chore(frontend): remove custom Webpack sqlite-wasm integration plugins and cleanup config
- Deleted `dummy.js` and its usage for sqlite-wasm integration as custom Webpack adjustments are no longer necessary. - Removed outdated Webpack configuration files: `ignore-sqlite-wasm.js`, `ignore-sqlite-wasm-critical-dependency.js`, and `sqljs-fix.js`. - Introduced `sqlite-config.js` for simplified and streamlined sqlite-wasm and Skiko Webpack configuration. - Minor code formatting adjustments across frontend modules for improved consistency.
This commit is contained in:
+1
-1
@@ -4,5 +4,5 @@ import app.cash.sqldelight.db.SqlDriver
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@Suppress("EXPECT_ACTUAL_CLASSIFIERS_ARE_IN_BETA_WARNING")
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expect class DatabaseDriverFactory() {
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suspend fun createDriver(): SqlDriver
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suspend fun createDriver(): SqlDriver
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}
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+14
-12
@@ -6,23 +6,25 @@ import org.w3c.dom.Worker
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@Suppress("EXPECT_ACTUAL_CLASSIFIERS_ARE_IN_BETA_WARNING")
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actual class DatabaseDriverFactory {
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actual suspend fun createDriver(): SqlDriver {
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// Wir nutzen eine Helper-Funktion, um den Worker zu erstellen.
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// Dies ermöglicht uns, 'new URL(..., import.meta.url)' in JS zu verwenden,
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// was Webpack dazu bringt, den Pfad korrekt aufzulösen.
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val worker = createWorker()
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val driver = WebWorkerDriver(worker)
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actual suspend fun createDriver(): SqlDriver {
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// Wir nutzen eine Helper-Funktion, um den Worker zu erstellen.
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// Dies ermöglicht uns, 'new URL(..., import.meta.url)' in JS zu verwenden,
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// was Webpack dazu bringt, den Pfad korrekt aufzulösen.
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val worker = createWorker()
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val driver = WebWorkerDriver(worker)
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// Initialize schema asynchronously
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AppDatabase.Schema.create(driver).await()
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// Initialize schema asynchronously
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AppDatabase.Schema.create(driver).await()
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return driver
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}
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return driver
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}
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}
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// Helper function to create the worker using proper URL resolution
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private fun createWorker(): Worker {
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return js("""
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return js(
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"""
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new Worker(new URL('sqlite.worker.js', import.meta.url), { type: 'module' })
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""")
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"""
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)
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}
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@@ -1,103 +1,109 @@
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import sqlite3InitModule from '@sqlite.org/sqlite-wasm';
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// We do NOT import from node_modules anymore to avoid Webpack bundling issues.
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// import sqlite3InitModule from '@sqlite.org/sqlite-wasm';
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console.log("Worker: sqlite.worker.js loaded. Starting initialization...");
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// Minimal worker protocol compatible with SQLDelight's `web-worker-driver`.
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// Mirrors the message format used by SQLDelight's `sqljs.worker.js` implementation.
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function runWorker({ driver }) {
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console.log("Worker: runWorker called");
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let db = null;
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const open = (name) => {
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console.log("Worker: Opening database", name);
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db = driver.open(name);
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};
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function runWorker({driver}) {
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console.log("Worker: runWorker called");
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let db = null;
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const open = (name) => {
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console.log("Worker: Opening database", name);
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db = driver.open(name);
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};
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// Open once with the default database name expected by SQLDelight.
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open('app.db');
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// Open once with the default database name expected by SQLDelight.
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open('app.db');
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self.onmessage = (event) => {
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const data = event.data;
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try {
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switch (data && data.action) {
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case 'exec': {
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if (!data.sql) throw new Error('exec: Missing query string');
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// sqlite-wasm oo1 DB supports `.exec(...)`.
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// We intentionally return only `values` which is sufficient for SQLDelight.
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const rows = [];
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db.exec({
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sql: data.sql,
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bind: data.params ?? [],
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rowMode: 'array',
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callback: (row) => rows.push(row)
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});
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return postMessage({ id: data.id, results: { values: rows } });
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}
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case 'begin_transaction':
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db.exec('BEGIN TRANSACTION;');
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return postMessage({ id: data.id, results: [] });
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case 'end_transaction':
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db.exec('END TRANSACTION;');
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return postMessage({ id: data.id, results: [] });
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case 'rollback_transaction':
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db.exec('ROLLBACK TRANSACTION;');
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return postMessage({ id: data.id, results: [] });
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default:
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throw new Error(`Unsupported action: ${data && data.action}`);
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}
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} catch (err) {
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console.error("Worker: Error processing message", err);
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return postMessage({ id: data && data.id, error: err?.message ?? String(err) });
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self.onmessage = (event) => {
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const data = event.data;
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try {
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switch (data && data.action) {
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case 'exec': {
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if (!data.sql) throw new Error('exec: Missing query string');
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const rows = [];
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db.exec({
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sql: data.sql,
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bind: data.params ?? [],
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rowMode: 'array',
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callback: (row) => rows.push(row)
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});
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return postMessage({id: data.id, results: {values: rows}});
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}
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};
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case 'begin_transaction':
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db.exec('BEGIN TRANSACTION;');
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return postMessage({id: data.id, results: []});
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case 'end_transaction':
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db.exec('END TRANSACTION;');
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return postMessage({id: data.id, results: []});
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case 'rollback_transaction':
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db.exec('ROLLBACK TRANSACTION;');
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return postMessage({id: data.id, results: []});
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default:
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throw new Error(`Unsupported action: ${data && data.action}`);
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}
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} catch (err) {
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console.error("Worker: Error processing message", err);
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return postMessage({id: data && data.id, error: err?.message ?? String(err)});
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}
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};
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}
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// Error handling wrapper
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self.onerror = function(event) {
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console.error("Error in Web Worker (onerror):", event.message, event.filename, event.lineno);
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// Optionally, send the error back to the main thread
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self.postMessage({ type: 'error', message: event.message, filename: event.filename, lineno: event.lineno });
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self.onerror = function (event) {
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console.error("Error in Web Worker (onerror):", event.message, event.filename, event.lineno);
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self.postMessage({type: 'error', message: event.message, filename: event.filename, lineno: event.lineno});
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};
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// Manually fetch the WASM file to bypass Webpack/sqlite-wasm loading issues
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async function init() {
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try {
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console.log("Worker: Fetching sqlite3.wasm manually...");
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const response = await fetch('/sqlite3.wasm');
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if (!response.ok) {
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throw new Error(`Failed to fetch sqlite3.wasm: ${response.status} ${response.statusText}`);
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}
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const wasmBinary = await response.arrayBuffer();
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console.log("Worker: sqlite3.wasm fetched successfully, size:", wasmBinary.byteLength);
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try {
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// 1. Load the sqlite3.js library manually via importScripts.
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// This file is copied to the root by Webpack (CopyWebpackPlugin).
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// This bypasses Webpack's module resolution for the library itself.
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console.log("Worker: Loading sqlite3.js via importScripts...");
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importScripts('sqlite3.js');
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console.log("Worker: Calling sqlite3InitModule with wasmBinary...");
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const sqlite3 = await sqlite3InitModule({
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print: console.log,
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printErr: console.error,
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wasmBinary: wasmBinary // Provide the binary directly!
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});
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console.log("Worker: sqlite3InitModule resolved successfully");
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const opfsAvailable = 'opfs' in sqlite3;
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console.log("Worker: OPFS available:", opfsAvailable);
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runWorker({
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driver: {
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open: (name) => {
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if (opfsAvailable) {
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console.log("Initialisiere persistente OPFS Datenbank: " + name);
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return new sqlite3.oo1.OpfsDb(name);
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} else {
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console.warn("OPFS nicht verfügbar, Fallback auf In-Memory");
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return new sqlite3.oo1.DB(name);
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}
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}
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}
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});
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} catch (e) {
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console.error("Database initialization error in worker:", e);
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self.postMessage({ type: 'error', message: 'Database initialization failed: ' + e.message });
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// After importScripts, `sqlite3InitModule` should be available globally.
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if (typeof self.sqlite3InitModule !== 'function') {
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throw new Error("sqlite3InitModule is not defined after importScripts. Check if sqlite3.js was loaded correctly.");
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}
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console.log("Worker: Fetching sqlite3.wasm manually...");
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const response = await fetch('sqlite3.wasm');
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if (!response.ok) {
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throw new Error(`Failed to fetch sqlite3.wasm: ${response.status} ${response.statusText}`);
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}
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const wasmBinary = await response.arrayBuffer();
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console.log("Worker: sqlite3.wasm fetched successfully, size:", wasmBinary.byteLength);
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console.log("Worker: Calling sqlite3InitModule with wasmBinary...");
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const sqlite3 = await self.sqlite3InitModule({
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print: console.log,
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printErr: console.error,
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wasmBinary: wasmBinary
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});
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console.log("Worker: sqlite3InitModule resolved successfully");
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const opfsAvailable = 'opfs' in sqlite3;
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console.log("Worker: OPFS available:", opfsAvailable);
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runWorker({
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driver: {
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open: (name) => {
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if (opfsAvailable) {
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console.log("Initialisiere persistente OPFS Datenbank: " + name);
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return new sqlite3.oo1.OpfsDb(name);
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} else {
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console.warn("OPFS nicht verfügbar, Fallback auf In-Memory");
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return new sqlite3.oo1.DB(name);
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}
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}
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}
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});
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} catch (e) {
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console.error("Database initialization error in worker:", e);
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self.postMessage({type: 'error', message: 'Database initialization failed: ' + e.message});
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}
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}
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init();
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+23
-22
@@ -4,31 +4,32 @@ import app.cash.sqldelight.db.SqlDriver
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import app.cash.sqldelight.driver.jdbc.sqlite.JdbcSqliteDriver
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import java.io.File
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@Suppress("EXPECT_ACTUAL_CLASSIFIERS_ARE_IN_BETA_WARNING")
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actual class DatabaseDriverFactory {
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actual suspend fun createDriver(): SqlDriver {
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// For desktop, we use a persistent file database
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// In dev mode, we might want to use a temporary file or user home
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val dbFile = File(System.getProperty("user.home"), ".meldestelle/app_database.db")
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dbFile.parentFile.mkdirs()
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actual suspend fun createDriver(): SqlDriver {
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// For desktop, we use a persistent file database
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// In dev mode, we might want to use a temporary file or user home
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val dbFile = File(System.getProperty("user.home"), ".meldestelle/app_database.db")
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dbFile.parentFile.mkdirs()
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val driver = JdbcSqliteDriver("jdbc:sqlite:${dbFile.absolutePath}")
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val driver = JdbcSqliteDriver("jdbc:sqlite:${dbFile.absolutePath}")
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// Schema creation/migration needs to be handled carefully.
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// For now, we just create it if it doesn't exist.
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// In a real app, we'd check version and migrate.
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// Since generateAsync=true, the Schema.create signature might be suspend or return AsyncResult.
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// However, JdbcSqliteDriver is synchronous. We might need to wrap or await.
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// But wait! Schema.create(driver) returns void or Unit usually.
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// Let's check the generated code later. For now, we assume standard behavior.
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// Schema creation/migration needs to be handled carefully.
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// For now, we just create it if it doesn't exist.
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// In a real app, we'd check version and migrate.
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// Since generateAsync=true, the Schema.create signature might be suspend or return AsyncResult.
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// However, JdbcSqliteDriver is synchronous. We might need to wrap or await.
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// But wait! Schema.create(driver) returns void or Unit usually.
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// Let's check the generated code later. For now, we assume standard behavior.
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try {
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AppDatabase.Schema.create(driver).await()
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} catch (e: Exception) {
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// Schema might already exist.
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// SQLDelight doesn't have "createIfNotExists" built-in easily without version check.
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// We'll leave this simple for now and refine with proper migration logic later.
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}
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return driver
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try {
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AppDatabase.Schema.create(driver).await()
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} catch (e: Exception) {
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// Schema might already exist.
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// SQLDelight doesn't have "createIfNotExists" built-in easily without version check.
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// We'll leave this simple for now and refine with proper migration logic later.
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}
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return driver
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}
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}
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@@ -2,82 +2,82 @@ import sqlite3InitModule from '@sqlite.org/sqlite-wasm';
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|
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// Minimal worker protocol compatible with SQLDelight's `web-worker-driver`.
|
||||
// Mirrors the message format used by SQLDelight's `sqljs.worker.js` implementation.
|
||||
function runWorker({ driver }) {
|
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let db = null;
|
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const open = (name) => {
|
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db = driver.open(name);
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};
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function runWorker({driver}) {
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let db = null;
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const open = (name) => {
|
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db = driver.open(name);
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};
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// Open once with the default database name expected by SQLDelight.
|
||||
open('app.db');
|
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// Open once with the default database name expected by SQLDelight.
|
||||
open('app.db');
|
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|
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self.onmessage = (event) => {
|
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const data = event.data;
|
||||
try {
|
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switch (data && data.action) {
|
||||
case 'exec': {
|
||||
if (!data.sql) throw new Error('exec: Missing query string');
|
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const rows = [];
|
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db.exec({
|
||||
sql: data.sql,
|
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bind: data.params ?? [],
|
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rowMode: 'array',
|
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callback: (row) => rows.push(row)
|
||||
});
|
||||
return postMessage({ id: data.id, results: { values: rows } });
|
||||
}
|
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case 'begin_transaction':
|
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db.exec('BEGIN TRANSACTION;');
|
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return postMessage({ id: data.id, results: [] });
|
||||
case 'end_transaction':
|
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db.exec('END TRANSACTION;');
|
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return postMessage({ id: data.id, results: [] });
|
||||
case 'rollback_transaction':
|
||||
db.exec('ROLLBACK TRANSACTION;');
|
||||
return postMessage({ id: data.id, results: [] });
|
||||
default:
|
||||
throw new Error(`Unsupported action: ${data && data.action}`);
|
||||
}
|
||||
} catch (err) {
|
||||
return postMessage({ id: data && data.id, error: err?.message ?? String(err) });
|
||||
self.onmessage = (event) => {
|
||||
const data = event.data;
|
||||
try {
|
||||
switch (data && data.action) {
|
||||
case 'exec': {
|
||||
if (!data.sql) throw new Error('exec: Missing query string');
|
||||
const rows = [];
|
||||
db.exec({
|
||||
sql: data.sql,
|
||||
bind: data.params ?? [],
|
||||
rowMode: 'array',
|
||||
callback: (row) => rows.push(row)
|
||||
});
|
||||
return postMessage({id: data.id, results: {values: rows}});
|
||||
}
|
||||
};
|
||||
case 'begin_transaction':
|
||||
db.exec('BEGIN TRANSACTION;');
|
||||
return postMessage({id: data.id, results: []});
|
||||
case 'end_transaction':
|
||||
db.exec('END TRANSACTION;');
|
||||
return postMessage({id: data.id, results: []});
|
||||
case 'rollback_transaction':
|
||||
db.exec('ROLLBACK TRANSACTION;');
|
||||
return postMessage({id: data.id, results: []});
|
||||
default:
|
||||
throw new Error(`Unsupported action: ${data && data.action}`);
|
||||
}
|
||||
} catch (err) {
|
||||
return postMessage({id: data && data.id, error: err?.message ?? String(err)});
|
||||
}
|
||||
};
|
||||
}
|
||||
|
||||
// Error handling wrapper
|
||||
self.onerror = function(event) {
|
||||
console.error("Error in Web Worker:", event.message, event.filename, event.lineno);
|
||||
// Optionally, send the error back to the main thread
|
||||
self.postMessage({ type: 'error', message: event.message, filename: event.filename, lineno: event.lineno });
|
||||
self.onerror = function (event) {
|
||||
console.error("Error in Web Worker:", event.message, event.filename, event.lineno);
|
||||
// Optionally, send the error back to the main thread
|
||||
self.postMessage({type: 'error', message: event.message, filename: event.filename, lineno: event.lineno});
|
||||
};
|
||||
|
||||
try {
|
||||
sqlite3InitModule({
|
||||
print: console.log,
|
||||
printErr: console.error,
|
||||
}).then((sqlite3) => {
|
||||
try {
|
||||
const opfsAvailable = 'opfs' in sqlite3;
|
||||
sqlite3InitModule({
|
||||
print: console.log,
|
||||
printErr: console.error,
|
||||
}).then((sqlite3) => {
|
||||
try {
|
||||
const opfsAvailable = 'opfs' in sqlite3;
|
||||
|
||||
runWorker({
|
||||
driver: {
|
||||
open: (name) => {
|
||||
if (opfsAvailable) {
|
||||
console.log("Initialisiere persistente OPFS Datenbank: " + name);
|
||||
return new sqlite3.oo1.OpfsDb(name);
|
||||
} else {
|
||||
console.warn("OPFS nicht verfügbar, Fallback auf In-Memory");
|
||||
return new sqlite3.oo1.DB(name);
|
||||
}
|
||||
}
|
||||
}
|
||||
});
|
||||
} catch (e) {
|
||||
console.error("Database initialization error in worker (inner):", e);
|
||||
self.postMessage({ type: 'error', message: 'Database initialization failed (inner): ' + e.message });
|
||||
runWorker({
|
||||
driver: {
|
||||
open: (name) => {
|
||||
if (opfsAvailable) {
|
||||
console.log("Initialisiere persistente OPFS Datenbank: " + name);
|
||||
return new sqlite3.oo1.OpfsDb(name);
|
||||
} else {
|
||||
console.warn("OPFS nicht verfügbar, Fallback auf In-Memory");
|
||||
return new sqlite3.oo1.DB(name);
|
||||
}
|
||||
}
|
||||
}
|
||||
});
|
||||
});
|
||||
} catch (e) {
|
||||
console.error("Database initialization error in worker (inner):", e);
|
||||
self.postMessage({type: 'error', message: 'Database initialization failed (inner): ' + e.message});
|
||||
}
|
||||
});
|
||||
} catch (e) {
|
||||
console.error("Database initialization error in worker (outer):", e);
|
||||
self.postMessage({ type: 'error', message: 'Database initialization failed (outer): ' + e.message });
|
||||
console.error("Database initialization error in worker (outer):", e);
|
||||
self.postMessage({type: 'error', message: 'Database initialization failed (outer): ' + e.message});
|
||||
}
|
||||
|
||||
Reference in New Issue
Block a user