Web Worker: WASM-inferenssi erillisessä säikeessä, UI ei jäädy

- Poistettu kaikki web_sys::window() -kutsut Rust WASM:sta - Uudet Worker-yhteensopivat apufunktiot: perf_now(), worker_fetch(), sleep_ms() - worker.js lataa ja ajaa WASM-moduulin erillisessä säikeessä - ensureCoderNode käynnistää Workerin pääsäikeen sijaan - Selaimen UI pysyy responsiivisena inferenssin aikana Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
2026-04-06 19:59:09 +03:00
parent fc95cf8c1b
commit b3646ae5d3
6 changed files with 129 additions and 70 deletions
--- a/network-poc/node/src/lib.rs
+++ b/network-poc/node/src/lib.rs
@@ -38,17 +38,50 @@ pub fn set_gpu_load(load: u32) {
    console_log!("[Wasm] GPU Kuormitusraja vaihdettu -> {}%", load);
 }
-// Asynkroninen odotus WebAssemblylle
+// Worker-yhteensopiva setTimeout — toimii sekä Window- että Worker-kontekstissa
-async fn sleep_ms(ms: i32) {
+#[wasm_bindgen]
 extern "C" {
    #[wasm_bindgen(js_name = setTimeout)]
    fn set_timeout(closure: &js_sys::Function, ms: i32);
 }
 // Asynkroninen odotus WebAssemblylle (Window + Worker)
 pub async fn sleep_ms(ms: i32) {
    let promise = js_sys::Promise::new(&mut |resolve, _| {
-        web_sys::window()
+        set_timeout(&resolve, ms);
            .unwrap()
            .set_timeout_with_callback_and_timeout_and_arguments_0(&resolve, ms)
            .unwrap();
    });
    let _ = wasm_bindgen_futures::JsFuture::from(promise).await;
 }
 // Worker-yhteensopiva Performance — käyttää globalThis.performance
 pub fn perf_now() -> f64 {
    js_sys::Reflect::get(&js_sys::global(), &"performance".into())
        .ok()
        .and_then(|p| js_sys::Reflect::get(&p, &"now".into()).ok())
        .and_then(|f| f.dyn_into::<js_sys::Function>().ok())
        .and_then(|f| {
            let perf = js_sys::Reflect::get(&js_sys::global(), &"performance".into()).unwrap();
            f.call0(&perf).ok()
        })
        .and_then(|v| v.as_f64())
        .unwrap_or(0.0)
 }
 // Worker-yhteensopiva fetch — käyttää globalThis.fetch
 pub async fn worker_fetch(url: &str) -> Result<web_sys::Response, String> {
    let promise = js_sys::Reflect::get(&js_sys::global(), &"fetch".into())
        .map_err(|_| "fetch ei saatavilla".to_string())?
        .dyn_into::<js_sys::Function>()
        .map_err(|_| "fetch ei funktio".to_string())?
        .call1(&JsValue::NULL, &url.into())
        .map_err(|e| format!("fetch: {:?}", e))?;
    let resp = wasm_bindgen_futures::JsFuture::from(js_sys::Promise::from(promise))
        .await
        .map_err(|e| format!("fetch await: {:?}", e))?;
    resp.dyn_into::<web_sys::Response>()
        .map_err(|_| "ei Response".to_string())
 }
 // Geneerinen tensorilaskenta — toimii millä tahansa Burn-backendillä
 fn run_matmul<B: burn::tensor::backend::Backend>(size: usize) -> String {
    let device = Default::default();
@@ -123,10 +156,9 @@ async fn run_single_tokenize(text: String, ws: Rc<RefCell<WebSocket>>) {
    let Some(bytes) = cached_tok else { return; };
    let Ok(tokenizer) = tokenizers::Tokenizer::from_bytes(&bytes) else { return; };
-    let perf = web_sys::window().unwrap().performance().unwrap();
+    let start = perf_now();
    let start = perf.now();
    let result = tokenize_text(&tokenizer, &text);
-    let duration_ms = perf.now() - start;
+    let duration_ms = perf_now() - start;
    let token_count = result["token_count"].as_u64().unwrap_or(0);
    let cpt = result["chars_per_token"].as_f64().unwrap_or(0.0);
@@ -157,11 +189,10 @@ async fn run_pair_comparison(en_text: String, fi_text: String, ws: Rc<RefCell<We
        return;
    };
-    let perf = web_sys::window().unwrap().performance().unwrap();
+    let start_time = perf_now();
    let start_time = perf.now();
    let en_result = tokenize_text(&tokenizer, &en_text);
    let fi_result = tokenize_text(&tokenizer, &fi_text);
-    let duration_ms = perf.now() - start_time; // millisekunteja desimaalitarkkuudella
+    let duration_ms = perf_now() - start_time;
    let en_cpt = en_result["chars_per_token"].as_f64().unwrap_or(0.0);
    let fi_cpt = fi_result["chars_per_token"].as_f64().unwrap_or(0.0);
--- a/network-poc/node/src/qwen.rs
+++ b/network-poc/node/src/qwen.rs
@@ -24,10 +24,7 @@ async fn ensure_cached(key: &str, url: &str, ws: &Rc<RefCell<WebSocket>>) -> Res
    console_log!("[Qwen] Ladataan {}...", key);
-    let window = web_sys::window().unwrap();
+    let resp = crate::worker_fetch(url).await?;
    let resp_val = wasm_bindgen_futures::JsFuture::from(window.fetch_with_str(url))
        .await.map_err(|e| format!("Fetch epäonnistui: {:?}", e))?;
    let resp: web_sys::Response = resp_val.dyn_into().map_err(|_| "Ei Response".to_string())?;
    if !resp.ok() { return Err(format!("HTTP {}", resp.status())); }
    let total_size: usize = resp.headers()
@@ -71,7 +68,7 @@ async fn ensure_cached(key: &str, url: &str, ws: &Rc<RefCell<WebSocket>>) -> Res
 }
 pub async fn run_qwen_inference(prompt: String, ws: Rc<RefCell<WebSocket>>) {
-    let perf = web_sys::window().unwrap().performance().unwrap();
+    // performance via crate::perf_now()
    let tok_bytes = match ensure_cached("qwen05b-tokenizer.json", TOKENIZER_URL, &ws).await {
        Ok(b) => b,
@@ -88,7 +85,7 @@ pub async fn run_qwen_inference(prompt: String, ws: Rc<RefCell<WebSocket>>) {
    };
    console_log!("[Qwen] Rakennetaan mallia...");
-    let start_load = perf.now();
+    let start_load = crate::perf_now();
    let device = Device::Cpu;
    let dtype = DType::F32;
@@ -120,7 +117,7 @@ pub async fn run_qwen_inference(prompt: String, ws: Rc<RefCell<WebSocket>>) {
        Err(e) => { console_log!("[Qwen] Mallin lataus: {}", e); return; }
    };
-    let load_time = perf.now() - start_load;
+    let load_time = crate::perf_now() - start_load;
    console_log!("[Qwen] Malli ladattu ({:.0}ms). Generoidaan...", load_time);
    let encoding = match tokenizer.encode(prompt.as_str(), true) {
@@ -131,7 +128,7 @@ pub async fn run_qwen_inference(prompt: String, ws: Rc<RefCell<WebSocket>>) {
    let input_len = input_ids.len();
    console_log!("[Qwen] Syöte: {} tokenia", input_len);
-    let start_gen = perf.now();
+    let start_gen = crate::perf_now();
    let max_new_tokens = 32;
    let mut generated_text = String::new();
    let mut tokens_generated: usize = 0;
@@ -202,7 +199,7 @@ pub async fn run_qwen_inference(prompt: String, ws: Rc<RefCell<WebSocket>>) {
        crate::sleep_ms(0).await;
    }
-    let gen_time = perf.now() - start_gen;
+    let gen_time = crate::perf_now() - start_gen;
    let tokens_per_sec = if gen_time > 0.0 { (tokens_generated as f64 / gen_time) * 1000.0 } else { 0.0 };
    console_log!("[Qwen] {} tokenia | {:.0}ms | {:.1} tok/s", tokens_generated, gen_time, tokens_per_sec);
--- a/network-poc/node/src/qwen_coder.rs
+++ b/network-poc/node/src/qwen_coder.rs
@@ -140,10 +140,7 @@ async fn ensure_cached(key: &str, url: &str, ws: &Rc<RefCell<WebSocket>>) -> Res
    console_log!("[Coder] Ladataan {}...", key);
-    let window = web_sys::window().unwrap();
+    let resp = crate::worker_fetch(url).await?;
    let resp_val = wasm_bindgen_futures::JsFuture::from(window.fetch_with_str(url))
        .await.map_err(|e| format!("Fetch: {:?}", e))?;
    let resp: web_sys::Response = resp_val.dyn_into().map_err(|_| "Ei Response".to_string())?;
    if !resp.ok() { return Err(format!("HTTP {}", resp.status())); }
    let total_size: usize = resp.headers()
@@ -251,17 +248,16 @@ async fn get_or_build_model(use_3b: bool, ws: &Rc<RefCell<WebSocket>>) -> Result
 /// use_3b: false = 0.5B (nopea), true = 3B (laadukas)
 pub async fn run_coder_inference(prompt: String, ws: Rc<RefCell<WebSocket>>, use_3b: bool, task_id: Option<String>) {
    let perf = web_sys::window().unwrap().performance().unwrap();
    let size_label = if use_3b { "3B" } else { "0.5B" };
-    let start_load = perf.now();
+    let start_load = crate::perf_now();
    if let Err(e) = get_or_build_model(use_3b, &ws).await {
        console_log!("[Coder] Mallin lataus: {}", e);
        return;
    }
-    let load_time = perf.now() - start_load;
+    let load_time = crate::perf_now() - start_load;
    if load_time > 100.0 {
        console_log!("[Coder] Malli ladattu ({:.0}ms). Generoidaan...", load_time);
    }
@@ -297,7 +293,7 @@ pub async fn run_coder_inference(prompt: String, ws: Rc<RefCell<WebSocket>>, use
        console_log!("[Coder] Syöte: {} tokenia", input_len);
        let device = Device::Cpu;
-        let start_gen = perf.now();
+        let start_gen = crate::perf_now();
        let eos_token = 151645u32;
        let temperature: f32 = 0.7;
        let top_k: usize = 40;
@@ -373,7 +369,7 @@ pub async fn run_coder_inference(prompt: String, ws: Rc<RefCell<WebSocket>>, use
            tokens_generated += 1;
        }
-        let gen_time = perf.now() - start_gen;
+        let gen_time = crate::perf_now() - start_gen;
        // Siivotaan vastaus: poista markdown-koodiblokit ja johdantotekstit
        let cleaned = strip_markdown_wrapper(&generated_text);
--- a/network-poc/node/src/smollm.rs
+++ b/network-poc/node/src/smollm.rs
@@ -28,10 +28,7 @@ async fn ensure_cached(key: &str, url: &str, ws: &Rc<RefCell<WebSocket>>) -> Res
    send_progress(ws, key, 0, 0, 0);
    // Fetch API:lla saadaan Content-Length ja streaming-luku
-    let window = web_sys::window().unwrap();
+    let resp = crate::worker_fetch(url).await?;
    let resp_val = wasm_bindgen_futures::JsFuture::from(window.fetch_with_str(url))
        .await.map_err(|e| format!("Fetch epäonnistui: {:?}", e))?;
    let resp: web_sys::Response = resp_val.dyn_into().map_err(|_| "Ei Response-objekti".to_string())?;
    if !resp.ok() {
        return Err(format!("HTTP {}", resp.status()));
@@ -99,7 +96,7 @@ fn send_progress(ws: &Rc<RefCell<WebSocket>>, file: &str, pct: u32, loaded: usiz
 /// Lataa malli ja tokenizer, suorita inferenssi ja streamaa tokenit hubille
 pub async fn run_smollm_inference(prompt: String, ws: Rc<RefCell<WebSocket>>) {
-    let perf = web_sys::window().unwrap().performance().unwrap();
+    // performance via crate::perf_now()
    // 1. Lataa tokenizer
    let tok_bytes = match ensure_cached("smollm-tokenizer.json", TOKENIZER_URL, &ws).await {
@@ -122,7 +119,7 @@ pub async fn run_smollm_inference(prompt: String, ws: Rc<RefCell<WebSocket>>) {
    // Burn 0.21-pre.2 cubecl-runtime ei käänny Wasmille (println! puuttuu)
    // → NdArray kunnes Burn 0.21 stable + Wasm-tuki
    console_log!("[SmolLM] Burn NdArray (CPU) inferenssi...");
-    run_burn_inference::<burn::backend::NdArray>(prompt, model_bytes, tokenizer, ws, perf.clone()).await;
+    run_burn_inference::<burn::backend::NdArray>(prompt, model_bytes, tokenizer, ws).await;
 }
 async fn run_burn_inference<B: burn::tensor::backend::Backend>(
@@ -130,9 +127,8 @@ async fn run_burn_inference<B: burn::tensor::backend::Backend>(
    model_bytes: Vec<u8>,
    tokenizer: tokenizers::Tokenizer,
    ws: Rc<RefCell<WebSocket>>,
    perf: web_sys::Performance, // Korjattu Wasm-performanssi välitettäväksi
 ) {
-    let start_load = perf.now();
+    let start_load = crate::perf_now();
    let device = Default::default();
    let config = crate::burn_smollm::config::SmolLMConfig::default();
@@ -143,7 +139,7 @@ async fn run_burn_inference<B: burn::tensor::backend::Backend>(
        Err(e) => { console_log!("[SmolLM] Lataus epäonnistui: {}", e); return; }
    };
-    let load_time = perf.now() - start_load;
+    let load_time = crate::perf_now() - start_load;
    console_log!("[SmolLM] Burn-malli ladattu ({:.0}ms). Generoidaan...", load_time);
    let formatted_prompt = format!("<|im_start|>user\n{}<|im_end|>\n<|im_start|>assistant\n", prompt);
@@ -156,7 +152,7 @@ async fn run_burn_inference<B: burn::tensor::backend::Backend>(
    let input_len = input_ids.len();
    console_log!("[SmolLM] Syöte: {} tokenia", input_len);
-    let start_gen = perf.now();
+    let start_gen = crate::perf_now();
    let max_new_tokens = 32;
    let mut generated_text = String::new();
    let mut tokens_generated: usize = 0;
@@ -219,7 +215,7 @@ async fn run_burn_inference<B: burn::tensor::backend::Backend>(
        tokens_generated += 1;
    }
-    let gen_time = perf.now() - start_gen;
+    let gen_time = crate::perf_now() - start_gen;
    let tokens_per_sec = if gen_time > 0.0 { (tokens_generated as f64 / gen_time) * 1000.0 } else { 0.0 };
    let done = serde_json::json!({
--- a/network-poc/static/index.html
+++ b/network-poc/static/index.html
@@ -3233,7 +3233,9 @@ Write the corrected code.`;
        const _prevConsoleLog = console.log;
        console.log = function(...args) { _prevConsoleLog.apply(console, args); codeLogListener(...args); };
-        // Käynnistä Coder-node automaattisesti ensimmäisellä kerralla
+        // Web Worker -pohjainen laskentasolmu — UI ei jäädy inferenssin aikana
        let coderWorker = null;
        async function ensureCoderNode() {
            if (coderJoined) return;
            coderJoined = true;
@@ -3243,10 +3245,21 @@ Write the corrected code.`;
            setStep('step-wasm', 'active');
            try {
-                if (!wasmInitialized) {
+                // Käynnistetään WASM Web Workerissa
-                    await init();
+                coderWorker = new Worker('./worker.js');
-                    wasmInitialized = true;
+
-                }
+                // Workerin console.log-viestit → pääsäikeen kuuntelija
                // Worker ei voi kutsua console.log näkyvästi, joten WASM:n console_log
                // ei näy automaattisesti. Workerissa console.log menee Workerin konsoliin.
                await new Promise((resolve, reject) => {
                    coderWorker.onmessage = (e) => {
                        if (e.data.type === 'ready') resolve();
                        else if (e.data.type === 'error') reject(new Error(e.data.message));
                    };
                    coderWorker.postMessage({ type: 'init' });
                });
                setStep('step-wasm', 'done');
                setStep('step-tokenizer', 'active');
@@ -3260,30 +3273,23 @@ Write the corrected code.`;
                    selected_task: coderSize === '3b' ? 'qwen-coder-3b' : 'qwen-coder-05b'
                };
                const taskId = coderSize === '3b' ? 5 : 4;
-                // Tunnistetaan WebGPU myös koodilaboratorion puolella
+
-                let coderHasWebGPU = false;
+                // Käynnistetään node Workerissa
-                if (navigator.gpu) {
+                coderWorker.onmessage = (e) => {
-                    try {
+                    if (e.data.type === 'started') {
                        const adapter = await navigator.gpu.requestAdapter();
                        if (adapter) {
                            try {
                                const testDevice = await adapter.requestDevice({ requiredLimits: { maxInterStageShaderComponents: 60 } });
                                coderHasWebGPU = true;
                                testDevice.destroy();
                            } catch(e) {
                                coderHasWebGPU = false;
                            }
                        }
                    } catch(e) {}
                }
                await start_agent_node(wsUrl, coderHasWebGPU, JSON.stringify(deviceInfo), taskId);
                        document.getElementById('coder-status').textContent = 'Connected';
                        document.getElementById('coder-status').style.color = '#d29922';
                        coderWsReady = true;
                    } else if (e.data.type === 'error') {
                        console.log('[Worker] Virhe: ' + e.data.message);
                    }
                };
                coderWorker.postMessage({
                    type: 'start',
                    data: { hubUrl: wsUrl, hasWebGPU: false, deviceInfo: JSON.stringify(deviceInfo), taskId }
                });
-                // Proaktiivinen mallin esilataus: lähetetään tyhjä warmup-prompt
+                // Warmup
                // joka triggeröi get_or_build_model:n ilman varsinaista generointia.
                // Pipeline-tilakone seuraa logeja ja merkkaa vaiheet valmiiksi.
                setTimeout(() => {
                    if (uiSocket && uiSocket.readyState === 1) {
                        uiSocket.send(JSON.stringify({
@@ -3297,7 +3303,7 @@ Write the corrected code.`;
                if (pendingCodePrompt) {
                    setTimeout(() => {
                        sendCodeToHub(pendingCodePrompt);
-                    }, 2000); // Hieman pidempi odotus jotta warmup ehtii ensin
+                    }, 2000);
                    pendingCodePrompt = null;
                }
            } catch(e) {
--- a/network-poc/static/worker.js
+++ b/network-poc/static/worker.js
@@ -0,0 +1,33 @@
 // Kipinä WASM Worker — ajaa kielimallin inferenssin erillisessä säikeessä
 // Pääsäie (UI) ei jäädy pitkien laskutoimituksien aikana.
 let wasm = null;
 self.onmessage = async (e) => {
    const { type, data } = e.data;
    if (type === 'init') {
        try {
            // Ladataan WASM-moduuli Workerissa
            importScripts('./pkg/node.js');
            wasm = wasm_bindgen;
            await wasm.default();
            self.postMessage({ type: 'ready' });
        } catch (err) {
            self.postMessage({ type: 'error', message: 'WASM init: ' + err.message });
        }
    } else if (type === 'start') {
        if (!wasm) return;
        const { hubUrl, hasWebGPU, deviceInfo, taskId } = data;
        try {
            await wasm.start_agent_node(hubUrl, hasWebGPU, deviceInfo, taskId);
            self.postMessage({ type: 'started' });
        } catch (err) {
            self.postMessage({ type: 'error', message: 'Node: ' + err.message });
        }
    } else if (type === 'set_gpu_load') {
        if (wasm) wasm.set_gpu_load(data.load);
    } else if (type === 'set_auto_tasks') {
        if (wasm) wasm.set_auto_tasks(data.enabled);
    }
 };