Group 3_ESE519 / Mbed 2 deprecated lab5-gateway

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Dependencies:   mbed

MRF24J40/MRF24J40.h@0:6830fa3899e3, 2015-11-08 (annotated)

Committer:
mfrede
Date:
Sun Nov 08 22:07:10 2015 +0000
Revision:
0:6830fa3899e3
Child:
6:9daa56b8a027
initial gateway code

Who changed what in which revision?

UserRevisionLine numberNew contents of line
mfrede 0:6830fa3899e3 1 /* mbed MRF24J40 (IEEE 802.15.4 tranceiver) Library
mfrede 0:6830fa3899e3 2 * Copyright (c) 2011 Jeroen Hilgers
mfrede 0:6830fa3899e3 3 *
mfrede 0:6830fa3899e3 4 * Permission is hereby granted, free of charge, to any person obtaining a copy
mfrede 0:6830fa3899e3 5 * of this software and associated documentation files (the "Software"), to deal
mfrede 0:6830fa3899e3 6 * in the Software without restriction, including without limitation the rights
mfrede 0:6830fa3899e3 7 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
mfrede 0:6830fa3899e3 8 * copies of the Software, and to permit persons to whom the Software is
mfrede 0:6830fa3899e3 9 * furnished to do so, subject to the following conditions:
mfrede 0:6830fa3899e3 10 *
mfrede 0:6830fa3899e3 11 * The above copyright notice and this permission notice shall be included in
mfrede 0:6830fa3899e3 12 * all copies or substantial portions of the Software.
mfrede 0:6830fa3899e3 13 *
mfrede 0:6830fa3899e3 14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
mfrede 0:6830fa3899e3 15 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
mfrede 0:6830fa3899e3 16 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
mfrede 0:6830fa3899e3 17 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
mfrede 0:6830fa3899e3 18 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
mfrede 0:6830fa3899e3 19 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
mfrede 0:6830fa3899e3 20 * THE SOFTWARE.
mfrede 0:6830fa3899e3 21 */
mfrede 0:6830fa3899e3 22
mfrede 0:6830fa3899e3 23 #ifndef MRF24J40_H
mfrede 0:6830fa3899e3 24 #define MRF25J40_H
mfrede 0:6830fa3899e3 25
mfrede 0:6830fa3899e3 26 #include "mbed.h"
mfrede 0:6830fa3899e3 27
mfrede 0:6830fa3899e3 28 /** MRF24J40 class. Provides a simple send/receive API for a microchip
mfrede 0:6830fa3899e3 29 ** MFR24J40 IEEE 802.15.4 tranceiver. The tranceiver is available on a
mfrede 0:6830fa3899e3 30 ** module that can easilly be soldered to some header pins to use it with
mfrede 0:6830fa3899e3 31 ** an mbed on a breadboard. The module is called 'MRF24J40MA' and can be
mfrede 0:6830fa3899e3 32 ** ordered for example by www.farnell.com.
mfrede 0:6830fa3899e3 33 *
mfrede 0:6830fa3899e3 34 * Example:
mfrede 0:6830fa3899e3 35 * @code
mfrede 0:6830fa3899e3 36 * #include "mbed.h"
mfrede 0:6830fa3899e3 37 * #include "MRF24J40.h"
mfrede 0:6830fa3899e3 38 *
mfrede 0:6830fa3899e3 39 * // RF tranceiver to link with handheld.
mfrede 0:6830fa3899e3 40 * MRF24J40 mrf(p11, p12, p13, p14, p21);
mfrede 0:6830fa3899e3 41 *
mfrede 0:6830fa3899e3 42 * // LEDs
mfrede 0:6830fa3899e3 43 * DigitalOut led1(LED1);
mfrede 0:6830fa3899e3 44 * DigitalOut led2(LED2);
mfrede 0:6830fa3899e3 45 * DigitalOut led3(LED3);
mfrede 0:6830fa3899e3 46 * DigitalOut led4(LED4);
mfrede 0:6830fa3899e3 47 *
mfrede 0:6830fa3899e3 48 * // Timer.
mfrede 0:6830fa3899e3 49 * Timer timer;
mfrede 0:6830fa3899e3 50 *
mfrede 0:6830fa3899e3 51 * // Serial port for showing RX data.
mfrede 0:6830fa3899e3 52 * Serial pc(USBTX, USBRX);
mfrede 0:6830fa3899e3 53 *
mfrede 0:6830fa3899e3 54 * // Send / receive buffers.
mfrede 0:6830fa3899e3 55 * // IMPORTANT: The MRF24J40 is intended as zigbee tranceiver; it tends
mfrede 0:6830fa3899e3 56 * // to reject data that doesn't have the right header. So the first
mfrede 0:6830fa3899e3 57 * // 8 bytes in txBuffer look like a valid header. The remaining 120
mfrede 0:6830fa3899e3 58 * // bytes can be used for anything you like.
mfrede 0:6830fa3899e3 59 * uint8_t txBuffer[128]= {1, 8, 0, 0xA1, 0xB2, 0xC3, 0xD4, 0x00};
mfrede 0:6830fa3899e3 60 *
mfrede 0:6830fa3899e3 61 * uint8_t rxBuffer[128];
mfrede 0:6830fa3899e3 62 * uint8_t rxLen;
mfrede 0:6830fa3899e3 63 *
mfrede 0:6830fa3899e3 64 * int main (void)
mfrede 0:6830fa3899e3 65 * {
mfrede 0:6830fa3899e3 66 * uint8_t count = 0;
mfrede 0:6830fa3899e3 67 * pc.baud(115200);
mfrede 0:6830fa3899e3 68 * timer.start();
mfrede 0:6830fa3899e3 69 * while(1)
mfrede 0:6830fa3899e3 70 * {
mfrede 0:6830fa3899e3 71 * // Check if any data was received.
mfrede 0:6830fa3899e3 72 * rxLen = mrf.Receive(rxBuffer, 128);
mfrede 0:6830fa3899e3 73 * if(rxLen)
mfrede 0:6830fa3899e3 74 * {
mfrede 0:6830fa3899e3 75 * // Toggle LED 1 upon each reception of data.
mfrede 0:6830fa3899e3 76 * led1 = led1^1;
mfrede 0:6830fa3899e3 77 * // Send to serial.
mfrede 0:6830fa3899e3 78 * // IMPORTANT: The last two bytes of the received data
mfrede 0:6830fa3899e3 79 * // are the checksum used in the transmission.
mfrede 0:6830fa3899e3 80 * for(uint8_t i=0; i<rxLen; i++)
mfrede 0:6830fa3899e3 81 * {
mfrede 0:6830fa3899e3 82 * pc.printf("0x%02X ", rxBuffer[i]);
mfrede 0:6830fa3899e3 83 * }
mfrede 0:6830fa3899e3 84 * pc.printf("\r\n");
mfrede 0:6830fa3899e3 85 * }
mfrede 0:6830fa3899e3 86 *
mfrede 0:6830fa3899e3 87 * // Each second, send some data.
mfrede 0:6830fa3899e3 88 * if(timer.read_ms() >= 1000)
mfrede 0:6830fa3899e3 89 * {
mfrede 0:6830fa3899e3 90 * timer.reset();
mfrede 0:6830fa3899e3 91 * // Toggle LED 2.
mfrede 0:6830fa3899e3 92 * led2 = led2^1;
mfrede 0:6830fa3899e3 93 *
mfrede 0:6830fa3899e3 94 * // UART.
mfrede 0:6830fa3899e3 95 * pc.printf("TXD\r\n");
mfrede 0:6830fa3899e3 96 *
mfrede 0:6830fa3899e3 97 * // Send counter value.
mfrede 0:6830fa3899e3 98 * count++;
mfrede 0:6830fa3899e3 99 * txBuffer[8] = count;
mfrede 0:6830fa3899e3 100 * mrf.Send(txBuffer, 9);
mfrede 0:6830fa3899e3 101 * }
mfrede 0:6830fa3899e3 102 * }
mfrede 0:6830fa3899e3 103 * }
mfrede 0:6830fa3899e3 104 * @endcode
mfrede 0:6830fa3899e3 105 */
mfrede 0:6830fa3899e3 106
mfrede 0:6830fa3899e3 107
mfrede 0:6830fa3899e3 108 class MRF24J40
mfrede 0:6830fa3899e3 109 {
mfrede 0:6830fa3899e3 110 public:
mfrede 0:6830fa3899e3 111 /** Create a MRF24J40 object and initizalize it.
mfrede 0:6830fa3899e3 112 *
mfrede 0:6830fa3899e3 113 * @param pin mosi Spi MOSI pin connected to MRF's SDI.
mfrede 0:6830fa3899e3 114 * @param pin miso Spi MISO pin connected to MRF's SDO.
mfrede 0:6830fa3899e3 115 * @param pin sck Spi SCK pin connected to MRF's SCK.
mfrede 0:6830fa3899e3 116 * @param pin cs Pin connected to MRF's #CS.
mfrede 0:6830fa3899e3 117 * @param pin reset Pin connected to MRF's #Reset.
mfrede 0:6830fa3899e3 118 */
mfrede 0:6830fa3899e3 119 MRF24J40(PinName mosi, PinName miso, PinName sck, PinName cs, PinName reset);//, PinName irq, PinName wake);
mfrede 0:6830fa3899e3 120
mfrede 0:6830fa3899e3 121 /** Reset the MRF24J40 and initialize it.
mfrede 0:6830fa3899e3 122 */
mfrede 0:6830fa3899e3 123 void Reset(void); // Reset chip and configure it.
mfrede 0:6830fa3899e3 124
mfrede 0:6830fa3899e3 125 /** Send data.
mfrede 0:6830fa3899e3 126 *
mfrede 0:6830fa3899e3 127 * Note that the MRF24J40 only handles data with a valid IEEE 802.15.4
mfrede 0:6830fa3899e3 128 * header. See the example how to get around this.
mfrede 0:6830fa3899e3 129 *
mfrede 0:6830fa3899e3 130 * @param data Pointer to data to be send.
mfrede 0:6830fa3899e3 131 * @param length Length of the data to be send in bytes.
mfrede 0:6830fa3899e3 132 */
mfrede 0:6830fa3899e3 133 void Send(uint8_t *data, uint8_t length); // Send data.
mfrede 0:6830fa3899e3 134
mfrede 0:6830fa3899e3 135 /** Check if any data was received.
mfrede 0:6830fa3899e3 136 *
mfrede 0:6830fa3899e3 137 * Note that the MRF24J40 appends two bytes of CRC for each packet.
mfrede 0:6830fa3899e3 138 * So you will receive two bytes more than were send with the 'Send' function.
mfrede 0:6830fa3899e3 139 *
mfrede 0:6830fa3899e3 140 * @param data Pointer to buffer where received data can be placed.
mfrede 0:6830fa3899e3 141 * @param maxLength Maximum amount of data to be placed in the buffer.
mfrede 0:6830fa3899e3 142 * @param returns The number of bytes written into the buffer.
mfrede 0:6830fa3899e3 143 */
mfrede 0:6830fa3899e3 144 uint8_t Receive(uint8_t *data, uint8_t maxLength); // Receive data if ready.
mfrede 0:6830fa3899e3 145
mfrede 0:6830fa3899e3 146 /** Sets the channel of the MRF24J40
mfrede 0:6830fa3899e3 147 *
mfrede 0:6830fa3899e3 148 * @param channel A number between 0-15 (0=2405MHz 15=2480MHz)
mfrede 0:6830fa3899e3 149 */
mfrede 0:6830fa3899e3 150 void SetChannel(uint8_t channel);
mfrede 0:6830fa3899e3 151
mfrede 0:6830fa3899e3 152 // void DebugDump(Serial &ser);
mfrede 0:6830fa3899e3 153
mfrede 0:6830fa3899e3 154 private:
mfrede 0:6830fa3899e3 155 SPI mSpi;
mfrede 0:6830fa3899e3 156 DigitalOut mCs;
mfrede 0:6830fa3899e3 157 DigitalOut mReset;
mfrede 0:6830fa3899e3 158 // DigitalIn mIrq;
mfrede 0:6830fa3899e3 159 // DigitalIn mWake;
mfrede 0:6830fa3899e3 160
mfrede 0:6830fa3899e3 161 uint8_t ReadShort (uint8_t address);
mfrede 0:6830fa3899e3 162 void WriteShort (uint8_t address, uint8_t data);
mfrede 0:6830fa3899e3 163 uint8_t ReadLong (uint16_t address);
mfrede 0:6830fa3899e3 164 void WriteLong (uint16_t address, uint8_t data);
mfrede 0:6830fa3899e3 165 };
mfrede 0:6830fa3899e3 166
mfrede 0:6830fa3899e3 167 #endif