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authorkrolyxon <me@krolyxon.com>2026-05-14 23:19:41 +0530
committerkrolyxon <me@krolyxon.com>2026-05-14 23:19:41 +0530
commit58c9c8f51dcec555250195d127a49572c1b9fd9a (patch)
treebbf6f4003fbb36882ee81ed511eec66fd15e735f /src/libs
parent206ed229198be252a9ae94342b39618aaab55925 (diff)
add .clang-format, and apply formatting
Diffstat (limited to 'src/libs')
-rw-r--r--src/libs/Adafruit_PN532.cpp1934
-rw-r--r--src/libs/Adafruit_PN532.h168
-rw-r--r--src/libs/BleConnectionStatus.cpp23
-rw-r--r--src/libs/BleConnectionStatus.h17
-rw-r--r--src/libs/BleMouse.cpp250
-rw-r--r--src/libs/BleMouse.h61
-rw-r--r--src/libs/ELECHOUSE_CC1101_SRC_DRV.cpp2619
-rw-r--r--src/libs/ELECHOUSE_CC1101_SRC_DRV.h345
8 files changed, 2805 insertions, 2612 deletions
diff --git a/src/libs/Adafruit_PN532.cpp b/src/libs/Adafruit_PN532.cpp
index 4665656..0a547b7 100644
--- a/src/libs/Adafruit_PN532.cpp
+++ b/src/libs/Adafruit_PN532.cpp
@@ -91,9 +91,9 @@ byte pn532_packetbuffer[PN532_PACKBUFFSIZ]; ///< Packet buffer used in various
/**************************************************************************/
Adafruit_PN532::Adafruit_PN532(uint8_t clk, uint8_t miso, uint8_t mosi,
uint8_t ss) {
- _cs = ss;
- spi_dev = new Adafruit_SPIDevice(ss, clk, miso, mosi, 1000000,
- SPI_BITORDER_LSBFIRST, SPI_MODE0);
+ _cs = ss;
+ spi_dev = new Adafruit_SPIDevice(ss, clk, miso, mosi, 1000000,
+ SPI_BITORDER_LSBFIRST, SPI_MODE0);
}
/**************************************************************************/
@@ -107,9 +107,9 @@ Adafruit_PN532::Adafruit_PN532(uint8_t clk, uint8_t miso, uint8_t mosi,
/**************************************************************************/
Adafruit_PN532::Adafruit_PN532(uint8_t irq, uint8_t reset, TwoWire *theWire)
: _irq(irq), _reset(reset) {
- pinMode(_irq, INPUT);
- pinMode(_reset, OUTPUT);
- i2c_dev = new Adafruit_I2CDevice(PN532_I2C_ADDRESS, theWire);
+ pinMode(_irq, INPUT);
+ pinMode(_reset, OUTPUT);
+ i2c_dev = new Adafruit_I2CDevice(PN532_I2C_ADDRESS, theWire);
}
/**************************************************************************/
@@ -121,9 +121,9 @@ Adafruit_PN532::Adafruit_PN532(uint8_t irq, uint8_t reset, TwoWire *theWire)
*/
/**************************************************************************/
Adafruit_PN532::Adafruit_PN532(uint8_t ss, SPIClass *theSPI) {
- _cs = ss;
- spi_dev = new Adafruit_SPIDevice(ss, 1000000, SPI_BITORDER_LSBFIRST,
- SPI_MODE0, theSPI);
+ _cs = ss;
+ spi_dev = new Adafruit_SPIDevice(ss, 1000000, SPI_BITORDER_LSBFIRST,
+ SPI_MODE0, theSPI);
}
/**************************************************************************/
@@ -136,8 +136,8 @@ Adafruit_PN532::Adafruit_PN532(uint8_t ss, SPIClass *theSPI) {
/**************************************************************************/
Adafruit_PN532::Adafruit_PN532(uint8_t reset, HardwareSerial *theSer)
: _reset(reset) {
- pinMode(_reset, OUTPUT);
- ser_dev = theSer;
+ pinMode(_reset, OUTPUT);
+ ser_dev = theSer;
}
/**************************************************************************/
@@ -148,30 +148,30 @@ Adafruit_PN532::Adafruit_PN532(uint8_t reset, HardwareSerial *theSer)
*/
/**************************************************************************/
bool Adafruit_PN532::begin() {
- if (spi_dev) {
- // SPI initialization
- if (!spi_dev->begin()) {
- return false;
- }
- } else if (i2c_dev) {
- // I2C initialization
- // PN532 will fail address check since its asleep, so suppress
- if (!i2c_dev->begin(false)) {
- return false;
+ if (spi_dev) {
+ // SPI initialization
+ if (!spi_dev->begin()) {
+ return false;
+ }
+ } else if (i2c_dev) {
+ // I2C initialization
+ // PN532 will fail address check since its asleep, so suppress
+ if (!i2c_dev->begin(false)) {
+ return false;
+ }
+ } else if (ser_dev) {
+ ser_dev->begin(115200);
+ // clear out anything in read buffer
+ while (ser_dev->available())
+ ser_dev->read();
+ } else {
+ // no interface specified
+ return false;
}
- } else if (ser_dev) {
- ser_dev->begin(115200);
- // clear out anything in read buffer
- while (ser_dev->available())
- ser_dev->read();
- } else {
- // no interface specified
- return false;
- }
- reset(); // HW reset - put in known state
- delay(10);
- wakeup(); // hey! wakeup!
- return true;
+ reset(); // HW reset - put in known state
+ delay(10);
+ wakeup(); // hey! wakeup!
+ return true;
}
/**************************************************************************/
@@ -180,13 +180,13 @@ bool Adafruit_PN532::begin() {
*/
/**************************************************************************/
void Adafruit_PN532::reset(void) {
- // see Datasheet p.209, Fig.48 for timings
- if (_reset != -1) {
- digitalWrite(_reset, LOW);
- delay(1); // min 20ns
- digitalWrite(_reset, HIGH);
- delay(2); // max 2ms
- }
+ // see Datasheet p.209, Fig.48 for timings
+ if (_reset != -1) {
+ digitalWrite(_reset, LOW);
+ delay(1); // min 20ns
+ digitalWrite(_reset, HIGH);
+ delay(2); // max 2ms
+ }
}
/**************************************************************************/
@@ -195,21 +195,21 @@ void Adafruit_PN532::reset(void) {
*/
/**************************************************************************/
void Adafruit_PN532::wakeup(void) {
- // interface specific wakeups - each one is unique!
- if (spi_dev) {
- // hold CS low for 2ms
- digitalWrite(_cs, LOW);
- delay(2);
- } else if (ser_dev) {
- uint8_t w[3] = {0x55, 0x00, 0x00};
- ser_dev->write(w, 3);
- delay(2);
- }
-
- // PN532 will clock stretch I2C during SAMConfig as a "wakeup"
-
- // need to config SAM to stay in Normal Mode
- SAMConfig();
+ // interface specific wakeups - each one is unique!
+ if (spi_dev) {
+ // hold CS low for 2ms
+ digitalWrite(_cs, LOW);
+ delay(2);
+ } else if (ser_dev) {
+ uint8_t w[3] = {0x55, 0x00, 0x00};
+ ser_dev->write(w, 3);
+ delay(2);
+ }
+
+ // PN532 will clock stretch I2C during SAMConfig as a "wakeup"
+
+ // need to config SAM to stay in Normal Mode
+ SAMConfig();
}
/**************************************************************************/
@@ -221,18 +221,18 @@ void Adafruit_PN532::wakeup(void) {
*/
/**************************************************************************/
void Adafruit_PN532::PrintHex(const byte *data, const uint32_t numBytes) {
- uint32_t szPos;
- for (szPos = 0; szPos < numBytes; szPos++) {
- PN532DEBUGPRINT.print(F("0x"));
- // Append leading 0 for small values
- if (data[szPos] <= 0xF)
- PN532DEBUGPRINT.print(F("0"));
- PN532DEBUGPRINT.print(data[szPos] & 0xff, HEX);
- if ((numBytes > 1) && (szPos != numBytes - 1)) {
- PN532DEBUGPRINT.print(F(" "));
+ uint32_t szPos;
+ for (szPos = 0; szPos < numBytes; szPos++) {
+ PN532DEBUGPRINT.print(F("0x"));
+ // Append leading 0 for small values
+ if (data[szPos] <= 0xF)
+ PN532DEBUGPRINT.print(F("0"));
+ PN532DEBUGPRINT.print(data[szPos] & 0xff, HEX);
+ if ((numBytes > 1) && (szPos != numBytes - 1)) {
+ PN532DEBUGPRINT.print(F(" "));
+ }
}
- }
- PN532DEBUGPRINT.println();
+ PN532DEBUGPRINT.println();
}
/**************************************************************************/
@@ -247,24 +247,24 @@ void Adafruit_PN532::PrintHex(const byte *data, const uint32_t numBytes) {
*/
/**************************************************************************/
void Adafruit_PN532::PrintHexChar(const byte *data, const uint32_t numBytes) {
- uint32_t szPos;
- for (szPos = 0; szPos < numBytes; szPos++) {
- // Append leading 0 for small values
- if (data[szPos] <= 0xF)
- PN532DEBUGPRINT.print(F("0"));
- PN532DEBUGPRINT.print(data[szPos], HEX);
- if ((numBytes > 1) && (szPos != numBytes - 1)) {
- PN532DEBUGPRINT.print(F(" "));
+ uint32_t szPos;
+ for (szPos = 0; szPos < numBytes; szPos++) {
+ // Append leading 0 for small values
+ if (data[szPos] <= 0xF)
+ PN532DEBUGPRINT.print(F("0"));
+ PN532DEBUGPRINT.print(data[szPos], HEX);
+ if ((numBytes > 1) && (szPos != numBytes - 1)) {
+ PN532DEBUGPRINT.print(F(" "));
+ }
}
- }
- PN532DEBUGPRINT.print(F(" "));
- for (szPos = 0; szPos < numBytes; szPos++) {
- if (data[szPos] <= 0x1F)
- PN532DEBUGPRINT.print(F("."));
- else
- PN532DEBUGPRINT.print((char)data[szPos]);
- }
- PN532DEBUGPRINT.println();
+ PN532DEBUGPRINT.print(F(" "));
+ for (szPos = 0; szPos < numBytes; szPos++) {
+ if (data[szPos] <= 0x1F)
+ PN532DEBUGPRINT.print(F("."));
+ else
+ PN532DEBUGPRINT.print((char)data[szPos]);
+ }
+ PN532DEBUGPRINT.println();
}
/**************************************************************************/
@@ -275,36 +275,36 @@ void Adafruit_PN532::PrintHexChar(const byte *data, const uint32_t numBytes) {
*/
/**************************************************************************/
uint32_t Adafruit_PN532::getFirmwareVersion(void) {
- uint32_t response;
+ uint32_t response;
- pn532_packetbuffer[0] = PN532_COMMAND_GETFIRMWAREVERSION;
+ pn532_packetbuffer[0] = PN532_COMMAND_GETFIRMWAREVERSION;
- if (!sendCommandCheckAck(pn532_packetbuffer, 1)) {
- return 0;
- }
+ if (!sendCommandCheckAck(pn532_packetbuffer, 1)) {
+ return 0;
+ }
- // read data packet
- readdata(pn532_packetbuffer, 13);
+ // read data packet
+ readdata(pn532_packetbuffer, 13);
- // check some basic stuff
- if (0 != memcmp((char *)pn532_packetbuffer,
- (char *)pn532response_firmwarevers, 6)) {
+ // check some basic stuff
+ if (0 != memcmp((char *)pn532_packetbuffer,
+ (char *)pn532response_firmwarevers, 6)) {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.println(F("Firmware doesn't match!"));
+ PN532DEBUGPRINT.println(F("Firmware doesn't match!"));
#endif
- return 0;
- }
-
- int offset = 7;
- response = pn532_packetbuffer[offset++];
- response <<= 8;
- response |= pn532_packetbuffer[offset++];
- response <<= 8;
- response |= pn532_packetbuffer[offset++];
- response <<= 8;
- response |= pn532_packetbuffer[offset++];
-
- return response;
+ return 0;
+ }
+
+ int offset = 7;
+ response = pn532_packetbuffer[offset++];
+ response <<= 8;
+ response |= pn532_packetbuffer[offset++];
+ response <<= 8;
+ response |= pn532_packetbuffer[offset++];
+ response <<= 8;
+ response |= pn532_packetbuffer[offset++];
+
+ return response;
}
/**************************************************************************/
@@ -323,46 +323,46 @@ uint32_t Adafruit_PN532::getFirmwareVersion(void) {
bool Adafruit_PN532::sendCommandCheckAck(uint8_t *cmd, uint8_t cmdlen,
uint16_t timeout) {
- // I2C works without using IRQ pin by polling for RDY byte
- // seems to work best with some delays between transactions
- uint8_t SLOWDOWN = 0;
- if (i2c_dev || spi_dev) // SPI and I2C need 1ms slow for page reads
- SLOWDOWN = 1;
+ // I2C works without using IRQ pin by polling for RDY byte
+ // seems to work best with some delays between transactions
+ uint8_t SLOWDOWN = 0;
+ if (i2c_dev || spi_dev) // SPI and I2C need 1ms slow for page reads
+ SLOWDOWN = 1;
- // write the command
- writecommand(cmd, cmdlen);
+ // write the command
+ writecommand(cmd, cmdlen);
- // I2C TUNING
- delay(SLOWDOWN);
+ // I2C TUNING
+ delay(SLOWDOWN);
- // Wait for chip to say its ready!
- if (!waitready(timeout)) {
- return false;
- }
+ // Wait for chip to say its ready!
+ if (!waitready(timeout)) {
+ return false;
+ }
#ifdef PN532DEBUG
- if (spi_dev == NULL) {
- PN532DEBUGPRINT.println(F("IRQ received"));
- }
+ if (spi_dev == NULL) {
+ PN532DEBUGPRINT.println(F("IRQ received"));
+ }
#endif
- // read acknowledgement
- if (!readack()) {
+ // read acknowledgement
+ if (!readack()) {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.println(F("No ACK frame received!"));
+ PN532DEBUGPRINT.println(F("No ACK frame received!"));
#endif
- return false;
- }
+ return false;
+ }
- // I2C TUNING
- delay(SLOWDOWN);
+ // I2C TUNING
+ delay(SLOWDOWN);
- // Wait for chip to say its ready!
- if (!waitready(timeout)) {
- return false;
- }
+ // Wait for chip to say its ready!
+ if (!waitready(timeout)) {
+ return false;
+ }
- return true; // ack'd command
+ return true; // ack'd command
}
/**************************************************************************/
@@ -389,37 +389,37 @@ bool Adafruit_PN532::sendCommandCheckAck(uint8_t *cmd, uint8_t cmdlen,
*/
/**************************************************************************/
bool Adafruit_PN532::writeGPIO(uint8_t pinstate) {
- // uint8_t errorbit;
+ // uint8_t errorbit;
- // Make sure pinstate does not try to toggle P32 or P34
- pinstate |= (1 << PN532_GPIO_P32) | (1 << PN532_GPIO_P34);
+ // Make sure pinstate does not try to toggle P32 or P34
+ pinstate |= (1 << PN532_GPIO_P32) | (1 << PN532_GPIO_P34);
- // Fill command buffer
- pn532_packetbuffer[0] = PN532_COMMAND_WRITEGPIO;
- pn532_packetbuffer[1] = PN532_GPIO_VALIDATIONBIT | pinstate; // P3 Pins
- pn532_packetbuffer[2] = 0x00; // P7 GPIO Pins (not used ... taken by SPI)
+ // Fill command buffer
+ pn532_packetbuffer[0] = PN532_COMMAND_WRITEGPIO;
+ pn532_packetbuffer[1] = PN532_GPIO_VALIDATIONBIT | pinstate; // P3 Pins
+ pn532_packetbuffer[2] = 0x00; // P7 GPIO Pins (not used ... taken by SPI)
#ifdef PN532DEBUG
- PN532DEBUGPRINT.print(F("Writing P3 GPIO: "));
- PN532DEBUGPRINT.println(pn532_packetbuffer[1], HEX);
+ PN532DEBUGPRINT.print(F("Writing P3 GPIO: "));
+ PN532DEBUGPRINT.println(pn532_packetbuffer[1], HEX);
#endif
- // Send the WRITEGPIO command (0x0E)
- if (!sendCommandCheckAck(pn532_packetbuffer, 3))
- return 0x0;
+ // Send the WRITEGPIO command (0x0E)
+ if (!sendCommandCheckAck(pn532_packetbuffer, 3))
+ return 0x0;
- // Read response packet (00 FF PLEN PLENCHECKSUM D5 CMD+1(0x0F) DATACHECKSUM
- // 00)
- readdata(pn532_packetbuffer, 8);
+ // Read response packet (00 FF PLEN PLENCHECKSUM D5 CMD+1(0x0F) DATACHECKSUM
+ // 00)
+ readdata(pn532_packetbuffer, 8);
#ifdef PN532DEBUG
- PN532DEBUGPRINT.print(F("Received: "));
- PrintHex(pn532_packetbuffer, 8);
- PN532DEBUGPRINT.println();
+ PN532DEBUGPRINT.print(F("Received: "));
+ PrintHex(pn532_packetbuffer, 8);
+ PN532DEBUGPRINT.println();
#endif
- int offset = 6;
- return (pn532_packetbuffer[offset] == 0x0F);
+ int offset = 6;
+ return (pn532_packetbuffer[offset] == 0x0F);
}
/**************************************************************************/
@@ -437,53 +437,52 @@ bool Adafruit_PN532::writeGPIO(uint8_t pinstate) {
*/
/**************************************************************************/
uint8_t Adafruit_PN532::readGPIO(void) {
- pn532_packetbuffer[0] = PN532_COMMAND_READGPIO;
+ pn532_packetbuffer[0] = PN532_COMMAND_READGPIO;
- // Send the READGPIO command (0x0C)
- if (!sendCommandCheckAck(pn532_packetbuffer, 1))
- return 0x0;
+ // Send the READGPIO command (0x0C)
+ if (!sendCommandCheckAck(pn532_packetbuffer, 1))
+ return 0x0;
- // Read response packet (00 FF PLEN PLENCHECKSUM D5 CMD+1(0x0D) P3 P7 IO1
- // DATACHECKSUM 00)
- readdata(pn532_packetbuffer, 11);
+ // Read response packet (00 FF PLEN PLENCHECKSUM D5 CMD+1(0x0D) P3 P7 IO1
+ // DATACHECKSUM 00)
+ readdata(pn532_packetbuffer, 11);
- /* READGPIO response should be in the following format:
+ /* READGPIO response should be in the following format:
- byte Description
- ------------- ------------------------------------------
- b0..5 Frame header and preamble (with I2C there is an extra 0x00)
- b6 P3 GPIO Pins
- b7 P7 GPIO Pins (not used ... taken by SPI)
- b8 Interface Mode Pins (not used ... bus select pins)
- b9..10 checksum */
+ byte Description
+ ------------- ------------------------------------------
+ b0..5 Frame header and preamble (with I2C there is an extra
+ 0x00) b6 P3 GPIO Pins b7 P7 GPIO Pins (not used
+ ... taken by SPI) b8 Interface Mode Pins (not used ... bus
+ select pins) b9..10 checksum */
- int p3offset = 7;
+ int p3offset = 7;
#ifdef PN532DEBUG
- PN532DEBUGPRINT.print(F("Received: "));
- PrintHex(pn532_packetbuffer, 11);
- PN532DEBUGPRINT.println();
- PN532DEBUGPRINT.print(F("P3 GPIO: 0x"));
- PN532DEBUGPRINT.println(pn532_packetbuffer[p3offset], HEX);
- PN532DEBUGPRINT.print(F("P7 GPIO: 0x"));
- PN532DEBUGPRINT.println(pn532_packetbuffer[p3offset + 1], HEX);
- PN532DEBUGPRINT.print(F("IO GPIO: 0x"));
- PN532DEBUGPRINT.println(pn532_packetbuffer[p3offset + 2], HEX);
- // Note: You can use the IO GPIO value to detect the serial bus being used
- switch (pn532_packetbuffer[p3offset + 2]) {
- case 0x00: // Using UART
- PN532DEBUGPRINT.println(F("Using UART (IO = 0x00)"));
- break;
- case 0x01: // Using I2C
- PN532DEBUGPRINT.println(F("Using I2C (IO = 0x01)"));
- break;
- case 0x02: // Using SPI
- PN532DEBUGPRINT.println(F("Using SPI (IO = 0x02)"));
- break;
- }
+ PN532DEBUGPRINT.print(F("Received: "));
+ PrintHex(pn532_packetbuffer, 11);
+ PN532DEBUGPRINT.println();
+ PN532DEBUGPRINT.print(F("P3 GPIO: 0x"));
+ PN532DEBUGPRINT.println(pn532_packetbuffer[p3offset], HEX);
+ PN532DEBUGPRINT.print(F("P7 GPIO: 0x"));
+ PN532DEBUGPRINT.println(pn532_packetbuffer[p3offset + 1], HEX);
+ PN532DEBUGPRINT.print(F("IO GPIO: 0x"));
+ PN532DEBUGPRINT.println(pn532_packetbuffer[p3offset + 2], HEX);
+ // Note: You can use the IO GPIO value to detect the serial bus being used
+ switch (pn532_packetbuffer[p3offset + 2]) {
+ case 0x00: // Using UART
+ PN532DEBUGPRINT.println(F("Using UART (IO = 0x00)"));
+ break;
+ case 0x01: // Using I2C
+ PN532DEBUGPRINT.println(F("Using I2C (IO = 0x01)"));
+ break;
+ case 0x02: // Using SPI
+ PN532DEBUGPRINT.println(F("Using SPI (IO = 0x02)"));
+ break;
+ }
#endif
- return pn532_packetbuffer[p3offset];
+ return pn532_packetbuffer[p3offset];
}
/**************************************************************************/
@@ -493,19 +492,19 @@ uint8_t Adafruit_PN532::readGPIO(void) {
*/
/**************************************************************************/
bool Adafruit_PN532::SAMConfig(void) {
- pn532_packetbuffer[0] = PN532_COMMAND_SAMCONFIGURATION;
- pn532_packetbuffer[1] = 0x01; // normal mode;
- pn532_packetbuffer[2] = 0x14; // timeout 50ms * 20 = 1 second
- pn532_packetbuffer[3] = 0x01; // use IRQ pin!
+ pn532_packetbuffer[0] = PN532_COMMAND_SAMCONFIGURATION;
+ pn532_packetbuffer[1] = 0x01; // normal mode;
+ pn532_packetbuffer[2] = 0x14; // timeout 50ms * 20 = 1 second
+ pn532_packetbuffer[3] = 0x01; // use IRQ pin!
- if (!sendCommandCheckAck(pn532_packetbuffer, 4))
- return false;
+ if (!sendCommandCheckAck(pn532_packetbuffer, 4))
+ return false;
- // read data packet
- readdata(pn532_packetbuffer, 9);
+ // read data packet
+ readdata(pn532_packetbuffer, 9);
- int offset = 6;
- return (pn532_packetbuffer[offset] == 0x15);
+ int offset = 6;
+ return (pn532_packetbuffer[offset] == 0x15);
}
/**************************************************************************/
@@ -519,22 +518,22 @@ bool Adafruit_PN532::SAMConfig(void) {
*/
/**************************************************************************/
bool Adafruit_PN532::setPassiveActivationRetries(uint8_t maxRetries) {
- pn532_packetbuffer[0] = PN532_COMMAND_RFCONFIGURATION;
- pn532_packetbuffer[1] = 5; // Config item 5 (MaxRetries)
- pn532_packetbuffer[2] = 0xFF; // MxRtyATR (default = 0xFF)
- pn532_packetbuffer[3] = 0x01; // MxRtyPSL (default = 0x01)
- pn532_packetbuffer[4] = maxRetries;
+ pn532_packetbuffer[0] = PN532_COMMAND_RFCONFIGURATION;
+ pn532_packetbuffer[1] = 5; // Config item 5 (MaxRetries)
+ pn532_packetbuffer[2] = 0xFF; // MxRtyATR (default = 0xFF)
+ pn532_packetbuffer[3] = 0x01; // MxRtyPSL (default = 0x01)
+ pn532_packetbuffer[4] = maxRetries;
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("Setting MxRtyPassiveActivation to "));
- PN532DEBUGPRINT.print(maxRetries, DEC);
- PN532DEBUGPRINT.println(F(" "));
+ PN532DEBUGPRINT.print(F("Setting MxRtyPassiveActivation to "));
+ PN532DEBUGPRINT.print(maxRetries, DEC);
+ PN532DEBUGPRINT.println(F(" "));
#endif
- if (!sendCommandCheckAck(pn532_packetbuffer, 5))
- return 0x0; // no ACK
+ if (!sendCommandCheckAck(pn532_packetbuffer, 5))
+ return 0x0; // no ACK
- return 1;
+ return 1;
}
/***** ISO14443A Commands ******/
@@ -556,18 +555,19 @@ bool Adafruit_PN532::setPassiveActivationRetries(uint8_t maxRetries) {
/**************************************************************************/
bool Adafruit_PN532::readPassiveTargetID(uint8_t cardbaudrate, uint8_t *uid,
uint8_t *uidLength, uint16_t timeout) {
- pn532_packetbuffer[0] = PN532_COMMAND_INLISTPASSIVETARGET;
- pn532_packetbuffer[1] = 1; // max 1 cards at once (we can set this to 2 later)
- pn532_packetbuffer[2] = cardbaudrate;
+ pn532_packetbuffer[0] = PN532_COMMAND_INLISTPASSIVETARGET;
+ pn532_packetbuffer[1] =
+ 1; // max 1 cards at once (we can set this to 2 later)
+ pn532_packetbuffer[2] = cardbaudrate;
- if (!sendCommandCheckAck(pn532_packetbuffer, 3, timeout)) {
+ if (!sendCommandCheckAck(pn532_packetbuffer, 3, timeout)) {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.println(F("No card(s) read"));
+ PN532DEBUGPRINT.println(F("No card(s) read"));
#endif
- return 0x0; // no cards read
- }
+ return 0x0; // no cards read
+ }
- return readDetectedPassiveTargetID(uid, uidLength);
+ return readDetectedPassiveTargetID(uid, uidLength);
}
/**************************************************************************/
@@ -579,11 +579,12 @@ bool Adafruit_PN532::readPassiveTargetID(uint8_t cardbaudrate, uint8_t *uid,
*/
/**************************************************************************/
bool Adafruit_PN532::startPassiveTargetIDDetection(uint8_t cardbaudrate) {
- pn532_packetbuffer[0] = PN532_COMMAND_INLISTPASSIVETARGET;
- pn532_packetbuffer[1] = 1; // max 1 cards at once (we can set this to 2 later)
- pn532_packetbuffer[2] = cardbaudrate;
+ pn532_packetbuffer[0] = PN532_COMMAND_INLISTPASSIVETARGET;
+ pn532_packetbuffer[1] =
+ 1; // max 1 cards at once (we can set this to 2 later)
+ pn532_packetbuffer[2] = cardbaudrate;
- return sendCommandCheckAck(pn532_packetbuffer, 3);
+ return sendCommandCheckAck(pn532_packetbuffer, 3);
}
/**************************************************************************/
@@ -600,57 +601,57 @@ bool Adafruit_PN532::startPassiveTargetIDDetection(uint8_t cardbaudrate) {
/**************************************************************************/
bool Adafruit_PN532::readDetectedPassiveTargetID(uint8_t *uid,
uint8_t *uidLength) {
- // read data packet
- readdata(pn532_packetbuffer, 20);
- // check some basic stuff
-
- /* ISO14443A card response should be in the following format:
-
- byte Description
- ------------- ------------------------------------------
- b0..6 Frame header and preamble
- b7 Tags Found
- b8 Tag Number (only one used in this example)
- b9..10 SENS_RES
- b11 SEL_RES
- b12 NFCID Length
- b13..NFCIDLen NFCID */
+ // read data packet
+ readdata(pn532_packetbuffer, 20);
+ // check some basic stuff
+
+ /* ISO14443A card response should be in the following format:
+
+ byte Description
+ ------------- ------------------------------------------
+ b0..6 Frame header and preamble
+ b7 Tags Found
+ b8 Tag Number (only one used in this example)
+ b9..10 SENS_RES
+ b11 SEL_RES
+ b12 NFCID Length
+ b13..NFCIDLen NFCID */
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("Found "));
- PN532DEBUGPRINT.print(pn532_packetbuffer[7], DEC);
- PN532DEBUGPRINT.println(F(" tags"));
+ PN532DEBUGPRINT.print(F("Found "));
+ PN532DEBUGPRINT.print(pn532_packetbuffer[7], DEC);
+ PN532DEBUGPRINT.println(F(" tags"));
#endif
- if (pn532_packetbuffer[7] != 1)
- return 0;
+ if (pn532_packetbuffer[7] != 1)
+ return 0;
- uint16_t sens_res = pn532_packetbuffer[9];
- sens_res <<= 8;
- sens_res |= pn532_packetbuffer[10];
+ uint16_t sens_res = pn532_packetbuffer[9];
+ sens_res <<= 8;
+ sens_res |= pn532_packetbuffer[10];
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("ATQA: 0x"));
- PN532DEBUGPRINT.println(sens_res, HEX);
- PN532DEBUGPRINT.print(F("SAK: 0x"));
- PN532DEBUGPRINT.println(pn532_packetbuffer[11], HEX);
+ PN532DEBUGPRINT.print(F("ATQA: 0x"));
+ PN532DEBUGPRINT.println(sens_res, HEX);
+ PN532DEBUGPRINT.print(F("SAK: 0x"));
+ PN532DEBUGPRINT.println(pn532_packetbuffer[11], HEX);
#endif
- /* Card appears to be Mifare Classic */
- *uidLength = pn532_packetbuffer[12];
+ /* Card appears to be Mifare Classic */
+ *uidLength = pn532_packetbuffer[12];
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("UID:"));
+ PN532DEBUGPRINT.print(F("UID:"));
#endif
- for (uint8_t i = 0; i < pn532_packetbuffer[12]; i++) {
- uid[i] = pn532_packetbuffer[13 + i];
+ for (uint8_t i = 0; i < pn532_packetbuffer[12]; i++) {
+ uid[i] = pn532_packetbuffer[13 + i];
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F(" 0x"));
- PN532DEBUGPRINT.print(uid[i], HEX);
+ PN532DEBUGPRINT.print(F(" 0x"));
+ PN532DEBUGPRINT.print(uid[i], HEX);
#endif
- }
+ }
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println();
+ PN532DEBUGPRINT.println();
#endif
- return 1;
+ return 1;
}
/**************************************************************************/
@@ -667,77 +668,77 @@ bool Adafruit_PN532::readDetectedPassiveTargetID(uint8_t *uid,
bool Adafruit_PN532::inDataExchange(uint8_t *send, uint8_t sendLength,
uint8_t *response,
uint8_t *responseLength) {
- if (sendLength > PN532_PACKBUFFSIZ - 2) {
+ if (sendLength > PN532_PACKBUFFSIZ - 2) {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.println(F("APDU length too long for packet buffer"));
+ PN532DEBUGPRINT.println(F("APDU length too long for packet buffer"));
#endif
- return false;
- }
- uint8_t i;
+ return false;
+ }
+ uint8_t i;
- pn532_packetbuffer[0] = 0x40; // PN532_COMMAND_INDATAEXCHANGE;
- pn532_packetbuffer[1] = _inListedTag;
- for (i = 0; i < sendLength; ++i) {
- pn532_packetbuffer[i + 2] = send[i];
- }
+ pn532_packetbuffer[0] = 0x40; // PN532_COMMAND_INDATAEXCHANGE;
+ pn532_packetbuffer[1] = _inListedTag;
+ for (i = 0; i < sendLength; ++i) {
+ pn532_packetbuffer[i + 2] = send[i];
+ }
- if (!sendCommandCheckAck(pn532_packetbuffer, sendLength + 2, 1000)) {
+ if (!sendCommandCheckAck(pn532_packetbuffer, sendLength + 2, 1000)) {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.println(F("Could not send APDU"));
+ PN532DEBUGPRINT.println(F("Could not send APDU"));
#endif
- return false;
- }
+ return false;
+ }
- if (!waitready(1000)) {
+ if (!waitready(1000)) {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.println(F("Response never received for APDU..."));
+ PN532DEBUGPRINT.println(F("Response never received for APDU..."));
#endif
- return false;
- }
+ return false;
+ }
- readdata(pn532_packetbuffer, sizeof(pn532_packetbuffer));
+ readdata(pn532_packetbuffer, sizeof(pn532_packetbuffer));
- if (pn532_packetbuffer[0] == 0 && pn532_packetbuffer[1] == 0 &&
- pn532_packetbuffer[2] == 0xff) {
- uint8_t length = pn532_packetbuffer[3];
- if (pn532_packetbuffer[4] != (uint8_t)(~length + 1)) {
+ if (pn532_packetbuffer[0] == 0 && pn532_packetbuffer[1] == 0 &&
+ pn532_packetbuffer[2] == 0xff) {
+ uint8_t length = pn532_packetbuffer[3];
+ if (pn532_packetbuffer[4] != (uint8_t)(~length + 1)) {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.println(F("Length check invalid"));
- PN532DEBUGPRINT.println(length, HEX);
- PN532DEBUGPRINT.println((~length) + 1, HEX);
+ PN532DEBUGPRINT.println(F("Length check invalid"));
+ PN532DEBUGPRINT.println(length, HEX);
+ PN532DEBUGPRINT.println((~length) + 1, HEX);
#endif
- return false;
- }
- if (pn532_packetbuffer[5] == PN532_PN532TOHOST &&
- pn532_packetbuffer[6] == PN532_RESPONSE_INDATAEXCHANGE) {
- if ((pn532_packetbuffer[7] & 0x3f) != 0) {
+ return false;
+ }
+ if (pn532_packetbuffer[5] == PN532_PN532TOHOST &&
+ pn532_packetbuffer[6] == PN532_RESPONSE_INDATAEXCHANGE) {
+ if ((pn532_packetbuffer[7] & 0x3f) != 0) {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.println(F("Status code indicates an error"));
+ PN532DEBUGPRINT.println(F("Status code indicates an error"));
#endif
- return false;
- }
-
- length -= 3;
-
- if (length > *responseLength) {
- length = *responseLength; // silent truncation...
- }
-
- for (i = 0; i < length; ++i) {
- response[i] = pn532_packetbuffer[8 + i];
- }
- *responseLength = length;
-
- return true;
+ return false;
+ }
+
+ length -= 3;
+
+ if (length > *responseLength) {
+ length = *responseLength; // silent truncation...
+ }
+
+ for (i = 0; i < length; ++i) {
+ response[i] = pn532_packetbuffer[8 + i];
+ }
+ *responseLength = length;
+
+ return true;
+ } else {
+ PN532DEBUGPRINT.print(F("Don't know how to handle this command: "));
+ PN532DEBUGPRINT.println(pn532_packetbuffer[6], HEX);
+ return false;
+ }
} else {
- PN532DEBUGPRINT.print(F("Don't know how to handle this command: "));
- PN532DEBUGPRINT.println(pn532_packetbuffer[6], HEX);
- return false;
+ PN532DEBUGPRINT.println(F("Preamble missing"));
+ return false;
}
- } else {
- PN532DEBUGPRINT.println(F("Preamble missing"));
- return false;
- }
}
/**************************************************************************/
@@ -748,68 +749,70 @@ bool Adafruit_PN532::inDataExchange(uint8_t *send, uint8_t sendLength,
*/
/**************************************************************************/
bool Adafruit_PN532::inListPassiveTarget() {
- pn532_packetbuffer[0] = PN532_COMMAND_INLISTPASSIVETARGET;
- pn532_packetbuffer[1] = 1;
- pn532_packetbuffer[2] = 0;
+ pn532_packetbuffer[0] = PN532_COMMAND_INLISTPASSIVETARGET;
+ pn532_packetbuffer[1] = 1;
+ pn532_packetbuffer[2] = 0;
#ifdef PN532DEBUG
- PN532DEBUGPRINT.print(F("About to inList passive target"));
+ PN532DEBUGPRINT.print(F("About to inList passive target"));
#endif
- if (!sendCommandCheckAck(pn532_packetbuffer, 3, 1000)) {
+ if (!sendCommandCheckAck(pn532_packetbuffer, 3, 1000)) {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.println(F("Could not send inlist message"));
+ PN532DEBUGPRINT.println(F("Could not send inlist message"));
#endif
- return false;
- }
+ return false;
+ }
- if (!waitready(30000)) {
- return false;
- }
+ if (!waitready(30000)) {
+ return false;
+ }
- readdata(pn532_packetbuffer, sizeof(pn532_packetbuffer));
+ readdata(pn532_packetbuffer, sizeof(pn532_packetbuffer));
- if (pn532_packetbuffer[0] == 0 && pn532_packetbuffer[1] == 0 &&
- pn532_packetbuffer[2] == 0xff) {
- uint8_t length = pn532_packetbuffer[3];
- if (pn532_packetbuffer[4] != (uint8_t)(~length + 1)) {
+ if (pn532_packetbuffer[0] == 0 && pn532_packetbuffer[1] == 0 &&
+ pn532_packetbuffer[2] == 0xff) {
+ uint8_t length = pn532_packetbuffer[3];
+ if (pn532_packetbuffer[4] != (uint8_t)(~length + 1)) {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.println(F("Length check invalid"));
- PN532DEBUGPRINT.println(length, HEX);
- PN532DEBUGPRINT.println((~length) + 1, HEX);
+ PN532DEBUGPRINT.println(F("Length check invalid"));
+ PN532DEBUGPRINT.println(length, HEX);
+ PN532DEBUGPRINT.println((~length) + 1, HEX);
#endif
- return false;
- }
- if (pn532_packetbuffer[5] == PN532_PN532TOHOST &&
- pn532_packetbuffer[6] == PN532_RESPONSE_INLISTPASSIVETARGET) {
- if (pn532_packetbuffer[7] != 1) {
+ return false;
+ }
+ if (pn532_packetbuffer[5] == PN532_PN532TOHOST &&
+ pn532_packetbuffer[6] == PN532_RESPONSE_INLISTPASSIVETARGET) {
+ if (pn532_packetbuffer[7] != 1) {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.println(F("Unhandled number of targets inlisted"));
+ PN532DEBUGPRINT.println(
+ F("Unhandled number of targets inlisted"));
#endif
- PN532DEBUGPRINT.println(F("Number of tags inlisted:"));
- PN532DEBUGPRINT.println(pn532_packetbuffer[7]);
- return false;
- }
+ PN532DEBUGPRINT.println(F("Number of tags inlisted:"));
+ PN532DEBUGPRINT.println(pn532_packetbuffer[7]);
+ return false;
+ }
- _inListedTag = pn532_packetbuffer[8];
- PN532DEBUGPRINT.print(F("Tag number: "));
- PN532DEBUGPRINT.println(_inListedTag);
+ _inListedTag = pn532_packetbuffer[8];
+ PN532DEBUGPRINT.print(F("Tag number: "));
+ PN532DEBUGPRINT.println(_inListedTag);
- return true;
- } else {
+ return true;
+ } else {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.print(F("Unexpected response to inlist passive host"));
+ PN532DEBUGPRINT.print(
+ F("Unexpected response to inlist passive host"));
#endif
- return false;
- }
- } else {
+ return false;
+ }
+ } else {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.println(F("Preamble missing"));
+ PN532DEBUGPRINT.println(F("Preamble missing"));
#endif
- return false;
- }
+ return false;
+ }
- return true;
+ return true;
}
/***** Mifare Classic Functions ******/
@@ -823,11 +826,11 @@ bool Adafruit_PN532::inListPassiveTarget() {
*/
/**************************************************************************/
bool Adafruit_PN532::mifareclassic_IsFirstBlock(uint32_t uiBlock) {
- // Test if we are in the small or big sectors
- if (uiBlock < 128)
- return ((uiBlock) % 4 == 0);
- else
- return ((uiBlock) % 16 == 0);
+ // Test if we are in the small or big sectors
+ if (uiBlock < 128)
+ return ((uiBlock) % 4 == 0);
+ else
+ return ((uiBlock) % 16 == 0);
}
/**************************************************************************/
@@ -839,11 +842,11 @@ bool Adafruit_PN532::mifareclassic_IsFirstBlock(uint32_t uiBlock) {
*/
/**************************************************************************/
bool Adafruit_PN532::mifareclassic_IsTrailerBlock(uint32_t uiBlock) {
- // Test if we are in the small or big sectors
- if (uiBlock < 128)
- return ((uiBlock + 1) % 4 == 0);
- else
- return ((uiBlock + 1) % 16 == 0);
+ // Test if we are in the small or big sectors
+ if (uiBlock < 128)
+ return ((uiBlock + 1) % 4 == 0);
+ else
+ return ((uiBlock + 1) % 16 == 0);
}
/**************************************************************************/
@@ -870,54 +873,54 @@ uint8_t Adafruit_PN532::mifareclassic_AuthenticateBlock(uint8_t *uid,
uint32_t blockNumber,
uint8_t keyNumber,
uint8_t *keyData) {
- // uint8_t len;
- uint8_t i;
+ // uint8_t len;
+ uint8_t i;
- // Hang on to the key and uid data
- memcpy(_key, keyData, 6);
- memcpy(_uid, uid, uidLen);
- _uidLen = uidLen;
+ // Hang on to the key and uid data
+ memcpy(_key, keyData, 6);
+ memcpy(_uid, uid, uidLen);
+ _uidLen = uidLen;
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("Trying to authenticate card "));
- Adafruit_PN532::PrintHex(_uid, _uidLen);
- PN532DEBUGPRINT.print(F("Using authentication KEY "));
- PN532DEBUGPRINT.print(keyNumber ? 'B' : 'A');
- PN532DEBUGPRINT.print(F(": "));
- Adafruit_PN532::PrintHex(_key, 6);
+ PN532DEBUGPRINT.print(F("Trying to authenticate card "));
+ Adafruit_PN532::PrintHex(_uid, _uidLen);
+ PN532DEBUGPRINT.print(F("Using authentication KEY "));
+ PN532DEBUGPRINT.print(keyNumber ? 'B' : 'A');
+ PN532DEBUGPRINT.print(F(": "));
+ Adafruit_PN532::PrintHex(_key, 6);
#endif
- // Prepare the authentication command //
- pn532_packetbuffer[0] =
- PN532_COMMAND_INDATAEXCHANGE; /* Data Exchange Header */
- pn532_packetbuffer[1] = 1; /* Max card numbers */
- pn532_packetbuffer[2] = (keyNumber) ? MIFARE_CMD_AUTH_B : MIFARE_CMD_AUTH_A;
- pn532_packetbuffer[3] =
- blockNumber; /* Block Number (1K = 0..63, 4K = 0..255 */
- memcpy(pn532_packetbuffer + 4, _key, 6);
- for (i = 0; i < _uidLen; i++) {
- pn532_packetbuffer[10 + i] = _uid[i]; /* 4 byte card ID */
- }
-
- if (!sendCommandCheckAck(pn532_packetbuffer, 10 + _uidLen))
- return 0;
-
- // Read the response packet
- readdata(pn532_packetbuffer, 12);
-
- // check if the response is valid and we are authenticated???
- // for an auth success it should be bytes 5-7: 0xD5 0x41 0x00
- // Mifare auth error is technically byte 7: 0x14 but anything other and 0x00
- // is not good
- if (pn532_packetbuffer[7] != 0x00) {
+ // Prepare the authentication command //
+ pn532_packetbuffer[0] =
+ PN532_COMMAND_INDATAEXCHANGE; /* Data Exchange Header */
+ pn532_packetbuffer[1] = 1; /* Max card numbers */
+ pn532_packetbuffer[2] = (keyNumber) ? MIFARE_CMD_AUTH_B : MIFARE_CMD_AUTH_A;
+ pn532_packetbuffer[3] =
+ blockNumber; /* Block Number (1K = 0..63, 4K = 0..255 */
+ memcpy(pn532_packetbuffer + 4, _key, 6);
+ for (i = 0; i < _uidLen; i++) {
+ pn532_packetbuffer[10 + i] = _uid[i]; /* 4 byte card ID */
+ }
+
+ if (!sendCommandCheckAck(pn532_packetbuffer, 10 + _uidLen))
+ return 0;
+
+ // Read the response packet
+ readdata(pn532_packetbuffer, 12);
+
+ // check if the response is valid and we are authenticated???
+ // for an auth success it should be bytes 5-7: 0xD5 0x41 0x00
+ // Mifare auth error is technically byte 7: 0x14 but anything other and 0x00
+ // is not good
+ if (pn532_packetbuffer[7] != 0x00) {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.print(F("Authentification failed: "));
- Adafruit_PN532::PrintHexChar(pn532_packetbuffer, 12);
+ PN532DEBUGPRINT.print(F("Authentification failed: "));
+ Adafruit_PN532::PrintHexChar(pn532_packetbuffer, 12);
#endif
- return 0;
- }
+ return 0;
+ }
- return 1;
+ return 1;
}
/**************************************************************************/
@@ -936,49 +939,49 @@ uint8_t Adafruit_PN532::mifareclassic_AuthenticateBlock(uint8_t *uid,
uint8_t Adafruit_PN532::mifareclassic_ReadDataBlock(uint8_t blockNumber,
uint8_t *data) {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("Trying to read 16 bytes from block "));
- PN532DEBUGPRINT.println(blockNumber);
+ PN532DEBUGPRINT.print(F("Trying to read 16 bytes from block "));
+ PN532DEBUGPRINT.println(blockNumber);
#endif
- /* Prepare the command */
- pn532_packetbuffer[0] = PN532_COMMAND_INDATAEXCHANGE;
- pn532_packetbuffer[1] = 1; /* Card number */
- pn532_packetbuffer[2] = MIFARE_CMD_READ; /* Mifare Read command = 0x30 */
- pn532_packetbuffer[3] =
- blockNumber; /* Block Number (0..63 for 1K, 0..255 for 4K) */
+ /* Prepare the command */
+ pn532_packetbuffer[0] = PN532_COMMAND_INDATAEXCHANGE;
+ pn532_packetbuffer[1] = 1; /* Card number */
+ pn532_packetbuffer[2] = MIFARE_CMD_READ; /* Mifare Read command = 0x30 */
+ pn532_packetbuffer[3] =
+ blockNumber; /* Block Number (0..63 for 1K, 0..255 for 4K) */
- /* Send the command */
- if (!sendCommandCheckAck(pn532_packetbuffer, 4)) {
+ /* Send the command */
+ if (!sendCommandCheckAck(pn532_packetbuffer, 4)) {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Failed to receive ACK for read command"));
+ PN532DEBUGPRINT.println(F("Failed to receive ACK for read command"));
#endif
- return 0;
- }
+ return 0;
+ }
- /* Read the response packet */
- readdata(pn532_packetbuffer, 26);
+ /* Read the response packet */
+ readdata(pn532_packetbuffer, 26);
- /* If byte 8 isn't 0x00 we probably have an error */
- if (pn532_packetbuffer[7] != 0x00) {
+ /* If byte 8 isn't 0x00 we probably have an error */
+ if (pn532_packetbuffer[7] != 0x00) {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Unexpected response"));
- Adafruit_PN532::PrintHexChar(pn532_packetbuffer, 26);
+ PN532DEBUGPRINT.println(F("Unexpected response"));
+ Adafruit_PN532::PrintHexChar(pn532_packetbuffer, 26);
#endif
- return 0;
- }
+ return 0;
+ }
- /* Copy the 16 data bytes to the output buffer */
- /* Block content starts at byte 9 of a valid response */
- memcpy(data, pn532_packetbuffer + 8, 16);
+ /* Copy the 16 data bytes to the output buffer */
+ /* Block content starts at byte 9 of a valid response */
+ memcpy(data, pn532_packetbuffer + 8, 16);
/* Display data for debug if requested */
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("Block "));
- PN532DEBUGPRINT.println(blockNumber);
- Adafruit_PN532::PrintHexChar(data, 16);
+ PN532DEBUGPRINT.print(F("Block "));
+ PN532DEBUGPRINT.println(blockNumber);
+ Adafruit_PN532::PrintHexChar(data, 16);
#endif
- return 1;
+ return 1;
}
/**************************************************************************/
@@ -996,31 +999,31 @@ uint8_t Adafruit_PN532::mifareclassic_ReadDataBlock(uint8_t blockNumber,
uint8_t Adafruit_PN532::mifareclassic_WriteDataBlock(uint8_t blockNumber,
uint8_t *data) {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("Trying to write 16 bytes to block "));
- PN532DEBUGPRINT.println(blockNumber);
+ PN532DEBUGPRINT.print(F("Trying to write 16 bytes to block "));
+ PN532DEBUGPRINT.println(blockNumber);
#endif
- /* Prepare the first command */
- pn532_packetbuffer[0] = PN532_COMMAND_INDATAEXCHANGE;
- pn532_packetbuffer[1] = 1; /* Card number */
- pn532_packetbuffer[2] = MIFARE_CMD_WRITE; /* Mifare Write command = 0xA0 */
- pn532_packetbuffer[3] =
- blockNumber; /* Block Number (0..63 for 1K, 0..255 for 4K) */
- memcpy(pn532_packetbuffer + 4, data, 16); /* Data Payload */
+ /* Prepare the first command */
+ pn532_packetbuffer[0] = PN532_COMMAND_INDATAEXCHANGE;
+ pn532_packetbuffer[1] = 1; /* Card number */
+ pn532_packetbuffer[2] = MIFARE_CMD_WRITE; /* Mifare Write command = 0xA0 */
+ pn532_packetbuffer[3] =
+ blockNumber; /* Block Number (0..63 for 1K, 0..255 for 4K) */
+ memcpy(pn532_packetbuffer + 4, data, 16); /* Data Payload */
- /* Send the command */
- if (!sendCommandCheckAck(pn532_packetbuffer, 20)) {
+ /* Send the command */
+ if (!sendCommandCheckAck(pn532_packetbuffer, 20)) {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Failed to receive ACK for write command"));
+ PN532DEBUGPRINT.println(F("Failed to receive ACK for write command"));
#endif
- return 0;
- }
- delay(10);
+ return 0;
+ }
+ delay(10);
- /* Read the response packet */
- readdata(pn532_packetbuffer, 26);
+ /* Read the response packet */
+ readdata(pn532_packetbuffer, 26);
- return 1;
+ return 1;
}
/**************************************************************************/
@@ -1031,27 +1034,30 @@ uint8_t Adafruit_PN532::mifareclassic_WriteDataBlock(uint8_t blockNumber,
*/
/**************************************************************************/
uint8_t Adafruit_PN532::mifareclassic_FormatNDEF(void) {
- uint8_t sectorbuffer1[16] = {0x14, 0x01, 0x03, 0xE1, 0x03, 0xE1, 0x03, 0xE1,
- 0x03, 0xE1, 0x03, 0xE1, 0x03, 0xE1, 0x03, 0xE1};
- uint8_t sectorbuffer2[16] = {0x03, 0xE1, 0x03, 0xE1, 0x03, 0xE1, 0x03, 0xE1,
- 0x03, 0xE1, 0x03, 0xE1, 0x03, 0xE1, 0x03, 0xE1};
- uint8_t sectorbuffer3[16] = {0xA0, 0xA1, 0xA2, 0xA3, 0xA4, 0xA5, 0x78, 0x77,
- 0x88, 0xC1, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
-
- // Note 0xA0 0xA1 0xA2 0xA3 0xA4 0xA5 must be used for key A
- // for the MAD sector in NDEF records (sector 0)
-
- // Write block 1 and 2 to the card
- if (!(mifareclassic_WriteDataBlock(1, sectorbuffer1)))
- return 0;
- if (!(mifareclassic_WriteDataBlock(2, sectorbuffer2)))
- return 0;
- // Write key A and access rights card
- if (!(mifareclassic_WriteDataBlock(3, sectorbuffer3)))
- return 0;
-
- // Seems that everything was OK (?!)
- return 1;
+ uint8_t sectorbuffer1[16] = {0x14, 0x01, 0x03, 0xE1, 0x03, 0xE1,
+ 0x03, 0xE1, 0x03, 0xE1, 0x03, 0xE1,
+ 0x03, 0xE1, 0x03, 0xE1};
+ uint8_t sectorbuffer2[16] = {0x03, 0xE1, 0x03, 0xE1, 0x03, 0xE1,
+ 0x03, 0xE1, 0x03, 0xE1, 0x03, 0xE1,
+ 0x03, 0xE1, 0x03, 0xE1};
+ uint8_t sectorbuffer3[16] = {0xA0, 0xA1, 0xA2, 0xA3, 0xA4, 0xA5,
+ 0x78, 0x77, 0x88, 0xC1, 0xFF, 0xFF,
+ 0xFF, 0xFF, 0xFF, 0xFF};
+
+ // Note 0xA0 0xA1 0xA2 0xA3 0xA4 0xA5 must be used for key A
+ // for the MAD sector in NDEF records (sector 0)
+
+ // Write block 1 and 2 to the card
+ if (!(mifareclassic_WriteDataBlock(1, sectorbuffer1)))
+ return 0;
+ if (!(mifareclassic_WriteDataBlock(2, sectorbuffer2)))
+ return 0;
+ // Write key A and access rights card
+ if (!(mifareclassic_WriteDataBlock(3, sectorbuffer3)))
+ return 0;
+
+ // Seems that everything was OK (?!)
+ return 1;
}
/**************************************************************************/
@@ -1075,81 +1081,84 @@ uint8_t Adafruit_PN532::mifareclassic_FormatNDEF(void) {
uint8_t Adafruit_PN532::mifareclassic_WriteNDEFURI(uint8_t sectorNumber,
uint8_t uriIdentifier,
const char *url) {
- // Figure out how long the string is
- uint8_t len = strlen(url);
-
- // Make sure we're within a 1K limit for the sector number
- if ((sectorNumber < 1) || (sectorNumber > 15))
- return 0;
-
- // Make sure the URI payload is between 1 and 38 chars
- if ((len < 1) || (len > 38))
- return 0;
-
- // Note 0xD3 0xF7 0xD3 0xF7 0xD3 0xF7 must be used for key A
- // in NDEF records
-
- // Setup the sector buffer (w/pre-formatted TLV wrapper and NDEF message)
- uint8_t sectorbuffer1[16] = {0x00,
- 0x00,
- 0x03,
- (uint8_t)(len + 5),
- 0xD1,
- 0x01,
- (uint8_t)(len + 1),
- 0x55,
- uriIdentifier,
- 0x00,
- 0x00,
- 0x00,
- 0x00,
- 0x00,
- 0x00,
- 0x00};
- uint8_t sectorbuffer2[16] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
- uint8_t sectorbuffer3[16] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
- uint8_t sectorbuffer4[16] = {0xD3, 0xF7, 0xD3, 0xF7, 0xD3, 0xF7, 0x7F, 0x07,
- 0x88, 0x40, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
- if (len <= 6) {
- // Unlikely we'll get a url this short, but why not ...
- memcpy(sectorbuffer1 + 9, url, len);
- sectorbuffer1[len + 9] = 0xFE;
- } else if (len == 7) {
- // 0xFE needs to be wrapped around to next block
- memcpy(sectorbuffer1 + 9, url, len);
- sectorbuffer2[0] = 0xFE;
- } else if ((len > 7) && (len <= 22)) {
- // Url fits in two blocks
- memcpy(sectorbuffer1 + 9, url, 7);
- memcpy(sectorbuffer2, url + 7, len - 7);
- sectorbuffer2[len - 7] = 0xFE;
- } else if (len == 23) {
- // 0xFE needs to be wrapped around to final block
- memcpy(sectorbuffer1 + 9, url, 7);
- memcpy(sectorbuffer2, url + 7, len - 7);
- sectorbuffer3[0] = 0xFE;
- } else {
- // Url fits in three blocks
- memcpy(sectorbuffer1 + 9, url, 7);
- memcpy(sectorbuffer2, url + 7, 16);
- memcpy(sectorbuffer3, url + 23, len - 24);
- sectorbuffer3[len - 22] = 0xFE;
- }
-
- // Now write all three blocks back to the card
- if (!(mifareclassic_WriteDataBlock(sectorNumber * 4, sectorbuffer1)))
- return 0;
- if (!(mifareclassic_WriteDataBlock((sectorNumber * 4) + 1, sectorbuffer2)))
- return 0;
- if (!(mifareclassic_WriteDataBlock((sectorNumber * 4) + 2, sectorbuffer3)))
- return 0;
- if (!(mifareclassic_WriteDataBlock((sectorNumber * 4) + 3, sectorbuffer4)))
- return 0;
-
- // Seems that everything was OK (?!)
- return 1;
+ // Figure out how long the string is
+ uint8_t len = strlen(url);
+
+ // Make sure we're within a 1K limit for the sector number
+ if ((sectorNumber < 1) || (sectorNumber > 15))
+ return 0;
+
+ // Make sure the URI payload is between 1 and 38 chars
+ if ((len < 1) || (len > 38))
+ return 0;
+
+ // Note 0xD3 0xF7 0xD3 0xF7 0xD3 0xF7 must be used for key A
+ // in NDEF records
+
+ // Setup the sector buffer (w/pre-formatted TLV wrapper and NDEF message)
+ uint8_t sectorbuffer1[16] = {0x00,
+ 0x00,
+ 0x03,
+ (uint8_t)(len + 5),
+ 0xD1,
+ 0x01,
+ (uint8_t)(len + 1),
+ 0x55,
+ uriIdentifier,
+ 0x00,
+ 0x00,
+ 0x00,
+ 0x00,
+ 0x00,
+ 0x00,
+ 0x00};
+ uint8_t sectorbuffer2[16] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+ 0x00, 0x00, 0x00, 0x00};
+ uint8_t sectorbuffer3[16] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+ 0x00, 0x00, 0x00, 0x00};
+ uint8_t sectorbuffer4[16] = {0xD3, 0xF7, 0xD3, 0xF7, 0xD3, 0xF7,
+ 0x7F, 0x07, 0x88, 0x40, 0xFF, 0xFF,
+ 0xFF, 0xFF, 0xFF, 0xFF};
+ if (len <= 6) {
+ // Unlikely we'll get a url this short, but why not ...
+ memcpy(sectorbuffer1 + 9, url, len);
+ sectorbuffer1[len + 9] = 0xFE;
+ } else if (len == 7) {
+ // 0xFE needs to be wrapped around to next block
+ memcpy(sectorbuffer1 + 9, url, len);
+ sectorbuffer2[0] = 0xFE;
+ } else if ((len > 7) && (len <= 22)) {
+ // Url fits in two blocks
+ memcpy(sectorbuffer1 + 9, url, 7);
+ memcpy(sectorbuffer2, url + 7, len - 7);
+ sectorbuffer2[len - 7] = 0xFE;
+ } else if (len == 23) {
+ // 0xFE needs to be wrapped around to final block
+ memcpy(sectorbuffer1 + 9, url, 7);
+ memcpy(sectorbuffer2, url + 7, len - 7);
+ sectorbuffer3[0] = 0xFE;
+ } else {
+ // Url fits in three blocks
+ memcpy(sectorbuffer1 + 9, url, 7);
+ memcpy(sectorbuffer2, url + 7, 16);
+ memcpy(sectorbuffer3, url + 23, len - 24);
+ sectorbuffer3[len - 22] = 0xFE;
+ }
+
+ // Now write all three blocks back to the card
+ if (!(mifareclassic_WriteDataBlock(sectorNumber * 4, sectorbuffer1)))
+ return 0;
+ if (!(mifareclassic_WriteDataBlock((sectorNumber * 4) + 1, sectorbuffer2)))
+ return 0;
+ if (!(mifareclassic_WriteDataBlock((sectorNumber * 4) + 2, sectorbuffer3)))
+ return 0;
+ if (!(mifareclassic_WriteDataBlock((sectorNumber * 4) + 3, sectorbuffer4)))
+ return 0;
+
+ // Seems that everything was OK (?!)
+ return 1;
}
/***** Mifare Ultralight Functions ******/
@@ -1166,65 +1175,65 @@ uint8_t Adafruit_PN532::mifareclassic_WriteNDEFURI(uint8_t sectorNumber,
/**************************************************************************/
uint8_t Adafruit_PN532::mifareultralight_ReadPage(uint8_t page,
uint8_t *buffer) {
- if (page >= 64) {
+ if (page >= 64) {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Page value out of range"));
+ PN532DEBUGPRINT.println(F("Page value out of range"));
#endif
- return 0;
- }
+ return 0;
+ }
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("Reading page "));
- PN532DEBUGPRINT.println(page);
+ PN532DEBUGPRINT.print(F("Reading page "));
+ PN532DEBUGPRINT.println(page);
#endif
- /* Prepare the command */
- pn532_packetbuffer[0] = PN532_COMMAND_INDATAEXCHANGE;
- pn532_packetbuffer[1] = 1; /* Card number */
- pn532_packetbuffer[2] = MIFARE_CMD_READ; /* Mifare Read command = 0x30 */
- pn532_packetbuffer[3] = page; /* Page Number (0..63 in most cases) */
+ /* Prepare the command */
+ pn532_packetbuffer[0] = PN532_COMMAND_INDATAEXCHANGE;
+ pn532_packetbuffer[1] = 1; /* Card number */
+ pn532_packetbuffer[2] = MIFARE_CMD_READ; /* Mifare Read command = 0x30 */
+ pn532_packetbuffer[3] = page; /* Page Number (0..63 in most cases) */
- /* Send the command */
- if (!sendCommandCheckAck(pn532_packetbuffer, 4)) {
+ /* Send the command */
+ if (!sendCommandCheckAck(pn532_packetbuffer, 4)) {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Failed to receive ACK for write command"));
+ PN532DEBUGPRINT.println(F("Failed to receive ACK for write command"));
#endif
- return 0;
- }
+ return 0;
+ }
- /* Read the response packet */
- readdata(pn532_packetbuffer, 26);
+ /* Read the response packet */
+ readdata(pn532_packetbuffer, 26);
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Received: "));
- Adafruit_PN532::PrintHexChar(pn532_packetbuffer, 26);
+ PN532DEBUGPRINT.println(F("Received: "));
+ Adafruit_PN532::PrintHexChar(pn532_packetbuffer, 26);
#endif
- /* If byte 8 isn't 0x00 we probably have an error */
- if (pn532_packetbuffer[7] == 0x00) {
- /* Copy the 4 data bytes to the output buffer */
- /* Block content starts at byte 9 of a valid response */
- /* Note that the command actually reads 16 byte or 4 */
- /* pages at a time ... we simply discard the last 12 */
- /* bytes */
- memcpy(buffer, pn532_packetbuffer + 8, 4);
- } else {
+ /* If byte 8 isn't 0x00 we probably have an error */
+ if (pn532_packetbuffer[7] == 0x00) {
+ /* Copy the 4 data bytes to the output buffer */
+ /* Block content starts at byte 9 of a valid response */
+ /* Note that the command actually reads 16 byte or 4 */
+ /* pages at a time ... we simply discard the last 12 */
+ /* bytes */
+ memcpy(buffer, pn532_packetbuffer + 8, 4);
+ } else {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Unexpected response reading block: "));
- Adafruit_PN532::PrintHexChar(pn532_packetbuffer, 26);
+ PN532DEBUGPRINT.println(F("Unexpected response reading block: "));
+ Adafruit_PN532::PrintHexChar(pn532_packetbuffer, 26);
#endif
- return 0;
- }
+ return 0;
+ }
/* Display data for debug if requested */
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("Page "));
- PN532DEBUGPRINT.print(page);
- PN532DEBUGPRINT.println(F(":"));
- Adafruit_PN532::PrintHexChar(buffer, 4);
+ PN532DEBUGPRINT.print(F("Page "));
+ PN532DEBUGPRINT.print(page);
+ PN532DEBUGPRINT.println(F(":"));
+ Adafruit_PN532::PrintHexChar(buffer, 4);
#endif
- // Return OK signal
- return 1;
+ // Return OK signal
+ return 1;
}
/**************************************************************************/
@@ -1242,43 +1251,44 @@ uint8_t Adafruit_PN532::mifareultralight_ReadPage(uint8_t page,
uint8_t Adafruit_PN532::mifareultralight_WritePage(uint8_t page,
uint8_t *data) {
- if (page >= 64) {
+ if (page >= 64) {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Page value out of range"));
+ PN532DEBUGPRINT.println(F("Page value out of range"));
#endif
- // Return Failed Signal
- return 0;
- }
+ // Return Failed Signal
+ return 0;
+ }
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("Trying to write 4 byte page"));
- PN532DEBUGPRINT.println(page);
+ PN532DEBUGPRINT.print(F("Trying to write 4 byte page"));
+ PN532DEBUGPRINT.println(page);
#endif
- /* Prepare the first command */
- pn532_packetbuffer[0] = PN532_COMMAND_INDATAEXCHANGE;
- pn532_packetbuffer[1] = 1; /* Card number */
- pn532_packetbuffer[2] =
- MIFARE_ULTRALIGHT_CMD_WRITE; /* Mifare Ultralight Write command = 0xA2 */
- pn532_packetbuffer[3] = page; /* Page Number (0..63 for most cases) */
- memcpy(pn532_packetbuffer + 4, data, 4); /* Data Payload */
-
- /* Send the command */
- if (!sendCommandCheckAck(pn532_packetbuffer, 8)) {
+ /* Prepare the first command */
+ pn532_packetbuffer[0] = PN532_COMMAND_INDATAEXCHANGE;
+ pn532_packetbuffer[1] = 1; /* Card number */
+ pn532_packetbuffer[2] =
+ MIFARE_ULTRALIGHT_CMD_WRITE; /* Mifare Ultralight Write command = 0xA2
+ */
+ pn532_packetbuffer[3] = page; /* Page Number (0..63 for most cases) */
+ memcpy(pn532_packetbuffer + 4, data, 4); /* Data Payload */
+
+ /* Send the command */
+ if (!sendCommandCheckAck(pn532_packetbuffer, 8)) {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Failed to receive ACK for write command"));
+ PN532DEBUGPRINT.println(F("Failed to receive ACK for write command"));
#endif
- // Return Failed Signal
- return 0;
- }
- delay(10);
+ // Return Failed Signal
+ return 0;
+ }
+ delay(10);
- /* Read the response packet */
- readdata(pn532_packetbuffer, 26);
+ /* Read the response packet */
+ readdata(pn532_packetbuffer, 26);
- // Return OK Signal
- return 1;
+ // Return OK Signal
+ return 1;
}
/***** NTAG2xx Functions ******/
@@ -1294,72 +1304,72 @@ uint8_t Adafruit_PN532::mifareultralight_WritePage(uint8_t page,
*/
/**************************************************************************/
uint8_t Adafruit_PN532::ntag2xx_ReadPage(uint8_t page, uint8_t *buffer) {
- // TAG Type PAGES USER START USER STOP
- // -------- ----- ---------- ---------
- // NTAG 203 42 4 39
- // NTAG 213 45 4 39
- // NTAG 215 135 4 129
- // NTAG 216 231 4 225
-
- if (page >= 231) {
+ // TAG Type PAGES USER START USER STOP
+ // -------- ----- ---------- ---------
+ // NTAG 203 42 4 39
+ // NTAG 213 45 4 39
+ // NTAG 215 135 4 129
+ // NTAG 216 231 4 225
+
+ if (page >= 231) {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Page value out of range"));
+ PN532DEBUGPRINT.println(F("Page value out of range"));
#endif
- return 0;
- }
+ return 0;
+ }
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("Reading page "));
- PN532DEBUGPRINT.println(page);
+ PN532DEBUGPRINT.print(F("Reading page "));
+ PN532DEBUGPRINT.println(page);
#endif
- /* Prepare the command */
- pn532_packetbuffer[0] = PN532_COMMAND_INDATAEXCHANGE;
- pn532_packetbuffer[1] = 1; /* Card number */
- pn532_packetbuffer[2] = MIFARE_CMD_READ; /* Mifare Read command = 0x30 */
- pn532_packetbuffer[3] = page; /* Page Number (0..63 in most cases) */
+ /* Prepare the command */
+ pn532_packetbuffer[0] = PN532_COMMAND_INDATAEXCHANGE;
+ pn532_packetbuffer[1] = 1; /* Card number */
+ pn532_packetbuffer[2] = MIFARE_CMD_READ; /* Mifare Read command = 0x30 */
+ pn532_packetbuffer[3] = page; /* Page Number (0..63 in most cases) */
- /* Send the command */
- if (!sendCommandCheckAck(pn532_packetbuffer, 4)) {
+ /* Send the command */
+ if (!sendCommandCheckAck(pn532_packetbuffer, 4)) {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Failed to receive ACK for write command"));
+ PN532DEBUGPRINT.println(F("Failed to receive ACK for write command"));
#endif
- return 0;
- }
+ return 0;
+ }
- /* Read the response packet */
- readdata(pn532_packetbuffer, 26);
+ /* Read the response packet */
+ readdata(pn532_packetbuffer, 26);
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Received: "));
- Adafruit_PN532::PrintHexChar(pn532_packetbuffer, 26);
+ PN532DEBUGPRINT.println(F("Received: "));
+ Adafruit_PN532::PrintHexChar(pn532_packetbuffer, 26);
#endif
- /* If byte 8 isn't 0x00 we probably have an error */
- if (pn532_packetbuffer[7] == 0x00) {
- /* Copy the 4 data bytes to the output buffer */
- /* Block content starts at byte 9 of a valid response */
- /* Note that the command actually reads 16 byte or 4 */
- /* pages at a time ... we simply discard the last 12 */
- /* bytes */
- memcpy(buffer, pn532_packetbuffer + 8, 4);
- } else {
+ /* If byte 8 isn't 0x00 we probably have an error */
+ if (pn532_packetbuffer[7] == 0x00) {
+ /* Copy the 4 data bytes to the output buffer */
+ /* Block content starts at byte 9 of a valid response */
+ /* Note that the command actually reads 16 byte or 4 */
+ /* pages at a time ... we simply discard the last 12 */
+ /* bytes */
+ memcpy(buffer, pn532_packetbuffer + 8, 4);
+ } else {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Unexpected response reading block: "));
- Adafruit_PN532::PrintHexChar(pn532_packetbuffer, 26);
+ PN532DEBUGPRINT.println(F("Unexpected response reading block: "));
+ Adafruit_PN532::PrintHexChar(pn532_packetbuffer, 26);
#endif
- return 0;
- }
+ return 0;
+ }
/* Display data for debug if requested */
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("Page "));
- PN532DEBUGPRINT.print(page);
- PN532DEBUGPRINT.println(F(":"));
- Adafruit_PN532::PrintHexChar(buffer, 4);
+ PN532DEBUGPRINT.print(F("Page "));
+ PN532DEBUGPRINT.print(page);
+ PN532DEBUGPRINT.println(F(":"));
+ Adafruit_PN532::PrintHexChar(buffer, 4);
#endif
- // Return OK signal
- return 1;
+ // Return OK signal
+ return 1;
}
/**************************************************************************/
@@ -1375,50 +1385,51 @@ uint8_t Adafruit_PN532::ntag2xx_ReadPage(uint8_t page, uint8_t *buffer) {
*/
/**************************************************************************/
uint8_t Adafruit_PN532::ntag2xx_WritePage(uint8_t page, uint8_t *data) {
- // TAG Type PAGES USER START USER STOP
- // -------- ----- ---------- ---------
- // NTAG 203 42 4 39
- // NTAG 213 45 4 39
- // NTAG 215 135 4 129
- // NTAG 216 231 4 225
-
- if ((page < 4) || (page > 225)) {
+ // TAG Type PAGES USER START USER STOP
+ // -------- ----- ---------- ---------
+ // NTAG 203 42 4 39
+ // NTAG 213 45 4 39
+ // NTAG 215 135 4 129
+ // NTAG 216 231 4 225
+
+ if ((page < 4) || (page > 225)) {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Page value out of range"));
+ PN532DEBUGPRINT.println(F("Page value out of range"));
#endif
- // Return Failed Signal
- return 0;
- }
+ // Return Failed Signal
+ return 0;
+ }
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.print(F("Trying to write 4 byte page"));
- PN532DEBUGPRINT.println(page);
+ PN532DEBUGPRINT.print(F("Trying to write 4 byte page"));
+ PN532DEBUGPRINT.println(page);
#endif
- /* Prepare the first command */
- pn532_packetbuffer[0] = PN532_COMMAND_INDATAEXCHANGE;
- pn532_packetbuffer[1] = 1; /* Card number */
- pn532_packetbuffer[2] =
- MIFARE_ULTRALIGHT_CMD_WRITE; /* Mifare Ultralight Write command = 0xA2 */
- pn532_packetbuffer[3] = page; /* Page Number (0..63 for most cases) */
- memcpy(pn532_packetbuffer + 4, data, 4); /* Data Payload */
-
- /* Send the command */
- if (!sendCommandCheckAck(pn532_packetbuffer, 8)) {
+ /* Prepare the first command */
+ pn532_packetbuffer[0] = PN532_COMMAND_INDATAEXCHANGE;
+ pn532_packetbuffer[1] = 1; /* Card number */
+ pn532_packetbuffer[2] =
+ MIFARE_ULTRALIGHT_CMD_WRITE; /* Mifare Ultralight Write command = 0xA2
+ */
+ pn532_packetbuffer[3] = page; /* Page Number (0..63 for most cases) */
+ memcpy(pn532_packetbuffer + 4, data, 4); /* Data Payload */
+
+ /* Send the command */
+ if (!sendCommandCheckAck(pn532_packetbuffer, 8)) {
#ifdef MIFAREDEBUG
- PN532DEBUGPRINT.println(F("Failed to receive ACK for write command"));
+ PN532DEBUGPRINT.println(F("Failed to receive ACK for write command"));
#endif
- // Return Failed Signal
- return 0;
- }
- delay(10);
+ // Return Failed Signal
+ return 0;
+ }
+ delay(10);
- /* Read the response packet */
- readdata(pn532_packetbuffer, 26);
+ /* Read the response packet */
+ readdata(pn532_packetbuffer, 26);
- // Return OK Signal
- return 1;
+ // Return OK Signal
+ return 1;
}
/**************************************************************************/
@@ -1438,86 +1449,87 @@ uint8_t Adafruit_PN532::ntag2xx_WritePage(uint8_t page, uint8_t *data) {
/**************************************************************************/
uint8_t Adafruit_PN532::ntag2xx_WriteNDEFURI(uint8_t uriIdentifier, char *url,
uint8_t dataLen) {
- uint8_t pageBuffer[4] = {0, 0, 0, 0};
-
- // Remove NDEF record overhead from the URI data (pageHeader below)
- uint8_t wrapperSize = 12;
-
- // Figure out how long the string is
- uint8_t len = strlen(url);
-
- // Make sure the URI payload will fit in dataLen (include 0xFE trailer)
- if ((len < 1) || (len + 1 > (dataLen - wrapperSize)))
- return 0;
-
- // Setup the record header
- // See NFCForum-TS-Type-2-Tag_1.1.pdf for details
- uint8_t pageHeader[12] = {
- /* NDEF Lock Control TLV (must be first and always present) */
- 0x01, /* Tag Field (0x01 = Lock Control TLV) */
- 0x03, /* Payload Length (always 3) */
- 0xA0, /* The position inside the tag of the lock bytes (upper 4 = page
- address, lower 4 = byte offset) */
- 0x10, /* Size in bits of the lock area */
- 0x44, /* Size in bytes of a page and the number of bytes each lock bit can
- lock (4 bit + 4 bits) */
- /* NDEF Message TLV - URI Record */
- 0x03, /* Tag Field (0x03 = NDEF Message) */
- (uint8_t)(len + 5), /* Payload Length (not including 0xFE trailer) */
- 0xD1, /* NDEF Record Header (TNF=0x1:Well known record + SR + ME + MB) */
- 0x01, /* Type Length for the record type indicator */
- (uint8_t)(len + 1), /* Payload len */
- 0x55, /* Record Type Indicator (0x55 or 'U' = URI Record) */
- uriIdentifier /* URI Prefix (ex. 0x01 = "http://www.") */
- };
-
- // Write 12 byte header (three pages of data starting at page 4)
- memcpy(pageBuffer, pageHeader, 4);
- if (!(ntag2xx_WritePage(4, pageBuffer)))
- return 0;
- memcpy(pageBuffer, pageHeader + 4, 4);
- if (!(ntag2xx_WritePage(5, pageBuffer)))
- return 0;
- memcpy(pageBuffer, pageHeader + 8, 4);
- if (!(ntag2xx_WritePage(6, pageBuffer)))
- return 0;
-
- // Write URI (starting at page 7)
- uint8_t currentPage = 7;
- char *urlcopy = url;
- while (len) {
- if (len < 4) {
- memset(pageBuffer, 0, 4);
- memcpy(pageBuffer, urlcopy, len);
- pageBuffer[len] = 0xFE; // NDEF record footer
- if (!(ntag2xx_WritePage(currentPage, pageBuffer)))
+ uint8_t pageBuffer[4] = {0, 0, 0, 0};
+
+ // Remove NDEF record overhead from the URI data (pageHeader below)
+ uint8_t wrapperSize = 12;
+
+ // Figure out how long the string is
+ uint8_t len = strlen(url);
+
+ // Make sure the URI payload will fit in dataLen (include 0xFE trailer)
+ if ((len < 1) || (len + 1 > (dataLen - wrapperSize)))
return 0;
- // DONE!
- return 1;
- } else if (len == 4) {
- memcpy(pageBuffer, urlcopy, len);
- if (!(ntag2xx_WritePage(currentPage, pageBuffer)))
+
+ // Setup the record header
+ // See NFCForum-TS-Type-2-Tag_1.1.pdf for details
+ uint8_t pageHeader[12] = {
+ /* NDEF Lock Control TLV (must be first and always present) */
+ 0x01, /* Tag Field (0x01 = Lock Control TLV) */
+ 0x03, /* Payload Length (always 3) */
+ 0xA0, /* The position inside the tag of the lock bytes (upper 4 = page
+ address, lower 4 = byte offset) */
+ 0x10, /* Size in bits of the lock area */
+ 0x44, /* Size in bytes of a page and the number of bytes each lock bit
+ can lock (4 bit + 4 bits) */
+ /* NDEF Message TLV - URI Record */
+ 0x03, /* Tag Field (0x03 = NDEF Message) */
+ (uint8_t)(len + 5), /* Payload Length (not including 0xFE trailer) */
+ 0xD1, /* NDEF Record Header (TNF=0x1:Well known record + SR + ME + MB)
+ */
+ 0x01, /* Type Length for the record type indicator */
+ (uint8_t)(len + 1), /* Payload len */
+ 0x55, /* Record Type Indicator (0x55 or 'U' = URI Record) */
+ uriIdentifier /* URI Prefix (ex. 0x01 = "http://www.") */
+ };
+
+ // Write 12 byte header (three pages of data starting at page 4)
+ memcpy(pageBuffer, pageHeader, 4);
+ if (!(ntag2xx_WritePage(4, pageBuffer)))
return 0;
- memset(pageBuffer, 0, 4);
- pageBuffer[0] = 0xFE; // NDEF record footer
- currentPage++;
- if (!(ntag2xx_WritePage(currentPage, pageBuffer)))
+ memcpy(pageBuffer, pageHeader + 4, 4);
+ if (!(ntag2xx_WritePage(5, pageBuffer)))
return 0;
- // DONE!
- return 1;
- } else {
- // More than one page of data left
- memcpy(pageBuffer, urlcopy, 4);
- if (!(ntag2xx_WritePage(currentPage, pageBuffer)))
+ memcpy(pageBuffer, pageHeader + 8, 4);
+ if (!(ntag2xx_WritePage(6, pageBuffer)))
return 0;
- currentPage++;
- urlcopy += 4;
- len -= 4;
+
+ // Write URI (starting at page 7)
+ uint8_t currentPage = 7;
+ char *urlcopy = url;
+ while (len) {
+ if (len < 4) {
+ memset(pageBuffer, 0, 4);
+ memcpy(pageBuffer, urlcopy, len);
+ pageBuffer[len] = 0xFE; // NDEF record footer
+ if (!(ntag2xx_WritePage(currentPage, pageBuffer)))
+ return 0;
+ // DONE!
+ return 1;
+ } else if (len == 4) {
+ memcpy(pageBuffer, urlcopy, len);
+ if (!(ntag2xx_WritePage(currentPage, pageBuffer)))
+ return 0;
+ memset(pageBuffer, 0, 4);
+ pageBuffer[0] = 0xFE; // NDEF record footer
+ currentPage++;
+ if (!(ntag2xx_WritePage(currentPage, pageBuffer)))
+ return 0;
+ // DONE!
+ return 1;
+ } else {
+ // More than one page of data left
+ memcpy(pageBuffer, urlcopy, 4);
+ if (!(ntag2xx_WritePage(currentPage, pageBuffer)))
+ return 0;
+ currentPage++;
+ urlcopy += 4;
+ len -= 4;
+ }
}
- }
- // Seems that everything was OK (?!)
- return 1;
+ // Seems that everything was OK (?!)
+ return 1;
}
/************** high level communication functions (handles both I2C and SPI) */
@@ -1528,16 +1540,16 @@ uint8_t Adafruit_PN532::ntag2xx_WriteNDEFURI(uint8_t uriIdentifier, char *url,
*/
/**************************************************************************/
bool Adafruit_PN532::readack() {
- uint8_t ackbuff[6];
+ uint8_t ackbuff[6];
- if (spi_dev) {
- uint8_t cmd = PN532_SPI_DATAREAD;
- spi_dev->write_then_read(&cmd, 1, ackbuff, 6);
- } else if (i2c_dev || ser_dev) {
- readdata(ackbuff, 6);
- }
+ if (spi_dev) {
+ uint8_t cmd = PN532_SPI_DATAREAD;
+ spi_dev->write_then_read(&cmd, 1, ackbuff, 6);
+ } else if (i2c_dev || ser_dev) {
+ readdata(ackbuff, 6);
+ }
- return (0 == memcmp((char *)ackbuff, (char *)pn532ack, 6));
+ return (0 == memcmp((char *)ackbuff, (char *)pn532ack, 6));
}
/**************************************************************************/
@@ -1546,25 +1558,25 @@ bool Adafruit_PN532::readack() {
*/
/**************************************************************************/
bool Adafruit_PN532::isready() {
- if (spi_dev) {
- // SPI ready check via Status Request
- uint8_t cmd = PN532_SPI_STATREAD;
- uint8_t reply;
- spi_dev->write_then_read(&cmd, 1, &reply, 1);
- return reply == PN532_SPI_READY;
- } else if (i2c_dev) {
- // I2C ready check via reading RDY byte
- uint8_t rdy[1];
- i2c_dev->read(rdy, 1);
- return rdy[0] == PN532_I2C_READY;
- } else if (ser_dev) {
- // Serial ready check based on non-zero read buffer
- return (ser_dev->available() != 0);
- } else if (_irq != -1) {
- uint8_t x = digitalRead(_irq);
- return x == 0;
- }
- return false;
+ if (spi_dev) {
+ // SPI ready check via Status Request
+ uint8_t cmd = PN532_SPI_STATREAD;
+ uint8_t reply;
+ spi_dev->write_then_read(&cmd, 1, &reply, 1);
+ return reply == PN532_SPI_READY;
+ } else if (i2c_dev) {
+ // I2C ready check via reading RDY byte
+ uint8_t rdy[1];
+ i2c_dev->read(rdy, 1);
+ return rdy[0] == PN532_I2C_READY;
+ } else if (ser_dev) {
+ // Serial ready check based on non-zero read buffer
+ return (ser_dev->available() != 0);
+ } else if (_irq != -1) {
+ uint8_t x = digitalRead(_irq);
+ return x == 0;
+ }
+ return false;
}
/**************************************************************************/
@@ -1575,20 +1587,20 @@ bool Adafruit_PN532::isready() {
*/
/**************************************************************************/
bool Adafruit_PN532::waitready(uint16_t timeout) {
- uint16_t timer = 0;
- while (!isready()) {
- if (timeout != 0) {
- timer += 10;
- if (timer > timeout) {
+ uint16_t timer = 0;
+ while (!isready()) {
+ if (timeout != 0) {
+ timer += 10;
+ if (timer > timeout) {
#ifdef PN532DEBUG
- PN532DEBUGPRINT.println("TIMEOUT!");
+ PN532DEBUGPRINT.println("TIMEOUT!");
#endif
- return false;
- }
+ return false;
+ }
+ }
+ delay(10);
}
- delay(10);
- }
- return true;
+ return true;
}
/**************************************************************************/
@@ -1600,28 +1612,28 @@ bool Adafruit_PN532::waitready(uint16_t timeout) {
*/
/**************************************************************************/
void Adafruit_PN532::readdata(uint8_t *buff, uint8_t n) {
- if (spi_dev) {
- // SPI read
- uint8_t cmd = PN532_SPI_DATAREAD;
- spi_dev->write_then_read(&cmd, 1, buff, n);
- } else if (i2c_dev) {
- // I2C read
- uint8_t rbuff[n + 1]; // +1 for leading RDY byte
- i2c_dev->read(rbuff, n + 1);
- for (uint8_t i = 0; i < n; i++) {
- buff[i] = rbuff[i + 1];
+ if (spi_dev) {
+ // SPI read
+ uint8_t cmd = PN532_SPI_DATAREAD;
+ spi_dev->write_then_read(&cmd, 1, buff, n);
+ } else if (i2c_dev) {
+ // I2C read
+ uint8_t rbuff[n + 1]; // +1 for leading RDY byte
+ i2c_dev->read(rbuff, n + 1);
+ for (uint8_t i = 0; i < n; i++) {
+ buff[i] = rbuff[i + 1];
+ }
+ } else if (ser_dev) {
+ // Serial read
+ ser_dev->readBytes(buff, n);
}
- } else if (ser_dev) {
- // Serial read
- ser_dev->readBytes(buff, n);
- }
#ifdef PN532DEBUG
- PN532DEBUGPRINT.print(F("Reading: "));
- for (uint8_t i = 0; i < n; i++) {
- PN532DEBUGPRINT.print(F(" 0x"));
- PN532DEBUGPRINT.print(buff[i], HEX);
- }
- PN532DEBUGPRINT.println();
+ PN532DEBUGPRINT.print(F("Reading: "));
+ for (uint8_t i = 0; i < n; i++) {
+ PN532DEBUGPRINT.print(F(" 0x"));
+ PN532DEBUGPRINT.print(buff[i], HEX);
+ }
+ PN532DEBUGPRINT.println();
#endif
}
@@ -1636,30 +1648,30 @@ void Adafruit_PN532::readdata(uint8_t *buff, uint8_t n) {
*/
/**************************************************************************/
uint8_t Adafruit_PN532::AsTarget() {
- pn532_packetbuffer[0] = 0x8C;
- uint8_t target[] = {
- 0x8C, // INIT AS TARGET
- 0x00, // MODE -> BITFIELD
- 0x08, 0x00, // SENS_RES - MIFARE PARAMS
- 0xdc, 0x44, 0x20, // NFCID1T
- 0x60, // SEL_RES
- 0x01, 0xfe, // NFCID2T MUST START WITH 01fe - FELICA PARAMS - POL_RES
- 0xa2, 0xa3, 0xa4, 0xa5, 0xa6, 0xa7, 0xc0,
- 0xc1, 0xc2, 0xc3, 0xc4, 0xc5, 0xc6, 0xc7, // PAD
- 0xff, 0xff, // SYSTEM CODE
- 0xaa, 0x99, 0x88, 0x77, 0x66, 0x55, 0x44,
- 0x33, 0x22, 0x11, 0x01, 0x00, // NFCID3t MAX 47 BYTES ATR_RES
- 0x0d, 0x52, 0x46, 0x49, 0x44, 0x49, 0x4f,
- 0x74, 0x20, 0x50, 0x4e, 0x35, 0x33, 0x32 // HISTORICAL BYTES
- };
- if (!sendCommandCheckAck(target, sizeof(target)))
- return false;
+ pn532_packetbuffer[0] = 0x8C;
+ uint8_t target[] = {
+ 0x8C, // INIT AS TARGET
+ 0x00, // MODE -> BITFIELD
+ 0x08, 0x00, // SENS_RES - MIFARE PARAMS
+ 0xdc, 0x44, 0x20, // NFCID1T
+ 0x60, // SEL_RES
+ 0x01, 0xfe, // NFCID2T MUST START WITH 01fe - FELICA PARAMS - POL_RES
+ 0xa2, 0xa3, 0xa4, 0xa5, 0xa6, 0xa7, 0xc0,
+ 0xc1, 0xc2, 0xc3, 0xc4, 0xc5, 0xc6, 0xc7, // PAD
+ 0xff, 0xff, // SYSTEM CODE
+ 0xaa, 0x99, 0x88, 0x77, 0x66, 0x55, 0x44,
+ 0x33, 0x22, 0x11, 0x01, 0x00, // NFCID3t MAX 47 BYTES ATR_RES
+ 0x0d, 0x52, 0x46, 0x49, 0x44, 0x49, 0x4f,
+ 0x74, 0x20, 0x50, 0x4e, 0x35, 0x33, 0x32 // HISTORICAL BYTES
+ };
+ if (!sendCommandCheckAck(target, sizeof(target)))
+ return false;
- // read data packet
- readdata(pn532_packetbuffer, 8);
+ // read data packet
+ readdata(pn532_packetbuffer, 8);
- int offset = 6;
- return (pn532_packetbuffer[offset] == 0x15);
+ int offset = 6;
+ return (pn532_packetbuffer[offset] == 0x15);
}
/**************************************************************************/
/*!
@@ -1671,27 +1683,27 @@ uint8_t Adafruit_PN532::AsTarget() {
*/
/**************************************************************************/
uint8_t Adafruit_PN532::getDataTarget(uint8_t *cmd, uint8_t *cmdlen) {
- uint8_t length;
- pn532_packetbuffer[0] = 0x86;
- if (!sendCommandCheckAck(pn532_packetbuffer, 1, 1000)) {
- PN532DEBUGPRINT.println(F("Error en ack"));
- return false;
- }
-
- // read data packet
- readdata(pn532_packetbuffer, 64);
- length = pn532_packetbuffer[3] - 3;
-
- // if (length > *responseLength) {// Bug, should avoid it in the reading
- // target data
- // length = *responseLength; // silent truncation...
- //}
-
- for (int i = 0; i < length; ++i) {
- cmd[i] = pn532_packetbuffer[8 + i];
- }
- *cmdlen = length;
- return true;
+ uint8_t length;
+ pn532_packetbuffer[0] = 0x86;
+ if (!sendCommandCheckAck(pn532_packetbuffer, 1, 1000)) {
+ PN532DEBUGPRINT.println(F("Error en ack"));
+ return false;
+ }
+
+ // read data packet
+ readdata(pn532_packetbuffer, 64);
+ length = pn532_packetbuffer[3] - 3;
+
+ // if (length > *responseLength) {// Bug, should avoid it in the reading
+ // target data
+ // length = *responseLength; // silent truncation...
+ //}
+
+ for (int i = 0; i < length; ++i) {
+ cmd[i] = pn532_packetbuffer[8 + i];
+ }
+ *cmdlen = length;
+ return true;
}
/**************************************************************************/
@@ -1704,23 +1716,23 @@ uint8_t Adafruit_PN532::getDataTarget(uint8_t *cmd, uint8_t *cmdlen) {
*/
/**************************************************************************/
uint8_t Adafruit_PN532::setDataTarget(uint8_t *cmd, uint8_t cmdlen) {
- uint8_t length;
- // cmd1[0] = 0x8E; Must!
+ uint8_t length;
+ // cmd1[0] = 0x8E; Must!
- if (!sendCommandCheckAck(cmd, cmdlen))
- return false;
+ if (!sendCommandCheckAck(cmd, cmdlen))
+ return false;
- // read data packet
- readdata(pn532_packetbuffer, 8);
- length = pn532_packetbuffer[3] - 3;
- for (int i = 0; i < length; ++i) {
- cmd[i] = pn532_packetbuffer[8 + i];
- }
- // cmdl = 0
- cmdlen = length;
-
- int offset = 6;
- return (pn532_packetbuffer[offset] == 0x15);
+ // read data packet
+ readdata(pn532_packetbuffer, 8);
+ length = pn532_packetbuffer[3] - 3;
+ for (int i = 0; i < length; ++i) {
+ cmd[i] = pn532_packetbuffer[8 + i];
+ }
+ // cmdl = 0
+ cmdlen = length;
+
+ int offset = 6;
+ return (pn532_packetbuffer[offset] == 0x15);
}
/**************************************************************************/
@@ -1733,88 +1745,88 @@ uint8_t Adafruit_PN532::setDataTarget(uint8_t *cmd, uint8_t cmdlen) {
*/
/**************************************************************************/
void Adafruit_PN532::writecommand(uint8_t *cmd, uint8_t cmdlen) {
- if (spi_dev) {
- // SPI command write.
- uint8_t checksum;
- uint8_t packet[9 + cmdlen];
- uint8_t *p = packet;
- cmdlen++;
-
- p[0] = PN532_SPI_DATAWRITE;
- p++;
-
- p[0] = PN532_PREAMBLE;
- p++;
- p[0] = PN532_STARTCODE1;
- p++;
- p[0] = PN532_STARTCODE2;
- p++;
- checksum = PN532_PREAMBLE + PN532_STARTCODE1 + PN532_STARTCODE2;
-
- p[0] = cmdlen;
- p++;
- p[0] = ~cmdlen + 1;
- p++;
-
- p[0] = PN532_HOSTTOPN532;
- p++;
- checksum += PN532_HOSTTOPN532;
-
- for (uint8_t i = 0; i < cmdlen - 1; i++) {
- p[0] = cmd[i];
- p++;
- checksum += cmd[i];
- }
-
- p[0] = ~checksum;
- p++;
- p[0] = PN532_POSTAMBLE;
- p++;
+ if (spi_dev) {
+ // SPI command write.
+ uint8_t checksum;
+ uint8_t packet[9 + cmdlen];
+ uint8_t *p = packet;
+ cmdlen++;
+
+ p[0] = PN532_SPI_DATAWRITE;
+ p++;
+
+ p[0] = PN532_PREAMBLE;
+ p++;
+ p[0] = PN532_STARTCODE1;
+ p++;
+ p[0] = PN532_STARTCODE2;
+ p++;
+ checksum = PN532_PREAMBLE + PN532_STARTCODE1 + PN532_STARTCODE2;
+
+ p[0] = cmdlen;
+ p++;
+ p[0] = ~cmdlen + 1;
+ p++;
+
+ p[0] = PN532_HOSTTOPN532;
+ p++;
+ checksum += PN532_HOSTTOPN532;
+
+ for (uint8_t i = 0; i < cmdlen - 1; i++) {
+ p[0] = cmd[i];
+ p++;
+ checksum += cmd[i];
+ }
+
+ p[0] = ~checksum;
+ p++;
+ p[0] = PN532_POSTAMBLE;
+ p++;
#ifdef PN532DEBUG
- Serial.print("Sending : ");
- for (int i = 1; i < 8 + cmdlen; i++) {
- Serial.print("0x");
- Serial.print(packet[i], HEX);
- Serial.print(", ");
- }
- Serial.println();
+ Serial.print("Sending : ");
+ for (int i = 1; i < 8 + cmdlen; i++) {
+ Serial.print("0x");
+ Serial.print(packet[i], HEX);
+ Serial.print(", ");
+ }
+ Serial.println();
#endif
- spi_dev->write(packet, 8 + cmdlen);
- } else if (i2c_dev || ser_dev) {
- // I2C or Serial command write.
- uint8_t packet[8 + cmdlen];
- uint8_t LEN = cmdlen + 1;
-
- packet[0] = PN532_PREAMBLE;
- packet[1] = PN532_STARTCODE1;
- packet[2] = PN532_STARTCODE2;
- packet[3] = LEN;
- packet[4] = ~LEN + 1;
- packet[5] = PN532_HOSTTOPN532;
- uint8_t sum = 0;
- for (uint8_t i = 0; i < cmdlen; i++) {
- packet[6 + i] = cmd[i];
- sum += cmd[i];
- }
- packet[6 + cmdlen] = ~(PN532_HOSTTOPN532 + sum) + 1;
- packet[7 + cmdlen] = PN532_POSTAMBLE;
+ spi_dev->write(packet, 8 + cmdlen);
+ } else if (i2c_dev || ser_dev) {
+ // I2C or Serial command write.
+ uint8_t packet[8 + cmdlen];
+ uint8_t LEN = cmdlen + 1;
+
+ packet[0] = PN532_PREAMBLE;
+ packet[1] = PN532_STARTCODE1;
+ packet[2] = PN532_STARTCODE2;
+ packet[3] = LEN;
+ packet[4] = ~LEN + 1;
+ packet[5] = PN532_HOSTTOPN532;
+ uint8_t sum = 0;
+ for (uint8_t i = 0; i < cmdlen; i++) {
+ packet[6 + i] = cmd[i];
+ sum += cmd[i];
+ }
+ packet[6 + cmdlen] = ~(PN532_HOSTTOPN532 + sum) + 1;
+ packet[7 + cmdlen] = PN532_POSTAMBLE;
#ifdef PN532DEBUG
- Serial.print("Sending : ");
- for (int i = 1; i < 8 + cmdlen; i++) {
- Serial.print("0x");
- Serial.print(packet[i], HEX);
- Serial.print(", ");
- }
- Serial.println();
+ Serial.print("Sending : ");
+ for (int i = 1; i < 8 + cmdlen; i++) {
+ Serial.print("0x");
+ Serial.print(packet[i], HEX);
+ Serial.print(", ");
+ }
+ Serial.println();
#endif
- if (i2c_dev) {
- i2c_dev->write(packet, 8 + cmdlen);
- } else {
- ser_dev->write(packet, 8 + cmdlen);
+ if (i2c_dev) {
+ i2c_dev->write(packet, 8 + cmdlen);
+ } else {
+ ser_dev->write(packet, 8 + cmdlen);
+ }
}
- }
}
diff --git a/src/libs/Adafruit_PN532.h b/src/libs/Adafruit_PN532.h
index f59e576..c33db5c 100644
--- a/src/libs/Adafruit_PN532.h
+++ b/src/libs/Adafruit_PN532.h
@@ -70,13 +70,13 @@
#define PN532_SPI_DATAREAD (0x03) ///< Data read
#define PN532_SPI_READY (0x01) ///< Ready
-//#define PN532_I2C_ADDRESS (0x48 >> 1) ///< Default I2C address
-// My fucking clone board for some goddamn reason uses the address 0x28
+// #define PN532_I2C_ADDRESS (0x48 >> 1) ///< Default I2C address
+// My fucking clone board for some goddamn reason uses the address 0x28
#define PN532_I2C_ADDRESS (0x28)
-#define PN532_I2C_READBIT (0x01) ///< Read bit
-#define PN532_I2C_BUSY (0x00) ///< Busy
-#define PN532_I2C_READY (0x01) ///< Ready
-#define PN532_I2C_READYTIMEOUT (20) ///< Ready timeout
+#define PN532_I2C_READBIT (0x01) ///< Read bit
+#define PN532_I2C_BUSY (0x00) ///< Busy
+#define PN532_I2C_READY (0x01) ///< Ready
+#define PN532_I2C_READYTIMEOUT (20) ///< Ready timeout
#define PN532_MIFARE_ISO14443A (0x00) ///< MiFare
@@ -141,83 +141,85 @@
* @brief Class for working with Adafruit PN532 NFC/RFID breakout boards.
*/
class Adafruit_PN532 {
-public:
- Adafruit_PN532(uint8_t clk, uint8_t miso, uint8_t mosi,
- uint8_t ss); // Software SPI
- Adafruit_PN532(uint8_t ss, SPIClass *theSPI = &SPI); // Hardware SPI
- Adafruit_PN532(uint8_t irq, uint8_t reset,
- TwoWire *theWire = &Wire); // Hardware I2C
- Adafruit_PN532(uint8_t reset, HardwareSerial *theSer); // Hardware UART
- bool begin(void);
-
- void reset(void);
- void wakeup(void);
-
- // Generic PN532 functions
- bool SAMConfig(void);
- uint32_t getFirmwareVersion(void);
- bool sendCommandCheckAck(uint8_t *cmd, uint8_t cmdlen,
- uint16_t timeout = 100);
- bool writeGPIO(uint8_t pinstate);
- uint8_t readGPIO(void);
- bool setPassiveActivationRetries(uint8_t maxRetries);
-
- // ISO14443A functions
- bool readPassiveTargetID(
- uint8_t cardbaudrate, uint8_t *uid, uint8_t *uidLength,
- uint16_t timeout = 0); // timeout 0 means no timeout - will block forever.
- bool startPassiveTargetIDDetection(uint8_t cardbaudrate);
- bool readDetectedPassiveTargetID(uint8_t *uid, uint8_t *uidLength);
- bool inDataExchange(uint8_t *send, uint8_t sendLength, uint8_t *response,
- uint8_t *responseLength);
- bool inListPassiveTarget();
- uint8_t AsTarget();
- uint8_t getDataTarget(uint8_t *cmd, uint8_t *cmdlen);
- uint8_t setDataTarget(uint8_t *cmd, uint8_t cmdlen);
-
- // Mifare Classic functions
- bool mifareclassic_IsFirstBlock(uint32_t uiBlock);
- bool mifareclassic_IsTrailerBlock(uint32_t uiBlock);
- uint8_t mifareclassic_AuthenticateBlock(uint8_t *uid, uint8_t uidLen,
- uint32_t blockNumber,
- uint8_t keyNumber, uint8_t *keyData);
- uint8_t mifareclassic_ReadDataBlock(uint8_t blockNumber, uint8_t *data);
- uint8_t mifareclassic_WriteDataBlock(uint8_t blockNumber, uint8_t *data);
- uint8_t mifareclassic_FormatNDEF(void);
- uint8_t mifareclassic_WriteNDEFURI(uint8_t sectorNumber,
- uint8_t uriIdentifier, const char *url);
-
- // Mifare Ultralight functions
- uint8_t mifareultralight_ReadPage(uint8_t page, uint8_t *buffer);
- uint8_t mifareultralight_WritePage(uint8_t page, uint8_t *data);
-
- // NTAG2xx functions
- uint8_t ntag2xx_ReadPage(uint8_t page, uint8_t *buffer);
- uint8_t ntag2xx_WritePage(uint8_t page, uint8_t *data);
- uint8_t ntag2xx_WriteNDEFURI(uint8_t uriIdentifier, char *url,
- uint8_t dataLen);
-
- // Help functions to display formatted text
- static void PrintHex(const byte *data, const uint32_t numBytes);
- static void PrintHexChar(const byte *pbtData, const uint32_t numBytes);
-
-private:
- int8_t _irq = -1, _reset = -1, _cs = -1;
- int8_t _uid[7]; // ISO14443A uid
- int8_t _uidLen; // uid len
- int8_t _key[6]; // Mifare Classic key
- int8_t _inListedTag; // Tg number of inlisted tag.
-
- // Low level communication functions that handle both SPI and I2C.
- void readdata(uint8_t *buff, uint8_t n);
- void writecommand(uint8_t *cmd, uint8_t cmdlen);
- bool isready();
- bool waitready(uint16_t timeout);
- bool readack();
-
- Adafruit_SPIDevice *spi_dev = NULL;
- Adafruit_I2CDevice *i2c_dev = NULL;
- HardwareSerial *ser_dev = NULL;
+ public:
+ Adafruit_PN532(uint8_t clk, uint8_t miso, uint8_t mosi,
+ uint8_t ss); // Software SPI
+ Adafruit_PN532(uint8_t ss, SPIClass *theSPI = &SPI); // Hardware SPI
+ Adafruit_PN532(uint8_t irq, uint8_t reset,
+ TwoWire *theWire = &Wire); // Hardware I2C
+ Adafruit_PN532(uint8_t reset, HardwareSerial *theSer); // Hardware UART
+ bool begin(void);
+
+ void reset(void);
+ void wakeup(void);
+
+ // Generic PN532 functions
+ bool SAMConfig(void);
+ uint32_t getFirmwareVersion(void);
+ bool sendCommandCheckAck(uint8_t *cmd, uint8_t cmdlen,
+ uint16_t timeout = 100);
+ bool writeGPIO(uint8_t pinstate);
+ uint8_t readGPIO(void);
+ bool setPassiveActivationRetries(uint8_t maxRetries);
+
+ // ISO14443A functions
+ bool readPassiveTargetID(
+ uint8_t cardbaudrate, uint8_t *uid, uint8_t *uidLength,
+ uint16_t timeout =
+ 0); // timeout 0 means no timeout - will block forever.
+ bool startPassiveTargetIDDetection(uint8_t cardbaudrate);
+ bool readDetectedPassiveTargetID(uint8_t *uid, uint8_t *uidLength);
+ bool inDataExchange(uint8_t *send, uint8_t sendLength, uint8_t *response,
+ uint8_t *responseLength);
+ bool inListPassiveTarget();
+ uint8_t AsTarget();
+ uint8_t getDataTarget(uint8_t *cmd, uint8_t *cmdlen);
+ uint8_t setDataTarget(uint8_t *cmd, uint8_t cmdlen);
+
+ // Mifare Classic functions
+ bool mifareclassic_IsFirstBlock(uint32_t uiBlock);
+ bool mifareclassic_IsTrailerBlock(uint32_t uiBlock);
+ uint8_t mifareclassic_AuthenticateBlock(uint8_t *uid, uint8_t uidLen,
+ uint32_t blockNumber,
+ uint8_t keyNumber,
+ uint8_t *keyData);
+ uint8_t mifareclassic_ReadDataBlock(uint8_t blockNumber, uint8_t *data);
+ uint8_t mifareclassic_WriteDataBlock(uint8_t blockNumber, uint8_t *data);
+ uint8_t mifareclassic_FormatNDEF(void);
+ uint8_t mifareclassic_WriteNDEFURI(uint8_t sectorNumber,
+ uint8_t uriIdentifier, const char *url);
+
+ // Mifare Ultralight functions
+ uint8_t mifareultralight_ReadPage(uint8_t page, uint8_t *buffer);
+ uint8_t mifareultralight_WritePage(uint8_t page, uint8_t *data);
+
+ // NTAG2xx functions
+ uint8_t ntag2xx_ReadPage(uint8_t page, uint8_t *buffer);
+ uint8_t ntag2xx_WritePage(uint8_t page, uint8_t *data);
+ uint8_t ntag2xx_WriteNDEFURI(uint8_t uriIdentifier, char *url,
+ uint8_t dataLen);
+
+ // Help functions to display formatted text
+ static void PrintHex(const byte *data, const uint32_t numBytes);
+ static void PrintHexChar(const byte *pbtData, const uint32_t numBytes);
+
+ private:
+ int8_t _irq = -1, _reset = -1, _cs = -1;
+ int8_t _uid[7]; // ISO14443A uid
+ int8_t _uidLen; // uid len
+ int8_t _key[6]; // Mifare Classic key
+ int8_t _inListedTag; // Tg number of inlisted tag.
+
+ // Low level communication functions that handle both SPI and I2C.
+ void readdata(uint8_t *buff, uint8_t n);
+ void writecommand(uint8_t *cmd, uint8_t cmdlen);
+ bool isready();
+ bool waitready(uint16_t timeout);
+ bool readack();
+
+ Adafruit_SPIDevice *spi_dev = NULL;
+ Adafruit_I2CDevice *i2c_dev = NULL;
+ HardwareSerial *ser_dev = NULL;
};
#endif
diff --git a/src/libs/BleConnectionStatus.cpp b/src/libs/BleConnectionStatus.cpp
index f01183b..83d3539 100644
--- a/src/libs/BleConnectionStatus.cpp
+++ b/src/libs/BleConnectionStatus.cpp
@@ -1,18 +1,17 @@
#include "BleConnectionStatus.h"
-BleConnectionStatus::BleConnectionStatus(void) {
-}
+BleConnectionStatus::BleConnectionStatus(void) {}
-void BleConnectionStatus::onConnect(BLEServer* pServer)
-{
- this->connected = true;
- BLE2902* desc = (BLE2902*)this->inputMouse->getDescriptorByUUID(BLEUUID((uint16_t)0x2902));
- desc->setNotifications(true);
+void BleConnectionStatus::onConnect(BLEServer *pServer) {
+ this->connected = true;
+ BLE2902 *desc = (BLE2902 *)this->inputMouse->getDescriptorByUUID(
+ BLEUUID((uint16_t)0x2902));
+ desc->setNotifications(true);
}
-void BleConnectionStatus::onDisconnect(BLEServer* pServer)
-{
- this->connected = false;
- BLE2902* desc = (BLE2902*)this->inputMouse->getDescriptorByUUID(BLEUUID((uint16_t)0x2902));
- desc->setNotifications(false);
+void BleConnectionStatus::onDisconnect(BLEServer *pServer) {
+ this->connected = false;
+ BLE2902 *desc = (BLE2902 *)this->inputMouse->getDescriptorByUUID(
+ BLEUUID((uint16_t)0x2902));
+ desc->setNotifications(false);
}
diff --git a/src/libs/BleConnectionStatus.h b/src/libs/BleConnectionStatus.h
index b703150..45b7185 100644
--- a/src/libs/BleConnectionStatus.h
+++ b/src/libs/BleConnectionStatus.h
@@ -3,18 +3,17 @@
#include "sdkconfig.h"
#if defined(CONFIG_BT_ENABLED)
-#include <BLEServer.h>
#include "BLE2902.h"
#include "BLECharacteristic.h"
+#include <BLEServer.h>
-class BleConnectionStatus : public BLEServerCallbacks
-{
-public:
- BleConnectionStatus(void);
- bool connected = false;
- void onConnect(BLEServer* pServer);
- void onDisconnect(BLEServer* pServer);
- BLECharacteristic* inputMouse;
+class BleConnectionStatus : public BLEServerCallbacks {
+ public:
+ BleConnectionStatus(void);
+ bool connected = false;
+ void onConnect(BLEServer *pServer);
+ void onDisconnect(BLEServer *pServer);
+ BLECharacteristic *inputMouse;
};
#endif // CONFIG_BT_ENABLED
diff --git a/src/libs/BleMouse.cpp b/src/libs/BleMouse.cpp
index 665121e..8f5c16e 100644
--- a/src/libs/BleMouse.cpp
+++ b/src/libs/BleMouse.cpp
@@ -1,173 +1,165 @@
-#include <BLEDevice.h>
-#include <BLEUtils.h>
-#include <BLEServer.h>
#include "BLE2902.h"
#include "BLEHIDDevice.h"
-#include "HIDTypes.h"
#include "HIDKeyboardTypes.h"
-#include <driver/adc.h>
+#include "HIDTypes.h"
#include "sdkconfig.h"
+#include <BLEDevice.h>
+#include <BLEServer.h>
+#include <BLEUtils.h>
+#include <driver/adc.h>
#include "BleConnectionStatus.h"
#include "BleMouse.h"
#if defined(CONFIG_ARDUHAL_ESP_LOG)
- #include "esp32-hal-log.h"
- #define LOG_TAG ""
+#include "esp32-hal-log.h"
+#define LOG_TAG ""
#else
- #include "esp_log.h"
- static const char* LOG_TAG = "BLEDevice";
+#include "esp_log.h"
+static const char *LOG_TAG = "BLEDevice";
#endif
static const uint8_t _hidReportDescriptor[] = {
- USAGE_PAGE(1), 0x01, // USAGE_PAGE (Generic Desktop)
- USAGE(1), 0x02, // USAGE (Mouse)
- COLLECTION(1), 0x01, // COLLECTION (Application)
- USAGE(1), 0x01, // USAGE (Pointer)
- COLLECTION(1), 0x00, // COLLECTION (Physical)
- // ------------------------------------------------- Buttons (Left, Right, Middle, Back, Forward)
- USAGE_PAGE(1), 0x09, // USAGE_PAGE (Button)
- USAGE_MINIMUM(1), 0x01, // USAGE_MINIMUM (Button 1)
- USAGE_MAXIMUM(1), 0x05, // USAGE_MAXIMUM (Button 5)
- LOGICAL_MINIMUM(1), 0x00, // LOGICAL_MINIMUM (0)
- LOGICAL_MAXIMUM(1), 0x01, // LOGICAL_MAXIMUM (1)
- REPORT_SIZE(1), 0x01, // REPORT_SIZE (1)
- REPORT_COUNT(1), 0x05, // REPORT_COUNT (5)
- HIDINPUT(1), 0x02, // INPUT (Data, Variable, Absolute) ;5 button bits
- // ------------------------------------------------- Padding
- REPORT_SIZE(1), 0x03, // REPORT_SIZE (3)
- REPORT_COUNT(1), 0x01, // REPORT_COUNT (1)
- HIDINPUT(1), 0x03, // INPUT (Constant, Variable, Absolute) ;3 bit padding
- // ------------------------------------------------- X/Y position, Wheel
- USAGE_PAGE(1), 0x01, // USAGE_PAGE (Generic Desktop)
- USAGE(1), 0x30, // USAGE (X)
- USAGE(1), 0x31, // USAGE (Y)
- USAGE(1), 0x38, // USAGE (Wheel)
- LOGICAL_MINIMUM(1), 0x81, // LOGICAL_MINIMUM (-127)
- LOGICAL_MAXIMUM(1), 0x7f, // LOGICAL_MAXIMUM (127)
- REPORT_SIZE(1), 0x08, // REPORT_SIZE (8)
- REPORT_COUNT(1), 0x03, // REPORT_COUNT (3)
- HIDINPUT(1), 0x06, // INPUT (Data, Variable, Relative) ;3 bytes (X,Y,Wheel)
- // ------------------------------------------------- Horizontal wheel
- USAGE_PAGE(1), 0x0c, // USAGE PAGE (Consumer Devices)
- USAGE(2), 0x38, 0x02, // USAGE (AC Pan)
- LOGICAL_MINIMUM(1), 0x81, // LOGICAL_MINIMUM (-127)
- LOGICAL_MAXIMUM(1), 0x7f, // LOGICAL_MAXIMUM (127)
- REPORT_SIZE(1), 0x08, // REPORT_SIZE (8)
- REPORT_COUNT(1), 0x01, // REPORT_COUNT (1)
- HIDINPUT(1), 0x06, // INPUT (Data, Var, Rel)
- END_COLLECTION(0), // END_COLLECTION
- END_COLLECTION(0) // END_COLLECTION
+ USAGE_PAGE(1), 0x01, // USAGE_PAGE (Generic Desktop)
+ USAGE(1), 0x02, // USAGE (Mouse)
+ COLLECTION(1), 0x01, // COLLECTION (Application)
+ USAGE(1), 0x01, // USAGE (Pointer)
+ COLLECTION(1), 0x00, // COLLECTION (Physical)
+ // ------------------------------------------------- Buttons (Left, Right,
+ // Middle, Back, Forward)
+ USAGE_PAGE(1), 0x09, // USAGE_PAGE (Button)
+ USAGE_MINIMUM(1), 0x01, // USAGE_MINIMUM (Button 1)
+ USAGE_MAXIMUM(1), 0x05, // USAGE_MAXIMUM (Button 5)
+ LOGICAL_MINIMUM(1), 0x00, // LOGICAL_MINIMUM (0)
+ LOGICAL_MAXIMUM(1), 0x01, // LOGICAL_MAXIMUM (1)
+ REPORT_SIZE(1), 0x01, // REPORT_SIZE (1)
+ REPORT_COUNT(1), 0x05, // REPORT_COUNT (5)
+ HIDINPUT(1), 0x02, // INPUT (Data, Variable, Absolute) ;5 button bits
+ // ------------------------------------------------- Padding
+ REPORT_SIZE(1), 0x03, // REPORT_SIZE (3)
+ REPORT_COUNT(1), 0x01, // REPORT_COUNT (1)
+ HIDINPUT(1),
+ 0x03, // INPUT (Constant, Variable, Absolute) ;3 bit padding
+ // ------------------------------------------------- X/Y position, Wheel
+ USAGE_PAGE(1), 0x01, // USAGE_PAGE (Generic Desktop)
+ USAGE(1), 0x30, // USAGE (X)
+ USAGE(1), 0x31, // USAGE (Y)
+ USAGE(1), 0x38, // USAGE (Wheel)
+ LOGICAL_MINIMUM(1), 0x81, // LOGICAL_MINIMUM (-127)
+ LOGICAL_MAXIMUM(1), 0x7f, // LOGICAL_MAXIMUM (127)
+ REPORT_SIZE(1), 0x08, // REPORT_SIZE (8)
+ REPORT_COUNT(1), 0x03, // REPORT_COUNT (3)
+ HIDINPUT(1),
+ 0x06, // INPUT (Data, Variable, Relative) ;3 bytes (X,Y,Wheel)
+ // ------------------------------------------------- Horizontal wheel
+ USAGE_PAGE(1), 0x0c, // USAGE PAGE (Consumer Devices)
+ USAGE(2), 0x38, 0x02, // USAGE (AC Pan)
+ LOGICAL_MINIMUM(1), 0x81, // LOGICAL_MINIMUM (-127)
+ LOGICAL_MAXIMUM(1), 0x7f, // LOGICAL_MAXIMUM (127)
+ REPORT_SIZE(1), 0x08, // REPORT_SIZE (8)
+ REPORT_COUNT(1), 0x01, // REPORT_COUNT (1)
+ HIDINPUT(1), 0x06, // INPUT (Data, Var, Rel)
+ END_COLLECTION(0), // END_COLLECTION
+ END_COLLECTION(0) // END_COLLECTION
};
-BleMouse::BleMouse(std::string deviceName, std::string deviceManufacturer, uint8_t batteryLevel) :
- _buttons(0),
- hid(0)
-{
- this->deviceName = deviceName;
- this->deviceManufacturer = deviceManufacturer;
- this->batteryLevel = batteryLevel;
- this->connectionStatus = new BleConnectionStatus();
+BleMouse::BleMouse(std::string deviceName, std::string deviceManufacturer,
+ uint8_t batteryLevel)
+ : _buttons(0), hid(0) {
+ this->deviceName = deviceName;
+ this->deviceManufacturer = deviceManufacturer;
+ this->batteryLevel = batteryLevel;
+ this->connectionStatus = new BleConnectionStatus();
}
-void BleMouse::begin(void)
-{
- xTaskCreate(this->taskServer, "server", 20000, (void *)this, 5, NULL);
+void BleMouse::begin(void) {
+ xTaskCreate(this->taskServer, "server", 20000, (void *)this, 5, NULL);
}
-void BleMouse::end(void)
-{
-}
+void BleMouse::end(void) {}
-void BleMouse::click(uint8_t b)
-{
- _buttons = b;
- move(0,0,0,0);
- _buttons = 0;
- move(0,0,0,0);
+void BleMouse::click(uint8_t b) {
+ _buttons = b;
+ move(0, 0, 0, 0);
+ _buttons = 0;
+ move(0, 0, 0, 0);
}
-void BleMouse::move(signed char x, signed char y, signed char wheel, signed char hWheel)
-{
- if (this->isConnected())
- {
- uint8_t m[5];
- m[0] = _buttons;
- m[1] = x;
- m[2] = y;
- m[3] = wheel;
- m[4] = hWheel;
- this->inputMouse->setValue(m, 5);
- this->inputMouse->notify();
- }
+void BleMouse::move(signed char x, signed char y, signed char wheel,
+ signed char hWheel) {
+ if (this->isConnected()) {
+ uint8_t m[5];
+ m[0] = _buttons;
+ m[1] = x;
+ m[2] = y;
+ m[3] = wheel;
+ m[4] = hWheel;
+ this->inputMouse->setValue(m, 5);
+ this->inputMouse->notify();
+ }
}
-void BleMouse::buttons(uint8_t b)
-{
- if (b != _buttons)
- {
- _buttons = b;
- move(0,0,0,0);
- }
+void BleMouse::buttons(uint8_t b) {
+ if (b != _buttons) {
+ _buttons = b;
+ move(0, 0, 0, 0);
+ }
}
-void BleMouse::press(uint8_t b)
-{
- buttons(_buttons | b);
-}
+void BleMouse::press(uint8_t b) { buttons(_buttons | b); }
-void BleMouse::release(uint8_t b)
-{
- buttons(_buttons & ~b);
-}
+void BleMouse::release(uint8_t b) { buttons(_buttons & ~b); }
-bool BleMouse::isPressed(uint8_t b)
-{
- if ((b & _buttons) > 0)
- return true;
- return false;
+bool BleMouse::isPressed(uint8_t b) {
+ if ((b & _buttons) > 0)
+ return true;
+ return false;
}
-bool BleMouse::isConnected(void) {
- return this->connectionStatus->connected;
-}
+bool BleMouse::isConnected(void) { return this->connectionStatus->connected; }
void BleMouse::setBatteryLevel(uint8_t level) {
- this->batteryLevel = level;
- if (hid != 0)
- this->hid->setBatteryLevel(this->batteryLevel);
+ this->batteryLevel = level;
+ if (hid != 0)
+ this->hid->setBatteryLevel(this->batteryLevel);
}
-void BleMouse::taskServer(void* pvParameter) {
- BleMouse* bleMouseInstance = (BleMouse *) pvParameter; //static_cast<BleMouse *>(pvParameter);
- BLEDevice::init(std::string(bleMouseInstance->deviceName.c_str()));
- BLEServer *pServer = BLEDevice::createServer();
- pServer->setCallbacks(bleMouseInstance->connectionStatus);
+void BleMouse::taskServer(void *pvParameter) {
+ BleMouse *bleMouseInstance =
+ (BleMouse *)pvParameter; // static_cast<BleMouse *>(pvParameter);
+ BLEDevice::init(std::string(bleMouseInstance->deviceName.c_str()));
+ BLEServer *pServer = BLEDevice::createServer();
+ pServer->setCallbacks(bleMouseInstance->connectionStatus);
- bleMouseInstance->hid = new BLEHIDDevice(pServer);
- bleMouseInstance->inputMouse = bleMouseInstance->hid->inputReport(0); // <-- input REPORTID from report map
- bleMouseInstance->connectionStatus->inputMouse = bleMouseInstance->inputMouse;
+ bleMouseInstance->hid = new BLEHIDDevice(pServer);
+ bleMouseInstance->inputMouse = bleMouseInstance->hid->inputReport(
+ 0); // <-- input REPORTID from report map
+ bleMouseInstance->connectionStatus->inputMouse =
+ bleMouseInstance->inputMouse;
- bleMouseInstance->hid->manufacturer()->setValue(std::string(bleMouseInstance->deviceManufacturer.c_str()));
+ bleMouseInstance->hid->manufacturer()->setValue(
+ std::string(bleMouseInstance->deviceManufacturer.c_str()));
- bleMouseInstance->hid->pnp(0x02, 0xe502, 0xa111, 0x0210);
- bleMouseInstance->hid->hidInfo(0x00,0x02);
+ bleMouseInstance->hid->pnp(0x02, 0xe502, 0xa111, 0x0210);
+ bleMouseInstance->hid->hidInfo(0x00, 0x02);
- BLESecurity *pSecurity = new BLESecurity();
+ BLESecurity *pSecurity = new BLESecurity();
- pSecurity->setAuthenticationMode(ESP_LE_AUTH_BOND);
+ pSecurity->setAuthenticationMode(ESP_LE_AUTH_BOND);
- bleMouseInstance->hid->reportMap((uint8_t*)_hidReportDescriptor, sizeof(_hidReportDescriptor));
- bleMouseInstance->hid->startServices();
+ bleMouseInstance->hid->reportMap((uint8_t *)_hidReportDescriptor,
+ sizeof(_hidReportDescriptor));
+ bleMouseInstance->hid->startServices();
- bleMouseInstance->onStarted(pServer);
+ bleMouseInstance->onStarted(pServer);
- BLEAdvertising *pAdvertising = pServer->getAdvertising();
- pAdvertising->setAppearance(HID_MOUSE);
- pAdvertising->addServiceUUID(bleMouseInstance->hid->hidService()->getUUID());
- pAdvertising->start();
- bleMouseInstance->hid->setBatteryLevel(bleMouseInstance->batteryLevel);
+ BLEAdvertising *pAdvertising = pServer->getAdvertising();
+ pAdvertising->setAppearance(HID_MOUSE);
+ pAdvertising->addServiceUUID(
+ bleMouseInstance->hid->hidService()->getUUID());
+ pAdvertising->start();
+ bleMouseInstance->hid->setBatteryLevel(bleMouseInstance->batteryLevel);
- ESP_LOGD(LOG_TAG, "Advertising started!");
- vTaskDelay(portMAX_DELAY); //delay(portMAX_DELAY);
+ ESP_LOGD(LOG_TAG, "Advertising started!");
+ vTaskDelay(portMAX_DELAY); // delay(portMAX_DELAY);
}
diff --git a/src/libs/BleMouse.h b/src/libs/BleMouse.h
index 8b4ab9b..4468189 100644
--- a/src/libs/BleMouse.h
+++ b/src/libs/BleMouse.h
@@ -3,42 +3,49 @@
#include "sdkconfig.h"
#if defined(CONFIG_BT_ENABLED)
-#include "BleConnectionStatus.h"
-#include "BLEHIDDevice.h"
#include "BLECharacteristic.h"
+#include "BLEHIDDevice.h"
+#include "BleConnectionStatus.h"
#define MOUSE_LEFT 1
#define MOUSE_RIGHT 2
#define MOUSE_MIDDLE 4
#define MOUSE_BACK 8
#define MOUSE_FORWARD 16
-#define MOUSE_ALL (MOUSE_LEFT | MOUSE_RIGHT | MOUSE_MIDDLE) # For compatibility with the Mouse library
+#define MOUSE_ALL \
+ (MOUSE_LEFT | MOUSE_RIGHT | \
+ MOUSE_MIDDLE) #For compatibility with the Mouse library
class BleMouse {
-private:
- uint8_t _buttons;
- BleConnectionStatus* connectionStatus;
- BLEHIDDevice* hid;
- BLECharacteristic* inputMouse;
- void buttons(uint8_t b);
- void rawAction(uint8_t msg[], char msgSize);
- static void taskServer(void* pvParameter);
-public:
- BleMouse(std::string deviceName = "ESP32 Bluetooth Mouse", std::string deviceManufacturer = "Espressif", uint8_t batteryLevel = 100);
- void begin(void);
- void end(void);
- void click(uint8_t b = MOUSE_LEFT);
- void move(signed char x, signed char y, signed char wheel = 0, signed char hWheel = 0);
- void press(uint8_t b = MOUSE_LEFT); // press LEFT by default
- void release(uint8_t b = MOUSE_LEFT); // release LEFT by default
- bool isPressed(uint8_t b = MOUSE_LEFT); // check LEFT by default
- bool isConnected(void);
- void setBatteryLevel(uint8_t level);
- uint8_t batteryLevel;
- std::string deviceManufacturer;
- std::string deviceName;
-protected:
- virtual void onStarted(BLEServer *pServer) { };
+ private:
+ uint8_t _buttons;
+ BleConnectionStatus *connectionStatus;
+ BLEHIDDevice *hid;
+ BLECharacteristic *inputMouse;
+ void buttons(uint8_t b);
+ void rawAction(uint8_t msg[], char msgSize);
+ static void taskServer(void *pvParameter);
+
+ public:
+ BleMouse(std::string deviceName = "ESP32 Bluetooth Mouse",
+ std::string deviceManufacturer = "Espressif",
+ uint8_t batteryLevel = 100);
+ void begin(void);
+ void end(void);
+ void click(uint8_t b = MOUSE_LEFT);
+ void move(signed char x, signed char y, signed char wheel = 0,
+ signed char hWheel = 0);
+ void press(uint8_t b = MOUSE_LEFT); // press LEFT by default
+ void release(uint8_t b = MOUSE_LEFT); // release LEFT by default
+ bool isPressed(uint8_t b = MOUSE_LEFT); // check LEFT by default
+ bool isConnected(void);
+ void setBatteryLevel(uint8_t level);
+ uint8_t batteryLevel;
+ std::string deviceManufacturer;
+ std::string deviceName;
+
+ protected:
+ virtual void onStarted(BLEServer *pServer) {};
};
#endif // CONFIG_BT_ENABLED
diff --git a/src/libs/ELECHOUSE_CC1101_SRC_DRV.cpp b/src/libs/ELECHOUSE_CC1101_SRC_DRV.cpp
index 5568989..ead012f 100644
--- a/src/libs/ELECHOUSE_CC1101_SRC_DRV.cpp
+++ b/src/libs/ELECHOUSE_CC1101_SRC_DRV.cpp
@@ -5,24 +5,25 @@
Version: November 12, 2010
This library is designed to use CC1101/CC1100 module on Arduino platform.
- CC1101/CC1100 module is an useful wireless module.Using the functions of the
- library, you can easily send and receive data by the CC1101/CC1100 module.
+ CC1101/CC1100 module is an useful wireless module.Using the functions of the
+ library, you can easily send and receive data by the CC1101/CC1100 module.
Just have fun!
For the details, please refer to the datasheet of CC1100/CC1101.
----------------------------------------------------------------------------------------------------------------
-cc1101 Driver for RC Switch. Mod by Little Satan. With permission to modify and publish Wilson Shen (ELECHOUSE).
+cc1101 Driver for RC Switch. Mod by Little Satan. With permission to modify and
+publish Wilson Shen (ELECHOUSE).
----------------------------------------------------------------------------------------------------------------
*/
-#include <SPI.h>
#include "ELECHOUSE_CC1101_SRC_DRV.h"
#include <Arduino.h>
+#include <SPI.h>
/****************************************************************/
-#define WRITE_BURST 0x40 //write burst
-#define READ_SINGLE 0x80 //read single
-#define READ_BURST 0xC0 //read burst
-#define BYTES_IN_RXFIFO 0x7F //byte number in RXfifo
-#define max_modul 6
+#define WRITE_BURST 0x40 // write burst
+#define READ_SINGLE 0x80 // read single
+#define READ_BURST 0xC0 // read burst
+#define BYTES_IN_RXFIFO 0x7F // byte number in RXfifo
+#define max_modul 6
SPIClass CCSPI(HSPI);
@@ -43,7 +44,7 @@ byte MOSI_PIN_M[max_modul];
byte SS_PIN_M[max_modul];
byte GDO0_M[max_modul];
byte GDO2_M[max_modul];
-byte gdo_set=0;
+byte gdo_set = 0;
bool spi = 0;
bool ccmode = 0;
float MHz = 433.92;
@@ -65,1245 +66,1417 @@ byte pc0PktForm;
byte pc0CRC_EN;
byte pc0LenConf;
byte trxstate = 0;
-byte clb1[2]= {24,28};
-byte clb2[2]= {31,38};
-byte clb3[2]= {65,76};
-byte clb4[2]= {77,79};
+byte clb1[2] = {24, 28};
+byte clb2[2] = {31, 38};
+byte clb3[2] = {65, 76};
+byte clb4[2] = {77, 79};
/****************************************************************/
-uint8_t PA_TABLE[8] {0x00,0xC0,0x00,0x00,0x00,0x00,0x00,0x00};
+uint8_t PA_TABLE[8]{0x00, 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
// -30 -20 -15 -10 0 5 7 10
-uint8_t PA_TABLE_315[8] {0x12,0x0D,0x1C,0x34,0x51,0x85,0xCB,0xC2,}; //300 - 348
-uint8_t PA_TABLE_433[8] {0x12,0x0E,0x1D,0x34,0x60,0x84,0xC8,0xC0,}; //387 - 464
+uint8_t PA_TABLE_315[8]{
+ 0x12, 0x0D, 0x1C, 0x34, 0x51, 0x85, 0xCB, 0xC2,
+}; // 300 - 348
+uint8_t PA_TABLE_433[8]{
+ 0x12, 0x0E, 0x1D, 0x34, 0x60, 0x84, 0xC8, 0xC0,
+}; // 387 - 464
// -30 -20 -15 -10 -6 0 5 7 10 12
-uint8_t PA_TABLE_868[10] {0x03,0x17,0x1D,0x26,0x37,0x50,0x86,0xCD,0xC5,0xC0,}; //779 - 899.99
+uint8_t PA_TABLE_868[10]{
+ 0x03, 0x17, 0x1D, 0x26, 0x37, 0x50, 0x86, 0xCD, 0xC5, 0xC0,
+}; // 779 - 899.99
// -30 -20 -15 -10 -6 0 5 7 10 11
-uint8_t PA_TABLE_915[10] {0x03,0x0E,0x1E,0x27,0x38,0x8E,0x84,0xCC,0xC3,0xC0,}; //900 - 928
-/****************************************************************
-*FUNCTION NAME:SpiStart
-*FUNCTION :spi communication start
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SpiStart(void)
-{
- // initialize the SPI pins
- pinMode(SCK_PIN, OUTPUT);
- pinMode(MOSI_PIN, OUTPUT);
- pinMode(MISO_PIN, INPUT);
- pinMode(SS_PIN, OUTPUT);
+uint8_t PA_TABLE_915[10]{
+ 0x03, 0x0E, 0x1E, 0x27, 0x38, 0x8E, 0x84, 0xCC, 0xC3, 0xC0,
+}; // 900 - 928
+/****************************************************************
+ *FUNCTION NAME:SpiStart
+ *FUNCTION :spi communication start
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SpiStart(void) {
+ // initialize the SPI pins
+ pinMode(SCK_PIN, OUTPUT);
+ pinMode(MOSI_PIN, OUTPUT);
+ pinMode(MISO_PIN, INPUT);
+ pinMode(SS_PIN, OUTPUT);
- // enable SPI
- #ifdef ESP32
- CCSPI.begin(SCK_PIN, MISO_PIN, MOSI_PIN, SS_PIN);
- #else
- CCSPI.begin();
- #endif
-}
-/****************************************************************
-*FUNCTION NAME:SpiEnd
-*FUNCTION :spi communication disable
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SpiEnd(void)
-{
- // disable SPI
- CCSPI.endTransaction();
- CCSPI.end();
-}
-/****************************************************************
-*FUNCTION NAME: GDO_Set()
-*FUNCTION : set GDO0,GDO2 pin for serial pinmode.
-*INPUT : none
-*OUTPUT : none
-****************************************************************/
-void ELECHOUSE_CC1101::GDO_Set (void)
-{
- pinMode(GDO0, OUTPUT);
- pinMode(GDO2, INPUT);
-}
-/****************************************************************
-*FUNCTION NAME: GDO_Set()
-*FUNCTION : set GDO0 for internal transmission mode.
-*INPUT : none
-*OUTPUT : none
-****************************************************************/
-void ELECHOUSE_CC1101::GDO0_Set (void)
-{
- pinMode(GDO0, INPUT);
-}
-/****************************************************************
-*FUNCTION NAME:Reset
-*FUNCTION :CC1101 reset //details refer datasheet of CC1101/CC1100//
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::Reset (void)
-{
- digitalWrite(SS_PIN, LOW);
- delay(1);
- digitalWrite(SS_PIN, HIGH);
- delay(1);
- digitalWrite(SS_PIN, LOW);
- while(digitalRead(MISO_PIN));
- CCSPI.transfer(CC1101_SRES);
- while(digitalRead(MISO_PIN));
- digitalWrite(SS_PIN, HIGH);
-}
-/****************************************************************
-*FUNCTION NAME:Init
-*FUNCTION :CC1101 initialization
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::Init(void)
-{
- setSpi();
- SpiStart(); //spi initialization
- digitalWrite(SS_PIN, HIGH);
- digitalWrite(SCK_PIN, HIGH);
- digitalWrite(MOSI_PIN, LOW);
- Reset(); //CC1101 reset
- RegConfigSettings(); //CC1101 register config
- SpiEnd();
-}
-/****************************************************************
-*FUNCTION NAME:SpiWriteReg
-*FUNCTION :CC1101 write data to register
-*INPUT :addr: register address; value: register value
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SpiWriteReg(byte addr, byte value)
-{
- SpiStart();
- digitalWrite(SS_PIN, LOW);
- while(digitalRead(MISO_PIN));
- CCSPI.transfer(addr);
- CCSPI.transfer(value);
- digitalWrite(SS_PIN, HIGH);
- SpiEnd();
-}
-/****************************************************************
-*FUNCTION NAME:SpiWriteBurstReg
-*FUNCTION :CC1101 write burst data to register
-*INPUT :addr: register address; buffer:register value array; num:number to write
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SpiWriteBurstReg(byte addr, byte *buffer, byte num)
-{
- byte i, temp;
- SpiStart();
- temp = addr | WRITE_BURST;
- digitalWrite(SS_PIN, LOW);
- while(digitalRead(MISO_PIN));
- CCSPI.transfer(temp);
- for (i = 0; i < num; i++)
- {
- CCSPI.transfer(buffer[i]);
- }
- digitalWrite(SS_PIN, HIGH);
- SpiEnd();
-}
-/****************************************************************
-*FUNCTION NAME:SpiStrobe
-*FUNCTION :CC1101 Strobe
-*INPUT :strobe: command; //refer define in CC1101.h//
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SpiStrobe(byte strobe)
-{
- SpiStart();
- digitalWrite(SS_PIN, LOW);
- while(digitalRead(MISO_PIN));
- CCSPI.transfer(strobe);
- digitalWrite(SS_PIN, HIGH);
- SpiEnd();
-}
-/****************************************************************
-*FUNCTION NAME:SpiReadReg
-*FUNCTION :CC1101 read data from register
-*INPUT :addr: register address
-*OUTPUT :register value
-****************************************************************/
-byte ELECHOUSE_CC1101::SpiReadReg(byte addr)
-{
- byte temp, value;
- SpiStart();
- temp = addr| READ_SINGLE;
- digitalWrite(SS_PIN, LOW);
- while(digitalRead(MISO_PIN));
- CCSPI.transfer(temp);
- value=CCSPI.transfer(0);
- digitalWrite(SS_PIN, HIGH);
- SpiEnd();
- return value;
+// enable SPI
+#ifdef ESP32
+ CCSPI.begin(SCK_PIN, MISO_PIN, MOSI_PIN, SS_PIN);
+#else
+ CCSPI.begin();
+#endif
+}
+/****************************************************************
+ *FUNCTION NAME:SpiEnd
+ *FUNCTION :spi communication disable
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SpiEnd(void) {
+ // disable SPI
+ CCSPI.endTransaction();
+ CCSPI.end();
+}
+/****************************************************************
+ *FUNCTION NAME: GDO_Set()
+ *FUNCTION : set GDO0,GDO2 pin for serial pinmode.
+ *INPUT : none
+ *OUTPUT : none
+ ****************************************************************/
+void ELECHOUSE_CC1101::GDO_Set(void) {
+ pinMode(GDO0, OUTPUT);
+ pinMode(GDO2, INPUT);
+}
+/****************************************************************
+ *FUNCTION NAME: GDO_Set()
+ *FUNCTION : set GDO0 for internal transmission mode.
+ *INPUT : none
+ *OUTPUT : none
+ ****************************************************************/
+void ELECHOUSE_CC1101::GDO0_Set(void) { pinMode(GDO0, INPUT); }
+/****************************************************************
+ *FUNCTION NAME:Reset
+ *FUNCTION :CC1101 reset //details refer datasheet of CC1101/CC1100//
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::Reset(void) {
+ digitalWrite(SS_PIN, LOW);
+ delay(1);
+ digitalWrite(SS_PIN, HIGH);
+ delay(1);
+ digitalWrite(SS_PIN, LOW);
+ while (digitalRead(MISO_PIN))
+ ;
+ CCSPI.transfer(CC1101_SRES);
+ while (digitalRead(MISO_PIN))
+ ;
+ digitalWrite(SS_PIN, HIGH);
+}
+/****************************************************************
+ *FUNCTION NAME:Init
+ *FUNCTION :CC1101 initialization
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::Init(void) {
+ setSpi();
+ SpiStart(); // spi initialization
+ digitalWrite(SS_PIN, HIGH);
+ digitalWrite(SCK_PIN, HIGH);
+ digitalWrite(MOSI_PIN, LOW);
+ Reset(); // CC1101 reset
+ RegConfigSettings(); // CC1101 register config
+ SpiEnd();
+}
+/****************************************************************
+ *FUNCTION NAME:SpiWriteReg
+ *FUNCTION :CC1101 write data to register
+ *INPUT :addr: register address; value: register value
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SpiWriteReg(byte addr, byte value) {
+ SpiStart();
+ digitalWrite(SS_PIN, LOW);
+ while (digitalRead(MISO_PIN))
+ ;
+ CCSPI.transfer(addr);
+ CCSPI.transfer(value);
+ digitalWrite(SS_PIN, HIGH);
+ SpiEnd();
+}
+/****************************************************************
+ *FUNCTION NAME:SpiWriteBurstReg
+ *FUNCTION :CC1101 write burst data to register
+ *INPUT :addr: register address; buffer:register value array; num:number
+ * to write OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SpiWriteBurstReg(byte addr, byte *buffer, byte num) {
+ byte i, temp;
+ SpiStart();
+ temp = addr | WRITE_BURST;
+ digitalWrite(SS_PIN, LOW);
+ while (digitalRead(MISO_PIN))
+ ;
+ CCSPI.transfer(temp);
+ for (i = 0; i < num; i++) {
+ CCSPI.transfer(buffer[i]);
+ }
+ digitalWrite(SS_PIN, HIGH);
+ SpiEnd();
+}
+/****************************************************************
+ *FUNCTION NAME:SpiStrobe
+ *FUNCTION :CC1101 Strobe
+ *INPUT :strobe: command; //refer define in CC1101.h//
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SpiStrobe(byte strobe) {
+ SpiStart();
+ digitalWrite(SS_PIN, LOW);
+ while (digitalRead(MISO_PIN))
+ ;
+ CCSPI.transfer(strobe);
+ digitalWrite(SS_PIN, HIGH);
+ SpiEnd();
+}
+/****************************************************************
+ *FUNCTION NAME:SpiReadReg
+ *FUNCTION :CC1101 read data from register
+ *INPUT :addr: register address
+ *OUTPUT :register value
+ ****************************************************************/
+byte ELECHOUSE_CC1101::SpiReadReg(byte addr) {
+ byte temp, value;
+ SpiStart();
+ temp = addr | READ_SINGLE;
+ digitalWrite(SS_PIN, LOW);
+ while (digitalRead(MISO_PIN))
+ ;
+ CCSPI.transfer(temp);
+ value = CCSPI.transfer(0);
+ digitalWrite(SS_PIN, HIGH);
+ SpiEnd();
+ return value;
}
/****************************************************************
-*FUNCTION NAME:SpiReadBurstReg
-*FUNCTION :CC1101 read burst data from register
-*INPUT :addr: register address; buffer:array to store register value; num: number to read
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SpiReadBurstReg(byte addr, byte *buffer, byte num)
-{
- byte i,temp;
- SpiStart();
- temp = addr | READ_BURST;
- digitalWrite(SS_PIN, LOW);
- while(digitalRead(MISO_PIN));
- CCSPI.transfer(temp);
- for(i=0;i<num;i++)
- {
- buffer[i]=CCSPI.transfer(0);
- }
- digitalWrite(SS_PIN, HIGH);
- SpiEnd();
+ *FUNCTION NAME:SpiReadBurstReg
+ *FUNCTION :CC1101 read burst data from register
+ *INPUT :addr: register address; buffer:array to store register value;
+ * num: number to read OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SpiReadBurstReg(byte addr, byte *buffer, byte num) {
+ byte i, temp;
+ SpiStart();
+ temp = addr | READ_BURST;
+ digitalWrite(SS_PIN, LOW);
+ while (digitalRead(MISO_PIN))
+ ;
+ CCSPI.transfer(temp);
+ for (i = 0; i < num; i++) {
+ buffer[i] = CCSPI.transfer(0);
+ }
+ digitalWrite(SS_PIN, HIGH);
+ SpiEnd();
}
/****************************************************************
-*FUNCTION NAME:SpiReadStatus
-*FUNCTION :CC1101 read status register
-*INPUT :addr: register address
-*OUTPUT :status value
-****************************************************************/
-byte ELECHOUSE_CC1101::SpiReadStatus(byte addr)
-{
- byte value,temp;
- SpiStart();
- temp = addr | READ_BURST;
- digitalWrite(SS_PIN, LOW);
- while(digitalRead(MISO_PIN));
- CCSPI.transfer(temp);
- value=CCSPI.transfer(0);
- digitalWrite(SS_PIN, HIGH);
- SpiEnd();
- return value;
-}
-/****************************************************************
-*FUNCTION NAME:SPI pin Settings
-*FUNCTION :Set Spi pins
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setSpi(void){
- if (spi == 0){
- #if defined __AVR_ATmega168__ || defined __AVR_ATmega328P__
- SCK_PIN = 13; MISO_PIN = 12; MOSI_PIN = 11; SS_PIN = 10;
- #elif defined __AVR_ATmega1280__ || defined __AVR_ATmega2560__
- SCK_PIN = 52; MISO_PIN = 50; MOSI_PIN = 51; SS_PIN = 53;
- #elif ESP8266
- SCK_PIN = 14; MISO_PIN = 12; MOSI_PIN = 13; SS_PIN = 15;
- #elif ESP32
- SCK_PIN = 18; MISO_PIN = 19; MOSI_PIN = 23; SS_PIN = 5;
- #else
- SCK_PIN = 13; MISO_PIN = 12; MOSI_PIN = 11; SS_PIN = 10;
- #endif
-}
-}
-/****************************************************************
-*FUNCTION NAME:COSTUM SPI
-*FUNCTION :set costum spi pins.
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setSpiPin(byte sck, byte miso, byte mosi, byte ss){
- spi = 1;
- SCK_PIN = sck;
- MISO_PIN = miso;
- MOSI_PIN = mosi;
- SS_PIN = ss;
-}
-/****************************************************************
-*FUNCTION NAME:COSTUM SPI
-*FUNCTION :set costum spi pins.
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::addSpiPin(byte sck, byte miso, byte mosi, byte ss, byte modul){
- spi = 1;
- SCK_PIN_M[modul] = sck;
- MISO_PIN_M[modul] = miso;
- MOSI_PIN_M[modul] = mosi;
- SS_PIN_M[modul] = ss;
-}
-/****************************************************************
-*FUNCTION NAME:GDO Pin settings
-*FUNCTION :set GDO Pins
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setGDO(byte gdo0, byte gdo2){
-GDO0 = gdo0;
-GDO2 = gdo2;
-GDO_Set();
-}
-/****************************************************************
-*FUNCTION NAME:GDO0 Pin setting
-*FUNCTION :set GDO0 Pin
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setGDO0(byte gdo0){
-GDO0 = gdo0;
-GDO0_Set();
-}
-/****************************************************************
-*FUNCTION NAME:GDO Pin settings
-*FUNCTION :add GDO Pins
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::addGDO(byte gdo0, byte gdo2, byte modul){
-GDO0_M[modul] = gdo0;
-GDO2_M[modul] = gdo2;
-gdo_set=2;
-GDO_Set();
-}
-/****************************************************************
-*FUNCTION NAME:add GDO0 Pin
-*FUNCTION :add GDO0 Pin
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::addGDO0(byte gdo0, byte modul){
-GDO0_M[modul] = gdo0;
-gdo_set=1;
-GDO0_Set();
-}
-/****************************************************************
-*FUNCTION NAME:set Modul
-*FUNCTION :change modul
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setModul(byte modul){
- SCK_PIN = SCK_PIN_M[modul];
- MISO_PIN = MISO_PIN_M[modul];
- MOSI_PIN = MOSI_PIN_M[modul];
- SS_PIN = SS_PIN_M[modul];
- if (gdo_set==1){
- GDO0 = GDO0_M[modul];
- }
- else if (gdo_set==2){
- GDO0 = GDO0_M[modul];
- GDO2 = GDO2_M[modul];
- }
-}
-/****************************************************************
-*FUNCTION NAME:CCMode
-*FUNCTION :Format of RX and TX data
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setCCMode(bool s){
-ccmode = s;
-if (ccmode == 1){
-SpiWriteReg(CC1101_IOCFG2, 0x0B);
-SpiWriteReg(CC1101_IOCFG0, 0x06);
-SpiWriteReg(CC1101_PKTCTRL0, 0x05);
-SpiWriteReg(CC1101_MDMCFG3, 0xF8);
-SpiWriteReg(CC1101_MDMCFG4,11+m4RxBw);
-}else{
-SpiWriteReg(CC1101_IOCFG2, 0x0D);
-SpiWriteReg(CC1101_IOCFG0, 0x0D);
-SpiWriteReg(CC1101_PKTCTRL0, 0x32);
-SpiWriteReg(CC1101_MDMCFG3, 0x93);
-SpiWriteReg(CC1101_MDMCFG4, 7+m4RxBw);
-}
-setModulation(modulation);
-}
-/****************************************************************
-*FUNCTION NAME:Modulation
-*FUNCTION :set CC1101 Modulation
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setModulation(byte m){
-if (m>4){m=4;}
-modulation = m;
-Split_MDMCFG2();
-switch (m)
-{
-case 0: m2MODFM=0x00; frend0=0x10; break; // 2-FSK
-case 1: m2MODFM=0x10; frend0=0x10; break; // GFSK
-case 2: m2MODFM=0x30; frend0=0x11; break; // ASK
-case 3: m2MODFM=0x40; frend0=0x10; break; // 4-FSK
-case 4: m2MODFM=0x70; frend0=0x10; break; // MSK
-}
-SpiWriteReg(CC1101_MDMCFG2, m2DCOFF+m2MODFM+m2MANCH+m2SYNCM);
-SpiWriteReg(CC1101_FREND0, frend0);
-setPA(pa);
-}
-/****************************************************************
-*FUNCTION NAME:PA Power
-*FUNCTION :set CC1101 PA Power
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setPA(int p)
-{
-int a;
-pa = p;
+ *FUNCTION NAME:SpiReadStatus
+ *FUNCTION :CC1101 read status register
+ *INPUT :addr: register address
+ *OUTPUT :status value
+ ****************************************************************/
+byte ELECHOUSE_CC1101::SpiReadStatus(byte addr) {
+ byte value, temp;
+ SpiStart();
+ temp = addr | READ_BURST;
+ digitalWrite(SS_PIN, LOW);
+ while (digitalRead(MISO_PIN))
+ ;
+ CCSPI.transfer(temp);
+ value = CCSPI.transfer(0);
+ digitalWrite(SS_PIN, HIGH);
+ SpiEnd();
+ return value;
+}
+/****************************************************************
+ *FUNCTION NAME:SPI pin Settings
+ *FUNCTION :Set Spi pins
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setSpi(void) {
+ if (spi == 0) {
+#if defined __AVR_ATmega168__ || defined __AVR_ATmega328P__
+ SCK_PIN = 13;
+ MISO_PIN = 12;
+ MOSI_PIN = 11;
+ SS_PIN = 10;
+#elif defined __AVR_ATmega1280__ || defined __AVR_ATmega2560__
+ SCK_PIN = 52;
+ MISO_PIN = 50;
+ MOSI_PIN = 51;
+ SS_PIN = 53;
+#elif ESP8266
+ SCK_PIN = 14;
+ MISO_PIN = 12;
+ MOSI_PIN = 13;
+ SS_PIN = 15;
+#elif ESP32
+ SCK_PIN = 18;
+ MISO_PIN = 19;
+ MOSI_PIN = 23;
+ SS_PIN = 5;
+#else
+ SCK_PIN = 13;
+ MISO_PIN = 12;
+ MOSI_PIN = 11;
+ SS_PIN = 10;
+#endif
+ }
+}
+/****************************************************************
+ *FUNCTION NAME:COSTUM SPI
+ *FUNCTION :set costum spi pins.
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setSpiPin(byte sck, byte miso, byte mosi, byte ss) {
+ spi = 1;
+ SCK_PIN = sck;
+ MISO_PIN = miso;
+ MOSI_PIN = mosi;
+ SS_PIN = ss;
+}
+/****************************************************************
+ *FUNCTION NAME:COSTUM SPI
+ *FUNCTION :set costum spi pins.
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::addSpiPin(byte sck, byte miso, byte mosi, byte ss,
+ byte modul) {
+ spi = 1;
+ SCK_PIN_M[modul] = sck;
+ MISO_PIN_M[modul] = miso;
+ MOSI_PIN_M[modul] = mosi;
+ SS_PIN_M[modul] = ss;
+}
+/****************************************************************
+ *FUNCTION NAME:GDO Pin settings
+ *FUNCTION :set GDO Pins
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setGDO(byte gdo0, byte gdo2) {
+ GDO0 = gdo0;
+ GDO2 = gdo2;
+ GDO_Set();
+}
+/****************************************************************
+ *FUNCTION NAME:GDO0 Pin setting
+ *FUNCTION :set GDO0 Pin
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setGDO0(byte gdo0) {
+ GDO0 = gdo0;
+ GDO0_Set();
+}
+/****************************************************************
+ *FUNCTION NAME:GDO Pin settings
+ *FUNCTION :add GDO Pins
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::addGDO(byte gdo0, byte gdo2, byte modul) {
+ GDO0_M[modul] = gdo0;
+ GDO2_M[modul] = gdo2;
+ gdo_set = 2;
+ GDO_Set();
+}
+/****************************************************************
+ *FUNCTION NAME:add GDO0 Pin
+ *FUNCTION :add GDO0 Pin
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::addGDO0(byte gdo0, byte modul) {
+ GDO0_M[modul] = gdo0;
+ gdo_set = 1;
+ GDO0_Set();
+}
+/****************************************************************
+ *FUNCTION NAME:set Modul
+ *FUNCTION :change modul
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setModul(byte modul) {
+ SCK_PIN = SCK_PIN_M[modul];
+ MISO_PIN = MISO_PIN_M[modul];
+ MOSI_PIN = MOSI_PIN_M[modul];
+ SS_PIN = SS_PIN_M[modul];
+ if (gdo_set == 1) {
+ GDO0 = GDO0_M[modul];
+ } else if (gdo_set == 2) {
+ GDO0 = GDO0_M[modul];
+ GDO2 = GDO2_M[modul];
+ }
+}
+/****************************************************************
+ *FUNCTION NAME:CCMode
+ *FUNCTION :Format of RX and TX data
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setCCMode(bool s) {
+ ccmode = s;
+ if (ccmode == 1) {
+ SpiWriteReg(CC1101_IOCFG2, 0x0B);
+ SpiWriteReg(CC1101_IOCFG0, 0x06);
+ SpiWriteReg(CC1101_PKTCTRL0, 0x05);
+ SpiWriteReg(CC1101_MDMCFG3, 0xF8);
+ SpiWriteReg(CC1101_MDMCFG4, 11 + m4RxBw);
+ } else {
+ SpiWriteReg(CC1101_IOCFG2, 0x0D);
+ SpiWriteReg(CC1101_IOCFG0, 0x0D);
+ SpiWriteReg(CC1101_PKTCTRL0, 0x32);
+ SpiWriteReg(CC1101_MDMCFG3, 0x93);
+ SpiWriteReg(CC1101_MDMCFG4, 7 + m4RxBw);
+ }
+ setModulation(modulation);
+}
+/****************************************************************
+ *FUNCTION NAME:Modulation
+ *FUNCTION :set CC1101 Modulation
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setModulation(byte m) {
+ if (m > 4) {
+ m = 4;
+ }
+ modulation = m;
+ Split_MDMCFG2();
+ switch (m) {
+ case 0:
+ m2MODFM = 0x00;
+ frend0 = 0x10;
+ break; // 2-FSK
+ case 1:
+ m2MODFM = 0x10;
+ frend0 = 0x10;
+ break; // GFSK
+ case 2:
+ m2MODFM = 0x30;
+ frend0 = 0x11;
+ break; // ASK
+ case 3:
+ m2MODFM = 0x40;
+ frend0 = 0x10;
+ break; // 4-FSK
+ case 4:
+ m2MODFM = 0x70;
+ frend0 = 0x10;
+ break; // MSK
+ }
+ SpiWriteReg(CC1101_MDMCFG2, m2DCOFF + m2MODFM + m2MANCH + m2SYNCM);
+ SpiWriteReg(CC1101_FREND0, frend0);
+ setPA(pa);
+}
+/****************************************************************
+ *FUNCTION NAME:PA Power
+ *FUNCTION :set CC1101 PA Power
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setPA(int p) {
+ int a;
+ pa = p;
-if (MHz >= 300 && MHz <= 348){
-if (pa <= -30){a = PA_TABLE_315[0];}
-else if (pa > -30 && pa <= -20){a = PA_TABLE_315[1];}
-else if (pa > -20 && pa <= -15){a = PA_TABLE_315[2];}
-else if (pa > -15 && pa <= -10){a = PA_TABLE_315[3];}
-else if (pa > -10 && pa <= 0){a = PA_TABLE_315[4];}
-else if (pa > 0 && pa <= 5){a = PA_TABLE_315[5];}
-else if (pa > 5 && pa <= 7){a = PA_TABLE_315[6];}
-else if (pa > 7){a = PA_TABLE_315[7];}
-last_pa = 1;
-}
-else if (MHz >= 378 && MHz <= 464){
-if (pa <= -30){a = PA_TABLE_433[0];}
-else if (pa > -30 && pa <= -20){a = PA_TABLE_433[1];}
-else if (pa > -20 && pa <= -15){a = PA_TABLE_433[2];}
-else if (pa > -15 && pa <= -10){a = PA_TABLE_433[3];}
-else if (pa > -10 && pa <= 0){a = PA_TABLE_433[4];}
-else if (pa > 0 && pa <= 5){a = PA_TABLE_433[5];}
-else if (pa > 5 && pa <= 7){a = PA_TABLE_433[6];}
-else if (pa > 7){a = PA_TABLE_433[7];}
-last_pa = 2;
-}
-else if (MHz >= 779 && MHz <= 899.99){
-if (pa <= -30){a = PA_TABLE_868[0];}
-else if (pa > -30 && pa <= -20){a = PA_TABLE_868[1];}
-else if (pa > -20 && pa <= -15){a = PA_TABLE_868[2];}
-else if (pa > -15 && pa <= -10){a = PA_TABLE_868[3];}
-else if (pa > -10 && pa <= -6){a = PA_TABLE_868[4];}
-else if (pa > -6 && pa <= 0){a = PA_TABLE_868[5];}
-else if (pa > 0 && pa <= 5){a = PA_TABLE_868[6];}
-else if (pa > 5 && pa <= 7){a = PA_TABLE_868[7];}
-else if (pa > 7 && pa <= 10){a = PA_TABLE_868[8];}
-else if (pa > 10){a = PA_TABLE_868[9];}
-last_pa = 3;
-}
-else if (MHz >= 900 && MHz <= 928){
-if (pa <= -30){a = PA_TABLE_915[0];}
-else if (pa > -30 && pa <= -20){a = PA_TABLE_915[1];}
-else if (pa > -20 && pa <= -15){a = PA_TABLE_915[2];}
-else if (pa > -15 && pa <= -10){a = PA_TABLE_915[3];}
-else if (pa > -10 && pa <= -6){a = PA_TABLE_915[4];}
-else if (pa > -6 && pa <= 0){a = PA_TABLE_915[5];}
-else if (pa > 0 && pa <= 5){a = PA_TABLE_915[6];}
-else if (pa > 5 && pa <= 7){a = PA_TABLE_915[7];}
-else if (pa > 7 && pa <= 10){a = PA_TABLE_915[8];}
-else if (pa > 10){a = PA_TABLE_915[9];}
-last_pa = 4;
-}
-if (modulation == 2){
-PA_TABLE[0] = 0;
-PA_TABLE[1] = a;
-}else{
-PA_TABLE[0] = a;
-PA_TABLE[1] = 0;
-}
-SpiWriteBurstReg(CC1101_PATABLE,PA_TABLE,8);
-}
-/****************************************************************
-*FUNCTION NAME:Frequency Calculator
-*FUNCTION :Calculate the basic frequency.
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setMHZ(float mhz){
-byte freq2 = 0;
-byte freq1 = 0;
-byte freq0 = 0;
+ if (MHz >= 300 && MHz <= 348) {
+ if (pa <= -30) {
+ a = PA_TABLE_315[0];
+ } else if (pa > -30 && pa <= -20) {
+ a = PA_TABLE_315[1];
+ } else if (pa > -20 && pa <= -15) {
+ a = PA_TABLE_315[2];
+ } else if (pa > -15 && pa <= -10) {
+ a = PA_TABLE_315[3];
+ } else if (pa > -10 && pa <= 0) {
+ a = PA_TABLE_315[4];
+ } else if (pa > 0 && pa <= 5) {
+ a = PA_TABLE_315[5];
+ } else if (pa > 5 && pa <= 7) {
+ a = PA_TABLE_315[6];
+ } else if (pa > 7) {
+ a = PA_TABLE_315[7];
+ }
+ last_pa = 1;
+ } else if (MHz >= 378 && MHz <= 464) {
+ if (pa <= -30) {
+ a = PA_TABLE_433[0];
+ } else if (pa > -30 && pa <= -20) {
+ a = PA_TABLE_433[1];
+ } else if (pa > -20 && pa <= -15) {
+ a = PA_TABLE_433[2];
+ } else if (pa > -15 && pa <= -10) {
+ a = PA_TABLE_433[3];
+ } else if (pa > -10 && pa <= 0) {
+ a = PA_TABLE_433[4];
+ } else if (pa > 0 && pa <= 5) {
+ a = PA_TABLE_433[5];
+ } else if (pa > 5 && pa <= 7) {
+ a = PA_TABLE_433[6];
+ } else if (pa > 7) {
+ a = PA_TABLE_433[7];
+ }
+ last_pa = 2;
+ } else if (MHz >= 779 && MHz <= 899.99) {
+ if (pa <= -30) {
+ a = PA_TABLE_868[0];
+ } else if (pa > -30 && pa <= -20) {
+ a = PA_TABLE_868[1];
+ } else if (pa > -20 && pa <= -15) {
+ a = PA_TABLE_868[2];
+ } else if (pa > -15 && pa <= -10) {
+ a = PA_TABLE_868[3];
+ } else if (pa > -10 && pa <= -6) {
+ a = PA_TABLE_868[4];
+ } else if (pa > -6 && pa <= 0) {
+ a = PA_TABLE_868[5];
+ } else if (pa > 0 && pa <= 5) {
+ a = PA_TABLE_868[6];
+ } else if (pa > 5 && pa <= 7) {
+ a = PA_TABLE_868[7];
+ } else if (pa > 7 && pa <= 10) {
+ a = PA_TABLE_868[8];
+ } else if (pa > 10) {
+ a = PA_TABLE_868[9];
+ }
+ last_pa = 3;
+ } else if (MHz >= 900 && MHz <= 928) {
+ if (pa <= -30) {
+ a = PA_TABLE_915[0];
+ } else if (pa > -30 && pa <= -20) {
+ a = PA_TABLE_915[1];
+ } else if (pa > -20 && pa <= -15) {
+ a = PA_TABLE_915[2];
+ } else if (pa > -15 && pa <= -10) {
+ a = PA_TABLE_915[3];
+ } else if (pa > -10 && pa <= -6) {
+ a = PA_TABLE_915[4];
+ } else if (pa > -6 && pa <= 0) {
+ a = PA_TABLE_915[5];
+ } else if (pa > 0 && pa <= 5) {
+ a = PA_TABLE_915[6];
+ } else if (pa > 5 && pa <= 7) {
+ a = PA_TABLE_915[7];
+ } else if (pa > 7 && pa <= 10) {
+ a = PA_TABLE_915[8];
+ } else if (pa > 10) {
+ a = PA_TABLE_915[9];
+ }
+ last_pa = 4;
+ }
+ if (modulation == 2) {
+ PA_TABLE[0] = 0;
+ PA_TABLE[1] = a;
+ } else {
+ PA_TABLE[0] = a;
+ PA_TABLE[1] = 0;
+ }
+ SpiWriteBurstReg(CC1101_PATABLE, PA_TABLE, 8);
+}
+/****************************************************************
+ *FUNCTION NAME:Frequency Calculator
+ *FUNCTION :Calculate the basic frequency.
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setMHZ(float mhz) {
+ byte freq2 = 0;
+ byte freq1 = 0;
+ byte freq0 = 0;
-MHz = mhz;
+ MHz = mhz;
-for (bool i = 0; i==0;){
-if (mhz >= 26){
-mhz-=26;
-freq2+=1;
-}
-else if (mhz >= 0.1015625){
-mhz-=0.1015625;
-freq1+=1;
-}
-else if (mhz >= 0.00039675){
-mhz-=0.00039675;
-freq0+=1;
-}
-else{i=1;}
-}
-if (freq0 > 255){freq1+=1;freq0-=256;}
+ for (bool i = 0; i == 0;) {
+ if (mhz >= 26) {
+ mhz -= 26;
+ freq2 += 1;
+ } else if (mhz >= 0.1015625) {
+ mhz -= 0.1015625;
+ freq1 += 1;
+ } else if (mhz >= 0.00039675) {
+ mhz -= 0.00039675;
+ freq0 += 1;
+ } else {
+ i = 1;
+ }
+ }
+ if (freq0 > 255) {
+ freq1 += 1;
+ freq0 -= 256;
+ }
-SpiWriteReg(CC1101_FREQ2, freq2);
-SpiWriteReg(CC1101_FREQ1, freq1);
-SpiWriteReg(CC1101_FREQ0, freq0);
+ SpiWriteReg(CC1101_FREQ2, freq2);
+ SpiWriteReg(CC1101_FREQ1, freq1);
+ SpiWriteReg(CC1101_FREQ0, freq0);
-Calibrate();
+ Calibrate();
}
/****************************************************************
-*FUNCTION NAME:Calibrate
-*FUNCTION :Calibrate frequency
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::Calibrate(void){
+ *FUNCTION NAME:Calibrate
+ *FUNCTION :Calibrate frequency
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::Calibrate(void) {
+
+ if (MHz >= 300 && MHz <= 348) {
+ SpiWriteReg(CC1101_FSCTRL0, map(MHz, 300, 348, clb1[0], clb1[1]));
+ if (MHz < 322.88) {
+ SpiWriteReg(CC1101_TEST0, 0x0B);
+ } else {
+ SpiWriteReg(CC1101_TEST0, 0x09);
+ int s = ELECHOUSE_cc1101.SpiReadStatus(CC1101_FSCAL2);
+ if (s < 32) {
+ SpiWriteReg(CC1101_FSCAL2, s + 32);
+ }
+ if (last_pa != 1) {
+ setPA(pa);
+ }
+ }
+ } else if (MHz >= 378 && MHz <= 464) {
+ SpiWriteReg(CC1101_FSCTRL0, map(MHz, 378, 464, clb2[0], clb2[1]));
+ if (MHz < 430.5) {
+ SpiWriteReg(CC1101_TEST0, 0x0B);
+ } else {
+ SpiWriteReg(CC1101_TEST0, 0x09);
+ int s = ELECHOUSE_cc1101.SpiReadStatus(CC1101_FSCAL2);
+ if (s < 32) {
+ SpiWriteReg(CC1101_FSCAL2, s + 32);
+ }
+ if (last_pa != 2) {
+ setPA(pa);
+ }
+ }
+ } else if (MHz >= 779 && MHz <= 899.99) {
+ SpiWriteReg(CC1101_FSCTRL0, map(MHz, 779, 899, clb3[0], clb3[1]));
+ if (MHz < 861) {
+ SpiWriteReg(CC1101_TEST0, 0x0B);
+ } else {
+ SpiWriteReg(CC1101_TEST0, 0x09);
+ int s = ELECHOUSE_cc1101.SpiReadStatus(CC1101_FSCAL2);
+ if (s < 32) {
+ SpiWriteReg(CC1101_FSCAL2, s + 32);
+ }
+ if (last_pa != 3) {
+ setPA(pa);
+ }
+ }
+ } else if (MHz >= 900 && MHz <= 928) {
+ SpiWriteReg(CC1101_FSCTRL0, map(MHz, 900, 928, clb4[0], clb4[1]));
+ SpiWriteReg(CC1101_TEST0, 0x09);
+ int s = ELECHOUSE_cc1101.SpiReadStatus(CC1101_FSCAL2);
+ if (s < 32) {
+ SpiWriteReg(CC1101_FSCAL2, s + 32);
+ }
+ if (last_pa != 4) {
+ setPA(pa);
+ }
+ }
+}
+/****************************************************************
+ *FUNCTION NAME:Calibration offset
+ *FUNCTION :Set calibration offset
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setClb(byte b, byte s, byte e) {
+ if (b == 1) {
+ clb1[0] = s;
+ clb1[1] = e;
+ } else if (b == 2) {
+ clb2[0] = s;
+ clb2[1] = e;
+ } else if (b == 3) {
+ clb3[0] = s;
+ clb3[1] = e;
+ } else if (b == 4) {
+ clb4[0] = s;
+ clb4[1] = e;
+ }
+}
+/****************************************************************
+ *FUNCTION NAME:getCC1101
+ *FUNCTION :Test Spi connection and return 1 when true.
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+bool ELECHOUSE_CC1101::getCC1101(void) {
+ setSpi();
+ if (SpiReadStatus(0x31) > 0) {
+ return 1;
+ } else {
+ return 0;
+ }
+}
+/****************************************************************
+ *FUNCTION NAME:getMode
+ *FUNCTION :Return the Mode. Sidle = 0, TX = 1, Rx = 2.
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+byte ELECHOUSE_CC1101::getMode(void) { return trxstate; }
+/****************************************************************
+ *FUNCTION NAME:Set Sync_Word
+ *FUNCTION :Sync Word
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setSyncWord(byte sh, byte sl) {
+ SpiWriteReg(CC1101_SYNC1, sh);
+ SpiWriteReg(CC1101_SYNC0, sl);
+}
+/****************************************************************
+ *FUNCTION NAME:Set ADDR
+ *FUNCTION :Address used for packet filtration. Optional broadcast addresses
+ * are 0 (0x00) and 255 (0xFF). INPUT :none OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setAddr(byte v) { SpiWriteReg(CC1101_ADDR, v); }
+/****************************************************************
+ *FUNCTION NAME:Set PQT
+ *FUNCTION :Preamble quality estimator threshold
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setPQT(byte v) {
+ Split_PKTCTRL1();
+ pc1PQT = 0;
+ if (v > 7) {
+ v = 7;
+ }
+ pc1PQT = v * 32;
+ SpiWriteReg(CC1101_PKTCTRL1, pc1PQT + pc1CRC_AF + pc1APP_ST + pc1ADRCHK);
+}
+/****************************************************************
+ *FUNCTION NAME:Set CRC_AUTOFLUSH
+ *FUNCTION :Enable automatic flush of RX FIFO when CRC is not OK
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setCRC_AF(bool v) {
+ Split_PKTCTRL1();
+ pc1CRC_AF = 0;
+ if (v == 1) {
+ pc1CRC_AF = 8;
+ }
+ SpiWriteReg(CC1101_PKTCTRL1, pc1PQT + pc1CRC_AF + pc1APP_ST + pc1ADRCHK);
+}
+/****************************************************************
+ *FUNCTION NAME:Set APPEND_STATUS
+ *FUNCTION :When enabled, two status bytes will be appended to the payload
+ * of the packet INPUT :none OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setAppendStatus(bool v) {
+ Split_PKTCTRL1();
+ pc1APP_ST = 0;
+ if (v == 1) {
+ pc1APP_ST = 4;
+ }
+ SpiWriteReg(CC1101_PKTCTRL1, pc1PQT + pc1CRC_AF + pc1APP_ST + pc1ADRCHK);
+}
+/****************************************************************
+ *FUNCTION NAME:Set ADR_CHK
+ *FUNCTION :Controls address check configuration of received packages
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setAdrChk(byte v) {
+ Split_PKTCTRL1();
+ pc1ADRCHK = 0;
+ if (v > 3) {
+ v = 3;
+ }
+ pc1ADRCHK = v;
+ SpiWriteReg(CC1101_PKTCTRL1, pc1PQT + pc1CRC_AF + pc1APP_ST + pc1ADRCHK);
+}
+/****************************************************************
+ *FUNCTION NAME:Set WHITE_DATA
+ *FUNCTION :Turn data whitening on / off.
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setWhiteData(bool v) {
+ Split_PKTCTRL0();
+ pc0WDATA = 0;
+ if (v == 1) {
+ pc0WDATA = 64;
+ }
+ SpiWriteReg(CC1101_PKTCTRL0,
+ pc0WDATA + pc0PktForm + pc0CRC_EN + pc0LenConf);
+}
+/****************************************************************
+ *FUNCTION NAME:Set PKT_FORMAT
+ *FUNCTION :Format of RX and TX data
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setPktFormat(byte v) {
+ Split_PKTCTRL0();
+ pc0PktForm = 0;
+ if (v > 3) {
+ v = 3;
+ }
+ pc0PktForm = v * 16;
+ SpiWriteReg(CC1101_PKTCTRL0,
+ pc0WDATA + pc0PktForm + pc0CRC_EN + pc0LenConf);
+}
+/****************************************************************
+ *FUNCTION NAME:Set CRC
+ *FUNCTION :CRC calculation in TX and CRC check in RX
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setCrc(bool v) {
+ Split_PKTCTRL0();
+ pc0CRC_EN = 0;
+ if (v == 1) {
+ pc0CRC_EN = 4;
+ }
+ SpiWriteReg(CC1101_PKTCTRL0,
+ pc0WDATA + pc0PktForm + pc0CRC_EN + pc0LenConf);
+}
+/****************************************************************
+ *FUNCTION NAME:Set LENGTH_CONFIG
+ *FUNCTION :Configure the packet length
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setLengthConfig(byte v) {
+ Split_PKTCTRL0();
+ pc0LenConf = 0;
+ if (v > 3) {
+ v = 3;
+ }
+ pc0LenConf = v;
+ SpiWriteReg(CC1101_PKTCTRL0,
+ pc0WDATA + pc0PktForm + pc0CRC_EN + pc0LenConf);
+}
+/****************************************************************
+ *FUNCTION NAME:Set PACKET_LENGTH
+ *FUNCTION :Indicates the packet length
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setPacketLength(byte v) {
+ SpiWriteReg(CC1101_PKTLEN, v);
+}
+/****************************************************************
+ *FUNCTION NAME:Set DCFILT_OFF
+ *FUNCTION :Disable digital DC blocking filter before demodulator
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setDcFilterOff(bool v) {
+ Split_MDMCFG2();
+ m2DCOFF = 0;
+ if (v == 1) {
+ m2DCOFF = 128;
+ }
+ SpiWriteReg(CC1101_MDMCFG2, m2DCOFF + m2MODFM + m2MANCH + m2SYNCM);
+}
+/****************************************************************
+ *FUNCTION NAME:Set MANCHESTER
+ *FUNCTION :Enables Manchester encoding/decoding
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setManchester(bool v) {
+ Split_MDMCFG2();
+ m2MANCH = 0;
+ if (v == 1) {
+ m2MANCH = 8;
+ }
+ SpiWriteReg(CC1101_MDMCFG2, m2DCOFF + m2MODFM + m2MANCH + m2SYNCM);
+}
+/****************************************************************
+ *FUNCTION NAME:Set SYNC_MODE
+ *FUNCTION :Combined sync-word qualifier mode
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setSyncMode(byte v) {
+ Split_MDMCFG2();
+ m2SYNCM = 0;
+ if (v > 7) {
+ v = 7;
+ }
+ m2SYNCM = v;
+ SpiWriteReg(CC1101_MDMCFG2, m2DCOFF + m2MODFM + m2MANCH + m2SYNCM);
+}
+/****************************************************************
+ *FUNCTION NAME:Set FEC
+ *FUNCTION :Enable Forward Error Correction (FEC)
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setFEC(bool v) {
+ Split_MDMCFG1();
+ m1FEC = 0;
+ if (v == 1) {
+ m1FEC = 128;
+ }
+ SpiWriteReg(CC1101_MDMCFG1, m1FEC + m1PRE + m1CHSP);
+}
+/****************************************************************
+ *FUNCTION NAME:Set PRE
+ *FUNCTION :Sets the minimum number of preamble bytes to be transmitted.
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setPRE(byte v) {
+ Split_MDMCFG1();
+ m1PRE = 0;
+ if (v > 7) {
+ v = 7;
+ }
+ m1PRE = v * 16;
+ SpiWriteReg(CC1101_MDMCFG1, m1FEC + m1PRE + m1CHSP);
+}
+/****************************************************************
+ *FUNCTION NAME:Set Channel
+ *FUNCTION :none
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setChannel(byte ch) {
+ chan = ch;
+ SpiWriteReg(CC1101_CHANNR, chan);
+}
+/****************************************************************
+ *FUNCTION NAME:Set Channel spacing
+ *FUNCTION :none
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setChsp(float f) {
+ Split_MDMCFG1();
+ byte MDMCFG0 = 0;
+ m1CHSP = 0;
+ if (f > 405.456543) {
+ f = 405.456543;
+ }
+ if (f < 25.390625) {
+ f = 25.390625;
+ }
+ for (int i = 0; i < 5; i++) {
+ if (f <= 50.682068) {
+ f -= 25.390625;
+ f /= 0.0991825;
+ MDMCFG0 = f;
+ float s1 = (f - MDMCFG0) * 10;
+ if (s1 >= 5) {
+ MDMCFG0++;
+ }
+ i = 5;
+ } else {
+ m1CHSP++;
+ f /= 2;
+ }
+ }
+ SpiWriteReg(19, m1CHSP + m1FEC + m1PRE);
+ SpiWriteReg(20, MDMCFG0);
+}
+/****************************************************************
+ *FUNCTION NAME:Set Receive bandwidth
+ *FUNCTION :none
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setRxBW(float f) {
+ Split_MDMCFG4();
+ int s1 = 3;
+ int s2 = 3;
+ for (int i = 0; i < 3; i++) {
+ if (f > 101.5625) {
+ f /= 2;
+ s1--;
+ } else {
+ i = 3;
+ }
+ }
+ for (int i = 0; i < 3; i++) {
+ if (f > 58.1) {
+ f /= 1.25;
+ s2--;
+ } else {
+ i = 3;
+ }
+ }
+ s1 *= 64;
+ s2 *= 16;
+ m4RxBw = s1 + s2;
+ SpiWriteReg(16, m4RxBw + m4DaRa);
+}
+/****************************************************************
+ *FUNCTION NAME:Set Data Rate
+ *FUNCTION :none
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setDRate(float d) {
+ Split_MDMCFG4();
+ float c = d;
+ byte MDMCFG3 = 0;
+ if (c > 1621.83) {
+ c = 1621.83;
+ }
+ if (c < 0.0247955) {
+ c = 0.0247955;
+ }
+ m4DaRa = 0;
+ for (int i = 0; i < 20; i++) {
+ if (c <= 0.0494942) {
+ c = c - 0.0247955;
+ c = c / 0.00009685;
+ MDMCFG3 = c;
+ float s1 = (c - MDMCFG3) * 10;
+ if (s1 >= 5) {
+ MDMCFG3++;
+ }
+ i = 20;
+ } else {
+ m4DaRa++;
+ c = c / 2;
+ }
+ }
+ SpiWriteReg(16, m4RxBw + m4DaRa);
+ SpiWriteReg(17, MDMCFG3);
+}
+/****************************************************************
+ *FUNCTION NAME:Set Devitation
+ *FUNCTION :none
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setDeviation(float d) {
+ float f = 1.586914;
+ float v = 0.19836425;
+ int c = 0;
+ if (d > 380.859375) {
+ d = 380.859375;
+ }
+ if (d < 1.586914) {
+ d = 1.586914;
+ }
+ for (int i = 0; i < 255; i++) {
+ f += v;
+ if (c == 7) {
+ v *= 2;
+ c = -1;
+ i += 8;
+ }
+ if (f >= d) {
+ c = i;
+ i = 255;
+ }
+ c++;
+ }
+ SpiWriteReg(21, c);
+}
+/****************************************************************
+ *FUNCTION NAME:Split PKTCTRL0
+ *FUNCTION :none
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::Split_PKTCTRL1(void) {
+ int calc = SpiReadStatus(7);
+ pc1PQT = 0;
+ pc1CRC_AF = 0;
+ pc1APP_ST = 0;
+ pc1ADRCHK = 0;
+ for (bool i = 0; i == 0;) {
+ if (calc >= 32) {
+ calc -= 32;
+ pc1PQT += 32;
+ } else if (calc >= 8) {
+ calc -= 8;
+ pc1CRC_AF += 8;
+ } else if (calc >= 4) {
+ calc -= 4;
+ pc1APP_ST += 4;
+ } else {
+ pc1ADRCHK = calc;
+ i = 1;
+ }
+ }
+}
+/****************************************************************
+ *FUNCTION NAME:Split PKTCTRL0
+ *FUNCTION :none
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::Split_PKTCTRL0(void) {
+ int calc = SpiReadStatus(8);
+ pc0WDATA = 0;
+ pc0PktForm = 0;
+ pc0CRC_EN = 0;
+ pc0LenConf = 0;
+ for (bool i = 0; i == 0;) {
+ if (calc >= 64) {
+ calc -= 64;
+ pc0WDATA += 64;
+ } else if (calc >= 16) {
+ calc -= 16;
+ pc0PktForm += 16;
+ } else if (calc >= 4) {
+ calc -= 4;
+ pc0CRC_EN += 4;
+ } else {
+ pc0LenConf = calc;
+ i = 1;
+ }
+ }
+}
+/****************************************************************
+ *FUNCTION NAME:Split MDMCFG1
+ *FUNCTION :none
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::Split_MDMCFG1(void) {
+ int calc = SpiReadStatus(19);
+ m1FEC = 0;
+ m1PRE = 0;
+ m1CHSP = 0;
+ int s2 = 0;
+ for (bool i = 0; i == 0;) {
+ if (calc >= 128) {
+ calc -= 128;
+ m1FEC += 128;
+ } else if (calc >= 16) {
+ calc -= 16;
+ m1PRE += 16;
+ } else {
+ m1CHSP = calc;
+ i = 1;
+ }
+ }
+}
+/****************************************************************
+ *FUNCTION NAME:Split MDMCFG2
+ *FUNCTION :none
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::Split_MDMCFG2(void) {
+ int calc = SpiReadStatus(18);
+ m2DCOFF = 0;
+ m2MODFM = 0;
+ m2MANCH = 0;
+ m2SYNCM = 0;
+ for (bool i = 0; i == 0;) {
+ if (calc >= 128) {
+ calc -= 128;
+ m2DCOFF += 128;
+ } else if (calc >= 16) {
+ calc -= 16;
+ m2MODFM += 16;
+ } else if (calc >= 8) {
+ calc -= 8;
+ m2MANCH += 8;
+ } else {
+ m2SYNCM = calc;
+ i = 1;
+ }
+ }
+}
+/****************************************************************
+ *FUNCTION NAME:Split MDMCFG4
+ *FUNCTION :none
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::Split_MDMCFG4(void) {
+ int calc = SpiReadStatus(16);
+ m4RxBw = 0;
+ m4DaRa = 0;
+ for (bool i = 0; i == 0;) {
+ if (calc >= 64) {
+ calc -= 64;
+ m4RxBw += 64;
+ } else if (calc >= 16) {
+ calc -= 16;
+ m4RxBw += 16;
+ } else {
+ m4DaRa = calc;
+ i = 1;
+ }
+ }
+}
+/****************************************************************
+ *FUNCTION NAME:RegConfigSettings
+ *FUNCTION :CC1101 register config //details refer datasheet of
+ * CC1101/CC1100// INPUT :none OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::RegConfigSettings(void) {
+ SpiWriteReg(CC1101_FSCTRL1, 0x06);
-if (MHz >= 300 && MHz <= 348){
-SpiWriteReg(CC1101_FSCTRL0, map(MHz, 300, 348, clb1[0], clb1[1]));
-if (MHz < 322.88){SpiWriteReg(CC1101_TEST0,0x0B);}
-else{
-SpiWriteReg(CC1101_TEST0,0x09);
-int s = ELECHOUSE_cc1101.SpiReadStatus(CC1101_FSCAL2);
-if (s<32){SpiWriteReg(CC1101_FSCAL2, s+32);}
-if (last_pa != 1){setPA(pa);}
-}
-}
-else if (MHz >= 378 && MHz <= 464){
-SpiWriteReg(CC1101_FSCTRL0, map(MHz, 378, 464, clb2[0], clb2[1]));
-if (MHz < 430.5){SpiWriteReg(CC1101_TEST0,0x0B);}
-else{
-SpiWriteReg(CC1101_TEST0,0x09);
-int s = ELECHOUSE_cc1101.SpiReadStatus(CC1101_FSCAL2);
-if (s<32){SpiWriteReg(CC1101_FSCAL2, s+32);}
-if (last_pa != 2){setPA(pa);}
-}
-}
-else if (MHz >= 779 && MHz <= 899.99){
-SpiWriteReg(CC1101_FSCTRL0, map(MHz, 779, 899, clb3[0], clb3[1]));
-if (MHz < 861){SpiWriteReg(CC1101_TEST0,0x0B);}
-else{
-SpiWriteReg(CC1101_TEST0,0x09);
-int s = ELECHOUSE_cc1101.SpiReadStatus(CC1101_FSCAL2);
-if (s<32){SpiWriteReg(CC1101_FSCAL2, s+32);}
-if (last_pa != 3){setPA(pa);}
-}
-}
-else if (MHz >= 900 && MHz <= 928){
-SpiWriteReg(CC1101_FSCTRL0, map(MHz, 900, 928, clb4[0], clb4[1]));
-SpiWriteReg(CC1101_TEST0,0x09);
-int s = ELECHOUSE_cc1101.SpiReadStatus(CC1101_FSCAL2);
-if (s<32){SpiWriteReg(CC1101_FSCAL2, s+32);}
-if (last_pa != 4){setPA(pa);}
-}
-}
-/****************************************************************
-*FUNCTION NAME:Calibration offset
-*FUNCTION :Set calibration offset
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setClb(byte b, byte s, byte e){
-if (b == 1){
-clb1[0]=s;
-clb1[1]=e;
-}
-else if (b == 2){
-clb2[0]=s;
-clb2[1]=e;
-}
-else if (b == 3){
-clb3[0]=s;
-clb3[1]=e;
-}
-else if (b == 4){
-clb4[0]=s;
-clb4[1]=e;
-}
-}
-/****************************************************************
-*FUNCTION NAME:getCC1101
-*FUNCTION :Test Spi connection and return 1 when true.
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-bool ELECHOUSE_CC1101::getCC1101(void){
-setSpi();
-if (SpiReadStatus(0x31)>0){
-return 1;
-}else{
-return 0;
-}
-}
-/****************************************************************
-*FUNCTION NAME:getMode
-*FUNCTION :Return the Mode. Sidle = 0, TX = 1, Rx = 2.
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-byte ELECHOUSE_CC1101::getMode(void){
-return trxstate;
-}
-/****************************************************************
-*FUNCTION NAME:Set Sync_Word
-*FUNCTION :Sync Word
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setSyncWord(byte sh, byte sl){
-SpiWriteReg(CC1101_SYNC1, sh);
-SpiWriteReg(CC1101_SYNC0, sl);
-}
-/****************************************************************
-*FUNCTION NAME:Set ADDR
-*FUNCTION :Address used for packet filtration. Optional broadcast addresses are 0 (0x00) and 255 (0xFF).
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setAddr(byte v){
-SpiWriteReg(CC1101_ADDR, v);
-}
-/****************************************************************
-*FUNCTION NAME:Set PQT
-*FUNCTION :Preamble quality estimator threshold
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setPQT(byte v){
-Split_PKTCTRL1();
-pc1PQT = 0;
-if (v>7){v=7;}
-pc1PQT = v*32;
-SpiWriteReg(CC1101_PKTCTRL1, pc1PQT+pc1CRC_AF+pc1APP_ST+pc1ADRCHK);
-}
-/****************************************************************
-*FUNCTION NAME:Set CRC_AUTOFLUSH
-*FUNCTION :Enable automatic flush of RX FIFO when CRC is not OK
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setCRC_AF(bool v){
-Split_PKTCTRL1();
-pc1CRC_AF = 0;
-if (v==1){pc1CRC_AF=8;}
-SpiWriteReg(CC1101_PKTCTRL1, pc1PQT+pc1CRC_AF+pc1APP_ST+pc1ADRCHK);
-}
-/****************************************************************
-*FUNCTION NAME:Set APPEND_STATUS
-*FUNCTION :When enabled, two status bytes will be appended to the payload of the packet
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setAppendStatus(bool v){
-Split_PKTCTRL1();
-pc1APP_ST = 0;
-if (v==1){pc1APP_ST=4;}
-SpiWriteReg(CC1101_PKTCTRL1, pc1PQT+pc1CRC_AF+pc1APP_ST+pc1ADRCHK);
-}
-/****************************************************************
-*FUNCTION NAME:Set ADR_CHK
-*FUNCTION :Controls address check configuration of received packages
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setAdrChk(byte v){
-Split_PKTCTRL1();
-pc1ADRCHK = 0;
-if (v>3){v=3;}
-pc1ADRCHK = v;
-SpiWriteReg(CC1101_PKTCTRL1, pc1PQT+pc1CRC_AF+pc1APP_ST+pc1ADRCHK);
-}
-/****************************************************************
-*FUNCTION NAME:Set WHITE_DATA
-*FUNCTION :Turn data whitening on / off.
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setWhiteData(bool v){
-Split_PKTCTRL0();
-pc0WDATA = 0;
-if (v == 1){pc0WDATA=64;}
-SpiWriteReg(CC1101_PKTCTRL0, pc0WDATA+pc0PktForm+pc0CRC_EN+pc0LenConf);
-}
-/****************************************************************
-*FUNCTION NAME:Set PKT_FORMAT
-*FUNCTION :Format of RX and TX data
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setPktFormat(byte v){
-Split_PKTCTRL0();
-pc0PktForm = 0;
-if (v>3){v=3;}
-pc0PktForm = v*16;
-SpiWriteReg(CC1101_PKTCTRL0, pc0WDATA+pc0PktForm+pc0CRC_EN+pc0LenConf);
-}
-/****************************************************************
-*FUNCTION NAME:Set CRC
-*FUNCTION :CRC calculation in TX and CRC check in RX
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setCrc(bool v){
-Split_PKTCTRL0();
-pc0CRC_EN = 0;
-if (v==1){pc0CRC_EN=4;}
-SpiWriteReg(CC1101_PKTCTRL0, pc0WDATA+pc0PktForm+pc0CRC_EN+pc0LenConf);
-}
-/****************************************************************
-*FUNCTION NAME:Set LENGTH_CONFIG
-*FUNCTION :Configure the packet length
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setLengthConfig(byte v){
-Split_PKTCTRL0();
-pc0LenConf = 0;
-if (v>3){v=3;}
-pc0LenConf = v;
-SpiWriteReg(CC1101_PKTCTRL0, pc0WDATA+pc0PktForm+pc0CRC_EN+pc0LenConf);
-}
-/****************************************************************
-*FUNCTION NAME:Set PACKET_LENGTH
-*FUNCTION :Indicates the packet length
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setPacketLength(byte v){
-SpiWriteReg(CC1101_PKTLEN, v);
-}
-/****************************************************************
-*FUNCTION NAME:Set DCFILT_OFF
-*FUNCTION :Disable digital DC blocking filter before demodulator
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setDcFilterOff(bool v){
-Split_MDMCFG2();
-m2DCOFF = 0;
-if (v==1){m2DCOFF=128;}
-SpiWriteReg(CC1101_MDMCFG2, m2DCOFF+m2MODFM+m2MANCH+m2SYNCM);
-}
-/****************************************************************
-*FUNCTION NAME:Set MANCHESTER
-*FUNCTION :Enables Manchester encoding/decoding
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setManchester(bool v){
-Split_MDMCFG2();
-m2MANCH = 0;
-if (v==1){m2MANCH=8;}
-SpiWriteReg(CC1101_MDMCFG2, m2DCOFF+m2MODFM+m2MANCH+m2SYNCM);
-}
-/****************************************************************
-*FUNCTION NAME:Set SYNC_MODE
-*FUNCTION :Combined sync-word qualifier mode
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setSyncMode(byte v){
-Split_MDMCFG2();
-m2SYNCM = 0;
-if (v>7){v=7;}
-m2SYNCM=v;
-SpiWriteReg(CC1101_MDMCFG2, m2DCOFF+m2MODFM+m2MANCH+m2SYNCM);
-}
-/****************************************************************
-*FUNCTION NAME:Set FEC
-*FUNCTION :Enable Forward Error Correction (FEC)
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setFEC(bool v){
-Split_MDMCFG1();
-m1FEC=0;
-if (v==1){m1FEC=128;}
-SpiWriteReg(CC1101_MDMCFG1, m1FEC+m1PRE+m1CHSP);
-}
-/****************************************************************
-*FUNCTION NAME:Set PRE
-*FUNCTION :Sets the minimum number of preamble bytes to be transmitted.
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setPRE(byte v){
-Split_MDMCFG1();
-m1PRE=0;
-if (v>7){v=7;}
-m1PRE = v*16;
-SpiWriteReg(CC1101_MDMCFG1, m1FEC+m1PRE+m1CHSP);
-}
-/****************************************************************
-*FUNCTION NAME:Set Channel
-*FUNCTION :none
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setChannel(byte ch){
-chan = ch;
-SpiWriteReg(CC1101_CHANNR, chan);
-}
-/****************************************************************
-*FUNCTION NAME:Set Channel spacing
-*FUNCTION :none
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setChsp(float f){
-Split_MDMCFG1();
-byte MDMCFG0 = 0;
-m1CHSP = 0;
-if (f > 405.456543){f = 405.456543;}
-if (f < 25.390625){f = 25.390625;}
-for (int i = 0; i<5; i++){
-if (f <= 50.682068){
-f -= 25.390625;
-f /= 0.0991825;
-MDMCFG0 = f;
-float s1 = (f - MDMCFG0) *10;
-if (s1 >= 5){MDMCFG0++;}
-i = 5;
-}else{
-m1CHSP++;
-f/=2;
-}
-}
-SpiWriteReg(19,m1CHSP+m1FEC+m1PRE);
-SpiWriteReg(20,MDMCFG0);
-}
-/****************************************************************
-*FUNCTION NAME:Set Receive bandwidth
-*FUNCTION :none
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setRxBW(float f){
-Split_MDMCFG4();
-int s1 = 3;
-int s2 = 3;
-for (int i = 0; i<3; i++){
-if (f > 101.5625){f/=2; s1--;}
-else{i=3;}
-}
-for (int i = 0; i<3; i++){
-if (f > 58.1){f/=1.25; s2--;}
-else{i=3;}
-}
-s1 *= 64;
-s2 *= 16;
-m4RxBw = s1 + s2;
-SpiWriteReg(16,m4RxBw+m4DaRa);
-}
-/****************************************************************
-*FUNCTION NAME:Set Data Rate
-*FUNCTION :none
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setDRate(float d){
-Split_MDMCFG4();
-float c = d;
-byte MDMCFG3 = 0;
-if (c > 1621.83){c = 1621.83;}
-if (c < 0.0247955){c = 0.0247955;}
-m4DaRa = 0;
-for (int i = 0; i<20; i++){
-if (c <= 0.0494942){
-c = c - 0.0247955;
-c = c / 0.00009685;
-MDMCFG3 = c;
-float s1 = (c - MDMCFG3) *10;
-if (s1 >= 5){MDMCFG3++;}
-i = 20;
-}else{
-m4DaRa++;
-c = c/2;
-}
-}
-SpiWriteReg(16, m4RxBw+m4DaRa);
-SpiWriteReg(17, MDMCFG3);
-}
-/****************************************************************
-*FUNCTION NAME:Set Devitation
-*FUNCTION :none
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setDeviation(float d){
-float f = 1.586914;
-float v = 0.19836425;
-int c = 0;
-if (d > 380.859375){d = 380.859375;}
-if (d < 1.586914){d = 1.586914;}
-for (int i = 0; i<255; i++){
-f+=v;
-if (c==7){v*=2;c=-1;i+=8;}
-if (f>=d){c=i;i=255;}
-c++;
-}
-SpiWriteReg(21,c);
-}
-/****************************************************************
-*FUNCTION NAME:Split PKTCTRL0
-*FUNCTION :none
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::Split_PKTCTRL1(void){
-int calc = SpiReadStatus(7);
-pc1PQT = 0;
-pc1CRC_AF = 0;
-pc1APP_ST = 0;
-pc1ADRCHK = 0;
-for (bool i = 0; i==0;){
-if (calc >= 32){calc-=32; pc1PQT+=32;}
-else if (calc >= 8){calc-=8; pc1CRC_AF+=8;}
-else if (calc >= 4){calc-=4; pc1APP_ST+=4;}
-else {pc1ADRCHK = calc; i=1;}
-}
-}
-/****************************************************************
-*FUNCTION NAME:Split PKTCTRL0
-*FUNCTION :none
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::Split_PKTCTRL0(void){
-int calc = SpiReadStatus(8);
-pc0WDATA = 0;
-pc0PktForm = 0;
-pc0CRC_EN = 0;
-pc0LenConf = 0;
-for (bool i = 0; i==0;){
-if (calc >= 64){calc-=64; pc0WDATA+=64;}
-else if (calc >= 16){calc-=16; pc0PktForm+=16;}
-else if (calc >= 4){calc-=4; pc0CRC_EN+=4;}
-else {pc0LenConf = calc; i=1;}
-}
-}
-/****************************************************************
-*FUNCTION NAME:Split MDMCFG1
-*FUNCTION :none
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::Split_MDMCFG1(void){
-int calc = SpiReadStatus(19);
-m1FEC = 0;
-m1PRE = 0;
-m1CHSP = 0;
-int s2 = 0;
-for (bool i = 0; i==0;){
-if (calc >= 128){calc-=128; m1FEC+=128;}
-else if (calc >= 16){calc-=16; m1PRE+=16;}
-else {m1CHSP = calc; i=1;}
-}
-}
-/****************************************************************
-*FUNCTION NAME:Split MDMCFG2
-*FUNCTION :none
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::Split_MDMCFG2(void){
-int calc = SpiReadStatus(18);
-m2DCOFF = 0;
-m2MODFM = 0;
-m2MANCH = 0;
-m2SYNCM = 0;
-for (bool i = 0; i==0;){
-if (calc >= 128){calc-=128; m2DCOFF+=128;}
-else if (calc >= 16){calc-=16; m2MODFM+=16;}
-else if (calc >= 8){calc-=8; m2MANCH+=8;}
-else{m2SYNCM = calc; i=1;}
-}
-}
-/****************************************************************
-*FUNCTION NAME:Split MDMCFG4
-*FUNCTION :none
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::Split_MDMCFG4(void){
-int calc = SpiReadStatus(16);
-m4RxBw = 0;
-m4DaRa = 0;
-for (bool i = 0; i==0;){
-if (calc >= 64){calc-=64; m4RxBw+=64;}
-else if (calc >= 16){calc -= 16; m4RxBw+=16;}
-else{m4DaRa = calc; i=1;}
-}
-}
-/****************************************************************
-*FUNCTION NAME:RegConfigSettings
-*FUNCTION :CC1101 register config //details refer datasheet of CC1101/CC1100//
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::RegConfigSettings(void)
-{
- SpiWriteReg(CC1101_FSCTRL1, 0x06);
-
setCCMode(ccmode);
setMHZ(MHz);
-
- SpiWriteReg(CC1101_MDMCFG1, 0x02);
- SpiWriteReg(CC1101_MDMCFG0, 0xF8);
- SpiWriteReg(CC1101_CHANNR, chan);
- SpiWriteReg(CC1101_DEVIATN, 0x47);
- SpiWriteReg(CC1101_FREND1, 0x56);
- SpiWriteReg(CC1101_MCSM0 , 0x18);
- SpiWriteReg(CC1101_FOCCFG, 0x16);
- SpiWriteReg(CC1101_BSCFG, 0x1C);
+
+ SpiWriteReg(CC1101_MDMCFG1, 0x02);
+ SpiWriteReg(CC1101_MDMCFG0, 0xF8);
+ SpiWriteReg(CC1101_CHANNR, chan);
+ SpiWriteReg(CC1101_DEVIATN, 0x47);
+ SpiWriteReg(CC1101_FREND1, 0x56);
+ SpiWriteReg(CC1101_MCSM0, 0x18);
+ SpiWriteReg(CC1101_FOCCFG, 0x16);
+ SpiWriteReg(CC1101_BSCFG, 0x1C);
SpiWriteReg(CC1101_AGCCTRL2, 0xC7);
SpiWriteReg(CC1101_AGCCTRL1, 0x00);
SpiWriteReg(CC1101_AGCCTRL0, 0xB2);
- SpiWriteReg(CC1101_FSCAL3, 0xE9);
- SpiWriteReg(CC1101_FSCAL2, 0x2A);
- SpiWriteReg(CC1101_FSCAL1, 0x00);
- SpiWriteReg(CC1101_FSCAL0, 0x1F);
- SpiWriteReg(CC1101_FSTEST, 0x59);
- SpiWriteReg(CC1101_TEST2, 0x81);
- SpiWriteReg(CC1101_TEST1, 0x35);
- SpiWriteReg(CC1101_TEST0, 0x09);
+ SpiWriteReg(CC1101_FSCAL3, 0xE9);
+ SpiWriteReg(CC1101_FSCAL2, 0x2A);
+ SpiWriteReg(CC1101_FSCAL1, 0x00);
+ SpiWriteReg(CC1101_FSCAL0, 0x1F);
+ SpiWriteReg(CC1101_FSTEST, 0x59);
+ SpiWriteReg(CC1101_TEST2, 0x81);
+ SpiWriteReg(CC1101_TEST1, 0x35);
+ SpiWriteReg(CC1101_TEST0, 0x09);
SpiWriteReg(CC1101_PKTCTRL1, 0x04);
- SpiWriteReg(CC1101_ADDR, 0x00);
- SpiWriteReg(CC1101_PKTLEN, 0x00);
-}
-/****************************************************************
-*FUNCTION NAME:SetTx
-*FUNCTION :set CC1101 send data
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SetTx(void)
-{
- SpiStrobe(CC1101_SIDLE);
- SpiStrobe(CC1101_STX); //start send
- trxstate=1;
-}
-/****************************************************************
-*FUNCTION NAME:SetRx
-*FUNCTION :set CC1101 to receive state
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SetRx(void)
-{
- SpiStrobe(CC1101_SIDLE);
- SpiStrobe(CC1101_SRX); //start receive
- trxstate=2;
-}
-/****************************************************************
-*FUNCTION NAME:SetTx
-*FUNCTION :set CC1101 send data and change frequency
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SetTx(float mhz)
-{
- SpiStrobe(CC1101_SIDLE);
- setMHZ(mhz);
- SpiStrobe(CC1101_STX); //start send
- trxstate=1;
-}
-/****************************************************************
-*FUNCTION NAME:SetRx
-*FUNCTION :set CC1101 to receive state and change frequency
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SetRx(float mhz)
-{
- SpiStrobe(CC1101_SIDLE);
- setMHZ(mhz);
- SpiStrobe(CC1101_SRX); //start receive
- trxstate=2;
-}
-/****************************************************************
-*FUNCTION NAME:RSSI Level
-*FUNCTION :Calculating the RSSI Level
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-int ELECHOUSE_CC1101::getRssi(void)
-{
-int rssi;
-rssi=SpiReadStatus(CC1101_RSSI);
-if (rssi >= 128){rssi = (rssi-256)/2-74;}
-else{rssi = (rssi/2)-74;}
-return rssi;
-}
-/****************************************************************
-*FUNCTION NAME:LQI Level
-*FUNCTION :get Lqi state
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-byte ELECHOUSE_CC1101::getLqi(void)
-{
-byte lqi;
-lqi=SpiReadStatus(CC1101_LQI);
-return lqi;
-}
-/****************************************************************
-*FUNCTION NAME:SetSres
-*FUNCTION :Reset CC1101
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setSres(void)
-{
- SpiStrobe(CC1101_SRES);
- trxstate=0;
-}
-/****************************************************************
-*FUNCTION NAME:setSidle
-*FUNCTION :set Rx / TX Off
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::setSidle(void)
-{
- SpiStrobe(CC1101_SIDLE);
- trxstate=0;
-}
-/****************************************************************
-*FUNCTION NAME:goSleep
-*FUNCTION :set cc1101 Sleep on
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::goSleep(void){
- trxstate=0;
- SpiStrobe(0x36);//Exit RX / TX, turn off frequency synthesizer and exit
- SpiStrobe(0x39);//Enter power down mode when CSn goes high.
-}
-/****************************************************************
-*FUNCTION NAME:Char direct SendData
-*FUNCTION :use CC1101 send data
-*INPUT :txBuffer: data array to send; size: number of data to send, no more than 61
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SendData(char *txchar)
-{
-int len = strlen(txchar);
-byte chartobyte[len];
-for (int i = 0; i<len; i++){chartobyte[i] = txchar[i];}
-SendData(chartobyte,len);
-}
-/****************************************************************
-*FUNCTION NAME:SendData
-*FUNCTION :use CC1101 send data
-*INPUT :txBuffer: data array to send; size: number of data to send, no more than 61
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SendData(byte *txBuffer,byte size)
-{
- SpiWriteReg(CC1101_TXFIFO,size);
- SpiWriteBurstReg(CC1101_TXFIFO,txBuffer,size); //write data to send
- SpiStrobe(CC1101_SIDLE);
- SpiStrobe(CC1101_STX); //start send
- while (!digitalRead(GDO0)); // Wait for GDO0 to be set -> sync transmitted
- while (digitalRead(GDO0)); // Wait for GDO0 to be cleared -> end of packet
- SpiStrobe(CC1101_SFTX); //flush TXfifo
- trxstate=1;
-}
-/****************************************************************
-*FUNCTION NAME:Char direct SendData
-*FUNCTION :use CC1101 send data without GDO
-*INPUT :txBuffer: data array to send; size: number of data to send, no more than 61
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SendData(char *txchar,int t)
-{
-int len = strlen(txchar);
-byte chartobyte[len];
-for (int i = 0; i<len; i++){chartobyte[i] = txchar[i];}
-SendData(chartobyte,len,t);
-}
-/****************************************************************
-*FUNCTION NAME:SendData
-*FUNCTION :use CC1101 send data without GDO
-*INPUT :txBuffer: data array to send; size: number of data to send, no more than 61
-*OUTPUT :none
-****************************************************************/
-void ELECHOUSE_CC1101::SendData(byte *txBuffer,byte size,int t)
-{
- SpiWriteReg(CC1101_TXFIFO,size);
- SpiWriteBurstReg(CC1101_TXFIFO,txBuffer,size); //write data to send
- SpiStrobe(CC1101_SIDLE);
- SpiStrobe(CC1101_STX); //start send
- delay(t);
- SpiStrobe(CC1101_SFTX); //flush TXfifo
- trxstate=1;
-}
-/****************************************************************
-*FUNCTION NAME:Check CRC
-*FUNCTION :none
-*INPUT :none
-*OUTPUT :none
-****************************************************************/
-bool ELECHOUSE_CC1101::CheckCRC(void){
-byte lqi=SpiReadStatus(CC1101_LQI);
-bool crc_ok = bitRead(lqi,7);
-if (crc_ok == 1){
-return 1;
-}else{
-SpiStrobe(CC1101_SFRX);
-SpiStrobe(CC1101_SRX);
-return 0;
-}
-}
-/****************************************************************
-*FUNCTION NAME:CheckRxFifo
-*FUNCTION :check receive data or not
-*INPUT :none
-*OUTPUT :flag: 0 no data; 1 receive data
-****************************************************************/
-bool ELECHOUSE_CC1101::CheckRxFifo(int t){
-if(trxstate!=2){SetRx();}
-if(SpiReadStatus(CC1101_RXBYTES) & BYTES_IN_RXFIFO){
-delay(t);
-return 1;
-}else{
-return 0;
-}
-}
-/****************************************************************
-*FUNCTION NAME:CheckReceiveFlag
-*FUNCTION :check receive data or not
-*INPUT :none
-*OUTPUT :flag: 0 no data; 1 receive data
-****************************************************************/
-byte ELECHOUSE_CC1101::CheckReceiveFlag(void)
-{
- if(trxstate!=2){SetRx();}
- if(digitalRead(GDO0)) //receive data
- {
- while (digitalRead(GDO0));
- return 1;
- }
- else // no data
- {
- return 0;
- }
-}
-/****************************************************************
-*FUNCTION NAME:ReceiveData
-*FUNCTION :read data received from RXfifo
-*INPUT :rxBuffer: buffer to store data
-*OUTPUT :size of data received
-****************************************************************/
-byte ELECHOUSE_CC1101::ReceiveData(byte *rxBuffer)
-{
- byte size;
- byte status[2];
+ SpiWriteReg(CC1101_ADDR, 0x00);
+ SpiWriteReg(CC1101_PKTLEN, 0x00);
+}
+/****************************************************************
+ *FUNCTION NAME:SetTx
+ *FUNCTION :set CC1101 send data
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SetTx(void) {
+ SpiStrobe(CC1101_SIDLE);
+ SpiStrobe(CC1101_STX); // start send
+ trxstate = 1;
+}
+/****************************************************************
+ *FUNCTION NAME:SetRx
+ *FUNCTION :set CC1101 to receive state
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SetRx(void) {
+ SpiStrobe(CC1101_SIDLE);
+ SpiStrobe(CC1101_SRX); // start receive
+ trxstate = 2;
+}
+/****************************************************************
+ *FUNCTION NAME:SetTx
+ *FUNCTION :set CC1101 send data and change frequency
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SetTx(float mhz) {
+ SpiStrobe(CC1101_SIDLE);
+ setMHZ(mhz);
+ SpiStrobe(CC1101_STX); // start send
+ trxstate = 1;
+}
+/****************************************************************
+ *FUNCTION NAME:SetRx
+ *FUNCTION :set CC1101 to receive state and change frequency
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SetRx(float mhz) {
+ SpiStrobe(CC1101_SIDLE);
+ setMHZ(mhz);
+ SpiStrobe(CC1101_SRX); // start receive
+ trxstate = 2;
+}
+/****************************************************************
+ *FUNCTION NAME:RSSI Level
+ *FUNCTION :Calculating the RSSI Level
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+int ELECHOUSE_CC1101::getRssi(void) {
+ int rssi;
+ rssi = SpiReadStatus(CC1101_RSSI);
+ if (rssi >= 128) {
+ rssi = (rssi - 256) / 2 - 74;
+ } else {
+ rssi = (rssi / 2) - 74;
+ }
+ return rssi;
+}
+/****************************************************************
+ *FUNCTION NAME:LQI Level
+ *FUNCTION :get Lqi state
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+byte ELECHOUSE_CC1101::getLqi(void) {
+ byte lqi;
+ lqi = SpiReadStatus(CC1101_LQI);
+ return lqi;
+}
+/****************************************************************
+ *FUNCTION NAME:SetSres
+ *FUNCTION :Reset CC1101
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setSres(void) {
+ SpiStrobe(CC1101_SRES);
+ trxstate = 0;
+}
+/****************************************************************
+ *FUNCTION NAME:setSidle
+ *FUNCTION :set Rx / TX Off
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::setSidle(void) {
+ SpiStrobe(CC1101_SIDLE);
+ trxstate = 0;
+}
+/****************************************************************
+ *FUNCTION NAME:goSleep
+ *FUNCTION :set cc1101 Sleep on
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::goSleep(void) {
+ trxstate = 0;
+ SpiStrobe(0x36); // Exit RX / TX, turn off frequency synthesizer and exit
+ SpiStrobe(0x39); // Enter power down mode when CSn goes high.
+}
+/****************************************************************
+ *FUNCTION NAME:Char direct SendData
+ *FUNCTION :use CC1101 send data
+ *INPUT :txBuffer: data array to send; size: number of data to send, no
+ * more than 61 OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SendData(char *txchar) {
+ int len = strlen(txchar);
+ byte chartobyte[len];
+ for (int i = 0; i < len; i++) {
+ chartobyte[i] = txchar[i];
+ }
+ SendData(chartobyte, len);
+}
+/****************************************************************
+ *FUNCTION NAME:SendData
+ *FUNCTION :use CC1101 send data
+ *INPUT :txBuffer: data array to send; size: number of data to send, no
+ * more than 61 OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SendData(byte *txBuffer, byte size) {
+ SpiWriteReg(CC1101_TXFIFO, size);
+ SpiWriteBurstReg(CC1101_TXFIFO, txBuffer, size); // write data to send
+ SpiStrobe(CC1101_SIDLE);
+ SpiStrobe(CC1101_STX); // start send
+ while (!digitalRead(GDO0))
+ ; // Wait for GDO0 to be set -> sync transmitted
+ while (digitalRead(GDO0))
+ ; // Wait for GDO0 to be cleared -> end of packet
+ SpiStrobe(CC1101_SFTX); // flush TXfifo
+ trxstate = 1;
+}
+/****************************************************************
+ *FUNCTION NAME:Char direct SendData
+ *FUNCTION :use CC1101 send data without GDO
+ *INPUT :txBuffer: data array to send; size: number of data to send, no
+ * more than 61 OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SendData(char *txchar, int t) {
+ int len = strlen(txchar);
+ byte chartobyte[len];
+ for (int i = 0; i < len; i++) {
+ chartobyte[i] = txchar[i];
+ }
+ SendData(chartobyte, len, t);
+}
+/****************************************************************
+ *FUNCTION NAME:SendData
+ *FUNCTION :use CC1101 send data without GDO
+ *INPUT :txBuffer: data array to send; size: number of data to send, no
+ * more than 61 OUTPUT :none
+ ****************************************************************/
+void ELECHOUSE_CC1101::SendData(byte *txBuffer, byte size, int t) {
+ SpiWriteReg(CC1101_TXFIFO, size);
+ SpiWriteBurstReg(CC1101_TXFIFO, txBuffer, size); // write data to send
+ SpiStrobe(CC1101_SIDLE);
+ SpiStrobe(CC1101_STX); // start send
+ delay(t);
+ SpiStrobe(CC1101_SFTX); // flush TXfifo
+ trxstate = 1;
+}
+/****************************************************************
+ *FUNCTION NAME:Check CRC
+ *FUNCTION :none
+ *INPUT :none
+ *OUTPUT :none
+ ****************************************************************/
+bool ELECHOUSE_CC1101::CheckCRC(void) {
+ byte lqi = SpiReadStatus(CC1101_LQI);
+ bool crc_ok = bitRead(lqi, 7);
+ if (crc_ok == 1) {
+ return 1;
+ } else {
+ SpiStrobe(CC1101_SFRX);
+ SpiStrobe(CC1101_SRX);
+ return 0;
+ }
+}
+/****************************************************************
+ *FUNCTION NAME:CheckRxFifo
+ *FUNCTION :check receive data or not
+ *INPUT :none
+ *OUTPUT :flag: 0 no data; 1 receive data
+ ****************************************************************/
+bool ELECHOUSE_CC1101::CheckRxFifo(int t) {
+ if (trxstate != 2) {
+ SetRx();
+ }
+ if (SpiReadStatus(CC1101_RXBYTES) & BYTES_IN_RXFIFO) {
+ delay(t);
+ return 1;
+ } else {
+ return 0;
+ }
+}
+/****************************************************************
+ *FUNCTION NAME:CheckReceiveFlag
+ *FUNCTION :check receive data or not
+ *INPUT :none
+ *OUTPUT :flag: 0 no data; 1 receive data
+ ****************************************************************/
+byte ELECHOUSE_CC1101::CheckReceiveFlag(void) {
+ if (trxstate != 2) {
+ SetRx();
+ }
+ if (digitalRead(GDO0)) // receive data
+ {
+ while (digitalRead(GDO0))
+ ;
+ return 1;
+ } else // no data
+ {
+ return 0;
+ }
+}
+/****************************************************************
+ *FUNCTION NAME:ReceiveData
+ *FUNCTION :read data received from RXfifo
+ *INPUT :rxBuffer: buffer to store data
+ *OUTPUT :size of data received
+ ****************************************************************/
+byte ELECHOUSE_CC1101::ReceiveData(byte *rxBuffer) {
+ byte size;
+ byte status[2];
- if(SpiReadStatus(CC1101_RXBYTES) & BYTES_IN_RXFIFO)
- {
- size=SpiReadReg(CC1101_RXFIFO);
- SpiReadBurstReg(CC1101_RXFIFO,rxBuffer,size);
- SpiReadBurstReg(CC1101_RXFIFO,status,2);
- SpiStrobe(CC1101_SFRX);
- SpiStrobe(CC1101_SRX);
- return size;
- }
- else
- {
- SpiStrobe(CC1101_SFRX);
- SpiStrobe(CC1101_SRX);
- return 0;
- }
+ if (SpiReadStatus(CC1101_RXBYTES) & BYTES_IN_RXFIFO) {
+ size = SpiReadReg(CC1101_RXFIFO);
+ SpiReadBurstReg(CC1101_RXFIFO, rxBuffer, size);
+ SpiReadBurstReg(CC1101_RXFIFO, status, 2);
+ SpiStrobe(CC1101_SFRX);
+ SpiStrobe(CC1101_SRX);
+ return size;
+ } else {
+ SpiStrobe(CC1101_SFRX);
+ SpiStrobe(CC1101_SRX);
+ return 0;
+ }
}
ELECHOUSE_CC1101 ELECHOUSE_cc1101; \ No newline at end of file
diff --git a/src/libs/ELECHOUSE_CC1101_SRC_DRV.h b/src/libs/ELECHOUSE_CC1101_SRC_DRV.h
index 136a9b5..fd6df0a 100644
--- a/src/libs/ELECHOUSE_CC1101_SRC_DRV.h
+++ b/src/libs/ELECHOUSE_CC1101_SRC_DRV.h
@@ -5,12 +5,13 @@
Version: November 12, 2010
This library is designed to use CC1101/CC1100 module on Arduino platform.
- CC1101/CC1100 module is an useful wireless module.Using the functions of the
- library, you can easily send and receive data by the CC1101/CC1100 module.
+ CC1101/CC1100 module is an useful wireless module.Using the functions of the
+ library, you can easily send and receive data by the CC1101/CC1100 module.
Just have fun!
For the details, please refer to the datasheet of CC1100/CC1101.
----------------------------------------------------------------------------------------------------------------
-cc1101 Driver for RC Switch. Mod by Little Satan. With permission to modify and publish Wilson Shen (ELECHOUSE).
+cc1101 Driver for RC Switch. Mod by Little Satan. With permission to modify and
+publish Wilson Shen (ELECHOUSE).
----------------------------------------------------------------------------------------------------------------
*/
#ifndef ELECHOUSE_CC1101_SRC_DRV_h
@@ -18,175 +19,183 @@ cc1101 Driver for RC Switch. Mod by Little Satan. With permission to modify and
#include <Arduino.h>
-//***************************************CC1101 define**************************************************//
+//***************************************CC1101
+//define**************************************************//
// CC1101 CONFIG REGSITER
-#define CC1101_IOCFG2 0x00 // GDO2 output pin configuration
-#define CC1101_IOCFG1 0x01 // GDO1 output pin configuration
-#define CC1101_IOCFG0 0x02 // GDO0 output pin configuration
-#define CC1101_FIFOTHR 0x03 // RX FIFO and TX FIFO thresholds
-#define CC1101_SYNC1 0x04 // Sync word, high INT8U
-#define CC1101_SYNC0 0x05 // Sync word, low INT8U
-#define CC1101_PKTLEN 0x06 // Packet length
-#define CC1101_PKTCTRL1 0x07 // Packet automation control
-#define CC1101_PKTCTRL0 0x08 // Packet automation control
-#define CC1101_ADDR 0x09 // Device address
-#define CC1101_CHANNR 0x0A // Channel number
-#define CC1101_FSCTRL1 0x0B // Frequency synthesizer control
-#define CC1101_FSCTRL0 0x0C // Frequency synthesizer control
-#define CC1101_FREQ2 0x0D // Frequency control word, high INT8U
-#define CC1101_FREQ1 0x0E // Frequency control word, middle INT8U
-#define CC1101_FREQ0 0x0F // Frequency control word, low INT8U
-#define CC1101_MDMCFG4 0x10 // Modem configuration
-#define CC1101_MDMCFG3 0x11 // Modem configuration
-#define CC1101_MDMCFG2 0x12 // Modem configuration
-#define CC1101_MDMCFG1 0x13 // Modem configuration
-#define CC1101_MDMCFG0 0x14 // Modem configuration
-#define CC1101_DEVIATN 0x15 // Modem deviation setting
-#define CC1101_MCSM2 0x16 // Main Radio Control State Machine configuration
-#define CC1101_MCSM1 0x17 // Main Radio Control State Machine configuration
-#define CC1101_MCSM0 0x18 // Main Radio Control State Machine configuration
-#define CC1101_FOCCFG 0x19 // Frequency Offset Compensation configuration
-#define CC1101_BSCFG 0x1A // Bit Synchronization configuration
-#define CC1101_AGCCTRL2 0x1B // AGC control
-#define CC1101_AGCCTRL1 0x1C // AGC control
-#define CC1101_AGCCTRL0 0x1D // AGC control
-#define CC1101_WOREVT1 0x1E // High INT8U Event 0 timeout
-#define CC1101_WOREVT0 0x1F // Low INT8U Event 0 timeout
-#define CC1101_WORCTRL 0x20 // Wake On Radio control
-#define CC1101_FREND1 0x21 // Front end RX configuration
-#define CC1101_FREND0 0x22 // Front end TX configuration
-#define CC1101_FSCAL3 0x23 // Frequency synthesizer calibration
-#define CC1101_FSCAL2 0x24 // Frequency synthesizer calibration
-#define CC1101_FSCAL1 0x25 // Frequency synthesizer calibration
-#define CC1101_FSCAL0 0x26 // Frequency synthesizer calibration
-#define CC1101_RCCTRL1 0x27 // RC oscillator configuration
-#define CC1101_RCCTRL0 0x28 // RC oscillator configuration
-#define CC1101_FSTEST 0x29 // Frequency synthesizer calibration control
-#define CC1101_PTEST 0x2A // Production test
-#define CC1101_AGCTEST 0x2B // AGC test
-#define CC1101_TEST2 0x2C // Various test settings
-#define CC1101_TEST1 0x2D // Various test settings
-#define CC1101_TEST0 0x2E // Various test settings
+#define CC1101_IOCFG2 0x00 // GDO2 output pin configuration
+#define CC1101_IOCFG1 0x01 // GDO1 output pin configuration
+#define CC1101_IOCFG0 0x02 // GDO0 output pin configuration
+#define CC1101_FIFOTHR 0x03 // RX FIFO and TX FIFO thresholds
+#define CC1101_SYNC1 0x04 // Sync word, high INT8U
+#define CC1101_SYNC0 0x05 // Sync word, low INT8U
+#define CC1101_PKTLEN 0x06 // Packet length
+#define CC1101_PKTCTRL1 0x07 // Packet automation control
+#define CC1101_PKTCTRL0 0x08 // Packet automation control
+#define CC1101_ADDR 0x09 // Device address
+#define CC1101_CHANNR 0x0A // Channel number
+#define CC1101_FSCTRL1 0x0B // Frequency synthesizer control
+#define CC1101_FSCTRL0 0x0C // Frequency synthesizer control
+#define CC1101_FREQ2 0x0D // Frequency control word, high INT8U
+#define CC1101_FREQ1 0x0E // Frequency control word, middle INT8U
+#define CC1101_FREQ0 0x0F // Frequency control word, low INT8U
+#define CC1101_MDMCFG4 0x10 // Modem configuration
+#define CC1101_MDMCFG3 0x11 // Modem configuration
+#define CC1101_MDMCFG2 0x12 // Modem configuration
+#define CC1101_MDMCFG1 0x13 // Modem configuration
+#define CC1101_MDMCFG0 0x14 // Modem configuration
+#define CC1101_DEVIATN 0x15 // Modem deviation setting
+#define CC1101_MCSM2 0x16 // Main Radio Control State Machine configuration
+#define CC1101_MCSM1 0x17 // Main Radio Control State Machine configuration
+#define CC1101_MCSM0 0x18 // Main Radio Control State Machine configuration
+#define CC1101_FOCCFG 0x19 // Frequency Offset Compensation configuration
+#define CC1101_BSCFG 0x1A // Bit Synchronization configuration
+#define CC1101_AGCCTRL2 0x1B // AGC control
+#define CC1101_AGCCTRL1 0x1C // AGC control
+#define CC1101_AGCCTRL0 0x1D // AGC control
+#define CC1101_WOREVT1 0x1E // High INT8U Event 0 timeout
+#define CC1101_WOREVT0 0x1F // Low INT8U Event 0 timeout
+#define CC1101_WORCTRL 0x20 // Wake On Radio control
+#define CC1101_FREND1 0x21 // Front end RX configuration
+#define CC1101_FREND0 0x22 // Front end TX configuration
+#define CC1101_FSCAL3 0x23 // Frequency synthesizer calibration
+#define CC1101_FSCAL2 0x24 // Frequency synthesizer calibration
+#define CC1101_FSCAL1 0x25 // Frequency synthesizer calibration
+#define CC1101_FSCAL0 0x26 // Frequency synthesizer calibration
+#define CC1101_RCCTRL1 0x27 // RC oscillator configuration
+#define CC1101_RCCTRL0 0x28 // RC oscillator configuration
+#define CC1101_FSTEST 0x29 // Frequency synthesizer calibration control
+#define CC1101_PTEST 0x2A // Production test
+#define CC1101_AGCTEST 0x2B // AGC test
+#define CC1101_TEST2 0x2C // Various test settings
+#define CC1101_TEST1 0x2D // Various test settings
+#define CC1101_TEST0 0x2E // Various test settings
-//CC1101 Strobe commands
-#define CC1101_SRES 0x30 // Reset chip.
-#define CC1101_SFSTXON 0x31 // Enable and calibrate frequency synthesizer (if MCSM0.FS_AUTOCAL=1).
- // If in RX/TX: Go to a wait state where only the synthesizer is
- // running (for quick RX / TX turnaround).
-#define CC1101_SXOFF 0x32 // Turn off crystal oscillator.
-#define CC1101_SCAL 0x33 // Calibrate frequency synthesizer and turn it off
- // (enables quick start).
-#define CC1101_SRX 0x34 // Enable RX. Perform calibration first if coming from IDLE and
- // MCSM0.FS_AUTOCAL=1.
-#define CC1101_STX 0x35 // In IDLE state: Enable TX. Perform calibration first if
- // MCSM0.FS_AUTOCAL=1. If in RX state and CCA is enabled:
- // Only go to TX if channel is clear.
-#define CC1101_SIDLE 0x36 // Exit RX / TX, turn off frequency synthesizer and exit
- // Wake-On-Radio mode if applicable.
-#define CC1101_SAFC 0x37 // Perform AFC adjustment of the frequency synthesizer
-#define CC1101_SWOR 0x38 // Start automatic RX polling sequence (Wake-on-Radio)
-#define CC1101_SPWD 0x39 // Enter power down mode when CSn goes high.
-#define CC1101_SFRX 0x3A // Flush the RX FIFO buffer.
-#define CC1101_SFTX 0x3B // Flush the TX FIFO buffer.
-#define CC1101_SWORRST 0x3C // Reset real time clock.
-#define CC1101_SNOP 0x3D // No operation. May be used to pad strobe commands to two
- // INT8Us for simpler software.
-//CC1101 STATUS REGSITER
-#define CC1101_PARTNUM 0x30
-#define CC1101_VERSION 0x31
-#define CC1101_FREQEST 0x32
-#define CC1101_LQI 0x33
-#define CC1101_RSSI 0x34
-#define CC1101_MARCSTATE 0x35
-#define CC1101_WORTIME1 0x36
-#define CC1101_WORTIME0 0x37
-#define CC1101_PKTSTATUS 0x38
-#define CC1101_VCO_VC_DAC 0x39
-#define CC1101_TXBYTES 0x3A
-#define CC1101_RXBYTES 0x3B
+// CC1101 Strobe commands
+#define CC1101_SRES 0x30 // Reset chip.
+#define CC1101_SFSTXON \
+ 0x31 // Enable and calibrate frequency synthesizer (if MCSM0.FS_AUTOCAL=1).
+ // If in RX/TX: Go to a wait state where only the synthesizer is
+ // running (for quick RX / TX turnaround).
+#define CC1101_SXOFF 0x32 // Turn off crystal oscillator.
+#define CC1101_SCAL \
+ 0x33 // Calibrate frequency synthesizer and turn it off
+ // (enables quick start).
+#define CC1101_SRX \
+ 0x34 // Enable RX. Perform calibration first if coming from IDLE and
+ // MCSM0.FS_AUTOCAL=1.
+#define CC1101_STX \
+ 0x35 // In IDLE state: Enable TX. Perform calibration first if
+ // MCSM0.FS_AUTOCAL=1. If in RX state and CCA is enabled:
+ // Only go to TX if channel is clear.
+#define CC1101_SIDLE \
+ 0x36 // Exit RX / TX, turn off frequency synthesizer and exit
+ // Wake-On-Radio mode if applicable.
+#define CC1101_SAFC 0x37 // Perform AFC adjustment of the frequency synthesizer
+#define CC1101_SWOR 0x38 // Start automatic RX polling sequence (Wake-on-Radio)
+#define CC1101_SPWD 0x39 // Enter power down mode when CSn goes high.
+#define CC1101_SFRX 0x3A // Flush the RX FIFO buffer.
+#define CC1101_SFTX 0x3B // Flush the TX FIFO buffer.
+#define CC1101_SWORRST 0x3C // Reset real time clock.
+#define CC1101_SNOP \
+ 0x3D // No operation. May be used to pad strobe commands to two
+ // INT8Us for simpler software.
+// CC1101 STATUS REGSITER
+#define CC1101_PARTNUM 0x30
+#define CC1101_VERSION 0x31
+#define CC1101_FREQEST 0x32
+#define CC1101_LQI 0x33
+#define CC1101_RSSI 0x34
+#define CC1101_MARCSTATE 0x35
+#define CC1101_WORTIME1 0x36
+#define CC1101_WORTIME0 0x37
+#define CC1101_PKTSTATUS 0x38
+#define CC1101_VCO_VC_DAC 0x39
+#define CC1101_TXBYTES 0x3A
+#define CC1101_RXBYTES 0x3B
-//CC1101 PATABLE,TXFIFO,RXFIFO
-#define CC1101_PATABLE 0x3E
-#define CC1101_TXFIFO 0x3F
-#define CC1101_RXFIFO 0x3F
+// CC1101 PATABLE,TXFIFO,RXFIFO
+#define CC1101_PATABLE 0x3E
+#define CC1101_TXFIFO 0x3F
+#define CC1101_RXFIFO 0x3F
-//************************************* class **************************************************//
-class ELECHOUSE_CC1101
-{
-private:
- void SpiStart(void);
- void SpiEnd(void);
- void GDO_Set (void);
- void GDO0_Set (void);
- void Reset (void);
- void setSpi(void);
- void RegConfigSettings(void);
- void Calibrate(void);
- void Split_PKTCTRL0(void);
- void Split_PKTCTRL1(void);
- void Split_MDMCFG1(void);
- void Split_MDMCFG2(void);
- void Split_MDMCFG4(void);
-public:
- void Init(void);
- byte SpiReadStatus(byte addr);
- void setSpiPin(byte sck, byte miso, byte mosi, byte ss);
- void addSpiPin(byte sck, byte miso, byte mosi, byte ss, byte modul);
- void setGDO(byte gdo0, byte gdo2);
- void setGDO0(byte gdo0);
- void addGDO(byte gdo0, byte gdo2, byte modul);
- void addGDO0(byte gdo0, byte modul);
- void setModul(byte modul);
- void setCCMode(bool s);
- void setModulation(byte m);
- void setPA(int p);
- void setMHZ(float mhz);
- void setChannel(byte chnl);
- void setChsp(float f);
- void setRxBW(float f);
- void setDRate(float d);
- void setDeviation(float d);
- void SetTx(void);
- void SetRx(void);
- void SetTx(float mhz);
- void SetRx(float mhz);
- int getRssi(void);
- byte getLqi(void);
- void setSres(void);
- void setSidle(void);
- void goSleep(void);
- void SendData(byte *txBuffer, byte size);
- void SendData(char *txchar);
- void SendData(byte *txBuffer, byte size, int t);
- void SendData(char *txchar, int t);
- byte CheckReceiveFlag(void);
- byte ReceiveData(byte *rxBuffer);
- bool CheckCRC(void);
- void SpiStrobe(byte strobe);
- void SpiWriteReg(byte addr, byte value);
- void SpiWriteBurstReg(byte addr, byte *buffer, byte num);
- byte SpiReadReg(byte addr);
- void SpiReadBurstReg(byte addr, byte *buffer, byte num);
- void setClb(byte b, byte s, byte e);
- bool getCC1101(void);
- byte getMode(void);
- void setSyncWord(byte sh, byte sl);
- void setAddr(byte v);
- void setWhiteData(bool v);
- void setPktFormat(byte v);
- void setCrc(bool v);
- void setLengthConfig(byte v);
- void setPacketLength(byte v);
- void setDcFilterOff(bool v);
- void setManchester(bool v);
- void setSyncMode(byte v);
- void setFEC(bool v);
- void setPRE(byte v);
- void setPQT(byte v);
- void setCRC_AF(bool v);
- void setAppendStatus(bool v);
- void setAdrChk(byte v);
- bool CheckRxFifo(int t);
+//************************************* class
+//**************************************************//
+class ELECHOUSE_CC1101 {
+ private:
+ void SpiStart(void);
+ void SpiEnd(void);
+ void GDO_Set(void);
+ void GDO0_Set(void);
+ void Reset(void);
+ void setSpi(void);
+ void RegConfigSettings(void);
+ void Calibrate(void);
+ void Split_PKTCTRL0(void);
+ void Split_PKTCTRL1(void);
+ void Split_MDMCFG1(void);
+ void Split_MDMCFG2(void);
+ void Split_MDMCFG4(void);
+
+ public:
+ void Init(void);
+ byte SpiReadStatus(byte addr);
+ void setSpiPin(byte sck, byte miso, byte mosi, byte ss);
+ void addSpiPin(byte sck, byte miso, byte mosi, byte ss, byte modul);
+ void setGDO(byte gdo0, byte gdo2);
+ void setGDO0(byte gdo0);
+ void addGDO(byte gdo0, byte gdo2, byte modul);
+ void addGDO0(byte gdo0, byte modul);
+ void setModul(byte modul);
+ void setCCMode(bool s);
+ void setModulation(byte m);
+ void setPA(int p);
+ void setMHZ(float mhz);
+ void setChannel(byte chnl);
+ void setChsp(float f);
+ void setRxBW(float f);
+ void setDRate(float d);
+ void setDeviation(float d);
+ void SetTx(void);
+ void SetRx(void);
+ void SetTx(float mhz);
+ void SetRx(float mhz);
+ int getRssi(void);
+ byte getLqi(void);
+ void setSres(void);
+ void setSidle(void);
+ void goSleep(void);
+ void SendData(byte *txBuffer, byte size);
+ void SendData(char *txchar);
+ void SendData(byte *txBuffer, byte size, int t);
+ void SendData(char *txchar, int t);
+ byte CheckReceiveFlag(void);
+ byte ReceiveData(byte *rxBuffer);
+ bool CheckCRC(void);
+ void SpiStrobe(byte strobe);
+ void SpiWriteReg(byte addr, byte value);
+ void SpiWriteBurstReg(byte addr, byte *buffer, byte num);
+ byte SpiReadReg(byte addr);
+ void SpiReadBurstReg(byte addr, byte *buffer, byte num);
+ void setClb(byte b, byte s, byte e);
+ bool getCC1101(void);
+ byte getMode(void);
+ void setSyncWord(byte sh, byte sl);
+ void setAddr(byte v);
+ void setWhiteData(bool v);
+ void setPktFormat(byte v);
+ void setCrc(bool v);
+ void setLengthConfig(byte v);
+ void setPacketLength(byte v);
+ void setDcFilterOff(bool v);
+ void setManchester(bool v);
+ void setSyncMode(byte v);
+ void setFEC(bool v);
+ void setPRE(byte v);
+ void setPQT(byte v);
+ void setCRC_AF(bool v);
+ void setAppendStatus(bool v);
+ void setAdrChk(byte v);
+ bool CheckRxFifo(int t);
};
extern ELECHOUSE_CC1101 ELECHOUSE_cc1101;
generated by cgit v1.2.3 (git 2.46.0) at 2026-06-30 13:06:10 +0000