Eric Jung
BG96 Cat.M1 GPS sample for WIZnet IoT Shield
main.cpp
- Committer:
- hkjung
- Date:
- 2019-03-20
- Revision:
- 0:98226e0983af
File content as of revision 0:98226e0983af:
/* WIZnet IoT Shield Cat.M1 Sample code for Arm MBED
* Copyright (c) 2019 WIZnet Co., Ltd.
* 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.
*
*/
#include <string>
#include "mbed.h"
#define RET_OK 1
#define RET_NOK -1
#define DEBUG_ENABLE 1
#define DEBUG_DISABLE 0
#define ON 1
#define OFF 0
#define MAX_BUF_SIZE 1024
#define BG96_APN_PROTOCOL_IPv4 1
#define BG96_APN_PROTOCOL_IPv6 2
#define BG96_DEFAULT_TIMEOUT 1000
#define BG96_CONNECT_TIMEOUT 15000
#define BG96_SEND_TIMEOUT 500
#define BG96_RECV_TIMEOUT 500
#define BG96_APN_PROTOCOL BG96_APN_PROTOCOL_IPv6
#define BG96_DEFAULT_BAUD_RATE 115200
#define BG96_PARSER_DELIMITER "\r\n"
#define CATM1_APN_SKT "lte-internet.sktelecom.com"
#define CATM1_DEVICE_NAME_BG96 "BG96"
#define DEVNAME CATM1_DEVICE_NAME_BG96
#define devlog(f_, ...) if(CATM1_DEVICE_DEBUG == DEBUG_ENABLE) { pc.printf("\r\n[%s] ", DEVNAME); pc.printf((f_), ##__VA_ARGS__); }
#define myprintf(f_, ...) {pc.printf("\r\n[MAIN] "); pc.printf((f_), ##__VA_ARGS__);}
/* Pin configuraiton */
// Cat.M1
#define MBED_CONF_IOTSHIELD_CATM1_TX D8
#define MBED_CONF_IOTSHIELD_CATM1_RX D2
#define MBED_CONF_IOTSHIELD_CATM1_RESET D7
#define MBED_CONF_IOTSHIELD_CATM1_PWRKEY D9
// Sensors
#define MBED_CONF_IOTSHIELD_SENSOR_CDS A0
#define MBED_CONF_IOTSHIELD_SENSOR_TEMP A1
/* Debug message settings */
#define BG96_PARSER_DEBUG DEBUG_DISABLE
#define CATM1_DEVICE_DEBUG DEBUG_ENABLE
typedef struct gps_data_t {
float utc; // hhmmss.sss
float lat; // latitude. (-)dd.ddddd
float lon; // longitude. (-)dd.ddddd
float hdop; // Horizontal precision: 0.5-99.9
float altitude; // altitude of antenna from sea level (meters)
int fix; // GNSS position mode 2=2D, 3=3D
float cog; // Course Over Ground ddd.mm
float spkm; // Speed over ground (Km/h) xxxx.x
float spkn; // Speed over ground (knots) xxxx.x
char date[7]; // data: ddmmyy
int nsat; // number of satellites 0-12
} gps_data;
// Functions: Module Status
void waitCatM1Ready(void);
int8_t setEchoStatus_BG96(bool onoff);
int8_t getUsimStatus_BG96(void);
int8_t getNetworkStatus_BG96(void);
int8_t checknSetApn_BG96(const char * apn);
int8_t getFirmwareVersion_BG96(char * version);
int8_t getImeiNumber_BG96(char * imei);
// Functions: GPS
int8_t setGpsOnOff_BG96(bool onoff);
int8_t getGpsLocation_BG96(gps_data *data);
Serial pc(USBTX, USBRX); // USB debug
UARTSerial *_serial; // Cat.M1 module
ATCmdParser *_parser;
DigitalOut _RESET_BG96(MBED_CONF_IOTSHIELD_CATM1_RESET);
DigitalOut _PWRKEY_BG96(MBED_CONF_IOTSHIELD_CATM1_PWRKEY);
void serialPcInit(void)
{
pc.baud(115200);
pc.format(8, Serial::None, 1);
}
void serialDeviceInit(PinName tx, PinName rx, int baudrate)
{
_serial = new UARTSerial(tx, rx, baudrate);
}
void serialAtParserInit(const char *delimiter, bool debug_en)
{
_parser = new ATCmdParser(_serial);
_parser->debug_on(debug_en);
_parser->set_delimiter(delimiter);
_parser->set_timeout(BG96_DEFAULT_TIMEOUT);
}
void catm1DeviceInit(void)
{
serialDeviceInit( MBED_CONF_IOTSHIELD_CATM1_TX,
MBED_CONF_IOTSHIELD_CATM1_RX,
BG96_DEFAULT_BAUD_RATE);
serialAtParserInit( BG96_PARSER_DELIMITER,
BG96_PARSER_DEBUG);
}
void catm1DeviceReset_BG96(void)
{
_RESET_BG96 = 1;
_PWRKEY_BG96 = 1;
wait_ms(300);
_RESET_BG96 = 0;
_PWRKEY_BG96 = 0;
wait_ms(400);
_RESET_BG96 = 1;
wait_ms(1000);
}
// ----------------------------------------------------------------
// Main routine
// ----------------------------------------------------------------
int main()
{
serialPcInit();
catm1DeviceInit();
myprintf("Waiting for Cat.M1 Module Ready...\r\n");
catm1DeviceReset_BG96();
waitCatM1Ready();
wait_ms(5000);
myprintf("System Init Complete\r\n");
myprintf("WIZnet IoT Shield for Arm MBED");
myprintf("LTE Cat.M1 Version");
myprintf("=================================================");
myprintf(">> Target Board: WIoT-QC01 (Quectel BG96)");
myprintf(">> Sample Code: GPS");
myprintf("=================================================\r\n");
setEchoStatus_BG96(OFF);
getUsimStatus_BG96();
getNetworkStatus_BG96();
checknSetApn_BG96(CATM1_APN_SKT);
// GPS information structure
gps_data gps_info;
if(setGpsOnOff_BG96(ON) == RET_OK) {
myprintf("GPS On\r\n")
while(1) {
if(getGpsLocation_BG96(&gps_info) == RET_OK) {
myprintf("Get GPS information >>>");
myprintf("gps_info - utc: %6.3f", gps_info.utc) // utc: hhmmss.sss
myprintf("gps_info - lat: %2.5f", gps_info.lat) // latitude: (-)dd.ddddd
myprintf("gps_info - lon: %2.5f", gps_info.lon) // longitude: (-)dd.ddddd
myprintf("gps_info - hdop: %2.1f", gps_info.hdop) // Horizontal precision: 0.5-99.9
myprintf("gps_info - altitude: %2.1f", gps_info.altitude) // altitude of antenna from sea level (meters)
myprintf("gps_info - fix: %d", gps_info.fix) // GNSS position mode: 2=2D, 3=3D
myprintf("gps_info - cog: %3.2f", gps_info.cog) // Course Over Ground: ddd.mm
myprintf("gps_info - spkm: %4.1f", gps_info.spkm) // Speed over ground (Km/h): xxxx.x
myprintf("gps_info - spkn: %4.1f", gps_info.spkn) // Speed over ground (knots): xxxx.x
myprintf("gps_info - date: %s", gps_info.date) // data: ddmmyy
myprintf("gps_info - nsat: %d\r\n", gps_info.nsat) // number of satellites: 0-12
} else {
myprintf("Failed to get GPS information\r\n");
}
wait_ms(1000);
}
#if 0
if(setGpsOnOff_BG96(OFF) == RET_OK) {
myprintf("GPS Off\r\n")
}
#endif
} else {
myprintf("GPS On failed\r\n")
}
}
// ----------------------------------------------------------------
// Functions: Cat.M1 Status
// ----------------------------------------------------------------
void waitCatM1Ready(void)
{
while(1)
{
if(_parser->recv("RDY"))
{
myprintf("BG96 ready\r\n");
return ;
}
else if(_parser->send("AT") && _parser->recv("OK"))
{
myprintf("BG96 already available\r\n");
return ;
}
}
}
int8_t setEchoStatus_BG96(bool onoff)
{
int8_t ret = RET_NOK;
char _buf[10];
sprintf((char *)_buf, "ATE%d", onoff);
if(_parser->send(_buf) && _parser->recv("OK")) {
devlog("Turn Echo %s success\r\n", onoff?"ON":"OFF");
ret = RET_OK;
} else {
devlog("Turn Echo %s failed\r\n", onoff?"ON":"OFF");
}
return ret;
}
int8_t getUsimStatus_BG96(void)
{
int8_t ret = RET_NOK;
_parser->send("AT+CPIN?");
if(_parser->recv("+CPIN: READY") && _parser->recv("OK")) {
devlog("USIM Status: READY\r\n");
ret = RET_OK;
} else {
devlog("Retrieving USIM Status failed\r\n");
}
return ret;
}
int8_t getNetworkStatus_BG96(void)
{
int8_t ret = RET_NOK;
if(_parser->send("AT+QCDS") && _parser->recv("+QCDS: \"SRV\"") && _parser->recv("OK")) {
devlog("Network Status: attached\r\n");
ret = RET_OK;
} else if (_parser->send("AT+QCDS") && _parser->recv("+QCDS: \"LIMITED\"") && _parser->recv("OK")) {
devlog("Network Status: limited\r\n");
ret = RET_OK;
} else {
devlog("Network Status: Error\r\n");
}
return ret;
}
int8_t checknSetApn_BG96(const char * apn) // Configure Parameters of a TCP/IP Context
{
char resp_str[100];
uint16_t i = 0;
char * search_pt;
memset(resp_str, 0, sizeof(resp_str));
devlog("Checking APN...\r\n");
_parser->send("AT+QICSGP=1");
while(1)
{
_parser->read(&resp_str[i++], 1);
search_pt = strstr(resp_str, "OK\r\n");
if (search_pt != 0)
{
break;
}
}
search_pt = strstr(resp_str, apn);
if (search_pt == 0)
{
devlog("Mismatched APN: %s\r\n", resp_str);
devlog("Storing APN %s...\r\n", apn);
if(!(_parser->send("AT+QICSGP=1,%d,\"%s\",\"\",\"\",0", BG96_APN_PROTOCOL, apn) && _parser->recv("OK")))
{
return RET_NOK; // failed
}
}
devlog("APN Check Done\r\n");
return RET_OK;
}
int8_t getFirmwareVersion_BG96(char * version)
{
int8_t ret = RET_NOK;
if(_parser->send("AT+QGMR") && _parser->recv("%s\n", version) && _parser->recv("OK"))
{
ret = RET_OK;
}
return ret;
}
int8_t getImeiNumber_BG96(char * imei)
{
int8_t ret = RET_NOK;
if(_parser->send("AT+CGSN") && _parser->recv("%s\n", imei) && _parser->recv("OK"))
{
ret = RET_OK;
}
return ret;
}
// ----------------------------------------------------------------
// Functions: Cat.M1 GPS
// ----------------------------------------------------------------
int8_t setGpsOnOff_BG96(bool onoff)
{
int8_t ret = RET_NOK;
char _buf[15];
sprintf((char *)_buf, "%s", onoff ? "AT+QGPS=2" : "AT+QGPSEND");
if(_parser->send(_buf) && _parser->recv("OK")) {
devlog("GPS Power: %s\r\n", onoff ? "On" : "Off");
ret = RET_OK;
} else {
devlog("Set GPS Power %s failed\r\n", onoff ? "On" : "Off");
}
return ret;
}
int8_t getGpsLocation_BG96(gps_data *data)
{
int8_t ret = RET_NOK;
char _buf[100];
bool ok = false;
Timer t;
// Structure init: GPS info
data->utc = data->lat = data->lon = data->hdop= data->altitude = data->cog = data->spkm = data->spkn = data->nsat=0.0;
data->fix=0;
memset(&data->date, 0x00, 7);
// timer start
t.start();
while( !ok && (t.read_ms() < BG96_CONNECT_TIMEOUT ) ) {
_parser->flush();
_parser->send((char*)"AT+QGPSLOC=2"); // MS-based mode
ok = _parser->recv("+QGPSLOC: ");
if(ok) {
_parser->recv("%s\r\n", _buf);
sscanf(_buf,"%f,%f,%f,%f,%f,%d,%f,%f,%f,%6s,%d",
&data->utc, &data->lat, &data->lon, &data->hdop,
&data->altitude, &data->fix, &data->cog,
&data->spkm, &data->spkn, data->date, &data->nsat);
ok = _parser->recv("OK");
}
}
if(ok == true) ret = RET_OK;
return ret;
}