Added new platform: Wemos ESP8266 D1 mini pro. Now radio starts but still does not send any clock information.

This commit is contained in:
Dirk Jahnke 2018-11-14 21:34:51 +01:00
parent 59a0170b85
commit 672d5baf23
7 changed files with 206 additions and 140 deletions

41
lib/readme.txt Normal file
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@ -0,0 +1,41 @@
This directory is intended for the project specific (private) libraries.
PlatformIO will compile them to static libraries and link to executable file.
The source code of each library should be placed in separate directory, like
"lib/private_lib/[here are source files]".
For example, see how can be organized `Foo` and `Bar` libraries:
|--lib
| |
| |--Bar
| | |--docs
| | |--examples
| | |--src
| | |- Bar.c
| | |- Bar.h
| | |- library.json (optional, custom build options, etc) http://docs.platformio.org/page/librarymanager/config.html
| |
| |--Foo
| | |- Foo.c
| | |- Foo.h
| |
| |- readme.txt --> THIS FILE
|
|- platformio.ini
|--src
|- main.c
Then in `src/main.c` you should use:
#include <Foo.h>
#include <Bar.h>
// rest H/C/CPP code
PlatformIO will find your libraries automatically, configure preprocessor's
include paths and build them.
More information about PlatformIO Library Dependency Finder
- http://docs.platformio.org/page/librarymanager/ldf.html

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@ -8,6 +8,11 @@
; Please visit documentation for the other options and examples
; https://docs.platformio.org/page/projectconf.html
[env:d1_mini_pro]
platform = espressif8266
board = d1_mini_pro
framework = arduino
[env:heltec_wifi_kit_8]
platform = espressif8266
board = heltec_wifi_kit_8

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@ -1,11 +1,8 @@
#ifndef config_h_included
#define config_h_included
#define PIN_MASTER_CLIENT_SELECT 2
#define ROLE_MASTER LOW
#define ROLE_CLIENT HIGH
#define PIN_NRF24_CE 10
#define PIN_NRF24_CSN 8
#define PIN_NRF24_CE 2 /*10*/
#define PIN_NRF24_CSN 15 /*8*/
#define PIN_RELAY1 5
#define PIN_RELAY2 6

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@ -6,7 +6,10 @@
// display
U8G2_SSD1306_128X32_UNIVISION_F_HW_I2C u8g2(U8G2_R0, /* reset=*/ 16, /* clock=*/ 5, /* data=*/ 4);
//U8G2_SSD1306_128X32_UNIVISION_F_HW_I2C u8g2(U8G2_R0, /* reset=*/ 16, /* clock=*/ 5, /* data=*/ 4);
U8G2_SSD1306_128X32_UNIVISION_F_HW_I2C u8g2(U8G2_R0, /* reset=16*/ -1, /* clock=*/ 5, /* data=*/ 4);
//U8G2_SSD1306_128X64_NONAME_1_HW_I2C u8g2(U8G2_R0);
//U8X8_SH1106_128X64_NONAME_4W_HW_SPI u8g2(/* cs=*/ 10, /* dc=*/ 9, /* reset=*/ 8);
#define LOGO16_GLCD_HEIGHT 16
#define LOGO16_GLCD_WIDTH 16

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@ -9,11 +9,11 @@
#include <ArduinoJson.h>
#include <SPI.h>
#include <RF24.h>
#include "config.h"
#include "display.h"
#include "fastclock.h"
#include "radio.h"
#define AUTOSTART_CLOCK_AFTER_ms 10000
@ -30,14 +30,12 @@ char static_sn[16] = "255.255.255.0";
//flag for saving data
bool shouldSaveConfig = false;
RF24 radio(PIN_NRF24_CE, PIN_NRF24_CSN);
byte addresses[][6] = {NETWORK_ADDRESS_MASTER_SEND, NETWORK_ADDRESS_MASTER_RECEIVE};
// FastClock
bool isMaster = true;
Display display;
Fastclock fastclock(&display);
Radio radio(&display, true /*isMaster*/);
//callback notifying us of the need to save config
void saveConfigCallback () {
@ -205,23 +203,7 @@ void setup() {
// setupWifiConnection();
// setting up RF24
#if 0
display.addLogMessage("Start RF24 radio");
radio.begin();
// Open a writing and reading pipe on each radio, with opposite addresses
if (isMaster){
radio.openWritingPipe(addresses[1]);
radio.openReadingPipe(1,addresses[0]);
} else {
radio.openWritingPipe(addresses[0]);
radio.openReadingPipe(1,addresses[1]);
}
// Start the radio listening for data
radio.startListening();
#endif
fastclock.begin();
}
@ -231,8 +213,8 @@ void loop(void)
return;
}
#if defined(AUTOSTART_CLOCK_AFTER_ms)
#if AUTOSTART_CLOCK_AFTER_ms > 0
#if defined(AUTOSTART_CLOCK_AFTER_ms)
#if AUTOSTART_CLOCK_AFTER_ms > 0
static unsigned long autostart_ms = 0;
static bool autostartDone = false;
if (autostart_ms == 0) {
@ -242,111 +224,10 @@ void loop(void)
fastclock.setClockHalted(false);
Serial.println("Clock started automatically");
}
#endif
#endif
#endif
#endif
fastclock.loop();
display.showDashboard();
#if 0
// put your main code here, to run repeatedly:
/****************** Ping Out Role ***************************/
if (isMaster) {
radio.stopListening();
Serial.println(F("Now sending"));
unsigned long start_time = micros();
if (!radio.write(&start_time, sizeof(unsigned long))) {
Serial.println(F("failed"));
}
radio.startListening();
unsigned long started_waiting_at = micros();
boolean timeout = false;
while (!radio.available()) {
if (micros() - started_waiting_at > 200000 ) { // If waited longer than 200ms, indicate timeout and exit while loop
timeout = true;
break;
}
}
if (timeout) {
Serial.println(F("Failed, response timed out."));
} else {
unsigned long got_time;
radio.read( &got_time, sizeof(unsigned long) );
unsigned long end_time = micros();
// Spew it
Serial.print(F("Sent "));
Serial.print(start_time);
Serial.print(F(", Got response "));
Serial.print(got_time);
Serial.print(F(", Round-trip delay "));
Serial.print(end_time-start_time);
Serial.println(F(" microseconds"));
}
// Try again 1s later
delay(1000);
}
/****************** Pong Back Role ***************************/
if (!isMaster)
{
unsigned long got_time;
if( radio.available()){
// Variable for the received timestamp
while (radio.available()) { // While there is data ready
radio.read( &got_time, sizeof(unsigned long) ); // Get the payload
}
radio.stopListening(); // First, stop listening so we can talk
radio.write( &got_time, sizeof(unsigned long) ); // Send the final one back.
radio.startListening(); // Now, resume listening so we catch the next packets.
Serial.print(F("Sent response "));
Serial.println(got_time);
}
}
#endif
}
#if 0
#ifdef RF_RadioHead
if (!Datagram.init()) {
LOG(LL_ERROR, ("*** Datagram init failed"));
}
#endif
#ifdef RF_RF24
radio.begin();
if (radio.isChipConnected()) { LOG(LL_INFO, ("*** RF chip found")); }
else { LOG(LL_ERROR, ("*** ERROR: RF chip not found!")); }
radio.setChannel(1);
radio.setPALevel(RF24_PA_MAX);
radio.setDataRate(RF24_2MBPS);
radio.setAutoAck(0);
//radio.setRetries(2,15); // Optionally, increase the delay between retries & # of retries
radio.setCRCLength(RF24_CRC_8);
radio.openWritingPipe(pipes[0]);
radio.openReadingPipe(1,pipes[1]);
radio.startListening();
radio.printDetails();
// @TODO: real random seed!
//randomSeed(analogRead(0));
//randomSeed(22);
radio.powerUp();
LOG(LL_INFO, ("*** RF payload size=%d bytes", radio.getPayloadSize()));
if (radio.testCarrier() || radio.testRPD()) { LOG(LL_INFO, ("*** Carrier/RPD seen on radio")); }
if (radio.failureDetected) { LOG(LL_ERROR, ("*** Radio error detected!")); }
#endif
#endif

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src/radio.cpp Normal file
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#include <Arduino.h>
#include <nRF24L01.h>
#include <RF24.h>
#include "config.h"
#include "radio.h"
static RF24 rf24(PIN_NRF24_CE, PIN_NRF24_CSN); // 10, 8
static byte addresses[][6] = {NETWORK_ADDRESS_MASTER_SEND, NETWORK_ADDRESS_MASTER_RECEIVE};
void Radio::begin(void) {
display->addLogMessage("Start RF24 radio");
pinMode(PIN_NRF24_CSN, OUTPUT);
pinMode(PIN_NRF24_CE, OUTPUT);
return;
rf24.begin();
if (rf24.isChipConnected()) { display->addLogMessage("*** RF chip found"); }
else { display->addLogMessage("*** ERROR: RF chip not found!"); }
rf24.setChannel(1);
rf24.setPALevel(RF24_PA_MAX);
rf24.setDataRate(RF24_2MBPS);
rf24.setAutoAck(0);
//radio.setRetries(2,15); // Optionally, increase the delay between retries & # of retries
rf24.setCRCLength(RF24_CRC_8);
rf24.openWritingPipe(addresses[0]);
rf24.openReadingPipe(1, addresses[1]);
rf24.startListening();
rf24.printDetails();
// @TODO: real random seed!
//randomSeed(analogRead(0));
//randomSeed(22);
rf24.powerUp();
Serial.print("*** RF payload size="); Serial.print(rf24.getPayloadSize()); Serial.println(" bytes");
if (rf24.testCarrier() || rf24.testRPD()) { display->addLogMessage("*** Carrier/RPD seen on radio"); }
if (rf24.failureDetected) { display->addLogMessage("*** Radio error detected!"); }
#if 0
// Open a writing and reading pipe on each radio, with opposite addresses
if (isMaster){
rf24.openWritingPipe(addresses[1]);
rf24.openReadingPipe(1,addresses[0]);
} else {
rf24.openWritingPipe(addresses[0]);
rf24.openReadingPipe(1,addresses[1]);
}
#endif
// Start the radio listening for data
rf24.startListening();
}
void Radio::loop(void) {
#if 0
// put your main code here, to run repeatedly:
/****************** Ping Out Role ***************************/
if (isMaster) {
radio.stopListening();
Serial.println(F("Now sending"));
unsigned long start_time = micros();
if (!radio.write(&start_time, sizeof(unsigned long))) {
Serial.println(F("failed"));
}
radio.startListening();
unsigned long started_waiting_at = micros();
boolean timeout = false;
while (!radio.available()) {
if (micros() - started_waiting_at > 200000 ) { // If waited longer than 200ms, indicate timeout and exit while loop
timeout = true;
break;
}
}
if (timeout) {
Serial.println(F("Failed, response timed out."));
} else {
unsigned long got_time;
radio.read( &got_time, sizeof(unsigned long) );
unsigned long end_time = micros();
// Spew it
Serial.print(F("Sent "));
Serial.print(start_time);
Serial.print(F(", Got response "));
Serial.print(got_time);
Serial.print(F(", Round-trip delay "));
Serial.print(end_time-start_time);
Serial.println(F(" microseconds"));
}
// Try again 1s later
delay(1000);
}
/****************** Pong Back Role ***************************/
if (!isMaster)
{
unsigned long got_time;
if( radio.available()){
// Variable for the received timestamp
while (radio.available()) { // While there is data ready
radio.read( &got_time, sizeof(unsigned long) ); // Get the payload
}
radio.stopListening(); // First, stop listening so we can talk
radio.write( &got_time, sizeof(unsigned long) ); // Send the final one back.
radio.startListening(); // Now, resume listening so we catch the next packets.
Serial.print(F("Sent response "));
Serial.println(got_time);
}
}
#endif
}

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src/radio.h Normal file
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#ifndef radio_h_included
#define radio_h_included
#include "config.h"
#include "display.h"
class Radio {
public:
Radio(Display *d, bool _isMaster):display(d), isMaster(_isMaster) { };
void begin(void);
void loop(void);
private:
Display *display;
bool isMaster;
};
#endif