NetEscapades.AspNetCore.SecurityHeaders
1.0.0-preview.2
dotnet add package NetEscapades.AspNetCore.SecurityHeaders --version 1.0.0-preview.2
NuGet\Install-Package NetEscapades.AspNetCore.SecurityHeaders -Version 1.0.0-preview.2
<PackageReference Include="NetEscapades.AspNetCore.SecurityHeaders" Version="1.0.0-preview.2" />
paket add NetEscapades.AspNetCore.SecurityHeaders --version 1.0.0-preview.2
#r "nuget: NetEscapades.AspNetCore.SecurityHeaders, 1.0.0-preview.2"
// Install NetEscapades.AspNetCore.SecurityHeaders as a Cake Addin #addin nuget:?package=NetEscapades.AspNetCore.SecurityHeaders&version=1.0.0-preview.2&prerelease // Install NetEscapades.AspNetCore.SecurityHeaders as a Cake Tool #tool nuget:?package=NetEscapades.AspNetCore.SecurityHeaders&version=1.0.0-preview.2&prerelease
NetEscapades.AspNetCore.SecurityHeaders
A small package to allow adding security headers to ASP.NET Core websites
Installing
Install using the NetEscapades.AspNetCore.SecurityHeaders NuGet package from the Visual Studio Package Manager Console:
PM> Install-Package NetEscapades.AspNetCore.SecurityHeaders
Or using the dotnet
CLI
dotnet add package NetEscapades.AspNetCore.SecurityHeaders --version 1.0.0-preview.2
Usage
When you install the package, it should be added to your .csproj
. Alternatively, you can add it directly by adding:
<Project Sdk="Microsoft.NET.Sdk.Web">
<PropertyGroup>
<TargetFramework>netcoreapp5.0</TargetFramework>
</PropertyGroup>
<ItemGroup>
<PackageReference Include="NetEscapades.AspNetCore.SecurityHeaders" Version="1.0.0-preview.2" />
</ItemGroup>
</Project>
There are various ways to configure the headers for your application.
In the simplest scenario, add the middleware to your ASP.NET Core application by configuring it as part of your normal Startup
pipeline (or WebApplication
in .NET 6+).
Note that the order of middleware matters, so to apply the headers to all requests it should be configured first in your pipeline.
To use the default security headers for your application, add the middleware using:
public void Configure(IApplicationBuilder app)
{
app.UseSecurityHeaders();
// other middleware e.g. static files, MVC etc
}
This adds the following headers to all responses that pass through the middleware:
X-Content-Type-Options: nosniff
Strict-Transport-Security: max-age=31536000; includeSubDomains
- only applied to HTTPS responsesX-Frame-Options: Deny
Referrer-Policy: strict-origin-when-cross-origin
Content-Security-Policy: object-src 'none'; form-action 'self'; frame-ancestors 'none'
Cross-Origin-Opener-Policy: same-origin
Note that these policies represent a "safe" set of minimum defaults that should be valid for most sites, but are not the most secure they could be. You are advised to think about what features you need, and to restrict them where possible. For example, a stronger Content Security Policy should be used where possible, as well as a Permissions Policy.
Customising the security headers added to responses
To customise the headers returned, you should create an instance of a HeaderPolicyCollection
and add the required policies to it. There are helper methods for adding a number of security-focused header values to the collection, or you can alternatively add any header by using the CustomHeader
type. For example, the following would set a number of security headers, and a custom header X-My-Test-Header
.
public void Configure(IApplicationBuilder app)
{
var policyCollection = new HeaderPolicyCollection()
.AddFrameOptionsDeny()
.AddContentTypeOptionsNoSniff()
.AddStrictTransportSecurityMaxAgeIncludeSubDomains(maxAgeInSeconds: 60 * 60 * 24 * 365) // maxage = one year in seconds
.AddReferrerPolicyStrictOriginWhenCrossOrigin()
.RemoveServerHeader()
.AddContentSecurityPolicy(builder =>
{
builder.AddObjectSrc().None();
builder.AddFormAction().Self();
builder.AddFrameAncestors().None();
})
.AddCrossOriginOpenerPolicy(x => x.SameOrigin());
.AddCustomHeader("X-My-Test-Header", "Header value");
app.UseSecurityHeaders(policyCollection);
// other middleware e.g. static files, MVC etc
}
The security headers above are also encapsulated in another extension method, so you could rewrite it more tersely using
public void Configure(IApplicationBuilder app)
{
var policyCollection = new HeaderPolicyCollection()
.AddDefaultSecurityHeaders()
.AddCustomHeader("X-My-Test-Header", "Header value");
app.UseSecurityHeaders(policyCollection);
// other middleware e.g. static files, MVC etc
}
If you want to use the default security headers, but change one specific header, you can simply add another header to the default collection. For example, the following uses the default headers, but changes the max-age on the Strict-Transport-Security
header:
public void Configure(IApplicationBuilder app)
{
var policyCollection = new HeaderPolicyCollection()
.AddDefaultSecurityHeaders()
.AddStrictTransportSecurityMaxAgeIncludeSubDomains(maxAgeInSeconds: 63072000);
app.UseSecurityHeaders(policyCollection);
// other middleware e.g. static files, MVC etc
}
There is also a convenience overload for UseSecurityHeaders
that takes an Action<HeaderPolicyCollection>
, instead of requiring you to instantiate a HeaderPolicyCollection
yourself:
public void Configure(IApplicationBuilder app)
{
app.UseSecurityHeaders(policies =>
policies
.AddDefaultSecurityHeaders()
.AddStrictTransportSecurityMaxAgeIncludeSubDomains(maxAgeInSeconds: 63072000)
);
// other middleware e.g. static files, MVC etc
}
Applying different headers to different endpoints
In some situations, you may need to apply different security headers to different endpoints. For example, you may want to have a very restrictive Content-Security-Policy by default, but then have a more relaxed on specific endpoints that require it. This is supported, but requires more configuration.
1. Configure your policies using AddSecurityHeaderPolicies()
You can configure named and default policies by calling AddSecurityHeaderPolicies()
on IServiceCollection
. You can configure the default policy to use, as well as any named policies. For example, the following configures the default policy (used for all requests that are not customised for an endpoint), and a named policy:
var builder = WebApplication.CreateBuilder();
// 👇 Call AddSecurityHeaderPolicies()
builder.Services.AddSecurityHeaderPolicies()
.SetDefaultPolicy(policy => policy.AddDefaultSecurityHeaders()) // 👈 Configure the default policy
.AddPolicy("CustomPolicy", policy => policy.AddCustomHeader("X-Custom", "SomeValue")); // 👈 Configure named policies
2. Call UseSecurityHeaders()
early in the middleware pipeline
The security headers middleware can only add headers to all requests if it is early in the middleware pipeline, so it's important to add the headers middleware at the start of your middleware pipeline by calling UseSecurityHeaders()
. For example:
var builder = WebApplication.CreateBuilder();
// 👇 Configure policies as shown previously
builder.Services.AddSecurityHeaderPolicies()
.SetDefaultPolicy(policy => policy.AddDefaultSecurityHeaders())
.AddPolicy("CustomPolicy", policy => policy.AddCustomHeader("X-Custom", "SomeValue"));
var app = builder.Build();
// Add the middleware to the start of your pipeline
// 👇
app.UseSecurityHeaders();
app.UseStaticFiles(); // other middleware
app.UseAuthentication();
app.UseRouting();
app.UseAuthorization();
app.MapGet("/", () => "Hello world");
app.Run();
3. Apply custom policies to endpoints
To apply a non-default policy to an endpoint, use the WithSecurityHeadersPolicy(policy)
endpoint extension method, and pass in the name of the policy to apply:
var builder = WebApplication.CreateBuilder();
builder.Services.AddSecurityHeaderPolicies()
.SetDefaultPolicy(policy => policy.AddDefaultSecurityHeaders())
.AddPolicy("CustomPolicy", policy => policy.AddCustomHeader("X-Custom", "SomeValue"));
var app = builder.Build();
app.UseSecurityHeaders();
app.UseStaticFiles();
app.UseAuthentication();
app.UseRouting();
app.UseEndpointSecurityHeaders();
app.UseAuthorization();
app.MapGet("/", () => "Hello world")
.WithSecurityHeadersPolicy("CustomPolicy"); // 👈 Apply a named policy to the endpoint
app.Run();
If you're using MVC controllers or Razor Pages, you can apply the [SecurityHeadersPolicy(policyName)]
attribute to your endpoints:
public class HomeController : ControllerBase
{
[SecurityHeadersPolicy("CustomHeader")] // 👈 Apply a named policy to the endpoint
public IActionResult Index()
{
return View();
}
}
Security headers are applied just before the response is sent. If you use the configuration described above, then the policy to apply is determined as follows, with the first applicable policy selected:
- If an endpoint has been selected, and a named policy is applied, use that.
- If a named or policy instance is passed to the
SecurityHeadersMiddleware()
, use that. - If the default policy has been set using
SetDefaultPolicy()
, use that. - Otherwise, apply the default headers (those added by
AddDefaultSecurityHeaders()
)
Customizing the headers per request
If you need to use a different set of security headers for certain endpoints in your application, then configuring named policies as described above is the best approach.
However, sometimes you need even more customization on a per-request basis. For example, perhaps you have a multi-tenant application, and you need to apply different headers based on a header in the request (or the response) that identifies the tenant. In this situation, you don't know at application startup which set of headers to apply.
To customize the final HeaderPolicyCollection
used for a request, you can use the SetPolicySelector()
method available on IServiceCollection.AddSecurityHeaderPolicies()
. This method take a Func<>
argument which is passed a context object, and must return an IReadOnlyHeaderPolicyCollection
. The SetPolicySelector()
argument is invoked for every request, just before the final selected policy is applied, and allows you to change the IReadOnlyHeaderPolicyCollection
to apply.
The following code shows how to use a dependency injected service in combination with the SetPolicySelector()
method. This isn't necessary, but rather shows that you can completely customise the applied headers in any way you need.
var builder = WebApplication.CreateBuilder();
// 👇 a custom service that selects the policy based on tenants
builder.Services.AddScoped<TenantHeaderPolicyCollectionSelector>();
builder.Services.AddSecurityHeaderPolicies()
.AddPolicy(policyName, p => p.AddCustomHeader("Custom-Header", "MyValue"))
.SetPolicySelector((PolicySelectorContext ctx) =>
{
// Use services from the DI container (if you need to)
IServiceProvider services = ctx.HttpContext.RequestServices;
var selector = services.GetService<TenantHeaderPolicyCollectionSelector>();
var tenant = services.GetService<ITenant>();
return selector.GetPolicy(tenant);
});
Note that you should avoid creating a HeaderPolicyCollection
from scratch on each request. Instead, cache policies for multiple requests where possible. However, if you need to build a new policy based on the policy passed in the context object, you can create a mutable copy by calling IReadOnlyHeaderPolicyCollection.Copy()
, adding/updating policies as required, and returning the HeaderPolicyCollection
.
Applying different headers to JSON API endpoints
As described in the OWASP guidance about security headers, APIs that return only JSON do not require all the security headers added by AddDefaultSecurityHeaders()
. If your API may return HTML or content other than JSON, it may be safest to use the default security headers nonetheless. If not, you can use the AddDefaultApiSecurityHeaders()
method to apply a subset of headers. This method sets the following headers:
X-Content-Type-Options: nosniff
Strict-Transport-Security: max-age=31536000; includeSubDomains
- only applied to HTTPS responsesX-Frame-Options: Deny
Content-Security-Policy: default-src: none; frame-ancestors 'none'
Referrer-Policy: no-referrer
Permissions-Policy: accelerometer=(), autoplay=(), camera=(), display-capture=(), encrypted-media=(), fullscreen=(), geolocation=(), gyroscope=(), magnetometer=(), microphone=(), midi=(), payment=(), picture-in-picture=(), publickey-credentials-get=(), screen-wake-lock=(), sync-xhr=(), usb=(), web-share=(), xr-spatial-tracking=()
Apply it in the same way to your header policy collection:
public void Configure(IApplicationBuilder app)
{
var policyCollection = new HeaderPolicyCollection()
.AddApiDefaultSecurityHeaders();
app.UseSecurityHeaders(policyCollection);
}
this is equivalent to
public void Configure(IApplicationBuilder app)
{
var policyCollection = new HeaderPolicyCollection()
.AddFrameOptionsDeny()
.AddContentTypeOptionsNoSniff()
.AddStrictTransportSecurityMaxAge()
.RemoveServerHeader()
.AddContentSecurityPolicy(builder =>
{
builder.AddDefaultSrc().None();
builder.AddFrameAncestors().None();
})
.AddReferrerPolicyNoReferrer()
.AddPermissionsPolicyWithDefaultSecureDirectives();
app.UseSecurityHeaders(policyCollection);
}
RemoveServerHeader
One point to be aware of is that the RemoveServerHeader
method will rarely (ever?) be sufficient to remove the Server
header from your output. If any subsequent middleware in your application pipeline add the header, then this will be able to remove it. However Kestrel will generally add the Server
header too late in the pipeline to be able to modify it.
Luckily, Kestrel exposes it's own mechanism to allow you to prevent it being added:
var host = new WebHostBuilder()
.UseKestrel(options => options.AddServerHeader = false)
//...
In Program.cs
, when constructing your app's WebHostBuilder
, configure the KestrelServerOptions
to prevent the Server
tag being added.
AddContentSecurityPolicy
The Content-Security-Policy
(CSP) header is a very powerful header that can protect your website from a wide range of attacks. However, it's also totally possible to create a CSP header that completely breaks your app.
The CSP has a dizzying array of options, only some of which are implemented in this project. Consequently, I highly recommend reading this post by Scott Helme, in which he discusses the impact of each "directive". I also highly recommend using the "report only" version of the header when you start. This won't break your site, but will report instances that it would be broken, by providing reports to a service such as report-uri.com.
Set the header to report-only by using the AddContentSecurityPolicyReportOnly()
extension. For example:
public void Configure(IApplicationBuilder app)
{
var policyCollection = new HeaderPolicyCollection()
.AddContentSecurityPolicyReportOnly(builder => // report-only
{
// configure policies
});
}
or by passing true
to the AddContentSecurityPolicy
command
public void Configure(IApplicationBuilder app)
{
var policyCollection = new HeaderPolicyCollection()
.AddContentSecurityPolicy(builder =>
{
// configure policies
},
asReportOnly: true); // report-only
}
You configure your CSP policy when you configure your HeaderPolicyCollection
in Startup.Configure
. For example:
public void Configure(IApplicationBuilder app)
{
var policyCollection = new HeaderPolicyCollection()
.AddContentSecurityPolicy(builder =>
{
builder.AddUpgradeInsecureRequests(); // upgrade-insecure-requests
builder.AddBlockAllMixedContent(); // block-all-mixed-content
builder.AddReportUri() // report-uri: https://report-uri.com
.To("https://report-uri.com");
builder.AddDefaultSrc() // default-src 'self' http://testUrl.com
.Self()
.From("http://testUrl.com");
builder.AddConnectSrc() // connect-src 'self' http://testUrl.com
.Self()
.From("http://testUrl.com");
builder.AddFontSrc() // font-src 'self'
.Self();
builder.AddObjectSrc() // object-src 'none'
.None();
builder.AddFormAction() // form-action 'self'
.Self();
builder.AddImgSrc() // img-src https:
.OverHttps();
builder.AddScriptSrc() // script-src 'self' 'unsafe-inline' 'unsafe-eval' 'report-sample'
.Self()
.UnsafeInline()
.UnsafeEval()
.ReportSample();
builder.AddStyleSrc() // style-src 'self' 'strict-dynamic'
.Self()
.StrictDynamic();
builder.AddMediaSrc() // media-src https:
.OverHttps();
builder.AddFrameAncestors() // frame-ancestors 'none'
.None();
builder.AddBaseUri() // base-ri 'self'
.Self();
builder.AddFrameSource() // frame-src http://testUrl.com
.From("http://testUrl.com");
// You can also add arbitrary extra directives: plugin-types application/x-shockwave-flash"
builder.AddCustomDirective("plugin-types", "application/x-shockwave-flash");
})
.AddCustomHeader("X-My-Test-Header", "Header value");
app.UseSecurityHeaders(policyCollection);
// other middleware e.g. static files, MVC etc
}
AddPermissionsPolicy
The permissions-policy
is a header that allows a site to control which features and APIs can be used in the browser. It is similar to CSP but controls features instead of security behaviour.
With Permissions-Policy, you opt-in to a set of "policies" for the browser to enforce on specific features used throughout a website. These policies restrict what APIs the site can access or modify the browser's default behaviour for certain features.
By adding Permissions-Policy to headers to your website, you can ensure that sensitive APIs like geolocation or the camera cannot be used, even if your site is otherwise compromised, for example by malicious third-party attacks.
For more information about the permissions, I recommend the following resources:
- Scott Helme's introduction to Permissions-Policy: https://scotthelme.co.uk/goodbye-feature-policy-and-hello-permissions-policy/
- The list of policy-controlled permissions: https://www.w3.org/TR/permissions-policy-1/
- MDN documentation: https://developer.mozilla.org/en-US/docs/Web/HTTP/Feature_Policy
- Google's introduction to Feature-Policy: https://developers.google.com/web/updates/2018/06/feature-policy
You configure your Permissions-Policy when you configure your HeaderPolicyCollection
in Startup.Configure
. For example:
public void Configure(IApplicationBuilder app)
{
var policyCollection = new HeaderPolicyCollection()
.AddPermissionsPolicy(builder =>
{
builder.AddAccelerometer() // accelerometer 'self' http://testUrl.com
.Self()
.For("http://testUrl.com");
builder.AddAutoplay() // autoplay 'self'
.Self();
builder.AddCamera() // camera 'none'
.None();
builder.AddEncryptedMedia() // encrypted-media 'self'
.Self();
builder.AddFullscreen() // fullscreen *:
.All();
builder.AddGeolocation() // geolocation 'none'
.None();
builder.AddGyroscope() // gyroscope 'none'
.None();
builder.AddMagnetometer() // magnetometer 'none'
.None();
builder.AddMicrophone() // microphone 'none'
.None();
builder.AddMidi() // midi 'none'
.None();
builder.AddPayment() // payment 'none'
.None();
builder.AddPictureInPicture() // picture-in-picture 'none'
.None();
builder.AddSpeaker() // speaker 'none'
.None();
builder.AddSyncXHR() // sync-xhr 'none'
.None();
builder.AddUsb() // usb 'none'
.None();
builder.AddVR() // vr 'none'
.None();
// You can also add arbitrary extra directives: plugin-types application/x-shockwave-flash"
builder.AddCustomFeature("plugin-types", "application/x-shockwave-flash");
// If a new feature policy is added that follows the standard conventions, you can use this overload
// iframe 'self' http://testUrl.com
builder.AddCustomFeature("iframe") //
.Self()
.For("http://testUrl.com");
});
app.UseSecurityHeaders(policyCollection);
// other middleware e.g. static files, MVC etc
}
If you want to lock down your permissions policy, you can use
var policyCollection = new HeaderPolicyCollection()
.AddPermissionsPolicyWithDefaultSecureDirectives();
This applies a "secure" policy based on the suggested by OWASP for APIs:
Permissions-Policy: accelerometer=(), autoplay=(), camera=(), display-capture=(), encrypted-media=(), fullscreen=(), geolocation=(), gyroscope=(), magnetometer=(), microphone=(), midi=(), payment=(), picture-in-picture=(), publickey-credentials-get=(), screen-wake-lock=(), sync-xhr=(), usb=(), web-share=(), xr-spatial-tracking=()
Alternatively, if you want to relax some of these directives, you can use the builder version:
var policyCollection = new HeaderPolicyCollection()
.AddPermissionsPolicy(builder =>
{
// add all the default versions
builder.AddDefaultSecureDirectives();
// override a directive
builder.AddGeolocation().Self(); // geolocation 'self'
});
Using Nonces and generated-hashes with Content-Security-Policy
The use of a secure Content-Security-Policy can sometimes be problematic when you need to include inline-scripts, styles, or other objects that haven't been allow-listed. You can achieve this in two ways - using a "nonce" (or "number-used-once"), or specifying the hash of the content to include.
To help with this you can install the NetEscapades.AspNetCore.SecurityHeaders.TagHelpers package, which provides helpers for generating a nonce per request, which is attached to the HTML element, and included in the CSP header. A similar method helper exists for <style>
and <script>
tags, which will take a SHA256 hash of the contents of the HTML element and add it to the CSP allow-list. For inline styles, and inline event handlers, there is an helper that supports generating hashes for the contents of such attribute.
To use a nonce or an auto-generated hash with your ASP.NET Core application, use the following steps.
1. Install the NetEscapades.AspNetCore.SecurityHeaders.TagHelpers NuGet package
For example:
dotnet package add Install-Package NetEscapades.AspNetCore.SecurityHeaders.TagHelpers --version 1.0.0-preview.2
This adds the package to your .csproj file:
<Project Sdk="Microsoft.NET.Sdk.Web">
<PropertyGroup>
<TargetFramework>netcoreapp3.1</TargetFramework>
</PropertyGroup>
<ItemGroup>
<PackageReference Include="NetEscapades.AspNetCore.SecurityHeaders" Version="1.0.0-preview.2" />
<PackageReference Include="NetEscapades.AspNetCore.SecurityHeaders.TagHelpers" Version="1.0.0-preview.2" />
</ItemGroup>
</Project>
2. Configure your CSP to use nonces and/or hashes
Configure your security headers in the usual way. Use the WithNonce()
extension method when configuring ContentSecurityPolicy
directives to enable allow-listing with a nonce. Use the WithHashTagHelper()
extension methods on script-src
and style-src
directives to allow automatic generation of allow-listed inline-scripts
public void Configure(IApplicationBuilder app)
{
var policyCollection = new HeaderPolicyCollection()
.AddContentSecurityPolicy(builder =>
{
builder.AddUpgradeInsecureRequests();
builder.AddDefaultSrc() // default-src 'self' http://testUrl.com
.Self()
.From("http://testUrl.com");
builder.AddScriptSrc() // script-src 'self' 'unsafe-inline' 'nonce-<base64-value>'
.Self()
.UnsafeInline()
.WithNonce(); // Allow elements marked with a nonce attribute
builder.AddStyleSrc() // style-src 'self' 'strict-dynamic' 'sha256-<base64-value>'
.Self()
.StrictDynamic()
.WithHashTagHelper().UnsafeHashes(); // Allow allowlisted elements based on their SHA256 hash value
})
.AddCustomHeader("X-My-Test-Header", "Header value");
app.UseSecurityHeaders(policyCollection);
// other middleware e.g. static files, MVC etc
}
3. Add a using directive for the TagHelpers
Add the following to the _ViewImports.cshtml file in your application. This makes the tag-helper available in your Razor views.
@addTagHelper *, NetEscapades.AspNetCore.SecurityHeaders.TagHelpers
4. Allow-list elements using the TagHelpers
Add the NonceTagHelper
to an element by adding the asp-add-nonce
attribute.
<script asp-add-nonce>
var body = document.getElementsByTagName('body')[0];
var div = document.createElement('div');
div.innerText = "I was added using the NonceHelper";
body.appendChild(div);
</script>
This will use a unique value per-request and attach the required attribute at runtime, to generate markup similar to the following:
<script nonce="ryPzmoZScSR2xOwV0qTU9mFdFwGPN+gy3S2E1/VK1vg=">
var body = document.getElementsByTagName('body')[0];
var blink = document.createElement('div');
blink.innerText = "And I was added using the NonceHelper";
body.appendChild(blink);
</script>
Note that some browsers will hide the value of the
nonce
attribute when viewed from DevTools. View the page source to see the raw nonce value
While the CSP policy would look something like the following:
Content-Security-Policy: script-src 'self' 'unsafe-inline' 'nonce-ryPzmoZScSR2xOwV0qTU9mFdFwGPN+gy3S2E1/VK1vg='; style-src 'self' 'strict-dynamic'; default-src 'self' http://testUrl.com
To use an allow-listed hash instead, use the HashTagHelper
, by adding the asp-add-content-to-csp
attribute to <script>
or <style>
tags. You can optionally add the csp-hash-type
attribute to choose between SHA256, SHA384, and SHA512:
<script asp-add-content-to-csp>
var msg = document.getElementById('message');
msg.innerText = "I'm allowed";
</script>
<style asp-add-content-to-csp csp-hash-type="SHA384">
#message {
color: @color;
}
</style>
At runtime, these attributes are removed, but the hash values of the contents are added to the Content-Security-Policy header
.
5. Allow-list attributes using the TagHelpers
Inline styles, and event handlers don't support nonces, but there is a dedicated tag helper that supports hashing attributes: AttributeHashTagHelper
. This works similar to the tag helper for elements, but add the asp-add-csp-for-*
attribute where *
is the name of the attribute to hash, like this:
<h3 asp-add-csp-for-style style="color: red">I will be styled red</h3>
Multiple occurrences of this attribute is supported using different values for *
in case you need to hash multiple attributes. You can still set the hash type by setting that on the attribute asp-add-csp-for-*
directly (SHA256, SHA384, and SHA512 are still the valid options here):
<button asp-add-csp-for-style style="color: red" asp-add-csp-for-onclick="SHA384" onclick="alert('Hello!')">Click me!</button>
At runtime, these attributes are removed, but the hash values of the contents are added to the Content-Security-Policy header
.
Using the generated nonce without a TagHelpers
If you aren't using Razor, or don't want to use the TagHelpers library, you can access the Nonce for a request using an extension method on HttpContext
:
string nonce = HttpContext.GetNonce();
Additional Resources
- ASP.NET Core Middleware Docs
- How to add default security headers in ASP.NET Core using custom middleware
- Content Security Policy - An Introduction by Scott Helme
- Content Security Policy Reference
- Content Security Policy (CSP) by Mozilla Developer Network
- OWASP Content Security Policy Cheatsheat
- OWASP REST security header guidance
- OWASP HTTP Headers guidance
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET | net5.0 was computed. net5.0-windows was computed. net6.0 was computed. net6.0-android was computed. net6.0-ios was computed. net6.0-maccatalyst was computed. net6.0-macos was computed. net6.0-tvos was computed. net6.0-windows was computed. net7.0 was computed. net7.0-android was computed. net7.0-ios was computed. net7.0-maccatalyst was computed. net7.0-macos was computed. net7.0-tvos was computed. net7.0-windows was computed. net8.0 was computed. net8.0-android was computed. net8.0-browser was computed. net8.0-ios was computed. net8.0-maccatalyst was computed. net8.0-macos was computed. net8.0-tvos was computed. net8.0-windows was computed. |
.NET Core | netcoreapp3.1 is compatible. |
-
.NETCoreApp 3.1
- No dependencies.
NuGet packages (25)
Showing the top 5 NuGet packages that depend on NetEscapades.AspNetCore.SecurityHeaders:
Package | Downloads |
---|---|
NetEscapades.AspNetCore.SecurityHeaders.TagHelpers
Tag Helpers for the ASP.NET Core Security Headers middleware for adding Nonces for use with SecurityHeadersMiddleware |
|
Ark.Tools.AspNetCore
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|
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This NuGet package contains Asp Net extensions Layer for Indigina projects. |
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Package Description |
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thangchung/clean-architecture-dotnet
🕸 Yet Another .NET Clean Architecture, but for Microservices project. It uses Minimal Clean Architecture with DDD-lite, CQRS-lite, and just enough Cloud-native patterns apply on the simple eCommerce sample and run on Tye with Dapr extension 🍻
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VirtoCommerce/vc-platform
Virto Commerce B2B Innovation Platform
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grandnode/grandnode2
Open-Source eCommerce Platform on .NET Core, MongoDB, AWS DocumentDB, Azure CosmosDB, LiteDB & Vue.js
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Version | Downloads | Last updated |
---|---|---|
1.0.0-preview.2 | 1,337 | 10/31/2024 |
1.0.0-preview.1 | 5,667 | 9/28/2024 |
0.24.0 | 172,272 | 9/12/2024 |
0.23.0 | 72,262 | 8/26/2024 |
0.22.0 | 259,080 | 6/14/2024 |
0.21.0 | 1,190,970 | 9/29/2023 |
0.20.0 | 297,182 | 7/10/2023 |
0.19.0 | 82,743 | 6/12/2023 |
0.18.0 | 774,025 | 1/2/2023 |
0.17.0 | 823,036 | 6/28/2022 |
0.16.1 | 2,125,852 | 11/23/2021 |
0.16.0 | 290,536 | 8/1/2021 |
0.15.0 | 166,109 | 6/26/2021 |
0.14.0 | 174,622 | 4/21/2021 |
0.13.0 | 127,496 | 2/9/2021 |
0.12.1 | 314,896 | 10/2/2020 |
0.12.0 | 2,553 | 10/1/2020 |
0.11.2 | 117,065 | 7/27/2020 |
0.11.1 | 1,187 | 7/27/2020 |
0.11.0 | 643,106 | 10/31/2019 |
0.10.0 | 18,113 | 9/27/2019 |
0.9.0 | 473,213 | 10/28/2018 |
0.8.0 | 27,448 | 10/10/2018 |
0.7.1 | 13,058 | 8/29/2018 |
0.7.0 | 71,251 | 1/14/2018 |
0.6.0 | 5,803 | 12/11/2017 |
0.5.0 | 1,945 | 12/5/2017 |
0.4.1 | 30,145 | 9/27/2017 |
0.3.1 | 54,995 | 4/14/2017 |
0.3.0 | 8,334 | 3/1/2017 |
0.2.1 | 14,276 | 9/14/2016 |
0.1.1 | 1,840 | 8/12/2016 |
0.1.0 | 6,384 | 8/2/2016 |
0.1.0-beta-0003 | 1,335 | 6/2/2016 |
Features:
* Allow accessing an `IServiceProvider` when configuring a `SecurityHeaderPolicyBuilder` #200
Fixes:
* Fix incorrect dependency on obsolete Microsoft.AspNetCore.Mvc.Razor package #205 (Thanks trejjam!)
Breaking Changes:
* Remove ambient-light-sensor=() from `DefaultSecureDirectives()` for permissions policy #203 (Thanks damienbod!)
* Update COOP, COEP, and CORP for `AddDefaultSecurityHeaders()` and `AddDefaultApiSecurityHeaders()` #204 (Thanks damienbod!)
See https://github.com/andrewlock/NetEscapades.AspNetCore.SecurityHeaders/blob/master/CHANGELOG.md#v100 for more details.