package main import ( "log" "os" "os/signal" "syscall" "time" argonFan "git.sungo.io/sungo/argon/fan" "git.kemonine.info/PiFrame/config" "git.kemonine.info/PiFrame/utils" ) const ( BUS = 1 ADDRESS = 0x1a ) func main() { // Load the config file pfConfig, _ := config.LoadConfig() log.Print("========================================") pfConfig.Print() log.Print("========================================") log.Print(pfConfig.Keys()) log.Print("========================================") // Get the various fan related config options as local variables speedMap := pfConfig.Float64Map(config.CONFIG_KEY_FAN_SPEEDS) POLL_INTERVAL := pfConfig.String(config.CONFIG_KEY_FAN_POLL_INTERVAL) SPEED_FULL_TEMP := pfConfig.Float64(config.CONFIG_KEY_FAN_SPEEDS + "." + config.CONFIG_MAP_KEY_FAN_SPEED_100) SPEED_SEVENTY_FIVE_PERCENT_TEMP := pfConfig.Float64(config.CONFIG_KEY_FAN_SPEEDS + "." + config.CONFIG_MAP_KEY_FAN_SPEED_75) SPEED_FIFTY_PERCENT_TEMP := pfConfig.Float64(config.CONFIG_KEY_FAN_SPEEDS + "." + config.CONFIG_MAP_KEY_FAN_SPEED_50) SPEED_TWENTY_FIVE_PERCENT_TEMP := pfConfig.Float64(config.CONFIG_KEY_FAN_SPEEDS + "." + config.CONFIG_MAP_KEY_FAN_SPEED_25) SPEED_MINIMUM := pfConfig.Int(config.CONFIG_KEY_FAN_MIN_SPEED) log.Print(speedMap) log.Print(POLL_INTERVAL) log.Print(SPEED_FULL_TEMP) log.Print(SPEED_SEVENTY_FIVE_PERCENT_TEMP) log.Print(SPEED_FIFTY_PERCENT_TEMP) log.Print(SPEED_TWENTY_FIVE_PERCENT_TEMP) log.Print(SPEED_MINIMUM) // Setup fan and bail if we can't see it fan, err := argonFan.New(ADDRESS, BUS) if err != nil { log.Fatalf("Error working with fan : %s", err) } // Safe exit defer fan.SafeClose() sigc := make(chan os.Signal, 1) signal.Notify( sigc, syscall.SIGHUP, syscall.SIGINT, syscall.SIGTERM, syscall.SIGQUIT, ) go func() { <-sigc fan.SafeClose() os.Exit(1) }() // Control fan speed based on temps via a ticker / timeout pollInterval, err := time.ParseDuration(POLL_INTERVAL) if err != nil { log.Fatalf("Error parsing interval duration : %s", err) } ticker := time.NewTicker(pollInterval) for range ticker.C { cpuTemp := utils.GetCPUTemp() gpuTemp := utils.GetGPUTemp() if cpuTemp >= SPEED_FULL_TEMP || gpuTemp >= SPEED_FULL_TEMP { if SPEED_MINIMUM > 100 { log.Print("MIN speed in 100") fan.SetSpeed(SPEED_MINIMUM) } else { log.Print("Speed 100%") fan.SetSpeed(100) } continue } if cpuTemp >= SPEED_SEVENTY_FIVE_PERCENT_TEMP || gpuTemp >= SPEED_SEVENTY_FIVE_PERCENT_TEMP { if SPEED_MINIMUM > 75 { log.Print("MIN speed in 75") fan.SetSpeed(SPEED_MINIMUM) } else { log.Print("Speed 75%") fan.SetSpeed(75) } continue } if cpuTemp >= SPEED_FIFTY_PERCENT_TEMP || gpuTemp >= SPEED_FIFTY_PERCENT_TEMP { if SPEED_MINIMUM > 50 { log.Print("MIN speed in 50") fan.SetSpeed(SPEED_MINIMUM) } else { log.Print("Speed 50%") fan.SetSpeed(50) } continue } if cpuTemp >= SPEED_TWENTY_FIVE_PERCENT_TEMP || gpuTemp >= SPEED_TWENTY_FIVE_PERCENT_TEMP { if SPEED_MINIMUM > 25 { log.Print("MIN speed in 25") fan.SetSpeed(SPEED_MINIMUM) } else { log.Print("Speed 25%") fan.SetSpeed(25) } continue } if cpuTemp < SPEED_TWENTY_FIVE_PERCENT_TEMP || gpuTemp < SPEED_TWENTY_FIVE_PERCENT_TEMP { log.Print("MIN SPEED") fan.SetSpeed(SPEED_MINIMUM) continue } // We should never get here but... // Maxing fan to be on the safe side log.Print("This should never happen") fan.SetSpeed(100) } }