Jim Flynn
wifi test
Dependencies: X_NUCLEO_IKS01A2 mbed-http
easy-connect/wnc14a2a-driver/WNC14A2AInterface/WNC14A2AInterface.h
- Committer:
- JMF
- Date:
- 2018-09-05
- Revision:
- 0:24d3eb812fd4
File content as of revision 0:24d3eb812fd4:
/**
* copyright (c) 2017-2018, James Flynn
* SPDX-License-Identifier: Apache-2.0
*/
/*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
*
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* @file WNC14A2AInterface.h
* @brief Implements a standard NetworkInterface class for use with WNC M14A2A
* data module.
*
* @author James Flynn
*
* @date 1-Feb-2018
*
*/
#ifndef WNC14A2A_INTERFACE_H
#define WNC14A2A_INTERFACE_H
#include <stdint.h>
#include "mbed.h"
#include "Callback.h"
#include "WNCDebug.h"
#include "WncControllerK64F/WncControllerK64F.h"
#define WNC14A2A_SOCKET_COUNT WncController::MAX_NUM_WNC_SOCKETS
// If target board does not support Arduino pins, define pins as Not Connected
#if defined(TARGET_FF_ARDUINO)
#if !defined(MBED_CONF_WNC14A2A_LIBRARY_WNC_RX_BOOT_SEL)
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_RX_BOOT_SEL D1
#endif
#if !defined(MBED_CONF_WNC14A2A_LIBRARY_WNC_POWER_ON)
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_POWER_ON D2
#endif
#if !defined(MBED_CONF_WNC14A2A_LIBRARY_WNC_WAKEUP)
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_WAKEUP D6
#endif
#if !defined(MBED_CONF_WNC14A2A_LIBRARY_WNC_RESET)
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_RESET D8
#endif
#if !defined(MBED_CONF_WNC14A2A_LIBRARY_WNC_LVLTRANSLATOR)
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_LVLTRANSLATOR D9
#endif
#if !defined(MBED_CONF_WNC14A2A_LIBRARY_WNC_CTS)
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_CTS D10
#endif
#if !defined(MBED_CONF_WNC14A2A_LIBRARY_WNC_RXD)
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_RXD D11
#endif
#if !defined(MBED_CONF_WNC14A2A_LIBRARY_WNC_TXD)
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_TXD D12
#endif
#else // !defined(TARGET_FF_ARDUINO)
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_RX_BOOT_SEL NC
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_POWER_ON NC
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_WAKEUP NC
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_RESET NC
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_LVLTRANSLATOR NC
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_CTS NC
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_RXD NC
#define MBED_CONF_WNC14A2A_LIBRARY_WNC_TXD NC
#endif // !defined(TARGET_FF_ARDUINO)
typedef struct smsmsg_t {
string number;
string date;
string time;
string msg;
} IOTSMS;
typedef struct socket_t {
int socket; //index of this socket
string url;
SocketAddress addr; //address info for this socket
bool opened; //is the socket opened
bool connected; //is the socket connected
int proto; //this is a TCP or UDP socket
void (*_callback)(void*); //callback used with attach
void *_cb_data; //callback data to be returned
} WNCSOCKET;
typedef struct rx_event_t {
int m_rx_wnc_state; //state of the socket receive
int m_rx_socket; //which socket is being rcvd on
uint8_t *m_rx_dptr; //pointer to the users data buffer
uint32_t m_rx_req_size; //Requested number of bytes to receive
uint32_t m_rx_total_cnt; //Total number of bytes received
int m_rx_timer; //Rx Timeout Timer
int m_rx_disTO; //Flag to disable Timeout Timer
void (*m_rx_callback)(void*); //callback used with attach
void *m_rx_cb_data; //callback data to be returned
uint32_t m_rx_return_cnt; //number of bytes the Event Queue is returning
} RXEVENT;
typedef struct tx_event_t {
// Transmit Interrupt simulation to enabled non-blocking operation
int m_tx_wnc_state;
int m_tx_socket;
uint8_t *m_tx_dptr;
unsigned m_tx_orig_size;
uint32_t m_tx_req_size;
uint32_t m_tx_total_sent;
void (*m_tx_callback)(void*);
void *m_tx_cb_data;
} TXEVENT;
#define WNC_DEBUG 0 //1=enable the WNC startup debug output
//0=disable the WNC startup debug output
#define STOP_ON_FE 1 //1=hang forever if a fatal error occurs
//0=simply return failed response for all socket calls
#define DISPLAY_FE 1 //1 to display the fatal error when it occurs
//0 to NOT display the fatal error
#define RESETON_FE 0 //1 to cause the MCU to reset on fatal error
//0 to NOT reset the MCU
#define APN_DEFAULT "m2m.com.attz"
/** Error Handling macros & data
* @brief The macros CHK_WNCFE is used to check if a fatal error has occured. If it has
* then execute the action specified: fail, void, null, resume
*
* CHK_WNCFE( condition-to-check, fail|void|null|resume )
*
* 'fail' if you want FATAL_WNC_ERROR to be called.
* 'void' if you want to execute a void return
* 'null' if you want to execute a null return
* 'resume' if you simply want to resume program execution
*
* There are several settings that control how FATAL_WNC_ERROR behaves:
* 1) RESETON_FE determines if the system will reset or hang.
* 2) DISPLAY_FE determine if an error message is generated or not
*
* The DISPLAY_FE setting determines if a failure message is displayed.
* If set to 1, user sees this messageo:
*
* WNC FAILED @ source-file-name:source-file-line-number
*
* if not set, nothing is displayed.
*/
#define FATAL_FLAG WncController::WNC_NO_RESPONSE
#define WNC_GOOD WncController::WNC_ON
#define RETfail return -1
#define RETvoid return
#define RETnull return NULL
#define RETresume
#define DORET(x) RET##x
#define TOSTR(x) #x
#define INTSTR(x) TOSTR(x)
#define FATAL_STR (char*)(__FILE__ ":" INTSTR(__LINE__))
#if RESETON_FE == 1 //reset on fatal error
#define MCURESET ((*((volatile unsigned long *)0xE000ED0CU))=(unsigned long)((0x5fa<<16) | 0x04L))
#define RSTMSG "RESET MCU! "
#else
#define MCURESET
#define RSTMSG ""
#endif
#if DISPLAY_FE == 1 //display fatal error message
#define PFE {if(_debugUart)_debugUart->printf((char*)RSTMSG "\r\n>>WNC FAILED @ %s\r\n", FATAL_STR);}
#else
#define PFE
#endif
#if STOP_ON_FE == 1 //halt cpu on fatal error
#define FATAL_WNC_ERROR(v) {_fatal_err_loc=FATAL_STR;PFE;MCURESET;while(1);}
#else
#define FATAL_WNC_ERROR(v) {_fatal_err_loc=FATAL_STR;PFE;DORET(v);}
#endif
#define CHK_WNCFE(x,y) if( x ){FATAL_WNC_ERROR(y);}
#define FIRMWARE_REV(x) (((WNC14A2AInterface*)x)->getWNCRev())
#define DBGMSG_DRV 0x04
#define DBGMSG_EQ 0x08
#define DBGMSG_SMS 0x10
#define DBGMSG_ARRY 0x20
#define MAX_SMS_MSGS 3
using namespace WncController_fk;
/** WNC14A2AInterface class
* Implementation of the NetworkInterface for WNC14A2A
*/
class WNC14A2AInterface : public NetworkStack, public NetworkInterface
{
public:
/** WNC14A2AInterface Constructor.
* @param optionally include a pointer to WNCDEBUG object for
* debug information to be displayed.
*/
WNC14A2AInterface(WNCDebug *_dbgUart = NULL);
virtual ~WNC14A2AInterface();
/** Set the cellular network credentials
*
* @param apn Optional, APN of network
* @param user Optional, username --not used--
* @param pass Optional, password --not used--
* @return nsapi_error_t
*/
virtual nsapi_error_t set_credentials(const char *apn = 0,
const char *username = 0, const char *password = 0);
/** Connect to the network
*
* @param apn Optional, APN of network
* @param user Optional, username --not used--
* @param pass Optional, password --not used--
* @return nsapi_error_t
*/
virtual nsapi_error_t connect(const char *apn,
const char *username = 0, const char *password = 0);
/** Connect to the network (no parameters)
*
* @return nsapi_error_t
*/
virtual nsapi_error_t connect();
/** disconnect from the network
*
* provided for completness, but function does nothing becase
* WNC part can not disconnect from network once connected.
*
* @return nsapi_error_t
*/
virtual nsapi_error_t disconnect();
/** Get the IP address of WNC device. From NetworkStack Class
*
* @return IP address string or null
*/
virtual const char *get_ip_address();
/** Get the network assigned IP address.
*
* @return IP address or null
*/
const char *get_my_ip_address();
/** Get the MAC address of the WNC device.
*
* @return MAC address of the interface
*/
virtual const char *get_mac_address();
/** Attach a callback function for when a SMS is recevied
*
* @param function pointer to call
*/
void sms_attach(void (*callback)(IOTSMS *));
/** Set the level of Debug output
*
* @param bit field
* basic AT command info= 0x01
* more AT command info = 0x02
* mbed driver info = 0x04
* dump buffers = 0x08
* all debug = 0x0f
*/
void doDebug(int v);
/** Return the WNC reported Firmware Revision
*
* @param none.
*/
const char* getWNCRev(void);
/** Query registered state of WNC
*
* @return true if registerd, false if not
*/
bool registered();
/** Start the SMS monitoring service
*/
void sms_start(void);
/** start listening for incomming SMS messages
*
* @param time in msec to check
*/
void sms_listen(uint16_t=1000); // Configure device to listen for text messages
/** retrieve a SMS message
*
* @param pointer to an array of IOTSMS messages
*/
int getSMS(IOTSMS **msg);
/** send a SMS message
*
* @param a string containing number to send message to
* @param a string containing message to send
* @return true on success, 0 on failure
*/
int sendIOTSms(const string&, const string&);
/** return this devices SMS number
*
* @brief The IOTSMS number used, isn't phone number, it is device ICCID.
*
* @return this devices IOTSMS number
*/
char* getSMSnbr();
protected:
/** Get Host IP by name.
*
* @return nsapi_error_t
*/
virtual nsapi_error_t gethostbyname(const char* name, SocketAddress *address, nsapi_version_t version);
/** return a pointer to the NetworkStack object
*
* @return The underlying NetworkStack object
*/
virtual NetworkStack *get_stack();
/** Open a socket.
*
* @param handle Handle in which to store new socket
* @param proto Type of socket to open, NSAPI_TCP or NSAPI_UDP
* @return 0 on success, negative on failure
*/
virtual int socket_open(void **handle, nsapi_protocol_t proto);
/** Close the socket.
*
* @param handle Socket handle
* @return 0 on success, negative on failure
*/
virtual int socket_close(void *handle);
/** Bind a server socket to a specific port.
*
* @brief Bind the socket to a specific port
* @param handle Socket handle
* @param address address to listen for
* @return 0;
*/
virtual int socket_bind(void *handle, const SocketAddress &address);
/** Start listening for incoming connections.
*
* @brief NOT SUPPORTED
* @param handle Socket handle
* @param backlog Number of pending connections that can be queued up at any
* one time [Default: 1]
* @return NSAPI_ERROR_UNSUPPORTED;
* @note This function causes the receive time-out to be ignored resulting in continuous
* monitoring of received data. This is non-standard behaviour but it is how the
* mbed-cloud servcies use it...
*/
virtual int socket_listen(void *handle, int backlog);
/** Accept a new connection.
*
* @brief NOT SUPPORTED
* @return NSAPI_ERROR_UNSUPPORTED;
*/
virtual int socket_accept(nsapi_socket_t server,
nsapi_socket_t *handle, SocketAddress *address=0);
/** Connects this socket to the server.
*
* @param handle Socket handle
* @param address SocketAddress
* @return 0 on success, negative on failure
*/
virtual int socket_connect(void *handle, const SocketAddress &address);
/** Send data to the remote host.
*
* @param handle Socket handle
* @param data buffer to send
* @param size length of buffer
* @return Number of bytes written or negative on failure
*
* @note This call is blocking.
*/
virtual int socket_send(void *handle, const void *data, unsigned size);
/** Receive data from the remote host.
*
* @param handle Socket handle
* @param data buffer to store the recived data
* @param size bytes to receive
* @return received bytes received, negative on failure
*
* @note This call is not-blocking
*/
virtual int socket_recv(void *handle, void *data, unsigned size);
/** Send a packet to a remote endpoint.
*
* @param handle Socket handle
* @param address SocketAddress
* @param data data to send
* @param size number of bytes to send
* @return the number of bytes sent or negative on failure
*
* @note This call is blocking.
*/
virtual int socket_sendto(void *handle, const SocketAddress &address, const void *data, unsigned size);
/** Receive packet remote endpoint
*
* @param handle Socket handle
* @param address SocketAddress
* @param buffer buffer to store data to
* @param size number of bytes to receive
* @return the number bytes received or negative on failure
*
* @note This call is not-blocking.
*/
virtual int socket_recvfrom(void *handle, SocketAddress *address, void *buffer, unsigned size);
/** Register a callback on state change of the socket
*
* @param handle Socket handle
* @param callback Function to call on state change
* @param data Argument to pass to callback
*
* @note Callback may be called in an interrupt context.
*/
virtual void socket_attach(void *handle, void (*callback)(void *), void *data);
/** get the status of internal errors
*
* @brief Called after any WNC14A2A operation to determine error specifics
* @param none.
*/
uint16_t wnc14a2a_chk_error(void) { return m_errors; }
private:
//! WncController Class for interacting with the 14A2a hardware
friend class WncControllerK64F;
bool m_wncpoweredup; //track if WNC has been power-up
unsigned m_debug;
WncIpStats myNetStats; //maintaint the network statistics
WncControllerK64F_fk::WncControllerK64F *m_pwnc; //pointer to the WncController instance
WNCDebug *_debugUart; // Serial object for parser to communicate with radio
char *_fatal_err_loc; // holds string containing location of fatal error
nsapi_error_t m_errors;
bool m_smsmoning; // Track if the SMS monitoring thread is running
EventQueue sms_queue; // Queue used to schedule for SMS checks
void (*_sms_cb)(IOTSMS *); // Callback when text message is received. User must define this as
// a static function because I'm not handling an object offset
IOTSMS m_MsgText, m_MsgText_array[MAX_SMS_MSGS]; // Used to pass SMS message to the user
struct WncController::WncSmsList m_smsmsgs; //use the WncSmsList structure to hold messages
EventQueue wnc_queue; // Queue used to schedule for receiving data
void handle_sms_event(); // SMS tx/rx handler
void wnc_eq_event(); // Simulated ISR
int rx_event(RXEVENT *); // receive data handler
int tx_event(TXEVENT *); // tx data handler
char _mac_address[NSAPI_MAC_SIZE]; // local Mac
void _dbOut(const char *format, ...);
void _dbDump_arry( const uint8_t* data, unsigned int size );
WNCSOCKET _sockets[WNC14A2A_SOCKET_COUNT]; //WNC supports 8 open sockets but driver only supports 1 currently
TXEVENT _socTxS[WNC14A2A_SOCKET_COUNT];
RXEVENT _socRxS[WNC14A2A_SOCKET_COUNT];
Thread _smsThread, _eqThread; //Event Queue thread for SMS and Rx/Tx data
Mutex _pwnc_mutex;
int _active_socket;
UARTSerial mdmUart;
WncIO wnc_io;
};
#endif