feat: arbitrary sources, background worker

implemented a reliable sqlite storage, a way to
save and load values, a native-only
background worker to fetch data and update values
This commit is contained in:
əlemi 2022-06-07 00:05:45 +02:00
parent 78c7982911
commit a4e26d1533
8 changed files with 439 additions and 237 deletions

View file

@ -13,20 +13,18 @@ path = "src/main.rs"
crate-type = ["cdylib", "rlib"] crate-type = ["cdylib", "rlib"]
[dependencies] [dependencies]
dirs = "4"
rand = "0.8" rand = "0.8"
chrono = { version = "0.4", features = ["wasmbind"] } chrono = { version = "0.4", features = ["wasmbind"] }
eframe = { version = "0.18", features = ["persistence"] } eframe = { version = "0.18", features = ["persistence"] }
serde = { version = "1", features = ["derive"] } serde = { version = "1", features = ["derive"] }
serde_json = "1" serde_json = "1"
jq-rs = "0.4"
rusqlite = { version = "0.27" }
ehttp = "0.2.0"
reqwest = { version = "0.11", features = ["json"] }
# native only dependancies: # native only dependancies:
[target.'cfg(not(target_arch = "wasm32"))'.dependencies] [target.'cfg(not(target_arch = "wasm32"))'.dependencies]
tokio = { version = "1", features = ["full"] } # TODO do we need full features? dirs = "4"
rusqlite = { version = "0.27" }
jq-rs = "0.4"
ureq = { version = "2", features = ["json"] }
# web only dependancies: # web only dependancies:
[target.'cfg(target_arch = "wasm32")'.dependencies] [target.'cfg(target_arch = "wasm32")'.dependencies]

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@ -1,21 +1,29 @@
pub mod source; // pub mod source;
pub mod store; pub mod store;
use std::sync::{Arc, Mutex}; use std::path::PathBuf;
use std::sync::{RwLock, Mutex, Arc};
use std::num::ParseFloatError; use std::num::ParseFloatError;
use chrono::{DateTime, Utc}; use chrono::{DateTime, Utc};
use eframe::egui::plot::{Values, Value}; use eframe::egui::plot::{Values, Value};
use self::store::SQLiteDataStore;
#[derive(Debug)] #[derive(Debug)]
pub enum FetchError { pub enum FetchError {
ReqwestError(reqwest::Error), UreqError(ureq::Error),
IoError(std::io::Error),
JqError(jq_rs::Error), JqError(jq_rs::Error),
RusqliteError(rusqlite::Error), RusqliteError(rusqlite::Error),
ParseFloatError(ParseFloatError), ParseFloatError(ParseFloatError),
NoPanelWithThatIdError,
} }
impl From::<reqwest::Error> for FetchError { impl From::<ureq::Error> for FetchError {
fn from(e: reqwest::Error) -> Self { FetchError::ReqwestError(e) } fn from(e: ureq::Error) -> Self { FetchError::UreqError(e) }
}
impl From::<std::io::Error> for FetchError {
fn from(e: std::io::Error) -> Self { FetchError::IoError(e) }
} }
impl From::<jq_rs::Error> for FetchError { impl From::<jq_rs::Error> for FetchError {
fn from(e: jq_rs::Error) -> Self { FetchError::JqError(e) } fn from(e: jq_rs::Error) -> Self { FetchError::JqError(e) }
@ -27,16 +35,54 @@ impl From::<rusqlite::Error> for FetchError {
fn from(e: rusqlite::Error) -> Self { FetchError::RusqliteError(e) } fn from(e: rusqlite::Error) -> Self { FetchError::RusqliteError(e) }
} }
pub struct ApplicationState {
pub run: bool,
pub panels: RwLock<Vec<Panel>>,
pub storage: Mutex<SQLiteDataStore>,
}
impl ApplicationState {
pub fn new(path:PathBuf) -> Self {
let storage = SQLiteDataStore::new(path).unwrap();
let panels = storage.load_panels().unwrap();
return ApplicationState{
run: true,
panels: RwLock::new(panels),
storage: Mutex::new(storage),
};
}
pub fn add_panel(&self, name:&str) -> Result<(), FetchError> {
let panel = self.storage.lock().unwrap().new_panel(name, 100, 200, 280)?; // TODO make values customizable and useful
self.panels.write().unwrap().push(panel);
Ok(())
}
pub fn add_source(&self, panel_id:i32, name:&str, url:&str, query_x:&str, query_y:&str) -> Result<(), FetchError> {
let source = self.storage.lock().unwrap().new_source(panel_id, name, url, query_x, query_y)?;
let panels = self.panels.read().unwrap();
for panel in &*panels {
if panel.id == panel_id {
panel.sources.write().unwrap().push(source);
return Ok(());
}
}
Err(FetchError::NoPanelWithThatIdError)
}
}
pub struct Panel { pub struct Panel {
pub(crate) id: i32, pub(crate) id: i32,
pub name: String, pub name: String,
pub view_scroll: bool, pub view_scroll: bool,
pub view_size: i32, pub view_size: i32,
pub timeserie: bool,
pub(crate) width: i32, pub(crate) width: i32,
pub(crate) height: i32, pub(crate) height: i32,
pub(crate) sources: Mutex<Vec<Source>>, pub(crate) sources: RwLock<Vec<Source>>,
} }
impl Panel { impl Panel {
@ -47,29 +93,36 @@ pub struct Source {
pub name: String, pub name: String,
pub url: String, pub url: String,
pub interval: i32, pub interval: i32,
pub(crate) last_fetch: DateTime<Utc>, pub(crate) last_fetch: RwLock<DateTime<Utc>>,
pub query_x: String, pub query_x: String,
// pub(crate) compiled_query_x: Arc<Mutex<jq_rs::JqProgram>>, // pub(crate) compiled_query_x: Arc<Mutex<jq_rs::JqProgram>>,
pub query_y: String, pub query_y: String,
// pub(crate) compiled_query_y: Arc<Mutex<jq_rs::JqProgram>>, // pub(crate) compiled_query_y: Arc<Mutex<jq_rs::JqProgram>>,
pub(crate) panel_id: i32, pub(crate) panel_id: i32,
pub(crate) data: Mutex<Vec<Value>>, pub(crate) data: RwLock<Vec<Value>>,
} }
impl Source { impl Source {
pub fn valid(&self) -> bool { pub fn valid(&self) -> bool {
return (Utc::now() - self.last_fetch).num_seconds() < self.interval as i64; let last_fetch = self.last_fetch.read().unwrap();
return (Utc::now() - *last_fetch).num_seconds() < self.interval as i64;
} }
pub fn values(&self) -> Values { pub fn values(&self) -> Values {
Values::from_values(self.data.lock().unwrap().clone()) Values::from_values(self.data.read().unwrap().clone())
} }
pub async fn fetch(&self) -> Result<Value, FetchError> { }
let res = reqwest::get(&self.url).await?;
let body = res.text().await?; pub fn fetch(url:&str, query_x:&str, query_y:&str) -> Result<Value, FetchError> {
let x = jq_rs::compile(&self.query_x)?.run(&body)?.parse::<f64>()?; let res = ureq::get(url).call()?;
let y = jq_rs::compile(&self.query_y)?.run(&body)?.parse::<f64>()?; let body = res.into_string()?;
return Ok( Value { x, y } ); let x : f64;
if query_x.len() > 0 {
x = jq_rs::compile(query_x)?.run(&body)?.trim().parse::<f64>()?; // TODO precompile and guard with a mutex
} else {
x = Utc::now().timestamp() as f64;
} }
let y = jq_rs::compile(query_y)?.run(&body)?.trim().parse::<f64>()?;
return Ok( Value { x, y } );
} }

View file

@ -1,30 +1,30 @@
use std::sync::{Arc, Mutex};
use chrono::{DateTime, TimeZone, NaiveDateTime, Utc};
use rusqlite::{Connection, params};
use eframe::egui::plot::Value;
use crate::app::data::{Panel, Source}; use crate::app::data::{Panel, Source};
use chrono::{DateTime, NaiveDateTime, TimeZone, Utc};
use eframe::egui::plot::Value;
use rusqlite::{params, Connection};
use std::sync::{Arc, RwLock};
use super::FetchError; use super::FetchError;
pub trait DataStorage { pub trait DataStorage {
fn add_panel(&self, name:&str); fn add_panel(&self, name: &str);
} }
pub struct SQLiteDataStore { pub struct SQLiteDataStore {
conn: Connection, conn: Connection,
pub(crate) panels: Mutex<Vec<Panel>>,
} }
impl SQLiteDataStore { impl SQLiteDataStore {
pub fn new(path: std::path::PathBuf) -> Result<Self, rusqlite::Error> { pub fn new(path: std::path::PathBuf) -> Result<Self, rusqlite::Error> {
let conn = Connection::open(path)?; let conn = Connection::open(path)?;
conn.execute( conn.execute(
"CREATE TABLE IF NOT EXISTS panels ( "CREATE TABLE IF NOT EXISTS panels (
id INTEGER PRIMARY KEY, id INTEGER PRIMARY KEY,
name TEXT UNIQUE, name TEXT UNIQUE,
view_scroll BOOL, view_scroll BOOL,
view_size INT, view_size INT,
timeserie BOOL,
width INT, width INT,
height INT height INT
);", );",
@ -34,7 +34,7 @@ impl SQLiteDataStore {
conn.execute( conn.execute(
"CREATE TABLE IF NOT EXISTS sources ( "CREATE TABLE IF NOT EXISTS sources (
id INTEGER PRIMARY KEY, id INTEGER PRIMARY KEY,
name TEXT UNIQUE, name TEXT,
url TEXT, url TEXT,
interval INT, interval INT,
query_x TEXT, query_x TEXT,
@ -55,21 +55,21 @@ impl SQLiteDataStore {
[], [],
)?; )?;
let mut store = SQLiteDataStore { Ok(SQLiteDataStore { conn })
conn,
panels: Mutex::new(Vec::new()),
};
store.load_panels()?;
return Ok(store);
} }
fn load_values(&self, panel_id:i32, source_id:i32) -> rusqlite::Result<Vec<Value>> {
let mut values : Vec<Value> = Vec::new();
let mut statement = self.conn.prepare("SELECT x, y FROM points WHERE panel_id = ? AND source_id = ?")?; pub fn load_values(&self, panel_id: i32, source_id: i32) -> rusqlite::Result<Vec<Value>> {
let mut values: Vec<Value> = Vec::new();
let mut statement = self
.conn
.prepare("SELECT x, y FROM points WHERE panel_id = ? AND source_id = ?")?;
let values_iter = statement.query_map(params![panel_id, source_id], |row| { let values_iter = statement.query_map(params![panel_id, source_id], |row| {
Ok(Value{ x: row.get(0)?, y: row.get(1)? }) Ok(Value {
x: row.get(0)?,
y: row.get(1)?,
})
})?; })?;
for value in values_iter { for value in values_iter {
@ -81,35 +81,39 @@ impl SQLiteDataStore {
Ok(values) Ok(values)
} }
fn put_value(&self, panel_id:i32, source_id:i32, v:Value) -> rusqlite::Result<usize> { pub fn put_value(&self, panel_id: i32, source_id: i32, v: Value) -> rusqlite::Result<usize> {
self.conn.execute( self.conn.execute(
"INSERT INTO points(panel_id, source_id, x, y) VALUES (?, ?, ?, ?)", "INSERT INTO points(panel_id, source_id, x, y) VALUES (?, ?, ?, ?)",
params![panel_id, source_id, v.x, v.y], params![panel_id, source_id, v.x, v.y],
) )
} }
fn load_sources(&self, panel_id:i32) -> rusqlite::Result<Vec<Source>> {
let mut sources : Vec<Source> = Vec::new();
let mut statement = self.conn.prepare("SELECT * FROM sources WHERE panel_id = ?")?; pub fn load_sources(&self, panel_id: i32) -> rusqlite::Result<Vec<Source>> {
let mut sources: Vec<Source> = Vec::new();
let mut statement = self
.conn
.prepare("SELECT * FROM sources WHERE panel_id = ?")?;
let sources_iter = statement.query_map(params![panel_id], |row| { let sources_iter = statement.query_map(params![panel_id], |row| {
Ok(Source{ Ok(Source {
id: row.get(0)?, id: row.get(0)?,
name: row.get(1)?, name: row.get(1)?,
url: row.get(2)?, url: row.get(2)?,
interval: row.get(3)?, interval: row.get(3)?,
last_fetch: Utc.ymd(1970, 1, 1).and_hms(0, 0, 0), last_fetch: RwLock::new(Utc.ymd(1970, 1, 1).and_hms(0, 0, 0)),
query_x: row.get(4)?, query_x: row.get(4)?,
// compiled_query_x: Arc::new(Mutex::new(jq_rs::compile(row.get::<usize, String>(4)?.as_str()).unwrap())), // compiled_query_x: Arc::new(Mutex::new(jq_rs::compile(row.get::<usize, String>(4)?.as_str()).unwrap())),
query_y: row.get(5)?, query_y: row.get(5)?,
// compiled_query_y: Arc::new(Mutex::new(jq_rs::compile(row.get::<usize, String>(5)?.as_str()).unwrap())), // compiled_query_y: Arc::new(Mutex::new(jq_rs::compile(row.get::<usize, String>(5)?.as_str()).unwrap())),
panel_id: row.get(6)?, panel_id: row.get(6)?,
data: Mutex::new(Vec::new()), data: RwLock::new(Vec::new()),
}) })
})?; })?;
for source in sources_iter { for source in sources_iter {
if let Ok(mut s) = source { if let Ok(mut s) = source {
s.data = Mutex::new(self.load_values(panel_id, s.id)?); s.data = RwLock::new(self.load_values(panel_id, s.id)?);
sources.push(s); sources.push(s);
} }
} }
@ -117,58 +121,33 @@ impl SQLiteDataStore {
Ok(sources) Ok(sources)
} }
fn put_source(&self, panel_id:i32, s:Source) -> rusqlite::Result<usize> {
self.conn.execute(
"INSERT INTO sources(id, name, url, interval, query_x, query_y, panel_id) VALUES (?, ?, ?, ?, ?, ?, ?)",
params![s.id, s.name, s.url, s.interval, s.query_x, s.query_y, panel_id],
)
}
fn load_panels(&self) -> rusqlite::Result<Vec<Panel>> {
let mut panels : Vec<Panel> = Vec::new();
let mut statement = self.conn.prepare("SELECT * FROM panels")?;
let panels_iter = statement.query_map([], |row| {
Ok(Panel{
id: row.get(0)?,
name: row.get(1)?,
view_scroll: row.get(2)?,
view_size: row.get(3)?,
width: row.get(4)?,
height: row.get(5)?,
sources: Mutex::new(Vec::new()),
})
})?;
for panel in panels_iter {
if let Ok(mut p) = panel {
p.sources = Mutex::new(self.load_sources(p.id)?);
panels.push(p);
}
}
Ok(panels)
}
fn put_panel(&self, name:&str, view_scroll:bool, view_size:i32, width:i32, height:i32) -> rusqlite::Result<usize> {
self.conn.execute(
"INSERT INTO panels (name, view_scroll, view_size, width, height) VALUES (?, ?, ?, ?, ?)",
params![name, view_scroll, view_size, width, height]
)
}
// jank! TODO make it not jank! // jank! TODO make it not jank!
fn new_panel(&self, name:&str) -> rusqlite::Result<Panel> { pub fn new_source(
self.put_panel(name, true, 100, 400, 280)?; &self,
let mut statement = self.conn.prepare("SELECT * FROM panels WHERE name = ?")?; panel_id: i32,
for panel in statement.query_map(params![name], |row| { name: &str,
Ok(Panel{ url: &str,
query_x: &str,
query_y: &str,
) -> rusqlite::Result<Source> {
self.conn.execute(
"INSERT INTO sources(name, url, interval, query_x, query_y, panel_id) VALUES (?, ?, ?, ?, ?, ?)",
params![name, url, 60, query_x, query_y, panel_id],
)?;
let mut statement = self
.conn
.prepare("SELECT * FROM sources WHERE name = ? AND panel_id = ?")?;
for panel in statement.query_map(params![name, panel_id], |row| {
Ok(Source {
id: row.get(0)?, id: row.get(0)?,
name: row.get(1)?, name: row.get(1)?,
view_scroll: row.get(2)?, url: row.get(2)?,
view_size: row.get(3)?, interval: row.get(3)?,
width: row.get(4)?, query_x: row.get(4)?,
height: row.get(5)?, query_y: row.get(5)?,
sources: Mutex::new(Vec::new()), panel_id: row.get(6)?,
last_fetch: RwLock::new(Utc.ymd(1970, 1, 1).and_hms(0, 0, 0)),
data: RwLock::new(Vec::new()),
}) })
})? { })? {
if let Ok(p) = panel { if let Ok(p) = panel {
@ -181,27 +160,99 @@ impl SQLiteDataStore {
Err(rusqlite::Error::QueryReturnedNoRows) Err(rusqlite::Error::QueryReturnedNoRows)
} }
pub async fn fetch_all(&self) -> Result<(), FetchError> { pub fn update_source(
let panels = &*self.panels.lock().unwrap(); &self,
for i in 0..panels.len() { source_id: i32,
let sources = &*panels[i].sources.lock().unwrap(); name: &str,
for j in 0..sources.len() { url: &str,
if !sources[j].valid() { interval: i32,
let v = sources[j].fetch().await?; query_x: &str,
self.put_value(panels[i].id, sources[j].id, v)?; query_y: &str,
sources[j].data.lock().unwrap().push(v); ) -> rusqlite::Result<usize> {
} self.conn.execute(
"UPDATE sources SET name = ?, url = ?, interval = ?, query_x = ?, query_y = ? WHERE id = ?",
params![name, url, interval, query_x, query_y, source_id],
)
}
pub fn delete_source(&self, id:i32) -> rusqlite::Result<usize> {
self.conn.execute("DELETE FROM sources WHERE id = ?", params![id])
}
pub fn load_panels(&self) -> rusqlite::Result<Vec<Panel>> {
let mut panels: Vec<Panel> = Vec::new();
let mut statement = self.conn.prepare("SELECT * FROM panels")?;
let panels_iter = statement.query_map([], |row| {
Ok(Panel {
id: row.get(0)?,
name: row.get(1)?,
view_scroll: row.get(2)?,
view_size: row.get(3)?,
timeserie: row.get(4)?,
width: row.get(5)?,
height: row.get(6)?,
sources: RwLock::new(Vec::new()),
})
})?;
for panel in panels_iter {
if let Ok(mut p) = panel {
p.sources = RwLock::new(self.load_sources(p.id)?);
panels.push(p);
} }
} }
Ok(()) Ok(panels)
} }
// jank! TODO make it not jank!
pub fn new_panel(&self, name: &str, view_size:i32, width: i32, height: i32) -> rusqlite::Result<Panel> {
self.conn.execute(
"INSERT INTO panels (name, view_scroll, view_size, timeserie, width, height) VALUES (?, ?, ?, ?, ?, ?)",
params![name, true, view_size, true, width, height]
)?;
let mut statement = self.conn.prepare("SELECT * FROM panels WHERE name = ?")?;
for panel in statement.query_map(params![name], |row| {
Ok(Panel {
id: row.get(0)?,
name: row.get(1)?,
view_scroll: row.get(2)?,
view_size: row.get(3)?,
timeserie: row.get(4)?,
width: row.get(5)?,
height: row.get(6)?,
sources: RwLock::new(Vec::new()),
})
})? {
if let Ok(p) = panel {
return Ok(p);
}
}
Err(rusqlite::Error::QueryReturnedNoRows)
}
pub fn update_panel(
&self,
id: i32,
name: &str,
view_scroll: bool,
view_size: i32,
timeserie: bool,
width: i32,
height: i32,
) -> rusqlite::Result<usize> {
self.conn.execute(
"UPDATE panels SET name = ?, view_scroll = ?, view_size = ?, timeserie = ?, width = ?, height = ? WHERE id = ?",
params![name, view_scroll, view_size, timeserie, width, height, id],
)
}
pub fn delete_panel(&self, id:i32) -> rusqlite::Result<usize> {
self.conn.execute("DELETE FROM panels WHERE id = ?", params![id])
}
} }
impl DataStorage for SQLiteDataStore {
fn add_panel(&self, name:&str) {
let panel = self.new_panel(name).unwrap();
self.panels.lock().unwrap().push(panel);
}
}

View file

@ -1,32 +1,47 @@
pub mod data; pub mod data;
pub mod worker;
use std::sync::{Arc, Mutex}; use std::sync::Arc;
use chrono::{DateTime, NaiveDateTime, Utc}; use chrono::{DateTime, NaiveDateTime, Utc};
use data::source::{ChatData, PlayerCountData, TpsData, Data, native_save};
use eframe::egui; use eframe::egui;
use eframe::egui::plot::{Line, Plot, Values}; use eframe::egui::{plot::{Line, Plot}};
use crate::app::data::store::DataStorage;
use self::data::store::SQLiteDataStore; use self::data::ApplicationState;
use self::worker::native_save;
pub struct App { struct InputBuffer {
// data : SQLiteDataStore, panel_name: String,
data : Arc<SQLiteDataStore>, name: String,
url: String,
interval: i32,
query_x: String,
query_y: String,
panel_id: i32,
} }
struct ServerOptions { impl Default for InputBuffer {
title: String, fn default() -> Self {
url: String, InputBuffer {
player_count: PlayerCountData, panel_name: "".to_string(),
tps: TpsData, name: "".to_string(),
chat: ChatData, url: "".to_string(),
sync_time:bool, interval: 60,
query_x: "".to_string(),
query_y: "".to_string(),
panel_id: 0,
}
}
}
pub struct App {
data: Arc<ApplicationState>,
input: InputBuffer,
edit: bool,
} }
impl App { impl App {
// pub fn new(_cc: &eframe::CreationContext, data: SQLiteDataStore) -> Self { pub fn new(_cc: &eframe::CreationContext, data: Arc<ApplicationState>) -> Self {
pub fn new(_cc: &eframe::CreationContext, data: Arc<SQLiteDataStore>) -> Self { Self { data, input: InputBuffer::default(), edit: false }
Self { data }
} }
} }
@ -36,48 +51,104 @@ impl eframe::App for App {
ui.horizontal(|ui| { ui.horizontal(|ui| {
egui::widgets::global_dark_light_mode_switch(ui); egui::widgets::global_dark_light_mode_switch(ui);
ui.heading("dashboard"); ui.heading("dashboard");
if ui.button("test add").clicked() { ui.checkbox(&mut self.edit, "edit");
self.data.add_panel("test panel"); if self.edit {
if ui.button("save").clicked() {
native_save(self.data.clone());
}
} }
ui.with_layout(egui::Layout::top_down(egui::Align::RIGHT), |ui| { ui.with_layout(egui::Layout::top_down(egui::Align::RIGHT), |ui| {
if ui.button("x").clicked() { if ui.button("×").clicked() {
frame.quit(); frame.quit();
} }
}); });
}); });
}); if self.edit {
egui::CentralPanel::default().show(ctx, |ui| { ui.horizontal(|ui| {
let panels = &*self.data.panels.lock().unwrap(); eframe::egui::TextEdit::singleline(&mut self.input.panel_name).hint_text("panel").desired_width(50.0).show(ui);
for i in 0..panels.len() { if ui.button("add panel").clicked() {
// for panel in self.data.view() { self.data.add_panel(self.input.panel_name.as_str()).unwrap();
ui.group(|ui| { }
ui.vertical(|ui| { eframe::egui::TextEdit::singleline(&mut self.input.name).hint_text("name").desired_width(30.0).show(ui);
ui.horizontal(|ui| { eframe::egui::TextEdit::singleline(&mut self.input.url).hint_text("url").desired_width(80.0).show(ui);
ui.heading(panels[i].name.as_str()); eframe::egui::TextEdit::singleline(&mut self.input.query_x).hint_text("x query").desired_width(25.0).show(ui);
// ui.checkbox(&mut panel.view_scroll, "autoscroll"); eframe::egui::TextEdit::singleline(&mut self.input.query_y).hint_text("y query").desired_width(25.0).show(ui);
}); egui::ComboBox::from_label("panel")
let mut p = Plot::new(format!("plot-{}", panels[i].name)).x_axis_formatter(|x, _range| { .selected_text(format!("[{}]", self.input.panel_id))
format!( .show_ui(ui, |ui| {
"{}", let pnls = self.data.panels.write().unwrap();
DateTime::<Utc>::from_utc(NaiveDateTime::from_timestamp(x as i64, 0), Utc) for p in &*pnls {
.format("%Y/%m/%d %H:%M:%S") ui.selectable_value(&mut self.input.panel_id, p.id, p.name.as_str());
)
}).center_x_axis(false).height(panels[i].height as f32); // TODO make it fucking reactive! It fills the whole screen with 1 plot no matter what I do...
if panels[i].view_scroll {
p = p.include_x(Utc::now().timestamp() as f64);
}
p.show(ui, |plot_ui| {
let sources = &*panels[i].sources.lock().unwrap();
for j in 0..sources.len() {
plot_ui.line(Line::new(sources[j].values()).name(sources[j].name.as_str()));
} }
}); }
}); );
if ui.button("add source").clicked() {
self.data.add_source(
self.input.panel_id,
self.input.name.as_str(),
self.input.url.as_str(),
self.input.query_x.as_str(),
self.input.query_y.as_str(),
).unwrap();
}
ui.add(egui::Slider::new(&mut self.input.interval, 1..=600).text("interval"));
}); });
} }
}); });
ctx.request_repaint(); // TODO super jank way to sorta keep drawing egui::CentralPanel::default().show(ctx, |ui| {
egui::ScrollArea::vertical().show(ui, |ui| {
let mut panels = self.data.panels.write().unwrap();
for panel in &mut *panels {
// for panel in self.data.view() {
ui.group(|ui| {
ui.vertical(|ui| {
ui.horizontal(|ui| {
ui.heading(panel.name.as_str());
ui.checkbox(&mut panel.view_scroll, "autoscroll");
ui.checkbox(&mut panel.timeserie, "timeserie");
ui.add(egui::Slider::new(&mut panel.height, 0..=500).text("height"));
});
let mut sources = panel.sources.write().unwrap();
if self.edit {
for source in &mut *sources {
ui.horizontal(|ui| {
ui.heading(source.name.as_str());
eframe::egui::TextEdit::singleline(&mut source.url).hint_text("url").show(ui);
eframe::egui::TextEdit::singleline(&mut source.query_x).hint_text("x query").show(ui);
eframe::egui::TextEdit::singleline(&mut source.query_y).hint_text("y query").show(ui);
ui.add(egui::Slider::new(&mut source.interval, 1..=600).text("interval"));
});
}
}
let mut p = Plot::new(format!("plot-{}", panel.name))
.height(panel.height as f32); // TODO make it fucking reactive! It fills the whole screen with 1 plot no matter what I do...
if panel.view_scroll {
p = p.include_x(Utc::now().timestamp() as f64);
}
if panel.timeserie {
p = p.x_axis_formatter(|x, _range| {
format!(
"{}",
DateTime::<Utc>::from_utc(NaiveDateTime::from_timestamp(x as i64, 0), Utc)
.format("%Y/%m/%d %H:%M:%S")
)
});
}
p.show(ui, |plot_ui| {
for source in &mut *sources {
plot_ui.line(Line::new(source.values()).name(source.name.as_str()));
}
});
});
});
}
});
});
} }
} }

94
src/app/worker.rs Normal file
View file

@ -0,0 +1,94 @@
use std::sync::Arc;
use chrono::Utc;
use eframe::egui::Context;
use crate::app::data::{fetch, ApplicationState};
pub fn native_save(state:Arc<ApplicationState>) {
std::thread::spawn(move || {
let storage = state.storage.lock().unwrap();
let panels = state.panels.read().unwrap();
for panel in &*panels {
storage.update_panel(
panel.id,
panel.name.as_str(),
panel.view_scroll,
panel.view_size,
panel.timeserie,
panel.width,
panel.height
).unwrap();
let sources = panel.sources.read().unwrap();
for source in &*sources {
storage.update_source(
source.id,
source.name.as_str(),
source.url.as_str(),
source.interval,
source.query_x.as_str(),
source.query_y.as_str(),
).unwrap();
}
}
});
}
pub(crate) trait BackgroundWorker {
fn start(state:Arc<ApplicationState>, ctx:Context) -> Self; // TODO make it return an error? Can we even do anything without a background worker
fn stop(self); // TODO make it return an error? Can we even do anything without a background worker
}
pub(crate) struct NativeBackgroundWorker {
worker : std::thread::JoinHandle<()>,
}
impl BackgroundWorker for NativeBackgroundWorker {
fn start(state:Arc<ApplicationState>, ctx:Context) -> Self {
let worker = std::thread::spawn(move || {
let mut last_check = 0;
while state.run {
let delta_time = 1000 - (Utc::now().timestamp_millis() - last_check);
if delta_time > 0 {
std::thread::sleep(std::time::Duration::from_millis(delta_time as u64));
}
last_check = Utc::now().timestamp_millis();
let panels = state.panels.read().unwrap();
for i in 0..panels.len() {
let sources = panels[i].sources.read().unwrap();
let p_id = panels[i].id;
for j in 0..sources.len() {
let s_id = sources[j].id;
if !sources[j].valid() {
let mut last_update = sources[j].last_fetch.write().unwrap();
*last_update = Utc::now();
let state2 = state.clone();
let url = sources[j].url.clone();
let query_x = sources[j].query_x.clone();
let query_y = sources[j].query_y.clone();
std::thread::spawn(move || {
let v = fetch(url.as_str(), query_x.as_str(), query_y.as_str()).unwrap();
let store = state2.storage.lock().unwrap();
store.put_value(p_id, s_id, v).unwrap();
let panels = state2.panels.read().unwrap();
let sources = panels[i].sources.read().unwrap();
sources[j].data.write().unwrap().push(v);
let mut last_update = sources[j].last_fetch.write().unwrap();
*last_update = Utc::now(); // overwrite it so fetches comply with API slowdowns and get desynched among them
});
}
}
}
ctx.request_repaint();
}
});
return NativeBackgroundWorker {
worker
};
}
fn stop(self) {
self.worker.join().expect("Failed joining main worker thread");
}
}

View file

@ -1,10 +1,7 @@
mod app; mod app;
mod util;
use std::sync::{Arc, Mutex}; use std::sync::Arc;
use tokio::time::{sleep, Duration}; use crate::app::{App, data::ApplicationState, worker::{BackgroundWorker, NativeBackgroundWorker}};
use crate::util::worker::{BackgroundWorker, NativeBackgroundWorker};
use crate::app::{App, data::store::{SQLiteDataStore, DataStorage}};
// When compiling natively: // When compiling natively:
#[cfg(not(target_arch = "wasm32"))] #[cfg(not(target_arch = "wasm32"))]
@ -14,27 +11,13 @@ fn main() -> ! {
let mut store_path = dirs::data_dir().unwrap_or(std::path::PathBuf::from(".")); // TODO get cwd more consistently? let mut store_path = dirs::data_dir().unwrap_or(std::path::PathBuf::from(".")); // TODO get cwd more consistently?
store_path.push("dashboard.db"); store_path.push("dashboard.db");
println!("{}", store_path.as_path().to_str().unwrap()); let store = Arc::new(ApplicationState::new(store_path));
let store = Arc::new(
SQLiteDataStore::new(store_path)
.unwrap()
);
eframe::run_native( // TODO replace this with a loop that ends so we can cleanly exit the background worker eframe::run_native( // TODO replace this with a loop that ends so we can cleanly exit the background worker
"dashboard", "dashboard",
native_options, native_options,
Box::new(move |cc| { Box::new(move |cc| {
let worker = NativeBackgroundWorker::start(); let _worker = NativeBackgroundWorker::start(store.clone(), cc.egui_ctx.clone());
let ctx = cc.egui_ctx.clone();
worker.task(async move {
loop {
sleep(Duration::from_secs(1)).await;
ctx.request_repaint();
// tokio::spawn(async move {store2.fetch_all().await});
}
});
Box::new(App::new(cc, store)) Box::new(App::new(cc, store))
}), }),
); );

View file

@ -1 +0,0 @@
pub(crate) mod worker;

View file

@ -1,47 +0,0 @@
use tokio::{runtime::{Handle, Runtime, Builder}, sync::oneshot::Sender, time::{sleep, Duration}};
pub(crate) trait BackgroundWorker {
fn start() -> Self; // TODO make it return an error? Can we even do anything without a background worker
fn task<T>(&self, task:T) where T : std::future::Future<Output = ()> + core::marker::Send + 'static;
fn stop(self); // TODO make it return an error? Can we even do anything without a background worker
}
pub(crate) struct NativeBackgroundWorker {
runtime : Handle,
// end_tx : Sender<bool>,
worker : std::thread::JoinHandle<bool>,
}
impl BackgroundWorker for NativeBackgroundWorker {
fn start() -> Self {
let (rt_tx, rt_rx) = tokio::sync::oneshot::channel::<Handle>();
let worker = std::thread::spawn(|| {
let runtime = Builder::new_multi_thread()
.worker_threads(1)
.enable_all()
.build()
.unwrap();
rt_tx.send(runtime.handle().clone()).unwrap();
runtime.block_on(async {
loop {
println!("keepalive loop");
sleep(Duration::from_secs(1)).await;
}
})
});
NativeBackgroundWorker {
runtime : rt_rx.blocking_recv().unwrap(),
// end_tx : end_tx,
worker : worker,
}
}
fn task<T>(&self, task:T) where T : std::future::Future<Output = ()> + core::marker::Send + 'static {
self.runtime.spawn(task);
}
fn stop(self) {
// self.end_tx.send(true).expect("Failed signaling termination");
// self.worker.join().expect("Failed joining main worker thread");
}
}