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mirror of https://github.com/vlang/v.git synced 2023-08-10 21:13:21 +03:00
v/vlib/vweb
2023-04-14 07:07:48 +02:00
..
assets vweb.assets: add option for custom href and src attribute values (#17703) 2023-03-19 10:02:59 +02:00
csrf checker: check nested struct field with required attr (fix #10913) (#17277) 2023-02-11 11:22:31 +02:00
sse
tests vweb: fix multipart_form parsing (#17953) 2023-04-14 07:07:48 +02:00
parse.v vweb: fix multipart_form parsing (#17953) 2023-04-14 07:07:48 +02:00
README.md vweb: add an overridable .not_found() method, for making a custom 404 page + tests fixes (#17936) 2023-04-12 00:50:03 +03:00
route_test.v
vweb_app_test.v orm: enforce that queries always return a Result, a query-resulting array can be used as a V array in place. (#17871) 2023-04-04 08:23:06 +03:00
vweb_livereload.v vweb: implement live page reload in development, based on polling (useful with watch) (#17683) 2023-03-16 21:00:47 +01:00
vweb.v vweb: add an overridable .not_found() method, for making a custom 404 page + tests fixes (#17936) 2023-04-12 00:50:03 +03:00

vweb - the V Web Server

A simple yet powerful web server with built-in routing, parameter handling, templating, and other features. The gitly site is based on vweb.

Some features may not be complete, and have some bugs.

Getting start

Just run v new <name> web in your terminal

Features

  • Very fast performance of C on the web.
  • Small binary hello world website is <100 KB.
  • Easy to deploy just one binary file that also includes all templates. No need to install any dependencies.
  • Templates are precompiled all errors are visible at compilation time, not at runtime.

Examples

There are some examples that can be explored here.

And others like:

Front-end getting start example src/main.v

module main

import vweb
import os

struct App {
	vweb.Context
}

struct Object {
	title       string
	description string
}

fn main() {
	vweb.run_at(new_app(), vweb.RunParams{
		port: 8081
	}) or { panic(err) }
}

fn new_app() &App {
	mut app := &App{}
	// makes all static files available.
	app.mount_static_folder_at(os.resource_abs_path('.'), '/')
	return app
}

['/']
pub fn (mut app App) page_home() vweb.Result {
	// all this constants can be accessed by src/templates/page/home.html file.
	page_title := 'V is the new V'
	v_url := 'https://github.com/vlang/v'

	list_of_object := [
		Object{
			title: 'One good title'
			description: 'this is the first'
		},
		Object{
			title: 'Other good title'
			description: 'more one'
		},
	]
	// $vweb.html() in `<folder>_<name> vweb.Result ()` like this
	// render the `<name>.html` in folder `./templates/<folder>`
	return $vweb.html()
}

$vweb.html() compiles an HTML template into V during compilation, and embeds the resulting code into the current action.

That means that the template automatically has access to that action's entire environment.

src/templates/page/home.html

<html>
  <header>
    <title>${page_title}</title>
    @css 'src/templates/page/home.css'
  </header>
  <body>
    <h1 class="title">Hello, Vs.</h1>
    @for var in list_of_object
    <div>
      <a href="${v_url}">${var.title}</a>
      <span>${var.description}</span>
    </div>
    @end
    <div>@include 'component.html'</div>
  </body>
</html>

src/templates/page/component.html

<div>This is a component</div>

src/templates/page/home.css

h1.title {
  font-family: Arial, Helvetica, sans-serif;
  color: #3b7bbf;
}

V supports Template directives like @css, @js for static files in <path> @if, @for for conditional and loop and @include to include html components.

Deploying vweb apps

Everything, including HTML templates, is in one binary file. That's all you need to deploy.

Getting Started

To start with vweb, you have to import the module vweb and define a struct to hold vweb.Context (and any other variables your program will need). The web server can be started by calling vweb.run(&App{}, port) or vweb.run(&App{}, RunParams)

Example:

import vweb

struct App {
    vweb.Context
}

fn main() {
	vweb.run(&App{}, 8080)
	// // or
	// vweb.run_at(new_app(), vweb.RunParams{
	// 	host: 'localhost'
	// 	port: 8099
	// 	family: .ip
	// }) or { panic(err) }
}

Defining endpoints

To add endpoints to your web server, you have to extend the App struct. For routing you can either use auto-mapping of function names or specify the path as an attribute. The function expects a response of the type vweb.Result.

Example:

// This endpoint can be accessed via http://localhost:port/hello
fn (mut app App) hello() vweb.Result {
	return app.text('Hello')
}

// This endpoint can be accessed via http://localhost:port/foo
["/foo"]
fn (mut app App) world() vweb.Result {
	return app.text('World')
}

- HTTP verbs

To use any HTTP verbs (or methods, as they are properly called), such as [post], [get], [put], [patch] or [delete] you can simply add the attribute before the function definition.

Example:

[post]
fn (mut app App) world() vweb.Result {
	return app.text('World')
}

['/product/create'; post]
fn (mut app App) create_product() vweb.Result {
	return app.text('product')
}

- Parameters

Parameters are passed directly in endpoint route using colon sign : and received using the same name at function To pass a parameter to an endpoint, you simply define it inside an attribute, e. g. ['/hello/:user]. After it is defined in the attribute, you have to add it as a function parameter.

Example:

          vvvv
['/hello/:user']            vvvv
fn (mut app App) hello_user(user string) vweb.Result {
	return app.text('Hello $user')
}

You have access to the raw request data such as headers or the request body by accessing app (which is vweb.Context). If you want to read the request body, you can do that by calling app.req.data. To read the request headers, you just call app.req.header and access the header you want example. app.req.header.get(.content_type). See struct Header for all available methods (v doc net.http Header). It has, too, fields for the query, form, files.

- Query

To handle the query context, you just need use the query field

Example:

module main

import vweb

struct App {
	vweb.Context
}

fn main() {
	vweb.run(&App{}, 8081)
}

['/user'; get]
pub fn (mut app App) controller_get_user_by_id() vweb.Result {
	// http://localhost:3000/user?q=vpm&order_by=desc => { 'q': 'vpm', 'order_by': 'desc' }
	return app.text(app.query.str())
}

Middleware

Vweb has different kinds of middleware. The before_request() method is always called before every request before any other middleware is processed. You could use it to check user session cookies or to add a header.

Example:

pub fn (mut app App) before_request() {
    app.user_id = app.get_cookie('id') or { '0' }
}

Middleware functions can be passed directly when creating an App instance and is executed when the url starts with the defined key.

In the following example, if a user navigates to /path/to/test the middleware is executed in the following order: middleware_func, other_func, global_middleware. The middleware is executed in the same order as they are defined and if any function in the chain returns false the propogation is stopped.

Example:

module main

import vweb

struct App {
	vweb.Context
	middlewares map[string][]vweb.Middleware
}

fn new_app() &App {
	mut app := &App{
		middlewares: {
			// chaining is allowed, middleware will be evaluated in order
			'/path/to/': [middleware_func, other_func]
			'/':         [global_middleware]
		}
	}

	// do stuff with app
	// ...
	return app
}

fn middleware_func(mut ctx vweb.Context) bool {
	// ...
	return true
}

fn other_func(mut ctx vweb.Context) bool {
	// ...
	return true
}

fn global_middleware(mut ctx vweb.Context) bool {
	// ...
	return true
}

Middleware functions will be of type vweb.Middleware and are not methods of App, so they could also be imported from other modules.

pub type Middleware = fn (mut Context) bool

Middleware can also be added to route specific functions via attributes.

Example:

[middleware: check_auth]
['/admin/data']
pub fn (mut app App) admin() vweb.Result {
	// ...
}

// check_auth is a method of App, so we don't need to pass the context as parameter.
pub fn (mut app App) check_auth () bool {
	// ...
	return true
}

For now you can only add 1 middleware to a route specific function via attributes.

Redirect

Used when you want be redirected to an url

Examples:

pub fn (mut app App) before_request() {
	app.user_id = app.get_cookie('id') or { app.redirect('/') }
}
['/articles'; get]
pub fn (mut app App) articles() vweb.Result {
	if !app.token {
		app.redirect('/login')
	}
	return app.text('patatoes')
}

You can also combine middleware and redirect.

Example:

[middleware: with_auth]
['/admin/secret']
pub fn (mut app App) admin_secret() vweb.Result {
	// this code should never be reached
	return app.text('secret')
}

['/redirect']
pub fn (mut app App) with_auth() bool {
	app.redirect('/auth/login')
	return false
}

Fallback route

You can implement a fallback not_found route that is called when a request is made and no matching route is found.

Example:

pub fn (mut app App) not_found() vweb.Result {
	app.set_status(404, 'Not Found')
	return app.html('<h1>Page not found</h1>')
}

Controllers

Controllers can be used to split up app logic so you are able to have one struct per "/". E.g. a struct Admin for urls starting with "/admin" and a struct Foo for urls starting with "/foo"

Example:

module main

import vweb

struct App {
	vweb.Context
	vweb.Controller
}

struct Admin {
	vweb.Context
}

struct Foo {
	vweb.Context
}

fn main() {
	mut app := &App{
		controllers: [
			vweb.controller('/admin', &Admin{}),
			vweb.controller('/foo', &Foo{}),
		]
	}
	vweb.run(app, 8080)
}

You can do everything with a controller struct as with a regular App struct. The only difference being is that only the main app that is being passed to vweb.run is able to have controllers. If you add vweb.Controller on a controller struct it will simply be ignored.

Routing

Any route inside a controller struct is treated as a relative route to its controller namespace.

['/path']
pub fn (mut app Admin) path vweb.Result {
    return app.text('Admin')
}

When we created the controller with vweb.controller('/admin', &Admin{}) we told vweb that the namespace of that controller is "/admin" so in this example we would see the text "Admin" if we navigate to the url "/admin/path".

Vweb doesn't support fallback routes or duplicate routes, so if we add the following route to the example the code will produce an error.

['/admin/path']
pub fn (mut app App) admin_path vweb.Result {
    return app.text('Admin overwrite')
}

There will be an error, because the controller Admin handles all routes starting with "/admin"; the method admin_path is unreachable.

Databases and [vweb_global] in controllers

Fields with [vweb_global] like a database have to passed to each controller individually.

Example:

module main

import vweb
import db.sqlite

struct App {
	vweb.Context
	vweb.Controller
pub mut:
	db sqlite.DB [vweb_global]
}

struct Admin {
	vweb.Context
pub mut:
	db sqlite.DB [vweb_global]
}

fn main() {
	mut db := sqlite.connect('db')!

	mut app := &App{
		db: db
		controllers: [
			vweb.controller('/admin', &Admin{
				db: db
			}),
		]
	}
}

Responses

- set_status

Sets the response status Example:

['/user/get_all'; get]
pub fn (mut app App) controller_get_all_user() vweb.Result {
    token := app.get_header('token')

    if !token {
        app.set_status(401, '')
        return app.text('Not valid token')
    }

    response := app.service_get_all_user() or {
        app.set_status(400, '')
        return app.text('$err')
    }
    return app.json(response)
}

- html

Response HTTP_OK with payload with content-type text/html Example:

pub fn (mut app App) html_page() vweb.Result {
    return app.html('<h1>ok</h1>')
}

- text

Response HTTP_OK with payload with content-type text/plain Example:

pub fn (mut app App) simple() vweb.Result {
    return app.text('A simple result')
}

- json

Response HTTP_OK with payload with content-type application/json Examples:

['/articles'; get]
pub fn (mut app App) articles() vweb.Result {
    articles := app.find_all_articles()
    json_result := json.encode(articles)
    return app.json(json_result)
}
['/user/create'; post]
pub fn (mut app App) controller_create_user() vweb.Result {
    body := json.decode(User, app.req.data) or {
        app.set_status(400, '')
        return app.text('Failed to decode json, error: $err')
	}

    response := app.service_add_user(body.username, body.password) or {
        app.set_status(400, '')
        return app.text('error: $err')
    }

    return app.json(response)
}

- json_pretty

Response HTTP_OK with a pretty-printed JSON result Example:

fn (mut app App) time_json_pretty() {
    app.json_pretty({
        'time': time.now().format()
    })
}

- file

Response HTTP_OK with file as payload

- ok

Response HTTP_OK with payload Example:

['/form_echo'; post]
pub fn (mut app App) form_echo() vweb.Result {
    app.set_content_type(app.req.header.get(.content_type) or { '' })
    return app.ok(app.form['foo'])
}

- server_error

Response a server error Example:

fn (mut app App) sse() vweb.Result {
    return app.server_error(501)
}

- not_found

Response HTTP_NOT_FOUND with payload Example:

['/:user/:repo/settings']
pub fn (mut app App) user_repo_settings(username string, repository string) vweb.Result {
    if username !in known_users {
        return app.not_found()
    }
    return app.html('username: $username | repository: $repository')
}

Requests

- get_header

Returns the header data from the key Example:

['/user/get_all'; get]
pub fn (mut app App) controller_get_all_user() vweb.Result {
    token := app.get_header('token')
    return app.text(token)
}

Sets a cookie Example:

pub fn (mut app App) before_request() {
    app.user_id = app.get_cookie('id') or { '0' }
}

- add_header

Adds an header to the response with key and val Example:

['/upload'; post]
pub fn (mut app App) upload() vweb.Result {
    fdata := app.files['upfile']

    data_rows := fdata[0].data.split('\n')

    mut output_data := ''

    for elem in data_rows {
        delim_row := elem.split('\t')
        output_data += '${delim_row[0]}\t${delim_row[1]}\t'
        output_data += '${delim_row[0].int() + delim_row[1].int()}\n'
	}

    output_data = output_data.all_before_last('\n')

    app.add_header('Content-Disposition', 'attachment; filename=results.txt')
    app.send_response_to_client('application/octet-stream', output_data)

    return $vweb.html()
}

Sets a cookie Example:

pub fn (mut app App) cookie() vweb.Result {
    app.set_cookie(name: 'cookie', value: 'test')
    return app.text('Response Headers\n$app.header')
}

Sets a cookie with a expire_data Example:

pub fn (mut app App) cookie() vweb.Result {
    key := 'cookie'
    value := 'test'
    duration := time.Duration(2 * time.minute ) // add 2 minutes
    expire_date := time.now().add(duration)

    app.set_cookie_with_expire_date(key, value, expire_date)
    return app.text('Response Headers\n$app.header')
}

- set_content_type

Sets the response content type Example:

['/form_echo'; post]
pub fn (mut app App) form_echo() vweb.Result {
    app.set_content_type(app.req.header.get(.content_type) or { '' })
    return app.ok(app.form['foo'])
}

Template

-handle_static

handle_static is used to mark a folder (relative to the current working folder) as one that contains only static resources (css files, images etc).

If root is set the mount path for the dir will be in '/'

Example:

fn main() {
    mut app := &App{}
    app.serve_static('/favicon.ico', 'favicon.ico')
    // Automatically make available known static mime types found in given directory.
    os.chdir(os.dir(os.executable()))?
    app.handle_static('assets', true)
    vweb.run(app, port)
}

-mount_static_folder_at

makes all static files in directory_path and inside it, available at http://server/mount_path.

For example: suppose you have called .mount_static_folder_at('/var/share/myassets', '/assets'), and you have a file /var/share/myassets/main.css . => That file will be available at URL: http://server/assets/main.css .

-serve_static

Serves a file static. url is the access path on the site, file_path is the real path to the file, mime_type is the file type

Example:

fn main() {
    mut app := &App{}
    app.serve_static('/favicon.ico', 'favicon.ico')
    app.mount_static_folder_at(os.resource_abs_path('.'), '/')
    vweb.run(app, 8081)
}

Others

-ip

Returns the ip address from the current user

Example:

pub fn (mut app App) ip() vweb.Result {
    ip := app.ip()
    return app.text('ip: $ip')
}

-error

Set a string to the form error

Example:

pub fn (mut app App) error() vweb.Result {
    app.error('here as an error')
    println(app.form_error) //'vweb error: here as an error'
}

Cross-Site Request Forgery (CSRF) protection

Provides protection against Cross-Site Request Forgery

Usage

When building a csrf-protected service, first of all create a structthat implements csrf.App

module main

import vweb
import vweb.csrf

// embeds the csrf.App struct in order to empower the struct to protect against CSRF
struct App {
	csrf.App
}

Start a server e.g. in the main function.

fn main() {
	vweb.run_at(&App{}, vweb.RunParams{
        port: 8080
    }) or { panic(err) }
}

Enable CSRF-protection

Then add a handler-function to define on which route or on which site the CSRF-Token shall be set.

fn (mut app App) index() vweb.Result {

    // Set a Csrf-Cookie (Token will be generated automatically)
	app.set_csrf_cookie()

	// Get the token-value from the csrf-cookie that was just set
	token := app.get_csrf_token() or { panic(err) }

	return app.text("Csrf-Token set! It's value is: $token")
}

If you want to set the cookies's HttpOnly-status to false in order to make it
accessible to scripts on your site, you can do it like this: app.set_csrf_cookie(csrf.HttpOnly{false}) If no argument is passed the value will be set to true by default.

Protect against CSRF

If you want to protect a route or a site against CSRF just add
app.csrf_protect() at the beginning of the handler-function.

fn (mut app App) foo() vweb.Result {
    // Protect this handler-function against CSRF
	app.csrf_protect()
	return app.text("Checked and passed csrf-guard")
}