed to restart modbus %v", err)
|
||||
}
|
||||
}
|
||||
time.Sleep(time.Millisecond * 100)
|
||||
}
|
||||
}
|
||||
}
|
|
@ -8,22 +8,17 @@ import (
|
|||
"sync/atomic"
|
||||
"time"
|
||||
|
||||
"github.com/simonvetter/modbus"
|
||||
"k8s.io/klog"
|
||||
)
|
||||
|
||||
// daemon is the main service of the succdaemon.
|
||||
type daemon struct {
|
||||
modbusClient *modbus.ModbusClient
|
||||
// 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
|
||||
|
||||
load atomic.Int64
|
||||
|
||||
// mu guards the state below.
|
||||
|
@ -55,6 +50,13 @@ type daemonState struct {
|
|||
pumpdown momentaryOutput
|
||||
aboveRough thresholdOutput
|
||||
aboveHigh thresholdOutput
|
||||
|
||||
tempDPBottom float32
|
||||
tempDPTop float32
|
||||
tempDPInlet float32
|
||||
|
||||
tempSEM float32
|
||||
humiditySEM float32
|
||||
}
|
||||
|
||||
func (d *daemonState) vacuumStatus() (rough, high bool) {
|
||||
|
@ -162,33 +164,5 @@ func (d *daemon) processOnce(_ context.Context) error {
|
|||
d.dpOn = false
|
||||
}
|
||||
|
||||
// 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
|
||||
}
|
||||
|
|
Loading…
Reference in a new issue