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C3MA:ollo-dev
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pull from: C3MA:ollo-dev
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C3MA:ollo-dev
C3MA:master

12 Commits
master ... ollo-dev

Author SHA1 Message Date
Ollo
bdd65e740d MQTT status 2024-01-13 00:29:30 +01:00
Ollo
0afbc1c508 Mqtt subscribe works 2024-01-13 00:01:49 +01:00
Ollo
3ecafd4534 Mqtt subscribe works 2024-01-12 23:56:31 +01:00
Ollo
1afa8fbe81 MQTT client working outside main loop 2024-01-10 21:44:23 +01:00
Ollo
b4a4cdd1ac Debug print deactivated 2024-01-10 21:43:56 +01:00
Ollo
5930417ae4 MQTT test 2024-01-07 19:18:20 +01:00
Ollo
4b6afda278 Refactored main-function 2024-01-07 16:25:01 +01:00
Ollo
256fdeee47 Merge branch 'master' into ollo-dev 2024-01-07 16:02:09 +01:00
Ollo
c39f944b5a datetime format in URL changed 2024-01-05 22:16:24 +01:00
empirephoenix
76fed4a4de
Merge pull request #4 from lysogeny/master 
Fix inconsistent spacing between lines
 2023-10-13 22:03:20 +02:00
Ada
3951b4e41c Fix inconsistent spacing between lines 2023-10-13 21:14:24 +02:00
Ollo
e4a1788698 Deamon installation described 2023-09-22 22:11:46 +02:00
6 changed files with 266 additions and 66 deletions
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14
README.md
View File

@ -25,3 +25,17 @@ stored in folder **/client**
go to **/client** go to **/client**
* cargo build * cargo build
* cargo run * cargo run
### Deamon
Requires ''systemd''
Install by creating a link to this project
```
/etc/systemd/system# ln -s /home/c3ma/led-board/client/ledBoard.service ledBoard.service
systemctl daemon-reload
systemctl enable ledBoard.service
```
Start deamon with
```
systemctl start ledBoard.service
```

1
client/bin/Cargo.toml
View File

@ -22,3 +22,4 @@ serde_derive = "1.0"
serde_json = "1.0" serde_json = "1.0"
# end of web stuff # end of web stuff
ping = "0.4.1" ping = "0.4.1"
paho-mqtt = "0.12.3"

255
client/bin/src/main.rs
View File

@ -1,10 +1,13 @@
use std::{time::Duration, fmt::format}; use std::{time::Duration, fmt::format};
use std::sync::{RwLock, Mutex, Arc};
use openssl::string;
use paho_mqtt;
use str; use str;
use bit::BitIndex; use bit::BitIndex;
use chrono_tz::Europe::Berlin; use chrono_tz::Europe::Berlin;
use chrono::{DateTime, NaiveDateTime, Utc, Timelike}; use chrono::{DateTime, NaiveDateTime, Utc, Timelike};
use std::time::{SystemTime, UNIX_EPOCH}; use std::time::{SystemTime, UNIX_EPOCH};
use openweathermap::forecast::Weather; use openweathermap::{forecast::Weather, Receiver};
use substring::Substring; use substring::Substring;
use tinybmp::Bmp; use tinybmp::Bmp;
use core::time; use core::time;
@ -20,7 +23,6 @@ use std::net::UdpSocket;
use std::{env, thread}; use std::{env, thread};
use std::io; use std::io;
use std::process::ExitCode; use std::process::ExitCode;
use openweathermap::forecast::Forecast; use openweathermap::forecast::Forecast;
use straba::NextDeparture; use straba::NextDeparture;
// This declaration will look for a file named `straba.rs` and will // This declaration will look for a file named `straba.rs` and will
@ -243,6 +245,13 @@ fn render_clock(display: &mut UdpDisplay){
.unwrap(); .unwrap();
} }
fn render_mqtt_message(display: &mut UdpDisplay, mqtt_message: String){
let text_style = MonoTextStyle::new(&FONT_6X10, BinaryColor::On);
Text::new(&mqtt_message, Point::new((1) as i32, 37), text_style)
.draw(display)
.unwrap();
}
fn render_strab_partial(display: &mut UdpDisplay, station: &String, diff: i64, height: i32) { fn render_strab_partial(display: &mut UdpDisplay, station: &String, diff: i64, height: i32) {
let text_style = MonoTextStyle::new(&FONT_6X10, BinaryColor::On); let text_style = MonoTextStyle::new(&FONT_6X10, BinaryColor::On);
let mut diff_str = format!("{}min", (diff / 60)); let mut diff_str = format!("{}min", (diff / 60));
@ -276,13 +285,43 @@ fn render_strab_partial(display: &mut UdpDisplay, station: &String, diff: i64, h
} }
fn render_strab(display: &mut UdpDisplay, straba_res: &NextDeparture) { fn render_strab(display: &mut UdpDisplay, straba_res: &NextDeparture) {
render_strab_partial(display, &straba_res.outbound_station, straba_res.outbound_diff, 15); render_strab_partial(display, &straba_res.outbound_station, straba_res.outbound_diff, 17);
render_strab_partial(display, &straba_res.inbound_station, straba_res.inbound_diff, 25); render_strab_partial(display, &straba_res.inbound_station, straba_res.inbound_diff, 27);
}
// The type we'll use to keep our dynamic list of topics inside the
// MQTT client. Since we want to update it after creating the client,
// we need to wrap the data in a lock, like a Mutex or RwLock.
type UserTopics = RwLock<Vec<String>>;
/////////////////////////////////////////////////////////////////////////////
// Callback for a successful connection to the broker.
// We subscribe to the topic(s) we want here.
fn mqtt_on_connect_success(cli: &paho_mqtt::AsyncClient, _msgid: u16) {
println!("MQTT | Connection succeeded");
// Subscribe to the desired topic(s).
cli.subscribe("room/ledboard", paho_mqtt::QOS_0);
}
// Callback for a failed attempt to connect to the server.
// We simply sleep and then try again.
//
// Note that normally we don't want to do a blocking operation or sleep
// from within a callback. But in this case, we know that the client is
// *not* conected, and thus not doing anything important. So we don't worry
// too much about stopping its callback thread.
fn mqtt_on_connect_failure(cli: &paho_mqtt::AsyncClient, _msgid: u16, rc: i32) {
println!("MQTT | Connection attempt failed with error code {}.\n", rc);
thread::sleep(Duration::from_millis(2500));
cli.reconnect_with_callbacks(mqtt_on_connect_success, mqtt_on_connect_failure);
} }
fn send_package(ipaddress: String, fn send_package(ipaddress: String,
data: &Option<Result<Forecast, String>>, data: &Option<Result<Forecast, String>>,
straba_res: &NextDeparture) { straba_res: &NextDeparture,
mqtt_message: Option<String>) {
let mut package: [u8; PACKAGE_LENGTH] = [0; PACKAGE_LENGTH]; let mut package: [u8; PACKAGE_LENGTH] = [0; PACKAGE_LENGTH];
// Brightness // Brightness
@ -300,6 +339,10 @@ fn send_package(ipaddress: String,
render_strab(&mut display, straba_res); render_strab(&mut display, straba_res);
} }
if mqtt_message.is_some() {
render_mqtt_message(&mut display, mqtt_message.unwrap());
}
render_clock(&mut display); render_clock(&mut display);
@ -318,6 +361,8 @@ LEDboardClient <ip address>"
); );
println!("one argument necessary!"); println!("one argument necessary!");
println!("<ip address>"); println!("<ip address>");
println!("second argument is optional:");
println!("<ip of mqtt server>");
} }
fn check_connection(ipaddress: String) -> bool { fn check_connection(ipaddress: String) -> bool {
@ -348,6 +393,143 @@ fn check_connection(ipaddress: String) -> bool {
return device_online; return device_online;
} }
struct Message {
string: Option<String>
}
fn main_function(ipaddress: String, mqtt: Option<String>) -> ExitCode {
let mut device_online = check_connection(ipaddress.clone());
if !device_online {
println!("{:} not online", &ipaddress);
return ExitCode::FAILURE;
}
let mut mqtt_client: Option<paho_mqtt::AsyncClient> = None;
let mut mqtt_message: Arc<Mutex<Message>> = Arc::new(Mutex::new(Message{ string: None }));
if mqtt.is_some() {
let mqtt_ip: String = mqtt.clone().unwrap();
// Define the set of options for the create.
// Use an ID for a persistent session.
let create_opts = paho_mqtt::CreateOptionsBuilder::new()
.server_uri(mqtt_ip.clone())
.client_id("ledboard")
.finalize();
// Create a client.
let local_mqtt = paho_mqtt::AsyncClient::new(create_opts).unwrap();
println!("MQTT | Connecting to {:} MQTT server...", mqtt_ip);
// Define the set of options for the connection.
let conn_opts = paho_mqtt::ConnectOptionsBuilder::new()
.keep_alive_interval(Duration::from_secs(20))
.clean_session(true)
.finalize();
// Set a closure to be called whenever the client connection is established.
local_mqtt.set_connected_callback(|_cli: &paho_mqtt::AsyncClient| {
println!("Connected.");
});
// Set a closure to be called whenever the client loses the connection.
// It will attempt to reconnect, and set up function callbacks to keep
// retrying until the connection is re-established.
local_mqtt.set_connection_lost_callback(|cli: &paho_mqtt::AsyncClient| {
println!("Connection lost. Attempting reconnect.");
thread::sleep(Duration::from_millis(2500));
cli.reconnect_with_callbacks(mqtt_on_connect_success, mqtt_on_connect_failure);
});
// Attach a closure to the client to receive callback
// on incoming messages.
let mqtt_message_for_callback = mqtt_message.clone();
local_mqtt.set_message_callback(move |cli, msg| {
if let Some(msg) = msg {
let topic = msg.topic();
let payload_str = msg.payload_str();
//println!("MQTT | {} - {}", topic, payload_str);
let mut lock = mqtt_message_for_callback.lock().unwrap();
lock.string = Some(payload_str.to_string())
}
});
// Define the set of options for the connection
let lwt = paho_mqtt::Message::new("room/ledboard/lwt", "lost connection", 1);
// The connect options. Defaults to an MQTT v3.x connection.
let conn_opts = paho_mqtt::ConnectOptionsBuilder::new()
.keep_alive_interval(Duration::from_secs(20))
.will_message(lwt)
.finalize();
// Make the connection to the broker
println!("MQTT | Connecting to the MQTT server...");
local_mqtt.connect_with_callbacks(conn_opts, mqtt_on_connect_success, mqtt_on_connect_failure);
// move local instance to global scope
mqtt_client = Some(local_mqtt);
}
let receiver = openweathermap::init_forecast("Mannheim",
"metric",
"de",
"978882ab9dd05e7122ff2b0aef2d3e55",
60,1);
let mut last_data = Option::None;
// Test Webcrawler for public transportataion
let mut straba_res = straba::fetch_data(Some(true));
println!("{:?} {:?}s", straba_res.outbound_station, straba_res.outbound_diff);
println!("{:?} {:?}s", straba_res.inbound_station , straba_res.inbound_diff);
// Render start
send_package(ipaddress.clone(), &last_data, &straba_res, Some("MQTT: room/ledboard".to_string()));
loop {
let st_now = SystemTime::now();
let seconds = st_now.duration_since(UNIX_EPOCH).unwrap().as_secs();
let delay = time::Duration::from_millis(500);
thread::sleep(delay);
// Only request, if the device is present
if device_online == true {
let answer = openweathermap::update_forecast(&receiver);
match answer {
Some(_) => {
last_data = answer;
}
None => {
}
}
}
if (straba_res.request_time + 50) < seconds as i64 {
device_online = check_connection(ipaddress.clone());
// request once a minute new data
if device_online == true {
straba_res = straba::fetch_data(None);
println!("Update {:?} {:?}s", straba_res.outbound_station, straba_res.outbound_diff);
println!("Update {:?} {:?}s", straba_res.inbound_station , straba_res.inbound_diff);
}
}
let lock = mqtt_message.lock().unwrap();
let mqtt_message: Option<String>;
if lock.string.is_some() {
mqtt_message = lock.string.clone();
} else {
mqtt_message = None;
}
if device_online == true {
// Render new image
send_package(ipaddress.clone(), &last_data, &straba_res, mqtt_message);
}
// Handle MQTT messages
}
}
fn main() -> ExitCode { fn main() -> ExitCode {
let args: Vec<String> = env::args().collect(); let args: Vec<String> = env::args().collect();
match args.len() { match args.len() {
@ -360,62 +542,13 @@ fn main() -> ExitCode {
// one argument passed // one argument passed
2 => { 2 => {
let ip = &args[1]; let ip = &args[1];
return main_function(ip.to_string(), None);
}
let mut device_online = check_connection(ip.to_string()); // two argument passed
if !device_online { 3 => {
println!("{} not online", ip); let ip = &args[1];
return ExitCode::FAILURE; let mqtt = &args[2];
} return main_function(ip.to_string(), Some(mqtt.to_string()));
let receiver = openweathermap::init_forecast("Mannheim",
"metric",
"de",
"978882ab9dd05e7122ff2b0aef2d3e55",
60,1);
let mut last_data = Option::None;
// Test Webcrawler for public transportataion
let mut straba_res = straba::fetch_data(Some(true));
println!("{:?} {:?}s", straba_res.outbound_station, straba_res.outbound_diff);
println!("{:?} {:?}s", straba_res.inbound_station , straba_res.inbound_diff);
// Render start
send_package(ip.to_string(), &last_data, &straba_res);
loop {
let st_now = SystemTime::now();
let seconds = st_now.duration_since(UNIX_EPOCH).unwrap().as_secs();
let delay = time::Duration::from_millis(500);
thread::sleep(delay);
// Only request, if the device is present
if device_online == true {
let answer = openweathermap::update_forecast(&receiver);
match answer {
Some(_) => {
last_data = answer;
}
None => {
}
}
}
if (straba_res.request_time + 50) < seconds as i64 {
device_online = check_connection(ip.to_string());
// request once a minute new data
if device_online == true {
straba_res = straba::fetch_data(None);
println!("Update {:?} {:?}s", straba_res.outbound_station, straba_res.outbound_diff);
println!("Update {:?} {:?}s", straba_res.inbound_station , straba_res.inbound_diff);
}
}
if device_online == true {
// Render new image
send_package(ip.to_string(), &last_data, &straba_res);
}
}
} }
// all the other cases // all the other cases
_ => { _ => {

33
client/bin/src/straba.rs
View File

@ -1,6 +1,6 @@
use chrono::DateTime; use chrono::DateTime;
use std::time::{SystemTime, UNIX_EPOCH}; use std::time::{SystemTime, UNIX_EPOCH};
use chrono::Local;
use serde::Deserialize; use serde::Deserialize;
const STATION_URL:&str = "https://www.rnv-online.de/rest/departure/2494"; const STATION_URL:&str = "https://www.rnv-online.de/rest/departure/2494";
@ -79,10 +79,11 @@ pub struct NextDeparture {
} }
pub fn fetch_data(debug_print : Option<bool>) -> NextDeparture { pub fn fetch_data(debug_print : Option<bool>) -> NextDeparture {
let date = Local::now();
let st_now = SystemTime::now(); let st_now = SystemTime::now();
let seconds = st_now.duration_since(UNIX_EPOCH).unwrap().as_secs(); let seconds = st_now.duration_since(UNIX_EPOCH).unwrap().as_secs();
let url = &format!("{}?datetime={}", STATION_URL, seconds); let timeString = date.format("%Y-%m-%d %H:%M:%S");
let url = &format!("{}?datetime={}", STATION_URL, timeString);
let result = reqwest::blocking::get(url); let result = reqwest::blocking::get(url);
let mut return_value = NextDeparture { let mut return_value = NextDeparture {
@ -118,11 +119,25 @@ pub fn fetch_data(debug_print : Option<bool>) -> NextDeparture {
return return_value; return return_value;
} }
if debug_print.is_some() && debug_print.unwrap() == true {
println!("----------- Seconds {:} {:} requesting ... -----------", seconds, timeString);
}
// parse JSON result.. search of both directions // parse JSON result.. search of both directions
let json = body.unwrap(); let json = body.unwrap();
if debug_print.is_some() && debug_print.unwrap() == true {
println!("Requesting {:}", json.graph_ql.response.name);
println!("Elements {:}", json.graph_ql.response.journeys.elements.len() );
//println!("------------------------- %< ----------------------------");
//println!("{}", &raw_text);
//println!("------------------------- %< ----------------------------");
}
for el in json.graph_ql.response.journeys.elements { for el in json.graph_ql.response.journeys.elements {
if debug_print.is_some() && debug_print.unwrap() == true { if debug_print.is_some() && debug_print.unwrap() == true {
println!("Line {:}", el.line.line_group.label); println!("Requesting {:}", json.graph_ql.response.name);
println!("Line {:}", el.line.line_group.label);
} }
for stop in el.stops { for stop in el.stops {
// use only valid data // use only valid data
@ -140,6 +155,8 @@ pub fn fetch_data(debug_print : Option<bool>) -> NextDeparture {
if diff < return_value.outbound_diff { if diff < return_value.outbound_diff {
return_value.outbound_station = stop.destination_label; return_value.outbound_station = stop.destination_label;
return_value.outbound_diff = diff; return_value.outbound_diff = diff;
} else if debug_print.is_some() && debug_print.unwrap() == true {
println!("Unkown diff Stop {:} {:} (in {:} seconds)", stop.destination_label, txt_departure, diff );
} }
} else if stop.destination_label.contains("Hochschule") || } else if stop.destination_label.contains("Hochschule") ||
stop.destination_label.contains("Hauptbahnhof") || stop.destination_label.contains("Hauptbahnhof") ||
@ -147,13 +164,19 @@ pub fn fetch_data(debug_print : Option<bool>) -> NextDeparture {
if diff < return_value.inbound_diff { if diff < return_value.inbound_diff {
return_value.inbound_station = stop.destination_label; return_value.inbound_station = stop.destination_label;
return_value.inbound_diff = diff; return_value.inbound_diff = diff;
} else if debug_print.is_some() && debug_print.unwrap() == true {
println!("Unkown diff Stop {:} {:} (in {:} seconds)", stop.destination_label, txt_departure, diff );
} }
} else if debug_print.is_some() && debug_print.unwrap() == true {
println!("Unkown Stop {:} {:} (in {:} seconds)", stop.destination_label, txt_departure, diff );
} }
} else { } else {
println!("Planned {:} {:?}", stop.destination_label, stop.planned_departure.iso_string) println!("Planned {:} {:?}", stop.destination_label, stop.planned_departure.iso_string)
} }
} }
} }
if debug_print.is_some() && debug_print.unwrap() == true {
println!("----------- end of straba.rs -----------");
}
return_value return_value
} }

17
client/ledBoard.service Normal file
View File

@ -0,0 +1,17 @@
[Unit]
Description=Log uptime in scoreboard
DefaultDependencies=no
[Service]
Type=simple
Restart=on-failure
User=c3ma
# Specify users home as working directory
WorkingDirectory=/home/c3ma/
# Define wrapper to update and start project
ExecStart=/usr/bin/bash <project home>/client/ledboard.sh
TimeoutStartSec=0
[Install]
WantedBy=network.target

12
client/ledboard.sh Executable file
View File

@ -0,0 +1,12 @@
#!/bin/bash
# Wrapper script to update project and build project
#
#Set target IP address
IP=
# Path to this project
HOSTCLIENT=
cd $HOSTCLIENT
/usr/bin/pkill LEDboardClient
git pull
cargo build
$HOSTCLIENT/target/debug/LEDboardClient $IP