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XBeeZB/XBeeZB.h
- Committer:
- spastor
- Date:
- 2015-05-18
- Revision:
- 3:8662ebe83570
- Parent:
- 2:2ee1b6d51df2
- Child:
- 4:629712865107
File content as of revision 3:8662ebe83570:
/**
* 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_ZB_H_)
#define __XBEE_ZB_H_
#include "XBee/XBee.h"
#include "FrameHandlers/FH_AtCmdResp.h"
#include "FrameHandlers/FH_RxPacketZB.h"
#include "FrameHandlers/FH_IoDataSampleZB.h"
#include "RemoteXBee/RemoteXBee.h"
namespace XBeeLib {
/** Class for XBee ZigBee modules, derived from XBee */
class XBeeZB : public XBee
{
public:
/**
* IoLine for XBeeZB 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 */
DIO10 = 10, /**< DIO10 pin */
DIO11 = 11, /**< DIO11 pin */
DIO12 = 12, /**< DIO12 pin */
SUPPLY_VOLTAGE = 7, /**< SUPPLY_VOLTAGE is not a real 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
*/
XBeeZB(PinName tx, PinName rx, PinName reset = NC, PinName rts = NC, PinName cts = NC, int baud = 9600);
/** Class destructor */
virtual ~XBeeZB();
/** 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_panid - sets the 64bit extended PAN ID.
*
* @note on ZigBee devices, if set to 0, the coordinator will select a random PAN ID
* and the routers will join any extended PAN ID
* @param panid the PAN ID value that will be set on the radio
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus set_panid(uint64_t panid);
/** get_configured_panid - gets the configured PAN ID, as it was set by @ref set_panid().
*
* @note on ZigBee devices, if set to 0, the coordinator will select a random PAN ID
* and the routers will join any extended PAN ID
* @param panid pointer where the configured PAN ID will be stored
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus get_configured_panid(uint64_t * const panid);
/** get_operating_panid - gets the operating 64bit extended PAN ID the module is running on. This is useful to determine the PAN ID when the ID parameter (@ref set_panid) is set to 0x00.
*
* @param panid pointer where the operating PAN ID will be stored
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus get_operating_panid(uint64_t * const panid);
/** set_panid - sets the 64bit extended PAN ID.
*
* @note on ZigBee devices, if set to 0, the coordinator will select a random PAN ID
* and the routers will join any extended PAN ID
* @param remote remote device
* @param panid the PAN ID value that will be set on the radio
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus set_panid(const RemoteXBee& remote, uint64_t panid);
/** get_configured_panid - gets the configured PAN ID in a remote node, as it was set by @ref set_panid()
*
* @note on ZigBee devices, if set to 0, the coordinator will select a random PAN ID
* and the routers will join any extended PAN ID
*
* @param remote remote device
* @param panid pointer where the configured PAN ID will be stored
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus get_configured_panid(const RemoteXBee& remote, uint64_t * const panid);
/** get_operating_panid - gets the operating 64bit extended PAN ID in which a remote node is running on. This is useful to determine the PAN ID when the ID parameter (@ref set_panid) is set to 0x00.
*
* @param remote remote device
* @param panid pointer where the operating PAN ID will be stored
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus get_operating_panid(const RemoteXBee& remote, uint64_t * const panid);
/** set_channel_mask - sets the channel mask in which the module will scan for the PAN ID (if it is a router or end-device) or start the network (if it is a coordinator).
* It should be set to the minimum available set of channels of all nodes in the network. Refer to "SC" parameter in the product manual for more information.
*
* @param chmask bit field list of channels to scan (router/end-devices) or to choose when starting a network (coordinator). Bit 0 is for channel 0x0B and bit 15 for channel 0x1A.
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus set_channel_mask(uint16_t const chmask);
/** get_channel_mask - gets the channel mask in which the module will scan for the PAN ID (if it is a router or end-device) or start the network (if it is a coordinator).
*
* @param chmask pointer to where the configured channel mask will be stored
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus get_channel_mask(uint16_t * const chmask);
/** check_for_coordinator_at_start - (Routers only) If enabled, a router will verify the coordinator is on its operating channel when joining or coming up from a power cycle.
* If a coordinator is not detected, the router will leave its current channel and attempt to join a new PAN. If JV=0, the router will continue operating on its current channel even if a coordinator is not detected.
*
* @param enable whether to enable this feature or not
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus check_for_coordinator_at_start(bool enable);
/** enable_network_encryption - Enable network encryption.
*
* @param enable whether to enable this feature or not
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus enable_network_encryption(bool enable);
/** set_encryption_key - Set the 128-bit AES network encryption key. If set to 0 (default), the module will select a random network key.
* It is not recommended to set the key programmatically, because it could be read through the raw serial port bits.
* @param key pointer to the 128-bit AES key
* @param length size of the buffer pointed by 'key'
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus set_encryption_key(const uint8_t * const key, const uint16_t length);
/** set_tc_link_key - Set the Trust Center 128-bit AES link key. Setting it to 0 will cause the coordinator to transmit the network key in the clear to joining devices, and will cause joining devices to acquire the network key in the clear when joining.
* It is not recommended to set the key programmatically, because it could be read through the raw serial port bits.
* @param key pointer to the 128-bit AES key
* @param length size of the buffer pointed by 'key'
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus set_tc_link_key(const uint8_t * const key, const uint16_t length);
#define XBEE_ZB_ENC_OPT_SEND_KEY_ON_JOIN 0x01
#define XBEE_ZB_ENC_OPT_USE_TRUST_CENTER 0x02
/** set_encryption_options - Configure options for encryption. Unused option bits should be set to 0. Options include:
* - XBEE_ZB_ENC_OPT_SEND_KEY_ON_JOIN - Send the security key unsecured over-the-air during joins
* - XBEE_ZB_ENC_OPT_USE_TRUST_CENTER - Use trust center (coordinator only)
* @param options bit mask with the encryption options
* @returns
* Success if the operation was successful,
* Failure otherwise
*/
RadioStatus set_encryption_options(const uint8_t options);
/** 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_zb_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_zb_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_zb_t function);
/** unregister_io_sample_cb - removes the IO Sample Data reception callback */
void unregister_io_sample_cb();
/** get_network_role - returns the role of this device in the ZigBee network
*
* @returns the role of this device
*/
NetworkRole get_network_role();
/** */
/*********************** 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);
/** is_joined - checks if the device is joined to ZigBee network
* @returns true if joined, false otherwise
*/
bool is_joined();
/** 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 RemoteXBeeZB 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 (RemoteXBeeZB::is_valid() will return false).
*/
RemoteXBeeZB 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 IOSampleZB from a remote node. This object can be used to get the remote node's ADC and DIO values.
*
* @param remote remote device
* @returns IOSampleZB object with the remote node's DIO and ADC values.
*/
IOSampleZB get_iosample(const RemoteXBee& remote);
/** 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);
protected:
/** Role of this device in the ZigBee network (coord, router or end device) */
NetworkRole _nw_role;
/** Indicates if the device is joined to a network. This variable is automatically updated
* by the library. If the device is acting as coordinator, its value its true */
volatile bool _joined_network;
/** Vcc exceeded counter, automatically updated by the library */
volatile uint16_t _vcc_exceeded_cnt;
/* TODO, add setter/getter */
uint8_t _broadcast_radious;
/** Frame handler used for the node discovery. Registered when a callback function
* is registered */
FH_NodeDiscoveryZB *_nd_handler;
/** Frame handler used for the rx packets. Automatically registered when a callback
* function is registered */
FH_RxPacketZB *_rx_pkt_handler;
/** Frame handler used for the IO Data Sample packets. Automatically registered when a callback
* function is registered */
FH_IoDataSampeZB *_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;
};
} /* namespace XBeeLib */
#endif /* __XBEE_ZB_H_ */