Alfred
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fm-rds-tx
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Go-based FM stereo transmitter with RDS, Windows-first and cross-platform
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fm-rds-tx/cmd/fmrtx/main.go

317 строки
10KB
Исходник Blame История 

  1. package main

  2. 

  3. import (

  4. 	"context"

  5. 	"flag"

  6. 	"fmt"

  7. 	"log"

  8. 	"os"

  9. 	"os/signal"

  10. 	"strings"

  11. 	"syscall"

  12. 	"time"

  13. 

  14. 	apppkg "github.com/jan/fm-rds-tx/internal/app"

  15. 	"github.com/jan/fm-rds-tx/internal/audio"

  16. 	cfgpkg "github.com/jan/fm-rds-tx/internal/config"

  17. 	ctrlpkg "github.com/jan/fm-rds-tx/internal/control"

  18. 	drypkg "github.com/jan/fm-rds-tx/internal/dryrun"

  19. 	"github.com/jan/fm-rds-tx/internal/ingest"

  20. 	ingestfactory "github.com/jan/fm-rds-tx/internal/ingest/factory"

  21. 	"github.com/jan/fm-rds-tx/internal/platform"

  22. 	"github.com/jan/fm-rds-tx/internal/platform/plutosdr"

  23. 	"github.com/jan/fm-rds-tx/internal/platform/soapysdr"

  24. )

  25. 

  26. func main() {

  27. 	configPath := flag.String("config", "", "path to JSON config")

  28. 	printConfig := flag.Bool("print-config", false, "print effective config and exit")

  29. 	dryRun := flag.Bool("dry-run", false, "run no-hardware dry-run output")

  30. 	dryOutput := flag.String("dry-output", "-", "dry-run output path or - for stdout")

  31. 	simulate := flag.Bool("simulate-tx", false, "run simulated Soapy/backend transmit path")

  32. 	simulateOutput := flag.String("simulate-output", "", "simulated transmit output file")

  33. 	simulateDuration := flag.Duration("simulate-duration", 500*time.Millisecond, "simulated transmit duration")

  34. 	txMode := flag.Bool("tx", false, "start real TX mode (requires hardware + build tags)")

  35. 	txAutoStart := flag.Bool("tx-auto-start", false, "auto-start TX on launch")

  36. 	listDevices := flag.Bool("list-devices", false, "enumerate SoapySDR devices and exit")

  37. 	audioStdin := flag.Bool("audio-stdin", false, "read S16LE stereo PCM audio from stdin")

  38. 	audioRate := flag.Int("audio-rate", 44100, "sample rate of stdin audio input (Hz)")

  39. 	audioHTTP := flag.Bool("audio-http", false, "enable HTTP audio ingest via /audio/stream")

  40. 	flag.Parse()

  41. 

  42. 	if *listDevices {

  43. 		devices, err := soapysdr.Enumerate()

  44. 		if err != nil {

  45. 			log.Fatalf("enumerate: %v", err)

  46. 		}

  47. 		if len(devices) == 0 {

  48. 			fmt.Println("no SoapySDR devices found")

  49. 			return

  50. 		}

  51. 		for i, dev := range devices {

  52. 			fmt.Printf("device %d:\n", i)

  53. 			for k, v := range dev {

  54. 				fmt.Printf("  %s = %s\n", k, v)

  55. 			}

  56. 		}

  57. 		return

  58. 	}

  59. 

  60. 	cfg, err := cfgpkg.Load(*configPath)

  61. 	if err != nil {

  62. 		log.Fatalf("load config: %v", err)

  63. 	}

  64. 

  65. 	if *printConfig {

  66. 		preemph := "off"

  67. 		if cfg.FM.PreEmphasisTauUS > 0 {

  68. 			preemph = fmt.Sprintf("%.0fus", cfg.FM.PreEmphasisTauUS)

  69. 		}

  70. 		fmt.Printf("backend=%s freq=%.1fMHz stereo=%t rds=%t preemph=%s limiter=%t fmmod=%t deviation=+-%.0fHz compositeRate=%dHz deviceRate=%.0fHz listen=%s pluto=%t soapy=%t\n",

  71. 			cfg.Backend.Kind, cfg.FM.FrequencyMHz, cfg.FM.StereoEnabled, cfg.RDS.Enabled,

  72. 			preemph, cfg.FM.LimiterEnabled, cfg.FM.FMModulationEnabled, cfg.FM.MaxDeviationHz,

  73. 			cfg.FM.CompositeRateHz, cfg.EffectiveDeviceRate(), cfg.Control.ListenAddress,

  74. 			plutosdr.Available(), soapysdr.Available())

  75. 		return

  76. 	}

  77. 

  78. 	if *dryRun {

  79. 		frame := drypkg.Generate(cfg)

  80. 		if err := drypkg.WriteJSON(*dryOutput, frame); err != nil {

  81. 			log.Fatalf("dry-run: %v", err)

  82. 		}

  83. 		if *dryOutput != "" && *dryOutput != "-" {

  84. 			fmt.Fprintf(os.Stderr, "dry run frame written to %s\n", *dryOutput)

  85. 		}

  86. 		return

  87. 	}

  88. 

  89. 	if *simulate {

  90. 		summary, err := apppkg.RunSimulatedTransmit(cfg, *simulateOutput, *simulateDuration)

  91. 		if err != nil {

  92. 			log.Fatalf("simulate-tx: %v", err)

  93. 		}

  94. 		fmt.Println(summary)

  95. 		return

  96. 	}

  97. 

  98. 	if *txMode {

  99. 		driver := selectDriver(cfg)

  100. 		if driver == nil {

  101. 			log.Fatal("no hardware driver available - build with -tags pluto (or -tags soapy)")

  102. 		}

  103. 		runTXMode(cfg, driver, *txAutoStart, *audioStdin, *audioRate, *audioHTTP)

  104. 		return

  105. 	}

  106. 

  107. 	srv := ctrlpkg.NewServer(cfg)

  108. 	server := ctrlpkg.NewHTTPServer(cfg, srv.Handler())

  109. 	log.Printf("fm-rds-tx listening on %s (TX default: off, use --tx for hardware)", server.Addr)

  110. 	log.Fatal(server.ListenAndServe())

  111. }

  112. 

  113. func selectDriver(cfg cfgpkg.Config) platform.SoapyDriver {

  114. 	kind := cfg.Backend.Kind

  115. 

  116. 	if kind == "pluto" || kind == "plutosdr" {

  117. 		if plutosdr.Available() {

  118. 			return plutosdr.NewPlutoDriver()

  119. 		}

  120. 		log.Printf("warning: backend=%s but pluto driver not available (%s)", kind, plutosdr.AvailableError())

  121. 	}

  122. 

  123. 	if kind == "soapy" || kind == "soapysdr" {

  124. 		if soapysdr.Available() {

  125. 			return soapysdr.NewNativeDriver()

  126. 		}

  127. 		log.Printf("warning: backend=%s but soapy driver not available", kind)

  128. 	}

  129. 

  130. 	if plutosdr.Available() {

  131. 		log.Println("auto-selected: pluto-iio driver")

  132. 		return plutosdr.NewPlutoDriver()

  133. 	}

  134. 	if soapysdr.Available() {

  135. 		log.Println("auto-selected: soapy-native driver")

  136. 		return soapysdr.NewNativeDriver()

  137. 	}

  138. 

  139. 	return nil

  140. }

  141. 

  142. func runTXMode(cfg cfgpkg.Config, driver platform.SoapyDriver, autoStart bool, audioStdin bool, audioRate int, audioHTTP bool) {

  143. 	ctx, cancel := context.WithCancel(context.Background())

  144. 	defer cancel()

  145. 

  146. 	soapyCfg := platform.SoapyConfig{

  147. 		Driver:       cfg.Backend.Driver,

  148. 		Device:       cfg.Backend.Device,

  149. 		CenterFreqHz: cfg.FM.FrequencyMHz * 1e6,

  150. 		GainDB:       0,

  151. 		DeviceArgs:   map[string]string{},

  152. 	}

  153. 	if cfg.Backend.URI != "" {

  154. 		soapyCfg.DeviceArgs["uri"] = cfg.Backend.URI

  155. 	}

  156. 	for k, v := range cfg.Backend.DeviceArgs {

  157. 		soapyCfg.DeviceArgs[k] = v

  158. 	}

  159. 	soapyCfg.SampleRateHz = cfg.EffectiveDeviceRate()

  160. 

  161. 	log.Printf("TX: configuring %s freq=%.3fMHz rate=%.0fHz gain=%.1fdB",

  162. 		driver.Name(), cfg.FM.FrequencyMHz, soapyCfg.SampleRateHz, soapyCfg.GainDB)

  163. 

  164. 	if err := driver.Configure(ctx, soapyCfg); err != nil {

  165. 		log.Fatalf("configure: %v", err)

  166. 	}

  167. 

  168. 	caps, err := driver.Capabilities(ctx)

  169. 	if err == nil {

  170. 		log.Printf("TX: device caps: gain=%.0f..%.0f dB, rate=%.0f..%.0f Hz",

  171. 			caps.GainMinDB, caps.GainMaxDB, caps.MinSampleRate, caps.MaxSampleRate)

  172. 	}

  173. 

  174. 	engine := apppkg.NewEngine(cfg, driver)

  175. 	cfg = applyLegacyAudioFlags(cfg, audioStdin, audioRate, audioHTTP)

  176. 

  177. 	var streamSrc *audio.StreamSource

  178. 	var ingestRuntime *ingest.Runtime

  179. 	var ingress ctrlpkg.AudioIngress

  180. 	if ingestEnabled(cfg.Ingest.Kind) {

  181. 		rate := ingestfactory.SampleRateForKind(cfg)

  182. 		bufferFrames := rate * 2

  183. 		if bufferFrames <= 0 {

  184. 			bufferFrames = 1

  185. 		}

  186. 		streamSrc = audio.NewStreamSource(bufferFrames, rate)

  187. 		engine.SetStreamSource(streamSrc)

  188. 

  189. 		source, sourceIngress, err := ingestfactory.BuildSource(cfg, ingestfactory.Deps{Stdin: os.Stdin})

  190. 		if err != nil {

  191. 			log.Fatalf("ingest source: %v", err)

  192. 		}

  193. 		ingestRuntime = ingest.NewRuntime(streamSrc, source)

  194. 		if err := ingestRuntime.Start(ctx); err != nil {

  195. 			log.Fatalf("ingest start: %v", err)

  196. 		}

  197. 		ingress = sourceIngress

  198. 		log.Printf("ingest: kind=%s rate=%dHz buffer=%d frames", cfg.Ingest.Kind, rate, streamSrc.Stats().Capacity)

  199. 	}

  200. 

  201. 	srv := ctrlpkg.NewServer(cfg)

  202. 	srv.SetDriver(driver)

  203. 	srv.SetTXController(&txBridge{engine: engine})

  204. 	if streamSrc != nil {

  205. 		srv.SetStreamSource(streamSrc)

  206. 	}

  207. 	if ingress != nil {

  208. 		srv.SetAudioIngress(ingress)

  209. 	}

  210. 	if ingestRuntime != nil {

  211. 		srv.SetIngestRuntime(ingestRuntime)

  212. 	}

  213. 

  214. 	if autoStart {

  215. 		log.Println("TX: auto-start enabled")

  216. 		if err := engine.Start(ctx); err != nil {

  217. 			log.Fatalf("engine start: %v", err)

  218. 		}

  219. 		log.Printf("TX ACTIVE: freq=%.3fMHz rate=%.0fHz", cfg.FM.FrequencyMHz, cfg.EffectiveDeviceRate())

  220. 	} else {

  221. 		log.Println("TX ready (idle) - POST /tx/start to begin")

  222. 	}

  223. 

  224. 	ctrlServer := ctrlpkg.NewHTTPServer(cfg, srv.Handler())

  225. 	go func() {

  226. 		log.Printf("control plane on %s (read=%s write=%s idle=%s)", ctrlServer.Addr, ctrlServer.ReadTimeout, ctrlServer.WriteTimeout, ctrlServer.IdleTimeout)

  227. 		if err := ctrlServer.ListenAndServe(); err != nil {

  228. 			log.Printf("http: %v", err)

  229. 		}

  230. 	}()

  231. 

  232. 	sigCh := make(chan os.Signal, 1)

  233. 	signal.Notify(sigCh, syscall.SIGINT, syscall.SIGTERM)

  234. 	sig := <-sigCh

  235. 	log.Printf("received %s, shutting down...", sig)

  236. 

  237. 	_ = engine.Stop(ctx)

  238. 	if ingestRuntime != nil {

  239. 		_ = ingestRuntime.Stop()

  240. 	}

  241. 	_ = driver.Close(ctx)

  242. 	log.Println("shutdown complete")

  243. }

  244. 

  245. func ingestEnabled(kind string) bool {

  246. 	normalized := strings.ToLower(strings.TrimSpace(kind))

  247. 	return normalized != "" && normalized != "none"

  248. }

  249. 

  250. func applyLegacyAudioFlags(cfg cfgpkg.Config, audioStdin bool, audioRate int, audioHTTP bool) cfgpkg.Config {

  251. 	if audioRate > 0 {

  252. 		cfg.Ingest.Stdin.SampleRateHz = audioRate

  253. 		cfg.Ingest.HTTPRaw.SampleRateHz = audioRate

  254. 	}

  255. 	if audioStdin && audioHTTP {

  256. 		log.Printf("audio: both --audio-stdin and --audio-http set; using ingest kind=stdin")

  257. 	}

  258. 	if audioStdin {

  259. 		cfg.Ingest.Kind = "stdin"

  260. 	}

  261. 	if audioHTTP && !audioStdin {

  262. 		cfg.Ingest.Kind = "http-raw"

  263. 	}

  264. 	return cfg

  265. }

  266. 

  267. type txBridge struct{ engine *apppkg.Engine }

  268. 

  269. func (b *txBridge) StartTX() error { return b.engine.Start(context.Background()) }

  270. func (b *txBridge) StopTX() error  { return b.engine.Stop(context.Background()) }

  271. func (b *txBridge) TXStats() map[string]any {

  272. 	s := b.engine.Stats()

  273. 	return map[string]any{

  274. 		"runtimeStateDurationSeconds": s.RuntimeStateDurationSeconds,

  275. 		"state":                       s.State,

  276. 		"chunksProduced":              s.ChunksProduced,

  277. 		"totalSamples":                s.TotalSamples,

  278. 		"underruns":                   s.Underruns,

  279. 		"lateBuffers":                 s.LateBuffers,

  280. 		"lastError":                   s.LastError,

  281. 		"uptimeSeconds":               s.UptimeSeconds,

  282. 		"maxCycleMs":                  s.MaxCycleMs,

  283. 		"maxGenerateMs":               s.MaxGenerateMs,

  284. 		"maxUpsampleMs":               s.MaxUpsampleMs,

  285. 		"maxWriteMs":                  s.MaxWriteMs,

  286. 		"queue":                       s.Queue,

  287. 		"runtimeIndicator":            s.RuntimeIndicator,

  288. 		"runtimeAlert":                s.RuntimeAlert,

  289. 		"appliedFrequencyMHz":         s.AppliedFrequencyMHz,

  290. 		"degradedTransitions":         s.DegradedTransitions,

  291. 		"mutedTransitions":            s.MutedTransitions,

  292. 		"faultedTransitions":          s.FaultedTransitions,

  293. 		"faultCount":                  s.FaultCount,

  294. 		"faultHistory":                s.FaultHistory,

  295. 		"transitionHistory":           s.TransitionHistory,

  296. 		"lastFault":                   s.LastFault,

  297. 	}

  298. }

  299. func (b *txBridge) UpdateConfig(lp ctrlpkg.LivePatch) error {

  300. 	return b.engine.UpdateConfig(apppkg.LiveConfigUpdate{

  301. 		FrequencyMHz:   lp.FrequencyMHz,

  302. 		OutputDrive:    lp.OutputDrive,

  303. 		StereoEnabled:  lp.StereoEnabled,

  304. 		PilotLevel:     lp.PilotLevel,

  305. 		RDSInjection:   lp.RDSInjection,

  306. 		RDSEnabled:     lp.RDSEnabled,

  307. 		LimiterEnabled: lp.LimiterEnabled,

  308. 		LimiterCeiling: lp.LimiterCeiling,

  309. 		PS:             lp.PS,

  310. 		RadioText:      lp.RadioText,

  311. 	})

  312. }

  313. 

  314. func (b *txBridge) ResetFault() error {

  315. 	return b.engine.ResetFault()

  316. }