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sdr-wideband-suite
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Wideband autonomous SDR analysis engine forked from sdr-visual-suite
Nevar pievienot vairāk kā 25 tēmas Tēmai ir jāsākas ar burtu vai ciparu, tā var saturēt domu zīmes ('-') un var būt līdz 35 simboliem gara.
200 Revīzijas
1 Atzars
174MB
Koks: e33efb6c3d
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sdr-wideband-suite/cmd/sdrd/dsp_loop.go

132 rindas
4.4KB
Neapstrādāts Vainot Vēsture 

  1. package main

  2. 

  3. import (

  4. 	"context"

  5. 	"encoding/json"

  6. 	"log"

  7. 	"os"

  8. 	"runtime/debug"

  9. 	"strings"

  10. 	"sync"

  11. 	"time"

  12. 

  13. 	"sdr-wideband-suite/internal/config"

  14. 	"sdr-wideband-suite/internal/detector"

  15. 	"sdr-wideband-suite/internal/dsp"

  16. 	"sdr-wideband-suite/internal/recorder"

  17. )

  18. 

  19. func runDSP(ctx context.Context, srcMgr *sourceManager, cfg config.Config, det *detector.Detector, window []float64, h *hub, eventFile *os.File, eventMu *sync.RWMutex, updates <-chan dspUpdate, gpuState *gpuStatus, rec *recorder.Manager, sigSnap *signalSnapshot, extractMgr *extractionManager) {

  20. 	defer func() {

  21. 		if r := recover(); r != nil {

  22. 			log.Printf("FATAL: runDSP goroutine panic: %v\n%s", r, debug.Stack())

  23. 		}

  24. 	}()

  25. 	rt := newDSPRuntime(cfg, det, window, gpuState)

  26. 	ticker := time.NewTicker(cfg.FrameInterval())

  27. 	defer ticker.Stop()

  28. 	logTicker := time.NewTicker(5 * time.Second)

  29. 	defer logTicker.Stop()

  30. 	enc := json.NewEncoder(eventFile)

  31. 	dcBlocker := dsp.NewDCBlocker(0.995)

  32. 	state := &phaseState{}

  33. 	for {

  34. 		select {

  35. 		case <-ctx.Done():

  36. 			return

  37. 		case <-logTicker.C:

  38. 			st := srcMgr.Stats()

  39. 			log.Printf("stats: buf=%d drop=%d reset=%d last=%dms", st.BufferSamples, st.Dropped, st.Resets, st.LastSampleAgoMs)

  40. 		case upd := <-updates:

  41. 			rt.applyUpdate(upd, srcMgr, rec, gpuState)

  42. 			dcBlocker.Reset()

  43. 			ticker.Reset(rt.cfg.FrameInterval())

  44. 		case <-ticker.C:

  45. 			art, err := rt.captureSpectrum(srcMgr, rec, dcBlocker, gpuState)

  46. 			if err != nil {

  47. 				log.Printf("read IQ: %v", err)

  48. 				if strings.Contains(err.Error(), "timeout") {

  49. 					if err := srcMgr.Restart(rt.cfg); err != nil {

  50. 						log.Printf("restart failed: %v", err)

  51. 					}

  52. 				}

  53. 				continue

  54. 			}

  55. 			if !rt.gotSamples {

  56. 				log.Printf("received IQ samples")

  57. 				rt.gotSamples = true

  58. 			}

  59. 			state.surveillance = rt.buildSurveillanceResult(art)

  60. 			finished := state.surveillance.Finished

  61. 			thresholds := state.surveillance.Thresholds

  62. 			noiseFloor := state.surveillance.NoiseFloor

  63. 			var displaySignals []detector.Signal

  64. 			if len(art.iq) > 0 {

  65. 				state.refinement = rt.refineSignals(art, extractMgr, rec)

  66. 				displaySignals = state.refinement.Signals

  67. 				if rec != nil && len(displaySignals) > 0 && len(art.allIQ) > 0 {

  68. 					aqCfg := extractionConfig{firTaps: rt.cfg.Recorder.ExtractionTaps, bwMult: rt.cfg.Recorder.ExtractionBwMult}

  69. 					streamSnips, streamRates := extractForStreaming(extractMgr, art.allIQ, rt.cfg.SampleRate, rt.cfg.CenterHz, displaySignals, rt.streamPhaseState, rt.streamOverlap, aqCfg)

  70. 					items := make([]recorder.StreamFeedItem, 0, len(displaySignals))

  71. 					for j, ds := range displaySignals {

  72. 						if ds.ID == 0 || ds.Class == nil {

  73. 							continue

  74. 						}

  75. 						if j >= len(streamSnips) || len(streamSnips[j]) == 0 {

  76. 							continue

  77. 						}

  78. 						snipRate := rt.cfg.SampleRate

  79. 						if j < len(streamRates) && streamRates[j] > 0 {

  80. 							snipRate = streamRates[j]

  81. 						}

  82. 						items = append(items, recorder.StreamFeedItem{Signal: ds, Snippet: streamSnips[j], SnipRate: snipRate})

  83. 					}

  84. 					if len(items) > 0 {

  85. 						rec.FeedSnippets(items)

  86. 					}

  87. 				}

  88. 				rt.maintenance(displaySignals, rec)

  89. 			} else {

  90. 				displaySignals = rt.det.StableSignals()

  91. 			}

  92. 

  93. 			if sigSnap != nil {

  94. 				sigSnap.set(displaySignals)

  95. 			}

  96. 			eventMu.Lock()

  97. 			for _, ev := range finished {

  98. 				_ = enc.Encode(ev)

  99. 			}

  100. 			eventMu.Unlock()

  101. 			if rec != nil && len(finished) > 0 {

  102. 				evCopy := make([]detector.Event, len(finished))

  103. 				copy(evCopy, finished)

  104. 				rec.OnEvents(evCopy)

  105. 			}

  106. 			var debugInfo *SpectrumDebug

  107. 			if len(thresholds) > 0 || len(displaySignals) > 0 || noiseFloor != 0 {

  108. 				scoreDebug := make([]map[string]any, 0, len(displaySignals))

  109. 				for _, s := range displaySignals {

  110. 					if s.Class == nil || len(s.Class.Scores) == 0 {

  111. 						scoreDebug = append(scoreDebug, map[string]any{"center_hz": s.CenterHz, "class": nil})

  112. 						continue

  113. 					}

  114. 					scores := make(map[string]float64, len(s.Class.Scores))

  115. 					for k, v := range s.Class.Scores {

  116. 						scores[string(k)] = v

  117. 					}

  118. 					scoreDebug = append(scoreDebug, map[string]any{

  119. 						"center_hz":   s.CenterHz,

  120. 						"mod_type":    s.Class.ModType,

  121. 						"confidence":  s.Class.Confidence,

  122. 						"second_best": s.Class.SecondBest,

  123. 						"scores":      scores,

  124. 					})

  125. 				}

  126. 				debugInfo = &SpectrumDebug{Thresholds: thresholds, NoiseFloor: noiseFloor, Scores: scoreDebug}

  127. 			}

  128. 			h.broadcast(SpectrumFrame{Timestamp: art.now.UnixMilli(), CenterHz: rt.cfg.CenterHz, SampleHz: rt.cfg.SampleRate, FFTSize: rt.cfg.FFTSize, Spectrum: art.spectrum, Signals: displaySignals, Debug: debugInfo})

  129. 		}

  130. 	}

  131. }