Falco 3.1.14
See the version list below for details.
dotnet add package Falco --version 3.1.14
NuGet\Install-Package Falco -Version 3.1.14
<PackageReference Include="Falco" Version="3.1.14" />
paket add Falco --version 3.1.14
#r "nuget: Falco, 3.1.14"
// Install Falco as a Cake Addin #addin nuget:?package=Falco&version=3.1.14 // Install Falco as a Cake Tool #tool nuget:?package=Falco&version=3.1.14
Falco
open Falco
open Falco.Routing
open Falco.HostBuilder
webHost [||] {
endpoints [
get "/" (Response.ofPlainText "Hello World")
]
}
Falco is a toolkit for building fast, functional-first and fault-tolerant web applications using F#.
- Built upon the high-performance primitives of ASP.NET Core.
- Optimized for building HTTP applications quickly.
- Seamlessly integrates with existing .NET Core middleware and frameworks.
Key Features
- Asynchronous request handling.
- Simple and powerful routing API.
- Fast, secure and configurable web server.
- Native F# view engine.
- Uniform API for model binding.
- Authentication and security utilities.
- Built-in support for large uploads.
Design Goals
- Provide a toolset to build a working full-stack web application.
- Can be easily learned.
- Should be extensible.
Table of Contents
- Getting Started
- Sample Applications
- Request Handling
- Routing
- Model Binding
- JSON
- Markup
- Host Builder
- Authentication
- Security
- Why "Falco"?
- Find a bug?
- License
Getting Started
Using dotnet new
The easiest way to get started with Falco is by installing the Falco.Template
package, which adds a new template to your dotnet new
command line tool:
dotnet new -i "Falco.Template::*"
Afterwards you can create a new Falco application by running:
dotnet new falco -o HelloWorldApp
Manually installing
Create a new F# web project:
dotnet new web -lang F# -o HelloWorldApp
Install the nuget package:
dotnet add package Falco
Remove the Startup.fs
file and save the following in Program.fs
(if following the manual install path):
module HelloWorld.Program
open Falco
open Falco.Routing
open Falco.HostBuilder
[<EntryPoint>]
let main args =
webHost args {
endpoints [
get "/" (Response.ofPlainText "Hello World")
]
}
0
Run the application:
dotnet run
There you have it, an industrial-strength Hello World web app, achieved using only base ASP.NET Core libraries. Pretty sweet!
Sample Applications
Code is always worth a thousand words, so for the most up-to-date usage, the /samples directory contains a few sample applications.
Sample | Description |
---|---|
Hello World | A basic hello world app |
Configure Host | Demonstrating how to configure the IHost instance using the webHost computation expression |
Blog | A basic markdown (with YAML frontmatter) blog |
Third-part View Engine | Demonstrating how to render with an external view engine, specifically Scriban |
Falco Journal | A bullet journal built using Falco |
Request Handling
The HttpHandler
type is used to represent the processing of a request. It can be thought of as the eventual (i.e. asynchronous) completion and processing of an HTTP request, defined in F# as: HttpContext -> Task
. Handlers will typically involve some combination of: route inspection, form/query binding, business logic and finally response writing. With access to the HttpContext
you are able to inspect all components of the request, and manipulate the response in any way you choose.
Basic request/response handling is divided between the aptly named Request
and Response
modules, which offer a suite of continuation-passing style (CPS) HttpHandler
functions for common scenarios.
Plain Text responses
let textHandler : HttpHandler =
Response.ofPlainText "hello world"
HTML responses
let htmlHandler : HttpHandler =
let html =
Elem.html [ Attr.lang "en" ] [
Elem.head [] []
Elem.body [] [
Elem.h1 [] [ Text.raw "Sample App" ]
]
]
Response.ofHtml html
Alternatively, if you're using an external view engine and want to return an HTML response from a string literal, then you can use Response.ofHtmlString
.
let htmlHandler : HttpHandler =
Response.ofHtmlString "<html>...</html>"
JSON responses
IMPORTANT: This handler uses the default
System.Text.Json.JsonSerializer
. See JSON section below for further information.
type Person =
{ First : string
Last : string }
let jsonHandler : HttpHandler =
let name = { First = "John"; Last = "Doe" }
Response.ofJson name
Redirect (301/302) Response
let oldUrlHandler : HttpHandler =
Response.redirect "/new-url" true
Note: The trailing
bool
value is used to indicate permanency (i.e., true = 301 / false = 302)
Accessing Request Data
Falco exposes a uniform API to obtain typed values from the various sources of request data. Note, the similarity in the various binders below.
Route Collection
let helloHandler : HttpHandler =
let routeMap (route : RouteCollectionReader) =
let name = route.GetString "name" "World"
sprintf "Hello %s" name
Request.mapRoute routeMap Response.ofPlainText
Query Parameters
let helloHandler : HttpHandler =
let queryMap (query : QueryCollectionReader) =
let name = query.GetString "name" "World"
sprintf "Hello %s" name
Request.mapQuery queryMap Response.ofPlainText
Form Data
let helloHandler : HttpHandler =
let formMap (query : FormCollectionReader) =
let name = query.GetString "name" "World"
sprintf "Hello %s" name
Request.mapForm formMap Response.ofPlainText
To prevent XSS attacks it is often advisable to use a CSRF token during form submissions. In these situations, you'll want to validate the token before processing the form input using Request.mapFormSecure
, which will automatically validate the token for you before consuming input.
let secureHelloHandler : HttpHandler =
let formMap (query : FormCollectionReader) =
let name = query.GetString "name" "World"
sprintf "Hello %s" name
let invalidTokenHandler : HttpHandler =
Response.withStatusCode 403
>> Resposne.ofEmpty
Request.mapFormSecure formMap Response.ofPlainText invalidTokenHandler
Response Modifiers
Response modifiers can be thought of as the in-and-out modification of the HttpResponse
. A preamble to writing and returning. Since these functions receive the Httpcontext
as input and return it as the only output, they can take advantage of function composition.
Set the status code of the response
let notFoundHandler : HttpHandler =
Response.withStatusCode 404
>> Response.ofPlainText "Not found"
Add a header to the response
let handlerWithHeader : HttpHandler =
Response.withHeader "Content-Language" "en-us"
>> Response.ofPlainText "Hello world"
Add a cookie to the response
let handlerWithHeader : HttpHandler =
Response.withCookie "greeted" "1"
>> Response.ofPlainText "Hello world"
IMPORTANT: Do not use this for authentication. Instead use the
Auth.signIn
andAuth.signOut
functions found in the Authentication module.
Routing
The breakdown of Endpoint Routing is simple. Associate a specific route pattern (and optionally an HTTP verb) to an HttpHandler
which represents the ongoing processing (and eventual return) of a request.
Bearing this in mind, routing can practically be represented by a list of these "mappings" known in Falco as an HttpEndpoint
which bind together: a route, verb and handler.
let helloHandler : HttpHandler =
let getMessage (route : RouteCollectionReader) =
route.GetString "name" "World"
|> sprintf "Hello %s"
Request.mapRoute getMessage Response.ofPlainText
let loginHandler : HttpHandler = // ...
let loginSubmitHandler : HttpHandler = // ...
let endpoints : HttpEndpoint list =
[
// a basic GET handler
get "/hello/{name:alpha}" helloHandler
// multi-method endpoint
all "/login"
[ POST, loginSubmitHandler
GET, loginHandler ]
]
Model Binding
Reflection-based approaches to binding at IO boundaries work well for simple use cases. But as the complexity of the input rises it becomes error-prone and often involves tedious workarounds. This is especially true for an expressive, algebraic type system like F#. As such, it is often advisable to take back control of this process from the runtime. An added bonus of doing this is that it all but eliminates the need for [<CLIMutable>]
attributes.
We can make this simpler by creating a succinct API to obtain typed values from IFormCollection
, IQueryCollection
, RouteValueDictionary
and IHeaderCollection
. Readers for all four exist as derivatives of StringCollectionReader
which is an abstraction intended to make it easier to work with the string-based key/value collections.
Route Binding
let mapRouteHandler : HttpHandler =
let routeMap (r : RouteCollectionReader) =
r.GetString "Name" "John Doe"
Request.mapRoute routeMap Response.ofJson
let manualRouteHandler : HttpHandler = fun ctx ->
let r : RouteCollectionReader = Request.getRoute ctx
let name = r.GetString "Name" "John Doe"
Response.ofJson name ctx
Query Binding
type Person = { FirstName : string; LastName : string }
let mapQueryHandler : HttpHandler =
let queryMap (q : QueryCollectionReader) =
let first = q.GetString "FirstName" "John" // Get value or return default value
let last = q.GetString "LastName" "Doe"
{ FirstName = first; LastName = last }
Request.mapQuery queryMap Response.ofJson
let manualQueryHandler : HttpHandler = fun ctx ->
let q : QueryCollectionReader = Request.getQuery ctx
let person =
{ FirstName = q.GetString "FirstName" "John" // Get value or return default value
LastName = q.GetString "LastName" "Doe" }
Response.ofJson person ctx
Form Binding
The FormCollectionReader
has full access to the IFormFilesCollection
via the _.Files
member.
Note the addition of
Request.mapFormSecure
, which will automatically validate CSRF token for you.
type Person = { FirstName : string; LastName : string }
let mapFormHandler : HttpHandler =
let formMap (f : FormCollectionReader) =
let first = f.GetString "FirstName" "John" // Get value or return default value
let last = f.GetString "LastName" "Doe"
{ FirstName = first; LastName = last }
Request.mapForm formMap Response.ofJson
let mapFormSecureHandler : HttpHandler =
let formMap (f : FormCollectionReader) =
let first = f.GetString "FirstName" "John" // Get value or return default value
let last = f.GetString "LastName" "Doe"
{ FirstName = first; LastName = last }
let handleInvalidCsrf : HttpHandler =
Response.withStatusCode 400 >> Response.ofEmpty
Request.mapFormSecure formMap Response.ofJson handleInvalidCsrf
let manualFormHandler : HttpHandler = fun ctx -> task {
let! f : FormCollectionReader = Request.getForm ctx
let person =
{ FirstName = f.GetString "FirstName" "John" // Get value or return default value
LastName = f.GetString "LastName" "Doe" }
return! Response.ofJson person ctx
}
multipart/form-data
Binding (handling large uploads)
Microsoft defines large uploads as anything > 64KB, which well... is most uploads. Anything beyond this size and they recommend streaming the multipart data to avoid excess memory consumption.
To make this process a lot easier Falco provides a set of four HttpHandler
's analogous to the form handlers above, which utilize an HttpContext
extension method called TryStreamFormAsync()
that will attempt to stream multipart form data, or return an error message indicating the likely problem.
Below is an example demonstrating the insecure map variant:
let imageUploadHandler : HttpHandler =
let formBinder (f : FormCollectionReader) : IFormFile option =
f.TryGetFormFile "profile_image"
let uploadImage (profileImage : IFormFile option) : HttpHandler =
// Process the uploaded file ...
// Safely buffer the multipart form submission
Request.mapFormStream formBinder uploadImage
JSON
Included in Falco are basic JSON in/out handlers, Request.mapJson
and Response.ofJson
respectively. Both rely on System.Text.Json
and thus have minimal support for F#'s algebraic types.
type Person = { FirstName : string; LastName : string }
let jsonHandler : HttpHandler =
{ FirstName = "John"; LastName = "Doe" }
|> Response.ofJson
let mapJsonHandler : HttpHandler =
let handleOk person : HttpHandler =
let message = sprintf "hello %s %s" person.First person.Last
Response.ofPlainText message
Request.mapJson handleOk
Markup
A core feature of Falco is the XML markup module. It can be used to produce any form of angle-bracket markup (i.e. HTML, SVG, XML etc.).
For example, the module is easily extended since creating new tags is simple. An example to render <svg>
's:
let svg (width : float) (height : float) =
Elem.tag "svg" [
Attr.create "version" "1.0"
Attr.create "xmlns" "http://www.w3.org/2000/svg"
Attr.create "viewBox" (sprintf "0 0 %f %f" width height)
]
let path d = Elem.tag "path" [ Attr.create "d" d ] []
let bars =
svg 384.0 384.0 [
path "M368 154.668H16c-8.832 0-16-7.168-16-16s7.168-16 16-16h352c8.832 0 16 7.168 16 16s-7.168 16-16 16zm0 0M368 32H16C7.168 32 0 24.832 0 16S7.168 0 16 0h352c8.832 0 16 7.168 16 16s-7.168 16-16 16zm0 0M368 277.332H16c-8.832 0-16-7.168-16-16s7.168-16 16-16h352c8.832 0 16 7.168 16 16s-7.168 16-16 16zm0 0"
]
HTML View Engine
Most of the standard HTML tags & attributes have been built into the markup module and produce objects to represent the HTML node. Nodes are either:
Text
which representsstring
values. (Ex:Text.raw "hello"
,Text.rawf "hello %s" "world"
)SelfClosingNode
which represent self-closing tags (Ex:<br />
).ParentNode
which represent typical tags with, optionally, other tags within it (Ex:<div>...</div>
).
The benefits of using the Falco markup module as an HTML engine include:
- Writing your views in plain F#, directly in your assembly.
- Markup is compiled alongside the rest of your code, leading to improved performance and ultimately simpler deployments.
// Create an HTML5 document using built-in template
let doc =
Templates.html5 "en"
[ Elem.title [] [ Text.raw "Sample App" ] ] // <head></head>
[ Elem.h1 [] [ Text.raw "Sample App" ] ] // <body></body>
Since views are plain F# they can easily be made strongly-typed:
type Person = { FirstName : string; LastName : string }
let doc (person : Person) =
Elem.html [ Attr.lang "en" ] [
Elem.head [] [
Elem.title [] [ Text.raw "Sample App" ]
]
Elem.body [] [
Elem.main [] [
Elem.h1 [] [ Text.raw "Sample App" ]
Elem.p [] [ Text.rawf "%s %s" person.First person.Last ]
]
]
]
Views can also be combined to create more complex views and share output:
let master (title : string) (content : XmlNode list) =
Elem.html [ Attr.lang "en" ] [
Elem.head [] [
Elem.title [] [ Text.raw "Sample App" ]
]
Elem.body [] content
]
let divider =
Elem.hr [ Attr.class' "divider" ]
let homeView =
[
Elem.h1 [] [ Text.raw "Homepage" ]
divider
Elem.p [] [ Text.raw "Lorem ipsum dolor sit amet, consectetur adipiscing."]
]
|> master "Homepage"
let aboutView =
[
Elem.h1 [] [ Text.raw "About" ]
divider
Elem.p [] [ Text.raw "Lorem ipsum dolor sit amet, consectetur adipiscing."]
]
|> master "About Us"
Host Builder
Kestrel is the web server at the heart of ASP.NET. It's performant, secure, and maintained by incredibly smart people. Getting it up and running is usually done using Host.CreateDefaultBuilder(args)
, but it can grow verbose quickly.
To make things more expressive, Falco exposes an optional computation expression. Below is an example using the builder taken from the Configure Host sample.
[<EntryPoint>]
let main args =
webHost args {
use_ifnot FalcoExtensions.IsDevelopment HstsBuilderExtensions.UseHsts
use_https
use_compression
use_static_files
use_if FalcoExtensions.IsDevelopment DeveloperExceptionPageExtensions.UseDeveloperExceptionPage
use_ifnot FalcoExtensions.IsDevelopment (FalcoExtensions.UseFalcoExceptionHandler exceptionHandler)
endpoints [
get "/greet/{name:alpha}"
handleGreeting
get "/json"
handleJson
get "/html"
handleHtml
get "/"
handlePlainText
]
}
0
Fully Customizing the Host
To assume full control over configuring your IHost
use the configure
custom operation. It expects a function with the signature of HttpEndpoint list -> IWebHostBuilder -> IWebHostBuilder
and assumes you will register and activate Falco (i.e., AddFalco()
and UseFalco(endpoints)
).
[<EntryPoint>]
let main args =
let configureServices : IServiceCollection -> unit =
fun services -> services.AddFalco() |> ignore
let configureApp : HttpEndpoint list -> IApplicationBuilder -> unit =
fun endpoints app -> app.UseFalco(endpoints) |> ignore
let configureWebHost : HttpEndpoint list -> IWebHostBuilder =
fun endpoints webHost ->
webHost.ConfigureLogging(configureLogging)
.ConfigureServices(configureServices)
.Configure(configureApp endpoints)
webHost args {
configure configureWebHost
endpoints []
}
Authentication
ASP.NET Core has amazing built-in support for authentication. Review the docs for specific implementation details. Falco includes some authentication utilities.
To use the authentication helpers, ensure the service has been registered (
AddAuthentication()
) with theIServiceCollection
and activated (UseAuthentication()
) using theIApplicationBuilder
.
Prevent user from accessing secure endpoint:
open Falco.Security
let secureResourceHandler : HttpHandler =
let handleAuth : HttpHandler =
"hello authenticated user"
|> Response.ofPlainText
let handleInvalid : HttpHandler =
Response.withStatusCode 403
>> Response.ofPlainText "Forbidden"
Request.ifAuthenticated handleAuth handleInvalid
Prevent authenticated user from accessing anonymous-only end-point:
let anonResourceOnlyHandler : HttpHandler =
let handleAnon : HttpHandler =
Response.ofPlainText "hello anonymous"
let handleInvalid : HttpHandler =
Response.withStatusCode 403
>> Response.ofPlainText "Forbidden"
Request.ifNotAuthenticated handleAnon handleInvalid
Allow only user's from a certain group to access endpoint"
let secureResourceHandler : HttpHandler =
let handleAuthInRole : HttpHandler =
Response.ofPlainText "hello admin"
let handleInvalid : HttpHandler =
Response.withStatusCode 403
>> Response.ofPlainText "Forbidden"
let rolesAllowed = [ "Admin" ]
Request.ifAuthenticatedInRole rolesAllowed handleAuthInRole handleInvalid
Allow only user's with a certain scope to access endpoint"
let secureResourceHandler : HttpHandler =
let handleAuthHasScope : HttpHandler =
Response.ofPlainText "user1, user2, user3"
let handleInvalid : HttpHandler =
Response.withStatusCode 403
>> Response.ofPlainText "Forbidden"
let issuer = "https://oauth2issuer.com"
let scope = "read:users"
Request.ifAuthenticatedWithScope issuer scope handleAuthHasScope handleInvalid
End user session (sign out):
let logOut : HttpHandler =
let authScheme = "..."
let redirectTo = "/login"
Response.signOutAndRedirect authScheme redirectTo
Security
Cross-site scripting attacks are extremely common since they are quite simple to carry out. Fortunately, protecting against them is as easy as performing them.
The Microsoft.AspNetCore.Antiforgery package provides the required utilities to easily protect yourself against such attacks.
Falco provides a few handlers via Falco.Security.Xss
:
To use the Xss helpers, ensure the service has been registered (
AddAntiforgery()
) with theIServiceCollection
and activated (UseAntiforgery()
) using theIApplicationBuilder
.
open Falco.Markup
open Falco.Security
let formView token =
Elem.html [] [
Elem.body [] [
Elem.form [ Attr.method "post" ] [
Elem.input [ Attr.name "first_name" ]
Elem.input [ Attr.name "last_name" ]
// using the CSRF HTML helper
Xss.antiforgeryInput token
Elem.input [ Attr.type' "submit"; Attr.value "Submit" ]
]
]
]
// A handler that demonstrates obtaining a
// CSRF token and applying it to a view
let csrfViewHandler : HttpHandler =
formView
|> Response.ofHtmlCsrf
// A handler that demonstrates validating
// the request's CSRF token
let mapFormSecureHandler : HttpHandler =
let mapPerson (form : FormCollectionReader) =
{ FirstName = form.GetString "first_name" "John" // Get value or return default value
LastName = form.GetString "first_name" "Doe" }
let handleInvalid : HttpHandler =
Response.withStatusCode 400
>> Response.ofEmpty
Request.mapFormSecure mapPerson Response.ofJson handleInvalid
Crytography
Many sites have the requirement of a secure log in and sign up (i.e. registering and maintaining a user's database). Thus, generating strong hashes and random salts is important.
Falco helpers are accessed by importing Falco.Auth.Crypto
.
open Falco.Security
// Generating salt,
// using System.Security.Cryptography.RandomNumberGenerator,
// create a random 16 byte salt and base 64 encode
let salt = Crypto.createSalt 16
// Generate random int for iterations
let iterations = Crypto.randomInt 10000 50000
// Pbkdf2 Key derivation using HMAC algorithm with SHA256 hashing function
let password = "5upe45ecure"
let hashedPassword = password |> Crypto.sha256 iterations 32 salt
Why "Falco"?
Kestrel has been a game changer for the .NET web stack. In the animal kingdom, "Kestrel" is a name given to several members of the falcon genus. Also known as "Falco".
Find a bug?
There's an issue for that.
License
Built with ♥ by Pim Brouwers in Toronto, ON. Licensed under Apache License 2.0.
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET | net5.0 is compatible. net5.0-windows was computed. net6.0 is compatible. 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
- FSharp.Core (>= 4.6.2)
- Ply (>= 0.3.1)
-
net5.0
- FSharp.Core (>= 4.6.2)
- Ply (>= 0.3.1)
-
net6.0
- FSharp.Core (>= 6.0.5)
NuGet packages (3)
Showing the top 3 NuGet packages that depend on Falco:
Package | Downloads |
---|---|
Falco.Htmx
HTMX Bindings for the Falco web toolkit. |
|
Falco.Bulma
Package Description |
|
Falco.OpenApi
OpenAPI integration that provides a set of utilities for generating OpenAPI documentation from Falco routes. |
GitHub repositories
This package is not used by any popular GitHub repositories.
Version | Downloads | Last updated |
---|---|---|
5.0.0-beta2 | 67 | 11/18/2024 |
5.0.0-beta1 | 96 | 11/1/2024 |
5.0.0-alpha5 | 173 | 10/21/2024 |
5.0.0-alpha4 | 118 | 10/18/2024 |
5.0.0-alpha3 | 75 | 10/17/2024 |
5.0.0-alpha2 | 82 | 9/29/2024 |
5.0.0-alpha1 | 64 | 9/22/2024 |
4.0.6 | 2,518 | 12/12/2023 |
4.0.5 | 435 | 11/16/2023 |
4.0.4 | 4,279 | 3/13/2023 |
4.0.3 | 886 | 1/1/2023 |
4.0.2 | 430 | 11/30/2022 |
4.0.1 | 356 | 11/23/2022 |
4.0.0 | 616 | 11/7/2022 |
4.0.0-rc1 | 149 | 11/2/2022 |
4.0.0-beta4 | 158 | 10/26/2022 |
4.0.0-beta3 | 147 | 10/25/2022 |
4.0.0-beta2 | 587 | 9/23/2022 |
4.0.0-beta1 | 145 | 9/13/2022 |
4.0.0-alpha2 | 141 | 9/11/2022 |
4.0.0-alpha1 | 177 | 8/29/2022 |
3.1.14 | 1,812 | 8/29/2022 |
3.1.13 | 677 | 8/11/2022 |
3.1.12 | 1,849 | 5/20/2022 |
3.1.11 | 1,145 | 2/8/2022 |
3.1.10 | 814 | 12/14/2021 |
3.1.9 | 435 | 12/6/2021 |
3.1.8 | 402 | 12/3/2021 |
3.1.7 | 801 | 9/24/2021 |
3.1.6 | 367 | 9/24/2021 |
3.1.5 | 380 | 9/24/2021 |
3.1.4 | 507 | 8/24/2021 |
3.1.3 | 541 | 8/4/2021 |
3.1.2 | 473 | 7/30/2021 |
3.1.1 | 456 | 7/27/2021 |
3.1.0 | 434 | 7/27/2021 |
3.1.0-beta8 | 261 | 7/7/2021 |
3.1.0-beta7 | 256 | 7/6/2021 |
3.1.0-beta6 | 273 | 7/6/2021 |
3.1.0-beta5 | 269 | 7/5/2021 |
3.1.0-beta4 | 225 | 7/5/2021 |
3.1.0-beta3 | 315 | 7/1/2021 |
3.1.0-beta2 | 260 | 7/1/2021 |
3.1.0-beta1 | 251 | 6/15/2021 |
3.0.5 | 1,436 | 6/14/2021 |
3.0.4 | 563 | 5/5/2021 |
3.0.3 | 559 | 4/10/2021 |
3.0.2 | 817 | 12/8/2020 |
3.0.1 | 529 | 12/1/2020 |
3.0.0 | 570 | 11/27/2020 |
3.0.0-alpha9 | 302 | 11/26/2020 |
3.0.0-alpha8 | 288 | 11/25/2020 |
3.0.0-alpha7 | 317 | 11/25/2020 |
3.0.0-alpha6 | 313 | 11/22/2020 |
3.0.0-alpha5 | 275 | 11/20/2020 |
3.0.0-alpha4 | 298 | 11/20/2020 |
3.0.0-alpha3 | 281 | 11/20/2020 |
3.0.0-alpha2 | 473 | 11/11/2020 |
3.0.0-alpha1 | 278 | 11/11/2020 |
2.1.0 | 670 | 11/11/2020 |
2.0.4 | 1,847 | 11/9/2020 |
2.0.3 | 581 | 10/31/2020 |
2.0.2 | 1,016 | 7/31/2020 |
2.0.1 | 551 | 7/20/2020 |
2.0.0 | 733 | 7/12/2020 |
2.0.0-alpha | 335 | 7/7/2020 |
1.2.3 | 558 | 7/2/2020 |
1.2.2 | 535 | 6/29/2020 |
1.2.1 | 606 | 6/28/2020 |
1.2.0 | 607 | 6/23/2020 |
1.1.0 | 774 | 6/6/2020 |
1.0.10-alpha | 344 | 5/13/2020 |
1.0.9-alpha | 397 | 4/29/2020 |
1.0.8-alpha | 343 | 4/29/2020 |
1.0.7-alpha | 324 | 4/27/2020 |
1.0.6-alpha | 333 | 4/24/2020 |
1.0.5-alpha | 333 | 4/23/2020 |
1.0.4-alpha | 345 | 4/22/2020 |
1.0.3-alpha | 356 | 4/19/2020 |
1.0.2-alpha | 356 | 4/19/2020 |
1.0.1-alpha | 354 | 4/7/2020 |
1.0.0-alpha | 348 | 4/6/2020 |