| license | MIT |
| name | dn-use-js-interop |
| description | Use when adding, reviewing, or fixing Blazor JavaScript interop — IJSRuntime, IJSObjectReference lifecycle, modules, disposal. |
JS Interop in Blazor
1. Collocated JS Modules
Always use collocated .razor.js files with export — never global window.* functions or <script> tags.
export function initialize(canvas, dotNetRef) { }
export function updateData(points) { }
export function dispose() { }
Import paths: same project = "./Components/ChartPanel.razor.js", RCL = "./_content/{AssemblyName}/...".
2. Lifecycle Timing
All JS interop must happen in OnAfterRenderAsync or event handlers — never in OnInitialized, OnParametersSet, or constructors. JS is not available during server prerendering.
Use a typed interop wrapper (see Section 4) — never call InvokeAsync/InvokeVoidAsync with raw string literals:
private ChartInterop? _chart;
protected override async Task OnAfterRenderAsync(bool firstRender)
{
if (firstRender)
{
_chart = new ChartInterop(JS);
await _chart.InitializeAsync(_canvasRef);
}
}
Parameter changes: set a flag in OnParametersSet, apply in OnAfterRenderAsync:
private bool _dataChanged;
protected override void OnParametersSet() => _dataChanged = true;
protected override async Task OnAfterRenderAsync(bool firstRender)
{
if (firstRender) { }
else if (_dataChanged && _chart is not null)
{
_dataChanged = false;
await _chart.UpdateDataAsync(DataPoints);
}
}
3. Batch Related Operations
Each JS interop call crosses the .NET-to-JS boundary (and in Blazor Server, the SignalR circuit). Batching applies in both directions — .NET→JS and JS→.NET.
.NET → JS: merge consecutive calls
If the C# side makes two or more JS calls in a row, combine them into one JS function:
await _module.InvokeVoidAsync("applyTheme", theme);
await _module.InvokeVoidAsync("applyLocale", locale);
var token = await _module.InvokeAsync<string>("createAccessToken");
await _module.InvokeVoidAsync("storeToken", token);
export function applyPreferences(theme, locale) {
document.documentElement.dataset.theme = theme;
document.documentElement.lang = locale;
}
export function createAndStoreToken() {
const token = crypto.randomUUID();
sessionStorage.setItem('access-token', token);
return token;
}
JS → .NET: batch callbacks
When JS needs to send multiple pieces of data back to .NET, send them in a single invokeMethodAsync call rather than making separate callbacks:
await dotNetRef.invokeMethodAsync(ON_VOLUME_CHANGED, volume);
await dotNetRef.invokeMethodAsync(ON_PLAYBACK_CHANGED, isPlaying);
await dotNetRef.invokeMethodAsync(ON_PLAYER_STATE_CHANGED, { volume, isPlaying });
Rule: if two interop calls always happen together from either side, merge them into one function.
4. Typed Interop Wrapper
Encapsulate interop for a feature in a plain class that owns the module lifecycle:
public sealed class ChartInterop : IAsyncDisposable
{
internal const string ModulePath = "./Components/ChartPanel.razor.js";
internal const string InitMethod = "initialize";
internal const string UpdateMethod = "updateData";
internal const string DisposeMethod = "dispose";
private readonly IJSRuntime _js;
private IJSObjectReference? _module;
public ChartInterop(IJSRuntime js) => _js = js;
private async ValueTask<IJSObjectReference> GetModuleAsync()
=> _module ??= await _js.InvokeAsync<IJSObjectReference>("import", ModulePath);
public async ValueTask InitializeAsync(ElementReference canvas)
{
var module = await GetModuleAsync();
await module.InvokeVoidAsync(InitMethod, canvas);
}
public async ValueTask UpdateDataAsync(IReadOnlyList<DataPoint> points)
{
var module = await GetModuleAsync();
await module.InvokeVoidAsync(UpdateMethod, points);
}
public async ValueTask DisposeAsync()
{
try
{
if (_module is not null)
{
await _module.InvokeVoidAsync(DisposeMethod);
await _module.DisposeAsync();
}
}
catch (JSDisconnectedException) { }
}
}
The component creates and uses the wrapper with no magic strings:
@inject IJSRuntime JS
@implements IAsyncDisposable
<canvas @ref="_canvasRef" width="600" height="400"></canvas>
@code {
private ElementReference _canvasRef;
private ChartInterop? _chart;
protected override async Task OnAfterRenderAsync(bool firstRender)
{
if (firstRender)
{
_chart = new ChartInterop(JS);
await _chart.InitializeAsync(_canvasRef);
}
}
async ValueTask IAsyncDisposable.DisposeAsync()
{
if (_chart is not null)
await _chart.DisposeAsync();
}
}
Prefer a concrete class over interface + implementation for interop wrappers. For unit testing, substitute IJSRuntime directly (it is already an interface).
5. DotNetObjectReference for JS-to-.NET Callbacks
_dotNetRef = DotNetObjectReference.Create(this);
await _module.InvokeVoidAsync("initialize", _dotNetRef);
On the JS side, wrap the dotNetRef in a class. Use async/await with try/catch (not .catch()) to guard against circuit loss. Define .NET method name constants at the top:
const ON_CLIPBOARD_CHANGED = 'OnClipboardChanged';
class ClipboardMonitor {
#dotNetRef;
#abortController;
constructor(dotNetRef) {
this.#dotNetRef = dotNetRef;
this.#abortController = new AbortController();
}
start() {
document.addEventListener('copy', async () => {
try {
const text = await navigator.clipboard.readText();
await this.#dotNetRef.invokeMethodAsync(ON_CLIPBOARD_CHANGED, text);
} catch { }
}, { signal: this.#abortController.signal });
}
dispose() {
this.#abortController.abort();
}
}
let monitor;
export function initialize(dotNetRef) {
monitor = new ClipboardMonitor(dotNetRef);
monitor.start();
}
export function dispose() {
monitor?.dispose();
}
Rules:
6. Disposal and Server Safety
Always implement IAsyncDisposable. Call JS cleanup first, then dispose references. Catch JSDisconnectedException for Blazor Server circuit loss:
public async ValueTask DisposeAsync()
{
try
{
if (_module is not null)
{
await _module.InvokeVoidAsync("dispose");
await _module.DisposeAsync();
}
}
catch (JSDisconnectedException) { }
_dotNetRef?.Dispose();
}
Never use sync IDisposable for JS interop cleanup — InvokeVoidAsync returns ValueTask and must be awaited.
7. ElementReference
Pass DOM elements via @ref, not string IDs:
<canvas @ref="_canvasRef" width="600" height="400"></canvas>
await _chart.InitializeAsync(_canvasRef);
Checklist
Common Mistakes Checklist
| Mistake | Fix |
|---|
| Using JS for something achievable with CSS | Use CSS custom properties, data- attributes, pseudo-classes |
| Many fine-grained interop calls | Batch into coarse functions — both .NET→JS and JS→.NET |
| Component imports JS module directly | Encapsulate in a strongly typed interop class |
| Magic strings for method names / module paths | Define internal const fields in the interop class |
| Interface + implementation for interop wrapper | Use a plain class; mock IJSRuntime for tests instead |
JS calls in OnInitializedAsync | Move to OnAfterRenderAsync(firstRender) |
InvokeAsync<object> for void calls | Use InvokeVoidAsync |
IDisposable with fire-and-forget JS | Use IAsyncDisposable with await |
Global window.* JS functions | Use collocated .razor.js with export |
| String element IDs passed to JS | Use ElementReference with @ref |
[JSInvokable] on private method | Must be public — silently fails otherwise |
DotNetObjectReference not disposed | Dispose in DisposeAsync — causes memory leak |
StateHasChanged() without InvokeAsync | Wrap in await InvokeAsync(() => { StateHasChanged(); }) |
JS invokeMethodAsync without error handling | Wrap in try/catch — circuit loss throws |
Bare dotNetRef in JS event handlers | Wrap in a class with #dotNetRef private field |
Magic strings in JS invokeMethodAsync calls | Use const at module top — typos silently fail at runtime |
JS calls in OnParametersSetAsync | Track changes, apply in OnAfterRenderAsync with guard |
| No null check before calling module | Check module is not null before use |