wt32powermeter/wt32pamon.ino
Michael Clemens // DK1MI d7a5529c86 „wt32pamon.ino“ ändern
2023-05-11 08:49:43 +00:00

599 lines
18 KiB
C++

/****************************************************************************************************************************
Remote PA Monitor - solution to remotely monitor RF power, VSWR and more of QO-100 power amplifiers
For Ethernet shields using WT32_ETH01 (ESP32 + LAN8720)
Uses WebServer_WT32_ETH01, a library for the Ethernet LAN8720 in WT32_ETH01 to run WebServer
Michael Clemens, DK1MI
Licensed under MIT license
*****************************************************************************************************************************/
#define DEBUG_ETHERNET_WEBSERVER_PORT Serial
// Debug Level from 0 to 4
#define _ETHERNET_WEBSERVER_LOGLEVEL_ 3
#define FORMAT_SPIFFS_IF_FAILED true
#include <WebServer_WT32_ETH01.h>
#include "index.h" // Main Web page header file
#include <Preferences.h>
#include "FS.h"
#include "SPIFFS.h"
Preferences config;
String config_items [ ] = {"show_mV", "show_dBm", "show_watt", "vswr_threshold", "vswr_beep", "selected_band", "antenna_name"};
String config_defaults [ ] = {"true", "true", "true", "2", "true", "70cm", " "};
double fwd_array [3300] = {};
double ref_array [3300] = {};
int voltage_fwd,voltage_ref;
double fwd_dbm=0, ref_dbm=0;
double fwd_watt=0, ref_watt=0;
byte iii=0;
String conf_content;
String conf_textareas = "";
String conf_config_table = "";
String band = "";
String default_band = "70cm";
String band_fwd = band + "_fwd";
String band_ref = band + "_ref";
String band_list []= {"1.25cm", "3cm", "6cm", "9cm", "13cm", "23cm", "70cm", "2m", "HF"};
int IO2_FWD = 2;
int IO4_REF = 4;
WebServer server(80);
// Select the IP address according to your local network
//IPAddress myIP(192, 168, 88, 247);
//IPAddress myGW(192, 168, 88, 1);
//IPAddress mySN(255, 255, 255, 0);
// Google DNS Server IP
//IPAddress myDNS(8, 8, 8, 8);
String readFile(fs::FS &fs, const char * path){
Serial.printf("Reading file: %s\r\n", path);
File file = fs.open(path);
if(!file || file.isDirectory()){
Serial.println("failed to open file for reading");
return "";
}
String ret = "";
Serial.println("read from file:");
while(file.available()){
ret+=char(file.read());
}
file.close();
return ret;
}
void writeFile(fs::FS &fs, const char * path, const char * message){
Serial.printf("Writing file: %s\r\n", path);
File file = fs.open(path, FILE_WRITE);
if(!file){
Serial.println("failed to open file for writing");
return;
}
if(file.print(message)){
Serial.println("file written");
}else {
Serial.println("file write failed");
}
file.close();
}
// converts dBm to Watt
double dbm_to_watt(double dbm) {
return pow( 10.0, (dbm - 30.0) / 10.0);
}
// takes a voltage value and translates it
// to dBm based on the corresponding lookup table
double millivolt_to_dbm(int mv, bool fwd)
{
double lastval = 0;
double nextval = 0;
int lastkey = 0;
int nextkey = 0;
double stored_val = 0;
int lowest_val_in_table = 0;
int highest_val_in_table = 0;
for (int i=0; i<3300; i++) {
if (fwd) {
//stored_val = translation_fwd.getFloat(String(i).c_str());
stored_val = fwd_array[i];
if (stored_val != 0){
Serial.println("key: " + String(i) + " - " + String(stored_val));
}
} else {
//stored_val = translation_ref.getFloat(String(i).c_str());
stored_val = ref_array[i];
}
if (stored_val != 0) {
if (lowest_val_in_table == 0){
lowest_val_in_table = i; //finds the lowest voltage value stored in the table
}
highest_val_in_table = i; // we will have the highest voltage value in the table at the end of the loop
if (i < mv) {
lastval = stored_val;
lastkey = i;
} else {
nextval = stored_val;
nextkey = i;
break;
}
}
}
Serial.println("lastkey: "+String(lastkey));
Serial.println("lastval: "+String(lastval));
double lowerkey = min(lastkey, nextkey);
double lowerval = min(lastval, nextval);
double diffkey = max(lastkey, nextkey) - min(lastkey, nextkey);
double diffval = max(lastval, nextval) - min(lastval, nextval);
double result = lowerval + ((diffval / diffkey) * (mv - lowerkey));
if (mv < lowest_val_in_table || mv > highest_val_in_table){
result = -9999;
}
//Serial.print("measured voltage: " + String(mv) + " LastVal: " + String(lastval) + " LastKey: " + String(lastkey) + " Nextval: " + String(nextval) + " NextKey:" + String(nextkey) + "\n");
return result;
}
// read voltages from both input pins
// calculates avaerage value of 20 measurements
void read_directional_couplers()
{
int voltage_sum_fwd = 0;
int voltage_sum_ref = 0;
for(iii=0; iii<50; iii++) // Take 20 samples and save the highest value
{ voltage_sum_fwd += analogReadMilliVolts(IO2_FWD);
voltage_sum_ref += analogReadMilliVolts(IO4_REF);
}
voltage_fwd = voltage_sum_fwd/50; // use peak voltage for processing
voltage_ref = voltage_sum_ref/50;
fwd_dbm = millivolt_to_dbm(voltage_fwd, true);
ref_dbm = millivolt_to_dbm(voltage_ref, false);
if (fwd_dbm != -9999){
fwd_watt = dbm_to_watt(fwd_dbm);
} else {
fwd_watt = -9999;
}
if (fwd_dbm != -9999){
ref_watt = dbm_to_watt(ref_dbm);
} else {
ref_watt = -9999;
}
}
// delivers the dashboard page in "index.h"
void handleRoot()
{
String s = MAIN_page;
server.send(200, "text/html", s);
}
// delivers a 404 page if a non-existant resouurce is requested
void handleNotFound()
{
String message = F("File Not Found\n\n");
message += F("URI: ");
message += server.uri();
message += F("\nMethod: ");
message += (server.method() == HTTP_GET) ? F("GET") : F("POST");
message += F("\nArguments: ");
message += server.args();
message += F("\n");
for (uint8_t i = 0; i < server.args(); i++)
{
message += " " + server.argName(i) + ": " + server.arg(i) + "\n";
}
server.send(404, F("text/plain"), message);
}
String watt_or_williwatt(double val){
String ret = "0";
if (val < 0.001){
ret = String(val*1000000,0) + " uW";
} else if (val < 1) {
ret = String(val*1000,0) + " mW";
} else {
ret = String(val,3) + " W";
}
ret.replace("nan", "---");
return ret;
}
// executes the function to gather sensor data
// delivers gathered data to dashboard page
// invoked periodically by the dashboard page
void handleDATA() {
read_directional_couplers();
// calculate VSWR
double vswr = (1 + sqrt(ref_watt/fwd_watt)) / (1 - sqrt(ref_watt/fwd_watt));
String vswr_str = "-1";
String fwd_watt_str = "";
String ref_watt_str = "";
if (vswr >= 1) {
vswr_str = String(vswr);
}
double rl = fwd_dbm - ref_dbm;
// get vswr_threshold from general config
String vswr_threshold = config.getString(String("vswr_threshold").c_str());
String voltage_fwd_str = "";
String voltage_ref_str = "";
if (config.getString(String("show_mV").c_str()) != "false") {
voltage_fwd_str = String(voltage_fwd) + " mV";
voltage_ref_str = String(voltage_ref) + " mV";
}
String fwd_dbm_str = "";
String ref_dbm_str = "";
if (config.getString(String("show_dBm").c_str()) != "false") {
fwd_dbm_str = String(fwd_dbm,3) + " dBm";
ref_dbm_str = String(ref_dbm,3) + " dBm";
}
//fwd_dbm_str.replace("nan", "-- ");
//fwd_dbm_str.replace("-9999", "-- ");
if (fwd_dbm_str.startsWith("nan") || fwd_dbm_str.startsWith("-9999")){
fwd_dbm_str = "-- ";
fwd_watt_str = "-- ";
} else {
//String fwd_watt_str = "";
if (config.getString(String("show_watt").c_str()) != "false") {
fwd_watt_str = watt_or_williwatt(fwd_watt);
}
}
if (ref_dbm_str.startsWith("nan") || ref_dbm_str.startsWith("-9999")){
ref_dbm_str = "-- ";
ref_watt_str = "-- ";
} else {
if (config.getString(String("show_watt").c_str()) != "false") {
ref_watt_str = watt_or_williwatt(ref_watt);
}
}
//ref_dbm_str.replace("nan", "-- ");
//ref_dbm_str.replace("-9999", "-- ");
String rl_str = (String(rl));
rl_str.replace("nan", "-- ");
/*
String fwd_watt_str = "";
String ref_watt_str = "";
if (config.getString(String("show_watt").c_str()) != "false") {
fwd_watt_str = watt_or_williwatt(fwd_watt);
ref_watt_str = watt_or_williwatt(ref_watt);
}
if (fwd_watt_str.startsWith("nan") || fwd_watt_str.startsWith("-9999")){
fwd_watt_str = "-- ";
}
if (ref_watt_str.startsWith("nan") || ref_watt_str.startsWith("-9999")){
ref_watt_str = "-- ";
}
//fwd_watt_str.replace("-9999", "-- ");
//ref_watt_str.replace("-9999", "-- ");
*/
String antenna_name = config.getString(String("antenna_name").c_str());
String vswr_beep = config.getString(String("vswr_beep").c_str());
String output = fwd_watt_str + ";" + fwd_dbm_str + ";" + voltage_fwd_str + ";" + ref_watt_str + ";" + ref_dbm_str + ";" + voltage_ref_str + ";" + vswr_str + ";" + rl_str + ";" + band + ";" + String(vswr_threshold) + ";" + antenna_name + ";" + vswr_beep;
server.send(200, "text/plane", output);
}
// main function for displaying the configuration page
// invoked by the "configuration" button on the dashboard page
void handleCONFIG() {
if (conf_textareas == "") {
build_textareas();
}
if (conf_config_table == "") {
build_config_table();
}
conf_content = "<!DOCTYPE HTML>\r\n<html>";
conf_content += "<style>";
conf_content += ".styled-table{border-collapse: collapse; margin: 25px 0; font-size: 0.9em; font-family: sans-serif; min-width: 400px; box-shadow: 0 0 20px rgba(0, 0, 0, 0.15);}.styled-table thead tr{background-color: #009879; color: #ffffff; text-align: left;}.styled-table tbody tr{border-bottom: 1px solid #dddddd;}.styled-table tbody tr:nth-of-type(even){background-color: #f3f3f3;}.styled-table tbody tr:last-of-type{border-bottom: 2px solid #009879;}.styled-table tbody tr.active-row{font-weight: bold; color: #009879;}";
conf_content += ".button{background-color: #009879; border: none; color: white; padding: 5px 5px; text-align: center; text-decoration: none; display: inline-block; margin: 4px 2px; cursor: pointer; border-radius: 8px;}";
conf_content += "</style>";
conf_content += "<h1>Configuration</h1>";
conf_content += "<h3>Band Selection</h1>";
conf_content += "<form method='POST' action='/selectband'>";
conf_content += "<label for='bands'></label><select class='button' onchange='this.form.submit()'' id='band' name='bands' size='1'>";
for (int i=0; i<sizeof band_list/sizeof band_list[0]; i++) {
String selected = "";
if (band_list[i] == band) {
selected = "selected";
}
conf_content += "<option value='" + band_list[i] + "' " + selected + " >" + band_list[i] + "</option>";
}
conf_content += "</select></form>";
conf_content += "<p>";
conf_content += "<h2>Translation Detector voltage /mV to RF-Power level /dBm</h3>";
conf_content += conf_textareas;
conf_content += "<p>";
conf_content += "<h2>General Configuration Items</h3>";
conf_content += "<p>";
conf_content += conf_config_table;
conf_content += "<p><form method='POST' action='/'><button class='button' value='back' name='back' type='submit'>Back to Dashboard</button></form>";
conf_content += "</html>";
server.send(200, "text/html", conf_content);
}
// generates the translation table for either the FWD or
// REF values
void build_textareas() {
String fwd = readFile(SPIFFS, String("/" + band + "fwd.txt").c_str());
String ref = readFile(SPIFFS, String("/" + band + "ref.txt").c_str());
Serial.println("From disk: "+ fwd);
clear_fwd_ref_array();
save_string_to_array(fwd, fwd_array);
save_string_to_array(ref, ref_array);
String tbl = "<form action=\"/modtranslation\" method=\"POST\">";
tbl += "<table class='styled-table'>";
tbl += "<thead><tr><td>"+band+" FWD (mV:dBm)</td><td>"+band+" REF (mV:dBm)</td></tr></thead>";
tbl += "<tr><td>";
tbl += "<textarea id='fwd_textarea' name='fwd_textarea' rows='30' cols='25'>";
for (int i=0; i<sizeof fwd_array/sizeof fwd_array[0]; i++) {
if (fwd_array[i] != 0){
tbl += String(i) +":"+String(fwd_array[i],5) + "\n";
}
}
tbl += "</textarea>";
tbl += "</td><td>";
tbl += "<textarea id='ref_textarea' name='ref_textarea' rows='30' cols='25'>";
for (int i=0; i<sizeof ref_array/sizeof ref_array[0]; i++) {
if (ref_array[i] != 0){
tbl += String(i) +":"+String(ref_array[i],5) + "\n";
}
}
tbl += "</textarea>";
tbl += "</td></tr></table>";
tbl += "<p><button class='button' value='save' name='save' type='submit'>save</button>";
tbl += "</form>";
conf_textareas = tbl;
}
// generates the table with generic configuration items
void build_config_table() {
conf_config_table = "<form action=\"/modcfg\" method=\"POST\">";
conf_config_table += "<table class='styled-table'>";
conf_config_table += "<thead><tr><td>Key</td><td>Value</td></td><td>Action</td></tr></thead>";
for (int i=0; i<sizeof config_items/sizeof config_items[0]; i++) {
String stored_val = config.getString(config_items[i].c_str(), "xxx");
if (stored_val == "xxx"){
config.putString(config_items[i].c_str(), config_defaults[i]);
stored_val = config.getString(config_items[i].c_str(), "");
}
conf_config_table += "<tr><td>";
conf_config_table += config_items[i];
conf_config_table += "</td><td>";
conf_config_table += String(stored_val);
conf_config_table += "</td><td>";
conf_config_table += "</td></tr>";
}
conf_config_table += "<tr><td><input name='conf_key' length=16></td><td><input name='conf_value' length=16></td><td><button class='button' type='submit'>edit</button></td></tr>";
conf_config_table += "</table></form>";
handleCONFIG();
}
// Handle request from the config page to change or add values
// to the XXXX value table for the selected band
void handleMODTRANS() {
String fwd = server.arg("fwd_textarea") + "\n";
String ref = server.arg("ref_textarea") + "\n";
clear_fwd_ref_array();
save_string_to_array(fwd,fwd_array);
save_string_to_array(ref,ref_array);
// OWN FUNCTION
String fwd_of_array = "";
for (int i=0; i<sizeof fwd_array/sizeof fwd_array[0]; i++) {
if (fwd_array[i] != 0){
fwd_of_array += String(i) +":"+String(fwd_array[i],5) + "\n";
}
}
writeFile(SPIFFS, String("/" + band + "fwd.txt").c_str(), fwd_of_array.c_str());
String ref_of_array = "";
for (int i=0; i<sizeof ref_array/sizeof ref_array[0]; i++) {
if (ref_array[i] != 0){
ref_of_array += String(i) +":"+String(ref_array[i],5) + "\n";
}
}
writeFile(SPIFFS, String("/" + band + "ref.txt").c_str(), ref_of_array.c_str());
build_textareas();
handleCONFIG();
}
void clear_fwd_ref_array(){
for (int x = 0; x < sizeof(fwd_array) / sizeof(fwd_array[0]); x++)
{
fwd_array[x] = 0;
ref_array[x] = 0;
}
}
void save_string_to_array(String table_data, double arr []){
int r=0,t=0;
for(int i=0;i<table_data.length();i++)
{
if(table_data[i] == '\n' || i==table_data.length())
{
if (i-r > 1)
{
//tmp[t] = table_data.substring(r,i);
Serial.println("row: " + table_data.substring(r,i));
String row = table_data.substring(r,i);
t++;
int r2=0,t2=0;
for(int j=0;j<row.length();j++)
{
if(row[j] == ':' || row[j] == '\n')
{
if (j-r2 > 1)
{
int key = row.substring(r2,j).toInt();
double val = row.substring(j+1).toDouble();
arr[key] = val;
t2++;
}
r2 = (j+1);
}
}
}
r = (i+1);
}
}
}
// Handle request from the config page to change or add values
// to the genral config value table for the selected band
void handleMODCFG() {
String key = server.arg("conf_key");
String value = server.arg("conf_value");
for (int i=0; i<sizeof config_items/sizeof config_items[0]; i++) {
if (config_items[i] == key) {
if (key != "" and value != "") {
config.putString(config_items[i].c_str(), value);
conf_config_table = "";
break;
}
}
}
build_config_table();
}
// changes the band according to the user's selection
// regenerates the translation tables and fills them
// with the values assigned to the respective band
// invoked by selecting a band from the select box of teh config page
void handleBAND() {
band = server.arg("bands");
band_fwd = band + "_fwd";
band_ref = band + "_ref";
config.putString(String("selected_band").c_str(), band);
conf_textareas = "";
conf_config_table = "";
//build_config_table();
//build_textareas();
handleCONFIG();
}
// initialization routine
void setup()
{
// DELETEME: Cleanup from old ver
config.remove(String("show_fwd").c_str());
config.remove(String("show_ref").c_str());
config.remove(String("show_swr").c_str());
Serial.begin(115200);
while (!Serial);
// Using this if Serial debugging is not necessary or not using Serial port
//while (!Serial && (millis() < 3000));
Serial.print("\nStarting AdvancedWebServer on " + String(ARDUINO_BOARD));
Serial.println(" with " + String(SHIELD_TYPE));
Serial.println(WEBSERVER_WT32_ETH01_VERSION);
// To be called before ETH.begin()
WT32_ETH01_onEvent();
ETH.begin(ETH_PHY_ADDR, ETH_PHY_POWER);
// Static IP, leave without this line to get IP via DHCP
//ETH.config(myIP, myGW, mySN, myDNS);
WT32_ETH01_waitForConnect();
// activates single web server endpoints
server.on(F("/"), handleRoot);
server.on("/readDATA", handleDATA);
server.on("/config", handleCONFIG);
server.on("/modcfg", handleMODCFG);
server.on("/selectband", handleBAND);
server.on("/modtranslation", handleMODTRANS);
if(!SPIFFS.begin(FORMAT_SPIFFS_IF_FAILED)){
Serial.println("SPIFFS Mount Failed");
return;
}
server.onNotFound(handleNotFound);
server.begin();
Serial.print(F("HTTP EthernetWebServer is @ IP : "));
Serial.println(ETH.localIP());
analogReadResolution(12);
config.begin("config", false);
band = config.getString(String("selected_band").c_str());
if (band == ""){
config.putString(String("selected_band").c_str(), default_band);
band = default_band;
}
Serial.println("band: " + band);
build_textareas();
Serial.println("done");
}
void loop()
{
server.handleClient();
}