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base: Airsoft:1.02
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Airsoft:master
Airsoft:1.08 Airsoft:1.07 Airsoft:1.06 Airsoft:1.05 Airsoft:1.04_RC1 Airsoft:1.03 Airsoft:1.02 Airsoft:PCB_Rev_1.0 Airsoft:Release-1.0
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compare: Airsoft:1.06
Branches Tags
Airsoft:master
Airsoft:1.08 Airsoft:1.07 Airsoft:1.06 Airsoft:1.05 Airsoft:1.04_RC1 Airsoft:1.03 Airsoft:1.02 Airsoft:PCB_Rev_1.0 Airsoft:Release-1.0

29 Commits
1.02 ... 1.06

Author SHA1 Message Date
Marcel Peterkau
837fd7f558 updated Version before tag 2024-05-31 14:05:07 +02:00
Marcel Peterkau
6cacd8451f missed import in Buildscript 2024-05-31 14:04:57 +02:00
Marcel Peterkau
5ae054f314 improved UART Parser for LoRa 2024-05-31 13:59:11 +02:00
Marcel Peterkau
3e571a515d some Init-Stuff optimized and made Log nicer 2024-05-31 13:58:36 +02:00
Marcel Peterkau
a2aa302121 optimized dtc-table in WebUI 2024-05-31 12:50:01 +02:00
Marcel Peterkau
d04489819d highlite active Faction in WEbUI 2024-05-31 12:49:38 +02:00
Marcel Peterkau
52026296f2 updated DeviceName handling 2024-05-31 12:49:06 +02:00
Marcel Peterkau
a22f71649a updated Buildscripts to have central Versioning 2024-05-31 12:47:45 +02:00
Marcel Peterkau
ae8eef52ef missed to relplace some strings 2024-05-31 03:07:37 +02:00
Marcel Peterkau
d9ee193e26 missed to add function to websocket.js 2024-05-31 03:06:00 +02:00
Marcel Peterkau
170c66ff49 updated plaformio.ini 2024-05-31 03:04:41 +02:00
Marcel Peterkau
2ad835966c websocket-parser now supports div 2024-05-31 03:04:27 +02:00
Marcel Peterkau
a20a351002 adjusted systemStatus variants to this Project 2024-05-31 03:04:07 +02:00
Marcel Peterkau
c9fba23e70 got most of the WebUI updated and working 2024-05-31 03:03:47 +02:00
Marcel Peterkau
9301607468 added reboot-command 2024-05-31 01:19:47 +02:00
Marcel Peterkau
fc592c4342 some debugging regarding EEPROM 2024-05-31 01:16:26 +02:00
Marcel Peterkau
ab2ab0e0c1 Updated javasccript of WebUI 2024-05-30 23:55:54 +02:00
Marcel Peterkau
5ee0a23a6d updated some comments after migrating stuff from other Project 2024-05-30 23:48:26 +02:00
Marcel Peterkau
cf76ea7cc7 updated Project with elementes From ChainLube-Project 2024-05-30 23:38:05 +02:00
Marcel Peterkau
7a2e95c126 added codegen-scripts and updated libs 2024-05-30 23:37:01 +02:00
Marcel Peterkau
1cf0560957 updated FW Version Number 2024-05-01 20:42:34 +02:00
Marcel Peterkau
b66d175948 Fixed Bug in LoRa Uart Parser, because I'm stupid 2024-05-01 20:35:09 +02:00
Marcel Peterkau
0967b6aa65 Bugfix in LoRa-Uart 2023-05-28 19:36:39 +02:00
Marcel Peterkau
498d813624 increase Version after Release 2023-05-25 20:59:18 +02:00
Marcel Peterkau
268c204957 added LoraUartCommand Interpreter 2023-05-25 19:59:34 +02:00
Marcel Peterkau
65d51f13aa added Pinout for LoRa-UART 2023-05-25 14:00:18 +02:00
Marcel Peterkau
f727bb3247 first Draft of UART for external LoRa-Module 2023-05-25 14:00:06 +02:00
Marcel Peterkau
cd1379f90c updated project-config 2023-05-25 10:58:50 +02:00
Marcel Peterkau
0363b1eebc increase Version after Release 2023-04-30 10:08:34 +02:00
58 changed files with 3351 additions and 1347 deletions
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1
Software/.gitignore vendored
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@@ -5,3 +5,4 @@ data/
.vscode/launch.json .vscode/launch.json
.vscode/ipch .vscode/ipch
wifi_credentials.ini wifi_credentials.ini
__pycache__

145
Software/codegen/dtcs.py Normal file
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@@ -0,0 +1,145 @@
import os
import time
from jinja2 import Environment, FileSystemLoader
import json
import sys
import filechecksum as fcs
def build_dtcs():
# Pfad zur Eingabedatei und Ausgabedatei
input_file = "src/dtc_defs.txt"
output_file = "include/dtc_defs.h"
json_output_file = "data_src/static/dtc_table.json"
# Überprüfen, ob das Verzeichnis existiert, andernfalls erstellen
json_output_dir = os.path.dirname(json_output_file)
if not os.path.exists(json_output_dir):
os.makedirs(json_output_dir)
# Mehrdimensionales Array zum Speichern der Zeilen aus der Eingabedatei
dtc_lines = []
# Lesen und analysieren der Eingabedatei
with open(input_file, "r", encoding="utf-8") as f:
for line in f:
line = line.strip()
if not line or line.startswith("#"):
continue
parts = line.split(";")
if len(parts) == 5:
num, dtc_name, dtc_severity, title, description = [part.strip() for part in parts]
dtc_lines.append([int(num), dtc_name, dtc_severity, title, description])
# Überprüfen auf Duplikate in den DTC-Nummern und DTC-Namen
num_set = set()
dtc_name_set = set()
duplicates = []
for line in dtc_lines:
num, dtc_name, _, _, _ = line
if num in num_set:
duplicates.append(f"DTC-Nummer {num} ist ein Duplikat.")
else:
num_set.add(num)
if dtc_name in dtc_name_set:
duplicates.append(f"DTC-Name '{dtc_name}' ist ein Duplikat.")
else:
dtc_name_set.add(dtc_name)
if duplicates:
for duplicate in duplicates:
print(f"Fehler: {duplicate}")
raise ValueError("Duplicate DTC Data detected")
# Suchen nach DTC_NO_DTC und DTC_LAST_DTC
dtc_no_dtc_added = False
dtc_last_dtc_line = None
for line in dtc_lines:
_, dtc_name, _, _, _ = line
if dtc_name == "DTC_NO_DTC":
dtc_no_dtc_added = True
elif dtc_name == "DTC_LAST_DTC":
dtc_last_dtc_line = line
# Einen DTC für DTC_NO_DTC hinzufügen (wenn nicht vorhanden)
if not dtc_no_dtc_added:
dtc_lines.insert(0, [0, "DTC_NO_DTC", "DTC_NONE", "No Error", "No Error"])
# Falls DTC_LAST_DTC existiert, lösche es
if dtc_last_dtc_line:
dtc_lines.remove(dtc_last_dtc_line)
# Einen DTC für DTC_LAST_DTC hinzufügen (mit der höchsten Nummer)
if dtc_lines:
highest_num = max([line[0] for line in dtc_lines])
else:
highest_num = 0
dtc_lines.append([highest_num + 1, "DTC_LAST_DTC", "DTC_NONE", "Last Error", "Last Error"])
# Sortieren der Zeilen nach der Nummer aufsteigend
dtc_lines.sort(key=lambda x: x[0])
checksum = fcs.calculate_checksum(dtc_lines)
timestamp = int(time.time())
if fcs.read_and_compare_checksum(output_file, checksum):
print("Keine Änderungen im DTC-Headerfile erforderlich.")
else:
# DTC_NAME_CONSTANT-Makros initialisieren
dtc_macros = []
dtc_structs = []
# Verarbeiten der sortierten Zeilen
for i, line in enumerate(dtc_lines):
num, dtc_name, dtc_severity, title, description = line
dtc_macros.append(f"#define {dtc_name:<30} {num}")
comma = "," if i < len(dtc_lines) - 1 else " "
dtc_structs.append(f" {{ {dtc_name:<30}, {dtc_severity:<12} }}{comma} // {description}")
env = Environment(loader=FileSystemLoader('codegen/templates', encoding='utf-8'))
# Lade das Jinja2-Template aus der Datei
template = env.get_template('dtc_defs.h.j2')
# Erstelle ein Context-Dictionary mit den erforderlichen Daten
context = {
'timestamp_unix': timestamp,
'timestamp' : time.strftime('%Y-%m-%d %H:%M:%S', time.localtime(timestamp)),
'date' : time.strftime('%d.%m.%Y', time.localtime(timestamp)),
'dtc_macros': dtc_macros, # Übergebe die dtc_macros-Liste direkt
'dtc_structs': dtc_structs, # Übergebe die dtc_structs-Liste direkt
'checksum' : checksum
}
# Rendere das Template mit den Werten und erhalte den Header-Text
header_text = template.render(context)
# Schreibe den generierten Header-Text in die Header-Datei
with open(output_file, "w", encoding='utf-8') as f:
f.write(header_text)
print(f"Header-Datei wurde erstellt: {output_file}")
if fcs.read_and_compare_json_checksum(json_output_file, checksum):
print("Keine Änderungen im DTC-JSON-file erforderlich.")
else:
dtc_info = {
"codegenerator_checksum": checksum,
'timestamp' : time.strftime('%Y-%m-%d %H:%M:%S', time.localtime(timestamp)),
"dtc_table_data": []
}
# Verarbeiten der sortierten Zeilen
for i, line in enumerate(dtc_lines):
num, dtc_name, dtc_severity, title, description = line
dtc_info["dtc_table_data"].append({"num": num, "title": title, "description": description})
# JSON-Datei mit UTF-8-Zeichencodierung erstellen
with open(json_output_file, 'w', encoding='utf-8') as json_f:
json.dump(dtc_info, json_f, ensure_ascii=False, indent=4, separators=(',', ': '))
print(f"JSON-Datei wurde erstellt: {json_output_file}")

45
Software/codegen/filechecksum.py Normal file
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@@ -0,0 +1,45 @@
import hashlib
import json
# Funktion zum Berechnen der SHA-256-Checksumme
def calculate_checksum(data):
sha256 = hashlib.sha256()
sha256.update(str(data).encode('utf-8'))
return sha256.hexdigest()
# Funktion zum Lesen und Vergleichen der Checksumme in einer Datei
def read_and_compare_checksum(file_path, expected_checksum):
try:
with open(file_path, 'r') as file:
content = file.read()
# Suche nach der Zeile mit der Checksumme
checksum_line_start = content.find("// CODEGENERATOR_CHECKSUM:")
if checksum_line_start != -1:
# Extrahiere die Checksumme aus der Zeile
existing_checksum = content[checksum_line_start + len("// CODEGENERATOR_CHECKSUM:"):].strip()
# Vergleiche die Checksummen
if existing_checksum == expected_checksum:
return True
except FileNotFoundError:
pass # Datei existiert nicht, was nicht schlimm ist
return False
def read_and_compare_json_checksum(json_file_path, expected_checksum):
try:
with open(json_file_path, 'r') as json_file:
# Lade das JSON aus der Datei
data = json.load(json_file)
# Überprüfe, ob "codegenerator_checksum" im JSON vorhanden ist
if "codegenerator_checksum" in data:
existing_checksum = data["codegenerator_checksum"]
# Vergleiche die Checksummen
if existing_checksum == expected_checksum:
return True
except FileNotFoundError:
pass # Datei existiert nicht, was nicht schlimm ist
return False

95
Software/prepare_littlefs.py → Software/codegen/prepare_littlefs.py
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@@ -1,14 +1,73 @@
# SCRIPT TO GZIP CRITICAL FILES FOR ACCELERATED WEBSERVING
# see also https://community.platformio.org/t/question-esp32-compress-files-in-data-to-gzip-before-upload-possible-to-spiffs/6274/10
import glob import glob
import shutil import shutil
import gzip import gzip
import os import os
import subprocess
import platform
from os import popen
Import("env") Import("env")
Import("projenv") Import("projenv")
# Überprüfe die Betriebssystemplattform
if platform.system() == "Windows":
# Setze die Pfade zu den Tools für Windows
html_minifier_path = os.path.join(os.getenv("APPDATA"), "npm", "html-minifier.cmd")
uglifyjs_path = os.path.join(os.getenv("APPDATA"), "npm", "uglifyjs.cmd")
terser_path = os.path.join(os.getenv("APPDATA"), "npm", "terser.cmd")
cssnano_path = os.path.join(os.getenv("APPDATA"), "npm", "cssnano.cmd")
elif platform.system() == "Linux":
# Setze die Namen der Tools für Linux
html_minifier_path = "html-minifier"
uglifyjs_path = "uglifyjs"
terser_path = "terser"
cssnano_path = "cssnano"
else:
# Hier könntest du weitere Bedingungen für andere Betriebssysteme hinzufügen
raise Exception("Unterstütztes Betriebssystem nicht erkannt")
def minify_html(input_path, output_path):
subprocess.run([html_minifier_path, '--collapse-whitespace', '--remove-comments', input_path, '-o', output_path])
def minify_js(input_path, output_path):
subprocess.run([terser_path, input_path, '-o', output_path, '-c', '-m'])
def minify_css(input_path, output_path):
subprocess.run([cssnano_path, '--no-discardUnused', input_path, output_path])
def process_file(src_path, dest_path):
_, file_extension = os.path.splitext(src_path)
# Extrahiere den Ordnerpfad im Zielverzeichnis
dest_dir = os.path.dirname(dest_path)
# Erstelle den Ordner und alle dazugehörigen Unterordner, falls sie nicht existieren
os.makedirs(dest_dir, exist_ok=True)
if file_extension.lower() == '.js':
minify_js(src_path, dest_path)
elif file_extension.lower() == '.css':
minify_css(src_path, dest_path)
elif file_extension.lower() in ['.html', '.htm']:
minify_html(src_path, dest_path)
else:
# Kopiere nicht bearbeitbare Dateien direkt in den Zielordner
shutil.copy2(src_path, dest_path)
def strip_files(src_dir, dest_dir):
# Erstelle den Zielordner und alle dazugehörigen Unterordner, falls sie nicht existieren
os.makedirs(dest_dir, exist_ok=True)
# Durchlaufe alle Dateien und Unterverzeichnisse im Quellordner
for root, _, files in os.walk(src_dir):
for filename in files:
src_path = os.path.join(root, filename)
dest_path = os.path.relpath(src_path, src_dir)
dest_path = os.path.join(dest_dir, dest_path)
# Verarbeite nur Dateien (keine Unterverzeichnisse)
process_file(src_path, dest_path)
def gzip_file(src_path, dst_path): def gzip_file(src_path, dst_path):
@@ -47,14 +106,16 @@ def gzip_webfiles(source, target, env):
filetypes_to_gzip = ['.css', '.png', '.js', '.ico', '.woff2', '.json'] filetypes_to_gzip = ['.css', '.png', '.js', '.ico', '.woff2', '.json']
print('\nGZIP: Starting gzip-Process for LittleFS-Image...\n') print('\nGZIP: Starting gzip-Process for LittleFS-Image...\n')
data_src_dir_path = os.path.join(env.get('PROJECT_DIR'), 'data_src') data_src_dir_path = os.path.join(env.get('PROJECT_DIR'), 'data_src')
data_temp_dir_path = os.path.join(env.get('PROJECT_DIR'), 'data_stripped')
strip_files(data_src_dir_path, data_temp_dir_path)
data_dir_path = env.get('PROJECT_DATA_DIR') data_dir_path = env.get('PROJECT_DATA_DIR')
# check if data and datasrc exist. If the first exists and not the second, it renames it # check if data and datasrc exist. If the first exists and not the second, it renames it
if(os.path.exists(data_dir_path) and not os.path.exists(data_src_dir_path)): if(os.path.exists(data_dir_path) and not os.path.exists(data_temp_dir_path)):
print('GZIP: Directory "'+data_dir_path + print('GZIP: Directory "'+data_dir_path +
'" exists, "'+data_src_dir_path+'" is not found.') '" exists, "'+data_temp_dir_path+'" is not found.')
print('GZIP: Renaming "' + data_dir_path + print('GZIP: Renaming "' + data_dir_path +
'" to "' + data_src_dir_path + '"') '" to "' + data_temp_dir_path + '"')
os.rename(data_dir_path, data_src_dir_path) os.rename(data_dir_path, data_temp_dir_path)
# Delete the 'data' directory # Delete the 'data' directory
if(os.path.exists(data_dir_path)): if(os.path.exists(data_dir_path)):
print('GZIP: Deleting the "data" directory ' + data_dir_path) print('GZIP: Deleting the "data" directory ' + data_dir_path)
@@ -67,27 +128,27 @@ def gzip_webfiles(source, target, env):
files_to_copy = [] files_to_copy = []
files_to_gzip = [] files_to_gzip = []
all_data_src = getListOfFiles(data_src_dir_path) all_data_src = getListOfFiles(data_temp_dir_path)
for file in all_data_src: for file in all_data_src:
file_name, file_extension = os.path.splitext(file) file_name, file_extension = os.path.splitext(file)
print(file_name + " has filetype " + file_extension) print(file_name + " has filetype " + file_extension)
if file_extension in filetypes_to_gzip: if file_extension in filetypes_to_gzip:
files_to_gzip.append(file) files_to_gzip.append(file)
else: else:
filename_subdir = remove_prefix(file, data_src_dir_path) filename_subdir = remove_prefix(file, data_temp_dir_path)
files_to_copy.append(filename_subdir) files_to_copy.append(filename_subdir)
for file in files_to_copy: for file in files_to_copy:
print('GZIP: Copying file from: ' + data_src_dir_path + file + ' to: ' + data_dir_path + file) print('GZIP: Copying file from: ' + data_temp_dir_path + file + ' to: ' + data_dir_path + file)
os.makedirs(os.path.dirname(data_dir_path + file), exist_ok=True) os.makedirs(os.path.dirname(data_dir_path + file), exist_ok=True)
shutil.copy(data_src_dir_path + file, data_dir_path + file) shutil.copy(data_temp_dir_path + file, data_dir_path + file)
# Compress and move files # Compress and move files
was_error = False was_error = False
try: try:
for source_file_path in files_to_gzip: for source_file_path in files_to_gzip:
print('GZIP: compressing... ' + source_file_path) print('GZIP: compressing... ' + source_file_path)
filename_subdir = remove_prefix(source_file_path, data_src_dir_path) filename_subdir = remove_prefix(source_file_path, data_temp_dir_path)
target_file_path = data_dir_path + filename_subdir target_file_path = data_dir_path + filename_subdir
os.makedirs(os.path.dirname(target_file_path), exist_ok=True) os.makedirs(os.path.dirname(target_file_path), exist_ok=True)
print('GZIP: Compressed... ' + target_file_path) print('GZIP: Compressed... ' + target_file_path)
@@ -100,12 +161,18 @@ def gzip_webfiles(source, target, env):
print('GZIP: Failure/Incomplete.\n') print('GZIP: Failure/Incomplete.\n')
else: else:
print('GZIP: Compressed correctly.\n') print('GZIP: Compressed correctly.\n')
shutil.rmtree(data_temp_dir_path)
return return
def gzip_binffiles(source, target, env): def gzip_binffiles(source, target, env):
git_revision = popen('git rev-parse --short HEAD').read().strip()
custom_flash_version = env.GetProjectOption("custom_flash_version", "0.99")
# Format the target file name
target_filename = f"filesystem_{custom_flash_version}_{git_revision}.fs"
littlefsbin = target[0].get_abspath() littlefsbin = target[0].get_abspath()
targetbin = os.path.join(os.path.dirname(littlefsbin), 'filesystem.fs') targetbin = os.path.join(os.path.dirname(littlefsbin), target_filename)
shutil.copyfile(littlefsbin, targetbin) shutil.copyfile(littlefsbin, targetbin)
gzip_file(targetbin, os.path.join(str(targetbin) + '.gz')) gzip_file(targetbin, os.path.join(str(targetbin) + '.gz'))
os.remove(targetbin) os.remove(targetbin)

33
Software/codegen/run_pre.py Normal file
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@@ -0,0 +1,33 @@
Import("env") # pylint: disable=undefined-variable
env.Execute("\"$PYTHONEXE\" -m pip install jinja2")
import struct2json
import dtcs
from os import popen
git_revision = popen('git rev-parse --short HEAD').read().strip()
# Versionsnummern aus platformio.ini holen
custom_firmware_version = env.GetProjectOption("custom_firmware_version", "0.99")
custom_flash_version = env.GetProjectOption("custom_flash_version", "0.99")
# Versionsnummern aufteilen in Major und Minor
fw_major, fw_minor = custom_firmware_version.split('.')
fl_major, fl_minor = custom_flash_version.split('.')
# Version in Datei "version" im Ordner "data_src" überschreiben
with open('data_src/version', 'w') as version_file:
version_file.write(custom_flash_version)
# Build-Flags setzen
env.Replace(PROGNAME="firmware_%s_%s.fw" % (custom_firmware_version, git_revision))
env.Append(CPPDEFINES=[
('GIT_REV', '\\"{}\\"'.format(git_revision)),
('FW_MAJOR', fw_major),
('FW_MINOR', fw_minor),
('FL_MAJOR', fl_major),
('FL_MINOR', fl_minor)
])
struct2json.struct2json()
dtcs.build_dtcs()

113
Software/codegen/struct2json.py Normal file
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@@ -0,0 +1,113 @@
import os
import time
from jinja2 import Environment, FileSystemLoader
import re
import filechecksum as fcs
# Pfad zur Eingabedatei und Ausgabedatei
input_file = "include/eeprom.h"
output_sourcefile = "src/struct2json.cpp"
output_headerfile = "include/struct2json.h"
# Liste der zu suchenden Variablen/Structs
variable_names = ['ConfigData', 'PersistenceData']
def get_types(file_content, variable_names):
result = {}
# Entferne Kommentare, um unerwünschte Störungen zu vermeiden
file_content = re.sub(r'\/\*.*?\*\/', '', file_content, flags=re.DOTALL)
file_content = re.sub(r'\/\/.*', '', file_content)
for var_name in variable_names:
# Erstelle ein reguläres Ausdrucksmuster, um den Typ der Variable zu extrahieren
pattern = re.compile(r'\b(?:extern\s+)?(\w+)\s+' + re.escape(var_name) + r'\s*;')
match = pattern.search(file_content)
if match:
# Extrahiere den Typ aus dem Treffer
type_match = match.group(1)
result[var_name] = type_match
return result
def extract_struct_fields(file_content, variable_types):
result = {}
# Entferne Kommentare, um unerwünschte Störungen zu vermeiden
file_content = re.sub(r'\/\*.*?\*\/', '', file_content, flags=re.DOTALL)
file_content = re.sub(r'\/\/.*', '', file_content)
for var_name, var_type in variable_types.items():
# Erstelle ein reguläres Ausdrucksmuster, um das Strukturfeld zu extrahieren
pattern = re.compile(r'typedef\s+struct\s*{([^}]*)}\s*' + re.escape(var_type) + r'\s*;')
match = pattern.search(file_content)
if match:
# Extrahiere die Felder aus dem Treffer
fields_match = re.findall(r'\b(\w+)\s+(\w+)(?:\[(\d+)\])?\s*;', match.group(1))
if fields_match:
result[var_name] = {'type': var_type, 'fields': {}}
for field_type, field_name, array_size in fields_match:
if array_size:
result[var_name]['fields'][field_name] = {'type': field_type, 'size': int(array_size)}
else:
result[var_name]['fields'][field_name] = {'type': field_type}
return result
def struct2json():
# Überprüfen, ob die Verzeichnisse existieren, andernfalls erstellen
output_dir_source = os.path.dirname(output_sourcefile)
if not os.path.exists(output_dir_source):
os.makedirs(output_dir_source)
output_dir_header = os.path.dirname(output_headerfile)
if not os.path.exists(output_dir_header):
os.makedirs(output_dir_header)
# Unix-Zeitstempel hinzufügen
timestamp = int(time.time())
# Parse structs
with open(input_file, 'r') as file:
content = file.read()
variable_types = get_types(content, variable_names)
structs = extract_struct_fields(content, variable_types)
checksum = fcs.calculate_checksum(structs)
env = Environment(loader=FileSystemLoader('codegen/templates', encoding='utf-8'))
# Lade das Jinja2-Template aus der Datei
template_c = env.get_template('struct2json.cpp.j2')
template_h = env.get_template('struct2json.h.j2')
# Erstelle ein Context-Dictionary mit den erforderlichen Daten
context = {
'timestamp_unix': timestamp,
'timestamp' : time.strftime('%Y-%m-%d %H:%M:%S', time.localtime(timestamp)),
'date' : time.strftime('%d.%m.%Y', time.localtime(timestamp)),
'structs': structs,
'checksum': checksum
}
# Überprüfe, ob die Checksummen übereinstimmen
if fcs.read_and_compare_checksum(output_sourcefile, checksum):
print("Keine Änderungen in der Source-Datei erforderlich.")
else:
# Rendere das Template mit den Werten und erhalte den Source-Text
source_text = template_c.render(context)
# Schreibe den generierten Source-Text in die Source-Datei
with open(output_sourcefile, "w", encoding='utf-8') as f:
f.write(source_text)
print(f"Source-Datei wurde erstellt: {output_sourcefile}")
# Überprüfe, ob die Checksummen übereinstimmen
if fcs.read_and_compare_checksum(output_headerfile, checksum):
print("Keine Änderungen in der Header-Datei erforderlich.")
else:
# Rendere das Template mit den Werten und erhalte den Header-Text
header_text = template_h.render(context)
# Schreibe den generierten Header-Text in die Header-Datei
with open(output_headerfile, "w", encoding='utf-8') as f:
f.write(header_text)
print(f"Header-Datei wurde erstellt: {output_headerfile}")

54
Software/codegen/templates/dtc_defs.h.j2 Normal file
View File

@@ -0,0 +1,54 @@
/**
* @file dtc_defs.h
*
* @brief Header file for Diagnostic Trouble Code (DTC) definitions in the DE-Timer application.
*
* This file contains definitions for Diagnostic Trouble Codes (DTC) in the DE-Timer project.
* It includes enums for DTC active status, severity levels, and specific DTC codes.
* The file also defines an array of DTC definitions and a timestamp indicating the generation time.
*
* @note This file is auto-generated by a script on {{ timestamp }}.
*
* @author Marcel Peterkau
* @date {{ date }}
*/
#ifndef DTC_DEFS_H
#define DTC_DEFS_H
#include <stdint.h>
typedef uint32_t DTCNum_t;
typedef enum
{
DTC_INACTIVE,
DTC_ACTIVE,
DTC_PREVIOUS
} DTCActive_t;
typedef enum
{
DTC_NONE,
DTC_INFO,
DTC_WARN,
DTC_CRITICAL
} DTCSeverity_t;
typedef struct {
DTCNum_t code;
DTCSeverity_t severity;
} DTC_t;
{% for dtc in dtc_macros -%}
{{ dtc }}
{% endfor %}
const DTC_t dtc_definitions[] = {
{% for struct in dtc_structs -%}
{{ struct }}
{% endfor -%}
};
#endif // DTC_DEFS_H
// CODEGENERATOR_CHECKSUM: {{ checksum }}

25
Software/codegen/templates/struct2json.cpp.j2 Normal file
View File

@@ -0,0 +1,25 @@
/**
* @file struct2json.cpp
*
* @brief Implementation file for converting structs to JSON objects.
*
* @note This file is auto-generated by a script on {{ timestamp }}.
*
* @author Marcel Peterkau
* @date {{ date }}
*/
#include "struct2json.h"
{% for var_name, var_info in structs.items() -%}
void generateJsonObject_{{ var_name }}(JsonObject data)
{
{% for field_name, field_type in var_info['fields'].items() -%}
data["{{ field_name }}"] = {{ var_name }}.{{ field_name }};
{% endfor -%}
}
{% endfor %}
// CODEGENERATOR_CHECKSUM: {{ checksum }}

26
Software/codegen/templates/struct2json.h.j2 Normal file
View File

@@ -0,0 +1,26 @@
/**
* @file struct2json.h
*
* @brief Header file for converting structs to JSON objects.
*
* @note This file is auto-generated by a script on {{ timestamp }}.
*
* @author Marcel Peterkau
* @date {{ date }}
*/
#ifndef _STRUCT2JSON_H_
#define _STRUCT2JSON_H_
#include <Arduino.h>
#include <ArduinoJson.h>
#include "eeprom.h"
{% for var_name, var_info in structs.items() -%}
void generateJsonObject_{{ var_name }}(JsonObject data);
{% endfor %}
#endif /* _STRUCT2JSON_H_ */
// CODEGENERATOR_CHECKSUM: {{ checksum }}

435
Software/data_src/index.htm
View File

@@ -3,7 +3,7 @@
<head> <head>
<meta charset="utf-8" /> <meta charset="utf-8" />
<title>%DEVICENAME%</title> <title>Dark Emergency Timer</title>
<meta name="viewport" content="width=device-width, initial-scale=1"> <meta name="viewport" content="width=device-width, initial-scale=1">
<link rel="stylesheet" href="static/css/bootstrap.min.css"> <link rel="stylesheet" href="static/css/bootstrap.min.css">
<link rel="stylesheet" href="static/css/custom.css"> <link rel="stylesheet" href="static/css/custom.css">
@@ -11,6 +11,8 @@
<script src="static/js/jquery.min.js"></script> <script src="static/js/jquery.min.js"></script>
<script src="static/js/bootstrap.min.js"></script> <script src="static/js/bootstrap.min.js"></script>
<script src="static/js/websocket.js"></script> <script src="static/js/websocket.js"></script>
<script src="static/js/dtc_table.js"></script>
<script src="static/js/script.js"></script>
<link rel="apple-touch-icon" sizes="180x180" href="static/img/apple-touch-icon.png"> <link rel="apple-touch-icon" sizes="180x180" href="static/img/apple-touch-icon.png">
<link rel="icon" type="image/png" sizes="32x32" href="static/img/favicon-32x32.png"> <link rel="icon" type="image/png" sizes="32x32" href="static/img/favicon-32x32.png">
<link rel="icon" type="image/png" sizes="16x16" href="static/img/favicon-16x16.png"> <link rel="icon" type="image/png" sizes="16x16" href="static/img/favicon-16x16.png">
@@ -18,11 +20,22 @@
</head> </head>
<body> <body>
<!-- Connection-Overlay -->
<div id="overlay">
<div class="overlay-content">
<p>Verbinde...</p>
<span class="loader"></span>
</div>
</div>
<!-- Connection-Overlay -->
<!-- Notification-Container -->
<div id="notification-container" class="notification-container"></div>
<!-- Notification-Container -->
<nav class="navbar fixed-top navbar-dark bg-primary" id="navbar1"> <nav class="navbar fixed-top navbar-dark bg-primary" id="navbar1">
<a class="navbar-brand" href="#"> <a class="navbar-brand" href="#">
<img src="static/img/logo.png" width="30" height="30" class="d-inline-block align-top mr-1" alt=""> <img src="static/img/logo.png" width="30" height="30" class="d-inline-block align-top mr-1" alt="">
%DEVICENAME% <span class="data-devicename">DE Airsoft Timer</span>
</a> </a>
<button class="navbar-toggler" type="button" data-toggle="collapse" data-target="#collapsingNavbar" <button class="navbar-toggler" type="button" data-toggle="collapse" data-target="#collapsingNavbar"
aria-controls="collapsingNavbar" aria-expanded="false" aria-label="Toggle navigation"> aria-controls="collapsingNavbar" aria-expanded="false" aria-label="Toggle navigation">
@@ -35,7 +48,6 @@
<li class="nav-item"><a class="nav-link active" role="tab" data-toggle="tab" href="#tab_home">Home</a></li> <li class="nav-item"><a class="nav-link active" role="tab" data-toggle="tab" href="#tab_home">Home</a></li>
<li class="nav-item"><a class="nav-link" role="tab" data-toggle="tab" href="#tab_maintenance">Wartung</a></li> <li class="nav-item"><a class="nav-link" role="tab" data-toggle="tab" href="#tab_maintenance">Wartung</a></li>
<li class="nav-item"><a class="nav-link" role="tab" data-toggle="tab" href="#tab_source">Einstellungen</a></li> <li class="nav-item"><a class="nav-link" role="tab" data-toggle="tab" href="#tab_source">Einstellungen</a></li>
<li class="nav-item"><a class="nav-link" role="tab" data-toggle="tab" href="#tab_sysinfo">Systeminfo</a></li>
<li class="nav-item"><a class="nav-link" role="tab" data-toggle="tab" href="#tab_fwupdate">Update</a></li> <li class="nav-item"><a class="nav-link" role="tab" data-toggle="tab" href="#tab_fwupdate">Update</a></li>
</ul> </ul>
@@ -51,17 +63,17 @@
<div class="col text-center"> <div class="col text-center">
<div class="jumbotron"> <div class="jumbotron">
<img src="static/img/logo.png" width="120" height="120" class="img-fluid" alt=""> <img src="static/img/logo.png" width="120" height="120" class="img-fluid" alt="">
<h3 class="pt-3">%DEVICENAME%</h3> <h3 class="pt-3"><span class="data-devicename">DE Airsoft Timer</span></h3>
</div> </div>
</div> </div>
<!-- Div Group Battery remain --> <!-- Div Group Battery remain -->
<hr /> <hr />
<p> <p>
<h4>Akku Ladestand</h4> <h4>Akkuladestand</h4>
<div class="progress"> <div class="progress">
<div class="progress-bar text-light" role="progressbar" aria-valuenow="%BAT_REMAIN_CAPACITY%" <div id="battery_level" class="data-battery_level progress-bar text-light" role="progressbar" aria-valuenow="0"
aria-valuemin="0" aria-valuemax="100" style="width: %BAT_REMAIN_CAPACITY%&#37;"> aria-valuemin="0" aria-valuemax="100" style="width: 0%">
%BAT_REMAIN_CAPACITY%&#37; 0
</div> </div>
</div> </div>
</p> </p>
@@ -70,7 +82,7 @@
<hr /> <hr />
<p> <p>
<h4>aktueller Modus</h4> <h4>aktueller Modus</h4>
<input class="form-control" type="text" placeholder="%SYSTEM_STATUS%" readonly> <input class="data-systemstatus form-control" type="text" id="sysstatus" readonly>
</p> </p>
<!-- Div Group current Mode --> <!-- Div Group current Mode -->
<!-- Div Group Faction Points --> <!-- Div Group Faction Points -->
@@ -79,35 +91,35 @@
<h4>aktueller Punktestand</h4> <h4>aktueller Punktestand</h4>
<div class="container-fluid"> <div class="container-fluid">
<div class="row"> <div class="row">
<div class="col text-center %FACTION_1_ACTIVE% text-white p-3">%NAME_FAC_1%</div> <div id="header_faction1" class="col text-center data-name_faction1 text-white p-3">%NAME_FAC_1%</div>
<div class="col text-center %FACTION_2_ACTIVE% text-white p-3">%NAME_FAC_2%</div> <div id="header_faction2" class="col text-center data-name_faction2 text-white p-3">%NAME_FAC_2%</div>
<div class="col text-center %FACTION_3_ACTIVE% text-white p-3">%NAME_FAC_3%</div> <div id="header_faction3" class="col text-center data-name_faction3 text-white p-3">%NAME_FAC_3%</div>
</div> </div>
<div class="row"> <div class="row">
<div class="col bg-dark text-white p-3"><img src="static/img/logo_fac1.png" <div class="col bg-dark text-white p-3 data-activefaction faction-logo faction1">
class="rounded mx-auto img-fluid d-block" alt="..."> <img src="static/img/logo_fac1.png" class="rounded mx-auto img-fluid d-block" alt="...">
</div> </div>
<div class="col bg-dark text-white p-3"><img src="static/img/logo_fac2.png" <div class="col bg-dark text-white p-3 data-activefaction faction-logo faction2">
class="rounded mx-auto img-fluid d-block" alt="..."> <img src="static/img/logo_fac2.png" class="rounded mx-auto img-fluid d-block" alt="...">
</div> </div>
<div class="col bg-dark text-white p-3"><img src="static/img/logo_fac3.png" <div class="col bg-dark text-white p-3 data-activefaction faction-logo faction3">
class="rounded mx-auto img-fluid d-block" alt="..."> <img src="static/img/logo_fac3.png" class="rounded mx-auto img-fluid d-block" alt="...">
</div> </div>
</div> </div>
<div class="row"> <div class="row">
<div class="col text-center bg-secondary text-white p-3">%POINTS_FAC_1%</div> <div id="time_faction1" class="data-time_faction1 col text-center bg-secondary text-white p-3 format-time">0</div>
<div class="col text-center bg-secondary text-white p-3">%POINTS_FAC_2%</div> <div id="time_faction2" class="data-time_faction2 col text-center bg-secondary text-white p-3 format-time">0</div>
<div class="col text-center bg-secondary text-white p-3">%POINTS_FAC_3%</div> <div id="time_faction3" class="data-time_faction3 col text-center bg-secondary text-white p-3 format-time">0</div>
</div> </div>
</div> </div>
</p> </p>
<!-- Div GroupFaction Points --> <!-- Div GroupFaction Points -->
<!-- Div Group DTC Table --> <!-- Div Group DTC Table -->
<div %SHOW_DTC_TABLE%> <div id="dtc_container" hidden>
<hr /> <hr />
<p> <p>
<h4>Fehlercodes</h4> <h4>Fehlercodes</h4>
<table class="table"> <table class="table" id="dtc_table">
<tbody> <tbody>
<tr> <tr>
<th class="col-6" scope="col">Zeitstempel</th> <th class="col-6" scope="col">Zeitstempel</th>
@@ -115,7 +127,6 @@
<th class="col-2" scope="col">Schwere</th> <th class="col-2" scope="col">Schwere</th>
<th class="col-2" scope="col">Aktiv</th> <th class="col-2" scope="col">Aktiv</th>
</tr> </tr>
%DTC_TABLE%
</tbody> </tbody>
</table> </table>
</p> </p>
@@ -131,254 +142,13 @@
<hr /> <hr />
<p> <p>
<h4>Punkte zur&uuml;cksetzen</h4> <h4>Punkte zur&uuml;cksetzen</h4>
<form action="post.htm" method="POST" class="form-horizontal">
<div class="form-group row"> <div class="form-group row">
<div class="col text-center"> <div class="col text-center">
<button name="resetpoints" type="submit" class="btn btn-outline-primary">Reset</button> <button id="reset-timer" class="btn-wsevent btn btn-outline-primary ml-2">Timer zurücksetzen</button>
</div> </div>
</div> </div>
</form>
</p> </p>
<!-- Div Group Reset Timers --> <!-- Div Group Reset Timers -->
<!-- Div Group EEPROM formatting -->
<hr />
<p>
<h4>EEPROM formatieren</h4>
<div class="alert alert-primary alert-dismissable show fade" role="alert">
<button type="button" class="close" data-dismiss="alert" aria-label="Close">
<span aria-hidden="true">×</span>
</button>
<strong>Achtung!</strong><br>
Das Formatieren der EEPROM-Bereiche sollte nur ausgeführt werden wenn es unbedingt erforderlich ist!
Hierdurch werden alle Einstellungen zurück gesetzt bzw. alle Betriebsdaten gehen verloren.
Folgende Situationen erfordern unter anderem eine Formatierung:
- Erstinitialisierung (bei neu aufgebautem Gerät)
- Firmware-Update (nur wenn es die Release-Notes fordern)
</div>
<form action="post.htm" method="POST" class="form-horizontal">
<div class="form-group row">
<div class="offset-4 col-8">
<div class="form-check">
<input class="form-check-input" type="checkbox" name="reset_ee_cfg" id="reset_ee_cfg">
<label class="form-check-label" for="reset_ee_cfg">
Bereich "CFG"
</label>
</div>
<div class="form-check">
<input class="form-check-input" type="checkbox" name="reset_ee_pds" id="reset_ee_pds">
<label class="form-check-label" for="reset_ee_pds">
Bereich "PDS"
</label>
</div>
</div>
</div>
<div class="form-group row">
<div class="col text-center">
<button name="reset_ee_btn" type="submit" class="btn btn-outline-primary">EEPROM formatieren</button>
</div>
</div>
</form>
</p>
<!-- Div Group EEPROM formatting -->
<!-- Div Group Device Reboot -->
<hr />
<p>
<h4>Ger&auml;t neustarten</h4>
<form action="post.htm" method="POST" class="form-horizontal">
<div class="form-group row">
<div class="col text-center">
<button name="reboot" type="submit" class="btn btn-outline-primary">Reboot</button>
</div>
</div>
</form>
</p>
<!-- Div Group Device Reboot -->
</div>
<!-- Div Tab Maintenance -->
<!-- Div Tab Settings-->
<div id="tab_source" class="tab-pane fade" role="tabpanel">
<h3>Einstellungen</h3>
<!-- Div Group Battery Type -->
<hr />
<p>
<form action="post.htm" method="POST" class="form-horizontal">
<h4>Akku-Variante</h4>
<div class="form-group row">
<label for="battery_select" class="control-label col-4">Akku</label>
<div class="col-8">
<select id="battery_select" name="battery_select" class="select form-control">
%BATTERY_SELECT_OPTIONS%
</select>
</div>
</div>
<h4>Timer-Einstellungen</h4>
<div class="form-group row">
<label for="factionreboot_cont" class="control-label col-4">active Faction Recovery</label>
<div class="col-8">
<div class="form-check">
<input class="form-check-input" type="checkbox" name="factionreboot_cont" id="factionreboot_cont"
%FACTIONREBOOT_CHECKED%>
<label class="form-check-label" for="factionreboot_cont">
aktive Faktion beim booten wiederherstellen ?
</label>
</div>
</div>
</div>
<h4>Faktionsbezeichnungen</h4>
<div class="alert alert-primary alert-dismissable show fade" role="alert">
<button type="button" class="close" data-dismiss="alert" aria-label="Close">
<span aria-hidden="true">×</span>
</button>
<strong>Achtung!</strong><br>
Faktionsbezeichnungen können nur aus ASCII-Zeichen bestehen, also A-Z, a-z und 0-9
</div>
<div class="form-group row">
<label for="faction_1_name" class="control-label col-4">Faktion 1</label>
<div class="col-8">
<div class="input-group">
<input id="faction_1_name" name="faction_1_name" value="%NAME_FAC_1%" type="text" class="form-control" pattern="[A-Za-z0-9 _-]{1,32}">
<div class="input-group-append">
<span class="input-group-text">max 32 Zeichen</span>
</div>
</div>
</div>
</div>
<div class="form-group row">
<label for="faction_2_name" class="control-label col-4">Faktion 2</label>
<div class="col-8">
<div class="input-group">
<input id="faction_2_name" name="faction_2_name" value="%NAME_FAC_2%" type="text" class="form-control" pattern="[A-Za-z0-9 _-]{1,32}">
<div class="input-group-append">
<span class="input-group-text">max 32 Zeichen</span>
</div>
</div>
</div>
</div>
<div class="form-group row">
<label for="faction_3_name" class="control-label col-4">Faktion 3</label>
<div class="col-8">
<div class="input-group">
<input id="faction_3_name" name="faction_3_name" value="%NAME_FAC_3%" type="text" class="form-control" pattern="[A-Za-z0-9 _-]{1,32}">
<div class="input-group-append">
<span class="input-group-text">max 32 Zeichen</span>
</div>
</div>
</div>
</div>
<div class="form-group row">
<div class="col text-center">
<button name="settingssave" type="submit" class="btn btn-outline-primary">&Uuml;bernehmen</button>
</div>
</div>
</form>
</p>
<!-- Div Group Battery Type -->
</div>
<!-- Div Tab Settings -->
<!-- Div Tab SystemInfo -->
<div id="tab_sysinfo" class="tab-pane fade" role="tabpanel">
<h3>Systeminfo</h3>
<!-- Div Group Sysinfo:Geraeteinfo -->
<hr />
<p>
<h4>Ger&auml;t</h4>
<table class="table">
<tbody>
<tr>
<th class="col-7" scope="col">Parameter</td>
<th class="col-5" scope="col">Value</td>
</tr>
<tr>
<td>Hostname</td>
<td>%HOSTNAME%</td>
</tr>
<tr>
<td>Device-ID</td>
<td>%DEVICENAME_ID%</td>
</tr>
<tr>
<td>Battery Voltage</td>
<td>%BAT_VOLTAGE%V</td>
</tr>
<tr>
<td>Battery Remain</td>
<td>%BAT_REMAIN_CAPACITY%&#37;</td>
</tr>
</table>
</p>
<!-- Div Group Sysinfo:Geraeteinfo -->
<!-- Div Group Sysinfo:Settings -->
<hr />
<p>
<h4>Einstellungen</h4>
<table class="table">
<tbody>
<tr>
<th class="col-7" scope="col">Parameter</td>
<th class="col-5" scope="col">Value</td>
</tr>
<tr>
<td>Battery_type</td>
<td>%BATTERY_TYPE%</td>
</tr>
<tr>
<td>Faction_recovery</td>
<td>%FACTION_RECOVERY%</td>
</tr>
<tr>
<td>EEPROM Version</td>
<td>%EEPROM_VERSION%</td>
</tr>
<tr>
<td>Checksum</td>
<td>%CONFIG_CHECKSUM%</td>
</tr>
</tbody>
</table>
</p>
<!-- Div Group Sysinfo:Settings -->
<!-- Div Group Sysinfo:Persistance -->
<hr />
<p>
<h4>Betriebsdaten</h4>
<table class="table">
<tbody>
<tr>
<th class="col-7" scope="col">Parameter</td>
<th class="col-5" scope="col">Value</td>
</tr>
<tr>
<td>writeCycleCounter</td>
<td>%WRITE_CYCLE_COUNT%</td>
</tr>
<tr>
<td>PersistenceMarker</td>
<td>%PERSISTENCE_MARKER%</td>
</tr>
<tr>
<td>activeFaction</td>
<td>%ACTIVE_FACTION%</td>
</tr>
<tr>
<td>faction_1_timer</td>
<td>%POINTS_FAC_1%</td>
</tr>
<tr>
<td>faction_2_timer</td>
<td>%POINTS_FAC_2%</td>
</tr>
<tr>
<td>faction_3_timer</td>
<td>%POINTS_FAC_3%</td>
</tr>
<tr>
<td>checksum</td>
<td>%PERSISTANCE_CHECKSUM%</td>
</tr>
</table>
</p>
<!-- Div Group Sysinfo:Persistance -->
<!-- Div Group LiveDebug --> <!-- Div Group LiveDebug -->
<hr /> <hr />
<p> <p>
@@ -388,14 +158,99 @@
</div> </div>
<div class="form-group row"> <div class="form-group row">
<div class="col text-center"> <div class="col text-center">
<button id="btn-ws-start" class="btn btn-outline-primary">Start</button> <button id="debugstart" class="btn-wsevent btn btn-outline-primary ml-2">Start</button>
<button id="btn-ws-stop" class="btn btn-outline-primary ml-2">Stop</button> <button id="debugstop" class="btn-wsevent btn btn-outline-primary ml-2">Stop</button>
</div> </div>
</div> </div>
</p> </p>
<!-- Div Group LiveDebug --> <!-- Div Group LiveDebug -->
<!-- Div Group Device Reboot -->
<hr />
<p>
<h4>Ger&auml;t neustarten</h4>
<div class="form-group row">
<div class="col text-center">
<button id="reboot" class="btn-wsevent confirm btn btn-outline-primary">Reboot</button>
</div> </div>
<!-- Div Tab SystemInfo --> </div>
</p>
<!-- Div Group Device Reboot -->
</div>
<!-- Div Tab Maintenance -->
<!-- Div Tab Settings-->
<div id="tab_source" class="tab-pane fade" role="tabpanel">
<h3>Einstellungen</h3>
<!-- Div Group Battery Type -->
<hr />
<p>
<h4>Akku</h4>
<div class="form-group row">
<label for="batterytype" class="control-label col-4">Akku-Variante</label>
<div class="col-8">
<select id="batterytype" class="set-wsevent data-batterytype select form-control">
<option value="Undefined">Undefined</option>
<option value="LiPo3S">LiPo 3S</option>
<option value="LiPo2S">LiPo 2S</option>
</select>
</div>
</div>
</p>
<!-- Div Group Battery Type -->
<!-- Div Group Timer Settings -->
<hr />
<p>
<h4>Timer Einstellungen</h4>
<div class="form-group row">
<label for="active_faction_on_reboot" class="control-label col-4">Aktive Fraktion wiederherstellen</label>
<div class="col-8">
<div class="form-check">
<input class="set-wsevent data-active_faction_on_reboot form-check-input" type="checkbox" id="active_faction_on_reboot">
<label class="form-check-label" for="active_faction_on_reboot">
aktivieren
</label>
</div>
</div>
</div>
<div class="form-group row">
<label for="name_faction1" class="control-label col-4">Faktion 1</label>
<div class="col-8">
<input id="name_faction1" type="text" class="set-wsevent data-name_faction1 form-control" required="required">
<div class="input-group-append">
<span class="input-group-text">max. 32 Zeichen</span>
</div>
</div>
</div>
<div class="form-group row">
<label for="name_faction2" class="control-label col-4">Faktion 2</label>
<div class="col-8">
<input id="name_faction2" type="text" class="set-wsevent data-name_faction2 form-control" required="required">
<div class="input-group-append">
<span class="input-group-text">max. 32 Zeichen</span>
</div>
</div>
</div>
<div class="form-group row">
<label for="name_faction3" class="control-label col-4">Faktion 3</label>
<div class="col-8">
<input id="name_faction3" type="text" class="set-wsevent data-name_faction3 form-control" required="required">
<div class="input-group-append">
<span class="input-group-text">max. 32 Zeichen</span>
</div>
</div>
</div>
<!-- Div Group Timer Settings -->
<!-- Div Group Save Button-->
<hr />
<p>
<div class="form-group row">
<div class="col text-center">
<button id="settingssave" class="btn-wsevent btn btn-outline-primary">Speichern</button>
</div>
</div>
</p>
</div>
<!-- Div Tab Settings -->
<!-- Div Tab Firmware Update--> <!-- Div Tab Firmware Update-->
<div id="tab_fwupdate" class="tab-pane fade" role="tabpanel"> <div id="tab_fwupdate" class="tab-pane fade" role="tabpanel">
@@ -482,14 +337,13 @@
<!-- Tabs Content --> <!-- Tabs Content -->
</main> </main>
<!-- Footer --> <!-- Footer -->
<footer class="page-footer navbar-dark bg-primary font-small fixed-bottom"> <footer class="page-footer navbar-dark bg-primary font-small fixed-bottom">
<div class="container-fluid text-center"> <div class="container-fluid text-center">
<div class="footer-copyright text-center py-3"> <div class="footer-copyright text-center py-3">
<span class="text-muted">© 2023 - <span class="text-muted">© 2023 -
<a class="text-reset fw-bold" href="https://hiabuto.de/">Hiabuto Defense Systems</a></span> <a class="text-reset fw-bold" href="https://eventronics.de/">Marcel Peterkau</a></span>
</div> </div>
</div> </div>
</footer> </footer>
@@ -520,46 +374,7 @@
<!-- Modal Dialog --> <!-- Modal Dialog -->
<script>
$('.navbar-nav>li>a').on('click', function () {
$('.navbar-collapse').collapse('hide');
});
document.querySelector('.custom-file-input').addEventListener('change', function (e) {
var fileName = document.getElementById("fw-update-file").files[0].name;
var nextSibling = e.target.nextElementSibling
nextSibling.innerText = fileName
});
$(document).ready(function () {
$("tr[data-dtc]").each(function (i) {
$(this).attr('data-toggle', "modal");
$(this).attr('data-target', "#dtcModal");
});
});
$('#dtcModal').on('show.bs.modal', function (event) {
var dtctr = $(event.relatedTarget)
var dtc = dtctr.data('dtc')
var debugval = dtctr.data('debugval')
var modal = $(this)
$.getJSON('static/tt_dtc/dtc_' + dtc + '.json', function (data) {
modal.find('.modal-title').text(data.title)
modal.find('.dtc-desc').text(data.description)
if (debugval > 0) {
modal.find('.dtc-debugval').text("Debugvalue: " + debugval)
}
else {
modal.find('.dtc-debugval').remove()
}
}).fail(function () {
console.log("An error has occurred.");
modal.find('.modal-title').text("Fehler")
modal.find('.dtc-desc').text("DTC-Beschreibung konnte nicht geladen werden")
});
});
</script>
</body> </body>

28
Software/data_src/post.htm
View File

@@ -1,28 +0,0 @@
<!DOCTYPE html>
<html>
<head>
<meta charset="utf-8" />
<title>KTM CAN Chain Oiler</title>
<meta http-equiv="content-type" content="text/html;charset=UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1">
<link rel="stylesheet" href="static/css/bootstrap.min.css">
<link rel="stylesheet" href="static/css/custom.css">
<script src="static/js/jquery.min.js"></script>
<script src="static/js/bootstrap.min.js"></script>
<link rel="apple-touch-icon" sizes="180x180" href="static/img/apple-touch-icon.png">
<link rel="icon" type="image/png" sizes="32x32" href="static/img/favicon-32x32.png">
<link rel="icon" type="image/png" sizes="16x16" href="static/img/favicon-16x16.png">
<link rel="manifest" href="static/img/site.webmanifest">
<meta http-equiv="refresh" content="3; url='index.htm'" />
</head>
<body>
<div class="container" style="display: flex; justify-content: center; align-items: center; height: 100vh">
<div class="alert alert-success">
<strong>Bitte warten!</strong> Änderungen werden übernommen.
</div>
</div>
</body>
</html>

19
Software/data_src/static/css/custom.css
View File

@@ -8439,3 +8439,22 @@ a.text-dark:hover {
.navbar-dark.bg-primary { .navbar-dark.bg-primary {
background-color: #111 !important background-color: #111 !important
} }
.glow-active-faction {
border: 3px solid #FFD700; /* Goldene Umrandung */
box-shadow: 0 0 20px #FFD700; /* Leuchtender Glüheffekt */
animation: glow 1.5s infinite alternate;
border-radius: 10px; /* Abgerundete Ecken */
margin-bottom: 10px; /* Abstand nach unten */
}
@keyframes glow {
from {
box-shadow: 0 0 10px #FFD700;
}
to {
box-shadow: 0 0 20px #FFD700;
}
}

63
Software/data_src/static/css/tweaks.css
View File

@@ -25,3 +25,66 @@ hr {
padding: 10px; padding: 10px;
} }
#overlay {
display: none;
position: fixed;
top: 0;
left: 0;
width: 100%;
height: 100%;
background: rgba(0, 0, 0, 0.8); /* Dunkler Hintergrund mit Transparenz */
color: white; /* Textfarbe */
justify-content: center;
align-items: center;
z-index: 9999; /* Stellen Sie sicher, dass es über anderen Elementen liegt */
}
.overlay-content {
text-align: center;
font-size: 4rem;
}
.loader {
width: 96px;
height: 96px;
border: 12px solid #FFF;
border-radius: 50%;
display: inline-block;
position: relative;
box-sizing: border-box;
animation: rotation 1s linear infinite;
}
.loader::after {
content: '';
box-sizing: border-box;
position: absolute;
left: 50%;
top: 50%;
transform: translate(-50%, -50%);
width: 120px;
height: 120px;
border-radius: 50%;
border: 12px solid transparent;
border-bottom-color: #FF3D00;
}
@keyframes rotation {
0% {
transform: rotate(0deg);
}
100% {
transform: rotate(360deg);
}
}
.notification-container {
position: fixed;
top: 30%;
left: 50%;
transform: translateX(-50%);
z-index: 1000;
}
.notification {
margin-bottom: 20px; /* Fügen Sie bei Bedarf weitere Stile hinzu */
}

96
Software/data_src/static/dtc_table.json Normal file
View File

@@ -0,0 +1,96 @@
{
"codegenerator_checksum": "313d59949b074024df3c5d796f65e3bd518e34f0bb171185c30f008f21c19d30",
"timestamp": "2024-05-30 21:56:51",
"dtc_table_data": [
{
"num": 0,
"title": "No Error",
"description": "No Error"
},
{
"num": 1,
"title": "Akku leer",
"description": "Akku ist komplett leer. Den Akku aufladen!"
},
{
"num": 2,
"title": "Akku niedrig",
"description": "Akku ist unter der Warnschwelle. Den Akku demnächst aufladen"
},
{
"num": 3,
"title": "kein EEPROM erkannt",
"description": "Es wurde kein EEPROM gefunden. Dies lässt einen Hardware-Defekt vermuten."
},
{
"num": 4,
"title": "EEPROM CFG Checksumme",
"description": "Die Checksumme der Config-Partition des EEPROM ist ungültig. Setzen sie den EEPROM-Bereich 'CFG' im Menu 'Wartung' zurück"
},
{
"num": 5,
"title": "EEPROM PDS Checksumme",
"description": "Die Checksumme der Betriebsdaten-Partition des EEPROM ist ungültig. Setzen sie den EEPROM-Bereich 'PDS' im Menu 'Wartung' zurück"
},
{
"num": 6,
"title": "EEPROM PDS Adresse",
"description": "Die Adresse der Betriebsdaten-Partition im EEPROM ist ungültig. Setzen sie den EEPROM-Bereich 'PDS' im Menu 'Wartung' zurück"
},
{
"num": 7,
"title": "EEPROM Version falsch",
"description": "Die Layout-Version des EEPROM stimmt nicht mit der Firmware-Version überein. Setzen sie den EEPROM-Bereich 'CFG' im Menu 'Wartung' zurück"
},
{
"num": 8,
"title": "Flashspeicher Fehler",
"description": "Der Flashspeicher konnte nicht initialisiert werden. Aktualisieren sie Flash & Firmware"
},
{
"num": 9,
"title": "Flashversion falsch",
"description": "Die Version des Flashspeicher stimmt nicht mit der Firmware-Version überein. Aktualisieren sie den Flash mit der passenden Update-Datei"
},
{
"num": 10,
"title": "Keine Akkuüberwachung",
"description": "Es wurde keine Akkuüberwachung über I2C gefunden, Prüfen sie die Hardware!"
},
{
"num": 11,
"title": "LoRa-Transceiver Error",
"description": "Es konnte keine Verbindung zum LoRa-Transceiver hergestellt werden. Prüfen Sie die Hardware auf Defekte"
},
{
"num": 12,
"title": "Config-Validierung",
"description": "Ein oder mehrer Einstellungswerte sind ausserhalb plausibler Werte. Prüfen Sie Ihre Einstellungen"
},
{
"num": 13,
"title": "EEPROM-Migration",
"description": "Es wurde ein altes EEPROm Image erkannt, konnte aber nicht migriert werden. EEPROM manuell zurück setzen und neue Einstellunge speichern."
},
{
"num": 14,
"title": "Dummy-DTC Info",
"description": "Ein Dummy-DTC der Schwere \"Info\" für Debugging-Zwecke"
},
{
"num": 15,
"title": "Dummy-DTC Warnung",
"description": "Ein Dummy-DTC der Schwere \"Warnung\" für Debugging-Zwecke"
},
{
"num": 16,
"title": "Dummy-DTC Kritisch",
"description": "Ein Dummy-DTC der Schwere \"Kritisch\" für Debugging-Zwecke"
},
{
"num": 17,
"title": "Last Error",
"description": "Last Error"
}
]
}

221
Software/data_src/static/js/dtc_table.js Normal file
View File

@@ -0,0 +1,221 @@
const jsonFilePath = "static/dtc_table.json";
var dtcState = {};
async function processDTCNotifications(dtcArray) {
// Entferne DTCs aus dtcState, die nicht im dtcArray enthalten sind
for (var key in dtcState) {
if (!dtcArray.some((dtc) => parseInt(dtc.split(",")[1]) == key)) {
delete dtcState[key];
}
}
if (dtcArray.length === 0 || dtcArray[0] == "0") {
dtcState = {};
return;
}
for (var i = 0; i < dtcArray.length; i++) {
var dtcInfo = dtcArray[i].split(",");
var errorCode = parseInt(dtcInfo[1]);
var activity = parseInt(dtcInfo[3]);
var severity = parseInt(dtcInfo[2]);
try {
var { title, description } = await getDescriptionForDTCNumber(errorCode);
switch (severity) {
case 1:
severity = "info";
break;
case 2:
severity = "warning";
break;
case 3:
severity = "danger";
break;
}
if (dtcState[errorCode]) {
// Überprüfen, ob sich der Zustand von "previous" auf "active" geändert hat
if (activity !== dtcState[errorCode].activity) {
dtcState[errorCode].activity = activity;
if (activity === 1) showNotification(description, severity);
}
} else {
// DTC ist neu, Zustand speichern und wenn active, Benachrichtigung anzeigen
dtcState[errorCode] = { activity: activity };
if (activity === 1) showNotification(description, severity);
}
} catch (error) {
console.error("Error processing DTC:", error);
}
}
}
function getDescriptionForDTCNumber(number) {
return new Promise((resolve, reject) => {
fetch(jsonFilePath)
.then((response) => response.json())
.then((data) => {
const dtcList = data.dtc_table_data;
const foundEntry = dtcList.find((entry) => entry.num === number);
if (foundEntry) {
const description = foundEntry.description;
const title = foundEntry.title;
resolve({ title, description });
} else {
// Wenn die Nummer nicht gefunden wurde, geben Sie einen Fehler zurück
reject(`Beschreibung für Nummer ${number} nicht gefunden.`);
}
})
.catch((error) => {
// Im Fehlerfall geben Sie den Fehler zurück
reject(error);
});
});
}
async function showDTCModal(event) {
var dtc = parseInt(event.currentTarget.getAttribute("data-dtc"));
var debugval = event.currentTarget.getAttribute("data-debugval");
var modal = $("#dtcModal");
try {
var { title, description } = await getDescriptionForDTCNumber(dtc);
modal.find(".modal-title").text(title);
modal.find(".dtc-desc").text(description);
if (debugval > 0) {
modal.find(".dtc-debugval").text("Debugvalue: " + debugval);
} else {
modal.find(".dtc-debugval").remove();
}
} catch (error) {
console.error("Fehler beim Abrufen der Beschreibung:", error);
modal.find(".modal-title").text("Fehler");
modal
.find(".dtc-desc")
.text("DTC-Beschreibung konnte nicht geladen werden");
}
// Modal anzeigen
modal.modal("show");
}
function fillDTCTable(dtcArray) {
// Referenz auf das Tabellen-Element
var table = document.getElementById("dtc_table");
var tablediv = document.getElementById("dtc_container");
// Prüfen, ob DTC vorhanden sind
if (dtcArray.length === 0 || dtcArray[0] == "0") {
// Verstecke das Tabellen-Div, wenn keine DTC vorhanden sind
tablediv.hidden = true;
table.innerHTML = "";
return;
}
// Prüfen, ob sich der Inhalt der Tabelle geändert hat
var tableContentChanged = false;
for (var i = 0; i < dtcArray.length; i++) {
var dtcInfo = dtcArray[i].split(",");
var errorCode = parseInt(dtcInfo[1]);
var activity = parseInt(dtcInfo[3]);
if (!dtcState[errorCode] || dtcState[errorCode].activity !== activity) {
tableContentChanged = true;
break;
}
}
if (!tableContentChanged) {
return;
}
// Zeige das Tabellen-Div, wenn DTC vorhanden sind
tablediv.hidden = false;
// Tabelle leeren, bevor sie neu gefüllt wird
table.innerHTML = "";
// Überschriften für die Tabelle erstellen
var headerRow = table.insertRow(0);
// Definition der Klassen und Scopes für die Spalten
var columnDefinitions = [
{ class: "col-6", scope: "Zeitstempel" },
{ class: "col-2", scope: "Fehlercode" },
{ class: "col-2", scope: "Schwere" },
{ class: "col-2", scope: "Aktiv" },
];
for (var i = 0; i < columnDefinitions.length; i++) {
var headerCell = headerRow.insertCell(i);
headerCell.className = `th ${columnDefinitions[i].class}`;
headerCell.scope = columnDefinitions[i].scope;
headerCell.innerHTML = columnDefinitions[i].scope;
}
// DTC-Daten in die Tabelle einfügen
for (var i = 0; i < dtcArray.length; i++) {
var dtcInfo = dtcArray[i].split(",");
var row = table.insertRow(i + 1); // +1 wegen der Überschriftenzeile
// Zeitstempel
var timestampCell = row.insertCell(0);
timestampCell.innerHTML = formatTimestamp(parseInt(dtcInfo[0]));
// Fehlercode
var errorCodeCell = row.insertCell(1);
errorCodeCell.innerHTML = dtcInfo[1];
// Schwere
var severityCell = row.insertCell(2);
var severity = parseInt(dtcInfo[2]);
// Schwere
switch (severity) {
case 1:
severityCell.innerHTML = '<img src="static/img/info.png" alt="Info" />';
break;
case 2:
severityCell.innerHTML =
'<img src="static/img/warn.png" alt="Warnung" />';
break;
case 3:
severityCell.innerHTML =
'<img src="static/img/critical.png" alt="Kritisch" />';
break;
default:
severityCell.innerHTML =
'<img src="static/img/none.png" alt="Unbekannt" />';
}
row.setAttribute("data-dtc", dtcInfo[1]);
row.setAttribute("data-debugval", dtcInfo[4]);
row.addEventListener("click", showDTCModal);
// Aktivität
var activityCell = row.insertCell(3);
activityCell.innerHTML = parseInt(dtcInfo[3]) === 1 ? "active" : "previous";
}
}
function formatTimestamp(milliseconds) {
const date = new Date(milliseconds);
const days = String(date.getUTCDate() - 1).padStart(2, "0");
const hours = String(date.getUTCHours()).padStart(2, "0");
const minutes = String(date.getUTCMinutes()).padStart(2, "0");
const seconds = String(date.getUTCSeconds()).padStart(2, "0");
const millisecondsFormatted = String(date.getUTCMilliseconds()).padStart(
3,
"0"
);
return `${days}-${hours}:${minutes}:${seconds}:${millisecondsFormatted}`;
}

27
Software/data_src/static/js/script.js Normal file
View File

@@ -0,0 +1,27 @@
$(document).ready(function () {
$(".navbar-nav a").on("click", function () {
$(".navbar-collapse").collapse("hide");
});
$("#show_hide_password a").on("click", function (event) {
event.preventDefault();
if ($("#show_hide_password input").attr("type") == "text") {
$("#show_hide_password input").attr("type", "password");
$("#show_hide_password i").addClass("fa-eye-slash");
$("#show_hide_password i").removeClass("fa-eye");
} else if ($("#show_hide_password input").attr("type") == "password") {
$("#show_hide_password input").attr("type", "text");
$("#show_hide_password i").removeClass("fa-eye-slash");
$("#show_hide_password i").addClass("fa-eye");
}
});
});
document
.querySelector(".custom-file-input")
.addEventListener("change", function (e) {
var fileName = document.getElementById("fw-update-file").files[0].name;
var nextSibling = e.target.nextElementSibling;
nextSibling.innerText = fileName;
});

245
Software/data_src/static/js/websocket.js
View File

@@ -1,7 +1,15 @@
var gateway = `ws://${window.location.hostname}/ws`; var gateway = `ws://${window.location.hostname}/ws`;
var websocket; var websocket;
window.addEventListener("load", onLoad); var statusMapping;
var staticMapping;
var overlay;
document.addEventListener("DOMContentLoaded", function () {
// Ihr JavaScript-Code hier, einschließlich der onLoad-Funktion
overlay = document.getElementById("overlay");
onLoad();
});
function initWebSocket() { function initWebSocket() {
console.log("Trying to open a WebSocket connection..."); console.log("Trying to open a WebSocket connection...");
@@ -12,12 +20,27 @@ function initWebSocket() {
} }
function initButtons() { function initButtons() {
document var elements = document.getElementsByClassName("btn-wsevent");
.getElementById("btn-ws-stop")
.addEventListener("click", livedebug_stop); if (elements.length > 0) {
document for (var i = 0; i < elements.length; i++) {
.getElementById("btn-ws-start") let element = elements[i];
.addEventListener("click", livedebug_start); element.addEventListener("click", sendButton);
}
}
}
function initSettingInputs() {
var elements = document.getElementsByClassName("set-wsevent");
if (elements.length > 0) {
for (var i = 0; i < elements.length; i++) {
let element = elements[i];
element.addEventListener("change", function () {
websocket_sendevent("set-" + element.id, element.value);
});
}
}
} }
function onOpen(event) { function onOpen(event) {
@@ -26,28 +49,94 @@ function onOpen(event) {
function onClose(event) { function onClose(event) {
console.log("Connection closed"); console.log("Connection closed");
setTimeout(initWebSocket, 2000); setTimeout(initWebSocket, 1000);
overlay.style.display = "flex";
}
function sendButton(event) {
var targetElement = event.target;
if (
targetElement.classList.contains("confirm") &&
window.confirm("Sicher?") == false
)
return;
websocket_sendevent("btn-" + targetElement.id, targetElement.value);
} }
function onMessage(event) { function onMessage(event) {
var data = event.data;
if (data.startsWith("NOTIFY:")) {
var notify_data = data.slice(7).split(";")[1];
var notify_type = data.slice(7).split(";")[0];
showNotification(notify_data, notify_type);
} else if (data.startsWith("DEBUG:")) {
var addtext = data.slice(6);
var livedebug_out = document.getElementById("livedebug-out"); var livedebug_out = document.getElementById("livedebug-out");
var textarea_heigth = livedebug_out.scrollHeight; livedebug_out.value += addtext;
livedebug_out.value += event.data;
livedebug_out.scrollTop = livedebug_out.scrollHeight; livedebug_out.scrollTop = livedebug_out.scrollHeight;
do_resize(livedebug_out); do_resize(livedebug_out);
} else if (data.startsWith("DTC:")) {
const dtcs = data.slice(4);
const dtcArray = dtcs.trim() !== "" ? dtcs.split(";").filter(Boolean) : [];
processDTCNotifications(dtcArray);
fillDTCTable(dtcArray);
} else if (data.startsWith("MAPPING_STATUS:")) {
const data_sliced = data.slice(15);
statusMapping = createMapping(data_sliced);
} else if (data.startsWith("MAPPING_STATIC:")) {
const data_sliced = data.slice(15);
staticMapping = createMapping(data_sliced);
console.log(staticMapping);
} else if (data.startsWith("STATUS:")) {
const data_sliced = data.slice(7);
const result = processDataString(data_sliced, statusMapping);
fillValuesToHTML(result);
} else if (data.startsWith("STATIC:")) {
const data_sliced = data.slice(7);
const result = processDataString(data_sliced, staticMapping);
fillValuesToHTML(result);
console.log(result);
overlay.style.display = "none";
}
}
function createMapping(mappingString) {
const mappingArray = mappingString.split(";");
const mapping = [];
mappingArray.forEach((variable) => {
if (variable !== null) mapping.push(variable.trim());
});
return mapping;
}
function processDataString(dataString, mapping) {
const valuesArray = dataString.split(";");
const dataObject = {};
valuesArray.forEach((value, index) => {
const variable = mapping[index];
if (variable) {
dataObject[variable] = value.trim();
}
});
return dataObject;
} }
function onLoad(event) { function onLoad(event) {
initWebSocket(); initWebSocket();
initButtons(); initButtons();
initSettingInputs();
overlay.style.display = "flex";
} }
function livedebug_start() { function websocket_sendevent(element_id, element_value) {
websocket.send("start"); websocket.send(element_id + ":" + element_value);
}
function livedebug_stop() {
websocket.send("stop");
} }
function do_resize(textbox) { function do_resize(textbox) {
@@ -67,18 +156,120 @@ function do_resize(textbox) {
else textbox.rows = rows; else textbox.rows = rows;
} }
function notifyMe() { function fillValuesToHTML(dataset) {
if (!("Notification" in window)) { for (var key in dataset) {
alert("This browser does not support desktop notification"); var key_prefixed = "data-" + key;
} else if (Notification.permission === "granted") { var elements = document.getElementsByClassName(key_prefixed);
const notification = new Notification("Hi there!");
// … if (elements.length > 0) {
} else if (Notification.permission !== "denied") { for (var i = 0; i < elements.length; i++) {
Notification.requestPermission().then((permission) => { var element = elements[i];
if (permission === "granted") {
const notification = new Notification("Hi there!"); if (element.type === "checkbox") {
// // Wenn das Element ein Kontrollkästchen ist
element.checked = dataset[key] == 1 ? true : false;
} else if (element.tagName === "SELECT") {
// Wenn das Element ein Dropdown ist
setDropdownValue(element, dataset[key]);
} else if (element.classList.contains("progress-bar")) {
// Wenn das Element eine Fortschrittsleiste ist
updateProgressBar(element, dataset[key]);
} else if (element.classList.contains("hideable")) {
// Wenn das Element ein Settingsabschnitt-div ist
if (dataset[key] == 0) element.style.display = "none";
else element.style.display = "";
} else if (element.tagName === "DIV" || element.tagName === "SPAN") {
if (element.classList.contains("format-time")) {
element.innerText = formatTime(dataset[key]);
} else if (element.classList.contains("faction-logo")) {
// Faction-Logo-Logik
updateFactionLogo(element, dataset[key]);
} else {
element.innerText = dataset[key];
}
} else {
// Standardmäßig für Textfelder und andere Elemente
element.value = dataset[key];
}
}
}
// Aktualisiere den <title>-Tag, wenn der Schlüssel 'devicename' im dataset vorhanden ist
if (key === "devicename") {
document.title = dataset[key];
}
}
}
function formatTime(seconds) {
var hrs = Math.floor(seconds / 3600);
var mins = Math.floor((seconds % 3600) / 60);
var secs = seconds % 60;
return (
String(hrs).padStart(2, "0") +
":" +
String(mins).padStart(2, "0") +
":" +
String(secs).padStart(2, "0")
);
}
function updateFactionLogo(element, faction) {
const glowClass = "glow-active-faction";
const factionClasses = ["faction1", "faction2", "faction3"];
factionClasses.forEach((factionClass) => {
if (
factionClass === "faction" + faction &&
element.classList.contains(factionClass)
) {
element.classList.add(glowClass);
} else {
element.classList.remove(glowClass);
} }
}); });
} }
// Funktion zum Setzen des ausgewählten Werts für Dropdowns
function setDropdownValue(selectElement, value) {
for (var i = 0; i < selectElement.options.length; i++) {
if (selectElement.options[i].value === value) {
selectElement.selectedIndex = i;
break;
}
}
}
// Funktion zum Aktualisieren der Fortschrittsleiste
function updateProgressBar(progressBar, value) {
// Wert in das aria-valuenow-Attribut einfügen
progressBar.setAttribute("aria-valuenow", value);
// Breite des Fortschrittsbalkens und inneren Text aktualisieren
progressBar.style.width = value + "%";
progressBar.textContent = value + "%";
}
function showNotification(message, type) {
// Erstellen Sie ein Bootstrap-Alert-Element
var alertElement = $(
'<div class="alert alert-' +
type +
' alert-dismissible fade show notification" role="alert">' +
"<strong>" +
message +
"</strong>" +
'<button type="button" class="close" data-dismiss="alert" aria-label="Close">' +
'<span aria-hidden="true">&times;</span>' +
"</button>" +
"</div>"
);
// Fügen Sie das Alert-Element dem Container hinzu
$("#notification-container").append(alertElement);
// Nach 5 Sekunden das Alert-Element ausblenden
setTimeout(function () {
alertElement.alert("close");
}, 5000);
} }

4
Software/data_src/static/tt_dtc/dtc_1.json
View File

@@ -1,4 +0,0 @@
{
"title": "kein EEPROM gefunden",
"description": "Es wurde kein EEPROM gefunden. Dies lässt einen Hardware-Defekt vermuten."
}

4
Software/data_src/static/tt_dtc/dtc_10.json
View File

@@ -1,4 +0,0 @@
{
"title": "Power-Monitor Fehler",
"description": "Es gibt ein Problem mit dem Power-Monitoring. Die Akku-Überwachung ist ohne Funktion! Bitte Hardware prüfen"
}

4
Software/data_src/static/tt_dtc/dtc_11.json
View File

@@ -1,4 +0,0 @@
{
"title": "Akku-Spannung niedrig",
"description": "Die Akkuspannung ist niedrig. Bitte Akku bald aufladen!"
}

4
Software/data_src/static/tt_dtc/dtc_12.json
View File

@@ -1,4 +0,0 @@
{
"title": "Akku-Spannung kritisch",
"description": "Die Akkuspannung ist sehr niedrig. Bitte Akku umgehend ersetzen um eine schädliche Tiefentladung zu vermeiden!"
}

4
Software/data_src/static/tt_dtc/dtc_13.json
View File

@@ -1,4 +0,0 @@
{
"title": "EEPROM-Migration failed",
"description": "Migration of EEPROM-Image from an other FW-Version failed - you need to reset everything manually!"
}

4
Software/data_src/static/tt_dtc/dtc_2.json
View File

@@ -1,4 +0,0 @@
{
"title": "EEPROM CFG Checksumme",
"description": "Die Checksumme der Config-Partition des EEPROM ist ungültig. Setzen sie den EEPROM-Bereich 'CFG' im Menu 'Wartung' zurück"
}

4
Software/data_src/static/tt_dtc/dtc_3.json
View File

@@ -1,4 +0,0 @@
{
"title": "EEPROM PDS Checksumme",
"description": "Die Checksumme der Betriebsdaten-Partition des EEPROM ist ungültig. Setzen sie den EEPROM-Bereich 'PDS' im Menu 'Wartung' zurück"
}

4
Software/data_src/static/tt_dtc/dtc_4.json
View File

@@ -1,4 +0,0 @@
{
"title": "EEPROM PDS Adresse",
"description": "Die Adresse der Betriebsdaten-Partition im EEPROM ist ungültig. Setzen sie den EEPROM-Bereich 'PDS' im Menu 'Wartung' zurück"
}

4
Software/data_src/static/tt_dtc/dtc_5.json
View File

@@ -1,4 +0,0 @@
{
"title": "EEPROM Version falsch",
"description": "Die Layout-Version des EEPROM stimmt nicht mit der Firmware-Version überein. Setzen sie den EEPROM-Bereich 'CFG' im Menu 'Wartung' zurück"
}

4
Software/data_src/static/tt_dtc/dtc_6.json
View File

@@ -1,4 +0,0 @@
{
"title": "Flashstorage Fehler",
"description": "Der Flashstorage konnte nicht initialisiert werden. Aktualisieren sie Flash & Firmware"
}

4
Software/data_src/static/tt_dtc/dtc_7.json
View File

@@ -1,4 +0,0 @@
{
"title": "Flashstorage Version falsch",
"description": "Die Version des Flashstorage stimmt nicht mit der Firmware-Version überein. Aktualisieren sie den Flash mit der passenden Update-Datei"
}

4
Software/data_src/static/tt_dtc/dtc_8.json
View File

@@ -1,4 +0,0 @@
{
"title": "Config-Validierung",
"description": "Ein oder mehrer Einstellungswerte sind ausserhalb plausibler Werte. Prüfen Sie Ihre Einstellungen"
}

4
Software/data_src/static/tt_dtc/dtc_9.json
View File

@@ -1,4 +0,0 @@
{
"title": "LoRa-Modul Fehler",
"description": "Es gibt ein Problem mit dem LoRa-Modul. Es konnte keine LoRa-Verbindung aufgebaut werden. Bitte Hardware prüfen"
}

2
Software/data_src/version
View File

@@ -1 +1 @@
1.02 1.06

8
Software/git_rev_macro.py
View File

@@ -1,8 +0,0 @@
import subprocess
revision = (
subprocess.check_output(["git", "rev-parse", "--short=10", "HEAD"])
.strip()
.decode("utf-8")
)
print("-DGIT_REV='\"%s\"'" % revision)

29
Software/include/common.h
View File

@@ -3,14 +3,20 @@
#define _COMMON_H_ #define _COMMON_H_
#include <stdint.h> #include <stdint.h>
#include <stddef.h>
#define Q(x) #x #define Q(x) #x
#define QUOTE(x) Q(x) #define QUOTE(x) Q(x)
#define SET_BIT(value, bitPosition) ((value) |= (1U << (bitPosition)))
#define TRUE 1 #define TRUE 1
#define FALSE 0 #define FALSE 0
#define HOST_NAME "AirsoftTimer_%08X" #ifndef DEVICE_NAME
#define HOST_NAME "AirsoftTimer"
#else
#define HOST_NAME DEVICE_NAME
#endif
#define SHUTDOWN_DELAY_MS 5000 #define SHUTDOWN_DELAY_MS 5000
#define STARTUP_DELAY_MS 20000 #define STARTUP_DELAY_MS 20000
@@ -44,6 +50,27 @@
#define OTA_DELAY 50 // ticks -> 10ms / tick #define OTA_DELAY 50 // ticks -> 10ms / tick
#endif #endif
typedef enum eSystem_Status
{
sysStat_Init,
sysStat_Startup,
sysStat_Normal,
sysStat_Error,
sysStat_Shutdown
} tSystem_Status;
typedef enum batteryType_e
{
BATTERY_UNDEFINED,
BATTERY_LIPO_2S,
BATTERY_LIPO_3S
} batteryType_t;
// String representation of SpeedSource enum
extern const char *BatteryString[];
extern const size_t BatteryString_Elements;
#define STARTUP_DELAY 2500
#define SHUTDOWN_DELAY_MS 2500
#endif #endif

17
Software/include/debugger.h
View File

@@ -1,16 +1,31 @@
/**
* @file debugger.h
*
* @brief Header file for debugging functions and status in the DE-Timer application.
*
* This file declares functions and status definitions for debugging purposes in the DE-Timer project.
* It includes functions to print system information, WiFi information, format EEPROM data,
* handle debug messages, and manage the status of different debug ports.
*
* @author Marcel Peterkau
* @date 09.01.2024
*/
#ifndef _DEBUGGER_H_ #ifndef _DEBUGGER_H_
#define _DEBUGGER_H_ #define _DEBUGGER_H_
#include <Arduino.h> #include <Arduino.h>
#include "webui.h" #include "webui.h"
const char PROGMEM helpCmd[] = "sysinfo - System Info\n" const char PROGMEM helpCmd[] = "sysinfo - System Info\n"
"reboot - System Reboot\n"
"netinfo - WiFi Info\n" "netinfo - WiFi Info\n"
"formatPDS - Format Persistence EEPROM Data\n" "formatPDS - Format Persistence EEPROM Data\n"
"formatCFG - Format Configuration EEPROM Data\n" "formatCFG - Format Configuration EEPROM Data\n"
"checkEE - Check EEPROM with checksum\n" "checkEE - Check EEPROM with checksum\n"
"dumpEE1k - dump the first 1kb of EEPROM to Serial\n" "dumpEE1k - dump the first 1kb of EEPROM to Serial\n"
"dumpEE - dump the whole EPPROM to Serial\n" "dumpEE - dump the whole EPPROM to Serial\n"
"killEE - kill the first 1024 byte of EEPROM\n"
"zeroEE - zero the first 1024 byte of EEPROM\n"
"resetPageEE - Reset the PersistenceData Page\n" "resetPageEE - Reset the PersistenceData Page\n"
"dumpCFG - print Config struct\n" "dumpCFG - print Config struct\n"
"dumpPDS - print PersistanceStruct\n" "dumpPDS - print PersistanceStruct\n"

62
Software/include/dtc.h
View File

@@ -1,57 +1,39 @@
/**
* @file dtc.h
*
* @brief Header file for handling Diagnostic Trouble Codes (DTC) in the DE-Timer application.
*
* This file provides definitions and functions for handling Diagnostic Trouble Codes (DTC)
* in the DE-Timer project. It includes structures for DTC entries, severity levels,
* and functions for DTC maintenance and processing. DTCs are used to track system errors and issues.
*
* @author Marcel Peterkau
* @date 09.01.2024
*/
#ifndef _DTC_H_ #ifndef _DTC_H_
#define _DTC_H_ #define _DTC_H_
#include <Arduino.h> #include <Arduino.h>
#include "dtc_defs.h"
#define MAX_DTC_STORAGE 12 #define MAX_DTC_STORAGE 12
typedef enum DTCNums_e typedef struct
{ {
DTC_NO_EEPROM_FOUND = 1, DTCNum_t Number;
DTC_EEPROM_CFG_BAD,
DTC_EEPROM_PDS_BAD,
DTC_EEPROM_PDSADRESS_BAD,
DTC_EEPROM_VERSION_BAD,
DTC_FLASHFS_ERROR,
DTC_FLASHFS_VERSION_ERROR,
DTC_EEPROM_CFG_SANITY,
DTC_NO_LORA_FOUND,
DTC_NO_BATMNON_FOUND,
DTC_BAT_LOW,
DTC_BAT_CRITICAL,
DTC_EEPROM_MIGRATE_FAILED,
DTC_LAST_DTC
} DTCNums_t;
typedef enum DTCActive_e
{
DTC_NONE,
DTC_ACTIVE,
DTC_PREVIOUS
} DTCActive_t;
typedef enum DTCSeverity_e
{
DTC_INFO,
DTC_WARN,
DTC_CRITICAL
} DTCSeverity_t;
typedef struct DTCEntry_s
{
DTCNums_t Number;
uint32_t timestamp; uint32_t timestamp;
DTCActive_t active; DTCActive_t active;
DTCSeverity_t severity;
uint32_t debugVal; uint32_t debugVal;
} DTCEntry_t; } DTCEntry_t;
void MaintainDTC(DTCNums_t DTC_no, DTCSeverity_t DTC_severity, boolean active, uint32_t DebugValue = 0); void MaintainDTC(DTCNum_t DTC_no, boolean active, uint32_t DebugValue = 0);
void ClearDTC(DTCNums_t DTC_no); void ClearDTC(DTCNum_t DTC_no);
void ClearAllDTC(); void ClearAllDTC();
DTCNums_t getlastDTC(boolean only_active); DTCNum_t getlastDTC(boolean only_active);
DTCNums_t getlastDTC_Severity(boolean only_active, DTCSeverity_t severity); DTCNum_t ActiveDTCseverity(DTCSeverity_t severity);
DTCSeverity_t getSeverityForDTC(DTCNum_t targetCode);
void DTC_Process(); void DTC_Process();
extern DTCEntry_s DTCStorage[MAX_DTC_STORAGE]; extern DTCEntry_t DTCStorage[MAX_DTC_STORAGE];
#endif #endif

85
Software/include/dtc_defs.h Normal file
View File

@@ -0,0 +1,85 @@
/**
* @file dtc_defs.h
*
* @brief Header file for Diagnostic Trouble Code (DTC) definitions in the DE-Timer application.
*
* This file contains definitions for Diagnostic Trouble Codes (DTC) in the DE-Timer project.
* It includes enums for DTC active status, severity levels, and specific DTC codes.
* The file also defines an array of DTC definitions and a timestamp indicating the generation time.
*
* @note This file is auto-generated by a script on 2024-05-30 21:56:51.
*
* @author Marcel Peterkau
* @date 30.05.2024
*/
#ifndef DTC_DEFS_H
#define DTC_DEFS_H
#include <stdint.h>
typedef uint32_t DTCNum_t;
typedef enum
{
DTC_INACTIVE,
DTC_ACTIVE,
DTC_PREVIOUS
} DTCActive_t;
typedef enum
{
DTC_NONE,
DTC_INFO,
DTC_WARN,
DTC_CRITICAL
} DTCSeverity_t;
typedef struct {
DTCNum_t code;
DTCSeverity_t severity;
} DTC_t;
#define DTC_NO_DTC 0
#define DTC_BAT_CRITICAL 1
#define DTC_BAT_LOW 2
#define DTC_NO_EEPROM_FOUND 3
#define DTC_EEPROM_CFG_BAD 4
#define DTC_EEPROM_PDS_BAD 5
#define DTC_EEPROM_PDSADRESS_BAD 6
#define DTC_EEPROM_VERSION_BAD 7
#define DTC_FLASHFS_ERROR 8
#define DTC_FLASHFS_VERSION_ERROR 9
#define DTC_NO_BATMNON_FOUND 10
#define DTC_NO_LORA_FOUND 11
#define DTC_EEPROM_CFG_SANITY 12
#define DTC_EEPROM_MIGRATE_FAILED 13
#define DTC_FAKE_DTC_INFO 14
#define DTC_FAKE_DTC_WARN 15
#define DTC_FAKE_DTC_CRIT 16
#define DTC_LAST_DTC 17
const DTC_t dtc_definitions[] = {
{ DTC_NO_DTC , DTC_NONE }, // No Error
{ DTC_BAT_CRITICAL , DTC_CRITICAL }, // Akku ist komplett leer. Den Akku aufladen!
{ DTC_BAT_LOW , DTC_WARN }, // Akku ist unter der Warnschwelle. Den Akku demnächst aufladen
{ DTC_NO_EEPROM_FOUND , DTC_CRITICAL }, // Es wurde kein EEPROM gefunden. Dies lässt einen Hardware-Defekt vermuten.
{ DTC_EEPROM_CFG_BAD , DTC_CRITICAL }, // Die Checksumme der Config-Partition des EEPROM ist ungültig. Setzen sie den EEPROM-Bereich 'CFG' im Menu 'Wartung' zurück
{ DTC_EEPROM_PDS_BAD , DTC_CRITICAL }, // Die Checksumme der Betriebsdaten-Partition des EEPROM ist ungültig. Setzen sie den EEPROM-Bereich 'PDS' im Menu 'Wartung' zurück
{ DTC_EEPROM_PDSADRESS_BAD , DTC_CRITICAL }, // Die Adresse der Betriebsdaten-Partition im EEPROM ist ungültig. Setzen sie den EEPROM-Bereich 'PDS' im Menu 'Wartung' zurück
{ DTC_EEPROM_VERSION_BAD , DTC_CRITICAL }, // Die Layout-Version des EEPROM stimmt nicht mit der Firmware-Version überein. Setzen sie den EEPROM-Bereich 'CFG' im Menu 'Wartung' zurück
{ DTC_FLASHFS_ERROR , DTC_CRITICAL }, // Der Flashspeicher konnte nicht initialisiert werden. Aktualisieren sie Flash & Firmware
{ DTC_FLASHFS_VERSION_ERROR , DTC_CRITICAL }, // Die Version des Flashspeicher stimmt nicht mit der Firmware-Version überein. Aktualisieren sie den Flash mit der passenden Update-Datei
{ DTC_NO_BATMNON_FOUND , DTC_CRITICAL }, // Es wurde keine Akkuüberwachung über I2C gefunden, Prüfen sie die Hardware!
{ DTC_NO_LORA_FOUND , DTC_CRITICAL }, // Es konnte keine Verbindung zum LoRa-Transceiver hergestellt werden. Prüfen Sie die Hardware auf Defekte
{ DTC_EEPROM_CFG_SANITY , DTC_WARN }, // Ein oder mehrer Einstellungswerte sind ausserhalb plausibler Werte. Prüfen Sie Ihre Einstellungen
{ DTC_EEPROM_MIGRATE_FAILED , DTC_CRITICAL }, // Es wurde ein altes EEPROm Image erkannt, konnte aber nicht migriert werden. EEPROM manuell zurück setzen und neue Einstellunge speichern.
{ DTC_FAKE_DTC_INFO , DTC_INFO }, // Ein Dummy-DTC der Schwere "Info" für Debugging-Zwecke
{ DTC_FAKE_DTC_WARN , DTC_WARN }, // Ein Dummy-DTC der Schwere "Warnung" für Debugging-Zwecke
{ DTC_FAKE_DTC_CRIT , DTC_CRITICAL }, // Ein Dummy-DTC der Schwere "Kritisch" für Debugging-Zwecke
{ DTC_LAST_DTC , DTC_NONE } // Last Error
};
#endif // DTC_DEFS_H
// CODEGENERATOR_CHECKSUM: 313d59949b074024df3c5d796f65e3bd518e34f0bb171185c30f008f21c19d30

93
Software/include/eeprom.h
View File

@@ -1,52 +1,63 @@
/**
* @file eeprom.h
*
* @brief Header file for configuration settings and EEPROM operations in the DE-Timer application.
*
* This file defines configuration settings for the DE-Timer project, including default values,
* EEPROM structures, and functions for EEPROM operations. It also defines enums for different Battery Types.
* Additionally, it includes functions for EEPROM handling such as storing, retrieving, and formatting configuration data.
*
* @author Marcel Peterkau
* @date 09.01.2024
*/
#ifndef _EEPROM_H_ #ifndef _EEPROM_H_
#define _EEPROM_H_ #define _EEPROM_H_
#include <Arduino.h> #include <Arduino.h>
#include <Wire.h> #include <Wire.h>
#include <I2C_eeprom.h> #include <I2C_eeprom.h>
#include "globals.h"
#include "dtc.h" #include "dtc.h"
#include "common.h" #include "common.h"
#include "debugger.h"
#define I2C_EE_ADDRESS 0x50 #define I2C_EE_ADDRESS 0x50
#define EEPROM_SIZE_BYTES I2C_DEVICESIZE_24LC64 #define EEPROM_STRUCTURE_REVISION 4 // Increment this version when changing EEPROM structures
#define EEPROM_ENDURANCE 1000000 #define EEPROM_SIZE_BYTES I2C_DEVICESIZE_24LC256
typedef enum typedef enum Factions_e
{ {
NONE, NONE,
FACTION_1, FACTION_1,
FACTION_2, FACTION_2,
FACTION_3 FACTION_3
} factions_t; } Factions_t;
typedef enum EERequest_e
{
EE_IDLE,
EE_CFG_SAVE,
EE_CFG_LOAD,
EE_CFG_FORMAT,
EE_PDS_SAVE,
EE_PDS_LOAD,
EE_PDS_FORMAT,
EE_FORMAT_ALL,
EE_ALL_SAVE
} EERequest_t;
// Structure for persistence data stored in EEPROM
typedef struct typedef struct
{ {
uint32_t writeCycleCounter = 0; uint32_t writeCycleCounter;
uint32_t faction_1_timer = 0; uint32_t faction_1_timer;
uint32_t faction_2_timer = 0; uint32_t faction_2_timer;
uint32_t faction_3_timer = 0; uint32_t faction_3_timer;
factions_t activeFaction = NONE; Factions_t activeFaction;
uint32_t checksum = 0; uint32_t checksum;
} persistenceData_t; } persistenceData_t;
extern persistenceData_t PersistenceData; // Structure for configuration settings stored in EEPROM
typedef enum
{
BATTERY_UNDEFINED,
BATTERY_LIPO_2S,
BATTERY_LIPO_3S
} batteryType_t;
const char BatteryString[][10]{
"Undefined",
"LiPo 2S",
"LiPo 3S"};
const size_t BatteryString_Elements = sizeof(BatteryString) / sizeof(BatteryString[0]);
typedef struct typedef struct
{ {
uint8_t EEPROM_Version; uint8_t EEPROM_Version;
@@ -55,11 +66,15 @@ typedef struct
char Faction_1_Name[33]; char Faction_1_Name[33];
char Faction_2_Name[33]; char Faction_2_Name[33];
char Faction_3_Name[33]; char Faction_3_Name[33];
char wifi_ap_ssid[33];
char wifi_ap_password[64];
char wifi_client_ssid[33];
char wifi_client_password[64];
bool wifi_autoconnect;
uint32_t checksum; uint32_t checksum;
} configData_t; } configData_t;
extern configData_t ConfigData; // Default configuration settings
const configData_t ConfigData_defaults = { const configData_t ConfigData_defaults = {
2, // EEPROM_Version (incerease this if anything on Layout changes!) 2, // EEPROM_Version (incerease this if anything on Layout changes!)
BATTERY_LIPO_3S, // batteryType BATTERY_LIPO_3S, // batteryType
@@ -67,13 +82,15 @@ const configData_t ConfigData_defaults = {
"FACTION 1", // Faction_1_Name "FACTION 1", // Faction_1_Name
"FACTION 2", // Faction_2_Name "FACTION 2", // Faction_2_Name
"FACTION 3", // Faction_3_Name "FACTION 3", // Faction_3_Name
"ArisoftTimer",
QUOTE(WIFI_AP_PASSWORD),
QUOTE(WIFI_SSID_CLIENT),
QUOTE(WIFI_PASSWORD_CLIENT),
true,
0 // checksum 0 // checksum
}; };
const uint16_t startofConfigData = 16; boolean InitEEPROM();
const uint16_t startofPersistence = 16 + sizeof(ConfigData) + (sizeof(ConfigData) % 16);
void InitEEPROM();
void EEPROM_Process(); void EEPROM_Process();
void StoreConfig_EEPROM(); void StoreConfig_EEPROM();
void GetConfig_EEPROM(); void GetConfig_EEPROM();
@@ -85,5 +102,11 @@ uint32_t Checksum_EEPROM(uint8_t const *data, size_t len);
void dumpEEPROM(uint16_t memoryAddress, uint16_t length); void dumpEEPROM(uint16_t memoryAddress, uint16_t length);
void MovePersistencePage_EEPROM(boolean reset); void MovePersistencePage_EEPROM(boolean reset);
uint32_t ConfigSanityCheck(bool autocorrect = false); uint32_t ConfigSanityCheck(bool autocorrect = false);
bool validateWiFiString(char *string, size_t size);
void writeSequentialToEEPROM(uint16_t memoryAddress, uint16_t length);
void writeZeroToEEPROM(uint16_t memoryAddress, uint16_t length);
#endif // _EEPROM_H_ extern configData_t ConfigData;
extern persistenceData_t PersistenceData;
extern uint16_t eePersistenceMarker;
#endif // _CONFIG_H_

71
Software/include/globals.h
View File

@@ -2,67 +2,44 @@
#define _GLOBALS_H_ #define _GLOBALS_H_
#include <Arduino.h> #include <Arduino.h>
#include "eeprom.h"
typedef enum eSystem_Status #include "common.h"
{
sysStat_null,
sysStat_Startup,
sysStat_Normal,
sysStat_Error,
sysStat_Shutdown
} tSystem_Status;
const char sSystem_Status_txt[][9] = {
"Null",
"Startup",
"Normal",
"Error",
"Shutdown"
};
typedef enum eEERequest
{
EE_IDLE,
EE_CFG_SAVE,
EE_CFG_LOAD,
EE_CFG_FORMAT,
EE_PDS_SAVE,
EE_PDS_LOAD,
EE_PDS_FORMAT,
EE_FORMAT_ALL,
EE_ALL_SAVE
} tEERequest;
typedef struct Globals_s typedef struct Globals_s
{ {
char DeviceName[33]; tSystem_Status systemStatus = sysStat_Startup; /**< Current system status */
char DeviceName_ID[43]; tSystem_Status resumeStatus = sysStat_Startup; /**< Status to resume after rain mode */
char FlashVersion[10]; char systemStatustxt[16] = ""; /**< Text representation of system status */
tSystem_Status systemStatus = sysStat_Startup; EERequest_t requestEEAction = EE_IDLE; /**< EEPROM-related request */
eEERequest requestEEAction = EE_IDLE; char DeviceName[33]; /**< Device name */
uint16_t eePersistanceAdress; char DeviceNameId[sizeof(DeviceName) + 8]; /**< Device name plus 8 chars chipID */
char FlashVersion[10]; /**< Flash version */
uint16_t eePersistanceAdress; /**< EEPROM persistence address */
bool hasDTC; bool hasDTC;
int loadvoltage_mV = 0; int loadvoltage_mV = 0;
int battery_level = 0; int battery_level = 0;
bool timer_disabled = false;
} Globals_t; } Globals_t;
extern Globals_t globals; extern Globals_t globals; /**< Global variable struct */
typedef struct Constants_s typedef struct Constants_s
{ {
uint8_t FW_Version_major; uint8_t FW_Version_major; /**< Firmware version major number */
uint8_t FW_Version_minor; uint8_t FW_Version_minor; /**< Firmware version minor number */
uint8_t Required_Flash_Version_major; uint8_t Required_Flash_Version_major; /**< Required flash version major number */
uint8_t Required_Flash_Version_minor; uint8_t Required_Flash_Version_minor; /**< Required flash version minor number */
char GitHash[11]; char GitHash[11]; /**< Git hash string */
} Constants_t; } Constants_t;
const Constants_t constants PROGMEM = { const Constants_t constants PROGMEM = {
1,2, // Firmware_Version FW_MAJOR, FW_MINOR, // Firmware_Version
1,2, // Required Flash Version FL_MAJOR, FL_MINOR, // Required Flash Version
GIT_REV // Git-Hash-String GIT_REV // Git-Hash-String
}; };
/**
* @brief Initializes global variables.
*/
void initGlobals(); void initGlobals();
#endif #endif // _GLOBALS_H_

6
Software/include/lora_net.h
View File

@@ -2,10 +2,16 @@
#define _LORA_NET_H_ #define _LORA_NET_H_
#include <Arduino.h> #include <Arduino.h>
#ifdef LORA_FEATURE_ENABLED
#include <LoRa_E220.h> #include <LoRa_E220.h>
#elif defined(FEATURE_ENABLE_UARTLORA)
#include <SoftwareSerial.h>
#endif
// local includes // local includes
#include "lora_messages.h" #include "lora_messages.h"
#include "debugger.h"
#include "defaults.h" #include "defaults.h"
#include "config.h" #include "config.h"
#include "globals.h" #include "globals.h"

20
Software/include/oled_display.h
View File

@@ -1,20 +0,0 @@
#ifndef _OLED_DISPLAY_H_
#define _OLED_DISPLAY_H_
#include <Arduino.h>
#include <Wire.h>
#include <Adafruit_GFX.h>
#include <Adafruit_SSD1306.h>
#include "globals.h"
#include "eeprom.h"
#define OLED_SDA 4
#define OLED_SCL 15
#define OLED_RST 16
#define SCREEN_WIDTH 128 // OLED display width, in pixels
#define SCREEN_HEIGHT 64 // OLED display height, in pixels
void OLED_Init();
void OLED_Process();
#endif

7
Software/include/sanitycheck.h
View File

@@ -14,12 +14,15 @@
#error "You must define an WIFI_AP_PASSWORD for Standalone AP-Mode" #error "You must define an WIFI_AP_PASSWORD for Standalone AP-Mode"
#endif #endif
#if defined(FEATURE_ENABLE_UARTLORA) && defined(FEATURE_ENABLE_LORA)
#error "You cannot enable LoRa and UART-Protocol at the same time!"
#endif
#ifdef FEATURE_ENABLE_WIFI_CLIENT #ifdef FEATURE_ENABLE_WIFI_CLIENT
#ifndef WIFI_CLIENT_PASSWORD #ifndef WIFI_PASSWORD_CLIENT
#error "You must define an WIFI_PASSWORD for OTA-Update" #error "You must define an WIFI_PASSWORD for OTA-Update"
#endif #endif
#ifndef WIFI_CLIENT_SSID #ifndef WIFI_SSID_CLIENT
#error "You must define an WIFI_SSID for OTA-Update" #error "You must define an WIFI_SSID for OTA-Update"
#endif #endif
#endif #endif

26
Software/include/struct2json.h Normal file
View File

@@ -0,0 +1,26 @@
/**
* @file struct2json.h
*
* @brief Header file for converting structs to JSON objects.
*
* @note This file is auto-generated by a script on 2024-05-30 22:54:25.
*
* @author Marcel Peterkau
* @date 30.05.2024
*/
#ifndef _STRUCT2JSON_H_
#define _STRUCT2JSON_H_
#include <Arduino.h>
#include <ArduinoJson.h>
#include "eeprom.h"
void generateJsonObject_ConfigData(JsonObject data);
void generateJsonObject_PersistenceData(JsonObject data);
#endif /* _STRUCT2JSON_H_ */
// CODEGENERATOR_CHECKSUM: 735cd4daf9a46bd773bdf5e6cd5a58d61b0d877196399bc2784a0d0ea7af717d

31
Software/include/webui.h
View File

@@ -1,3 +1,16 @@
/**
* @file webui.h
*
* @brief Header file for the web-based user interface (WebUI) in the DE-Timer application.
*
* This file contains declarations for functions related to the initialization and processing of the
* web-based user interface (WebUI). It includes the necessary libraries and dependencies for handling
* web server functionality, asynchronous JSON operations, and live debugging through WebSockets.
*
* @author Marcel Peterkau
* @date 09.01.2024
*/
#ifndef _WEBUI_H_ #ifndef _WEBUI_H_
#define _WEBUI_H_ #define _WEBUI_H_
@@ -11,14 +24,26 @@
#include <AsyncJson.h> #include <AsyncJson.h>
#include <ArduinoJson.h> #include <ArduinoJson.h>
#include "eeprom.h" #include "config.h"
#include "globals.h" #include "globals.h"
#include "dtc.h" #include "dtc.h"
#include "common.h" #include "common.h"
#include "debugger.h" #include "debugger.h"
#include "struct2json.h"
typedef enum
{
info,
success,
warning,
error
} NotificationType_t;
void initWebUI(); void initWebUI();
void Webserver_Process(); void Webserver_Process();
void Websocket_PushLiveDebug(String Message); void Webserver_Shutdown();
#endif void Websocket_PushLiveDebug(String Message);
void Websocket_PushNotification(String Message, NotificationType_t type);
#endif // _WEBUI_H_

28
Software/platformio.ini
View File

@@ -17,24 +17,26 @@ platform = espressif8266
framework = arduino framework = arduino
board = d1_mini board = d1_mini
custom_firmware_version = 1.06
custom_flash_version = 1.06
upload_protocol = esptool upload_protocol = esptool
upload_speed = 921600 upload_speed = 921600
;upload_port = 10.0.1.48 ;upload_port = 10.0.1.48
;upload_protocol = espota
;upload_flags = ;upload_flags =
; --port=8266
; --auth=${wifi_cred.admin_password} ; --auth=${wifi_cred.admin_password}
build_flags= build_flags=
!python git_rev_macro.py
-DATOMIC_FS_UPDATE -DATOMIC_FS_UPDATE
;-DFEATURE_ENABLE_WIFI_CLIENT -DFEATURE_ENABLE_WIFI_CLIENT
;-DFEATURE_ENABLE_LORA ;-DFEATURE_ENABLE_LORA
;-DCAPTIVE -DFEATURE_ENABLE_UARTLORA
-DWIFI_AP_IP_GW=10,0,0,1 -DWIFI_AP_IP_GW=10,0,0,1
-DADMIN_PASSWORD=${wifi_cred.admin_password} -DADMIN_PASSWORD=${wifi_cred.admin_password}
-DWIFI_CLIENT_SSID=${wifi_cred.wifi_client_ssid} -DWIFI_SSID_CLIENT=${wifi_cred.wifi_ssid_client}
-DWIFI_CLIENT_PASSWORD=${wifi_cred.wifi_client_password} -DWIFI_PASSWORD_CLIENT=${wifi_cred.wifi_password_client}
-DWIFI_AP_SSID=${wifi_cred.wifi_ap_ssid} -DADMIN_PASSWORD=${wifi_cred.admin_password}
-DWIFI_AP_PASSWORD=${wifi_cred.wifi_ap_password} -DWIFI_AP_PASSWORD=${wifi_cred.wifi_ap_password}
-DDEVICE_NAME='"Dark Emergency Timer"' -DDEVICE_NAME='"Dark Emergency Timer"'
@@ -42,18 +44,22 @@ build_flags=
board_build.filesystem = littlefs board_build.filesystem = littlefs
board_build.ldscript = eagle.flash.4m1m.ld board_build.ldscript = eagle.flash.4m1m.ld
extra_scripts = post:prepare_littlefs.py extra_scripts =
post:codegen/prepare_littlefs.py
pre:codegen/run_pre.py
monitor_filters = esp8266_exception_decoder monitor_filters = esp8266_exception_decoder
monitor_speed = 115200 monitor_speed = 115200
lib_ldf_mode = deep
lib_deps = lib_deps =
;xreef/EByte LoRa E220 library@^1.0.6 ; made Lib local, due to changes for I2C-controller M0,M1-Pins ;xreef/EByte LoRa E220 library@^1.0.6 ; made Lib local, due to changes for I2C-controller M0,M1-Pins
sstaub/Ticker@^4.4.0 sstaub/Ticker@^4.4.0
robtillaart/PCF8574 @ ^0.3.7 robtillaart/PCF8574 @ ^0.3.7
adafruit/Adafruit INA219 @ ^1.1.1 adafruit/Adafruit INA219 @ ^1.1.1
akj7/TM1637 Driver @ ^2.1.2 akj7/TM1637 Driver @ ^2.1.2
me-no-dev/ESPAsyncTCP @ ^1.2.2 sstaub/Ticker @ ^4.4.0
robtillaart/I2C_EEPROM @ ^1.5.2 robtillaart/I2C_EEPROM @ ^1.8.2
esphome/ESPAsyncWebServer-esphome @ ^3.2.2
sandeepmistry/LoRa @ ^0.8.0 sandeepmistry/LoRa @ ^0.8.0
bblanchon/ArduinoJson @ ^6.19.4 bblanchon/ArduinoJson @ ^7.0.4

8
Software/src/common.cpp Normal file
View File

@@ -0,0 +1,8 @@
#include "common.h"
const char *BatteryString[] = {
"Undefined",
"LiPo 2S",
"LiPo 3S"};
const size_t BatteryString_Elements = sizeof(BatteryString) / sizeof(BatteryString[0]);

250
Software/src/debugger.cpp
View File

@@ -1,52 +1,79 @@
/**
* @file debugger.cpp
* @brief Implementation of debugging functions for monitoring and diagnostics.
*
* This file contains the implementation of various debugging functions to monitor
* and diagnose the system. It includes functions to print system information, WiFi
* details, EEPROM status, dump configuration settings, dump persistence data, show
* Diagnostic Trouble Codes (DTCs), and more.
*
* @author Marcel Peterkau
* @date 09.04.2024
*/
#include "debugger.h" #include "debugger.h"
DebugStatus_t DebuggerStatus[dbg_cntElements]; DebugStatus_t DebuggerStatus[dbg_cntElements];
String IpAddress2String(const IPAddress &ipAddress);
void processCmdDebug(String command); void processCmdDebug(String command);
void Debug_formatCFG(); void Debug_formatCFG();
void Debug_formatPersistence(); void Debug_formatPersistence();
void Debug_printSystemInfo(); void Debug_printSystemInfo();
void Debug_printWifiInfo(); void Debug_printWifiInfo();
void Debug_CheckEEPOM(); void Debug_CheckEEPOM(bool autocorrect);
void Debug_dumpConfig(); void Debug_dumpConfig();
void Debug_dumpPersistance(); void Debug_dumpPersistance();
void Debug_ShowDTCs(); void Debug_ShowDTCs();
void Debug_dumpGlobals(); void Debug_dumpGlobals();
void Debug_printHelp(); void Debug_printHelp();
const char *uint32_to_binary_string(uint32_t num);
/**
* @brief Initializes the debugger by setting the initial status for different debug ports.
* Serial debug output is turned off.
*/
void initDebugger() void initDebugger()
{ {
// Set the initial status of debug ports
DebuggerStatus[dbg_Serial] = disabled; DebuggerStatus[dbg_Serial] = disabled;
DebuggerStatus[dbg_Webui] = disabled; DebuggerStatus[dbg_Webui] = disabled;
// Disable serial debug output
Serial.setDebugOutput(false); Serial.setDebugOutput(false);
} }
/**
* @brief Processes incoming debug commands from the Serial interface.
* It reads characters from Serial and interprets them as commands.
* The recognized commands are processed accordingly.
*/
void Debug_Process() void Debug_Process()
{ {
// Enumeration for tracking the state of input processing
typedef enum InputProcessed_e typedef enum InputProcessed_e
{ {
IDLE, IDLE, ///< No command processing is in progress
CMD_COMPLETE, CMD_COMPLETE, ///< Received a complete command
CMD_ABORT, CMD_ABORT, ///< Received an abort command (Esc)
CMD_OVERFLOW CMD_OVERFLOW ///< Input buffer overflow occurred
} InputProcessed_t; } InputProcessed_t;
static unsigned int inputCnt = 0; static unsigned int inputCnt = 0; ///< Counter for characters in the input buffer
static char inputBuffer[32]; static char inputBuffer[32]; ///< Buffer to store the received characters
InputProcessed_t InputProcessed = IDLE; InputProcessed_t InputProcessed = IDLE; ///< State variable for input processing
// Check if there are characters available in the Serial input buffer
if (Serial.available()) if (Serial.available())
{ {
char inputChar = Serial.read(); char inputChar = Serial.read();
// Process the received character based on its value
switch (inputChar) switch (inputChar)
{ {
case '\n': case '\n':
inputBuffer[inputCnt] = 0; // terminate the String inputBuffer[inputCnt] = 0; // terminate the String
inputCnt = 0; inputCnt = 0;
InputProcessed = CMD_COMPLETE; InputProcessed = CMD_COMPLETE;
Serial.write(inputChar);
break; break;
case 0x1B: // Esc case 0x1B: // Esc
@@ -55,15 +82,17 @@ void Debug_Process()
InputProcessed = CMD_ABORT; InputProcessed = CMD_ABORT;
break; break;
case 0x21 ... 0x7E: // its a real letter or sign and not some control-chars case 0x21 ... 0x7E: // it's a real letter or sign and not some control-chars
inputBuffer[inputCnt] = inputChar; inputBuffer[inputCnt] = inputChar;
inputCnt++; inputCnt++;
Serial.write(inputChar);
break; break;
default: default:
break; break;
} }
// Check for input buffer overflow
if (inputCnt > sizeof(inputBuffer)) if (inputCnt > sizeof(inputBuffer))
{ {
inputCnt = 0; inputCnt = 0;
@@ -72,6 +101,7 @@ void Debug_Process()
} }
} }
// Process the command based on the detected state of input processing
switch (InputProcessed) switch (InputProcessed)
{ {
case CMD_ABORT: case CMD_ABORT:
@@ -83,40 +113,65 @@ void Debug_Process()
break; break;
case CMD_OVERFLOW: case CMD_OVERFLOW:
Debug_pushMessage("input Buffer overflow\n"); Debug_pushMessage("Input buffer overflow\n");
break; break;
default: default:
break; break;
} }
if (InputProcessed != IDLE)
Serial.print(">");
InputProcessed = IDLE; InputProcessed = IDLE;
} }
/**
* @brief Sets the status of a specific debug port (Serial or WebUI).
* Updates the status in the DebuggerStatus array and provides debug messages.
*
* @param port The debug port to set the status for (dbg_Serial or dbg_Webui).
* @param status The status to set (enabled or disabled).
*/
void SetDebugportStatus(DebugPorts_t port, DebugStatus_t status) void SetDebugportStatus(DebugPorts_t port, DebugStatus_t status)
{ {
// Display a debug message based on the provided status
if (status == disabled) if (status == disabled)
Debug_pushMessage("disable DebugPort %s\n", sDebugPorts[port]); Debug_pushMessage("Disable DebugPort %s\n", sDebugPorts[port]);
// Update the status in the DebuggerStatus array
DebuggerStatus[port] = status; DebuggerStatus[port] = status;
// Display a debug message based on the updated status
if (status == enabled) if (status == enabled)
Debug_pushMessage("enabled DebugPort %s\n", sDebugPorts[port]); Debug_pushMessage("Enabled DebugPort %s\n", sDebugPorts[port]);
} }
/**
* @brief Pushes a formatted debug message to the enabled debug ports (Serial or WebUI).
*
* @param format The format string for the debug message.
* @param ... Additional arguments for formatting the message.
*/
void Debug_pushMessage(const char *format, ...) void Debug_pushMessage(const char *format, ...)
{ {
// Check if either the Serial or WebUI debug port is enabled
if ((DebuggerStatus[dbg_Serial] == enabled) || (DebuggerStatus[dbg_Webui] == enabled)) if ((DebuggerStatus[dbg_Serial] == enabled) || (DebuggerStatus[dbg_Webui] == enabled))
{ {
char buff[64]; char buff[128]; // Buffer to hold the formatted message
va_list arg; va_list arg; // Variable argument list for vsnprintf
va_start(arg, format); va_start(arg, format);
// Format the message and store it in the buffer
vsnprintf(buff, sizeof(buff), format, arg); vsnprintf(buff, sizeof(buff), format, arg);
va_end(arg); va_end(arg);
// Send the message to the Serial debug port if enabled
if (DebuggerStatus[dbg_Serial] == enabled) if (DebuggerStatus[dbg_Serial] == enabled)
{ {
Serial.print(buff); Serial.print(buff);
} }
// Push the message to the WebUI debug port if enabled
if (DebuggerStatus[dbg_Webui] == enabled) if (DebuggerStatus[dbg_Webui] == enabled)
{ {
Websocket_PushLiveDebug(String(buff)); Websocket_PushLiveDebug(String(buff));
@@ -124,10 +179,18 @@ void Debug_pushMessage(const char *format, ...)
} }
} }
/**
* @brief Processes a debug command and performs corresponding actions.
*
* @param command The debug command to be processed.
*/
void processCmdDebug(String command) void processCmdDebug(String command)
{ {
// Check the received command and execute corresponding actions
if (command == "help") if (command == "help")
Debug_printHelp(); Debug_printHelp();
else if (command == "reboot")
globals.systemStatus = sysStat_Shutdown;
else if (command == "sysinfo") else if (command == "sysinfo")
Debug_printSystemInfo(); Debug_printSystemInfo();
else if (command == "netinfo") else if (command == "netinfo")
@@ -137,11 +200,17 @@ void processCmdDebug(String command)
else if (command == "formatPDS") else if (command == "formatPDS")
Debug_formatPersistence(); Debug_formatPersistence();
else if (command == "checkEE") else if (command == "checkEE")
Debug_CheckEEPOM(); Debug_CheckEEPOM(false);
else if (command == "checkEEfix")
Debug_CheckEEPOM(true);
else if (command == "dumpEE1k") else if (command == "dumpEE1k")
dumpEEPROM(0, 1024); dumpEEPROM(0, 1024);
else if (command == "dumpEE") else if (command == "dumpEE")
dumpEEPROM(0, EEPROM_SIZE_BYTES); dumpEEPROM(0, EEPROM_SIZE_BYTES);
else if (command == "killEE")
writeSequentialToEEPROM(0, 1024);
else if (command == "zeroEE")
writeZeroToEEPROM(0, 1024);
else if (command == "resetPageEE") else if (command == "resetPageEE")
MovePersistencePage_EEPROM(true); MovePersistencePage_EEPROM(true);
else if (command == "dumpCFG") else if (command == "dumpCFG")
@@ -150,28 +219,55 @@ void processCmdDebug(String command)
Debug_dumpPersistance(); Debug_dumpPersistance();
else if (command == "saveEE") else if (command == "saveEE")
globals.requestEEAction = EE_ALL_SAVE; globals.requestEEAction = EE_ALL_SAVE;
else if (command == "showdtc")
Debug_ShowDTCs();
else if (command == "dumpGlobals") else if (command == "dumpGlobals")
Debug_dumpGlobals(); Debug_dumpGlobals();
else if (command == "sdbg") else if (command == "sdbg")
SetDebugportStatus(dbg_Serial, enabled); SetDebugportStatus(dbg_Serial, enabled);
else if (command == "dtc_show")
Debug_ShowDTCs();
else if (command == "dtc_clear")
ClearAllDTC();
else if (command == "dtc_crit")
MaintainDTC(DTC_FAKE_DTC_CRIT, true, millis());
else if (command == "dtc_warn")
MaintainDTC(DTC_FAKE_DTC_WARN, true, millis());
else if (command == "dtc_info")
MaintainDTC(DTC_FAKE_DTC_INFO, true, millis());
else if (command == "notify_error")
Websocket_PushNotification("Debug Error Notification", error);
else if (command == "notify_warning")
Websocket_PushNotification("Debug Warning Notification", warning);
else if (command == "notify_success")
Websocket_PushNotification("Debug Success Notification", success);
else if (command == "notify_info")
Websocket_PushNotification("Debug Info Notification", info);
else else
Debug_pushMessage("unknown Command\n"); Debug_pushMessage("unknown Command\n");
} }
/**
* @brief Formats the Config-EEPROM and resets it to default values.
* Prints a debug message after formatting.
*/
void Debug_formatCFG() void Debug_formatCFG()
{ {
Debug_pushMessage("Formatting Config-EEPROM and reseting to default\n"); Debug_pushMessage("Formatting Config-EEPROM and resetting to default\n");
FormatConfig_EEPROM(); FormatConfig_EEPROM();
} }
/**
* @brief Formats the Persistence-EEPROM and resets it to default values.
* Prints a debug message after formatting.
*/
void Debug_formatPersistence() void Debug_formatPersistence()
{ {
Debug_pushMessage("Formatting Persistence-EEPROM and reseting to default\n"); Debug_pushMessage("Formatting Persistence-EEPROM and resetting to default\n");
FormatPersistence_EEPROM(); FormatPersistence_EEPROM();
} }
/**
* @brief Prints system information and status to the debug output.
*/
void Debug_printSystemInfo() void Debug_printSystemInfo()
{ {
Debug_pushMessage("Hostname: %s\n", globals.DeviceName); Debug_pushMessage("Hostname: %s\n", globals.DeviceName);
@@ -190,17 +286,44 @@ void Debug_printSystemInfo()
: ideMode == FM_DOUT ? "DOUT" : ideMode == FM_DOUT ? "DOUT"
: "UNKNOWN")); : "UNKNOWN"));
Debug_pushMessage("OTA-Pass: %s\n", QUOTE(ADMIN_PASSWORD)); Debug_pushMessage("OTA-Pass: %s\n", QUOTE(ADMIN_PASSWORD));
Debug_pushMessage("Git-Revison: %s\n", constants.GitHash); Debug_pushMessage("Git-Revision: %s\n", constants.GitHash);
Debug_pushMessage("Sw-Version: %d.%02d\n", constants.FW_Version_major, constants.FW_Version_minor); Debug_pushMessage("Sw-Version: %d.%02d\n", constants.FW_Version_major, constants.FW_Version_minor);
Debug_pushMessage("globals.systemStatus: %d\n", globals.systemStatus);
Debug_pushMessage("globals.resumeStatus: %d\n", globals.resumeStatus);
Debug_pushMessage("globals.systemStatustxt: %s\n", globals.systemStatustxt);
Debug_pushMessage("globals.requestEEAction: %d\n", globals.requestEEAction);
Debug_pushMessage("globals.DeviceName: %s\n", globals.DeviceName);
Debug_pushMessage("globals.FlashVersion: %s\n", globals.FlashVersion);
Debug_pushMessage("globals.eePersistanceAdress: %u\n", globals.eePersistanceAdress);
Debug_pushMessage("globals.hasDTC: %d\n", globals.hasDTC);
Debug_pushMessage("globals.loadvoltage_mV: %d\n", globals.loadvoltage_mV);
Debug_pushMessage("globals.battery_level: %d\n", globals.battery_level);
Debug_pushMessage("globals.timer_disabled: %d\n", globals.timer_disabled);
} }
/**
* @brief Dumps the current configuration parameters to the debug output.
*/
void Debug_dumpConfig() void Debug_dumpConfig()
{ {
Debug_pushMessage("batteryType: %d\n", ConfigData.batteryType); Debug_pushMessage("batteryType: %d\n", ConfigData.batteryType);
Debug_pushMessage("Faction_1_Name: %s\n", ConfigData.Faction_1_Name);
Debug_pushMessage("Faction_1_Name: %s\n", ConfigData.Faction_2_Name);
Debug_pushMessage("Faction_1_Name: %s\n", ConfigData.Faction_3_Name);
Debug_pushMessage("active_faction_on_reboot: %d\n", ConfigData.active_faction_on_reboot);
Debug_pushMessage("wifi_autoconnect: %d\n", ConfigData.wifi_autoconnect);
Debug_pushMessage("wifi_ap_password: %s\n", ConfigData.wifi_ap_password);
Debug_pushMessage("wifi_ap_ssid: %s\n", ConfigData.wifi_ap_ssid);
Debug_pushMessage("wifi_client_ssid: %s\n", ConfigData.wifi_client_ssid);
Debug_pushMessage("wifi_client_password: %s\n", ConfigData.wifi_client_password);
Debug_pushMessage("EEPROM_Version: %d\n", ConfigData.EEPROM_Version); Debug_pushMessage("EEPROM_Version: %d\n", ConfigData.EEPROM_Version);
Debug_pushMessage("checksum: 0x%08X\n", ConfigData.checksum); Debug_pushMessage("checksum: 0x%08X\n", ConfigData.checksum);
} }
/**
* @brief Dumps the global variables and their values to the debug output.
*/
void Debug_dumpGlobals() void Debug_dumpGlobals()
{ {
Debug_pushMessage("systemStatus: %d\n", globals.systemStatus); Debug_pushMessage("systemStatus: %d\n", globals.systemStatus);
@@ -208,12 +331,14 @@ void Debug_dumpGlobals()
Debug_pushMessage("loadvoltage_mV: %d\n", globals.loadvoltage_mV); Debug_pushMessage("loadvoltage_mV: %d\n", globals.loadvoltage_mV);
Debug_pushMessage("requestEEAction: %d\n", globals.requestEEAction); Debug_pushMessage("requestEEAction: %d\n", globals.requestEEAction);
Debug_pushMessage("DeviceName: %s\n", globals.DeviceName); Debug_pushMessage("DeviceName: %s\n", globals.DeviceName);
Debug_pushMessage("DeviceName_ID: %s\n", globals.DeviceName_ID);
Debug_pushMessage("FlashVersion: %s\n", globals.FlashVersion); Debug_pushMessage("FlashVersion: %s\n", globals.FlashVersion);
Debug_pushMessage("eePersistanceAdress: %d\n", globals.eePersistanceAdress); Debug_pushMessage("eePersistanceAdress: %d\n", globals.eePersistanceAdress);
Debug_pushMessage("hasDTC: %d\n", globals.hasDTC); Debug_pushMessage("hasDTC: %d\n", globals.hasDTC);
} }
/**
* @brief Dumps the persistence data variables and their values to the debug output.
*/
void Debug_dumpPersistance() void Debug_dumpPersistance()
{ {
Debug_pushMessage("writeCycleCounter: %d\n", PersistenceData.writeCycleCounter); Debug_pushMessage("writeCycleCounter: %d\n", PersistenceData.writeCycleCounter);
@@ -225,12 +350,21 @@ void Debug_dumpPersistance()
Debug_pushMessage("PSD Adress: 0x%04X\n", globals.eePersistanceAdress); Debug_pushMessage("PSD Adress: 0x%04X\n", globals.eePersistanceAdress);
} }
/**
* @brief Prints information related to WiFi to the debug output.
*/
void Debug_printWifiInfo() void Debug_printWifiInfo()
{ {
Debug_pushMessage("IP Adress: %s\n", WiFi.localIP().toString().c_str());
} }
void Debug_CheckEEPOM() /**
* @brief Checks the EEPROM data integrity by calculating and comparing checksums.
* Prints the result to the debug output.
*/
void Debug_CheckEEPOM(bool autocorrect)
{ {
// Check PersistenceData EEPROM checksum
uint32_t checksum = PersistenceData.checksum; uint32_t checksum = PersistenceData.checksum;
PersistenceData.checksum = 0; PersistenceData.checksum = 0;
@@ -245,6 +379,7 @@ void Debug_CheckEEPOM()
PersistenceData.checksum = checksum; PersistenceData.checksum = checksum;
// Check ConfigData EEPROM checksum
checksum = ConfigData.checksum; checksum = ConfigData.checksum;
ConfigData.checksum = 0; ConfigData.checksum = 0;
@@ -257,26 +392,45 @@ void Debug_CheckEEPOM()
Debug_pushMessage("ConfigData EEPROM Checksum BAD\n"); Debug_pushMessage("ConfigData EEPROM Checksum BAD\n");
} }
ConfigData.checksum = checksum; ConfigData.checksum = checksum;
uint32_t sanitycheck = ConfigSanityCheck(autocorrect);
if (sanitycheck == 0)
{
Debug_pushMessage("ConfigData Sanity Check OK\n");
}
else
{
Debug_pushMessage("ConfigData Sanity Check BAD: %s\n", uint32_to_binary_string(sanitycheck));
}
} }
/**
* @brief Displays Diagnostic Trouble Codes (DTCs) along with their timestamps,
* status, and severity in a formatted manner.
*/
void Debug_ShowDTCs() void Debug_ShowDTCs()
{ {
char buff_timestamp[16]; // Format: DD-hh:mm:ss:xxx char buff_timestamp[16]; // Format: DD-hh:mm:ss:xxx
char buff_active[9]; char buff_active[9];
Debug_pushMessage("\n timestamp | DTC-Nr. | status | severity | debugVal\n"); // Header for the DTC display
Debug_pushMessage("\n timestamp | DTC-Nr. | status | severity\n");
// Iterate through DTCStorage and display each entry
for (uint32_t i = 0; i < MAX_DTC_STORAGE; i++) for (uint32_t i = 0; i < MAX_DTC_STORAGE; i++)
{ {
if (DTCStorage[i].Number < DTC_LAST_DTC) if (DTCStorage[i].Number < DTC_LAST_DTC)
{ {
// Format timestamp
sprintf(buff_timestamp, "%02d-%02d:%02d:%02d:%03d", sprintf(buff_timestamp, "%02d-%02d:%02d:%02d:%03d",
DTCStorage[i].timestamp / 86400000, // Days DTCStorage[i].timestamp / 86400000, // Days
DTCStorage[i].timestamp / 360000 % 24, // Hours DTCStorage[i].timestamp / 360000 % 24, // Hours
DTCStorage[i].timestamp / 60000 % 60, // Minutes DTCStorage[i].timestamp / 60000 % 60, // Minutes
DTCStorage[i].timestamp / 1000 % 60, // Seconds DTCStorage[i].timestamp / 1000 % 60, // Seconds
DTCStorage[i].timestamp % 1000); // milliseconds DTCStorage[i].timestamp % 1000); // Milliseconds
// Determine DTC status
if (DTCStorage[i].active == DTC_ACTIVE) if (DTCStorage[i].active == DTC_ACTIVE)
strcpy(buff_active, "active"); strcpy(buff_active, "active");
else if (DTCStorage[i].active == DTC_PREVIOUS) else if (DTCStorage[i].active == DTC_PREVIOUS)
@@ -284,19 +438,57 @@ void Debug_ShowDTCs()
else else
strcpy(buff_active, "none"); strcpy(buff_active, "none");
Debug_pushMessage("%s %7d %8s %8d %8d\n", buff_timestamp, DTCStorage[i].Number, buff_active, DTCStorage[i].severity, DTCStorage[i].debugVal); // Display DTC information
Debug_pushMessage("%s %7d %8s %8d\n", buff_timestamp, DTCStorage[i].Number, buff_active);
} }
} }
} }
/**
* @brief Displays the help commands for debugging through Serial or WebUI.
* Each command is printed individually in a formatted manner.
*/
void Debug_printHelp() void Debug_printHelp()
{ {
char buff[64]; char buff[64];
for (unsigned int i = sizeof(helpCmd) / 63; i < sizeof(helpCmd) / 63; i++) // Iterate through helpCmd and display each command
for (unsigned int i = 0; i < sizeof(helpCmd) / 63; i++)
{ {
// Copy a portion of helpCmd to buff for display
memcpy_P(buff, (helpCmd + (i * 63)), 63); memcpy_P(buff, (helpCmd + (i * 63)), 63);
buff[63] = 0; buff[63] = 0;
// Display the help command
Debug_pushMessage(buff); Debug_pushMessage(buff);
} }
} }
/**
* @brief Convert a uint32_t value to a binary string with nibbles separated by a space.
*
* This function takes a uint32_t value and converts it to a binary string
* representation. The binary string is stored in a static buffer and returned
* as a const char pointer. Each nibble (4 bits) in the binary representation
* is separated by a space. The buffer is overwritten on subsequent calls to
* this function.
*
* @param num The uint32_t value to convert.
* @return A pointer to a const char string containing the binary representation
* of the input number with nibbles separated by a space.
*/
const char *uint32_to_binary_string(uint32_t num)
{
static char binary_str[65]; // 32 bits + 31 spaces + null terminator
int i, j;
for (i = 31, j = 0; i >= 0; i--, j++)
{
binary_str[j] = ((num >> i) & 1) ? '1' : '0';
if (i % 4 == 0 && i != 0)
{
binary_str[++j] = ' '; // Insert space after every nibble
}
}
binary_str[j] = '\0'; // Null terminator
return binary_str;
}

121
Software/src/dtc.cpp
View File

@@ -1,37 +1,61 @@
/**
* @file dtc.cpp
* @brief Implementation of functions related to Diagnostic Trouble Codes (DTCs).
*
* This file contains the implementation of functions that manage the status
* and registration of Diagnostic Trouble Codes in the system.
*
* @author Marcel Peterkau
* @date 09.01.2024
*/
#include "dtc.h" #include "dtc.h"
#include "debugger.h" #include "debugger.h"
DTCEntry_s DTCStorage[MAX_DTC_STORAGE]; DTCEntry_t DTCStorage[MAX_DTC_STORAGE];
void MaintainDTC(DTCNums_t DTC_no, DTCSeverity_t DTC_severity, boolean active, uint32_t DebugValue) // Function implementations...
/**
* @brief Maintains the status of Diagnostic Trouble Codes (DTCs) in the DTCStorage array.
* Updates the status of existing DTCs or adds new ones based on their activity.
*
* @param DTC_no The number of the Diagnostic Trouble Code.
* @param active Indicates whether the DTC is active (true) or inactive (false).
* @param DebugValue Additional debugging information associated with the DTC.
*/
void MaintainDTC(DTCNum_t DTC_no, boolean active, uint32_t DebugValue)
{ {
// Iterate through the existing DTCs in the storage
for (int i = 0; i < MAX_DTC_STORAGE; i++) for (int i = 0; i < MAX_DTC_STORAGE; i++)
{ {
// Check if the DTC with the specified number exists
if (DTCStorage[i].Number == DTC_no) if (DTCStorage[i].Number == DTC_no)
{ {
// If the DTC is active and was not active before, update its status
if (active && DTCStorage[i].active != DTC_ACTIVE) if (active && DTCStorage[i].active != DTC_ACTIVE)
{ {
Debug_pushMessage("DTC gone active: %d, DebugVal: %d\n", DTC_no, DebugValue); Debug_pushMessage("DTC gone active: %d, DebugVal: %d\n", DTC_no, DebugValue);
DTCStorage[i].timestamp = millis(); DTCStorage[i].timestamp = millis();
DTCStorage[i].active = DTC_ACTIVE; DTCStorage[i].active = DTC_ACTIVE;
DTCStorage[i].severity = DTC_severity;
DTCStorage[i].debugVal = DebugValue; DTCStorage[i].debugVal = DebugValue;
} }
// If the DTC is not active anymore, update its status to previous
if (!active && DTCStorage[i].active == DTC_ACTIVE) if (!active && DTCStorage[i].active == DTC_ACTIVE)
{ {
Debug_pushMessage("DTC gone previous: %d\n", DTC_no); Debug_pushMessage("DTC gone previous: %d\n", DTC_no);
DTCStorage[i].active = DTC_PREVIOUS; DTCStorage[i].active = DTC_PREVIOUS;
} }
return; return; // DTC found and processed, exit the function
} }
} }
// DTC was not found with upper iteration, but is active // DTC was not found in the existing storage, but it is active,
// so we need to look for free space to store DTC // so look for free space to store the new DTC
if (active == true) if (active == true)
{ {
for (int i = 0; i < MAX_DTC_STORAGE; i++) for (int i = 0; i < MAX_DTC_STORAGE; i++)
{ {
// Check for an empty slot in the storage
if (DTCStorage[i].Number == DTC_LAST_DTC) if (DTCStorage[i].Number == DTC_LAST_DTC)
{ {
Debug_pushMessage("new DTC registered: %d, DebugVal: %d\n", DTC_no, DebugValue); Debug_pushMessage("new DTC registered: %d, DebugVal: %d\n", DTC_no, DebugValue);
@@ -39,37 +63,59 @@ void MaintainDTC(DTCNums_t DTC_no, DTCSeverity_t DTC_severity, boolean active, u
DTCStorage[i].timestamp = millis(); DTCStorage[i].timestamp = millis();
DTCStorage[i].active = DTC_ACTIVE; DTCStorage[i].active = DTC_ACTIVE;
DTCStorage[i].debugVal = DebugValue; DTCStorage[i].debugVal = DebugValue;
DTCStorage[i].severity = DTC_severity; return; // New DTC registered, exit the function
return;
} }
} }
} }
} }
void ClearDTC(DTCNums_t DTC_no) /**
* @brief Clears a specific Diagnostic Trouble Code (DTC) entry.
*
* This function clears the information related to a specific DTC entry,
* setting its status to inactive and timestamp to zero.
*
* @param DTC_no The Diagnostic Trouble Code number to be cleared.
*/
void ClearDTC(DTCNum_t DTC_no)
{ {
for (int i = 0; i < MAX_DTC_STORAGE; i++) for (int i = 0; i < MAX_DTC_STORAGE; i++)
{ {
if (DTCStorage[i].Number == DTC_no) if (DTCStorage[i].Number == DTC_no)
{ {
DTCStorage[i].Number = DTC_LAST_DTC; DTCStorage[i].Number = DTC_LAST_DTC;
DTCStorage[i].active = DTC_NONE; DTCStorage[i].active = DTC_INACTIVE;
DTCStorage[i].timestamp = 0; DTCStorage[i].timestamp = 0;
} }
} }
} }
/**
* @brief Clears all Diagnostic Trouble Code (DTC) entries.
*
* This function clears all DTC entries, setting their status to inactive and
* timestamps to zero.
*/
void ClearAllDTC() void ClearAllDTC()
{ {
for (int i = 0; i < MAX_DTC_STORAGE; i++) for (int i = 0; i < MAX_DTC_STORAGE; i++)
{ {
DTCStorage[i].Number = DTC_LAST_DTC; DTCStorage[i].Number = DTC_LAST_DTC;
DTCStorage[i].active = DTC_NONE; DTCStorage[i].active = DTC_INACTIVE;
DTCStorage[i].timestamp = 0; DTCStorage[i].timestamp = 0;
} }
} }
DTCNums_t getlastDTC(boolean only_active) /**
* @brief Gets the last recorded Diagnostic Trouble Code (DTC) number.
*
* This function retrieves the DTC number of the last recorded DTC based on the
* timestamp. Optionally, it can filter only active DTCs.
*
* @param only_active If true, considers only active DTCs; otherwise, considers all.
* @return The DTC number of the last recorded DTC or DTC_LAST_DTC if none found.
*/
DTCNum_t getlastDTC(boolean only_active)
{ {
int8_t pointer = -1; int8_t pointer = -1;
uint32_t lasttimestamp = 0; uint32_t lasttimestamp = 0;
@@ -89,34 +135,47 @@ DTCNums_t getlastDTC(boolean only_active)
return pointer >= 0 ? DTCStorage[pointer].Number : DTC_LAST_DTC; return pointer >= 0 ? DTCStorage[pointer].Number : DTC_LAST_DTC;
} }
DTCNums_t getlastDTC_Severity(boolean only_active, DTCSeverity_t severity) /**
* @brief Gets the severity level for a specific Diagnostic Trouble Code (DTC).
*
* This function looks up the severity level associated with the provided DTC code
* from the predefined list of DTC definitions.
*
* @param targetCode The DTC code for which to retrieve the severity.
* @return The severity level of the specified DTC or DTC_NONE if not found.
*/
DTCSeverity_t getSeverityForDTC(DTCNum_t targetCode)
{ {
int8_t pointer = -1; for (int i = 0; i < DTC_LAST_DTC; i++)
uint32_t lasttimestamp = 0;
for (int i = 0; i < MAX_DTC_STORAGE; i++)
{ {
if (DTCStorage[i].Number > 0 && DTCStorage[i].timestamp > lasttimestamp) if (dtc_definitions[i].code == targetCode)
{ {
if ((only_active == false || DTCStorage[i].active == DTC_ACTIVE) && DTCStorage[i].severity == severity) return dtc_definitions[i].severity;
{
pointer = i;
lasttimestamp = DTCStorage[i].timestamp;
} }
} }
return DTC_NONE;
} }
return pointer >= 0 ? DTCStorage[pointer].Number : DTC_LAST_DTC; /**
} * @brief Processes Diagnostic Trouble Codes (DTCs) and updates system status accordingly.
*
* This function checks for the presence of active DTCs and adjusts the system status
* based on the severity of the most critical DTC. If a critical DTC is detected,
* the system status is set to sysStat_Error, potentially triggering a system shutdown.
*
* @note The function also preserves the original system status when transitioning to an error state
* and restores it when all DTCs are cleared.
*/
void DTC_Process() void DTC_Process()
{ {
static tSystem_Status preserverSysStatusError; static tSystem_Status preserverSysStatusError;
DTCNum_t lastDTC = getlastDTC(true);
if (getlastDTC(false) < DTC_LAST_DTC) if (lastDTC < DTC_LAST_DTC)
{ {
globals.hasDTC = true; globals.hasDTC = true;
if (getlastDTC_Severity(true, DTC_CRITICAL) < DTC_LAST_DTC && globals.systemStatus != sysStat_Shutdown)
if (getSeverityForDTC(lastDTC) == DTC_CRITICAL && globals.systemStatus != sysStat_Shutdown)
{ {
if (globals.systemStatus != sysStat_Error) if (globals.systemStatus != sysStat_Error)
{ {
@@ -124,16 +183,14 @@ void DTC_Process()
} }
globals.systemStatus = sysStat_Error; globals.systemStatus = sysStat_Error;
} }
}
else else
{ {
globals.hasDTC = false;
if (globals.systemStatus == sysStat_Error) if (globals.systemStatus == sysStat_Error)
{ {
globals.systemStatus = preserverSysStatusError; globals.systemStatus = preserverSysStatusError;
} }
} }
} }
else
{
globals.hasDTC = false;
}
}

18
Software/src/dtc_defs.txt Normal file
View File

@@ -0,0 +1,18 @@
# No. | DTC-Constant | Severity | Title | Description
#-----|------------------------------|---------------|-----------------------|----------------------------------------------------------------------------------------------------------------------------------------------------
1; DTC_BAT_CRITICAL; DTC_CRITICAL; Akku leer; Akku ist komplett leer. Den Akku aufladen!
2; DTC_BAT_LOW; DTC_WARN; Akku niedrig; Akku ist unter der Warnschwelle. Den Akku demnächst aufladen
3; DTC_NO_EEPROM_FOUND; DTC_CRITICAL; kein EEPROM erkannt; Es wurde kein EEPROM gefunden. Dies lässt einen Hardware-Defekt vermuten.
4; DTC_EEPROM_CFG_BAD; DTC_CRITICAL; EEPROM CFG Checksumme; Die Checksumme der Config-Partition des EEPROM ist ungültig. Setzen sie den EEPROM-Bereich 'CFG' im Menu 'Wartung' zurück
5; DTC_EEPROM_PDS_BAD; DTC_CRITICAL; EEPROM PDS Checksumme; Die Checksumme der Betriebsdaten-Partition des EEPROM ist ungültig. Setzen sie den EEPROM-Bereich 'PDS' im Menu 'Wartung' zurück
6; DTC_EEPROM_PDSADRESS_BAD; DTC_CRITICAL; EEPROM PDS Adresse; Die Adresse der Betriebsdaten-Partition im EEPROM ist ungültig. Setzen sie den EEPROM-Bereich 'PDS' im Menu 'Wartung' zurück
7; DTC_EEPROM_VERSION_BAD; DTC_CRITICAL; EEPROM Version falsch; Die Layout-Version des EEPROM stimmt nicht mit der Firmware-Version überein. Setzen sie den EEPROM-Bereich 'CFG' im Menu 'Wartung' zurück
8; DTC_FLASHFS_ERROR; DTC_CRITICAL; Flashspeicher Fehler; Der Flashspeicher konnte nicht initialisiert werden. Aktualisieren sie Flash & Firmware
9; DTC_FLASHFS_VERSION_ERROR; DTC_CRITICAL; Flashversion falsch; Die Version des Flashspeicher stimmt nicht mit der Firmware-Version überein. Aktualisieren sie den Flash mit der passenden Update-Datei
10; DTC_NO_BATMNON_FOUND; DTC_CRITICAL; Keine Akkuüberwachung; Es wurde keine Akkuüberwachung über I2C gefunden, Prüfen sie die Hardware!
11; DTC_NO_LORA_FOUND; DTC_CRITICAL; LoRa-Transceiver Error; Es konnte keine Verbindung zum LoRa-Transceiver hergestellt werden. Prüfen Sie die Hardware auf Defekte
12; DTC_EEPROM_CFG_SANITY; DTC_WARN; Config-Validierung; Ein oder mehrer Einstellungswerte sind ausserhalb plausibler Werte. Prüfen Sie Ihre Einstellungen
13; DTC_EEPROM_MIGRATE_FAILED; DTC_CRITICAL; EEPROM-Migration; Es wurde ein altes EEPROm Image erkannt, konnte aber nicht migriert werden. EEPROM manuell zurück setzen und neue Einstellunge speichern.
14; DTC_FAKE_DTC_INFO; DTC_INFO; Dummy-DTC Info; Ein Dummy-DTC der Schwere "Info" für Debugging-Zwecke
15; DTC_FAKE_DTC_WARN; DTC_WARN; Dummy-DTC Warnung; Ein Dummy-DTC der Schwere "Warnung" für Debugging-Zwecke
16; DTC_FAKE_DTC_CRIT; DTC_CRITICAL; Dummy-DTC Kritisch; Ein Dummy-DTC der Schwere "Kritisch" für Debugging-Zwecke

465
Software/src/eeprom.cpp
View File

@@ -1,72 +1,104 @@
#include "eeprom.h" /**
* @file config.cpp
* @brief Implementation of EEPROM and configuration-related functions.
*
* This file contains functions for managing EEPROM storage and handling configuration data.
* It includes the definitions of configuration structures, EEPROM access, and utility functions.
*/
#include "eeprom.h"
#include "debugger.h"
#include "globals.h"
// Instance of I2C_eeprom for EEPROM access
I2C_eeprom ee(I2C_EE_ADDRESS, EEPROM_SIZE_BYTES); I2C_eeprom ee(I2C_EE_ADDRESS, EEPROM_SIZE_BYTES);
// Configuration and persistence data structures
configData_t ConfigData; configData_t ConfigData;
persistenceData_t PersistenceData; persistenceData_t PersistenceData;
bool eeAvailable = false;
bool checkEEPROMavailable(); // EEPROM version identifier
bool ValidateEEPROM_Version(); const uint16_t eeVersion = EEPROM_STRUCTURE_REVISION;
bool MigrateEEPROM(uint8_t fromVersion);
void InitEEPROM() // Flag indicating whether EEPROM is available
boolean eeAvailable = false;
// Offsets within EEPROM for ConfigData and PersistenceData
const uint16_t startofConfigData = 16;
const uint16_t startofPersistence = 16 + sizeof(ConfigData) + (sizeof(ConfigData) % 16);
// Function prototype to check EEPROM availability
boolean checkEEPROMavailable();
/**
* @brief Initializes EEPROM and checks its availability.
*
* This function initializes the EEPROM using the I2C_eeprom instance and checks if it's available.
*/
boolean InitEEPROM()
{ {
Wire.begin();
ConfigData = ConfigData_defaults;
PersistenceData = {0};
ee.begin(); ee.begin();
eeAvailable = checkEEPROMavailable(); return checkEEPROMavailable();
eeAvailable = ValidateEEPROM_Version();
Serial.printf("Initialized EEPROM at Address 0x%02X\n", I2C_EE_ADDRESS);
} }
/**
* @brief Processes EEPROM actions based on the request from the global state.
*
* This function processes EEPROM actions based on the request from the global state.
* It performs actions such as saving, loading, and formatting EEPROM data for both configuration and persistence.
*/
void EEPROM_Process() void EEPROM_Process()
{ {
if (eeAvailable == false)
return;
switch (globals.requestEEAction) switch (globals.requestEEAction)
{ {
case EE_CFG_SAVE: case EE_CFG_SAVE:
StoreConfig_EEPROM(); StoreConfig_EEPROM();
globals.requestEEAction = EE_IDLE; globals.requestEEAction = EE_IDLE;
Serial.println("Stored EEPROM CFG"); Debug_pushMessage("Stored EEPROM CFG\n");
break; break;
case EE_CFG_LOAD: case EE_CFG_LOAD:
GetConfig_EEPROM(); GetConfig_EEPROM();
globals.requestEEAction = EE_IDLE; globals.requestEEAction = EE_IDLE;
Serial.println("Loaded EEPROM CFG"); Debug_pushMessage("Loaded EEPROM CFG\n");
break; break;
case EE_CFG_FORMAT: case EE_CFG_FORMAT:
FormatConfig_EEPROM(); FormatConfig_EEPROM();
globals.requestEEAction = EE_IDLE; globals.requestEEAction = EE_IDLE;
globals.systemStatus = sysStat_Shutdown; GetConfig_EEPROM();
Serial.println("Formated EEPROM CFG"); Debug_pushMessage("Formatted EEPROM CFG\n");
break; break;
case EE_PDS_SAVE: case EE_PDS_SAVE:
StorePersistence_EEPROM(); StorePersistence_EEPROM();
globals.requestEEAction = EE_IDLE; globals.requestEEAction = EE_IDLE;
Serial.println("Stored EEPROM PDS"); Debug_pushMessage("Stored EEPROM PDS\n");
break; break;
case EE_PDS_LOAD: case EE_PDS_LOAD:
GetPersistence_EEPROM(); GetPersistence_EEPROM();
globals.requestEEAction = EE_IDLE; globals.requestEEAction = EE_IDLE;
Serial.println("Loaded EEPROM PDS"); Debug_pushMessage("Loaded EEPROM PDS\n");
break; break;
case EE_PDS_FORMAT: case EE_PDS_FORMAT:
FormatPersistence_EEPROM(); FormatPersistence_EEPROM();
globals.requestEEAction = EE_IDLE; globals.requestEEAction = EE_IDLE;
Serial.println("Formated EEPROM PDS"); GetPersistence_EEPROM();
Debug_pushMessage("Formatted EEPROM PDS\n");
break; break;
case EE_FORMAT_ALL: case EE_FORMAT_ALL:
FormatConfig_EEPROM(); FormatConfig_EEPROM();
FormatPersistence_EEPROM(); FormatPersistence_EEPROM();
GetConfig_EEPROM();
GetPersistence_EEPROM();
globals.requestEEAction = EE_IDLE; globals.requestEEAction = EE_IDLE;
Serial.println("Formated EEPROM ALL"); Debug_pushMessage("Formatted EEPROM ALL\n");
break; break;
case EE_ALL_SAVE: case EE_ALL_SAVE:
StorePersistence_EEPROM(); StorePersistence_EEPROM();
StoreConfig_EEPROM(); StoreConfig_EEPROM();
globals.requestEEAction = EE_IDLE; globals.requestEEAction = EE_IDLE;
Serial.println("Stored EEPROM ALL"); Debug_pushMessage("Stored EEPROM ALL\n");
break; break;
case EE_IDLE: case EE_IDLE:
default: default:
@@ -74,20 +106,46 @@ void EEPROM_Process()
} }
} }
/**
* @brief Stores the configuration data in EEPROM.
*
* This function calculates the checksum for the configuration data, updates it, and stores it in EEPROM.
* It also performs a sanity check on the configuration and raises a diagnostic trouble code (DTC) if needed.
*/
void StoreConfig_EEPROM() void StoreConfig_EEPROM()
{ {
if (eeAvailable == false) // Berechnung der Prüfsumme
return;
ConfigData.checksum = 0; ConfigData.checksum = 0;
ConfigData.checksum = Checksum_EEPROM((uint8_t *)&ConfigData, sizeof(ConfigData)); ConfigData.checksum = Checksum_EEPROM((uint8_t *)&ConfigData, sizeof(ConfigData));
ee.updateBlock(startofConfigData, (uint8_t *)&ConfigData, sizeof(ConfigData)); // Überprüfung, ob der EEPROM verfügbar ist
if (!checkEEPROMavailable())
return;
// Byteweise in den EEPROM schreiben
uint8_t *dataPtr = (uint8_t *)&ConfigData;
for (uint16_t i = 0; i < sizeof(ConfigData); i++)
{
ee.writeByte(startofConfigData + i, dataPtr[i]);
} }
// Sanity Check der Konfiguration
uint32_t ConfigSanityCheckResult = ConfigSanityCheck(false);
if (ConfigSanityCheckResult > 0)
{
MaintainDTC(DTC_EEPROM_CFG_SANITY, true, ConfigSanityCheckResult);
}
}
/**
* @brief Retrieves the configuration data from EEPROM.
*
* This function reads the configuration data from EEPROM, performs a checksum validation,
* and conducts a sanity check on the configuration. It raises a diagnostic trouble code (DTC) if needed.
*/
void GetConfig_EEPROM() void GetConfig_EEPROM()
{ {
if (eeAvailable == false) if (!checkEEPROMavailable())
return; return;
ee.readBlock(startofConfigData, (uint8_t *)&ConfigData, sizeof(ConfigData)); ee.readBlock(startofConfigData, (uint8_t *)&ConfigData, sizeof(ConfigData));
@@ -95,26 +153,23 @@ void GetConfig_EEPROM()
uint32_t checksum = ConfigData.checksum; uint32_t checksum = ConfigData.checksum;
ConfigData.checksum = 0; ConfigData.checksum = 0;
if (Checksum_EEPROM((uint8_t *)&ConfigData, sizeof(ConfigData)) != checksum) MaintainDTC(DTC_EEPROM_CFG_BAD, (Checksum_EEPROM((uint8_t *)&ConfigData, sizeof(ConfigData)) != checksum));
{
MaintainDTC(DTC_EEPROM_CFG_BAD, DTC_CRITICAL, true);
}
ConfigData.checksum = checksum; ConfigData.checksum = checksum;
uint32_t ConfigSanityCheckResult = ConfigSanityCheck(false); uint32_t ConfigSanityCheckResult = ConfigSanityCheck(false);
if (ConfigSanityCheckResult > 0) MaintainDTC(DTC_EEPROM_CFG_SANITY, (ConfigSanityCheckResult > 0), ConfigSanityCheckResult);
{
MaintainDTC(DTC_EEPROM_CFG_SANITY, DTC_WARN, true, ConfigSanityCheckResult);
globals.requestEEAction = EE_CFG_SAVE;
}
} }
/**
* @brief Stores the persistence data in EEPROM.
*
* This function increments the write cycle counter, performs a checksum calculation on the persistence data,
* and stores it in EEPROM. It also handles EEPROM page movement when needed.
*/
void StorePersistence_EEPROM() void StorePersistence_EEPROM()
{ {
if (eeAvailable == false)
return;
if (PersistenceData.writeCycleCounter >= 0xFFF0) if (PersistenceData.writeCycleCounter >= 0xFFF0)
MovePersistencePage_EEPROM(false); MovePersistencePage_EEPROM(false);
else else
@@ -123,12 +178,27 @@ void StorePersistence_EEPROM()
PersistenceData.checksum = 0; PersistenceData.checksum = 0;
PersistenceData.checksum = Checksum_EEPROM((uint8_t *)&PersistenceData, sizeof(PersistenceData)); PersistenceData.checksum = Checksum_EEPROM((uint8_t *)&PersistenceData, sizeof(PersistenceData));
ee.updateBlock(globals.eePersistanceAdress, (uint8_t *)&PersistenceData, sizeof(PersistenceData)); if (!checkEEPROMavailable())
return;
// Byteweise in den EEPROM schreiben
uint8_t *dataPtr = (uint8_t *)&PersistenceData;
for (uint16_t i = 0; i < sizeof(PersistenceData); i++)
{
ee.writeByte(globals.eePersistanceAdress + i, dataPtr[i]);
}
} }
/**
* @brief Retrieves the persistence data from EEPROM.
*
* This function reads the EEPROM to get the start address of the persistence data.
* If the start address is out of range, it resets and stores defaults. Otherwise,
* it reads from EEPROM and checks if the data is correct.
*/
void GetPersistence_EEPROM() void GetPersistence_EEPROM()
{ {
if (eeAvailable == false) if (!checkEEPROMavailable())
return; return;
ee.readBlock(0, (uint8_t *)&globals.eePersistanceAdress, sizeof(globals.eePersistanceAdress)); ee.readBlock(0, (uint8_t *)&globals.eePersistanceAdress, sizeof(globals.eePersistanceAdress));
@@ -138,7 +208,7 @@ void GetPersistence_EEPROM()
{ {
MovePersistencePage_EEPROM(true); MovePersistencePage_EEPROM(true);
FormatPersistence_EEPROM(); FormatPersistence_EEPROM();
MaintainDTC(DTC_EEPROM_PDSADRESS_BAD, DTC_CRITICAL, true); MaintainDTC(DTC_EEPROM_PDSADRESS_BAD, true);
} }
else else
{ {
@@ -147,45 +217,53 @@ void GetPersistence_EEPROM()
uint32_t checksum = PersistenceData.checksum; uint32_t checksum = PersistenceData.checksum;
PersistenceData.checksum = 0; PersistenceData.checksum = 0;
if (Checksum_EEPROM((uint8_t *)&PersistenceData, sizeof(PersistenceData)) != checksum) MaintainDTC(DTC_EEPROM_PDS_BAD, (Checksum_EEPROM((uint8_t *)&PersistenceData, sizeof(PersistenceData)) != checksum));
{
MaintainDTC(DTC_EEPROM_PDS_BAD, DTC_CRITICAL, true);
}
PersistenceData.checksum = checksum; PersistenceData.checksum = checksum;
} }
} }
/**
* @brief Formats the configuration partition in EEPROM.
*
* This function resets the configuration data to defaults and stores it in EEPROM.
*/
void FormatConfig_EEPROM() void FormatConfig_EEPROM()
{ {
if (eeAvailable == false) Debug_pushMessage("Formatting Config-Partition\n");
return;
Serial.println("Formatting Config-Partition");
ConfigData = ConfigData_defaults; ConfigData = ConfigData_defaults;
ConfigData.EEPROM_Version = eeVersion;
StoreConfig_EEPROM(); StoreConfig_EEPROM();
GetConfig_EEPROM();
} }
/**
* @brief Formats the persistence partition in EEPROM.
*
* This function resets the persistence data to defaults and stores it in EEPROM.
*/
void FormatPersistence_EEPROM() void FormatPersistence_EEPROM()
{ {
if (eeAvailable == false) Debug_pushMessage("Formatting Persistance-Partition\n");
return;
Serial.println("Formatting Persistance-Partition");
PersistenceData = {0}; PersistenceData = {0};
// memset(&PersistenceData, 0, sizeof(PersistenceData));
StorePersistence_EEPROM(); StorePersistence_EEPROM();
GetPersistence_EEPROM();
} }
/**
* @brief Moves the persistence page in EEPROM.
*
* This function adjusts the persistence page address and resets the write cycle counter.
*
* @param reset If true, the function resets the persistence page address to the start of the partition.
*/
void MovePersistencePage_EEPROM(boolean reset) void MovePersistencePage_EEPROM(boolean reset)
{ {
if (eeAvailable == false) if (!checkEEPROMavailable())
return; return;
globals.eePersistanceAdress = +sizeof(PersistenceData); globals.eePersistanceAdress += sizeof(PersistenceData);
PersistenceData.writeCycleCounter = 0; PersistenceData.writeCycleCounter = 0;
// check if we reached the End of the EEPROM and Startover at the beginning // Check if we reached the end of the EEPROM and start over at the beginning
if ((globals.eePersistanceAdress + sizeof(PersistenceData)) > ee.getDeviceSize() || reset) if ((globals.eePersistanceAdress + sizeof(PersistenceData)) > ee.getDeviceSize() || reset)
{ {
globals.eePersistanceAdress = startofPersistence; globals.eePersistanceAdress = startofPersistence;
@@ -194,165 +272,244 @@ void MovePersistencePage_EEPROM(boolean reset)
ee.updateBlock(0, (uint8_t *)&globals.eePersistanceAdress, sizeof(globals.eePersistanceAdress)); ee.updateBlock(0, (uint8_t *)&globals.eePersistanceAdress, sizeof(globals.eePersistanceAdress));
} }
/**
* @brief Calculate CRC-32 checksum for a block of data.
*
* This function implements the CRC-32 algorithm.
*
* @param data Pointer to the data block.
* @param len Length of the data block in bytes.
* @return CRC-32 checksum.
*/
uint32_t Checksum_EEPROM(uint8_t const *data, size_t len) uint32_t Checksum_EEPROM(uint8_t const *data, size_t len)
{ {
if (data == NULL) if (data == NULL)
return 0; return 0;
uint32_t crc, mask;
crc = 0xFFFFFFFF; uint32_t crc = 0xFFFFFFFF;
uint32_t mask;
while (len--) while (len--)
{ {
crc ^= *data++; crc ^= *data++;
for (uint8_t k = 0; k < 8; k++) for (uint8_t k = 0; k < 8; k++)
{ {
mask = -(crc & 1); mask = -(crc & 1);
crc = (crc >> 1) ^ (0xEDB88320 & mask); crc = (crc >> 1) ^ (0xEDB88320 & mask);
} }
} }
return ~crc; return ~crc;
} }
/**
* @brief Dump a portion of EEPROM contents for debugging.
*
* This function prints the contents of a specified portion of EEPROM in a formatted way.
*
* @param memoryAddress Starting address in EEPROM.
* @param length Number of bytes to dump.
*/
void dumpEEPROM(uint16_t memoryAddress, uint16_t length) void dumpEEPROM(uint16_t memoryAddress, uint16_t length)
{ {
#define BLOCK_TO_LENGTH 16 #define BLOCK_TO_LENGTH 16
if (eeAvailable == false) if (!checkEEPROMavailable())
return; return;
char ascii_buf[BLOCK_TO_LENGTH + 1]; char ascii_buf[BLOCK_TO_LENGTH + 1] = {0};
sprintf(ascii_buf, "%*s", BLOCK_TO_LENGTH, "ASCII"); sprintf(ascii_buf, "%*s", BLOCK_TO_LENGTH, "ASCII");
Serial.print(PSTR("\nAddress "));
for (int x = 0; x < BLOCK_TO_LENGTH; x++)
Serial.printf("%3d", x);
// Print column headers
Debug_pushMessage(PSTR("\nAddress "));
for (int x = 0; x < BLOCK_TO_LENGTH; x++)
Debug_pushMessage("%3d", x);
// Align address and length to BLOCK_TO_LENGTH boundaries
memoryAddress = memoryAddress / BLOCK_TO_LENGTH * BLOCK_TO_LENGTH; memoryAddress = memoryAddress / BLOCK_TO_LENGTH * BLOCK_TO_LENGTH;
length = (length + BLOCK_TO_LENGTH - 1) / BLOCK_TO_LENGTH * BLOCK_TO_LENGTH; length = (length + BLOCK_TO_LENGTH - 1) / BLOCK_TO_LENGTH * BLOCK_TO_LENGTH;
// Iterate through the specified portion of EEPROM
for (unsigned int i = 0; i < length; i++) for (unsigned int i = 0; i < length; i++)
{ {
int blockpoint = memoryAddress % BLOCK_TO_LENGTH; int blockpoint = memoryAddress % BLOCK_TO_LENGTH;
// Print ASCII representation header for each block
if (blockpoint == 0) if (blockpoint == 0)
{
if (i > 0) // Ensure we don't print an empty ASCII buffer on the first iteration
{ {
ascii_buf[BLOCK_TO_LENGTH] = 0; ascii_buf[BLOCK_TO_LENGTH] = 0;
Serial.printf(" %s", ascii_buf); Debug_pushMessage(" %s", ascii_buf);
Serial.printf("\n0x%05X:", memoryAddress);
} }
ascii_buf[blockpoint] = ee.readByte(memoryAddress); Debug_pushMessage("\n0x%05X:", memoryAddress);
Serial.printf(" %02X", ascii_buf[blockpoint]); memset(ascii_buf, ' ', BLOCK_TO_LENGTH); // Clear the ASCII buffer with spaces
if (ascii_buf[blockpoint] < 0x20 || ascii_buf[blockpoint] > 0x7E)
ascii_buf[blockpoint] = '.';
memoryAddress++;
}
Serial.println();
} }
bool checkEEPROMavailable() // Read and print each byte
uint8_t byte = ee.readByte(memoryAddress);
ascii_buf[blockpoint] = (byte >= 0x20 && byte <= 0x7E) ? byte : '.';
Debug_pushMessage(" %02X", byte);
memoryAddress++;
}
// Print remaining ASCII buffer
ascii_buf[BLOCK_TO_LENGTH] = 0;
Debug_pushMessage(" %s\n", ascii_buf); // Final ASCII line
}
/**
* @brief Check if EEPROM is available and connected.
*
* This function checks if the EEPROM is available and connected. If not, it triggers
* a diagnostic trouble code (DTC) indicating the absence of EEPROM.
*
* @return true if EEPROM is available, false otherwise.
*/
boolean checkEEPROMavailable()
{ {
// Check if EEPROM is connected
if (!ee.isConnected()) if (!ee.isConnected())
{ {
MaintainDTC(DTC_NO_EEPROM_FOUND, DTC_CRITICAL, true); // Trigger DTC for no EEPROM found
MaintainDTC(DTC_NO_EEPROM_FOUND, true);
return false; return false;
} }
// Clear DTC for no EEPROM found since it's available now
MaintainDTC(DTC_NO_EEPROM_FOUND, false);
// EEPROM is available
return true; return true;
} }
/**
* @brief Perform sanity check on configuration settings.
*
* This function checks the validity of various configuration settings and returns a bitmask
* indicating which settings need to be reset. If autocorrect is enabled, it resets the settings
* to their default values.
*
* @param autocorrect If true, automatically correct invalid settings by resetting to defaults.
* @return A bitmask indicating which settings need to be reset.
*/
uint32_t ConfigSanityCheck(bool autocorrect) uint32_t ConfigSanityCheck(bool autocorrect)
{ {
uint32_t setting_reset_bits = 0; uint32_t setting_reset_bits = 0;
if ((ConfigData.batteryType != BATTERY_LIPO_2S) || (ConfigData.batteryType != BATTERY_LIPO_3S)) if (!validateWiFiString(ConfigData.wifi_ap_ssid, sizeof(ConfigData.wifi_ap_ssid)))
{ {
setting_reset_bits = setting_reset_bits | (1 << 0); SET_BIT(setting_reset_bits, 1);
if (autocorrect) if (autocorrect)
ConfigData.batteryType = ConfigData_defaults.batteryType; strncpy(ConfigData.wifi_ap_ssid, ConfigData_defaults.wifi_ap_ssid, sizeof(ConfigData.wifi_ap_ssid));
} }
if (!validateWiFiString(ConfigData.wifi_ap_password, sizeof(ConfigData.wifi_ap_password)))
{
SET_BIT(setting_reset_bits, 2);
if (autocorrect)
strncpy(ConfigData.wifi_ap_password, ConfigData_defaults.wifi_ap_password, sizeof(ConfigData.wifi_ap_password));
}
if (!validateWiFiString(ConfigData.wifi_client_ssid, sizeof(ConfigData.wifi_client_ssid)))
{
SET_BIT(setting_reset_bits, 3);
if (autocorrect)
strncpy(ConfigData.wifi_client_ssid, ConfigData_defaults.wifi_client_ssid, sizeof(ConfigData.wifi_client_ssid));
}
if (!validateWiFiString(ConfigData.wifi_client_password, sizeof(ConfigData.wifi_client_password)))
{
SET_BIT(setting_reset_bits, 4);
if (autocorrect)
strncpy(ConfigData.wifi_client_password, ConfigData_defaults.wifi_client_password, sizeof(ConfigData.wifi_client_password));
}
// Return the bitmask indicating which settings need to be reset
return setting_reset_bits; return setting_reset_bits;
} }
bool ValidateEEPROM_Version() /**
* @brief Validates whether a given string contains only characters allowed in WiFi SSIDs and passwords.
*
* This function checks each character in the provided string to ensure
* that it contains only characters allowed in WiFi SSIDs and passwords.
* It considers characters from 'A' to 'Z', 'a' to 'z', '0' to '9', as well as
* the following special characters: ! " # $ % & ' ( ) * + , - . / : ; < = > ? @ [ \ ] ^ _ ` { | } ~
*
* @param string Pointer to the string to be validated.
* @param size Size of the string including the null-terminator.
* @return true if the string contains only allowed characters or is NULL,
* false otherwise.
*/
bool validateWiFiString(char *string, size_t size)
{ {
if (eeAvailable == false) if (string == NULL)
return false; return false;
uint8_t EEPROMVersionOnChip = ee.readByte(startofConfigData); for (size_t i = 0; i < size; i++)
if (EEPROMVersionOnChip < ConfigData_defaults.EEPROM_Version)
{ {
Serial.printf("EEPROM Image Version is %d, but %d expected - trying to migrate\n", EEPROMVersionOnChip, ConfigData_defaults.EEPROM_Version); char c = string[i];
if (!MigrateEEPROM(EEPROMVersionOnChip)) if (c == '\0')
{ {
Serial.print("Error\n"); // Reached the end of the string, all characters were valid WiFi characters.
MaintainDTC(DTC_EEPROM_MIGRATE_FAILED, DTC_CRITICAL, true, EEPROMVersionOnChip);
return false;
}
else
{
Serial.print("Success\n");
}
}
return true; return true;
} }
if (!((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') ||
bool MigrateEEPROM(uint8_t fromVersion) (c >= '0' && c <= '9') || c == '!' || c == '"' || c == '#' ||
c == '$' || c == '%' || c == '&' || c == '\'' || c == '(' ||
c == ')' || c == '*' || c == '+' || c == ',' || c == '-' ||
c == '.' || c == '/' || c == ':' || c == ';' || c == '<' ||
c == '=' || c == '>' || c == '?' || c == '@' || c == '[' ||
c == '\\' || c == ']' || c == '^' || c == '_' || c == '`' ||
c == '{' || c == '|' || c == '}' || c == '~'))
{ {
uint16_t persistanceMarker_onChip; // Found a character that is not a valid WiFi character.
switch (fromVersion)
{
// Version 1 EEPROM Layout: startAdress size (byte)
// const uint16_t startofConfigData = 16 16
// const uint16_t startofPersistence = 32 24
//
// typedef struct
// {
// uint8_t EEPROM_Version = 1; 16 1
// batteryType_t batteryType = BATTERY_UNDEFINED; 17 4
// bool active_faction_on_reboot = false; 21 1
// uint32_t checksum = 0; 22 4
// } configData_t;
//
// typedef struct offset
// {
// uint32_t writeCycleCounter = 0; 0 4
// uint32_t faction_1_timer = 0; 4 4
// uint32_t faction_2_timer = 0; 8 4
// uint32_t faction_3_timer = 0; 12 4
// factions_t activeFaction = NONE; 16 4
// uint32_t checksum = 0; 20 4
// } persistenceData_t;
case 1:
// Migrate Persistance-Data
ee.readBlock(0, (uint8_t *)&persistanceMarker_onChip, sizeof(uint16_t));
if (persistanceMarker_onChip < startofPersistence)
{
ee.readBlock(persistanceMarker_onChip + 0, (uint8_t *)&PersistenceData.writeCycleCounter, 4);
ee.readBlock(persistanceMarker_onChip + 4, (uint8_t *)&PersistenceData.faction_1_timer, 4);
ee.readBlock(persistanceMarker_onChip + 8, (uint8_t *)&PersistenceData.faction_2_timer, 4);
ee.readBlock(persistanceMarker_onChip + 12, (uint8_t *)&PersistenceData.faction_3_timer, 4);
ee.readBlock(persistanceMarker_onChip + 16, (uint8_t *)&PersistenceData.activeFaction, 4);
ee.readBlock(persistanceMarker_onChip + 20, (uint8_t *)&PersistenceData.checksum, 4);
MovePersistencePage_EEPROM(true);
StorePersistence_EEPROM();
}
// Migrate Config-Data and set defaults for Values which doesn't exists in this earlier Version
ConfigData.EEPROM_Version = ConfigData_defaults.EEPROM_Version;
strncpy(ConfigData.Faction_1_Name, ConfigData_defaults.Faction_1_Name, sizeof(ConfigData.Faction_1_Name));
strncpy(ConfigData.Faction_2_Name, ConfigData_defaults.Faction_2_Name, sizeof(ConfigData.Faction_2_Name));
strncpy(ConfigData.Faction_3_Name, ConfigData_defaults.Faction_3_Name, sizeof(ConfigData.Faction_3_Name));
ee.readBlock(17, (uint8_t *)&ConfigData.batteryType, 4);
ee.readBlock(21, (uint8_t *)&ConfigData.active_faction_on_reboot, 1);
StoreConfig_EEPROM();
return true;
break;
default:
return false; return false;
break; }
}
// If the loop completes without finding a null terminator, the string is invalid.
return false;
}
/**
* @brief Write sequential numbers to a portion of EEPROM.
*
* This function writes sequential numbers starting from 0 to a specified portion of EEPROM.
* If the number reaches 255, it wraps around and starts again from 1.
*
* @param memoryAddress Starting address in EEPROM.
* @param length Number of bytes to write.
*/
void writeSequentialToEEPROM(uint16_t memoryAddress, uint16_t length)
{
if (!checkEEPROMavailable())
return;
uint8_t value = 0;
for (uint16_t i = 0; i < length; i++)
{
ee.writeByte(memoryAddress + i, value);
value = (value == 255) ? 1 : value + 1;
}
}
/**
* @brief Write 0 to a portion of EEPROM.
*
* This function writes 0 to a specified portion of EEPROM.
*
* @param memoryAddress Starting address in EEPROM.
* @param length Number of bytes to write.
*/
void writeZeroToEEPROM(uint16_t memoryAddress, uint16_t length)
{
if (!checkEEPROMavailable())
return;
for (uint16_t i = 0; i < length; i++)
{
ee.writeByte(memoryAddress + i, 0);
} }
} }

1
Software/src/globals.cpp
View File

@@ -6,4 +6,5 @@ void initGlobals()
{ {
globals.systemStatus = sysStat_Startup; globals.systemStatus = sysStat_Startup;
globals.requestEEAction = EE_IDLE; globals.requestEEAction = EE_IDLE;
globals.systemStatustxt[0] = 0;
} }

168
Software/src/lora_net.cpp
View File

@@ -1,13 +1,19 @@
#include "lora_net.h" #include "lora_net.h"
#ifdef FEATURE_ENABLE_LORA
LoRa_E220 e220ttl(GPIO_LORA_TX, GPIO_LORA_RX, GPIO_LORA_AUX, 3, 4); // Arduino RX <-- e220 TX, Arduino TX --> e220 RX AUX M0 M1 LoRa_E220 e220ttl(GPIO_LORA_TX, GPIO_LORA_RX, GPIO_LORA_AUX, 3, 4); // Arduino RX <-- e220 TX, Arduino TX --> e220 RX AUX M0 M1
void printParameters(struct Configuration configuration); void printParameters(struct Configuration configuration);
void printModuleInformation(struct ModuleInformation moduleInformation); void printModuleInformation(struct ModuleInformation moduleInformation);
#elif defined(FEATURE_ENABLE_UARTLORA)
SoftwareSerial SerialLoRa(GPIO_LORA_RX, GPIO_LORA_TX); // RX, TX
void Parse_LoRa_UartCommand(char input[], int size);
#endif
bool InitLoRa(void (*MPinHelper)(int, int)) bool InitLoRa(void (*MPinHelper)(int, int))
{ {
bool returnval; bool returnval = false;
#ifdef FEATURE_ENABLE_LORA
e220ttl.setMPins = MPinHelper; e220ttl.setMPins = MPinHelper;
returnval = e220ttl.begin(); returnval = e220ttl.begin();
@@ -60,15 +66,20 @@ bool InitLoRa(void (*MPinHelper)(int, int))
{ {
MaintainDTC(DTC_NO_LORA_FOUND, DTC_WARN, true); MaintainDTC(DTC_NO_LORA_FOUND, DTC_WARN, true);
} }
#elif defined(FEATURE_ENABLE_UARTLORA)
SerialLoRa.begin(9600);
returnval = true;
#endif
return returnval; return returnval;
} }
void LoRa_Process() void LoRa_Process()
{ {
#ifdef FEATURE_ENABLE_LORA
if (e220ttl.available() > 1) if (e220ttl.available() > 1)
{ {
ResponseContainer rc = e220ttl.receiveMessageRSSI(); ResponseContainer rc = e220ttl.receiveMessageRSSI();
// Is something goes wrong print error // If something goes wrong, print error
if (rc.status.code != 1) if (rc.status.code != 1)
{ {
Serial.println(rc.status.getResponseDescription()); Serial.println(rc.status.getResponseDescription());
@@ -82,10 +93,56 @@ void LoRa_Process()
Serial.println(rc.rssi, DEC); Serial.println(rc.rssi, DEC);
} }
} }
#elif defined(FEATURE_ENABLE_UARTLORA)
static char packageInput[32];
static bool packageReceived = false;
static unsigned int bufferPtr = 0;
int receivedSize = 0;
while (SerialLoRa.available() && !packageReceived)
{
if (bufferPtr < sizeof(packageInput) - 1)
{
char c = SerialLoRa.read();
packageInput[bufferPtr] = c;
packageInput[bufferPtr + 1] = '\0'; // always terminate string
if (c == '\n')
{
packageReceived = true;
receivedSize = bufferPtr;
bufferPtr = 0;
Debug_pushMessage("Got LoRa UART: %s\n", packageInput);
}
else if ((c >= '0' && c <= '9') || (c >= 'A' && c <= 'Z') || (c == ' ' || c == ',' || c == '.')) // Accept numbers, uppercase letters, and some special chars
{
bufferPtr++;
}
else
{
Debug_pushMessage("Invalid character received: %c\n", c);
}
}
else
{
Debug_pushMessage("Buffer overflow. Resetting buffer.\n");
bufferPtr = 0;
}
}
if (packageReceived)
{
Parse_LoRa_UartCommand(packageInput, receivedSize);
packageReceived = false;
}
#endif
} }
void sendStatus_LoRa() void sendStatus_LoRa()
{ {
#ifdef FEATURE_ENABLE_LORA
struct struct
{ {
MessageType_t type = "STATUS"; MessageType_t type = "STATUS";
@@ -101,8 +158,25 @@ void sendStatus_LoRa()
ResponseStatus rs = e220ttl.sendFixedMessage(0xFF, 0xFF, 23, (byte *)&sendStatus, sizeof(sendStatus)); ResponseStatus rs = e220ttl.sendFixedMessage(0xFF, 0xFF, 23, (byte *)&sendStatus, sizeof(sendStatus));
Serial.println(rs.getResponseDescription()); Serial.println(rs.getResponseDescription());
#elif defined(FEATURE_ENABLE_UARTLORA)
SerialLoRa.print(PersistenceData.faction_1_timer);
SerialLoRa.write(";");
SerialLoRa.print(PersistenceData.faction_2_timer);
SerialLoRa.write(";");
SerialLoRa.print(PersistenceData.faction_3_timer);
SerialLoRa.write(";");
SerialLoRa.print(PersistenceData.activeFaction);
SerialLoRa.write(";");
SerialLoRa.print(globals.battery_level);
SerialLoRa.write('\n');
#endif
} }
#ifdef FEATURE_ENABLE_LORA
void printParameters(struct Configuration configuration) void printParameters(struct Configuration configuration)
{ {
Serial.println("----------------------------------------"); Serial.println("----------------------------------------");
@@ -169,3 +243,91 @@ void printParameters(struct Configuration configuration)
Serial.println("----------------------------------------"); Serial.println("----------------------------------------");
} }
#endif
#ifdef FEATURE_ENABLE_UARTLORA
void Parse_LoRa_UartCommand(char input[], int size)
{
Debug_pushMessage("Start parsing, size: %d", size);
char delimiter[] = ";";
char *ptr;
char command[8];
char value[8];
ptr = strtok(input, delimiter);
ptr = strtok(input, delimiter);
while (ptr != NULL)
{
strncpy(command, ptr, sizeof(command) - 1); // Platz für Nullterminator lassen
command[sizeof(command) - 1] = '\0'; // Nullterminator setzen
ptr = strtok(NULL, delimiter);
if (ptr != NULL)
{
strncpy(value, ptr, sizeof(value) - 1); // Platz für Nullterminator lassen
value[sizeof(value) - 1] = '\0'; // Nullterminator setzen
}
else
{
// Wenn ptr NULL ist, setze value auf leeren String
value[0] = '\0';
}
// Hier kannst du den Wert und das Kommando verarbeiten
Debug_pushMessage("Command: %s, Value: %s", command, value);
}
Debug_pushMessage("Parsed LoRa UART Command: %s Value: %s\n", command, value);
if (!strcmp(command, "ENABLE"))
{
globals.timer_disabled = false;
Debug_pushMessage("Enabled by LoRa");
}
else if (!strcmp(command, "DISABLE"))
{
globals.timer_disabled = true;
Debug_pushMessage("Disabled by LoRa");
}
else if (!strcmp(command, "RESET"))
{
PersistenceData.activeFaction = NONE;
PersistenceData.faction_1_timer = 0;
PersistenceData.faction_2_timer = 0;
PersistenceData.faction_3_timer = 0;
Debug_pushMessage("Reset by LoRa");
}
else if (!strcmp(command, "TMRSTP"))
{
PersistenceData.activeFaction = NONE;
}
else if (!strcmp(command, "TMR1"))
{
PersistenceData.faction_1_timer = atol(value);
}
else if (!strcmp(command, "TMR2"))
{
PersistenceData.faction_2_timer = atol(value);
}
else if (!strcmp(command, "TMR3"))
{
PersistenceData.faction_3_timer = atol(value);
}
else if (!strcmp(command, "EFAC1"))
{
PersistenceData.activeFaction = FACTION_1;
}
else if (!strcmp(command, "EFAC2"))
{
PersistenceData.activeFaction = FACTION_2;
}
else if (!strcmp(command, "EFAC3"))
{
PersistenceData.activeFaction = FACTION_3;
}
}
#endif

261
Software/src/main.cpp
View File

@@ -19,7 +19,7 @@
#include "globals.h" #include "globals.h"
#include "dtc.h" #include "dtc.h"
#include "debugger.h" #include "debugger.h"
#ifdef FEATURE_ENABLE_LORA #if defined(FEATURE_ENABLE_LORA) || defined(FEATURE_ENABLE_UARTLORA)
#include "lora_net.h" #include "lora_net.h"
#endif #endif
@@ -42,14 +42,13 @@ TM1637 disp_FAC_3(GPIO_7SEG_CLK, GPIO_7SEG_EN_FAC3);
void SevenSeg_Output(); void SevenSeg_Output();
void toggleWiFiAP(boolean shutdown = false); void toggleWiFiAP(boolean shutdown = false);
void SystemShutdown(); void SystemShutdown(bool restart = false);
void SetBatteryType(batteryType_t type); void SetBatteryType(batteryType_t type);
void ProcessKeyCombos(bool *btnState); void ProcessKeyCombos(bool *btnState);
void OverrideDisplay(uint32_t time, const char *message1, const char *message2, const char *message3); void OverrideDisplay(uint32_t time, const char *message1, const char *message2, const char *message3);
void initGlobals(); void EEPROMCyclicPDS_callback();
void maintainSysStat();
#ifdef FEATURE_ENABLE_LORA #if defined(FEATURE_ENABLE_UARTLORA) || defined(FEATURE_ENABLE_LORA)
void setMPins_Helper(int pin, int status); void setMPins_Helper(int pin, int status);
void tmrCallback_StatusSender(); void tmrCallback_StatusSender();
Ticker tmrStatusSender(tmrCallback_StatusSender, 30000, 0, MILLIS); Ticker tmrStatusSender(tmrCallback_StatusSender, 30000, 0, MILLIS);
@@ -61,18 +60,18 @@ void tmrCallback_FactionTicker();
Ticker tmrFactionTicker(tmrCallback_FactionTicker, 1000, 0, MILLIS); Ticker tmrFactionTicker(tmrCallback_FactionTicker, 1000, 0, MILLIS);
void tmrCallback_InputGetter(); void tmrCallback_InputGetter();
Ticker tmrInputGetter(tmrCallback_InputGetter, 250, 0, MILLIS); Ticker tmrInputGetter(tmrCallback_InputGetter, 250, 0, MILLIS);
void tmrCallback_EEPROMCyclicPDS(); void EEPROMCyclicPDS_callback();
Ticker tmrEEPROMCyclicPDS(tmrCallback_EEPROMCyclicPDS, 60000, 0, MILLIS); Ticker tmrEEPROMCyclicPDS(EEPROMCyclicPDS_callback, 60000, 0, MILLIS);
#ifdef FEATURE_ENABLE_WIFI_CLIENT #ifdef FEATURE_ENABLE_WIFI_CLIENT
void tmrCallback_WiFiMaintainConnection(); void wifiMaintainConnectionTicker_callback();
Ticker tmrWiFiMaintainConnection(tmrCallback_WiFiMaintainConnection, 1000, 0, MILLIS); Ticker tmrWiFiMaintainConnection(wifiMaintainConnectionTicker_callback, 1000, 0, MILLIS);
#endif #endif
uint32_t DisplayOverrideFlag = 0; uint32_t DisplayOverrideFlag = 0;
char DisplayOverrideValue[3][5] = {0}; char DisplayOverrideValue[3][5] = {0};
#ifdef FEATURE_ENABLE_LORA #if defined(FEATURE_ENABLE_UARTLORA) || defined(FEATURE_ENABLE_LORA)
void setMPins_Helper(int pin, int status) void setMPins_Helper(int pin, int status)
{ {
i2c_io.write(pin, status); i2c_io.write(pin, status);
@@ -81,24 +80,49 @@ void setMPins_Helper(int pin, int status)
void setup() void setup()
{ {
// Set CPU frequency to 80MHz
system_update_cpu_freq(SYS_CPU_80MHZ); system_update_cpu_freq(SYS_CPU_80MHZ);
strcpy(globals.DeviceName, DEVICE_NAME);
snprintf(globals.DeviceName_ID, 42, "%s_%08X", globals.DeviceName, ESP.getChipId());
WiFi.persistent(false);
WiFi.disconnect();
// Generate a unique device name based on ESP chip ID
strncpy(globals.DeviceName, HOST_NAME, sizeof(globals.DeviceName));
snprintf(globals.DeviceNameId, sizeof(globals.DeviceNameId), "%s_%08X", globals.DeviceName, ESP.getChipId());
// Disable WiFi persistent storage
WiFi.persistent(false);
// Initialize and clear Diagnostic Trouble Code (DTC) storage
ClearAllDTC();
#ifdef FEATURE_ENABLE_WIFI_CLIENT
// Configure WiFi settings for client mode if enabled
WiFi.mode(WIFI_STA);
WiFi.setHostname(globals.DeviceNameId);
wifiMulti.addAP(QUOTE(WIFI_SSID_CLIENT), QUOTE(WIFI_PASSWORD_CLIENT));
tmrWiFiMaintainConnection.start();
#else
// Disable WiFi if WiFi client feature is not enabled
WiFi.mode(WIFI_OFF);
#endif
// Initialize Serial communication
Serial.begin(115200); Serial.begin(115200);
Serial.setDebugOutput(false); Serial.setDebugOutput(false);
Serial.print("\n\n-------------------START-------------------\n"); Serial.print("\n\n-------------------START-------------------\n");
Serial.print(globals.DeviceName); Serial.print(globals.DeviceNameId);
Serial.print("\nby Hiabuto Defense\n"); Serial.print("\nby Hiabuto Defense\n\n");
ClearAllDTC(); // Init DTC-Storage // Initialize EEPROM, load configuration, and persistence data from EEPROM
if (InitEEPROM())
InitEEPROM(); {
GetConfig_EEPROM(); GetConfig_EEPROM();
GetPersistence_EEPROM(); GetPersistence_EEPROM();
Serial.printf("Initialized EEPROM at Address 0x%02X\n", I2C_EE_ADDRESS);
}
else
{
Serial.print("EEPROM not Initialized\n");
}
if (i2c_io.begin()) if (i2c_io.begin())
{ {
@@ -119,7 +143,7 @@ void setup()
Serial.print("INA219 not Initialized\n"); Serial.print("INA219 not Initialized\n");
} }
#ifdef FEATURE_ENABLE_LORA #if defined(FEATURE_ENABLE_UARTLORA) || defined(FEATURE_ENABLE_LORA)
if (InitLoRa(&setMPins_Helper)) if (InitLoRa(&setMPins_Helper))
{ {
Serial.print("Initialized LoRa_Transceiver\n"); Serial.print("Initialized LoRa_Transceiver\n");
@@ -131,18 +155,9 @@ void setup()
} }
#endif #endif
#ifdef FEATURE_ENABLE_WIFI_CLIENT // Set up OTA updates
WiFi.mode(WIFI_STA);
WiFi.setHostname(globals.DeviceName);
wifiMulti.addAP(QUOTE(WIFI_CLIENT_SSID), QUOTE(WIFI_CLIENT_PASSWORD));
tmrWiFiMaintainConnection.start();
Serial.print("WiFi-Client Initialized\n");
#else
WiFi.mode(WIFI_OFF);
#endif
ArduinoOTA.setPort(8266); ArduinoOTA.setPort(8266);
ArduinoOTA.setHostname(globals.DeviceName_ID); ArduinoOTA.setHostname(globals.DeviceNameId);
ArduinoOTA.setPassword(QUOTE(ADMIN_PASSWORD)); ArduinoOTA.setPassword(QUOTE(ADMIN_PASSWORD));
ArduinoOTA.onStart([]() ArduinoOTA.onStart([]()
@@ -186,15 +201,20 @@ void setup()
else if (error == OTA_END_ERROR) else if (error == OTA_END_ERROR)
Serial.println("End Failed"); }); Serial.println("End Failed"); });
// Begin OTA updates
ArduinoOTA.begin(); ArduinoOTA.begin();
Serial.print("\nOTA-Init done"); Serial.print("\nOTA-Init done");
// Initialize the web user interface
initWebUI(); initWebUI();
Serial.print("\nWebUI-Init done"); Serial.print("\nWebUI-Init done");
// Initialize global variables
initGlobals(); initGlobals();
Serial.print("\nglobals-Init done"); Serial.print("\nglobals-Init done");
#ifdef CAPTIVE
dnsServer.start(53, "*", WiFi.softAPIP()); // Start cyclic EEPROM updates for Persistence Data Structure (PDS)
#endif tmrEEPROMCyclicPDS.start();
disp_FAC_1.init(); disp_FAC_1.init();
disp_FAC_1.setBrightness(5); disp_FAC_1.setBrightness(5);
@@ -203,7 +223,6 @@ void setup()
disp_FAC_3.init(); disp_FAC_3.init();
disp_FAC_3.setBrightness(5); disp_FAC_3.setBrightness(5);
tmrEEPROMCyclicPDS.start();
tmrFactionTicker.start(); tmrFactionTicker.start();
tmrInputGetter.start(); tmrInputGetter.start();
@@ -215,8 +234,6 @@ void setup()
void loop() void loop()
{ {
maintainSysStat();
tmrEEPROMCyclicPDS.update(); tmrEEPROMCyclicPDS.update();
tmrFactionTicker.update(); tmrFactionTicker.update();
tmrInputGetter.update(); tmrInputGetter.update();
@@ -229,18 +246,69 @@ void loop()
DTC_Process(); DTC_Process();
Debug_Process(); Debug_Process();
#ifdef FEATURE_ENABLE_LORA #if defined(FEATURE_ENABLE_LORA) || defined(FEATURE_ENABLE_UARTLORA)
tmrStatusSender.update();
LoRa_Process(); LoRa_Process();
tmrStatusSender.update();
#endif #endif
#ifdef CAPTIVE
dnsServer.processNextRequest();
#endif
#ifdef FEATURE_ENABLE_WIFI_CLIENT #ifdef FEATURE_ENABLE_WIFI_CLIENT
// Update WiFi connection maintenance ticker if WiFi client feature is enabled
tmrWiFiMaintainConnection.update(); tmrWiFiMaintainConnection.update();
#endif #endif
static tSystem_Status lastStatus = sysStat_Init;
// Handle different system statuses
switch (globals.systemStatus)
{
case sysStat_Startup:
if (lastStatus != globals.systemStatus)
{
strcpy_P(globals.systemStatustxt, PSTR("Startup"));
lastStatus = globals.systemStatus;
}
// Transition to Normal status after startup delay
if (millis() > STARTUP_DELAY)
{
globals.systemStatus = sysStat_Normal;
globals.resumeStatus = sysStat_Normal;
}
break;
case sysStat_Normal:
if (lastStatus != globals.systemStatus)
{
strcpy_P(globals.systemStatustxt, PSTR("Normal"));
lastStatus = globals.systemStatus;
}
break;
if (lastStatus != globals.systemStatus)
{
strcpy_P(globals.systemStatustxt, PSTR("Error"));
lastStatus = globals.systemStatus;
}
break;
case sysStat_Shutdown:
if (lastStatus != globals.systemStatus)
{
strcpy_P(globals.systemStatustxt, PSTR("Shutdown"));
lastStatus = globals.systemStatus;
}
SystemShutdown(false);
break;
case sysStat_Error:
if (lastStatus != globals.systemStatus)
{
strcpy_P(globals.systemStatustxt, PSTR("Error"));
lastStatus = globals.systemStatus;
}
default:
break;
}
// Yield to allow other tasks to run
yield(); yield();
} }
@@ -254,7 +322,7 @@ String macToString(const unsigned char *mac)
void SevenSeg_Output() void SevenSeg_Output()
{ {
char sevenSegBuff[5] = ""; char sevenSegBuff[9] = "";
if (DisplayOverrideFlag > millis()) if (DisplayOverrideFlag > millis())
{ {
@@ -270,9 +338,11 @@ void SevenSeg_Output()
if (globals.battery_level < BAT_LOW_PERCENT && millis() % 10000 > 7000) if (globals.battery_level < BAT_LOW_PERCENT && millis() % 10000 > 7000)
{ {
if (millis() % 3000 < 1500) if (millis() % 3000 < 1500)
snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%4d", globals.battery_level); snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%4u", globals.battery_level);
else else
snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%3d.%1d", (globals.loadvoltage_mV / 1000), ((globals.loadvoltage_mV % 1000) / 100)); snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%3u.%1u", (globals.loadvoltage_mV / 1000), ((globals.loadvoltage_mV % 1000) / 100));
sevenSegBuff[5] = '\0'; // truncate here if for any reason something bigger is in buffer than ecpected
disp_FAC_1.setBrightness(1); disp_FAC_1.setBrightness(1);
disp_FAC_1.display(" Bat"); disp_FAC_1.display(" Bat");
@@ -288,18 +358,21 @@ void SevenSeg_Output()
disp_FAC_1.setBrightness(PersistenceData.activeFaction == FACTION_1 ? 5 : 1); disp_FAC_1.setBrightness(PersistenceData.activeFaction == FACTION_1 ? 5 : 1);
disp_FAC_1.refresh(); disp_FAC_1.refresh();
snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%4d", PersistenceData.faction_1_timer / 60); snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%4d", PersistenceData.faction_1_timer / 60);
sevenSegBuff[5] = '\0'; // truncate here if for any reason something bigger is in buffer than ecpected
disp_FAC_1.display(String(sevenSegBuff), false, false); disp_FAC_1.display(String(sevenSegBuff), false, false);
disp_FAC_1.setDp((PersistenceData.activeFaction == FACTION_1) && (millis() % 1000 > 500) ? 0x08 : 0x00); disp_FAC_1.setDp((PersistenceData.activeFaction == FACTION_1) && (millis() % 1000 > 500) ? 0x08 : 0x00);
disp_FAC_2.setBrightness(PersistenceData.activeFaction == FACTION_2 ? 5 : 1); disp_FAC_2.setBrightness(PersistenceData.activeFaction == FACTION_2 ? 5 : 1);
disp_FAC_2.refresh(); disp_FAC_2.refresh();
snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%4d", PersistenceData.faction_2_timer / 60); snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%4d", PersistenceData.faction_2_timer / 60);
sevenSegBuff[5] = '\0'; // truncate here if for any reason something bigger is in buffer than ecpected
disp_FAC_2.display(String(sevenSegBuff), false, false); disp_FAC_2.display(String(sevenSegBuff), false, false);
disp_FAC_2.setDp((PersistenceData.activeFaction == FACTION_2) && (millis() % 1000 > 500) ? 0x08 : 0x00); disp_FAC_2.setDp((PersistenceData.activeFaction == FACTION_2) && (millis() % 1000 > 500) ? 0x08 : 0x00);
disp_FAC_3.setBrightness(PersistenceData.activeFaction == FACTION_3 ? 5 : 1); disp_FAC_3.setBrightness(PersistenceData.activeFaction == FACTION_3 ? 5 : 1);
disp_FAC_3.refresh(); disp_FAC_3.refresh();
snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%4d", PersistenceData.faction_3_timer / 60); snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%4d", PersistenceData.faction_3_timer / 60);
sevenSegBuff[5] = '\0'; // truncate here if for any reason something bigger is in buffer than ecpected
disp_FAC_3.display(String(sevenSegBuff), false, false); disp_FAC_3.display(String(sevenSegBuff), false, false);
disp_FAC_3.setDp((PersistenceData.activeFaction == FACTION_3) && (millis() % 1000 > 500) ? 0x08 : 0x00); disp_FAC_3.setDp((PersistenceData.activeFaction == FACTION_3) && (millis() % 1000 > 500) ? 0x08 : 0x00);
} }
@@ -308,6 +381,9 @@ void SevenSeg_Output()
void tmrCallback_FactionTicker() void tmrCallback_FactionTicker()
{ {
if (globals.timer_disabled == true)
PersistenceData.activeFaction = NONE;
switch (PersistenceData.activeFaction) switch (PersistenceData.activeFaction)
{ {
case FACTION_1: case FACTION_1:
@@ -349,7 +425,7 @@ void tmrCallback_InputGetter()
return; return;
} }
if (btnState[0] == FAC_1_TRG_PRESSED) if (btnState[0] == FAC_1_TRG_PRESSED && globals.timer_disabled != true)
{ {
if (PersistenceData.activeFaction != FACTION_1) if (PersistenceData.activeFaction != FACTION_1)
{ {
@@ -359,7 +435,7 @@ void tmrCallback_InputGetter()
PersistenceData.activeFaction = FACTION_1; PersistenceData.activeFaction = FACTION_1;
} }
if (btnState[1] == FAC_2_TRG_PRESSED) if (btnState[1] == FAC_2_TRG_PRESSED && globals.timer_disabled != true)
{ {
if (PersistenceData.activeFaction != FACTION_2) if (PersistenceData.activeFaction != FACTION_2)
{ {
@@ -369,7 +445,7 @@ void tmrCallback_InputGetter()
PersistenceData.activeFaction = FACTION_2; PersistenceData.activeFaction = FACTION_2;
} }
if (btnState[2] == FAC_3_TRG_PRESSED) if (btnState[2] == FAC_3_TRG_PRESSED && globals.timer_disabled != true)
{ {
if (PersistenceData.activeFaction != FACTION_3) if (PersistenceData.activeFaction != FACTION_3)
{ {
@@ -380,7 +456,7 @@ void tmrCallback_InputGetter()
} }
} }
#ifdef FEATURE_ENABLE_LORA #if defined(FEATURE_ENABLE_LORA) || defined(FEATURE_ENABLE_UARTLORA)
void tmrCallback_StatusSender() void tmrCallback_StatusSender()
{ {
sendStatus_LoRa(); sendStatus_LoRa();
@@ -422,8 +498,8 @@ void tmrCallback_PowerMonitor()
break; break;
} }
MaintainDTC(DTC_BAT_LOW, DTC_WARN, (battery_level < 15 ? true : false), battery_level); MaintainDTC(DTC_BAT_LOW, (battery_level < 15 ? true : false), battery_level);
MaintainDTC(DTC_BAT_CRITICAL, DTC_CRITICAL, (battery_level < 5 ? true : false), battery_level); MaintainDTC(DTC_BAT_CRITICAL, (battery_level < 5 ? true : false), battery_level);
// Serial.printf("Battery Level: %d %%\n", globals.battery_level); // Serial.printf("Battery Level: %d %%\n", globals.battery_level);
// Serial.printf("Bus Voltage: %f V\n", busvoltage); // Serial.printf("Bus Voltage: %f V\n", busvoltage);
@@ -433,74 +509,131 @@ void tmrCallback_PowerMonitor()
// Serial.printf("Power: %f mW\n", power_mW); // Serial.printf("Power: %f mW\n", power_mW);
} }
void tmrCallback_EEPROMCyclicPDS() /**
* @brief Callback function for cyclically storing Persistence Data Structure (PDS) to EEPROM.
*
* This callback function is invoked periodically to store the Persistence Data Structure (PDS)
* to the EEPROM. It ensures that essential data is saved persistently, allowing the system to
* recover its state after power cycles or resets.
*/
void EEPROMCyclicPDS_callback()
{ {
StorePersistence_EEPROM(); StorePersistence_EEPROM();
} }
#ifdef FEATURE_ENABLE_WIFI_CLIENT #ifdef FEATURE_ENABLE_WIFI_CLIENT
void tmrCallback_WiFiMaintainConnection() /**
* @brief Callback function for maintaining WiFi connection and handling connection failures.
*
* This callback function is used by a ticker to periodically check the WiFi connection status.
* If the device is not connected to WiFi, it counts connection failures. If the number of failures
* exceeds a defined threshold, the function triggers the initiation of an Access Point (AP) mode
* using the `toggleWiFiAP` function.
*/
void wifiMaintainConnectionTicker_callback()
{ {
// Static variables to track WiFi connection failure count and maximum allowed failures
static uint32_t WiFiFailCount = 0; static uint32_t WiFiFailCount = 0;
const uint32_t WiFiFailMax = 20; const uint32_t WiFiFailMax = 20;
// Check if the device is connected to WiFi
if (wifiMulti.run(connectTimeoutMs) == WL_CONNECTED) if (wifiMulti.run(connectTimeoutMs) == WL_CONNECTED)
{ {
return; return; // Exit if connected
} }
else else
{ {
// Increment WiFi connection failure count
if (WiFiFailCount < WiFiFailMax) if (WiFiFailCount < WiFiFailMax)
{ {
WiFiFailCount++; WiFiFailCount++;
} }
else else
{ {
Debug_pushMessage("WiFi not connected! - Start AP"); // Trigger AP mode if the maximum failures are reached
Debug_pushMessage("WiFi not connected! - Start AP\n");
toggleWiFiAP(); toggleWiFiAP();
} }
} }
} }
#endif #endif
void toggleWiFiAP(boolean shutdown) /**
* @brief Toggles the WiFi functionality based on the current status.
*
* This function manages the WiFi state, either turning it off or starting it as an Access Point (AP),
* depending on the current mode. If the WiFi is turned off, it can be started in AP mode with the
* device name and password configured. Additionally, it may stop certain operations related to WiFi
* maintenance or display debug messages based on the defined features.
*
* @param shutdown Flag indicating whether the system is in a shutdown state.
*/
void toggleWiFiAP(bool shutdown)
{ {
// Check if WiFi is currently active
if (WiFi.getMode() != WIFI_OFF) if (WiFi.getMode() != WIFI_OFF)
{ {
// Turn off WiFi
WiFi.mode(WIFI_OFF); WiFi.mode(WIFI_OFF);
Serial.println("WiFi turned off"); Debug_pushMessage("WiFi turned off\n");
// Stop WiFi maintenance connection ticker if enabled
#ifdef FEATURE_ENABLE_WIFI_CLIENT #ifdef FEATURE_ENABLE_WIFI_CLIENT
tmrWiFiMaintainConnection.stop(); tmrWiFiMaintainConnection.stop();
#endif #endif
} }
else else
{ {
// Start WiFi in Access Point (AP) mode
WiFi.mode(WIFI_AP); WiFi.mode(WIFI_AP);
WiFi.softAPConfig(IPAddress(WIFI_AP_IP_GW), IPAddress(WIFI_AP_IP_GW), IPAddress(255, 255, 255, 0)); WiFi.softAPConfig(IPAddress(WIFI_AP_IP_GW), IPAddress(WIFI_AP_IP_GW), IPAddress(255, 255, 255, 0));
WiFi.softAP(QUOTE(WIFI_AP_SSID), QUOTE(WIFI_AP_PASSWORD)); WiFi.softAP(globals.DeviceNameId, QUOTE(WIFI_AP_PASSWORD));
// Stop WiFi maintenance connection ticker if enabled and display debug messages
#ifdef FEATURE_ENABLE_WIFI_CLIENT #ifdef FEATURE_ENABLE_WIFI_CLIENT
tmrWiFiMaintainConnection.stop(); tmrWiFiMaintainConnection.stop();
Serial.println("WiFi AP started, stopped Maintain-Timer"); Debug_pushMessage("WiFi AP started, stopped Maintain-Timer\n");
#else #else
Serial.println("WiFi AP started"); Debug_pushMessage("WiFi AP started\n");
#endif #endif
} }
} }
void SystemShutdown() /**
* @brief Performs necessary tasks before shutting down and optionally restarts the ESP.
*
* This function initiates a system shutdown, performing tasks such as storing configuration
* and persistence data to EEPROM before shutting down. If a restart is requested, the ESP
* will be restarted; otherwise, the system will enter an indefinite loop.
*
* @param restart Flag indicating whether to restart the ESP after shutdown (default: false).
*/
void SystemShutdown(bool restart)
{ {
static uint32_t shutdown_delay = 0; static uint32_t shutdown_delay = 0;
// Initialize shutdown delay on the first call
if (shutdown_delay == 0) if (shutdown_delay == 0)
{ {
shutdown_delay = millis() + SHUTDOWN_DELAY_MS; shutdown_delay = millis() + SHUTDOWN_DELAY_MS;
Serial.printf("Shutdown requested - Restarting in %d seconds\n", SHUTDOWN_DELAY_MS / 1000); Serial.printf("Shutdown requested - Restarting in %d seconds\n", SHUTDOWN_DELAY_MS / 1000);
} }
// Check if the shutdown delay has elapsed
if (shutdown_delay < millis()) if (shutdown_delay < millis())
{ {
StoreConfig_EEPROM(); Webserver_Shutdown();
// Store persistence data to EEPROM
StorePersistence_EEPROM(); StorePersistence_EEPROM();
// Perform restart if requested, otherwise enter an indefinite loop
if (restart)
ESP.restart(); ESP.restart();
else
while (1)
;
} }
} }
@@ -602,7 +735,7 @@ void ProcessKeyCombos(bool *btnState)
void maintainSysStat() void maintainSysStat()
{ {
static tSystem_Status lastStat = sysStat_null; static tSystem_Status lastStat = sysStat_Startup;
// system Status Transistions // system Status Transistions
switch (globals.systemStatus) switch (globals.systemStatus)
@@ -618,7 +751,6 @@ void maintainSysStat()
case sysStat_Error: case sysStat_Error:
case sysStat_Normal: case sysStat_Normal:
case sysStat_null:
default: default:
break; break;
} }
@@ -638,7 +770,6 @@ void maintainSysStat()
case sysStat_Error: case sysStat_Error:
case sysStat_Normal: case sysStat_Normal:
case sysStat_null:
default: default:
break; break;
} }

42
Software/src/oled_display.cpp
View File

@@ -1,42 +0,0 @@
#include "oled_display.h"
Adafruit_SSD1306 display(SCREEN_WIDTH, SCREEN_HEIGHT, &Wire, OLED_RST);
void OLED_Init()
{
// reset OLED display via software
pinMode(OLED_RST, OUTPUT);
digitalWrite(OLED_RST, LOW);
delay(20);
digitalWrite(OLED_RST, HIGH);
// initialize OLED
Wire.begin(OLED_SDA, OLED_SCL);
if (!display.begin(SSD1306_SWITCHCAPVCC, 0x3c, false, false))
{ // Address 0x3C for 128x32
Serial.println(F("SSD1306 allocation failed"));
}
display.clearDisplay();
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(0, 0);
display.print("DISPLAY INIT");
display.display();
}
void OLED_Process()
{
display.clearDisplay();
display.setCursor(0, 0);
display.printf("LiPo: %d%%\n", globals.battery_level);
display.print(PersistenceData.activeFaction == FACTION_1 ? "> " : " ");
display.printf("%-5s: %02d:%02d:%02d\n", PersistenceData.faction_1_timer, PersistenceData.faction_1_timer / 3600, (PersistenceData.faction_1_timer / 60) % 60, PersistenceData.faction_1_timer % 60);
display.print(PersistenceData.activeFaction == FACTION_2 ? "> " : " ");
display.printf("%-5s: %02d:%02d:%02d\n", PersistenceData.faction_2_timer, PersistenceData.faction_2_timer / 3600, (PersistenceData.faction_2_timer / 60) % 60, PersistenceData.faction_2_timer % 60);
display.print(PersistenceData.activeFaction == FACTION_3 ? "> " : " ");
display.printf("%-5s: %02d:%02d:%02d\n", PersistenceData.faction_3_timer, PersistenceData.faction_3_timer / 3600, (PersistenceData.faction_3_timer / 60) % 60, PersistenceData.faction_3_timer % 60);
display.display();
}

43
Software/src/struct2json.cpp Normal file
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@@ -0,0 +1,43 @@
/**
* @file struct2json.cpp
*
* @brief Implementation file for converting structs to JSON objects.
*
* @note This file is auto-generated by a script on 2024-05-30 22:54:25.
*
* @author Marcel Peterkau
* @date 30.05.2024
*/
#include "struct2json.h"
void generateJsonObject_ConfigData(JsonObject data)
{
data["EEPROM_Version"] = ConfigData.EEPROM_Version;
data["batteryType"] = ConfigData.batteryType;
data["active_faction_on_reboot"] = ConfigData.active_faction_on_reboot;
data["Faction_1_Name"] = ConfigData.Faction_1_Name;
data["Faction_2_Name"] = ConfigData.Faction_2_Name;
data["Faction_3_Name"] = ConfigData.Faction_3_Name;
data["wifi_ap_ssid"] = ConfigData.wifi_ap_ssid;
data["wifi_ap_password"] = ConfigData.wifi_ap_password;
data["wifi_client_ssid"] = ConfigData.wifi_client_ssid;
data["wifi_client_password"] = ConfigData.wifi_client_password;
data["wifi_autoconnect"] = ConfigData.wifi_autoconnect;
data["checksum"] = ConfigData.checksum;
}
void generateJsonObject_PersistenceData(JsonObject data)
{
data["writeCycleCounter"] = PersistenceData.writeCycleCounter;
data["faction_1_timer"] = PersistenceData.faction_1_timer;
data["faction_2_timer"] = PersistenceData.faction_2_timer;
data["faction_3_timer"] = PersistenceData.faction_3_timer;
data["activeFaction"] = PersistenceData.activeFaction;
data["checksum"] = PersistenceData.checksum;
}
// CODEGENERATOR_CHECKSUM: 735cd4daf9a46bd773bdf5e6cd5a58d61b0d877196399bc2784a0d0ea7af717d

860
Software/src/webui.cpp
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7
Software/wifi_credentials.example.ini
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@@ -1,6 +1,5 @@
[wifi_cred] [wifi_cred]
wifi_ap_ssid = wifi-ap-ssid admin_password = chainlube
wifi_ap_password = wifiappass wifi_ap_password = wifiappass
wifi_ssid = wifi-ssid wifi_ssid_client = wifi-ssid
wifi_password = wifi-pass wifi_password_client = ota-password
admin_password = ota-password