Digi International Inc.
Library to easily communicate with XBee modules.
Dependencies: DigiLogger
Dependents: WaterLogger XbeeGateway XBee_Cooker ProjetReceiver ... more
Use XBee radio modules to easily improve your project with wireless connectivity. You can enable entire networks of connected devices. XBees can exchange data with other modules in the network and configure remote modules as well as trigger actions or collect sensor data on XBee nodes without needing additional external microcontrollers. Using this documentation and configuration tools with XBee modules, it is easy to develop these types of applications and more.
The XBee mbed Library is a ready-to-import mbed extension that dramatically reduces development time for XBee projects on the mbed platforms. There are many modular examples, making it an easy and smooth process to add wireless networking to a whole range of useful applications.
Info
Currently 802.15.4 (Series 1 and 2), ZigBee (Series 2) and DigiMesh (Series 1 and 2) modules are supported. The libraries can be extended to support other protocols like DigiMesh point-to-point, WiFi, etc.
User manual
The user manual can be found at this project's Wiki pages:
- Configuring the library
- Debugging the library
- Initializing modules
- Resetting the local module
- Receiving Data from other module
- Sending data to another module
- Discovering nodes in the network
- Configuring local and remote modules
- Handling modem status changes
- Handling remote modules DIOs, ADCs and PWMs
- Handling IO Data Samples from other module
- Radio Power Management
Ready to use examples
There are a lot of ready to use examples to get started quickly.
Make sure you have a valid example setup before running the examples:
Examples for ZigBee modules
Import programXBeeZB_Receive_Data
ZigBee Receive Data example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by 
Digi International Inc.
Import programXBeeZB_Send_Data
ZigBee Send Data example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeZB_module_config
ZigBee network configuration example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeZB_AT_Commands
ZigBee AT Commands example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeZB_dio_adc
ZigBee DIOs and ADCs example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeZB_IO_Sample_Callback
ZigBee IO Sampling Callback example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeZB_modem_status
ZigBee Modem Status example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeZB_node_discovery
ZigBee Node Discovery example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeZB_power_mngmnt_cyclic_sleep
ZigBee Power Management using Cyclic Sleep example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeZB_power_mngmnt_pin_sleep
ZigBee Power Management using Pin Sleep example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Examples for 802.15.4 modules
Import programXBee802_Receive_Data
802.15.4 Receive Data example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBee802_Send_Data
802.15.4 Send Data example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBee802_module_config
802.15.4 network configuration example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBee802_AT_Commands
802.15.4 AT Commands example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBee802_dio_adc_pwm
802.15.4 DIOs, ADCs and PWM example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBee802_IO_Sample_Callback
802.15.4 IO Sampling Callback example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBee802_node_discovery
802.15.4 Node Discovery example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBee802_power_mngmnt_cyclic_sleep
802.15.4 Power Management using Cyclic Sleep example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBee802_power_mngmnt_pin_sleep
802.15.4 Power Management using Pin Sleep example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Examples for DigiMesh modules
Import programXBeeDM_Receive_Data
DigiMesh Receive Data example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeDM_Send_Data
DigiMesh Send Data example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeDM_module_config
DigiMesh network configuration example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeDM_AT_Commands
DigiMesh AT Commands example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeDM_dio_adc_pwm
DigiMEsh DIOs, ADCs and PWMs example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeDM_IO_Sample_Callback
DigiMesh IO Sampling Callback example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeDM_modem_status
DigiMesh Modem Status example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeDM_node_discovery
DigiMesh Node Discovery example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeDM_power_mngmnt_asyncr_cyclic_sleep
DigiMesh Power Management using Asynchronous Cyclic Sleep example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
Import programXBeeDM_power_mngmnt_pin_sleep
DigiMesh Power Management using Pin Sleep example for mbed XBeeLib By Digi
Last commit 29 Jul 2016 by Digi International Inc.
XBeeDM/XBeeDM.h
- Committer:
- hbujanda
- Date:
- 2016-07-29
- Revision:
- 9:780db84ce891
- Parent:
- 8:b5f4a0e92249
File content as of revision 9:780db84ce891:
/**
* Copyright (c) 2015 Digi International Inc.,
* All rights not expressly granted are reserved.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
* You can obtain one at http://mozilla.org/MPL/2.0/.
*
* Digi International Inc. 11001 Bren Road East, Minnetonka, MN 55343
* =======================================================================
*/
#if !defined(__XBEE_DM_H_)
#define __XBEE_DM_H_
#include "XBee/XBee.h"
#include "FrameHandlers/FH_AtCmdResp.h"
#include "FrameHandlers/FH_RxPacketDM.h"
#include "FrameHandlers/FH_IoDataSampleDM.h"
#include "RemoteXBee/RemoteXBee.h"
namespace XBeeLib {
/** Class for XBee ZigBee modules, derived from XBee */
class XBeeDM : public XBee
{
public:
/**
* IoLine for XBeeDM Modules
*/
enum IoLine {
DIO0_AD0 = 0, /**< DIO0_AD0 pin */
DIO1_AD1 = 1, /**< DIO1_AD1 pin */
DIO2_AD2 = 2, /**< DIO2_AD2 pin */
DIO3_AD3 = 3, /**< DIO3_AD3 pin */
DIO4 = 4, /**< DIO4 pin */
DIO5 = 5, /**< DIO5 pin */
DIO6 = 6, /**< DIO6 pin */
DIO7 = 7, /**< DIO7 pin */
DIO8 = 8, /**< DIO8 pin */
DIO9 = 9, /**< DIO9 pin */
DIO10_PWM0 = 10, /**< DIO10_PWM0 pin */
DIO11_PWM1 = 11, /**< DIO11_PWM1 pin */
DIO12 = 12 /**< DIO12 pin */
};
/** Class constructor
* @param tx the TX pin of the UART that will interface the XBee module
* @param rx the RX pin of the UART that will interface the XBee module
* @param reset the pin to which the XBee's reset line is attached to, use NC if not available
* @param rts the RTS pin for the UART that will interface the XBee module, use NC if not available
* @param cts the CTS pin for the UART that will interface the XBee module, use NC if not available
* @param baud the baudrate for the UART that will interface the XBee module. Note that the module has to be already configured
* to this baud rate (ATBD parameter). By default it is configured to 9600 bps
*/
XBeeDM(PinName tx, PinName rx, PinName reset = NC, PinName rts = NC, PinName cts = NC, int baud = 9600);
/** Class destructor */
virtual ~XBeeDM();
/** init- initializes object
* This function must be called just after creating the object so it initializes internal data.
* @returns
* Success if the module has been properly initialized and is ready to process data.
* Failure otherwise.
*/
RadioStatus init();
/** set_channel - sets the channel number
*
* @param channel the channel in which the radio operates. Range is 0x0B - 0x1A for XBee and 0x0C - 0x17 for XBee-PRO.
* The Center Frequency = 2.405 + (CH - 11) * 5 MHz
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus set_channel(uint8_t channel);
/** get_channel - gets the channel number
*
* @param channel pointer where the channel value will be stored.
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus get_channel(uint8_t * const channel);
/** set_network_id - sets the Network ID.
*
* @param network_id the Network ID value that will be set on the radio
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus set_network_id(uint16_t network_id);
/** get_network_id - gets the Network ID, as it was set by @ref set_network_id().
*
* @param network_id pointer where the Network ID will be stored
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus get_network_id(uint16_t * const network_id);
/** register_node_discovery_cb - registers the callback function that will be called
* when the responses to the node discovery command arrive
*
* @param function function pointer with the callback function
*/
void register_node_discovery_cb(node_discovery_dm_cb_t function);
/** unregister_node_discovery_cb - removes the node discovery callback */
void unregister_node_discovery_cb();
/** register_receive_cb - registers the callback function that will be called
* when a data packet is received
*
* @param function function pointer with the callback function
*/
void register_receive_cb(receive_dm_cb_t function);
/** unregister_receive_cb - removes the rx packet callback */
void unregister_receive_cb();
/** register_io_sample_cb - registers the callback function that will be called
* when a IO Sample Data packet is received
*
* @param function function pointer with the callback function
*/
void register_io_sample_cb(io_data_cb_dm_t function);
/** unregister_io_sample_cb - removes the IO Sample Data reception callback */
void unregister_io_sample_cb();
/*********************** send_data member methods ************************/
/** send_data - sends data to a remote device
*
* @param remote remote device
* @param data pointer to the data that will be sent
* @param len number of bytes that will be transmitted
* @param syncr if true, method waits for the packet answer with the result of the operation
* @returns the result of the data transfer
* TxStatusSuccess if the operation was successful,
* the error code otherwise
*/
virtual TxStatus send_data(const RemoteXBee& remote, const uint8_t *const data, uint16_t len, bool syncr = true);
/** send_data - sends data to a remote device. This method uses
* the explicit addressing frame, allowing to use source and
* destination end points and cluster and profile IDs
*
* @param remote remote device
* @param source_ep source end point
* @param dest_ep destination end point
* @param cluster_id cluster ID
* @param profile_id profile ID
* @param data pointer to the data that will be sent
* @param len number of bytes that will be transmitted
* @param syncr if true, method waits for the packet answer with the result of the operation
* @returns the result of the data transfer
* TxStatusSuccess if the operation was successful,
* the error code otherwise
*/
TxStatus send_data(const RemoteXBee& remote, uint8_t source_ep,
uint8_t dest_ep, uint16_t cluster_id, uint16_t profile_id,
const uint8_t *const data, uint16_t len, bool syncr = true);
/** send_data_to_coordinator - sends data to the ZigBee coordinator
*
* @param data pointer to the data that will be sent
* @param len number of bytes that will be transmitted
* @param syncr if true, method waits for the packet answer with the result of the operation
* @returns the result of the data transfer
* TxStatusSuccess if the operation was successful,
* the error code otherwise
*/
TxStatus send_data_to_coordinator(const uint8_t *const data, uint16_t len, bool syncr = true);
/** get_remote_node_by_id - searches for a device in the network with the specified Node Identifier.
*
* @param node_id node id of the device we are looking for
* @returns a RemoteXBeeDM with the 16-bit and 64-bit address of the remote device whose node id matches with the parameter.
* If node is not found, the returned object will have invalid addresses (RemoteXBeeDM::is_valid() will return false).
*/
RemoteXBeeDM get_remote_node_by_id(const char * const node_id);
/* Allow using XBee::set_param() methods for local radio from this class */
using XBee::set_param;
/** set_param - sets a parameter in a remote radio by sending an AT command and waiting for the response.
*
* @param remote remote device
* @param param parameter to be set.
* @param data the parameter value (4 bytes) to be set.
* @returns the command response status.
*/
virtual AtCmdFrame::AtCmdResp set_param(const RemoteXBee& remote, const char * const param, uint32_t data);
/** set_param - sets a parameter in a remote radio by sending an AT command and waiting for the response.
*
* @param remote remote device
* @param param parameter to be set.
* @param data the parameter value byte array (len bytes) to be set.
* @param len number of bytes of the parameter value.
* @returns the command response status.
*/
virtual AtCmdFrame::AtCmdResp set_param(const RemoteXBee& remote, const char * const param, const uint8_t * data = NULL, uint16_t len = 0);
/* Allow using XBee::get_param() methods for local radio from this class */
using XBee::get_param;
/** get_param - gets a parameter from a remote radio by sending an AT command and waiting for the response.
*
* @param remote remote device
* @param param parameter to be get.
* @param data pointer where the param value (4 bytes) will be stored.
* @returns the command response status.
*/
virtual AtCmdFrame::AtCmdResp get_param(const RemoteXBee& remote, const char * const param, uint32_t * const data);
/** get_param - gets a parameter from a remote radio by sending an AT command and waiting for the response.
*
* @param remote remote device
* @param param parameter to be get.
* @param data pointer where the param value (n bytes) will be stored.
* @param len pointer where the number of bytes of the param value will be stored.
* @returns the command response status.
*/
virtual AtCmdFrame::AtCmdResp get_param(const RemoteXBee& remote, const char * const param, uint8_t * const data, uint16_t * const len);
/************************* IO member methods **************************/
/** set_pin_config - configures a radio IO line
*
* @param remote remote device
* @param line IO line being configured
* @param mode configuration mode for the selected line
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus set_pin_config(const RemoteXBee& remote, IoLine line, IoMode mode);
/** get_pin_config - gets the configuration of a radio IO line
*
* @param remote remote device
* @param line IO line being read to get its configuration
* @param mode pointer where the configuration will be stored
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus get_pin_config(const RemoteXBee& remote, IoLine line, IoMode * const mode);
/** set_dio - sets to low/high a DIO line
*
* @param remote remote device
* @param line DIO line being set
* @param val value that will be set in the DIO line
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus set_dio(const RemoteXBee& remote, IoLine line, DioVal val);
/** get_dio - read the value of a DIO configured as digital input
*
* @param remote remote device
* @param line DIO line being read
* @param val pointer where the DIO value read will be stored
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus get_dio(const RemoteXBee& remote, IoLine line, DioVal * const val);
/** get_adc - read the value of the espcified ADC line
*
* @param remote remote device
* @param line ADC line being read
* @param val pointer where the value read from hte ADC will be stored
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus get_adc(const RemoteXBee& remote, IoLine line, uint16_t * const val);
/** get_iosample - retrieves an @ref IOSampleDM from a remote node. This object can be used to get the remote node's ADC and DIO values.
*
* @param remote remote device
* @returns IOSampleDM object with the remote node's DIO and ADC values.
*/
IOSampleDM get_iosample(const RemoteXBee& remote);
/** set_pwm - sets the duty cycle of a PWM line
*
* @param remote remote device
* @param line PWM line being set
* @param duty_cycle duty cycle that will be set in the PWM line
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus set_pwm(const RemoteXBee& remote, IoLine line, float duty_cycle);
/** set_pin_pull_up - enables or disables the internal pull-up resistor of a line
*
* @param remote remote device
* @param line line being configured for pull-up
* @param enable whether to enable the internal pull-up resistor.
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus set_pin_pull_up(const RemoteXBee& remote, IoLine line, bool enable);
/** enable_dio_change_detection - enables or disables the notification when a change is detected in a digital input line.
* In other words, it will force an IO Sample transmission when the DIO state changes. Only for DIO0 to DIO11.
*
* @param remote remote device
* @param line line being configured for pull-up
* @param enable whether to enable the internal pull-up resistor.
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus enable_dio_change_detection(const RemoteXBee& remote, IoLine line, bool enable);
/** config_poll_destination - configures to which node poll messages will be sent once module awakes if configured as
* an Indirect Msg Poller (CE==0x4).
* Consult the module's reference manual for more information.
*
* @param destination remote device where the poll messages will be sent
* @returns the result of the data transfer
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus config_poll_destination(const RemoteXBee& destination);
protected:
/** Frame handler used for the node discovery. Registered when a callback function
* is registered */
FH_NodeDiscoveryDM *_nd_handler;
/** Frame handler used for the rx packets. Automatically registered when a callback
* function is registered */
FH_RxPacketDM *_rx_pkt_handler;
/** Frame handler used for the IO Data Sample packets. Automatically registered when a callback
* function is registered */
FH_IoDataSampeDM *_io_data_handler;
/** Method called directly by the library when a modem status frame is received to
* update the internal status variables */
virtual void radio_status_update(AtCmdFrame::ModemStatus modem_status);
/* Allow using XBee::send_data() methods from this class */
using XBee::send_data;
/** get_node_discovery_timeout - gets the node discovery timeout
*
* @param timeout_ms pointer where the node discovery timeout value will be stored
* @param wait_for_complete_timeout pointer where the function will store if the operator
* has to wait for the complete nd timeout after issuing
* a directed nd request
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
virtual RadioStatus get_node_discovery_timeout(uint16_t * const timeout_ms);
virtual RadioStatus get_node_discovery_timeout(uint16_t * const timeout_ms, bool * const wait_for_complete_timeout);
};
} /* namespace XBeeLib */
#endif /* __XBEE_DM_H_ */