XBeeLib - | Mbed

Users » etherealflaim » Code » XBeeLib

XBee.hpp@1:eefaa22e4b2c, 2010-12-01 (annotated)

Committer:: etherealflaim
Date:: Wed Dec 01 21:14:23 2010 +0000
Revision:: 1:eefaa22e4b2c
Parent:: 0:86ff0a55c978
Child:: 2:2a826741387f

Who changed what in which revision?

User	Revision	Line number	New contents of line
etherealflaim	0:86ff0a55c978	1	#ifndef XBEE_HPP
etherealflaim	0:86ff0a55c978	2	#define XBEE_HPP
etherealflaim	0:86ff0a55c978	3
etherealflaim	0:86ff0a55c978	4	#include <queue>
etherealflaim	0:86ff0a55c978	5	#include <cctype>
etherealflaim	0:86ff0a55c978	6	#include <string>
etherealflaim	0:86ff0a55c978	7	#include <vector>
etherealflaim	0:86ff0a55c978	8	#include <cstring>
etherealflaim	0:86ff0a55c978	9
etherealflaim	0:86ff0a55c978	10	#include "mbed.h"
etherealflaim	0:86ff0a55c978	11	#include "handler.hpp"
etherealflaim	0:86ff0a55c978	12
etherealflaim	0:86ff0a55c978	13	#define PRINT(c) ((isprint(c))?(c):('.'))
etherealflaim	0:86ff0a55c978	14
etherealflaim	0:86ff0a55c978	15	/** This class encapsulates a simplistic XBee packet.
etherealflaim	0:86ff0a55c978	16	* 1. The packet is 0x01 delimited.
etherealflaim	0:86ff0a55c978	17	* 2. The packet has a source and destination, which are (nominally) 8-byte identifiers
etherealflaim	0:86ff0a55c978	18	*/
etherealflaim	0:86ff0a55c978	19	class XBeePacket
etherealflaim	0:86ff0a55c978	20	{
etherealflaim	0:86ff0a55c978	21	private:
etherealflaim	0:86ff0a55c978	22	string m_data;
etherealflaim	0:86ff0a55c978	23	int m_data_len;
etherealflaim	0:86ff0a55c978	24	string m_source;
etherealflaim	0:86ff0a55c978	25	string m_dest;
etherealflaim	0:86ff0a55c978	26	bool m_packed;
etherealflaim	0:86ff0a55c978	27
etherealflaim	0:86ff0a55c978	28	public:
etherealflaim	0:86ff0a55c978	29	/// Construct an empty (invalid) XBeePacket
etherealflaim	0:86ff0a55c978	30	inline XBeePacket()
etherealflaim	0:86ff0a55c978	31	: m_data(""), m_data_len(0), m_source("_INVALID"), m_dest("********"), m_packed(false)
etherealflaim	0:86ff0a55c978	32	{
etherealflaim	0:86ff0a55c978	33	}
etherealflaim	0:86ff0a55c978	34
etherealflaim	0:86ff0a55c978	35	/// Create an XBeePacket with the given data
etherealflaim	0:86ff0a55c978	36	inline XBeePacket(const string data)
etherealflaim	0:86ff0a55c978	37	: m_data(data), m_data_len(data.length()), m_source("_INVALID"), m_dest("********"), m_packed(false)
etherealflaim	0:86ff0a55c978	38	{
etherealflaim	0:86ff0a55c978	39	}
etherealflaim	0:86ff0a55c978	40
etherealflaim	0:86ff0a55c978	41	/// Create an XBeePacket with the given source and data
etherealflaim	0:86ff0a55c978	42	inline XBeePacket(const string src, const string data)
etherealflaim	0:86ff0a55c978	43	: m_data(data), m_data_len(data.length()), m_source(src), m_dest("********"), m_packed(false)
etherealflaim	0:86ff0a55c978	44	{
etherealflaim	0:86ff0a55c978	45	}
etherealflaim	0:86ff0a55c978	46
etherealflaim	0:86ff0a55c978	47	/// Create an XBeePacket with the given source, destination, and data
etherealflaim	0:86ff0a55c978	48	inline XBeePacket(const string src, const string dst, const string data)
etherealflaim	0:86ff0a55c978	49	: m_data(data), m_data_len(data.length()), m_source(src), m_dest(dst), m_packed(false)
etherealflaim	0:86ff0a55c978	50	{
etherealflaim	0:86ff0a55c978	51	}
etherealflaim	0:86ff0a55c978	52
etherealflaim	0:86ff0a55c978	53	/// Append the given data to the packet
etherealflaim	0:86ff0a55c978	54	inline void append(const string data)
etherealflaim	0:86ff0a55c978	55	{
etherealflaim	0:86ff0a55c978	56	m_data += data;
etherealflaim	0:86ff0a55c978	57	m_data_len += data.length();
etherealflaim	0:86ff0a55c978	58	}
etherealflaim	0:86ff0a55c978	59
etherealflaim	0:86ff0a55c978	60	/// Get the packet source (if set or unpacked)
etherealflaim	0:86ff0a55c978	61	inline string source() { return m_source; }
etherealflaim	0:86ff0a55c978	62
etherealflaim	0:86ff0a55c978	63	/// Set the packet source (before packing)
etherealflaim	0:86ff0a55c978	64	inline void source(string src) { m_source = src; }
etherealflaim	0:86ff0a55c978	65
etherealflaim	0:86ff0a55c978	66	/// Get the packet destination (if set or unpacked)
etherealflaim	0:86ff0a55c978	67	inline string dest() { return m_dest; }
etherealflaim	0:86ff0a55c978	68
etherealflaim	0:86ff0a55c978	69	/// Set the packet destination (before packing)
etherealflaim	0:86ff0a55c978	70	inline void dest(string dst) { m_dest = dst; }
etherealflaim	0:86ff0a55c978	71
etherealflaim	0:86ff0a55c978	72	/// Get the packet data (if set or unpacked)
etherealflaim	0:86ff0a55c978	73	inline string data() { return m_data; }
etherealflaim	0:86ff0a55c978	74
etherealflaim	0:86ff0a55c978	75	/// Set the packet data (before packing)
etherealflaim	0:86ff0a55c978	76	inline void data(string dat) { m_data = dat; }
etherealflaim	0:86ff0a55c978	77
etherealflaim	0:86ff0a55c978	78	/// Get a vector of the 0x01-delimited pieces of the data (after unpacking)
etherealflaim	0:86ff0a55c978	79	inline vector<string> split_data()
etherealflaim	0:86ff0a55c978	80	{
etherealflaim	0:86ff0a55c978	81	vector<string> pieces;
etherealflaim	0:86ff0a55c978	82	int begin = 0;
etherealflaim	0:86ff0a55c978	83	int end = 0;
etherealflaim	0:86ff0a55c978	84	while (end < m_data_len && (end = m_data.find(0x01, begin)) != string::npos)
etherealflaim	0:86ff0a55c978	85	{
etherealflaim	0:86ff0a55c978	86	pieces.push_back( m_data.substr(begin, end-begin) );
etherealflaim	0:86ff0a55c978	87	begin = end+1;
etherealflaim	0:86ff0a55c978	88	}
etherealflaim	0:86ff0a55c978	89	pieces.push_back( m_data.substr(begin) );
etherealflaim	0:86ff0a55c978	90	return pieces;
etherealflaim	0:86ff0a55c978	91	}
etherealflaim	0:86ff0a55c978	92
etherealflaim	0:86ff0a55c978	93	/// Clear the packet (zero the length, and reset the source and destination)
etherealflaim	0:86ff0a55c978	94	inline void clear()
etherealflaim	0:86ff0a55c978	95	{
etherealflaim	0:86ff0a55c978	96	m_data = "";
etherealflaim	0:86ff0a55c978	97	m_data_len = 0;
etherealflaim	0:86ff0a55c978	98	m_source = "_CLEARED";
etherealflaim	0:86ff0a55c978	99	m_dest = "********";
etherealflaim	0:86ff0a55c978	100	}
etherealflaim	0:86ff0a55c978	101
etherealflaim	0:86ff0a55c978	102	/** Pack the packet with header, etc.
etherealflaim	0:86ff0a55c978	103	* This function can be called separately to include the headers in, e.g., a dump()
etherealflaim	0:86ff0a55c978	104	*/
etherealflaim	0:86ff0a55c978	105	inline void pack()
etherealflaim	0:86ff0a55c978	106	{
etherealflaim	0:86ff0a55c978	107	string header = "iHvZ\001" + m_source + "\001" + m_dest + "\001";
etherealflaim	0:86ff0a55c978	108	m_data = header + m_data;
etherealflaim	0:86ff0a55c978	109	m_data_len += header.length();
etherealflaim	0:86ff0a55c978	110	m_packed = true;
etherealflaim	0:86ff0a55c978	111	}
etherealflaim	0:86ff0a55c978	112
etherealflaim	0:86ff0a55c978	113	/** Unpack the packet header
etherealflaim	0:86ff0a55c978	114	* This function should be called with received packets to extract the header
etherealflaim	0:86ff0a55c978	115	*/
etherealflaim	0:86ff0a55c978	116	inline bool unpack()
etherealflaim	0:86ff0a55c978	117	{
etherealflaim	0:86ff0a55c978	118	if (m_data.substr(0, 5) != "iHvZ\001") return false;
etherealflaim	0:86ff0a55c978	119	int source_idx = m_data.find(0x01, 0) + 1;
etherealflaim	0:86ff0a55c978	120	int dest_idx = m_data.find(0x01, source_idx) + 1;
etherealflaim	0:86ff0a55c978	121	int data_idx = m_data.find(0x01, dest_idx) + 1;
etherealflaim	0:86ff0a55c978	122	if (source_idx == string::npos \|\|
etherealflaim	0:86ff0a55c978	123	dest_idx == string::npos \|\|
etherealflaim	0:86ff0a55c978	124	data_idx == string::npos) return false;
etherealflaim	1:eefaa22e4b2c	125
etherealflaim	1:eefaa22e4b2c	126	#if _XBEE_DEBUG > 1
etherealflaim	1:eefaa22e4b2c	127	Serial usb(USBTX,USBRX);
etherealflaim	1:eefaa22e4b2c	128	usb.printf("-- UNPACK:\r\n");
etherealflaim	1:eefaa22e4b2c	129	usb.printf("-- FULL = %s\r\n", m_data.c_str());
etherealflaim	1:eefaa22e4b2c	130	usb.printf("-- INDICES = src %d / dst %d / dat %d\r\n", source_idx, dest_idx, data_idx);
etherealflaim	1:eefaa22e4b2c	131	usb.printf("-- SPLIT = %s / %s / %s\r\n",
etherealflaim	1:eefaa22e4b2c	132	m_data.substr(source_idx, dest_idx - source_idx - 1).c_str(),
etherealflaim	1:eefaa22e4b2c	133	m_data.substr(dest_idx, data_idx - dest_idx - 1).c_str(),
etherealflaim	1:eefaa22e4b2c	134	m_data.substr(data_idx));
etherealflaim	1:eefaa22e4b2c	135	#endif
etherealflaim	1:eefaa22e4b2c	136
etherealflaim	0:86ff0a55c978	137	m_source = m_data.substr(source_idx, dest_idx - source_idx - 1);
etherealflaim	0:86ff0a55c978	138	m_dest = m_data.substr(dest_idx, data_idx - dest_idx - 1);
etherealflaim	0:86ff0a55c978	139	m_data = m_data.substr(data_idx);
etherealflaim	0:86ff0a55c978	140	m_data_len = m_data.length();
etherealflaim	0:86ff0a55c978	141	return true;
etherealflaim	0:86ff0a55c978	142	}
etherealflaim	0:86ff0a55c978	143
etherealflaim	0:86ff0a55c978	144	/// Send the packet on the given Serial port (automatically packs if unpacked)
etherealflaim	0:86ff0a55c978	145	inline void send(Serial &out)
etherealflaim	0:86ff0a55c978	146	{
etherealflaim	0:86ff0a55c978	147	if (!m_packed) pack();
etherealflaim	0:86ff0a55c978	148
etherealflaim	0:86ff0a55c978	149	out.puts(m_data.c_str());
etherealflaim	0:86ff0a55c978	150	out.putc('\n');
etherealflaim	0:86ff0a55c978	151	}
etherealflaim	0:86ff0a55c978	152
etherealflaim	0:86ff0a55c978	153	/// Dump a text version (call before packing) of the packet to the serial port
etherealflaim	0:86ff0a55c978	154	inline void dump(Serial &out)
etherealflaim	0:86ff0a55c978	155	{
etherealflaim	0:86ff0a55c978	156	out.printf("[%s] -> [%s] : [", m_source.c_str(), m_dest.c_str());
etherealflaim	0:86ff0a55c978	157	for (int i = 0; i < m_data_len; ++i)
etherealflaim	0:86ff0a55c978	158	{
etherealflaim	0:86ff0a55c978	159	char c = m_dest[i];
etherealflaim	0:86ff0a55c978	160	if (isprint(c))
etherealflaim	0:86ff0a55c978	161	out.putc(c);
etherealflaim	0:86ff0a55c978	162	else
etherealflaim	0:86ff0a55c978	163	out.printf("\\x%02X", c);
etherealflaim	0:86ff0a55c978	164	}
etherealflaim	0:86ff0a55c978	165	out.printf("] %d bytes\r\n", m_data_len);
etherealflaim	0:86ff0a55c978	166	}
etherealflaim	0:86ff0a55c978	167
etherealflaim	0:86ff0a55c978	168	/// If it is a broadcast packet (destionation ********) return true
etherealflaim	0:86ff0a55c978	169	inline bool is_broadcast() { return m_dest == "********"; }
etherealflaim	0:86ff0a55c978	170	};
etherealflaim	0:86ff0a55c978	171
etherealflaim	0:86ff0a55c978	172	/** Manage the pins connected to an XBee chip in transparent (broadcast) mode.
etherealflaim	0:86ff0a55c978	173	* This is an interface for communicating XBeePackets across the XBee chip in transparent mode.
etherealflaim	0:86ff0a55c978	174	* Receipt of a new packet can be either polled or notified via the attach() functions.
etherealflaim	0:86ff0a55c978	175	*/
etherealflaim	0:86ff0a55c978	176	class XBee
etherealflaim	0:86ff0a55c978	177	{
etherealflaim	0:86ff0a55c978	178	private:
etherealflaim	0:86ff0a55c978	179	/* Unit ID */
etherealflaim	0:86ff0a55c978	180	string m_uid;
etherealflaim	0:86ff0a55c978	181
etherealflaim	0:86ff0a55c978	182	/* Pins */
etherealflaim	0:86ff0a55c978	183	PinName m_xout, m_xin, m_xrstn, m_xassoc, m_xon;
etherealflaim	0:86ff0a55c978	184
etherealflaim	0:86ff0a55c978	185	/* Pin handlers */
etherealflaim	0:86ff0a55c978	186	DigitalOut m_resetn;
etherealflaim	0:86ff0a55c978	187	DigitalIn m_ison;
etherealflaim	0:86ff0a55c978	188	Serial m_comm;
etherealflaim	0:86ff0a55c978	189
etherealflaim	0:86ff0a55c978	190	/* USB logging */
etherealflaim	0:86ff0a55c978	191	Serial m_usb;
etherealflaim	0:86ff0a55c978	192
etherealflaim	0:86ff0a55c978	193	/* Tickers and Timers */
etherealflaim	0:86ff0a55c978	194	Timeout m_timeout;
etherealflaim	0:86ff0a55c978	195
etherealflaim	0:86ff0a55c978	196	/* Packet incoming queue */
etherealflaim	0:86ff0a55c978	197	queue<XBeePacket> m_queue;
etherealflaim	0:86ff0a55c978	198	handler<void> *m_read_handler;
etherealflaim	0:86ff0a55c978	199
etherealflaim	0:86ff0a55c978	200	public:
etherealflaim	0:86ff0a55c978	201	/** Create an XBee chip connect
etherealflaim	0:86ff0a55c978	202	* uid - The unit ID of the XBee chip (used in all outgoing XBeePackets)
etherealflaim	0:86ff0a55c978	203	* xbee_din - The MBED pin connected to the XBEE DIN pin
etherealflaim	0:86ff0a55c978	204	* xbee_dout - The MBED pin connected to the XBEE DOUT pin
etherealflaim	0:86ff0a55c978	205	* xbee_rst - The MBED pin connected to the XBEE nRST pin
etherealflaim	0:86ff0a55c978	206	* xbee_on - The MBED pin connected to the XBEE ON/nSLEEP pin
etherealflaim	0:86ff0a55c978	207	*/
etherealflaim	0:86ff0a55c978	208	inline XBee(string uid, PinName xbee_din, PinName xbee_dout, PinName xbee_rst, PinName xbee_on)
etherealflaim	0:86ff0a55c978	209	: m_uid(uid), m_xout(xbee_din), m_xin(xbee_dout), m_xrstn(xbee_rst), m_xon(xbee_on),
etherealflaim	0:86ff0a55c978	210	m_resetn(xbee_rst), m_ison(xbee_on), m_comm(xbee_din, xbee_dout),
etherealflaim	0:86ff0a55c978	211	m_usb(USBTX, USBRX), m_read_handler(NULL)
etherealflaim	0:86ff0a55c978	212	{
etherealflaim	1:eefaa22e4b2c	213	#if _XBEE_DEBUG > 0
etherealflaim	0:86ff0a55c978	214	m_usb.printf("Resetting XBee...\r\n");
etherealflaim	1:eefaa22e4b2c	215	#endif
etherealflaim	1:eefaa22e4b2c	216
etherealflaim	0:86ff0a55c978	217	// Reset the XBEE module
etherealflaim	0:86ff0a55c978	218	m_resetn = 0;
etherealflaim	0:86ff0a55c978	219	wait(.1);
etherealflaim	0:86ff0a55c978	220	m_resetn = 1;
etherealflaim	0:86ff0a55c978	221	wait(1);
etherealflaim	0:86ff0a55c978	222
etherealflaim	0:86ff0a55c978	223	// Set up serial communications (9600 baud by default)
etherealflaim	0:86ff0a55c978	224	m_comm.baud(9600);
etherealflaim	0:86ff0a55c978	225
etherealflaim	0:86ff0a55c978	226	// Set up a handler for serial communications
etherealflaim	0:86ff0a55c978	227	m_comm.attach(this, &XBee::rxirq);
etherealflaim	0:86ff0a55c978	228
etherealflaim	0:86ff0a55c978	229	// Check sleep status
etherealflaim	1:eefaa22e4b2c	230	#if _XBEE_DEBUG > 0
etherealflaim	0:86ff0a55c978	231	m_usb.printf("XBee is %s\r\n", (m_ison)?"ON":"SLEEP");
etherealflaim	1:eefaa22e4b2c	232	#endif
etherealflaim	0:86ff0a55c978	233
etherealflaim	0:86ff0a55c978	234	setup();
etherealflaim	0:86ff0a55c978	235	}
etherealflaim	0:86ff0a55c978	236
etherealflaim	0:86ff0a55c978	237	inline void broadcast(string data)
etherealflaim	0:86ff0a55c978	238	{
etherealflaim	0:86ff0a55c978	239	XBeePacket pkt(data);
etherealflaim	0:86ff0a55c978	240	pkt.source(m_uid);
etherealflaim	0:86ff0a55c978	241	pkt.send(m_comm);
etherealflaim	0:86ff0a55c978	242	}
etherealflaim	0:86ff0a55c978	243
etherealflaim	0:86ff0a55c978	244	inline void send(string to, string data)
etherealflaim	0:86ff0a55c978	245	{
etherealflaim	0:86ff0a55c978	246	XBeePacket pkt(data);
etherealflaim	0:86ff0a55c978	247	pkt.source(m_uid);
etherealflaim	0:86ff0a55c978	248	pkt.dest(to);
etherealflaim	0:86ff0a55c978	249	pkt.send(m_comm);
etherealflaim	0:86ff0a55c978	250	}
etherealflaim	0:86ff0a55c978	251
etherealflaim	0:86ff0a55c978	252	private:
etherealflaim	0:86ff0a55c978	253
etherealflaim	0:86ff0a55c978	254	inline void setup()
etherealflaim	0:86ff0a55c978	255	{
etherealflaim	0:86ff0a55c978	256	#if _XBEE_DEBUG > 0
etherealflaim	0:86ff0a55c978	257	m_usb.printf("Setting up XBee...\r\n");
etherealflaim	0:86ff0a55c978	258	#endif
etherealflaim	0:86ff0a55c978	259
etherealflaim	0:86ff0a55c978	260	// Turns out, we can only really use this in broadcast mode.
etherealflaim	0:86ff0a55c978	261	//commandMode();
etherealflaim	0:86ff0a55c978	262	//command("VR");
etherealflaim	0:86ff0a55c978	263	//command("AP", 1);
etherealflaim	0:86ff0a55c978	264	//command("CN");
etherealflaim	0:86ff0a55c978	265	//wait(1);
etherealflaim	0:86ff0a55c978	266	//m_usb.printf("Setup Complete.\r\n");
etherealflaim	0:86ff0a55c978	267
etherealflaim	0:86ff0a55c978	268	m_timeout.attach(this, &XBee::tickirq, .1);
etherealflaim	0:86ff0a55c978	269	}
etherealflaim	0:86ff0a55c978	270
etherealflaim	0:86ff0a55c978	271	/** Enter command mode. Send command("CN") to exit command mode. */
etherealflaim	0:86ff0a55c978	272	inline void commandMode()
etherealflaim	0:86ff0a55c978	273	{
etherealflaim	0:86ff0a55c978	274	wait(1.1);
etherealflaim	0:86ff0a55c978	275	m_comm.printf("+++");
etherealflaim	0:86ff0a55c978	276	wait(1.1);
etherealflaim	0:86ff0a55c978	277	}
etherealflaim	0:86ff0a55c978	278
etherealflaim	0:86ff0a55c978	279	inline void command(const char *cmd)
etherealflaim	0:86ff0a55c978	280	{
etherealflaim	0:86ff0a55c978	281	m_comm.printf("AT%s\r", cmd);
etherealflaim	0:86ff0a55c978	282	wait(.001);
etherealflaim	0:86ff0a55c978	283	}
etherealflaim	0:86ff0a55c978	284
etherealflaim	0:86ff0a55c978	285	inline void command(const char *cmd, int arg)
etherealflaim	0:86ff0a55c978	286	{
etherealflaim	0:86ff0a55c978	287	m_comm.printf("AT%s%X\r", cmd, arg);
etherealflaim	0:86ff0a55c978	288	wait(.001);
etherealflaim	0:86ff0a55c978	289	}
etherealflaim	0:86ff0a55c978	290
etherealflaim	0:86ff0a55c978	291	inline void rxirq()
etherealflaim	0:86ff0a55c978	292	{
etherealflaim	0:86ff0a55c978	293	static XBeePacket nextPacket;
etherealflaim	0:86ff0a55c978	294	static char buffer[256];
etherealflaim	0:86ff0a55c978	295	char *p = buffer;
etherealflaim	0:86ff0a55c978	296	bool finished = false;
etherealflaim	0:86ff0a55c978	297
etherealflaim	0:86ff0a55c978	298	// Receive all characters in buffer
etherealflaim	0:86ff0a55c978	299	do
etherealflaim	0:86ff0a55c978	300	{
etherealflaim	0:86ff0a55c978	301	// Receive character
etherealflaim	0:86ff0a55c978	302	*p = m_comm.getc();
etherealflaim	0:86ff0a55c978	303
etherealflaim	0:86ff0a55c978	304	// Check if it's end-of-packet
etherealflaim	0:86ff0a55c978	305	if (*p == '\n') {
etherealflaim	0:86ff0a55c978	306	finished = true;
etherealflaim	0:86ff0a55c978	307	break;
etherealflaim	0:86ff0a55c978	308	}
etherealflaim	0:86ff0a55c978	309
etherealflaim	0:86ff0a55c978	310	// Move on to the next character
etherealflaim	0:86ff0a55c978	311	++p;
etherealflaim	0:86ff0a55c978	312	} while (m_comm.readable() && p-buffer < 255);
etherealflaim	0:86ff0a55c978	313
etherealflaim	0:86ff0a55c978	314	// Null terminate
etherealflaim	0:86ff0a55c978	315	*p = '\0';
etherealflaim	0:86ff0a55c978	316
etherealflaim	0:86ff0a55c978	317	// Append the characters to the packet
etherealflaim	0:86ff0a55c978	318	nextPacket.append(buffer);
etherealflaim	0:86ff0a55c978	319
etherealflaim	0:86ff0a55c978	320	if (finished)
etherealflaim	0:86ff0a55c978	321	{
etherealflaim	0:86ff0a55c978	322	// Unpack the headers
etherealflaim	0:86ff0a55c978	323	if (!nextPacket.unpack()) {
etherealflaim	0:86ff0a55c978	324	m_usb.printf("Received garbled packet; dropping.");
etherealflaim	0:86ff0a55c978	325	return;
etherealflaim	0:86ff0a55c978	326	}
etherealflaim	0:86ff0a55c978	327
etherealflaim	0:86ff0a55c978	328	if (nextPacket.is_broadcast() \|\| nextPacket.dest() == m_uid)
etherealflaim	0:86ff0a55c978	329	{
etherealflaim	0:86ff0a55c978	330	#if _XBEE_DEBUG > 0
etherealflaim	0:86ff0a55c978	331	// Print the packet
etherealflaim	0:86ff0a55c978	332	m_usb.printf("Received: ");
etherealflaim	0:86ff0a55c978	333	nextPacket.dump(m_usb);
etherealflaim	0:86ff0a55c978	334	#endif
etherealflaim	0:86ff0a55c978	335
etherealflaim	0:86ff0a55c978	336	// Add it to the queue
etherealflaim	0:86ff0a55c978	337	m_queue.push(nextPacket);
etherealflaim	0:86ff0a55c978	338	}
etherealflaim	0:86ff0a55c978	339	else
etherealflaim	0:86ff0a55c978	340	{
etherealflaim	0:86ff0a55c978	341	#if _XBEE_DEBUG > 0
etherealflaim	0:86ff0a55c978	342	m_usb.printf("Dropping: ");
etherealflaim	0:86ff0a55c978	343	nextPacket.dump(m_usb);
etherealflaim	0:86ff0a55c978	344	#endif
etherealflaim	0:86ff0a55c978	345	}
etherealflaim	0:86ff0a55c978	346
etherealflaim	0:86ff0a55c978	347	// Clear the packet
etherealflaim	0:86ff0a55c978	348	nextPacket = XBeePacket();
etherealflaim	0:86ff0a55c978	349	}
etherealflaim	0:86ff0a55c978	350	}
etherealflaim	0:86ff0a55c978	351
etherealflaim	0:86ff0a55c978	352	inline void tickirq()
etherealflaim	0:86ff0a55c978	353	{
etherealflaim	0:86ff0a55c978	354	//m_usb.printf("Scanning...\r\n");
etherealflaim	0:86ff0a55c978	355	//XBeePacket pkt = XBeePacket::Command("ND");
etherealflaim	0:86ff0a55c978	356	//XBeePacket pkt = XBeePacket::Broadcast("Test");
etherealflaim	0:86ff0a55c978	357	//pkt.dump(m_usb);
etherealflaim	0:86ff0a55c978	358	//pkt.send(m_comm);
etherealflaim	0:86ff0a55c978	359	//m_comm.printf("TEST\r");
etherealflaim	0:86ff0a55c978	360	//XBeePacket pkt("TestPacket");
etherealflaim	0:86ff0a55c978	361	//m_usb.printf("Sending: ");
etherealflaim	0:86ff0a55c978	362	//pkt.dump(m_usb);
etherealflaim	0:86ff0a55c978	363	//pkt.send(m_comm);
etherealflaim	0:86ff0a55c978	364
etherealflaim	0:86ff0a55c978	365	while (!m_queue.empty() && m_read_handler)
etherealflaim	0:86ff0a55c978	366	(*m_read_handler)();
etherealflaim	0:86ff0a55c978	367
etherealflaim	0:86ff0a55c978	368	// Set the timeout again (we aren't going to use a ticker just in case the read handlers take awhile)
etherealflaim	0:86ff0a55c978	369	m_timeout.attach(this, &XBee::tickirq, 0.1);
etherealflaim	0:86ff0a55c978	370	}
etherealflaim	0:86ff0a55c978	371
etherealflaim	0:86ff0a55c978	372
etherealflaim	0:86ff0a55c978	373	public:
etherealflaim	0:86ff0a55c978	374
etherealflaim	0:86ff0a55c978	375	/// Return whether or not another XBeePacket is ready
etherealflaim	0:86ff0a55c978	376	inline bool readable()
etherealflaim	0:86ff0a55c978	377	{
etherealflaim	0:86ff0a55c978	378	return !m_queue.empty();
etherealflaim	0:86ff0a55c978	379	}
etherealflaim	0:86ff0a55c978	380
etherealflaim	0:86ff0a55c978	381	/// Get the next XBeePacket in line (make sure it's readable()!)
etherealflaim	0:86ff0a55c978	382	inline XBeePacket read()
etherealflaim	0:86ff0a55c978	383	{
etherealflaim	0:86ff0a55c978	384	XBeePacket pkt = m_queue.front();
etherealflaim	0:86ff0a55c978	385	m_queue.pop();
etherealflaim	0:86ff0a55c978	386	return pkt;
etherealflaim	0:86ff0a55c978	387	}
etherealflaim	0:86ff0a55c978	388
etherealflaim	0:86ff0a55c978	389	/// Set the Unit ID
etherealflaim	0:86ff0a55c978	390	inline string uid() { return m_uid; }
etherealflaim	0:86ff0a55c978	391
etherealflaim	0:86ff0a55c978	392	/// Get the Unit ID
etherealflaim	0:86ff0a55c978	393	inline void uid(string uid) { m_uid = uid; }
etherealflaim	0:86ff0a55c978	394
etherealflaim	0:86ff0a55c978	395	/// Attach a member function to be called on all TCP packets
etherealflaim	0:86ff0a55c978	396	template <class T>
etherealflaim	0:86ff0a55c978	397	inline void attach(T inst, void (T::func)())
etherealflaim	0:86ff0a55c978	398	{
etherealflaim	0:86ff0a55c978	399	delete m_read_handler;
etherealflaim	0:86ff0a55c978	400	m_read_handler = new member_handler<T,void>(inst, func);
etherealflaim	0:86ff0a55c978	401	}
etherealflaim	0:86ff0a55c978	402
etherealflaim	0:86ff0a55c978	403	/// Attach a non-member function to be called on all TCP packets
etherealflaim	0:86ff0a55c978	404	inline void attach(void (*func)())
etherealflaim	0:86ff0a55c978	405	{
etherealflaim	0:86ff0a55c978	406	delete m_read_handler;
etherealflaim	0:86ff0a55c978	407	m_read_handler = new function_handler<void>(func);
etherealflaim	0:86ff0a55c978	408	}
etherealflaim	0:86ff0a55c978	409
etherealflaim	0:86ff0a55c978	410	/// Detach the handler
etherealflaim	0:86ff0a55c978	411	inline void detach()
etherealflaim	0:86ff0a55c978	412	{
etherealflaim	0:86ff0a55c978	413	delete m_read_handler;
etherealflaim	0:86ff0a55c978	414	m_read_handler = NULL;
etherealflaim	0:86ff0a55c978	415	}
etherealflaim	0:86ff0a55c978	416	};
etherealflaim	0:86ff0a55c978	417
etherealflaim	0:86ff0a55c978	418	#endif /* XBEE_HPP */

Repository toolbox

Export to desktop IDE

Build repository

Repository details

Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	30 Nov 2010
Imports:	6
Forks:	0
Commits:	3
Dependents:	1
Dependencies:	1
Followers:	1

XBee.hpp@1:eefaa22e4b2c, 2010-12-01 (annotated)

Who changed what in which revision?

Repository toolbox

Repository details

Important Information for this Arm website

Access Warning