LRAT-example-lorawan-REFACTOR-and-CLEAN-Branch

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SAIT ARIS / LRAT-example-lorawan-REFACTOR-and-CLEAN-Branch

Dependencies: Custom_LSM303 Custom_UBloxGPS LRAT-mbed-os USBDevice mbed-lora-radio-drv stm32EEPROM

Fork of LRAT-example-lorawan by SAIT ARIS

main.cpp@40:eaf476b94684, 2018-09-04 (annotated)

Committer:: Huot87
Date:: Tue Sep 04 15:03:49 2018 +0000
Revision:: 40:eaf476b94684
Parent:: 39:6da6cb44f22e
Child:: 41:98266e454444

EEPROM 1st pass

Who changed what in which revision?

User	Revision	Line number	New contents of line
mbed_official	0:7037ed05f54f	1	/**
mbed_official	0:7037ed05f54f	2	* Copyright (c) 2017, Arm Limited and affiliates.
mbed_official	0:7037ed05f54f	3	* SPDX-License-Identifier: Apache-2.0
mbed_official	0:7037ed05f54f	4	*
mbed_official	0:7037ed05f54f	5	* Licensed under the Apache License, Version 2.0 (the "License");
mbed_official	0:7037ed05f54f	6	* you may not use this file except in compliance with the License.
mbed_official	0:7037ed05f54f	7	* You may obtain a copy of the License at
mbed_official	0:7037ed05f54f	8	*
mbed_official	0:7037ed05f54f	9	* http://www.apache.org/licenses/LICENSE-2.0
mbed_official	0:7037ed05f54f	10	*
mbed_official	0:7037ed05f54f	11	* Unless required by applicable law or agreed to in writing, software
mbed_official	0:7037ed05f54f	12	* distributed under the License is distributed on an "AS IS" BASIS,
mbed_official	0:7037ed05f54f	13	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
mbed_official	0:7037ed05f54f	14	* See the License for the specific language governing permissions and
mbed_official	0:7037ed05f54f	15	* limitations under the License.
mbed_official	0:7037ed05f54f	16	*/
lpeters	36:dcc6f89fa39a	17
lpeters	34:341fb423e74b	18	//#define TARGET_LRAT 1
lpeters	35:73b3963c6dd3	19	#define TARGET_DISCO1 1
lpeters	35:73b3963c6dd3	20	//#define TARGET_DISCO2 1
lpeters	34:341fb423e74b	21	//#define SENSOR_TEMP 1
lpeters	36:dcc6f89fa39a	22
lpeters	37:df69df1bcb1a	23	#define DCHILL 600 // Cycle delay in chill mode.
lpeters	37:df69df1bcb1a	24	#define DPANIC 60 // Cycle delay in panic mode.
lpeters	37:df69df1bcb1a	25	#define NPANIC 5 // Number of unprovoked panic cycles before cooldown.
lpeters	37:df69df1bcb1a	26
mbed_official	0:7037ed05f54f	27	#include <stdio.h>
tchari	30:ff249a9156dc	28	#include "mbed.h"
mbed_official	3:8c7198d1a2a1	29
mbed_official	0:7037ed05f54f	30	#include "lorawan/LoRaWANInterface.h"
mbed_official	0:7037ed05f54f	31	#include "lorawan/system/lorawan_data_structures.h"
mbed_official	0:7037ed05f54f	32	#include "events/EventQueue.h"
mbed_official	0:7037ed05f54f	33
mbed_official	0:7037ed05f54f	34	// Application helpers
mbed_official	0:7037ed05f54f	35	#include "DummySensor.h"
mbed_official	0:7037ed05f54f	36	#include "trace_helper.h"
mbed_official	0:7037ed05f54f	37	#include "lora_radio_helper.h"
mbed_official	0:7037ed05f54f	38
Huot87	40:eaf476b94684	39	// HUOT ADDITION -- 08/21/2018 -- Import of EEPROM Library
Huot87	40:eaf476b94684	40	#include "stm32EEPROM.h"
Huot87	40:eaf476b94684	41
tchari	30:ff249a9156dc	42	#include "mbed-trace/mbed_trace.h"
tchari	30:ff249a9156dc	43	#define TRACE_GROUP "MAIN"
tchari	30:ff249a9156dc	44
mbed_official	0:7037ed05f54f	45	using namespace events;
mbed_official	0:7037ed05f54f	46
mbed_official	12:5015dfead3f2	47	// Max payload size can be LORAMAC_PHY_MAXPAYLOAD.
mbed_official	12:5015dfead3f2	48	// This example only communicates with much shorter messages (<30 bytes).
mbed_official	12:5015dfead3f2	49	// If longer messages are used, these buffers must be changed accordingly.
mbed_official	12:5015dfead3f2	50	uint8_t tx_buffer[30];
mbed_official	12:5015dfead3f2	51	uint8_t rx_buffer[30];
mbed_official	0:7037ed05f54f	52
mbed_official	0:7037ed05f54f	53	/*
mbed_official	0:7037ed05f54f	54	* Sets up an application dependent transmission timer in ms. Used only when Duty Cycling is off for testing
mbed_official	0:7037ed05f54f	55	*/
mbed_official	0:7037ed05f54f	56	#define TX_TIMER 10000
mbed_official	0:7037ed05f54f	57
mbed_official	0:7037ed05f54f	58	/**
mbed_official	0:7037ed05f54f	59	* Maximum number of events for the event queue.
mbed_official	12:5015dfead3f2	60	* 10 is the safe number for the stack events, however, if application
mbed_official	0:7037ed05f54f	61	* also uses the queue for whatever purposes, this number should be increased.
mbed_official	0:7037ed05f54f	62	*/
mbed_official	12:5015dfead3f2	63	#define MAX_NUMBER_OF_EVENTS 10
mbed_official	0:7037ed05f54f	64
mbed_official	0:7037ed05f54f	65	/**
mbed_official	0:7037ed05f54f	66	* Maximum number of retries for CONFIRMED messages before giving up
mbed_official	0:7037ed05f54f	67	*/
Huot87	40:eaf476b94684	68	#define CONFIRMED_MSG_RETRY_COUNTER 3
mbed_official	0:7037ed05f54f	69
Huot87	40:eaf476b94684	70
Huot87	40:eaf476b94684	71	// HUOT NOTE -- THINK THIS CAN BE REMOVED
mbed_official	0:7037ed05f54f	72	/**
mbed_official	0:7037ed05f54f	73	* Dummy pin for dummy sensor
mbed_official	0:7037ed05f54f	74	*/
Huot87	40:eaf476b94684	75	//#define PC_9 0
mbed_official	0:7037ed05f54f	76
mbed_official	0:7037ed05f54f	77	/**
mbed_official	0:7037ed05f54f	78	* Dummy sensor class object
mbed_official	0:7037ed05f54f	79	*/
Huot87	40:eaf476b94684	80	//DS1820 ds1820(PC_9);
Huot87	40:eaf476b94684	81
Huot87	40:eaf476b94684	82	#define PACKET_LEN 11
mbed_official	0:7037ed05f54f	83
mbed_official	0:7037ed05f54f	84	/**
mbed_official	0:7037ed05f54f	85	* This event queue is the global event queue for both the
mbed_official	0:7037ed05f54f	86	* application and stack. To conserve memory, the stack is designed to run
mbed_official	0:7037ed05f54f	87	* in the same thread as the application and the application is responsible for
mbed_official	0:7037ed05f54f	88	* providing an event queue to the stack that will be used for ISR deferment as
mbed_official	0:7037ed05f54f	89	* well as application information event queuing.
mbed_official	0:7037ed05f54f	90	*/
mbed_official	0:7037ed05f54f	91	static EventQueue ev_queue(MAX_NUMBER_OF_EVENTS * EVENTS_EVENT_SIZE);
mbed_official	0:7037ed05f54f	92
mbed_official	0:7037ed05f54f	93	/**
mbed_official	0:7037ed05f54f	94	* Event handler.
mbed_official	0:7037ed05f54f	95	*
mbed_official	0:7037ed05f54f	96	* This will be passed to the LoRaWAN stack to queue events for the
mbed_official	0:7037ed05f54f	97	* application which in turn drive the application.
mbed_official	0:7037ed05f54f	98	*/
mbed_official	0:7037ed05f54f	99	static void lora_event_handler(lorawan_event_t event);
mbed_official	0:7037ed05f54f	100
mbed_official	0:7037ed05f54f	101	/**
mbed_official	2:dc95ac6d6d4e	102	* Constructing Mbed LoRaWANInterface and passing it down the radio object.
mbed_official	0:7037ed05f54f	103	*/
mbed_official	2:dc95ac6d6d4e	104	static LoRaWANInterface lorawan(radio);
mbed_official	0:7037ed05f54f	105
mbed_official	0:7037ed05f54f	106	/**
mbed_official	0:7037ed05f54f	107	* Application specific callbacks
mbed_official	0:7037ed05f54f	108	*/
mbed_official	0:7037ed05f54f	109	static lorawan_app_callbacks_t callbacks;
mbed_official	0:7037ed05f54f	110
lpeters	35:73b3963c6dd3	111	/*
lpeters	35:73b3963c6dd3	112	#if defined(TARGET_LRAT) or defined(TARGET_DISCO2)
lpeters	34:341fb423e74b	113	#include "USBSerial.h"
lpeters	34:341fb423e74b	114	USBSerial serial;
lpeters	34:341fb423e74b	115	FileHandle* mbed::mbed_override_console(int) {
lpeters	34:341fb423e74b	116	return &serial;
lpeters	34:341fb423e74b	117	}
lpeters	34:341fb423e74b	118	#endif
lpeters	35:73b3963c6dd3	119	*/
lpeters	34:341fb423e74b	120
lpeters	35:73b3963c6dd3	121	uint32_t mytime = 0;
lpeters	35:73b3963c6dd3	122	uint8_t mybatt = 0;
lpeters	35:73b3963c6dd3	123	double mylat = 0;
lpeters	35:73b3963c6dd3	124	double mylon = 0;
lpeters	33:e47306c32791	125
lpeters	33:e47306c32791	126	int16_t myAccX = 0;
lpeters	33:e47306c32791	127	int16_t myAccY = 0;
lpeters	33:e47306c32791	128	int16_t myAccZ = 0;
lpeters	33:e47306c32791	129	int16_t myMagX = 0;
lpeters	33:e47306c32791	130	int16_t myMagY = 0;
lpeters	33:e47306c32791	131	int16_t myMagZ = 0;
lpeters	33:e47306c32791	132	int16_t myOffX = 0;
lpeters	33:e47306c32791	133	int16_t myOffY = 0;
lpeters	33:e47306c32791	134	int16_t myOffZ = 0;
lpeters	33:e47306c32791	135	int16_t myTemp = 0;
lpeters	33:e47306c32791	136
lpeters	33:e47306c32791	137	int16_t accMinX = 0;
lpeters	33:e47306c32791	138	int16_t accMinY = 0;
lpeters	33:e47306c32791	139	int16_t accMinZ = 0;
lpeters	33:e47306c32791	140	int16_t accMaxX = 0;
lpeters	33:e47306c32791	141	int16_t accMaxY = 0;
lpeters	33:e47306c32791	142	int16_t accMaxZ = 0;
lpeters	33:e47306c32791	143
lpeters	33:e47306c32791	144	int16_t magMinX = 0;
lpeters	33:e47306c32791	145	int16_t magMinY = 0;
lpeters	33:e47306c32791	146	int16_t magMinZ = 0;
lpeters	33:e47306c32791	147	int16_t magMaxX = 0;
lpeters	33:e47306c32791	148	int16_t magMaxY = 0;
lpeters	33:e47306c32791	149	int16_t magMaxZ = 0;
lpeters	33:e47306c32791	150
lpeters	33:e47306c32791	151	#define NEOM8M_ADR_GPS 0x84
lpeters	34:341fb423e74b	152	//#define LSM303_ADR_ACC 0x32
lpeters	33:e47306c32791	153	#define LSM303_ADR_MAG 0x3C
tchari	30:ff249a9156dc	154
lpeters	33:e47306c32791	155	#define NEOM8M_REG_GPS_LENH 0xFD
lpeters	33:e47306c32791	156	#define NEOM8M_REG_GPS_LENL 0xFE
lpeters	33:e47306c32791	157	#define NEOM8M_REG_GPS_DATA 0xFE
lpeters	33:e47306c32791	158	#define LSM303_REG_ACC_STATUS_REG_AUX_A 0x07
lpeters	34:341fb423e74b	159	//#define LSM303_REG_ACC_OUT_TEMP_L_A 0x0C
lpeters	34:341fb423e74b	160	//#define LSM303_REG_ACC_OUT_TEMP_H_A 0x0D
lpeters	33:e47306c32791	161	#define LSM303_REG_ACC_WHO_AM_I_A 0x0F
lpeters	34:341fb423e74b	162	//#define LSM303_REG_ACC_TEMP_CFG_REG_A 0x1F
lpeters	33:e47306c32791	163	#define LSM303_REG_ACC_CTRL_REG1_A 0x20
lpeters	33:e47306c32791	164	#define LSM303_REG_ACC_CTRL_REG2_A 0x21
lpeters	33:e47306c32791	165	#define LSM303_REG_ACC_CTRL_REG3_A 0x22
lpeters	33:e47306c32791	166	#define LSM303_REG_ACC_CTRL_REG4_A 0x23
lpeters	33:e47306c32791	167	#define LSM303_REG_ACC_CTRL_REG5_A 0x24
lpeters	34:341fb423e74b	168	#define LSM303_REG_ACC_CTRL_REG6_A 0x25
lpeters	33:e47306c32791	169	#define LSM303_REG_ACC_STATUS_REG_A 0x27
lpeters	33:e47306c32791	170	#define LSM303_REG_ACC_OUT_X_L_A 0x28
lpeters	33:e47306c32791	171	#define LSM303_REG_ACC_OUT_X_H_A 0x29
lpeters	33:e47306c32791	172	#define LSM303_REG_ACC_OUT_Y_L_A 0x2A
lpeters	33:e47306c32791	173	#define LSM303_REG_ACC_OUT_Y_H_A 0x2B
lpeters	33:e47306c32791	174	#define LSM303_REG_ACC_OUT_Z_L_A 0x2C
lpeters	33:e47306c32791	175	#define LSM303_REG_ACC_OUT_Z_H_A 0x2D
lpeters	33:e47306c32791	176	#define LSM303_REG_ACC_INT1_CFG_A 0x30
lpeters	33:e47306c32791	177	#define LSM303_REG_ACC_INT1_SRC_A 0x31
lpeters	33:e47306c32791	178	#define LSM303_REG_ACC_INT1_THS_A 0x32
lpeters	33:e47306c32791	179	#define LSM303_REG_ACC_INT1_DURATION_A 0x33
lpeters	35:73b3963c6dd3	180
lpeters	33:e47306c32791	181	#define LSM303_REG_MAG_OFFSET_X_REG_L_M 0x45
lpeters	33:e47306c32791	182	#define LSM303_REG_MAG_OFFSET_X_REG_H_M 0x46
lpeters	33:e47306c32791	183	#define LSM303_REG_MAG_OFFSET_Y_REG_L_M 0x47
lpeters	33:e47306c32791	184	#define LSM303_REG_MAG_OFFSET_Y_REG_H_M 0x48
lpeters	33:e47306c32791	185	#define LSM303_REG_MAG_OFFSET_Z_REG_L_M 0x49
lpeters	33:e47306c32791	186	#define LSM303_REG_MAG_OFFSET_Z_REG_H_M 0x4A
lpeters	34:341fb423e74b	187	//#define LSM303_REG_MAG_WHO_AM_I_M 0x4F
lpeters	34:341fb423e74b	188	//#define LSM303_REG_MAG_CFG_REG_A_M 0x60
lpeters	34:341fb423e74b	189	//#define LSM303_REG_MAG_CFG_REG_B_M 0x61
lpeters	34:341fb423e74b	190	//#define LSM303_REG_MAG_CFG_REG_C_M 0x62
lpeters	33:e47306c32791	191	#define LSM303_REG_MAG_INT_CTRL_REG_M 0x63
lpeters	33:e47306c32791	192	#define LSM303_REG_MAG_INT_SOURCE_REG_M 0x64
lpeters	33:e47306c32791	193	#define LSM303_REG_MAG_INT_THS_L_REG_M 0x65
lpeters	33:e47306c32791	194	#define LSM303_REG_MAG_INT_THS_H_REG_M 0x66
lpeters	34:341fb423e74b	195	//#define LSM303_REG_MAG_STATUS_REG_M 0x67
lpeters	34:341fb423e74b	196	//#define LSM303_REG_MAG_OUTX_L_REG_M 0x68
lpeters	34:341fb423e74b	197	//#define LSM303_REG_MAG_OUTX_H_REG_M 0x69
lpeters	34:341fb423e74b	198	//#define LSM303_REG_MAG_OUTY_L_REG_M 0x6A
lpeters	34:341fb423e74b	199	//#define LSM303_REG_MAG_OUTY_H_REG_M 0x6B
lpeters	34:341fb423e74b	200	//#define LSM303_REG_MAG_OUTZ_L_REG_M 0x6C
lpeters	34:341fb423e74b	201	//#define LSM303_REG_MAG_OUTZ_H_REG_M 0x6D
lpeters	33:e47306c32791	202
lpeters	35:73b3963c6dd3	203	#define EEPROM_MAX 0x17FF
lpeters	35:73b3963c6dd3	204
lpeters	34:341fb423e74b	205	#if defined(TARGET_LRAT)
lpeters	34:341fb423e74b	206	#define LEDR PB_6
lpeters	34:341fb423e74b	207	#define LEDG PB_7
lpeters	34:341fb423e74b	208	#define LEDB PB_5
lpeters	34:341fb423e74b	209	#define LEDW PB_2
lpeters	35:73b3963c6dd3	210	#define PIN_ACC PB_14
lpeters	35:73b3963c6dd3	211	#define PIN_MAG PB_12
lpeters	35:73b3963c6dd3	212	#define PIN_BTN PA_5
lpeters	35:73b3963c6dd3	213	#define PIN_ALT PA_4
lpeters	34:341fb423e74b	214	#define LSM303_ADR_ACC 0x3A
lpeters	34:341fb423e74b	215	#define LSM303_REG_MAG_WHO_AM_I_M 0x0F
lpeters	34:341fb423e74b	216	#define LSM303_WHO_ACC 0x41
lpeters	34:341fb423e74b	217	#define LSM303_WHO_MAG 0x3D
lpeters	34:341fb423e74b	218	#define LSM303_CTRL_REG7_A 0x26
lpeters	34:341fb423e74b	219	#define LSM303_REG_MAG_CTRL_REG1_M 0x20
lpeters	34:341fb423e74b	220	#define LSM303_REG_MAG_CTRL_REG2_M 0x21
lpeters	34:341fb423e74b	221	#define LSM303_REG_MAG_CTRL_REG3_M 0x22
lpeters	34:341fb423e74b	222	#define LSM303_REG_MAG_CTRL_REG4_M 0x23
lpeters	34:341fb423e74b	223	#define LSM303_REG_MAG_CTRL_REG5_M 0x24
lpeters	34:341fb423e74b	224	#define LSM303_REG_MAG_STATUS_REG_M 0x27
lpeters	34:341fb423e74b	225	#define LSM303_REG_MAG_OUTX_L_REG_M 0x28
lpeters	34:341fb423e74b	226	#define LSM303_REG_MAG_OUTX_H_REG_M 0x29
lpeters	34:341fb423e74b	227	#define LSM303_REG_MAG_OUTY_L_REG_M 0x2A
lpeters	34:341fb423e74b	228	#define LSM303_REG_MAG_OUTY_H_REG_M 0x2B
lpeters	34:341fb423e74b	229	#define LSM303_REG_MAG_OUTZ_L_REG_M 0x2C
lpeters	34:341fb423e74b	230	#define LSM303_REG_MAG_OUTZ_H_REG_M 0x2D
lpeters	34:341fb423e74b	231	#define LSM303_REG_MAG_TEMP_L_M 0x2E
lpeters	34:341fb423e74b	232	#define LSM303_REG_MAG_TEMP_H_M 0x2F
lpeters	34:341fb423e74b	233	#define LSM303_REG_MAG_TEMP_CFG_REG_A 0x1F
lpeters	34:341fb423e74b	234	#define CFG_ACC_ADR LSM303_REG_ACC_CTRL_REG1_A
lpeters	34:341fb423e74b	235	#define CFG_ACC_LEN 7
lpeters	34:341fb423e74b	236	#define CFG_MAG_ADR LSM303_REG_MAG_CTRL_REG1_M
lpeters	34:341fb423e74b	237	#define CFG_MAG_LEN 5
Huot87	39:6da6cb44f22e	238
Huot87	39:6da6cb44f22e	239	// HUOT ADDITIONS -- 08/30/2018 -- Port of LRAT LSM303CTR ACC Register definitions
Huot87	39:6da6cb44f22e	240	// LSM303CTR Specific ACC Register ID's
Huot87	39:6da6cb44f22e	241	#define LSM303_REG_ACC_INT1_THS_X1_A 0x32
Huot87	39:6da6cb44f22e	242	#define LSM303_REG_ACC_INT1_THS_Y1_A 0x33
Huot87	39:6da6cb44f22e	243	#define LSM303_REG_ACC_INT1_THS_Z1_A 0x34
Huot87	39:6da6cb44f22e	244	#define LSM303_REG_ACC_INT1_DURATION_A 0x35
Huot87	39:6da6cb44f22e	245	#define LSM303_REG_ACC_INT2_CFG_A 0x36
Huot87	39:6da6cb44f22e	246	#define LSM303_REG_ACC_INT2_SRC_A 0x37
Huot87	39:6da6cb44f22e	247	#define LSM303_REG_ACC_INT2_THS_A 0x38
Huot87	39:6da6cb44f22e	248	#define LSM303_REG_ACC_INT2_DURATION_A 0x39
Huot87	39:6da6cb44f22e	249	#define LSM303_REG_ACC_XL_REFERENCE 0x3A
Huot87	39:6da6cb44f22e	250	#define LSM303_REG_ACC_XH_REFERENCE 0x3B
Huot87	39:6da6cb44f22e	251	#define LSM303_REG_ACC_YL_REFERENCE 0x3C
Huot87	39:6da6cb44f22e	252	#define LSM303_REG_ACC_YH_REFERENCE 0x3D
Huot87	39:6da6cb44f22e	253	#define LSM303_REG_ACC_ZL_REFERENCE 0x3E
Huot87	39:6da6cb44f22e	254	#define LSM303_REG_ACC_ZH_REFERENCE 0x3F
Huot87	39:6da6cb44f22e	255
lpeters	34:341fb423e74b	256	#else
lpeters	34:341fb423e74b	257	#define LEDR PB_7
lpeters	34:341fb423e74b	258	#define LEDG PB_5
lpeters	34:341fb423e74b	259	#define LEDB PB_6
lpeters	34:341fb423e74b	260	#define LEDW PA_5
lpeters	35:73b3963c6dd3	261	#define PIN_ACC PB_14 // Not really.
lpeters	35:73b3963c6dd3	262	#if defined(TARGET_DISCO2)
lpeters	35:73b3963c6dd3	263	#define PIN_MAG PB_13
lpeters	37:df69df1bcb1a	264	#define PIN_GPS PA_10
lpeters	35:73b3963c6dd3	265	#else
lpeters	35:73b3963c6dd3	266	#define PIN_MAG PA_10
lpeters	37:df69df1bcb1a	267	#define PIN_GPS PB_13
lpeters	35:73b3963c6dd3	268	#endif
lpeters	35:73b3963c6dd3	269	#define PIN_BTN PB_2
lpeters	34:341fb423e74b	270	#define LSM303_ADR_ACC 0x32
lpeters	34:341fb423e74b	271	#define LSM303_REG_MAG_WHO_AM_I_M 0x4F
lpeters	34:341fb423e74b	272	#define LSM303_WHO_ACC 0x33
lpeters	34:341fb423e74b	273	#define LSM303_WHO_MAG 0x40
lpeters	34:341fb423e74b	274	#define LSM303_REG_ACC_OUT_TEMP_L_A 0x0C
lpeters	34:341fb423e74b	275	#define LSM303_REG_ACC_OUT_TEMP_H_A 0x0D
lpeters	34:341fb423e74b	276	#define LSM303_REG_ACC_TEMP_CFG_REG_A 0x1F
lpeters	34:341fb423e74b	277	#define LSM303_REG_MAG_CFG_REG_A_M 0x60
lpeters	34:341fb423e74b	278	#define LSM303_REG_MAG_CFG_REG_B_M 0x61
lpeters	34:341fb423e74b	279	#define LSM303_REG_MAG_CFG_REG_C_M 0x62
lpeters	34:341fb423e74b	280	#define LSM303_REG_MAG_STATUS_REG_M 0x67
lpeters	34:341fb423e74b	281	#define LSM303_REG_MAG_OUTX_L_REG_M 0x68
lpeters	34:341fb423e74b	282	#define LSM303_REG_MAG_OUTX_H_REG_M 0x69
lpeters	34:341fb423e74b	283	#define LSM303_REG_MAG_OUTY_L_REG_M 0x6A
lpeters	34:341fb423e74b	284	#define LSM303_REG_MAG_OUTY_H_REG_M 0x6B
lpeters	34:341fb423e74b	285	#define LSM303_REG_MAG_OUTZ_L_REG_M 0x6C
lpeters	34:341fb423e74b	286	#define LSM303_REG_MAG_OUTZ_H_REG_M 0x6D
lpeters	34:341fb423e74b	287	#define CFG_ACC_ADR LSM303_REG_ACC_TEMP_CFG_REG_A // Start Disco at TEMP CFG.
lpeters	34:341fb423e74b	288	#define CFG_ACC_LEN 7
lpeters	34:341fb423e74b	289	#define CFG_MAG_ADR LSM303_REG_MAG_CFG_REG_A_M
lpeters	34:341fb423e74b	290	#define CFG_MAG_LEN 3
lpeters	34:341fb423e74b	291	#endif
tchari	30:ff249a9156dc	292
tchari	30:ff249a9156dc	293	I2C i2c(PB_9, PB_8);
lpeters	35:73b3963c6dd3	294	InterruptIn accPin(PIN_ACC);
lpeters	35:73b3963c6dd3	295	InterruptIn magPin(PIN_MAG);
lpeters	35:73b3963c6dd3	296	InterruptIn btnPin(PIN_BTN);
lpeters	33:e47306c32791	297
lpeters	37:df69df1bcb1a	298	#if defined(TARGET_DISCO1) or defined(TARGET_DISCO2)
lpeters	37:df69df1bcb1a	299	DigitalOut gpsPin(PIN_GPS);
lpeters	37:df69df1bcb1a	300	#endif
lpeters	37:df69df1bcb1a	301
lpeters	35:73b3963c6dd3	302	uint8_t cfg;
lpeters	33:e47306c32791	303	char ret;
lpeters	33:e47306c32791	304	char rda = '\0';
lpeters	33:e47306c32791	305	char cmd[2];
lpeters	37:df69df1bcb1a	306	//char buf[83];
lpeters	37:df69df1bcb1a	307	char buf[192];
lpeters	35:73b3963c6dd3	308	uint8_t pos = 0;
lpeters	35:73b3963c6dd3	309
lpeters	33:e47306c32791	310	int accShift = 0;
lpeters	33:e47306c32791	311	int accScale = 0;
lpeters	33:e47306c32791	312	int accEvent = 0;
lpeters	35:73b3963c6dd3	313	uint8_t accSFire = 0;
lpeters	35:73b3963c6dd3	314	uint8_t accHFire = 0;
lpeters	35:73b3963c6dd3	315	uint8_t accSLIRQ = 0;
lpeters	35:73b3963c6dd3	316	uint8_t accSHIRQ = 0;
lpeters	33:e47306c32791	317	int magEvent = 0;
lpeters	35:73b3963c6dd3	318	uint8_t magSFire = 0;
lpeters	35:73b3963c6dd3	319	uint8_t magHFire = 0;
lpeters	35:73b3963c6dd3	320	uint8_t magSLIRQ = 0;
lpeters	35:73b3963c6dd3	321	uint8_t magSHIRQ = 0;
lpeters	35:73b3963c6dd3	322	uint8_t btnHFire = 0;
lpeters	33:e47306c32791	323
lpeters	35:73b3963c6dd3	324	char *res;
lpeters	35:73b3963c6dd3	325	char sPass[26] = "[\u001b[32mPASS\u001b[0m]";
lpeters	35:73b3963c6dd3	326	char sFail[26] = "[\u001b[31mFAIL\u001b[0m]";
lpeters	33:e47306c32791	327	char cmdSendLoop[9] = "SendLoop";
lpeters	37:df69df1bcb1a	328	//char cmdStopGNSS[14] = {0xB5, 0x62, 0x06, 0x57, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x53, 0x54, 0x4F, 0x50};
lpeters	37:df69df1bcb1a	329
lpeters	37:df69df1bcb1a	330	//#define CMDSTOPGNSS {0xFF, 0xB5, 0x62, 0x06, 0x57, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x53, 0x54, 0x4F, 0x50}
lpeters	37:df69df1bcb1a	331	//char cmdStopGNSS[16] {0xB5, 0x62, 0x06, 0x57, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}; // Leave 2 bytes for CRC.
lpeters	37:df69df1bcb1a	332	//char cmdStopGNSS[16] {0xB5, 0x62, 0x06, 0x57, 0x08, 0x00, 0x01, 0x00, 0x00, 0x00, 0x53, 0x54, 0x4F, 0x50}; // Leave 2 bytes for CRC.
Huot87	38:fd7a407bfe3e	333	char cmdStopGNSS[16] {0xB5, 0x62, 0x06, 0x57, 0x08, 0x00, 0x01, 0x00, 0x00, 0x00, 0x50, 0x4F, 0x54, 0x53}; // Leave 2 bytes for CRC. // Note Byte character is Little Endian from what doc says
lpeters	37:df69df1bcb1a	334	char cmdReadGNSS[8] {0xB5, 0x62, 0x06, 0x57, 0x00, 0x00};
lpeters	37:df69df1bcb1a	335	char cmdReadCfgU[8] {0xB5, 0x62, 0x06, 0x1B, 0x00, 0x00}; // Leave 2 bytes for CRC.
lpeters	37:df69df1bcb1a	336	char cmdPollPort[9] {0xB5, 0x62, 0x06, 0x00, 0x01, 0x00, 0x00};
lpeters	33:e47306c32791	337
Huot87	39:6da6cb44f22e	338	// HUOT ADDITIONS - 08/29/18 -- ADDED UBX-CFG CHAR BUFFERS -- BOTTOM TWO WORK!
Huot87	38:fd7a407bfe3e	339	// UBX-CFG-GNSS -- Disable Glonass (also leave 2 bytes)
Huot87	38:fd7a407bfe3e	340	char cmdDisableGLONASS[68] {0xB5, 0x62, 0x06, 0x3E, 0x3C, 0x00, 0x00, 0x20, 0x20, 0x07, 0x00, 0x08, 0x10, 0x00, 0x01, 0x00, 0x01, 0x01, 0x01, 0x01, 0x03, 0x00, 0x01, 0x00, 0x01, 0x01, 0x02, 0x04, 0x08, 0x00, 0x00, 0x00, 0x01, 0x01, 0x03, 0x08, 0x10, 0x00, 0x00, 0x00, 0x01, 0x01, 0x04, 0x00, 0x08, 0x00, 0x00, 0x00, 0x01, 0x03, 0x05, 0x00, 0x03, 0x00, 0x01, 0x00, 0x01, 0x05, 0x06, 0x08, 0x0E, 0x00, 0x01, 0x00, 0x01, 0x01};
Huot87	38:fd7a407bfe3e	341	// UBX-CFG-TP5 -- Disable Timepulse (also leave 2 bytes)
Huot87	38:fd7a407bfe3e	342	char cmdDisableTimePulse[40] {0xB5, 0x62, 0x06, 0x31, 0x20, 0x00, 0x00, 0x01, 0x00, 0x00, 0x32, 0x00, 0x00, 0x00, 0x40, 0x42, 0x0F, 0x00, 0x40, 0x42, 0x0F, 0x00, 0x00, 0x00, 0x00, 0x00, 0xA0, 0x86, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x76, 0x00, 0x00, 0x00};
Huot87	38:fd7a407bfe3e	343	// UBX-CFG-PM2 -- Configure Power Management Setup (also leave 2 bytes)
Huot87	38:fd7a407bfe3e	344	char cmdConfigPMS[52] {0xB5, 0x62, 0x06, 0x3B, 0x2C, 0x00, 0x01, 0x06, 0x00, 0x00, 0x2E, 0x08, 0x40, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x2C, 0x01, 0x00, 0x00, 0x4F, 0xC1, 0x03, 0x00, 0x86, 0x02, 0x00, 0x00, 0xFE, 0x00, 0x00, 0x00, 0x64, 0x40, 0x01, 0x00, 0x56, 0xA4};
Huot87	38:fd7a407bfe3e	345	char cmdSaveConfig[21] {0xB5, 0x62, 0x06, 0x09, 0x0D, 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03}; // UBX-CFG-CFG -- Save Configuration (also leave 2 bytes)
Huot87	38:fd7a407bfe3e	346	char cmdResetDefaults[21] {0xB5, 0x62, 0x06, 0x09, 0x0D, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0x03}; // UBX-CFG-CFG -- Reset to Defaults (also leave 2 bytes)
Huot87	38:fd7a407bfe3e	347
Huot87	38:fd7a407bfe3e	348	// THIS WORKS
Huot87	40:eaf476b94684	349	char lowPowerMode[10] {0xB5, 0x62, 0x06, 0x11, 0x02, 0x00, 0x48, 0x01};
Huot87	38:fd7a407bfe3e	350	char secondTimeSleep[12] {0xB5, 0x62, 0x06, 0x04, 0x04, 0x00, 0x00, 0x00,0x08, 0x00};
Huot87	38:fd7a407bfe3e	351	char secondTimeAwake[12] {0xB5, 0x62, 0x06, 0x04, 0x04, 0x00, 0x00, 0x00,0x09, 0x00};
Huot87	38:fd7a407bfe3e	352
Huot87	40:eaf476b94684	353
Huot87	40:eaf476b94684	354	// HUOT ADDITIONS -- 08/31/2018 -- EEPROM Variables
Huot87	40:eaf476b94684	355	bool wasEEPROM = false;
Huot87	40:eaf476b94684	356	bool continueSending = true;
Huot87	40:eaf476b94684	357	int eepromCounter = 0;
Huot87	40:eaf476b94684	358	int registerLocation = 0;
Huot87	40:eaf476b94684	359
Huot87	40:eaf476b94684	360
Huot87	40:eaf476b94684	361
Huot87	40:eaf476b94684	362
lpeters	35:73b3963c6dd3	363	time_t tInit = 0;
lpeters	35:73b3963c6dd3	364	time_t tBump = 0;
lpeters	35:73b3963c6dd3	365	time_t tLast = 0;
lpeters	35:73b3963c6dd3	366	time_t tNext = 0;
lpeters	36:dcc6f89fa39a	367	time_t tSend = 0;
lpeters	37:df69df1bcb1a	368	time_t tCalm = 0;
lpeters	35:73b3963c6dd3	369
lpeters	34:341fb423e74b	370	DigitalOut myLedR(LEDR);
lpeters	34:341fb423e74b	371	DigitalOut myLedG(LEDG);
lpeters	34:341fb423e74b	372	DigitalOut myLedB(LEDB);
lpeters	34:341fb423e74b	373	DigitalOut myLedW(LEDW);
lpeters	34:341fb423e74b	374
lpeters	34:341fb423e74b	375	void magInitSequence();
lpeters	34:341fb423e74b	376	void accInitSequence();
lpeters	34:341fb423e74b	377	void gpsInitSequence();
Huot87	40:eaf476b94684	378	// HUOT ADDITION -- 08/30/2018
Huot87	38:fd7a407bfe3e	379	void gpsExecuteCommand(char *command, int length);
lpeters	34:341fb423e74b	380	void tmpRead();
lpeters	34:341fb423e74b	381	void magRead();
lpeters	34:341fb423e74b	382	void accRead();
Huot87	38:fd7a407bfe3e	383	int gpsRead();
lpeters	37:df69df1bcb1a	384	void ubxRead();
lpeters	36:dcc6f89fa39a	385	void send_message();
Huot87	40:eaf476b94684	386	// HUOT ADDITION -- 08/31/2018
Huot87	40:eaf476b94684	387	void backupPacket();
Huot87	40:eaf476b94684	388	void prepBacklogSend();
lpeters	34:341fb423e74b	389
lpeters	35:73b3963c6dd3	390	void onBtnIrq()
lpeters	35:73b3963c6dd3	391	{
lpeters	35:73b3963c6dd3	392	btnHFire++;
lpeters	36:dcc6f89fa39a	393	tSend = 0;
lpeters	35:73b3963c6dd3	394	}
lpeters	35:73b3963c6dd3	395
lpeters	33:e47306c32791	396	void onAccIrq()
lpeters	33:e47306c32791	397	{
lpeters	33:e47306c32791	398	accHFire++;
lpeters	36:dcc6f89fa39a	399	tSend = 0;
lpeters	33:e47306c32791	400	}
lpeters	33:e47306c32791	401
lpeters	33:e47306c32791	402	void onMagIrq()
lpeters	33:e47306c32791	403	{
lpeters	33:e47306c32791	404	magHFire++;
lpeters	36:dcc6f89fa39a	405	tSend = 0;
lpeters	33:e47306c32791	406	}
lpeters	33:e47306c32791	407
lpeters	33:e47306c32791	408	void accDumpCfg()
lpeters	33:e47306c32791	409	{
lpeters	34:341fb423e74b	410	char start = CFG_ACC_ADR;
lpeters	34:341fb423e74b	411	for (int i = 0; i < CFG_ACC_LEN; i++)
lpeters	33:e47306c32791	412	{
lpeters	33:e47306c32791	413	cmd[0] = start + i;
lpeters	33:e47306c32791	414	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	33:e47306c32791	415	i2c.read(LSM303_ADR_ACC, &buf[i], 1);
lpeters	33:e47306c32791	416	}
lpeters	34:341fb423e74b	417	printf("CFGACC: \| ");
lpeters	34:341fb423e74b	418	for (int i = 0; i < CFG_ACC_LEN; i++)
lpeters	34:341fb423e74b	419	{
lpeters	34:341fb423e74b	420	printf("%02X ", buf[i]);
lpeters	34:341fb423e74b	421	}
lpeters	34:341fb423e74b	422	printf("\|\r\n");
lpeters	33:e47306c32791	423	}
lpeters	33:e47306c32791	424
lpeters	33:e47306c32791	425	void magDumpCfg()
lpeters	33:e47306c32791	426	{
lpeters	34:341fb423e74b	427	char start = CFG_MAG_ADR;
lpeters	34:341fb423e74b	428	for (int i = 0; i < CFG_MAG_LEN; i++)
lpeters	33:e47306c32791	429	{
lpeters	33:e47306c32791	430	cmd[0] = start + i;
lpeters	33:e47306c32791	431	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	33:e47306c32791	432	i2c.read(LSM303_ADR_MAG, &buf[i], 1);
lpeters	33:e47306c32791	433	}
lpeters	34:341fb423e74b	434	printf("CFGMAG: \| ");
lpeters	34:341fb423e74b	435	for (int i = 0; i < CFG_MAG_LEN; i++)
lpeters	34:341fb423e74b	436	{
lpeters	34:341fb423e74b	437	printf("%02X ", buf[i]);
lpeters	34:341fb423e74b	438	}
lpeters	34:341fb423e74b	439	printf("\|\r\n");
lpeters	33:e47306c32791	440	}
lpeters	33:e47306c32791	441
lpeters	37:df69df1bcb1a	442	// Clear any pending MAG IRQs
lpeters	37:df69df1bcb1a	443	inline void magWipeIrq() {
lpeters	37:df69df1bcb1a	444	cmd[0] = LSM303_REG_MAG_INT_SOURCE_REG_M;
lpeters	37:df69df1bcb1a	445	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	37:df69df1bcb1a	446	i2c.read(LSM303_ADR_MAG, &ret, 1);
lpeters	37:df69df1bcb1a	447	}
lpeters	37:df69df1bcb1a	448
mbed_official	0:7037ed05f54f	449	/**
mbed_official	0:7037ed05f54f	450	* Entry point for application
mbed_official	0:7037ed05f54f	451	*/
mbed_official	0:7037ed05f54f	452	int main (void)
mbed_official	0:7037ed05f54f	453	{
lpeters	35:73b3963c6dd3	454	//i2c.frequency(400000);
lpeters	33:e47306c32791	455	wait(4);
lpeters	33:e47306c32791	456	printf("\r\n-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-\r\n");
lpeters	34:341fb423e74b	457
lpeters	34:341fb423e74b	458	// Boot Flash
lpeters	34:341fb423e74b	459	for (int i = 0; i <= 64; i++)
lpeters	33:e47306c32791	460	{
lpeters	34:341fb423e74b	461	myLedR = i & 0x01;
lpeters	34:341fb423e74b	462	myLedG = i & 0x02;
lpeters	34:341fb423e74b	463	myLedB = i & 0x04;
lpeters	34:341fb423e74b	464	myLedW = i & 0x08;
lpeters	34:341fb423e74b	465	wait(0.01);
lpeters	33:e47306c32791	466	}
lpeters	34:341fb423e74b	467	wait(4);
lpeters	35:73b3963c6dd3	468	// btnPin.rise(&onBtnIrq);
lpeters	37:df69df1bcb1a	469	printf("Boot flash complete.\r\n");
mbed_official	0:7037ed05f54f	470	// setup tracing
mbed_official	0:7037ed05f54f	471	setup_trace();
mbed_official	0:7037ed05f54f	472
lpeters	37:df69df1bcb1a	473	printf("Trace setup complete.\r\n");
lpeters	37:df69df1bcb1a	474
mbed_official	0:7037ed05f54f	475	// stores the status of a call to LoRaWAN protocol
mbed_official	0:7037ed05f54f	476	lorawan_status_t retcode;
lpeters	33:e47306c32791	477
lpeters	37:df69df1bcb1a	478	printf("Pre-sensor init.\r\n");
lpeters	37:df69df1bcb1a	479
lpeters	34:341fb423e74b	480	/* I2C init */
lpeters	34:341fb423e74b	481	ret = 0x00;
lpeters	34:341fb423e74b	482	magDumpCfg();
lpeters	34:341fb423e74b	483	accDumpCfg();
lpeters	34:341fb423e74b	484	magInitSequence();
lpeters	34:341fb423e74b	485	accInitSequence();
Huot87	38:fd7a407bfe3e	486
Huot87	39:6da6cb44f22e	487	// HUOT ADDITION -- 08/30/2018 -- RESET GPS TO DEFAULT BEFORE MOVING FORWARD
Huot87	38:fd7a407bfe3e	488	gpsExecuteCommand(cmdResetDefaults, sizeof(cmdResetDefaults));
Huot87	38:fd7a407bfe3e	489
lpeters	34:341fb423e74b	490	gpsInitSequence();
lpeters	33:e47306c32791	491	magDumpCfg();
lpeters	33:e47306c32791	492	accDumpCfg();
lpeters	37:df69df1bcb1a	493	printf("Post-sensor init.\r\n");
lpeters	33:e47306c32791	494
lpeters	34:341fb423e74b	495	cfg = 0x00;
lpeters	34:341fb423e74b	496	#if defined(TARGET_LRAT)
lpeters	33:e47306c32791	497	cmd[0] = LSM303_REG_ACC_CTRL_REG1_A;
lpeters	33:e47306c32791	498	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	33:e47306c32791	499	i2c.read(LSM303_ADR_ACC, &ret, 1);
lpeters	34:341fb423e74b	500	cfg \|= (ret & 0x80) >> 7;
lpeters	33:e47306c32791	501	cmd[0] = LSM303_REG_ACC_CTRL_REG4_A;
lpeters	33:e47306c32791	502	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	33:e47306c32791	503	i2c.read(LSM303_ADR_ACC, &ret, 1);
lpeters	34:341fb423e74b	504	accScale = 1 << (!(ret & 0x30) ? 0 : ((ret & 0x30) >> 4) - 1);
lpeters	34:341fb423e74b	505	cmd[0] = LSM303_REG_MAG_CTRL_REG2_M;
lpeters	34:341fb423e74b	506	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	507	i2c.read(LSM303_ADR_MAG, &ret, 1);
lpeters	34:341fb423e74b	508	cfg \|= (ret & 0x60) >> 1;
lpeters	34:341fb423e74b	509	//accShift = 0; // Full 16-bit resolution
lpeters	34:341fb423e74b	510	accShift = 4;
lpeters	34:341fb423e74b	511	#else
lpeters	33:e47306c32791	512	cmd[0] = LSM303_REG_ACC_CTRL_REG1_A;
lpeters	33:e47306c32791	513	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	33:e47306c32791	514	i2c.read(LSM303_ADR_ACC, &ret, 1);
lpeters	33:e47306c32791	515	cfg \|= (ret & 0x08) >> 3;
lpeters	33:e47306c32791	516	cmd[0] = LSM303_REG_ACC_CTRL_REG4_A;
lpeters	33:e47306c32791	517	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	33:e47306c32791	518	i2c.read(LSM303_ADR_ACC, &ret, 1);
lpeters	33:e47306c32791	519	cfg \|= (ret & 0x08) >> 2;
lpeters	33:e47306c32791	520	accScale = 1 << ((ret & 0x30) >> 4);
lpeters	33:e47306c32791	521	cmd[0] = LSM303_REG_MAG_CFG_REG_A_M;
lpeters	33:e47306c32791	522	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	33:e47306c32791	523	i2c.read(LSM303_ADR_MAG, &ret, 1);
lpeters	33:e47306c32791	524	cfg \|= (ret & 0x10);
lpeters	33:e47306c32791	525	if (cfg & 0x01)
lpeters	33:e47306c32791	526	accShift = 8;
lpeters	33:e47306c32791	527	else if (cfg & 0x02)
lpeters	33:e47306c32791	528	accShift = 4;
lpeters	33:e47306c32791	529	else
lpeters	33:e47306c32791	530	accShift = 6;
lpeters	34:341fb423e74b	531	#endif
lpeters	33:e47306c32791	532	printf("Quality: %02x AccShift: %d AccScale: %d\r\n", cfg, accShift, accScale);
lpeters	33:e47306c32791	533
lpeters	35:73b3963c6dd3	534	time_t tNow;
lpeters	35:73b3963c6dd3	535	/*
lpeters	35:73b3963c6dd3	536	// while(1)
lpeters	35:73b3963c6dd3	537	// {
lpeters	35:73b3963c6dd3	538	tNow = time(NULL);
lpeters	35:73b3963c6dd3	539	printf("RTC: %08X\r\n", tNow);
lpeters	34:341fb423e74b	540	#if defined(SENSOR_TEMP)
lpeters	34:341fb423e74b	541	tmpRead();
lpeters	34:341fb423e74b	542	#endif
lpeters	34:341fb423e74b	543	magRead();
lpeters	34:341fb423e74b	544	accRead();
lpeters	34:341fb423e74b	545	gpsRead();
lpeters	35:73b3963c6dd3	546	printf("TIM: %d, SAT: %d, LAT: %f, LON: %f\r\n", mytime, mybatt, mylat, mylon);
lpeters	35:73b3963c6dd3	547	printf("IRQ: A=%02X M=%02X B=%02X\r\n", accHFire, magHFire, btnHFire);
lpeters	35:73b3963c6dd3	548	wait(1);
lpeters	35:73b3963c6dd3	549	// }
lpeters	35:73b3963c6dd3	550	*/
lpeters	35:73b3963c6dd3	551
lpeters	35:73b3963c6dd3	552	for (int i = 0; i <= 64; i++)
lpeters	35:73b3963c6dd3	553	{
lpeters	35:73b3963c6dd3	554	myLedR = i & 0x01;
lpeters	35:73b3963c6dd3	555	myLedG = i & 0x02;
lpeters	35:73b3963c6dd3	556	myLedB = i & 0x04;
lpeters	35:73b3963c6dd3	557	myLedW = i & 0x08;
lpeters	35:73b3963c6dd3	558	wait(0.01);
lpeters	33:e47306c32791	559	}
lpeters	33:e47306c32791	560
Huot87	38:fd7a407bfe3e	561	// uint8_t crcA = 0;
Huot87	38:fd7a407bfe3e	562	// uint8_t crcB = 0;
Huot87	38:fd7a407bfe3e	563	// for(int i = 2; i <= 13; i++)
Huot87	38:fd7a407bfe3e	564	// {
Huot87	38:fd7a407bfe3e	565	// crcA = crcA + cmdStopGNSS[i];
Huot87	38:fd7a407bfe3e	566	// crcB = crcB + crcA;
Huot87	38:fd7a407bfe3e	567	// }
Huot87	38:fd7a407bfe3e	568	// cmdStopGNSS[14] = crcA;
Huot87	38:fd7a407bfe3e	569	// cmdStopGNSS[15] = crcB;
Huot87	38:fd7a407bfe3e	570	// printf("UBX CRC: %02X %02X\r\n", crcA, crcB);
Huot87	38:fd7a407bfe3e	571	// i2c.write(NEOM8M_ADR_GPS, cmdStopGNSS, 16);
Huot87	38:fd7a407bfe3e	572	// ubxRead();
Huot87	38:fd7a407bfe3e	573	// ubxRead();
Huot87	38:fd7a407bfe3e	574	// ubxRead();
Huot87	38:fd7a407bfe3e	575	// wait(1);
Huot87	38:fd7a407bfe3e	576	// ubxRead();
Huot87	38:fd7a407bfe3e	577	// return 0;
Huot87	38:fd7a407bfe3e	578
Huot87	39:6da6cb44f22e	579	// HUOT ADDITION -- 08/30/2018 -- MAIN LOOP TO TEST GPS SLEEP/WAKE FUNCTIONALITY -- GOT IT WORKING
Huot87	39:6da6cb44f22e	580	int x = 0;
Huot87	40:eaf476b94684	581
Huot87	40:eaf476b94684	582	// printf("LPM INIT \r\n");
Huot87	40:eaf476b94684	583	// gpsExecuteCommand(lowPowerMode, sizeof(lowPowerMode));
Huot87	40:eaf476b94684	584	//
Huot87	38:fd7a407bfe3e	585	printf("Putting to sleep... Good Luck ================ \r\n");
Huot87	38:fd7a407bfe3e	586	gpsExecuteCommand(secondTimeSleep, sizeof(secondTimeSleep));
Huot87	38:fd7a407bfe3e	587
Huot87	40:eaf476b94684	588	// while(1)
Huot87	40:eaf476b94684	589	// {
Huot87	40:eaf476b94684	590	// if ((x != 0) && (x % 10 == 0))
Huot87	40:eaf476b94684	591	// {
Huot87	40:eaf476b94684	592	// printf("Waking up GPS... Good luck, Huot \r\n");
Huot87	40:eaf476b94684	593	// gpsExecuteCommand(secondTimeAwake, sizeof(secondTimeAwake));
Huot87	40:eaf476b94684	594	//
Huot87	40:eaf476b94684	595	// while (gpsRead() == 1);
Huot87	40:eaf476b94684	596	//
Huot87	40:eaf476b94684	597	// printf("GPS Fix is good! Going to sleep... \r\n");
Huot87	40:eaf476b94684	598	// gpsExecuteCommand(secondTimeSleep, sizeof(secondTimeSleep));
Huot87	40:eaf476b94684	599	// }
Huot87	40:eaf476b94684	600	// printf("Waiting 5 seconds... \r\n");
Huot87	40:eaf476b94684	601	// wait(5);
Huot87	40:eaf476b94684	602	// x++;
Huot87	40:eaf476b94684	603	// printf("=== New loop incoming === \r\n");
Huot87	40:eaf476b94684	604	// }
Huot87	38:fd7a407bfe3e	605
lpeters	37:df69df1bcb1a	606
mbed_official	0:7037ed05f54f	607	// Initialize LoRaWAN stack
mbed_official	2:dc95ac6d6d4e	608	if (lorawan.initialize(&ev_queue) != LORAWAN_STATUS_OK) {
mbed_official	0:7037ed05f54f	609	printf("\r\n LoRa initialization failed! \r\n");
mbed_official	0:7037ed05f54f	610	return -1;
mbed_official	0:7037ed05f54f	611	}
mbed_official	0:7037ed05f54f	612
mbed_official	0:7037ed05f54f	613	printf("\r\n Mbed LoRaWANStack initialized \r\n");
lpeters	36:dcc6f89fa39a	614	printf("MBED_CONF_LORA_APP_PORT: %d\r\n", MBED_CONF_LORA_APP_PORT);
lpeters	36:dcc6f89fa39a	615	printf("MBED_CONF_LORA_DUTY_CYCLE_ON: %d\r\n", MBED_CONF_LORA_DUTY_CYCLE_ON);
mbed_official	0:7037ed05f54f	616
mbed_official	0:7037ed05f54f	617	// prepare application callbacks
mbed_official	0:7037ed05f54f	618	callbacks.events = mbed::callback(lora_event_handler);
mbed_official	2:dc95ac6d6d4e	619	lorawan.add_app_callbacks(&callbacks);
mbed_official	0:7037ed05f54f	620
mbed_official	0:7037ed05f54f	621	// Set number of retries in case of CONFIRMED messages
mbed_official	2:dc95ac6d6d4e	622	if (lorawan.set_confirmed_msg_retries(CONFIRMED_MSG_RETRY_COUNTER)
mbed_official	0:7037ed05f54f	623	!= LORAWAN_STATUS_OK) {
mbed_official	0:7037ed05f54f	624	printf("\r\n set_confirmed_msg_retries failed! \r\n\r\n");
mbed_official	0:7037ed05f54f	625	return -1;
mbed_official	0:7037ed05f54f	626	}
mbed_official	0:7037ed05f54f	627
mbed_official	0:7037ed05f54f	628	printf("\r\n CONFIRMED message retries : %d \r\n",
mbed_official	0:7037ed05f54f	629	CONFIRMED_MSG_RETRY_COUNTER);
mbed_official	0:7037ed05f54f	630
mbed_official	0:7037ed05f54f	631	// Enable adaptive data rate
mbed_official	2:dc95ac6d6d4e	632	if (lorawan.enable_adaptive_datarate() != LORAWAN_STATUS_OK) {
mbed_official	0:7037ed05f54f	633	printf("\r\n enable_adaptive_datarate failed! \r\n");
mbed_official	0:7037ed05f54f	634	return -1;
mbed_official	0:7037ed05f54f	635	}
mbed_official	0:7037ed05f54f	636
mbed_official	0:7037ed05f54f	637	printf("\r\n Adaptive data rate (ADR) - Enabled \r\n");
mbed_official	0:7037ed05f54f	638
mbed_official	2:dc95ac6d6d4e	639	retcode = lorawan.connect();
lpeters	33:e47306c32791	640
mbed_official	0:7037ed05f54f	641	if (retcode == LORAWAN_STATUS_OK \|\|
mbed_official	0:7037ed05f54f	642	retcode == LORAWAN_STATUS_CONNECT_IN_PROGRESS) {
mbed_official	0:7037ed05f54f	643	} else {
mbed_official	0:7037ed05f54f	644	printf("\r\n Connection error, code = %d \r\n", retcode);
mbed_official	0:7037ed05f54f	645	return -1;
mbed_official	0:7037ed05f54f	646	}
mbed_official	0:7037ed05f54f	647
mbed_official	0:7037ed05f54f	648	printf("\r\n Connection - In Progress ...\r\n");
mbed_official	0:7037ed05f54f	649
mbed_official	0:7037ed05f54f	650	// make your event queue dispatching events forever
lpeters	36:dcc6f89fa39a	651	//ev_queue.dispatch_forever();
lpeters	36:dcc6f89fa39a	652	ev_queue.dispatch();
lpeters	36:dcc6f89fa39a	653	printf("\r\n- = - = - = - = - = - DISPATCH 1 COMPLETE - = - = - = - = - = -\r\n");
lpeters	36:dcc6f89fa39a	654	/*
lpeters	36:dcc6f89fa39a	655	printf("CONTROL LOOP GOES HERE!\r\n");
lpeters	36:dcc6f89fa39a	656	#if defined(TARGET_LRAT)
lpeters	36:dcc6f89fa39a	657	#else
lpeters	36:dcc6f89fa39a	658	for (int i = 0; i < 6; i++)
lpeters	36:dcc6f89fa39a	659	{
lpeters	36:dcc6f89fa39a	660	tNow = time(NULL);
lpeters	36:dcc6f89fa39a	661	printf("RTC: %08X\r\n", tNow);
lpeters	36:dcc6f89fa39a	662	tNext = tNow + 10;
lpeters	36:dcc6f89fa39a	663	printf("NXT: %08X\r\n", tNext);
lpeters	36:dcc6f89fa39a	664	// Clear any pending IRQs
lpeters	36:dcc6f89fa39a	665	cmd[0] = LSM303_REG_MAG_INT_SOURCE_REG_M;
lpeters	36:dcc6f89fa39a	666	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	36:dcc6f89fa39a	667	i2c.read(LSM303_ADR_MAG, &ret, 1);
lpeters	36:dcc6f89fa39a	668	while (time(NULL) < tNext)
lpeters	36:dcc6f89fa39a	669	{
lpeters	36:dcc6f89fa39a	670	wait(1);
lpeters	36:dcc6f89fa39a	671	}
lpeters	36:dcc6f89fa39a	672	printf("Timer #%d complete.\r\n", i);
lpeters	36:dcc6f89fa39a	673	}
lpeters	36:dcc6f89fa39a	674	#endif
lpeters	36:dcc6f89fa39a	675	*/
lpeters	36:dcc6f89fa39a	676	tSend = time(NULL) + 1;
lpeters	36:dcc6f89fa39a	677	while (1) {
lpeters	36:dcc6f89fa39a	678	while (time(NULL) < tSend)
lpeters	36:dcc6f89fa39a	679	wait(0.1);
lpeters	37:df69df1bcb1a	680	if (tSend == 0)
lpeters	37:df69df1bcb1a	681	tCalm = time(NULL) + (DPANIC * NPANIC);
lpeters	37:df69df1bcb1a	682	tSend = time(NULL) + (time(NULL) < tCalm ? DPANIC : DCHILL);
lpeters	37:df69df1bcb1a	683	magWipeIrq();
lpeters	36:dcc6f89fa39a	684	printf("IT'S PACKET TIME!\r\n");
lpeters	36:dcc6f89fa39a	685	ev_queue.call(send_message);
lpeters	36:dcc6f89fa39a	686	ev_queue.dispatch();
lpeters	36:dcc6f89fa39a	687	printf("\r\n- = - = - = - = - = - DISPATCH 2 COMPLETE - = - = - = - = - = -\r\n");
lpeters	37:df69df1bcb1a	688	//tSend = time(NULL) + 300;
lpeters	37:df69df1bcb1a	689	//tSend = time(NULL) + (time(NULL) < tCalm ? DPANIC : DCHILL);
lpeters	36:dcc6f89fa39a	690	// Clear any pending IRQs
lpeters	37:df69df1bcb1a	691	// cmd[0] = LSM303_REG_MAG_INT_SOURCE_REG_M;
lpeters	37:df69df1bcb1a	692	// i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	37:df69df1bcb1a	693	// i2c.read(LSM303_ADR_MAG, &ret, 1);
lpeters	36:dcc6f89fa39a	694	}
mbed_official	3:8c7198d1a2a1	695
mbed_official	3:8c7198d1a2a1	696	return 0;
mbed_official	0:7037ed05f54f	697	}
mbed_official	0:7037ed05f54f	698
mbed_official	0:7037ed05f54f	699	/**
mbed_official	0:7037ed05f54f	700	* Sends a message to the Network Server
mbed_official	0:7037ed05f54f	701	*/
mbed_official	0:7037ed05f54f	702	static void send_message()
mbed_official	0:7037ed05f54f	703	{
lpeters	36:dcc6f89fa39a	704	printf("In send_message()...\r\n");
mbed_official	0:7037ed05f54f	705	int16_t retcode;
mbed_official	0:7037ed05f54f	706
Huot87	40:eaf476b94684	707	// HUOT NOTE -- 08/31/2018 -- Think this and all references to the "Dummy Sensor" can be removed at this point
Huot87	40:eaf476b94684	708	//
Huot87	40:eaf476b94684	709	// float sensor_value;
Huot87	40:eaf476b94684	710	// if (ds1820.begin()) {
Huot87	40:eaf476b94684	711	// ds1820.startConversion();
Huot87	40:eaf476b94684	712	// sensor_value = ds1820.read();
Huot87	40:eaf476b94684	713	// printf("\r\n Dummy Sensor Value = %3.1f \r\n", sensor_value);
Huot87	40:eaf476b94684	714	// ds1820.startConversion();
Huot87	40:eaf476b94684	715	// } else {
Huot87	40:eaf476b94684	716	// printf("\r\n No sensor found \r\n");
Huot87	40:eaf476b94684	717	// return;
Huot87	40:eaf476b94684	718	// }
mbed_official	0:7037ed05f54f	719
tchari	30:ff249a9156dc	720	time_t tNow = time(NULL);
tchari	30:ff249a9156dc	721	printf("Clock: %d\r\n", tNow);
lpeters	34:341fb423e74b	722
Huot87	40:eaf476b94684	723	// HUOT ADDITION -- 08/31/2018 -- Implementation of the packet
Huot87	40:eaf476b94684	724	if (eepromCounter != 0)
Huot87	40:eaf476b94684	725	{
Huot87	40:eaf476b94684	726	for (int i = 0; i < eepromCounter; i++)
Huot87	40:eaf476b94684	727	{
Huot87	40:eaf476b94684	728	wasEEPROM = true;
Huot87	40:eaf476b94684	729	prepBacklogSend();
Huot87	40:eaf476b94684	730	retcode = lorawan.send(MBED_CONF_LORA_APP_PORT, tx_buffer, PACKET_LEN,
Huot87	40:eaf476b94684	731	MSG_CONFIRMED_FLAG);
Huot87	40:eaf476b94684	732
Huot87	40:eaf476b94684	733	printf("\r\n EEPROM Backlog Sent out!");
Huot87	40:eaf476b94684	734	printf("\r\n %d bytes scheduled for transmission \r\n", retcode);
Huot87	40:eaf476b94684	735	memset(tx_buffer, 0, sizeof(tx_buffer));
Huot87	40:eaf476b94684	736	}
Huot87	40:eaf476b94684	737	}
lpeters	34:341fb423e74b	738
Huot87	40:eaf476b94684	739	if (eepromCounter == 0 && continueSending)
Huot87	40:eaf476b94684	740	{
Huot87	40:eaf476b94684	741	#if defined(SENSOR_TEMP)
Huot87	40:eaf476b94684	742	tmpRead();
Huot87	40:eaf476b94684	743	#endif
Huot87	40:eaf476b94684	744	magRead();
Huot87	40:eaf476b94684	745	accRead();
Huot87	40:eaf476b94684	746
Huot87	40:eaf476b94684	747	// HUOT ALTERATION -- 08/31/2018 -- Implement GPS Read Loop into Send Message
Huot87	40:eaf476b94684	748	// TODO - Implement 3 try counter (or something similar)
Huot87	40:eaf476b94684	749	printf("Waking up GPS... Good luck, Huot \r\n");
Huot87	40:eaf476b94684	750	gpsExecuteCommand(secondTimeAwake, sizeof(secondTimeAwake));
Huot87	40:eaf476b94684	751
Huot87	40:eaf476b94684	752	while (gpsRead() == 1);
Huot87	40:eaf476b94684	753
Huot87	40:eaf476b94684	754	printf("GPS Fix is good! Going to sleep... \r\n");
Huot87	40:eaf476b94684	755	gpsExecuteCommand(secondTimeSleep, sizeof(secondTimeSleep));
Huot87	40:eaf476b94684	756	printf("~~~~~~~~~~~~~ Constructing Packet ~~~~~~~~~~~~~\r\n");
Huot87	40:eaf476b94684	757
Huot87	40:eaf476b94684	758	int ilat = (int)(mylat * 100000);
Huot87	40:eaf476b94684	759	int ilon = (int)(mylon * 100000);
Huot87	40:eaf476b94684	760	printf("TIM: %d, SAT: %d, LAT: %d, LON: %d\r\n", mytime, mybatt, ilat, ilon);
Huot87	40:eaf476b94684	761	// packet_len = 11;
Huot87	40:eaf476b94684	762	tx_buffer[0] = (mytime >> 24) & 0xFF;
Huot87	40:eaf476b94684	763	tx_buffer[1] = (mytime >> 16) & 0xFF;
Huot87	40:eaf476b94684	764	tx_buffer[2] = (mytime >> 8) & 0xFF;
Huot87	40:eaf476b94684	765	tx_buffer[3] = (mytime >> 0) & 0xFF;
Huot87	40:eaf476b94684	766	tx_buffer[4] = ((mybatt << 4) & 0xF0) \| ((ilat >> 22) & 0x0F);
Huot87	40:eaf476b94684	767	tx_buffer[5] = (ilat >> 14) & 0xFF;
Huot87	40:eaf476b94684	768	tx_buffer[6] = (ilat >> 6) & 0xFF;
Huot87	40:eaf476b94684	769	tx_buffer[7] = ((ilat << 2) & 0xFC) \| ((ilon >> 24) & 0x03);
Huot87	40:eaf476b94684	770	tx_buffer[8] = (ilon >> 16) & 0xFF;
Huot87	40:eaf476b94684	771	tx_buffer[9] = (ilon >> 8) & 0xFF;
Huot87	40:eaf476b94684	772	tx_buffer[10] = (ilon >> 0) & 0xFF;
Huot87	40:eaf476b94684	773	printf("\r\nBUF: \|");
Huot87	40:eaf476b94684	774	for (int i = 0; i < PACKET_LEN; i++) { printf("%02X", tx_buffer[i]); }
Huot87	40:eaf476b94684	775	printf("\|\r\n");
Huot87	40:eaf476b94684	776	retcode = lorawan.send(MBED_CONF_LORA_APP_PORT, tx_buffer, PACKET_LEN,
Huot87	40:eaf476b94684	777	MSG_CONFIRMED_FLAG);
Huot87	40:eaf476b94684	778
Huot87	40:eaf476b94684	779	if (retcode < 0) {
Huot87	40:eaf476b94684	780	retcode == LORAWAN_STATUS_WOULD_BLOCK ? printf("send - WOULD BLOCK\r\n")
Huot87	40:eaf476b94684	781	: printf("\r\n send() - Error code %d \r\n", retcode);
Huot87	40:eaf476b94684	782
Huot87	40:eaf476b94684	783	if (retcode == LORAWAN_STATUS_WOULD_BLOCK) {
Huot87	40:eaf476b94684	784	//retry in 3 seconds
Huot87	40:eaf476b94684	785	// HUOT NOTE -- WE SHOULD BE CAREFUL ABOUT THIS AS WITH THE EEPROM BACKLOG WE MAY BLOCK OURSELVES AND OVERFLOW THE STACK WITH SUBSEQUENT CALLS
Huot87	40:eaf476b94684	786	if (MBED_CONF_LORA_DUTY_CYCLE_ON) {
Huot87	40:eaf476b94684	787	ev_queue.call_in(3000, send_message);
Huot87	40:eaf476b94684	788	}
lpeters	34:341fb423e74b	789	}
Huot87	40:eaf476b94684	790	return;
lpeters	34:341fb423e74b	791	}
lpeters	34:341fb423e74b	792
Huot87	40:eaf476b94684	793	printf("\r\n %d bytes scheduled for transmission \r\n", retcode);
Huot87	40:eaf476b94684	794	memset(tx_buffer, 0, sizeof(tx_buffer));
Huot87	40:eaf476b94684	795
Huot87	40:eaf476b94684	796	//LED Confirmation Output - MESSAGE SENT
Huot87	40:eaf476b94684	797	for (int i = 0; i < 10; i++) {
Huot87	40:eaf476b94684	798	myLedG = 1;
Huot87	40:eaf476b94684	799	wait(0.1);
Huot87	40:eaf476b94684	800	myLedG = 0;
Huot87	40:eaf476b94684	801	myLedR = 1;
Huot87	40:eaf476b94684	802	wait(0.1);
Huot87	40:eaf476b94684	803	myLedR = 0;
Huot87	40:eaf476b94684	804	myLedB = 1;
Huot87	40:eaf476b94684	805	wait(0.1);
Huot87	40:eaf476b94684	806	myLedB = 0;
Huot87	40:eaf476b94684	807	}
Huot87	40:eaf476b94684	808
lpeters	34:341fb423e74b	809	}
Huot87	40:eaf476b94684	810
Huot87	40:eaf476b94684	811	// ENSURE'S A FULL SEND ATTEMPT ON NEXT DISPATCH RUN THROUGH
Huot87	40:eaf476b94684	812	continueSending = true;
lpeters	34:341fb423e74b	813	}
lpeters	34:341fb423e74b	814
lpeters	34:341fb423e74b	815	/**
lpeters	34:341fb423e74b	816	* Receive a message from the Network Server
lpeters	34:341fb423e74b	817	*/
lpeters	34:341fb423e74b	818	static void receive_message()
lpeters	34:341fb423e74b	819	{
lpeters	36:dcc6f89fa39a	820	printf("In receive_message()...\r\n");
lpeters	34:341fb423e74b	821	int16_t retcode;
lpeters	34:341fb423e74b	822	retcode = lorawan.receive(MBED_CONF_LORA_APP_PORT, rx_buffer,
lpeters	34:341fb423e74b	823	sizeof(rx_buffer),
lpeters	34:341fb423e74b	824	MSG_CONFIRMED_FLAG\|MSG_UNCONFIRMED_FLAG);
lpeters	34:341fb423e74b	825
lpeters	34:341fb423e74b	826	if (retcode < 0) {
lpeters	34:341fb423e74b	827	printf("\r\n receive() - Error code %d \r\n", retcode);
lpeters	34:341fb423e74b	828	return;
lpeters	34:341fb423e74b	829	}
lpeters	34:341fb423e74b	830
lpeters	34:341fb423e74b	831	printf(" Data:");
lpeters	34:341fb423e74b	832
lpeters	34:341fb423e74b	833	for (uint8_t i = 0; i < retcode; i++) {
lpeters	34:341fb423e74b	834	printf("%x", rx_buffer[i]);
lpeters	34:341fb423e74b	835	}
lpeters	34:341fb423e74b	836
lpeters	34:341fb423e74b	837	printf("\r\n Data Length: %d\r\n", retcode);
lpeters	34:341fb423e74b	838
lpeters	34:341fb423e74b	839	/*
lpeters	34:341fb423e74b	840	int startLoop = 0;
lpeters	34:341fb423e74b	841	if (strncmp((char *)rx_buffer, cmdSendLoop, 8) == 0)
lpeters	34:341fb423e74b	842	{
lpeters	34:341fb423e74b	843	printf("SendLoop Command Received!\r\n");
lpeters	34:341fb423e74b	844	startLoop = 1;
lpeters	34:341fb423e74b	845	}
lpeters	34:341fb423e74b	846	*/
lpeters	34:341fb423e74b	847
lpeters	34:341fb423e74b	848	memset(rx_buffer, 0, sizeof(rx_buffer));
lpeters	34:341fb423e74b	849	/*
lpeters	34:341fb423e74b	850	if (startLoop)
lpeters	34:341fb423e74b	851	send_message();
lpeters	34:341fb423e74b	852	*/
lpeters	34:341fb423e74b	853	}
lpeters	34:341fb423e74b	854
lpeters	34:341fb423e74b	855	/**
lpeters	34:341fb423e74b	856	* Event handler
lpeters	34:341fb423e74b	857	*/
lpeters	34:341fb423e74b	858	static void lora_event_handler(lorawan_event_t event)
lpeters	34:341fb423e74b	859	{
lpeters	34:341fb423e74b	860	tr_debug("In lora_event_handler(%d)...", event);
lpeters	34:341fb423e74b	861	switch (event) {
lpeters	34:341fb423e74b	862	case CONNECTED:
lpeters	34:341fb423e74b	863	printf("\r\n Connection - Successful \r\n");
lpeters	36:dcc6f89fa39a	864	ev_queue.break_dispatch();
lpeters	36:dcc6f89fa39a	865	/*
lpeters	34:341fb423e74b	866	if (MBED_CONF_LORA_DUTY_CYCLE_ON) {
lpeters	34:341fb423e74b	867	send_message();
lpeters	34:341fb423e74b	868	} else {
lpeters	34:341fb423e74b	869	ev_queue.call_every(TX_TIMER, send_message);
lpeters	34:341fb423e74b	870	}
lpeters	36:dcc6f89fa39a	871	*/
lpeters	34:341fb423e74b	872	break;
lpeters	34:341fb423e74b	873	case DISCONNECTED:
lpeters	34:341fb423e74b	874	ev_queue.break_dispatch();
lpeters	34:341fb423e74b	875	printf("\r\n Disconnected Successfully \r\n");
lpeters	34:341fb423e74b	876	break;
lpeters	34:341fb423e74b	877	case TX_DONE:
lpeters	34:341fb423e74b	878	printf("\r\n Message Sent to Network Server \r\n");
lpeters	36:dcc6f89fa39a	879	ev_queue.break_dispatch();
lpeters	36:dcc6f89fa39a	880	/*
lpeters	34:341fb423e74b	881	if (MBED_CONF_LORA_DUTY_CYCLE_ON) {
lpeters	34:341fb423e74b	882	send_message();
lpeters	34:341fb423e74b	883	}
lpeters	36:dcc6f89fa39a	884	*/
Huot87	40:eaf476b94684	885
Huot87	40:eaf476b94684	886	if (wasEEPROM)
Huot87	40:eaf476b94684	887	{
Huot87	40:eaf476b94684	888	eepromCounter--;
Huot87	40:eaf476b94684	889	wasEEPROM = false;
Huot87	40:eaf476b94684	890	}
Huot87	40:eaf476b94684	891
lpeters	34:341fb423e74b	892	break;
lpeters	34:341fb423e74b	893	case TX_TIMEOUT:
lpeters	34:341fb423e74b	894	case TX_ERROR:
lpeters	34:341fb423e74b	895	case TX_CRYPTO_ERROR:
lpeters	34:341fb423e74b	896	case TX_SCHEDULING_ERROR:
lpeters	34:341fb423e74b	897	printf("\r\n Transmission Error - EventCode = %d \r\n", event);
Huot87	40:eaf476b94684	898
lpeters	34:341fb423e74b	899	// try again
lpeters	36:dcc6f89fa39a	900	/*
lpeters	34:341fb423e74b	901	if (MBED_CONF_LORA_DUTY_CYCLE_ON) {
lpeters	34:341fb423e74b	902	send_message();
lpeters	34:341fb423e74b	903	}
lpeters	36:dcc6f89fa39a	904	*/
Huot87	40:eaf476b94684	905	printf("====== Writing to EEPROM Backlog ====== \r\n");
Huot87	40:eaf476b94684	906	backupPacket();
Huot87	40:eaf476b94684	907
Huot87	40:eaf476b94684	908	if (wasEEPROM)
Huot87	40:eaf476b94684	909	continueSending = false;
Huot87	40:eaf476b94684	910
lpeters	34:341fb423e74b	911	break;
lpeters	34:341fb423e74b	912	case RX_DONE:
lpeters	34:341fb423e74b	913	printf("\r\n Received message from Network Server \r\n");
lpeters	34:341fb423e74b	914	receive_message();
lpeters	34:341fb423e74b	915	break;
lpeters	34:341fb423e74b	916	case RX_TIMEOUT:
lpeters	34:341fb423e74b	917	case RX_ERROR:
lpeters	34:341fb423e74b	918	printf("\r\n Error in reception - Code = %d \r\n", event);
lpeters	34:341fb423e74b	919	break;
lpeters	34:341fb423e74b	920	case JOIN_FAILURE:
lpeters	34:341fb423e74b	921	printf("\r\n OTAA Failed - Check Keys \r\n");
lpeters	34:341fb423e74b	922	break;
lpeters	34:341fb423e74b	923	case UPLINK_REQUIRED:
lpeters	34:341fb423e74b	924	printf("\r\n Uplink required by NS \r\n");
lpeters	36:dcc6f89fa39a	925	/*
lpeters	34:341fb423e74b	926	if (MBED_CONF_LORA_DUTY_CYCLE_ON) {
lpeters	34:341fb423e74b	927	send_message();
lpeters	34:341fb423e74b	928	}
lpeters	36:dcc6f89fa39a	929	*/
lpeters	34:341fb423e74b	930	break;
lpeters	34:341fb423e74b	931	default:
lpeters	34:341fb423e74b	932	MBED_ASSERT("Unknown Event");
lpeters	34:341fb423e74b	933	}
lpeters	34:341fb423e74b	934	}
lpeters	34:341fb423e74b	935
lpeters	34:341fb423e74b	936	void magInitSequence()
lpeters	34:341fb423e74b	937	{
lpeters	35:73b3963c6dd3	938	printf("In magInitSequence()...\r\n");
lpeters	34:341fb423e74b	939	myLedR = 0;
lpeters	34:341fb423e74b	940	myLedG = 0;
lpeters	34:341fb423e74b	941	cmd[0] = LSM303_REG_MAG_WHO_AM_I_M;
lpeters	34:341fb423e74b	942	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	943	i2c.read(LSM303_ADR_MAG, &ret, 1);
lpeters	34:341fb423e74b	944	res = (ret == LSM303_WHO_MAG ? sPass : sFail);
lpeters	34:341fb423e74b	945	printf("MAG WhoAmI: %02X %s\r\n", ret, res);
lpeters	34:341fb423e74b	946
lpeters	34:341fb423e74b	947	if (ret == LSM303_WHO_MAG)
lpeters	34:341fb423e74b	948	myLedG = 1;
lpeters	34:341fb423e74b	949	else
lpeters	34:341fb423e74b	950	myLedR = 1;
lpeters	34:341fb423e74b	951
lpeters	34:341fb423e74b	952	for (int i = 0; i < 2; i++) {
lpeters	34:341fb423e74b	953	myLedB = 1;
lpeters	34:341fb423e74b	954	wait(0.3);
lpeters	34:341fb423e74b	955	myLedB = 0;
lpeters	34:341fb423e74b	956	wait(0.3);
lpeters	34:341fb423e74b	957	}
lpeters	34:341fb423e74b	958
lpeters	34:341fb423e74b	959	#if defined(TARGET_LRAT)
lpeters	34:341fb423e74b	960	cmd[0] = LSM303_REG_MAG_CTRL_REG1_M;
lpeters	34:341fb423e74b	961	cmd[1] = 0x70; // Ultra-High Performance Mode on XY axes, ODR=10Hz
lpeters	34:341fb423e74b	962	i2c.write(LSM303_ADR_MAG, cmd, 2);
lpeters	34:341fb423e74b	963	cmd[0] = LSM303_REG_MAG_CTRL_REG3_M;
lpeters	34:341fb423e74b	964	cmd[1] = 0x00; // High Resolution? (Full-power), Continuous
lpeters	34:341fb423e74b	965	i2c.write(LSM303_ADR_MAG, cmd, 2);
lpeters	34:341fb423e74b	966	cmd[0] = LSM303_REG_MAG_CTRL_REG4_M;
lpeters	34:341fb423e74b	967	cmd[1] = 0x0C; // Ultra-High Performance Mode on Z axis
lpeters	34:341fb423e74b	968	i2c.write(LSM303_ADR_MAG, cmd, 2);
lpeters	34:341fb423e74b	969	#if defined(SENSOR_TEMP)
lpeters	34:341fb423e74b	970	// Enable Temp Sensor
lpeters	34:341fb423e74b	971	cmd[0] = LSM303_REG_MAG_CTRL_REG1_M;
lpeters	34:341fb423e74b	972	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	973	i2c.read(LSM303_ADR_MAG, &ret, 1);
lpeters	34:341fb423e74b	974	cmd[0] = LSM303_REG_MAG_CTRL_REG1_M;
lpeters	34:341fb423e74b	975	cmd[1] = ret \| 0x80;
lpeters	34:341fb423e74b	976	i2c.write(LSM303_ADR_MAG, cmd, 2);
lpeters	34:341fb423e74b	977	/*
lpeters	34:341fb423e74b	978	cmd[0] = LSM303_REG_MAG_CTRL_REG5_M;
lpeters	34:341fb423e74b	979	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	980	i2c.read(LSM303_ADR_MAG, &ret, 1);
lpeters	34:341fb423e74b	981	cmd[0] = LSM303_REG_MAG_CTRL_REG5_M;
lpeters	34:341fb423e74b	982	cmd[1] = ret \| 0x40;
lpeters	34:341fb423e74b	983	i2c.write(LSM303_ADR_MAG, cmd, 2);
lpeters	34:341fb423e74b	984	*/
lpeters	34:341fb423e74b	985	#endif
lpeters	34:341fb423e74b	986	#else
lpeters	34:341fb423e74b	987	cmd[0] = LSM303_REG_MAG_CFG_REG_A_M;
lpeters	34:341fb423e74b	988	cmd[1] = 0x00; // Mag = 10 Hz (high-resolution and continuous mode)
lpeters	34:341fb423e74b	989	i2c.write(LSM303_ADR_MAG, cmd, 2);
lpeters	34:341fb423e74b	990	cmd[0] = LSM303_REG_MAG_CFG_REG_C_M;
lpeters	34:341fb423e74b	991	//cmd[1] = 0x01; // Mag data-ready interrupt enable
lpeters	34:341fb423e74b	992	cmd[1] = 0x40; // Mag enable interrupt on pin
lpeters	34:341fb423e74b	993	i2c.write(LSM303_ADR_MAG, cmd, 2);
lpeters	34:341fb423e74b	994	#endif
lpeters	34:341fb423e74b	995
lpeters	34:341fb423e74b	996	for (int i = 0; i < 2; i++) {
lpeters	34:341fb423e74b	997	myLedR = 1;
lpeters	34:341fb423e74b	998	myLedG = 1;
lpeters	34:341fb423e74b	999	myLedB = 1;
lpeters	34:341fb423e74b	1000	wait(0.5);
lpeters	34:341fb423e74b	1001	myLedR = 0;
lpeters	34:341fb423e74b	1002	myLedG = 0;
lpeters	34:341fb423e74b	1003	myLedB = 0;
lpeters	34:341fb423e74b	1004	wait(0.5);
lpeters	34:341fb423e74b	1005	}
lpeters	35:73b3963c6dd3	1006	#if defined(TARGET_LRAT)
lpeters	35:73b3963c6dd3	1007	// LRAT MAG IRQ SETUP GOES HERE
lpeters	35:73b3963c6dd3	1008	#else
lpeters	34:341fb423e74b	1009	// MAG INTERRUPT SETUP
lpeters	34:341fb423e74b	1010	cmd[0] = LSM303_REG_MAG_INT_THS_L_REG_M;
lpeters	35:73b3963c6dd3	1011	cmd[1] = 0xE8;
lpeters	34:341fb423e74b	1012	i2c.write(LSM303_ADR_MAG, cmd, 2);
lpeters	34:341fb423e74b	1013	cmd[0] = LSM303_REG_MAG_INT_THS_H_REG_M;
lpeters	35:73b3963c6dd3	1014	cmd[1] = 0x03;
lpeters	34:341fb423e74b	1015	i2c.write(LSM303_ADR_MAG, cmd, 2);
lpeters	34:341fb423e74b	1016	cmd[0] = LSM303_REG_MAG_INT_CTRL_REG_M;
lpeters	34:341fb423e74b	1017	cmd[1] = 0xE7;
lpeters	34:341fb423e74b	1018	i2c.write(LSM303_ADR_MAG, cmd, 2);
lpeters	34:341fb423e74b	1019	magPin.rise(&onMagIrq);
lpeters	35:73b3963c6dd3	1020	#endif
lpeters	34:341fb423e74b	1021	}
lpeters	34:341fb423e74b	1022
lpeters	34:341fb423e74b	1023	void accInitSequence()
lpeters	34:341fb423e74b	1024	{
lpeters	35:73b3963c6dd3	1025	printf("In accInitSequence()...\r\n");
lpeters	34:341fb423e74b	1026	myLedR = 0;
lpeters	34:341fb423e74b	1027	myLedG = 0;
lpeters	34:341fb423e74b	1028	cmd[0] = LSM303_REG_ACC_WHO_AM_I_A;
lpeters	34:341fb423e74b	1029	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1030	i2c.read(LSM303_ADR_ACC, &ret, 1);
lpeters	34:341fb423e74b	1031	res = (ret == LSM303_WHO_ACC ? sPass : sFail);
lpeters	34:341fb423e74b	1032	printf("ACC WhoAmI: %02X %s\r\n", ret, res);
lpeters	34:341fb423e74b	1033
lpeters	34:341fb423e74b	1034	if (ret == LSM303_WHO_ACC)
lpeters	34:341fb423e74b	1035	myLedG = 1;
lpeters	34:341fb423e74b	1036	else
lpeters	34:341fb423e74b	1037	myLedR = 1;
lpeters	34:341fb423e74b	1038
lpeters	34:341fb423e74b	1039	for (int i = 0; i < 2; i++) {
lpeters	34:341fb423e74b	1040	myLedB = 1;
lpeters	34:341fb423e74b	1041	wait(0.3);
lpeters	34:341fb423e74b	1042	myLedB = 0;
lpeters	34:341fb423e74b	1043	wait(0.3);
lpeters	34:341fb423e74b	1044	}
lpeters	34:341fb423e74b	1045
lpeters	34:341fb423e74b	1046	#if defined(TARGET_LRAT)
lpeters	34:341fb423e74b	1047	cmd[0] = LSM303_REG_ACC_CTRL_REG1_A;
lpeters	34:341fb423e74b	1048	cmd[1] = 0xB7; // High Resolution, ODR=100Hz, Enable XYZ Axes
lpeters	34:341fb423e74b	1049	i2c.write(LSM303_ADR_ACC, cmd, 2);
Huot87	39:6da6cb44f22e	1050
Huot87	39:6da6cb44f22e	1051	// HUOT ADDITION -- 08/30/2018 -- Accelerometer Intterupt Init Sequence
Huot87	39:6da6cb44f22e	1052	#if defined(ACC_INTERRUPT_ON)
Huot87	39:6da6cb44f22e	1053	// ACC INTERRUPT SETUP
Huot87	39:6da6cb44f22e	1054	// Enable Interrupt Pin
Huot87	39:6da6cb44f22e	1055	cmd[0] = LSM303_REG_ACC_CTRL_REG3_A;
Huot87	39:6da6cb44f22e	1056	i2c.write(LSM303_ADR_ACC, cmd, 1);
Huot87	39:6da6cb44f22e	1057	i2c.read(LSM303_ADR_ACC, &ret, 1);
Huot87	39:6da6cb44f22e	1058
Huot87	39:6da6cb44f22e	1059	// Configure Control Register 3
Huot87	39:6da6cb44f22e	1060	cmd[0] = LSM303_REG_ACC_CTRL_REG3_A;
Huot87	39:6da6cb44f22e	1061	cmd[1] = 0x08;
Huot87	39:6da6cb44f22e	1062	// cmd[1] = ret \| 0x40;
Huot87	39:6da6cb44f22e	1063	i2c.write(LSM303_ADR_ACC, cmd, 2);
Huot87	39:6da6cb44f22e	1064
Huot87	39:6da6cb44f22e	1065	cmd[0] = LSM303_CTRL_REG7_A;
Huot87	39:6da6cb44f22e	1066	i2c.write(LSM303_ADR_ACC, cmd, 1);
Huot87	39:6da6cb44f22e	1067	i2c.read(LSM303_ADR_ACC, &ret, 1);
Huot87	39:6da6cb44f22e	1068
Huot87	39:6da6cb44f22e	1069	// Latch Interrupt Enabling
Huot87	39:6da6cb44f22e	1070	cmd[0] = LSM303_CTRL_REG7_A;
Huot87	39:6da6cb44f22e	1071	cmd[1] = 0x04;
Huot87	39:6da6cb44f22e	1072	//cmd[1] = ret \| 0x08;
Huot87	39:6da6cb44f22e	1073	i2c.write(LSM303_ADR_ACC, cmd, 2);
Huot87	39:6da6cb44f22e	1074
Huot87	39:6da6cb44f22e	1075	// Set Threshold/Duration/Config
Huot87	39:6da6cb44f22e	1076	// Set Threshold on X axis
Huot87	39:6da6cb44f22e	1077	cmd[0] = LSM303_REG_ACC_INT1_THS_X1_A;
Huot87	39:6da6cb44f22e	1078	cmd[1] = 0x7D;
Huot87	39:6da6cb44f22e	1079	i2c.write(LSM303_ADR_ACC, cmd, 2);
Huot87	39:6da6cb44f22e	1080
Huot87	39:6da6cb44f22e	1081	// Set Threshold on Y axis
Huot87	39:6da6cb44f22e	1082	cmd[0] = LSM303_REG_ACC_INT1_THS_Y1_A;
Huot87	39:6da6cb44f22e	1083	i2c.write(LSM303_ADR_ACC, cmd, 2);
Huot87	39:6da6cb44f22e	1084
Huot87	39:6da6cb44f22e	1085	// Set Y Threshold on Z axis
Huot87	39:6da6cb44f22e	1086	cmd[0] = LSM303_REG_ACC_INT1_THS_Z1_A;
Huot87	39:6da6cb44f22e	1087	i2c.write(LSM303_ADR_ACC, cmd, 2);
Huot87	39:6da6cb44f22e	1088
Huot87	39:6da6cb44f22e	1089	// Set Interrupt Duration
Huot87	39:6da6cb44f22e	1090	cmd[0] = LSM303_REG_ACC_INT1_DURATION_A;
Huot87	39:6da6cb44f22e	1091	cmd[1] = 0x00;
Huot87	39:6da6cb44f22e	1092	i2c.write(LSM303_ADR_ACC, cmd, 2);
Huot87	39:6da6cb44f22e	1093
Huot87	39:6da6cb44f22e	1094	// Set Interrupt Configuration
Huot87	39:6da6cb44f22e	1095	cmd[0] = LSM303_REG_ACC_INT1_CFG_A;
Huot87	39:6da6cb44f22e	1096	cmd[1] = 0x02; // Set Interrupt Generation on X-Axis High event
Huot87	39:6da6cb44f22e	1097	i2c.write(LSM303_ADR_ACC, cmd, 2);
Huot87	39:6da6cb44f22e	1098	accPin.rise(&onAccIrq);
Huot87	39:6da6cb44f22e	1099	#endif
Huot87	39:6da6cb44f22e	1100
lpeters	34:341fb423e74b	1101	#else
lpeters	34:341fb423e74b	1102	cmd[0] = LSM303_REG_ACC_CTRL_REG1_A;
lpeters	34:341fb423e74b	1103	cmd[1] = 0x57; // Enable XYZ Axes, ODR=100Hz
lpeters	34:341fb423e74b	1104	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1105
lpeters	34:341fb423e74b	1106	// Enable High Resolution Mode
lpeters	34:341fb423e74b	1107	cmd[0] = LSM303_REG_ACC_CTRL_REG4_A;
lpeters	34:341fb423e74b	1108	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1109	i2c.read(LSM303_ADR_ACC, &ret, 1);
lpeters	34:341fb423e74b	1110	cmd[0] = LSM303_REG_ACC_CTRL_REG4_A;
lpeters	34:341fb423e74b	1111	cmd[1] = ret \| 0x08; // High Resolution
lpeters	34:341fb423e74b	1112	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1113
lpeters	34:341fb423e74b	1114	#if defined(SENSOR_TEMP)
lpeters	34:341fb423e74b	1115	// Enable Temp Sensor
lpeters	34:341fb423e74b	1116	cmd[0] = LSM303_REG_ACC_TEMP_CFG_REG_A;
lpeters	34:341fb423e74b	1117	cmd[1] = 0xC0;
lpeters	34:341fb423e74b	1118	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1119	cmd[0] = LSM303_REG_ACC_CTRL_REG4_A;
lpeters	34:341fb423e74b	1120	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1121	i2c.read(LSM303_ADR_ACC, &ret, 1);
lpeters	34:341fb423e74b	1122	cmd[0] = LSM303_REG_ACC_CTRL_REG4_A;
lpeters	34:341fb423e74b	1123	cmd[1] = ret \| 0x80;
lpeters	34:341fb423e74b	1124	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1125	#endif
lpeters	34:341fb423e74b	1126	#endif
lpeters	34:341fb423e74b	1127
lpeters	34:341fb423e74b	1128	//LED Confirmation Output - ACC INIT COMPLETE
lpeters	34:341fb423e74b	1129	for (int i = 0; i < 2; i++) {
lpeters	34:341fb423e74b	1130	myLedR = 1;
lpeters	34:341fb423e74b	1131	myLedG = 1;
lpeters	34:341fb423e74b	1132	myLedB = 1;
lpeters	34:341fb423e74b	1133	wait(0.5);
lpeters	34:341fb423e74b	1134	myLedR = 0;
lpeters	34:341fb423e74b	1135	myLedG = 0;
lpeters	34:341fb423e74b	1136	myLedB = 0;
lpeters	34:341fb423e74b	1137	wait(0.5);
lpeters	34:341fb423e74b	1138	}
lpeters	34:341fb423e74b	1139
lpeters	34:341fb423e74b	1140	// Set Full Scale to 4g
lpeters	34:341fb423e74b	1141	/*
lpeters	34:341fb423e74b	1142	cmd[0] = LSM303_REG_ACC_CTRL_REG4_A;
lpeters	34:341fb423e74b	1143	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1144	i2c.read(LSM303_ADR_ACC, &ret, 1);
lpeters	34:341fb423e74b	1145	cmd[0] = LSM303_REG_ACC_CTRL_REG4_A;
lpeters	34:341fb423e74b	1146	//cmd[1] = ret \| 0x30; // 16g
lpeters	34:341fb423e74b	1147	//cmd[1] = (ret & ~0x10) \| 0x20; // 8g
lpeters	34:341fb423e74b	1148	cmd[1] = (ret & ~0x20) \| 0x10; // 4g
lpeters	34:341fb423e74b	1149	//cmd[1] = ret & ~0x30; // 2g
lpeters	34:341fb423e74b	1150	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1151	*/
lpeters	34:341fb423e74b	1152	/*
lpeters	34:341fb423e74b	1153	// IRQ Init from Datasheet.
lpeters	34:341fb423e74b	1154	cmd[0] = LSM303_REG_ACC_CTRL_REG1_A;
lpeters	34:341fb423e74b	1155	cmd[1] = 0xA7;
lpeters	34:341fb423e74b	1156	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1157	cmd[0] = LSM303_REG_ACC_CTRL_REG2_A;
lpeters	34:341fb423e74b	1158	cmd[1] = 0x00;
lpeters	34:341fb423e74b	1159	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1160	cmd[0] = LSM303_REG_ACC_CTRL_REG3_A;
lpeters	34:341fb423e74b	1161	cmd[1] = 0x40;
lpeters	34:341fb423e74b	1162	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1163	cmd[0] = LSM303_REG_ACC_CTRL_REG4_A;
lpeters	34:341fb423e74b	1164	cmd[1] = 0x00;
lpeters	34:341fb423e74b	1165	//cmd[1] = 0x10;
lpeters	34:341fb423e74b	1166	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1167	cmd[0] = LSM303_REG_ACC_CTRL_REG5_A;
lpeters	34:341fb423e74b	1168	cmd[1] = 0x08;
lpeters	34:341fb423e74b	1169	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1170	*/
lpeters	35:73b3963c6dd3	1171	#if defined(TARGET_LRAT)
lpeters	35:73b3963c6dd3	1172	// LRAT ACC IRQ SETUP GOES HERE
lpeters	35:73b3963c6dd3	1173	#else
lpeters	34:341fb423e74b	1174	// ACC INTERRUPT SETUP
lpeters	34:341fb423e74b	1175	// Enable Interrupt Pin
lpeters	34:341fb423e74b	1176	cmd[0] = LSM303_REG_ACC_CTRL_REG3_A;
lpeters	34:341fb423e74b	1177	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1178	i2c.read(LSM303_ADR_ACC, &ret, 1);
lpeters	34:341fb423e74b	1179	cmd[0] = LSM303_REG_ACC_CTRL_REG3_A;
lpeters	34:341fb423e74b	1180	cmd[1] = ret \| 0x40;
lpeters	34:341fb423e74b	1181	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1182	// Enable Interrupt Latch
lpeters	34:341fb423e74b	1183	cmd[0] = LSM303_REG_ACC_CTRL_REG5_A;
lpeters	34:341fb423e74b	1184	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1185	i2c.read(LSM303_ADR_ACC, &ret, 1);
lpeters	34:341fb423e74b	1186	cmd[0] = LSM303_REG_ACC_CTRL_REG5_A;
lpeters	34:341fb423e74b	1187	cmd[1] = ret \| 0x08;
lpeters	34:341fb423e74b	1188	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1189
lpeters	34:341fb423e74b	1190	// Set Threshold/Duration/Config
lpeters	34:341fb423e74b	1191	cmd[0] = LSM303_REG_ACC_INT1_THS_A;
lpeters	34:341fb423e74b	1192	//cmd[1] = 0x10;
lpeters	34:341fb423e74b	1193	//cmd[1] = 0x40;
lpeters	34:341fb423e74b	1194	//cmd[1] = 0x60;
lpeters	34:341fb423e74b	1195	cmd[1] = 0x7D;
lpeters	34:341fb423e74b	1196	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1197	cmd[0] = LSM303_REG_ACC_INT1_DURATION_A;
lpeters	34:341fb423e74b	1198	cmd[1] = 0x00;
lpeters	34:341fb423e74b	1199	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1200	cmd[0] = LSM303_REG_ACC_INT1_CFG_A;
lpeters	34:341fb423e74b	1201	cmd[1] = 0x2A;
lpeters	34:341fb423e74b	1202	//cmd[1] = 0x0A;
lpeters	34:341fb423e74b	1203	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	35:73b3963c6dd3	1204	accPin.rise(&onAccIrq);
lpeters	35:73b3963c6dd3	1205	#endif
lpeters	34:341fb423e74b	1206	}
lpeters	34:341fb423e74b	1207
lpeters	34:341fb423e74b	1208	void gpsInitSequence()
lpeters	34:341fb423e74b	1209	{
lpeters	35:73b3963c6dd3	1210	printf("In gpsInitSequence()...\r\n");
lpeters	35:73b3963c6dd3	1211	gpsRead();
lpeters	35:73b3963c6dd3	1212	if (mytime > 0)
lpeters	35:73b3963c6dd3	1213	{
lpeters	35:73b3963c6dd3	1214	set_time(mytime);
lpeters	35:73b3963c6dd3	1215	tInit = mytime;
lpeters	35:73b3963c6dd3	1216	myLedG = 1;
lpeters	35:73b3963c6dd3	1217	}
lpeters	35:73b3963c6dd3	1218	else
lpeters	35:73b3963c6dd3	1219	myLedR = 1;
lpeters	34:341fb423e74b	1220
lpeters	34:341fb423e74b	1221	for (int i = 0; i < 2; i++) {
lpeters	34:341fb423e74b	1222	myLedB = 1;
lpeters	34:341fb423e74b	1223	wait(0.3);
lpeters	34:341fb423e74b	1224	myLedB = 0;
lpeters	34:341fb423e74b	1225	wait(0.3);
lpeters	34:341fb423e74b	1226	}
lpeters	34:341fb423e74b	1227	myLedG = 0;
lpeters	34:341fb423e74b	1228	myLedR = 0;
Huot87	38:fd7a407bfe3e	1229
Huot87	38:fd7a407bfe3e	1230	// HUOT ADDITION -- GPS LOW POWER SETUP
Huot87	38:fd7a407bfe3e	1231	//printf("Disabling GLONASS... \r\n");
Huot87	38:fd7a407bfe3e	1232	//gpsExecuteCommand(cmdDisableGLONASS, sizeof(cmdDisableGLONASS)); // Disable GLONASS
Huot87	38:fd7a407bfe3e	1233	//printf("Disabling Time Pulse... \r\n");
Huot87	38:fd7a407bfe3e	1234	//gpsExecuteCommand(cmdDisableTimePulse, sizeof(cmdDisableTimePulse)); // Disable Time Pulse
Huot87	38:fd7a407bfe3e	1235	//printf("Configuring PMS... \r\n");
Huot87	38:fd7a407bfe3e	1236	//gpsExecuteCommand(cmdConfigPMS, sizeof(cmdConfigPMS)); // Configure Power Management Setup
Huot87	38:fd7a407bfe3e	1237	//printf("LPM Init Sequence Complete. \r\n");
Huot87	38:fd7a407bfe3e	1238	}
Huot87	38:fd7a407bfe3e	1239
Huot87	39:6da6cb44f22e	1240	// HUOT ADDITION 08/30/2018 -- GENERIC GPS EXECUTE COMMAND FUNCTION
Huot87	38:fd7a407bfe3e	1241	void gpsExecuteCommand(char *command, int length)
Huot87	38:fd7a407bfe3e	1242	{
Huot87	38:fd7a407bfe3e	1243
Huot87	38:fd7a407bfe3e	1244	uint8_t crcA = 0;
Huot87	38:fd7a407bfe3e	1245	uint8_t crcB = 0;
Huot87	38:fd7a407bfe3e	1246	for(int i = 2; i <= (length - 3); i++)
Huot87	38:fd7a407bfe3e	1247	{
Huot87	38:fd7a407bfe3e	1248	crcA = crcA + command[i];
Huot87	38:fd7a407bfe3e	1249	crcB = crcB + crcA;
Huot87	38:fd7a407bfe3e	1250	}
Huot87	38:fd7a407bfe3e	1251
Huot87	38:fd7a407bfe3e	1252	command[(length - 2)] = crcA;
Huot87	38:fd7a407bfe3e	1253	command[(length - 1)] = crcB;
Huot87	38:fd7a407bfe3e	1254	printf("UBX CRC: %02X %02X\r\n", crcA, crcB);
Huot87	38:fd7a407bfe3e	1255	i2c.write(NEOM8M_ADR_GPS, command, length);
Huot87	38:fd7a407bfe3e	1256	printf("Command Executed \r\n");
Huot87	38:fd7a407bfe3e	1257	wait(1);
lpeters	34:341fb423e74b	1258	}
lpeters	34:341fb423e74b	1259
lpeters	34:341fb423e74b	1260	void magRead()
lpeters	34:341fb423e74b	1261	{
lpeters	34:341fb423e74b	1262	cmd[0] = LSM303_REG_MAG_STATUS_REG_M;
lpeters	34:341fb423e74b	1263	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	1264	i2c.read(LSM303_ADR_MAG, &rda, 1);
lpeters	34:341fb423e74b	1265	if (rda)
lpeters	34:341fb423e74b	1266	{
lpeters	34:341fb423e74b	1267	cmd[0] = LSM303_REG_MAG_OUTX_L_REG_M;
lpeters	34:341fb423e74b	1268	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	1269	i2c.read(LSM303_ADR_MAG, &buf[0], 1);
lpeters	34:341fb423e74b	1270	cmd[0] = LSM303_REG_MAG_OUTX_H_REG_M;
lpeters	34:341fb423e74b	1271	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	1272	i2c.read(LSM303_ADR_MAG, &buf[1], 1);
lpeters	34:341fb423e74b	1273	cmd[0] = LSM303_REG_MAG_OUTY_L_REG_M;
lpeters	34:341fb423e74b	1274	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	1275	i2c.read(LSM303_ADR_MAG, &buf[2], 1);
lpeters	34:341fb423e74b	1276	cmd[0] = LSM303_REG_MAG_OUTY_H_REG_M;
lpeters	34:341fb423e74b	1277	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	1278	i2c.read(LSM303_ADR_MAG, &buf[3], 1);
lpeters	34:341fb423e74b	1279	cmd[0] = LSM303_REG_MAG_OUTZ_L_REG_M;
lpeters	34:341fb423e74b	1280	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	1281	i2c.read(LSM303_ADR_MAG, &buf[4], 1);
lpeters	34:341fb423e74b	1282	cmd[0] = LSM303_REG_MAG_OUTZ_H_REG_M;
lpeters	34:341fb423e74b	1283	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	1284	i2c.read(LSM303_ADR_MAG, &buf[5], 1);
lpeters	34:341fb423e74b	1285	myMagX = (buf[0] \| (buf[1] << 8));
lpeters	34:341fb423e74b	1286	myMagY = (buf[2] \| (buf[3] << 8));
lpeters	34:341fb423e74b	1287	myMagZ = (buf[4] \| (buf[5] << 8));
lpeters	34:341fb423e74b	1288	if (myMagX < magMinX)
lpeters	34:341fb423e74b	1289	magMinX = myMagX;
lpeters	34:341fb423e74b	1290	if (myMagY < magMinY)
lpeters	34:341fb423e74b	1291	magMinY = myMagY;
lpeters	34:341fb423e74b	1292	if (myMagZ < magMinZ)
lpeters	34:341fb423e74b	1293	magMinZ = myMagZ;
lpeters	34:341fb423e74b	1294	if (myMagX > magMaxX)
lpeters	34:341fb423e74b	1295	magMaxX = myMagX;
lpeters	34:341fb423e74b	1296	if (myMagY > magMaxY)
lpeters	34:341fb423e74b	1297	magMaxY = myMagY;
lpeters	34:341fb423e74b	1298	if (myMagZ > magMaxZ)
lpeters	34:341fb423e74b	1299	magMaxZ = myMagZ;
lpeters	34:341fb423e74b	1300	cmd[0] = LSM303_REG_MAG_INT_SOURCE_REG_M;
lpeters	34:341fb423e74b	1301	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	1302	i2c.read(LSM303_ADR_MAG, &ret, 1);
lpeters	34:341fb423e74b	1303	if (ret & 0x01 && magEvent == 0 && ret & 0xFC)
lpeters	34:341fb423e74b	1304	{
lpeters	34:341fb423e74b	1305	magSFire++;
lpeters	34:341fb423e74b	1306	magEvent = 1;
lpeters	34:341fb423e74b	1307	magSHIRQ++;
lpeters	34:341fb423e74b	1308	}
lpeters	34:341fb423e74b	1309	else if (!(ret & 0x01) && magEvent == 1 && !(ret & 0xFC))
lpeters	34:341fb423e74b	1310	{
lpeters	34:341fb423e74b	1311	magSFire++;
lpeters	34:341fb423e74b	1312	magEvent = 0;
lpeters	34:341fb423e74b	1313	magSLIRQ++;
lpeters	34:341fb423e74b	1314	}
lpeters	34:341fb423e74b	1315	printf("M\|%02X\|%02X %02X %02X %02X %02X %02X\|%d,%d,%d\|%d,%d,%d\|%d,%d,%*d\|%02X\|%02X/%02X %02X/%02X\r\n", rda, buf[0], buf[1], buf[2], buf[3], buf[4], buf[5], 6, myMagX, 6, myMagY, 6, myMagZ, 6, magMinX, 6, magMinY, 6, magMinZ, 6, magMaxX, 6, magMaxY, 6, magMaxZ, ret, magSHIRQ, magSLIRQ, magSFire, magHFire);
lpeters	34:341fb423e74b	1316	}
lpeters	34:341fb423e74b	1317	}
lpeters	34:341fb423e74b	1318
lpeters	34:341fb423e74b	1319	void accRead()
lpeters	34:341fb423e74b	1320	{
lpeters	34:341fb423e74b	1321	cmd[0] = LSM303_REG_ACC_STATUS_REG_A;
lpeters	34:341fb423e74b	1322	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1323	i2c.read(LSM303_ADR_ACC, &rda, 1);
lpeters	34:341fb423e74b	1324	if (rda)
lpeters	34:341fb423e74b	1325	{
lpeters	34:341fb423e74b	1326	cmd[0] = LSM303_REG_ACC_OUT_X_L_A;
lpeters	34:341fb423e74b	1327	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1328	i2c.read(LSM303_ADR_ACC, &buf[0], 1);
lpeters	34:341fb423e74b	1329	cmd[0] = LSM303_REG_ACC_OUT_X_H_A;
lpeters	34:341fb423e74b	1330	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1331	i2c.read(LSM303_ADR_ACC, &buf[1], 1);
lpeters	34:341fb423e74b	1332	cmd[0] = LSM303_REG_ACC_OUT_Y_L_A;
lpeters	34:341fb423e74b	1333	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1334	i2c.read(LSM303_ADR_ACC, &buf[2], 1);
lpeters	34:341fb423e74b	1335	cmd[0] = LSM303_REG_ACC_OUT_Y_H_A;
lpeters	34:341fb423e74b	1336	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1337	i2c.read(LSM303_ADR_ACC, &buf[3], 1);
lpeters	34:341fb423e74b	1338	cmd[0] = LSM303_REG_ACC_OUT_Z_L_A;
lpeters	34:341fb423e74b	1339	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1340	i2c.read(LSM303_ADR_ACC, &buf[4], 1);
lpeters	34:341fb423e74b	1341	cmd[0] = LSM303_REG_ACC_OUT_Z_H_A;
lpeters	34:341fb423e74b	1342	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1343	i2c.read(LSM303_ADR_ACC, &buf[5], 1);
lpeters	34:341fb423e74b	1344	myAccX = ((int16_t)(buf[0] \| (buf[1] << 8)) >> accShift);
lpeters	34:341fb423e74b	1345	myAccY = ((int16_t)(buf[2] \| (buf[3] << 8)) >> accShift);
lpeters	34:341fb423e74b	1346	myAccZ = ((int16_t)(buf[4] \| (buf[5] << 8)) >> accShift);
lpeters	34:341fb423e74b	1347	if (myAccX < accMinX)
lpeters	34:341fb423e74b	1348	accMinX = myAccX;
lpeters	34:341fb423e74b	1349	if (myAccY < accMinY)
lpeters	34:341fb423e74b	1350	accMinY = myAccY;
lpeters	34:341fb423e74b	1351	if (myAccZ < accMinZ)
lpeters	34:341fb423e74b	1352	accMinZ = myAccZ;
lpeters	34:341fb423e74b	1353	if (myAccX > accMaxX)
lpeters	34:341fb423e74b	1354	accMaxX = myAccX;
lpeters	34:341fb423e74b	1355	if (myAccY > accMaxY)
lpeters	34:341fb423e74b	1356	accMaxY = myAccY;
lpeters	34:341fb423e74b	1357	if (myAccZ > accMaxZ)
lpeters	34:341fb423e74b	1358	accMaxZ = myAccZ;
lpeters	34:341fb423e74b	1359	cmd[0] = LSM303_REG_ACC_INT1_SRC_A;
lpeters	34:341fb423e74b	1360	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1361	i2c.read(LSM303_ADR_ACC, &ret, 1);
lpeters	34:341fb423e74b	1362	if (ret & 0x40)
lpeters	34:341fb423e74b	1363	{
lpeters	34:341fb423e74b	1364	accSFire++;
lpeters	34:341fb423e74b	1365	if (accEvent == 1)
lpeters	34:341fb423e74b	1366	{
lpeters	34:341fb423e74b	1367	accEvent = 0;
lpeters	34:341fb423e74b	1368	accSLIRQ++;
lpeters	34:341fb423e74b	1369	cmd[0] = LSM303_REG_ACC_INT1_THS_A;
lpeters	34:341fb423e74b	1370	cmd[1] = 0x7D;
lpeters	34:341fb423e74b	1371	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1372	cmd[0] = LSM303_REG_ACC_INT1_DURATION_A;
lpeters	34:341fb423e74b	1373	cmd[1] = 0x00;
lpeters	34:341fb423e74b	1374	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1375	cmd[0] = LSM303_REG_ACC_INT1_CFG_A;
lpeters	34:341fb423e74b	1376	cmd[1] = 0x2A;
lpeters	34:341fb423e74b	1377	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1378	}
lpeters	34:341fb423e74b	1379	else
lpeters	34:341fb423e74b	1380	{
lpeters	34:341fb423e74b	1381	accEvent = 1;
lpeters	34:341fb423e74b	1382	accSHIRQ++;
lpeters	34:341fb423e74b	1383	cmd[0] = LSM303_REG_ACC_INT1_THS_A;
lpeters	34:341fb423e74b	1384	cmd[1] = 0x50;
lpeters	34:341fb423e74b	1385	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1386	cmd[0] = LSM303_REG_ACC_INT1_DURATION_A;
lpeters	34:341fb423e74b	1387	//cmd[1] = 0x7D;
lpeters	34:341fb423e74b	1388	cmd[1] = 0x03;
lpeters	34:341fb423e74b	1389	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1390	cmd[0] = LSM303_REG_ACC_INT1_CFG_A;
lpeters	34:341fb423e74b	1391	cmd[1] = 0x95;
lpeters	34:341fb423e74b	1392	i2c.write(LSM303_ADR_ACC, cmd, 2);
lpeters	34:341fb423e74b	1393	}
lpeters	34:341fb423e74b	1394	}
lpeters	34:341fb423e74b	1395	printf("A\|%02X\|%02X %02X %02X %02X %02X %02X\|%d,%d,%d\|%d,%d,%d\|%d,%d,%*d\|%02X\|%02X/%02X %02X/%02X\r\n", rda, buf[0], buf[1], buf[2], buf[3], buf[4], buf[5], 6, myAccX, 6, myAccY, 6, myAccZ, 6, accMinX, 6, accMinY, 6, accMinZ, 6, accMaxX, 6, accMaxY, 6, accMaxZ, ret, accSHIRQ, accSLIRQ, accSFire, accHFire);
lpeters	34:341fb423e74b	1396	}
lpeters	34:341fb423e74b	1397	}
lpeters	34:341fb423e74b	1398
lpeters	34:341fb423e74b	1399	void tmpRead()
lpeters	34:341fb423e74b	1400	{
lpeters	34:341fb423e74b	1401	#if defined(TARGET_LRAT)
lpeters	34:341fb423e74b	1402	cmd[0] = LSM303_REG_MAG_TEMP_L_M;
lpeters	34:341fb423e74b	1403	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	1404	i2c.read(LSM303_ADR_MAG, &buf[0], 1);
lpeters	34:341fb423e74b	1405	cmd[0] = LSM303_REG_MAG_TEMP_H_M;
lpeters	34:341fb423e74b	1406	i2c.write(LSM303_ADR_MAG, cmd, 1);
lpeters	34:341fb423e74b	1407	i2c.read(LSM303_ADR_MAG, &buf[1], 1);
lpeters	34:341fb423e74b	1408	myTemp = (int16_t)(buf[0] \| (buf[1] << 8));
lpeters	34:341fb423e74b	1409	printf("T\|%02X %02X\| (%d)\r\n", buf[0], buf[1], myTemp);
lpeters	34:341fb423e74b	1410	#else
lpeters	34:341fb423e74b	1411	cmd[0] = LSM303_REG_ACC_STATUS_REG_AUX_A;
lpeters	34:341fb423e74b	1412	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1413	i2c.read(LSM303_ADR_ACC, &rda, 1);
lpeters	34:341fb423e74b	1414	if (rda & 0x04)
lpeters	34:341fb423e74b	1415	{
lpeters	34:341fb423e74b	1416	cmd[0] = LSM303_REG_ACC_OUT_TEMP_L_A \| 0x80;
lpeters	34:341fb423e74b	1417	i2c.write(LSM303_ADR_ACC, cmd, 1);
lpeters	34:341fb423e74b	1418	i2c.read(LSM303_ADR_ACC, &buf[0], 2);
lpeters	34:341fb423e74b	1419	myTemp = (int16_t)(buf[0] \| (buf[1] << 8)) >> 6;
lpeters	34:341fb423e74b	1420	printf("T\|%02X %02X %02X\| (%d)\r\n", rda, buf[0], buf[1], myTemp);
lpeters	34:341fb423e74b	1421	}
lpeters	34:341fb423e74b	1422	#endif
lpeters	34:341fb423e74b	1423	}
lpeters	34:341fb423e74b	1424
Huot87	38:fd7a407bfe3e	1425
Huot87	39:6da6cb44f22e	1426	// HUOT ALTERATION -- 08/30/2018 -- Change GPS read from "void" to return "int" to solidfy if fix was good or bad
Huot87	38:fd7a407bfe3e	1427	int gpsRead()
lpeters	34:341fb423e74b	1428	{
lpeters	34:341fb423e74b	1429	bool gpsDone = false;
lpeters	34:341fb423e74b	1430	bool fixGood = false;
lpeters	35:73b3963c6dd3	1431	uint8_t crcPass = 0;
lpeters	35:73b3963c6dd3	1432	uint8_t crcFail = 0;
lpeters	35:73b3963c6dd3	1433	uint32_t tDate = 0;
lpeters	35:73b3963c6dd3	1434	uint32_t tTime = 0;
lpeters	34:341fb423e74b	1435	myLedW = 1;
lpeters	34:341fb423e74b	1436	pos = 0;
lpeters	33:e47306c32791	1437	ret = 0xFF;
lpeters	33:e47306c32791	1438	cmd[0] = 0xFF;
lpeters	33:e47306c32791	1439	i2c.write(NEOM8M_ADR_GPS, cmd, 1);
lpeters	33:e47306c32791	1440	while(!gpsDone)
lpeters	33:e47306c32791	1441	{
lpeters	33:e47306c32791	1442	while (ret == 0xFF)
lpeters	33:e47306c32791	1443	{
lpeters	33:e47306c32791	1444	i2c.read(NEOM8M_ADR_GPS, &ret, 1);
lpeters	33:e47306c32791	1445	}
lpeters	33:e47306c32791	1446	while (ret != 0xFF)
lpeters	33:e47306c32791	1447	{
lpeters	33:e47306c32791	1448	buf[pos++] = ret;
lpeters	33:e47306c32791	1449	i2c.read(NEOM8M_ADR_GPS, &ret, 1);
lpeters	33:e47306c32791	1450	if (ret == '\r')
lpeters	33:e47306c32791	1451	{
lpeters	33:e47306c32791	1452	i2c.read(NEOM8M_ADR_GPS, &ret, 1);
lpeters	33:e47306c32791	1453	if (ret == '\n')
lpeters	33:e47306c32791	1454	{
lpeters	33:e47306c32791	1455	buf[pos] = 0x00;
lpeters	34:341fb423e74b	1456	// NMEA Validation
lpeters	33:e47306c32791	1457	uint16_t crc = 0;
lpeters	35:73b3963c6dd3	1458	char clr = '\0';
lpeters	33:e47306c32791	1459	if (buf[0] == '$' && buf[pos-3] == '*')
lpeters	33:e47306c32791	1460	{
lpeters	35:73b3963c6dd3	1461	for (int i = 1; i < pos-3; i++)
lpeters	33:e47306c32791	1462	{
lpeters	33:e47306c32791	1463	crc ^= buf[i];
lpeters	33:e47306c32791	1464	}
lpeters	33:e47306c32791	1465	}
lpeters	33:e47306c32791	1466	if (crc == ((buf[pos-2] < 'A' ? buf[pos-2] - '0' : buf[pos-2] - '7') << 4 \| (buf[pos-1] < 'A' ? buf[pos-1] - '0' : buf[pos-1] - '7')))
lpeters	35:73b3963c6dd3	1467	{
lpeters	33:e47306c32791	1468	clr = '2'; // 2 = Green
lpeters	35:73b3963c6dd3	1469	crcPass++;
lpeters	35:73b3963c6dd3	1470	}
lpeters	33:e47306c32791	1471	else
lpeters	35:73b3963c6dd3	1472	{
lpeters	33:e47306c32791	1473	clr = '1'; // 1 = Red
lpeters	35:73b3963c6dd3	1474	crcFail++;
lpeters	35:73b3963c6dd3	1475	}
lpeters	33:e47306c32791	1476	printf("GPS: [\u001b[3%cm%02X\u001b[0m] \|%s\|\r\n", clr, crc, buf);
lpeters	35:73b3963c6dd3	1477	if (clr == '2')
lpeters	35:73b3963c6dd3	1478	{
lpeters	33:e47306c32791	1479	// Global Positioning System Fix Data
lpeters	33:e47306c32791	1480	if(strncmp(buf, "$GNGGA", 6) == 0)
lpeters	33:e47306c32791	1481	{
lpeters	33:e47306c32791	1482	printf("GNGGA> ");
lpeters	33:e47306c32791	1483	//sscanf(cmd, "$GPGGA,%f,%f,%c,%f,%c,%d,%d,%*f,%f", &timefix, &latitude, &ns, &longitude, &ew, &fq, &nst, &altitude);
lpeters	33:e47306c32791	1484	//pc.printf("GPGGA Fix taken at: %f, Latitude: %f %c, Longitude: %f %c, Fix quality: %d, Number of sat: %d, Altitude: %f M\n", timefix, latitude, ns, longitude, ew, fq, nst, altitude);
lpeters	33:e47306c32791	1485	float fldTim, fldAlt;
lpeters	33:e47306c32791	1486	double fldLat, fldLon;
lpeters	33:e47306c32791	1487	char fldN_S, fldE_W;
lpeters	33:e47306c32791	1488	int fldFix, fldSat;
lpeters	33:e47306c32791	1489	sscanf(buf, "$GNGGA,%f,%lf,%c,%lf,%c,%d,%d,%*f,%f", &fldTim, &fldLat, &fldN_S, &fldLon, &fldE_W, &fldFix, &fldSat, &fldAlt);
lpeters	33:e47306c32791	1490	printf("Sec: %.2f, Lat: %.5f %c, Lon: %.5f %c, Fix: %d, Sat: %d, Alt: %.1f M\r\n", fldTim, fldLat, fldN_S, fldLon, fldE_W, fldFix, fldSat, fldAlt);
lpeters	33:e47306c32791	1491	if (clr == '2')
lpeters	33:e47306c32791	1492	{
lpeters	33:e47306c32791	1493	mylat = fldLat / (fldN_S == 'S' ? -100 : 100);
lpeters	33:e47306c32791	1494	mylon = fldLon / (fldE_W == 'W' ? -100 : 100);
lpeters	35:73b3963c6dd3	1495	//mytime = (uint32_t)fldTim;
lpeters	33:e47306c32791	1496	mybatt = (fldSat & 0xF0 ? 0x0F : fldSat & 0x0F);
lpeters	33:e47306c32791	1497	}
lpeters	33:e47306c32791	1498	}
lpeters	33:e47306c32791	1499	// Satellite status
lpeters	33:e47306c32791	1500	if(strncmp(buf, "$GNGSA", 6) == 0)
lpeters	33:e47306c32791	1501	{
lpeters	35:73b3963c6dd3	1502	//printf("GNGSA> ");
lpeters	33:e47306c32791	1503	//sscanf(cmd, "$GPGSA,%c,%d,%d", &tf, &fix, &nst);
lpeters	33:e47306c32791	1504	//pc.printf("GPGSA Type fix: %c, 3D fix: %d, number of sat: %d\r\n", tf, fix, nst);
lpeters	33:e47306c32791	1505	char fldTyp;
lpeters	33:e47306c32791	1506	int fldDim, fldSat;
lpeters	33:e47306c32791	1507	sscanf(buf, "$GNGSA,%c,%d,%d", &fldTyp, &fldDim, &fldSat);
lpeters	35:73b3963c6dd3	1508	//printf("Typ: %c, Pos: %d, Sat: %d\r\n", fldTyp, fldDim, fldSat);
lpeters	33:e47306c32791	1509	}
lpeters	33:e47306c32791	1510	// Geographic position, Latitude and Longitude
lpeters	33:e47306c32791	1511	if(strncmp(buf, "$GNGLL", 6) == 0)
lpeters	33:e47306c32791	1512	{
lpeters	35:73b3963c6dd3	1513	//printf("GNGLL> ");
lpeters	33:e47306c32791	1514	//sscanf(cmd, "$GPGLL,%f,%c,%f,%c,%f", &latitude, &ns, &longitude, &ew, &timefix);
lpeters	33:e47306c32791	1515	//pc.printf("GPGLL Latitude: %f %c, Longitude: %f %c, Fix taken at: %f\n", latitude, ns, longitude, ew, timefix);
lpeters	33:e47306c32791	1516	float fldTim;
lpeters	33:e47306c32791	1517	double fldLat, fldLon;
lpeters	33:e47306c32791	1518	char fldN_S, fldE_W;
lpeters	33:e47306c32791	1519	sscanf(buf, "$GNGLL,%lf,%c,%lf,%c,%f", &fldLat, &fldN_S, &fldLon, &fldE_W, &fldTim);
lpeters	35:73b3963c6dd3	1520	//printf("Lat: %.5f %c, Lon: %.5f %c, Sec: %.2f\r\n", fldLat, fldN_S, fldLon, fldE_W, fldTim);
lpeters	33:e47306c32791	1521	}
lpeters	33:e47306c32791	1522	// Geographic position, Latitude and Longitude
lpeters	33:e47306c32791	1523	if(strncmp(buf, "$GNRMC", 6) == 0)
lpeters	33:e47306c32791	1524	{
lpeters	35:73b3963c6dd3	1525	//printf("GPS: [\u001b[3%cm%02X\u001b[0m] \|%s\|\r\n", clr, crc, buf);
lpeters	33:e47306c32791	1526	printf("GNRMC> ");
lpeters	33:e47306c32791	1527	//sscanf(cmd, "$GPRMC,%f,%c,%f,%c,%f,%c,%f,,%d", &timefix, &status, &latitude, &ns, &longitude, &ew, &speed, &date);
lpeters	33:e47306c32791	1528	//pc.printf("GPRMC Fix taken at: %f, Status: %c, Latitude: %f %c, Longitude: %f %c, Speed: %f, Date: %d\n", timefix, status, latitude, ns, longitude, ew, speed, date);
lpeters	35:73b3963c6dd3	1529	float fldTim, fldSpd, fldTrk;
lpeters	35:73b3963c6dd3	1530	fldTrk = 0;
lpeters	33:e47306c32791	1531	double fldLat, fldLon;
lpeters	33:e47306c32791	1532	char fldSts, fldN_S, fldE_W;
lpeters	35:73b3963c6dd3	1533	uint32_t fldDat;
lpeters	35:73b3963c6dd3	1534	if (sscanf(buf, "$GNRMC,,%c", &fldSts) != 1 &&
lpeters	35:73b3963c6dd3	1535	sscanf(buf, "$GNRMC,%f,%c,,,,,,,%d", &fldTim, &fldSts, &fldDat) != 3 &&
lpeters	35:73b3963c6dd3	1536	sscanf(buf, "$GNRMC,%f,%c,%lf,%c,%lf,%c,%f,,%d", &fldTim, &fldSts, &fldLat, &fldN_S, &fldLon, &fldE_W, &fldSpd, &fldDat) != 8 &&
lpeters	35:73b3963c6dd3	1537	sscanf(buf, "$GNRMC,%f,%c,%lf,%c,%lf,%c,%f,%f,%d", &fldTim, &fldSts, &fldLat, &fldN_S, &fldLon, &fldE_W, &fldSpd, &fldTrk, &fldDat) != 9)
lpeters	35:73b3963c6dd3	1538	printf("[\u001b[33mWARN\u001b[0m] Invalid GNRMC packet detected.\r\n");
lpeters	35:73b3963c6dd3	1539	//sscanf(buf, "$GNRMC,%f,%c,%lf,%c,%lf,%c,%f,%7[^,],%d", &fldTim, &fldSts, &fldLat, &fldN_S, &fldLon, &fldE_W, &fldSpd, fldFoo, &fldDat);
lpeters	33:e47306c32791	1540	printf("Sec: %.2f, Sts: %c, Lat: %.5f %c, Lon: %.5f %c, Spd: %.3f, Dat: %06d\r\n", fldTim, fldSts, fldLat, fldN_S, fldLon, fldE_W, fldSpd, fldDat);
lpeters	35:73b3963c6dd3	1541	if (clr == '2')
lpeters	35:73b3963c6dd3	1542	{
lpeters	35:73b3963c6dd3	1543	tTime = (uint32_t)fldTim;
lpeters	35:73b3963c6dd3	1544	tDate = fldDat;
lpeters	35:73b3963c6dd3	1545	if (fldSts == 'A')
lpeters	35:73b3963c6dd3	1546	fixGood = true;
lpeters	35:73b3963c6dd3	1547	}
lpeters	35:73b3963c6dd3	1548	}
lpeters	33:e47306c32791	1549	}
lpeters	33:e47306c32791	1550	pos = 0;
lpeters	33:e47306c32791	1551	i2c.read(NEOM8M_ADR_GPS, &ret, 1);
lpeters	33:e47306c32791	1552	}
lpeters	33:e47306c32791	1553	else
lpeters	33:e47306c32791	1554	{
lpeters	35:73b3963c6dd3	1555	printf("[\u001b[33mWARN\u001b[0m] Expected '0A', received '%02X'.\r\n", ret);
lpeters	33:e47306c32791	1556	}
lpeters	33:e47306c32791	1557	}
lpeters	37:df69df1bcb1a	1558	//else if (pos == 82)
lpeters	37:df69df1bcb1a	1559	else if (pos == 191)
lpeters	33:e47306c32791	1560	{
lpeters	33:e47306c32791	1561	buf[pos] = 0x00;
lpeters	33:e47306c32791	1562	printf("GPS: \|%s\| ...\r\n", buf);
lpeters	33:e47306c32791	1563	pos = 0;
lpeters	33:e47306c32791	1564	i2c.read(NEOM8M_ADR_GPS, &ret, 1);
lpeters	33:e47306c32791	1565	}
lpeters	33:e47306c32791	1566	}
lpeters	33:e47306c32791	1567	buf[pos] = 0x00;
lpeters	33:e47306c32791	1568	gpsDone = true;
lpeters	33:e47306c32791	1569	}
lpeters	33:e47306c32791	1570	if (pos > 0)
lpeters	33:e47306c32791	1571	printf("GPS: \|%s\|\r\n", buf);
lpeters	34:341fb423e74b	1572	myLedW = 0;
lpeters	35:73b3963c6dd3	1573	if (crcFail)
lpeters	35:73b3963c6dd3	1574	printf("[\u001b[33mWARN\u001b[0m] CRC PASS: %d FAIL: %d\r\n", crcPass, crcFail);
lpeters	35:73b3963c6dd3	1575
lpeters	35:73b3963c6dd3	1576	struct tm ts;
lpeters	35:73b3963c6dd3	1577	time_t t;
lpeters	35:73b3963c6dd3	1578
lpeters	35:73b3963c6dd3	1579	uint8_t tDay = tDate / 10000;
lpeters	35:73b3963c6dd3	1580	uint8_t tMon = (tDate - (tDay * 10000)) / 100;
lpeters	35:73b3963c6dd3	1581	uint8_t tYear = (tDate - ((tDay * 10000) + (tMon * 100))) + 100;
lpeters	35:73b3963c6dd3	1582	uint8_t tHour = tTime / 10000;
lpeters	35:73b3963c6dd3	1583	uint8_t tMin = (tTime - (tHour * 10000)) / 100;
lpeters	35:73b3963c6dd3	1584	uint8_t tSec = (tTime - ((tHour * 10000) + (tMin * 100)));
lpeters	35:73b3963c6dd3	1585
lpeters	35:73b3963c6dd3	1586	ts.tm_year = tYear;
lpeters	35:73b3963c6dd3	1587	ts.tm_mon = tMon - 1;
lpeters	35:73b3963c6dd3	1588	ts.tm_mday = tDay;
lpeters	35:73b3963c6dd3	1589	ts.tm_hour = tHour;
lpeters	35:73b3963c6dd3	1590	ts.tm_min = tMin;
lpeters	35:73b3963c6dd3	1591	ts.tm_sec = tSec;
lpeters	35:73b3963c6dd3	1592	t = mktime(&ts);
lpeters	35:73b3963c6dd3	1593	//printf("DAT: %06d TIM: %d\r\n", tDate, tTime);
lpeters	35:73b3963c6dd3	1594	//printf("CNV: %04d-%02d-%02d@%02d:%02d:%02d\r\n", tYear, tMon, tDay, tHour, tMin, tSec);
lpeters	35:73b3963c6dd3	1595	//printf("T: %d\t%s", t, ctime(&t));
lpeters	35:73b3963c6dd3	1596	printf("GPS: %08X\t%s", t, ctime(&t));
lpeters	35:73b3963c6dd3	1597	mytime = t;
lpeters	35:73b3963c6dd3	1598
lpeters	34:341fb423e74b	1599	if (fixGood)
lpeters	34:341fb423e74b	1600	myLedG = 1;
lpeters	34:341fb423e74b	1601	else
lpeters	34:341fb423e74b	1602	myLedR = 1;
lpeters	33:e47306c32791	1603
lpeters	34:341fb423e74b	1604	for (int i = 0; i < 10; i++) {
lpeters	34:341fb423e74b	1605	myLedB = 1;
lpeters	34:341fb423e74b	1606	wait(0.1);
lpeters	34:341fb423e74b	1607	myLedB = 0;
lpeters	34:341fb423e74b	1608	wait(0.1);
mbed_official	0:7037ed05f54f	1609	}
Huot87	38:fd7a407bfe3e	1610
Huot87	38:fd7a407bfe3e	1611	if (fixGood)
Huot87	38:fd7a407bfe3e	1612	return 0;
Huot87	38:fd7a407bfe3e	1613	else
Huot87	38:fd7a407bfe3e	1614	return 1;
mbed_official	0:7037ed05f54f	1615	}
mbed_official	0:7037ed05f54f	1616
lpeters	37:df69df1bcb1a	1617	void ubxRead()
lpeters	37:df69df1bcb1a	1618	{
lpeters	37:df69df1bcb1a	1619	uint8_t crcPass = 0;
lpeters	37:df69df1bcb1a	1620	uint8_t crcFail = 0;
lpeters	37:df69df1bcb1a	1621
lpeters	37:df69df1bcb1a	1622	myLedW = 1;
lpeters	37:df69df1bcb1a	1623	pos = 0;
lpeters	37:df69df1bcb1a	1624	ret = 0xFF;
lpeters	37:df69df1bcb1a	1625	cmd[0] = 0xFF;
lpeters	37:df69df1bcb1a	1626	i2c.write(NEOM8M_ADR_GPS, cmd, 1);
lpeters	37:df69df1bcb1a	1627	while (ret == 0xFF)
lpeters	37:df69df1bcb1a	1628	{
lpeters	37:df69df1bcb1a	1629	i2c.read(NEOM8M_ADR_GPS, &ret, 1);
lpeters	37:df69df1bcb1a	1630	}
lpeters	37:df69df1bcb1a	1631	while (ret != 0xFF)
lpeters	37:df69df1bcb1a	1632	{
lpeters	37:df69df1bcb1a	1633	buf[pos++] = ret;
lpeters	37:df69df1bcb1a	1634	i2c.read(NEOM8M_ADR_GPS, &ret, 1);
lpeters	37:df69df1bcb1a	1635	}
lpeters	37:df69df1bcb1a	1636	printf("UBX: \| ");
lpeters	37:df69df1bcb1a	1637	for (int i = 0; i <= pos; i++) { printf("%02X ", buf[i]); }
lpeters	37:df69df1bcb1a	1638	printf("\|\r\n", buf);
lpeters	37:df69df1bcb1a	1639	myLedW = 0;
lpeters	37:df69df1bcb1a	1640	//if (crcFail)
lpeters	37:df69df1bcb1a	1641	// printf("[\u001b[33mWARN\u001b[0m] CRC PASS: %d FAIL: %d\r\n", crcPass, crcFail);
lpeters	37:df69df1bcb1a	1642
lpeters	37:df69df1bcb1a	1643	if (pos > 0)
lpeters	37:df69df1bcb1a	1644	myLedG = 1;
lpeters	37:df69df1bcb1a	1645	else
lpeters	37:df69df1bcb1a	1646	myLedR = 1;
lpeters	37:df69df1bcb1a	1647
lpeters	37:df69df1bcb1a	1648	for (int i = 0; i < 10; i++) {
lpeters	37:df69df1bcb1a	1649	myLedB = 1;
lpeters	37:df69df1bcb1a	1650	wait(0.1);
lpeters	37:df69df1bcb1a	1651	myLedB = 0;
lpeters	37:df69df1bcb1a	1652	wait(0.1);
lpeters	37:df69df1bcb1a	1653	}
lpeters	37:df69df1bcb1a	1654	}
lpeters	37:df69df1bcb1a	1655
Huot87	40:eaf476b94684	1656	// HUOT ADDITION -- 08/31/2018 -- Write Packet to EEPROM (on failed send)
Huot87	40:eaf476b94684	1657	void backupPacket()
Huot87	40:eaf476b94684	1658	{
Huot87	40:eaf476b94684	1659	printf("====== IN BACKUP PACKET METHOD ======= \r\n");
Huot87	40:eaf476b94684	1660	int location = eepromCounter * 11;
Huot87	40:eaf476b94684	1661	for (int i = 0; i < 11; i++)
Huot87	40:eaf476b94684	1662	{
Huot87	40:eaf476b94684	1663	writeEEPROMByte(location++, tx_buffer[i]);
Huot87	40:eaf476b94684	1664	}
Huot87	40:eaf476b94684	1665	eepromCounter++;
Huot87	40:eaf476b94684	1666	}
Huot87	40:eaf476b94684	1667
Huot87	40:eaf476b94684	1668	// HUOT ADDITION -- 08/31/2018 -- Read EEPROM Memory into Buffer
Huot87	40:eaf476b94684	1669	void prepBacklogSend()
Huot87	40:eaf476b94684	1670	{
Huot87	40:eaf476b94684	1671	printf("====== IN PREP BACKLOG SEND METHOD ======= \r\n");
Huot87	40:eaf476b94684	1672	int location = (eepromCounter - 1) * 11;
Huot87	40:eaf476b94684	1673	for (int i = 0; i < 11; i++)
Huot87	40:eaf476b94684	1674	{
Huot87	40:eaf476b94684	1675	tx_buffer[i] = readEEPROMByte(location++);
Huot87	40:eaf476b94684	1676	}
Huot87	40:eaf476b94684	1677	}
Huot87	40:eaf476b94684	1678
mbed_official	0:7037ed05f54f	1679	// EOF

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Type:	Program
Created:	13 Sep 2018
Imports:	0
Forks:	0
Commits:	48
Dependents:	0
Dependencies:	6
Followers:	13

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