fix some typos (#136)

* removed one section that was duplicate in dptconvert.cpp

src/esp_platform.cpp

@@ -51,9 +51,9 @@ void EspPlatform::restart()
 
 void EspPlatform::setupMultiCast(uint32_t addr, uint16_t port)
 {
-    _mulitcastAddr = htonl(addr);
+    _multicastAddr = htonl(addr);
-    _mulitcastPort = port;
+    _multicastPort = port;
-    IPAddress mcastaddr(_mulitcastAddr);
+    IPAddress mcastaddr(_multicastAddr);
     
     Serial.printf("setup multicast addr: %s port: %d ip: %s\n", mcastaddr.toString().c_str(), port,
         WiFi.localIP().toString().c_str());
@@ -69,7 +69,7 @@ void EspPlatform::closeMultiCast()
 bool EspPlatform::sendBytesMultiCast(uint8_t * buffer, uint16_t len)
 {
     //printHex("<- ",buffer, len);
-    _udp.beginPacketMulticast(_mulitcastAddr, _mulitcastPort, WiFi.localIP());
+    _udp.beginPacketMulticast(_multicastAddr, _multicastPort, WiFi.localIP());
     _udp.write(buffer, len);
     _udp.endPacket();
     return true;

src/esp_platform.h

@@ -33,8 +33,8 @@ class EspPlatform : public ArduinoPlatform
     void commitToEeprom();
 private:
     WiFiUDP _udp;
-    uint32_t _mulitcastAddr;
+    uint32_t _multicastAddr;
-    uint16_t _mulitcastPort;
+    uint16_t _multicastPort;
 };
 
 #endif

src/knx/address_table_object.h

@@ -2,9 +2,9 @@
 
 #include "table_object.h"
 /**
- * This class represents the group address table. It provides a mapping between tranport layer 
+ * This class represents the group address table. It provides a mapping between transport layer 
  * service access points (TSAP) and group addresses. The TSAP can be imagined as an index to the array 
- * of group adresses.
+ * of group addresses.
  * 
  * See section 4.10 of @cite knx:3/5/1 for further details.
  * It implements realisation type 7 (see section 4.10.7 of @cite knx:3/5/1). 
@@ -13,9 +13,9 @@ class AddressTableObject : public TableObject
 {
   public:
     /**
-     * The contructor.
+     * The constructor.
      * 
-     * @param memory This parameter is only passed to the custructor of TableObject an not used by this class.
+     * @param memory This parameter is only passed to the constructor of TableObject and is not used by this class.
      */
     AddressTableObject(Memory& memory);
     const uint8_t* restore(const uint8_t* buffer) override;
@@ -35,7 +35,7 @@ class AddressTableObject : public TableObject
     /**
      * Get the TSAP mapped to a group address.
      * 
-     * @param groupAddress the group address of whicht to get the TSAP for.
+     * @param groupAddress the group address of which to get the TSAP for.
      * 
      * @return the TSAP if found or zero if no tsap was found.
      */

src/knx/application_layer.cpp

@@ -66,7 +66,7 @@ void ApplicationLayer::dataGroupIndication(HopCountType hopType, Priority priori
             case GroupValueWrite:
                 _bau.groupValueWriteIndication(asap, priority, hopType, secCtrl, data, len);
             default:
-                /* other apdutypes ar not valid here. If the appear do nothing */
+                /* other apdutypes are not valid here. If they appear do nothing */
                 break;
         }
     }
@@ -908,7 +908,7 @@ void ApplicationLayer::groupValueSend(ApduType type, AckType ack, uint16_t asap,
     uint8_t* apdudata = apdu.data();
     if (dataLength == 0)
     {
-        // data size is six bit or less. So store int first byte
+        // data size is six bit or less. So store in first byte
         *apdudata &= ~0x3f;
         *apdudata |= (*data & 0x3f);
     }
@@ -916,7 +916,7 @@ void ApplicationLayer::groupValueSend(ApduType type, AckType ack, uint16_t asap,
     {
         memcpy(apdudata + 1, data, dataLength);
     }
-    // no need to check if there is a tsap. This is a response, so the read got trough
+    // no need to check if there is a tsap. This is a response, so the read got through
     uint16_t tsap = (uint16_t)_assocTable->translateAsap(asap);
     dataGroupRequest(ack, hopType, priority, tsap, apdu, secCtrl);
     dataGroupIndication(hopType, priority, tsap, apdu, secCtrl);
@@ -1129,7 +1129,7 @@ void ApplicationLayer::individualIndication(HopCountType hopType, Priority prior
             _bau.keyWriteAppLayerConfirm(priority, hopType, tsap, secCtrl, data[1]);
             break;
         default:
-            print("Indiviual-indication: unhandled APDU-Type: ");
+            print("Individual-indication: unhandled APDU-Type: ");
             println(apdu.type());
     }
 }
@@ -1240,7 +1240,7 @@ void ApplicationLayer::individualConfirm(AckType ack, HopCountType hopType, Prio
             _bau.keyWriteResponseConfirm(ack, priority, hopType, tsap, secCtrl, data[1], status);
             break;
         default:
-            print("Indiviual-confirm: unhandled APDU-Type: ");
+            print("Individual-confirm: unhandled APDU-Type: ");
             println(apdu.type());
     }
 }

src/knx/application_layer.h

@@ -11,7 +11,7 @@ class TransportLayer;
  * This is an implementation of the application layer as specified in @cite knx:3/5/1.
  * It provides methods for the BusAccessUnit to do different things and translates this 
  * call to an APDU and calls the correct method of the TransportLayer. 
- * It also takes calls from TransportLayer, decodes the submitted APDU and calls the coresponding
+ * It also takes calls from TransportLayer, decodes the submitted APDU and calls the corresponding
  * methods of the BusAccessUnit class.
  */
 class ApplicationLayer
@@ -31,12 +31,12 @@ class ApplicationLayer
     void associationTableObject(AssociationTableObject& assocTable);
 
     // from transport layer
-    // Note: without data secure feature, the application layer is just used with SecurtyControl.dataSecurity = None
+    // Note: without data secure feature, the application layer is just used with SecurityControl.dataSecurity = None
     // hooks that can be implemented by derived class (e.g. SecureApplicationLayer)
 
 #pragma region Transport - Layer - Callbacks
     /**
-     * Somebody send us an APDU via multicast communiation. See 3.2 of @cite knx:3/3/4. 
+     * Somebody send us an APDU via multicast communication. See 3.2 of @cite knx:3/3/4. 
      * See also ApplicationLayer::dataGroupConfirm and TransportLayer::dataGroupRequest.
      * This method is called by the TransportLayer.
      * 
@@ -51,7 +51,7 @@ class ApplicationLayer
      */
     virtual void dataGroupIndication(HopCountType hopType, Priority priority, uint16_t tsap, APDU& apdu);
     /**
-     * Report the status of an APDU that we sent via multicast communiation back to us. See 3.2 of @cite knx:3/3/4. 
+     * Report the status of an APDU that we sent via multicast communication back to us. See 3.2 of @cite knx:3/3/4. 
      * See also ApplicationLayer::dataGroupConfirm and TransportLayer::dataGroupRequest. This method is called by 
      * the TransportLayer.
      * 

src/knx/bau_systemB.cpp

@@ -62,7 +62,7 @@ uint8_t BauSystemB::checkmasterResetValidity(EraseCode eraseCode, uint8_t channe
         case EraseCode::ResetIA:
         {
             // TODO: increase download counter except for confirmed restart (PID_DOWNLOAD_COUNTER)
-            println("ResetAP requested. Not implemented yet.");
+            println("ResetIA requested. Not implemented yet.");
             return successCode;
         }
         case EraseCode::ResetLinks:
@@ -515,7 +515,7 @@ void BauSystemB::nextRestartState()
             }
             break;
         case Restarted:
-            /* restart is finished, we send a discommect */
+            /* restart is finished, we send a disconnect */
             if (millis() - _restartDelay > 30)
             {
                 applicationLayer().disconnectRequest(SystemPriority);

src/knx/data_property.cpp

@@ -49,7 +49,7 @@ uint8_t DataProperty::write(uint16_t start, uint8_t count, const uint8_t* data)
     start -= 1;
     if (start + count > _currentElements)
     {
-        //reallocate memory for _data
+        // reallocate memory for _data
         uint8_t* oldData = _data;
         size_t oldDataSize = _currentElements * ElementSize();
 

src/knx/dptconvert.cpp

@@ -132,107 +132,6 @@ int KNX_Decode_Value(uint8_t* payload, size_t payload_length, const Dpt& datatyp
         // DPT 239.* - Flagged Scaling
         if (datatype.mainGroup == 239 && datatype.subGroup == 1 && datatype.index <= 1)
             return busValueToFlaggedScaling(payload, payload_length, datatype, value);
-        if (datatype.mainGroup == 4 && datatype.subGroup >= 1 && datatype.subGroup <= 2 && !datatype.index)
-            return busValueToCharacter(payload, payload_length, datatype, value);
-        // DPT 5.* - Unsigned 8 Bit Integer
-        if (datatype.mainGroup == 5 && ((datatype.subGroup >= 1 && datatype.subGroup <= 6 && datatype.subGroup != 2) || datatype.subGroup == 10) && !datatype.index)
-            return busValueToUnsigned8(payload, payload_length, datatype, value);
-        // DPT 6.001/6.010 - Signed 8 Bit Integer
-        if (datatype.mainGroup == 6 && (datatype.subGroup == 1 || datatype.subGroup == 10) && !datatype.index)
-            return busValueToSigned8(payload, payload_length, datatype, value);
-        // DPT 6.020 - Status with Mode
-        if (datatype.mainGroup == 6 && datatype.subGroup == 20 && datatype.index <= 5)
-            return busValueToStatusAndMode(payload, payload_length, datatype, value);
-        // DPT 7.001/7.010/7.011/7.012/7.013 - Unsigned 16 Bit Integer
-        if (datatype.mainGroup == 7 && (datatype.subGroup == 1 || (datatype.subGroup >= 10 && datatype.subGroup <= 13)) && !datatype.index)
-            return busValueToUnsigned16(payload, payload_length, datatype, value);
-        // DPT 7.002-DPT 7.007 - Time Period
-        if (datatype.mainGroup == 7 && datatype.subGroup >= 2 && datatype.subGroup <= 7 && !datatype.index)
-            return busValueToTimePeriod(payload, payload_length, datatype, value);
-        // DPT 8.001/8.010/8.011 - Signed 16 Bit Integer
-        if (datatype.mainGroup == 8 && (datatype.subGroup == 1 || datatype.subGroup == 10 || datatype.subGroup == 11) && !datatype.index)
-            return busValueToSigned16(payload, payload_length, datatype, value);
-        // DPT 8.002-DPT 8.007 - Time Delta
-        if (datatype.mainGroup == 8 && datatype.subGroup >= 2 && datatype.subGroup <= 7 && !datatype.index)
-            return busValueToTimeDelta(payload, payload_length, datatype, value);
-        // DPT 9.* - 16 Bit Float
-        if (datatype.mainGroup == 9 && ((datatype.subGroup >= 1 && datatype.subGroup <= 11 && datatype.subGroup != 9) || (datatype.subGroup >= 20 && datatype.subGroup <= 28)) && !datatype.index)
-            return busValueToFloat16(payload, payload_length, datatype, value);
-        // DPT 10.* - Time and Weekday
-        if (datatype.mainGroup == 10 && datatype.subGroup == 1 && datatype.index <= 1)
-            return busValueToTime(payload, payload_length, datatype, value);
-        // DPT 11.* - Date
-        if (datatype.mainGroup == 11 && datatype.subGroup == 1 && !datatype.index)
-            return busValueToDate(payload, payload_length, datatype, value);
-        // DPT 12.* - Unsigned 32 Bit Integer
-        if (datatype.mainGroup == 12 && datatype.subGroup == 1 && !datatype.index)
-            return busValueToUnsigned32(payload, payload_length, datatype, value);
-        // DPT 13.001/13.002/13.010-13.015 - Signed 32 Bit Integer
-        if (datatype.mainGroup == 13 && (datatype.subGroup == 1 || datatype.subGroup == 2 || (datatype.subGroup >= 10 && datatype.subGroup <= 15)) && !datatype.index)
-            return busValueToSigned32(payload, payload_length, datatype, value);
-        // DPT 13.100 - Long Time Period
-        if (datatype.mainGroup == 13 && datatype.subGroup == 100 && !datatype.index)
-            return busValueToLongTimePeriod(payload, payload_length, datatype, value);
-        // DPT 14.* - 32 Bit Float
-        if (datatype.mainGroup == 14 && datatype.subGroup <= 79 && !datatype.index)
-            return busValueToFloat32(payload, payload_length, datatype, value);
-        // DPT 15.* - Access Data
-        if (datatype.mainGroup == 15 && !datatype.subGroup && datatype.index <= 5)
-            return busValueToAccess(payload, payload_length, datatype, value);
-        // DPT 16.* - String
-        if (datatype.mainGroup == 16 && datatype.subGroup <= 1 && !datatype.index)
-            return busValueToString(payload, payload_length, datatype, value);
-        // DPT 17.* - Scene Number
-        if (datatype.mainGroup == 17 && datatype.subGroup == 1 && !datatype.index)
-            return busValueToScene(payload, payload_length, datatype, value);
-        // DPT 18.* - Scene Control
-        if (datatype.mainGroup == 18 && datatype.subGroup == 1 && datatype.index <= 1)
-            return busValueToSceneControl(payload, payload_length, datatype, value);
-        // DPT 19.* - Date and Time
-        if (datatype.mainGroup == 19 && datatype.subGroup == 1 && (datatype.index <= 3 || datatype.index == 9 || datatype.index == 10))
-            return busValueToDateTime(payload, payload_length, datatype, value);
-        // DPT 26.* - Scene Info
-        if (datatype.mainGroup == 26 && datatype.subGroup == 1 && datatype.index <= 1)
-            return busValueToSceneInfo(payload, payload_length, datatype, value);
-        // DPT 28.* - Unicode String
-        if (datatype.mainGroup == 28 && datatype.subGroup == 1 && !datatype.index)
-            return busValueToUnicode(payload, payload_length, datatype, value);
-        // DPT 29.* - Signed 64 Bit Integer
-        if (datatype.mainGroup == 29 && datatype.subGroup >= 10 && datatype.subGroup <= 12 && !datatype.index)
-            return busValueToSigned64(payload, payload_length, datatype, value);
-        // DPT 219.* - Alarm Info
-        if (datatype.mainGroup == 219 && datatype.subGroup == 1 && datatype.index <= 10)
-            return busValueToAlarmInfo(payload, payload_length, datatype, value);
-        // DPT 221.* - Serial Number
-        if (datatype.mainGroup == 221 && datatype.subGroup == 1 && datatype.index <= 1)
-            return busValueToSerialNumber(payload, payload_length, datatype, value);
-        // DPT 217.* - Version
-        if (datatype.mainGroup == 217 && datatype.subGroup == 1 && datatype.index <= 2)
-            return busValueToVersion(payload, payload_length, datatype, value);
-        // DPT 225.001/225.002 - Scaling Speed and Scaling Step Time
-        if (datatype.mainGroup == 225 && datatype.subGroup >= 1 && datatype.subGroup <= 2 && datatype.index <= 1)
-            return busValueToScaling(payload, payload_length, datatype, value);
-        // DPT 225.003 - Next Tariff
-        if (datatype.mainGroup == 225 && datatype.subGroup == 3 && datatype.index <= 1)
-            return busValueToTariff(payload, payload_length, datatype, value);
-        // DPT 231.* - Locale
-        if (datatype.mainGroup == 231 && datatype.subGroup == 1 && datatype.index <= 1)
-            return busValueToLocale(payload, payload_length, datatype, value);
-        // DPT 232.600 - RGB
-        if (datatype.mainGroup == 232 && datatype.subGroup == 600 && !datatype.index)
-            return busValueToRGB(payload, payload_length, datatype, value);
-        // DPT 234.* - Language and Region
-        if (datatype.mainGroup == 234 && datatype.subGroup >= 1 && datatype.subGroup <= 2 && !datatype.index)
-            return busValueToLocale(payload, payload_length, datatype, value);
-        // DPT 235.* - Active Energy
-        if (datatype.mainGroup == 235 && datatype.subGroup == 1 && datatype.index <= 3)
-            return busValueToActiveEnergy(payload, payload_length, datatype, value);
-        // DPT 238.* - Scene Config
-        if (datatype.mainGroup == 238 && datatype.subGroup == 1 && datatype.index <= 2)
-            return busValueToSceneConfig(payload, payload_length, datatype, value);
-        // DPT 239.* - Flagged Scaling
-        if (datatype.mainGroup == 239 && datatype.subGroup == 1 && datatype.index <= 1)
-            return busValueToFlaggedScaling(payload, payload_length, datatype, value);
     }
     return false;
 }

src/knx/ip_parameter_object.cpp

@@ -6,7 +6,7 @@
 #include "data_property.h"
 #include "callback_property.h"
 
-//224.0.23.12
+// 224.0.23.12
 #define DEFAULT_MULTICAST_ADDR ((uint32_t)0xE000170C)
 
 IpParameterObject::IpParameterObject(DeviceObject& deviceObject, Platform& platform): _deviceObject(deviceObject),

src/knx/knx_ip_device_information_dib.cpp

@@ -35,7 +35,7 @@ uint16_t KnxIpDeviceInformationDIB::individualAddress() const
 }
 
 
-void KnxIpDeviceInformationDIB::indiviudalAddress(uint16_t value)
+void KnxIpDeviceInformationDIB::individualAddress(uint16_t value)
 {
     pushWord(value, _data + 4);
 }
@@ -65,7 +65,7 @@ void KnxIpDeviceInformationDIB::serialNumber(const uint8_t* value)
 }
 
 
-uint32_t KnxIpDeviceInformationDIB::routingMulicastAddress() const
+uint32_t KnxIpDeviceInformationDIB::routingMulticastAddress() const
 {
     return getInt(_data + 14);
 }

src/knx/knx_ip_device_information_dib.h

@@ -16,12 +16,12 @@ class KnxIpDeviceInformationDIB : public KnxIpDIB
     uint8_t status() const;
     void status(uint8_t value);
     uint16_t individualAddress() const;
-    void indiviudalAddress(uint16_t value);
+    void individualAddress(uint16_t value);
     uint16_t projectInstallationIdentifier() const;
     void projectInstallationIdentifier(uint16_t value);
     const uint8_t* serialNumber() const;
     void serialNumber(const uint8_t* value);
-    uint32_t routingMulicastAddress() const;
+    uint32_t routingMulticastAddress() const;
     void routingMulticastAddress(uint32_t value);
     const uint8_t* macAddress() const;
     void macAddress(const uint8_t* value);

src/knx/knx_ip_search_response.cpp

@@ -19,7 +19,7 @@ KnxIpSearchResponse::KnxIpSearchResponse(IpParameterObject& parameters, DeviceOb
     _deviceInfo.code(DEVICE_INFO);
     _deviceInfo.medium(0x20); //KNX-IP FIXME get this value from somewhere else
     _deviceInfo.status(deviceObject.progMode());
-    _deviceInfo.indiviudalAddress(parameters.propertyValue<uint16_t>(PID_KNX_INDIVIDUAL_ADDRESS));
+    _deviceInfo.individualAddress(parameters.propertyValue<uint16_t>(PID_KNX_INDIVIDUAL_ADDRESS));
     _deviceInfo.projectInstallationIdentifier(parameters.propertyValue<uint16_t>(PID_PROJECT_INSTALLATION_ID));
     _deviceInfo.serialNumber(deviceObject.propertyData(PID_SERIAL_NUMBER));
     _deviceInfo.routingMulticastAddress(parameters.propertyValue<uint32_t>(PID_ROUTING_MULTICAST_ADDRESS));

src/knx/memory.h

@@ -10,7 +10,7 @@
 #define MAXTABLEOBJ 4
 
 #ifndef KNX_FLASH_SIZE
-# define KNX_FLASH_SIZE 1024
+#define KNX_FLASH_SIZE 1024
 #endif
 
 class MemoryBlock

src/knx/rf_medium_object.cpp

@@ -31,7 +31,7 @@ RfMediumObject::RfMediumObject()
                 resultData[2] = 0xFF; // permanent bidirectional device
                 resultLength = 3;
             }), 
-/*      This properties are used in NMP_LinkBudget_Measure to diagnose the Link Budget of the communication.
+/*      These properties are used in NMP_LinkBudget_Measure to diagnose the Link Budget of the communication.
         This in not implemented yet.
         new DataProperty(PID_RF_DIAG_SA_FILTER_TABLE, true, PDT_GENERIC_03, 8, ReadLv3 | WriteLv3),
         new DataProperty(PID_RF_DIAG_BUDGET_TABLE, false, PDT_GENERIC_03, 8, ReadLv3 | WriteLv0),

src/knx/rf_physical_layer_cc1101.h

@@ -21,19 +21,19 @@ extern void delayMicroseconds (unsigned int howLong);
 
 /*----------------------[CC1101 - misc]---------------------------------------*/
 #define CRYSTAL_FREQUENCY         26000000
-#define CFG_REGISTER              0x2F  //47 registers
+#define CFG_REGISTER              0x2F  // 47 registers
-#define FIFOBUFFER                0x42  //size of Fifo Buffer +2 for rssi and lqi
+#define FIFOBUFFER                0x42  // size of Fifo Buffer +2 for rssi and lqi
-#define RSSI_OFFSET_868MHZ        0x4E  //dec = 74
+#define RSSI_OFFSET_868MHZ        0x4E  // dec = 74
-#define TX_RETRIES_MAX            0x05  //tx_retries_max
+#define TX_RETRIES_MAX            0x05  // tx_retries_max
-#define ACK_TIMEOUT               250   //ACK timeout in ms
+#define ACK_TIMEOUT               250   // ACK timeout in ms
-#define CC1101_COMPARE_REGISTER   0x00  //register compare 0=no compare 1=compare
+#define CC1101_COMPARE_REGISTER   0x00  // register compare 0=no compare 1=compare
-#define BROADCAST_ADDRESS         0x00  //broadcast address
+#define BROADCAST_ADDRESS         0x00  // broadcast address
 #define CC1101_FREQ_315MHZ        0x01
 #define CC1101_FREQ_434MHZ        0x02
 #define CC1101_FREQ_868MHZ        0x03
 #define CC1101_FREQ_915MHZ        0x04
-#define CC1101_TEMP_ADC_MV        3.225 //3.3V/1023 . mV pro digit
+#define CC1101_TEMP_ADC_MV        3.225 // 3.3V/1023 . mV pro digit
-#define CC1101_TEMP_CELS_CO       2.47  //Temperature coefficient 2.47mV per Grad Celsius
+#define CC1101_TEMP_CELS_CO       2.47  // Temperature coefficient 2.47mV per Grad Celsius
 
 /*---------------------------[CC1101 - R/W offsets]---------------------------*/
 #define WRITE_SINGLE_BYTE   0x00
@@ -43,12 +43,12 @@ extern void delayMicroseconds (unsigned int howLong);
 /*---------------------------[END R/W offsets]--------------------------------*/
 
 /*------------------------[CC1101 - FIFO commands]----------------------------*/
-#define TXFIFO_BURST        0x7F    //write burst only
+#define TXFIFO_BURST        0x7F    // write burst only
-#define TXFIFO_SINGLE_BYTE  0x3F    //write single only
+#define TXFIFO_SINGLE_BYTE  0x3F    // write single only
-#define RXFIFO_BURST        0xFF    //read burst only
+#define RXFIFO_BURST        0xFF    // read burst only
-#define RXFIFO_SINGLE_BYTE  0xBF    //read single only
+#define RXFIFO_SINGLE_BYTE  0xBF    // read single only
-#define PATABLE_BURST       0x7E    //power control read/write
+#define PATABLE_BURST       0x7E    // power control read/write
-#define PATABLE_SINGLE_BYTE 0xFE    //power control read/write
+#define PATABLE_SINGLE_BYTE 0xFE    // power control read/write
 /*---------------------------[END FIFO commands]------------------------------*/
 
 /*----------------------[CC1101 - config register]----------------------------*/

src/knx/rf_physical_layer_cc1310.cpp

@@ -132,8 +132,8 @@ void RfPhysicalLayerCC1310::setOutputPowerLevel(int8_t dBm)
         rfPowerTableSize = PROP_RF_txPowerTableSize;
     }
 
-    //if max power is requested then the CCFG_FORCE_VDDR_HH must be set in
+    // if max power is requested then the CCFG_FORCE_VDDR_HH must be set in
-    //the ccfg
+    // the ccfg
 #if (CCFG_FORCE_VDDR_HH != 0x1)
     if((newValue.paType == RF_TxPowerTable_DefaultPA) &&
        (dBm == rfPowerTable[rfPowerTableSize-2].power))