// Copyright (c) 2019-2024 Alexander Medvednikov. All rights reserved. // Use of this source code is governed by an MIT license // that can be found in the LICENSE file. //@[deprecated: '`vweb` is deprecated `veb`. Please use `veb` instead.'] module vweb import os import io import runtime import net import net.http import net.urllib import time import json import encoding.html import context import strings // A type which don't get filtered inside templates pub type RawHtml = string // A dummy structure that returns from routes to indicate that you actually sent something to a user @[noinit] pub struct Result {} pub const methods_with_form = [http.Method.post, .put, .patch] pub const headers_close = http.new_custom_header_from_map({ 'Server': 'VWeb' http.CommonHeader.connection.str(): 'close' }) or { panic('should never fail') } pub const http_302 = http.new_response( status: .found body: '302 Found' header: headers_close ) pub const http_303 = http.new_response( status: .see_other body: '303 See Other' header: headers_close ) pub const http_400 = http.new_response( status: .bad_request body: '400 Bad Request' header: http.new_header( key: .content_type value: 'text/plain' ).join(headers_close) ) pub const http_404 = http.new_response( status: .not_found body: '404 Not Found' header: http.new_header( key: .content_type value: 'text/plain' ).join(headers_close) ) pub const http_500 = http.new_response( status: .internal_server_error body: '500 Internal Server Error' header: http.new_header( key: .content_type value: 'text/plain' ).join(headers_close) ) pub const mime_types = { '.aac': 'audio/aac' '.abw': 'application/x-abiword' '.arc': 'application/x-freearc' '.avi': 'video/x-msvideo' '.azw': 'application/vnd.amazon.ebook' '.bin': 'application/octet-stream' '.bmp': 'image/bmp' '.bz': 'application/x-bzip' '.bz2': 'application/x-bzip2' '.cda': 'application/x-cdf' '.csh': 'application/x-csh' '.css': 'text/css' '.csv': 'text/csv' '.doc': 'application/msword' '.docx': 'application/vnd.openxmlformats-officedocument.wordprocessingml.document' '.eot': 'application/vnd.ms-fontobject' '.epub': 'application/epub+zip' '.gz': 'application/gzip' '.gif': 'image/gif' '.htm': 'text/html' '.html': 'text/html' '.ico': 'image/vnd.microsoft.icon' '.ics': 'text/calendar' '.jar': 'application/java-archive' '.jpeg': 'image/jpeg' '.jpg': 'image/jpeg' '.js': 'text/javascript' '.json': 'application/json' '.jsonld': 'application/ld+json' '.md': 'text/markdown' '.mid': 'audio/midi audio/x-midi' '.midi': 'audio/midi audio/x-midi' '.mjs': 'text/javascript' '.mp3': 'audio/mpeg' '.mp4': 'video/mp4' '.mpeg': 'video/mpeg' '.mpkg': 'application/vnd.apple.installer+xml' '.odp': 'application/vnd.oasis.opendocument.presentation' '.ods': 'application/vnd.oasis.opendocument.spreadsheet' '.odt': 'application/vnd.oasis.opendocument.text' '.oga': 'audio/ogg' '.ogv': 'video/ogg' '.ogx': 'application/ogg' '.opus': 'audio/opus' '.otf': 'font/otf' '.png': 'image/png' '.pdf': 'application/pdf' '.php': 'application/x-httpd-php' '.ppt': 'application/vnd.ms-powerpoint' '.pptx': 'application/vnd.openxmlformats-officedocument.presentationml.presentation' '.rar': 'application/vnd.rar' '.rtf': 'application/rtf' '.sh': 'application/x-sh' '.svg': 'image/svg+xml' '.swf': 'application/x-shockwave-flash' '.tar': 'application/x-tar' '.toml': 'application/toml' '.tif': 'image/tiff' '.tiff': 'image/tiff' '.ts': 'video/mp2t' '.ttf': 'font/ttf' '.txt': 'text/plain' '.vsd': 'application/vnd.visio' '.wasm': 'application/wasm' '.wav': 'audio/wav' '.weba': 'audio/webm' '.webm': 'video/webm' '.webp': 'image/webp' '.woff': 'font/woff' '.woff2': 'font/woff2' '.xhtml': 'application/xhtml+xml' '.xls': 'application/vnd.ms-excel' '.xlsx': 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' '.xml': 'application/xml' '.xul': 'application/vnd.mozilla.xul+xml' '.zip': 'application/zip' '.3gp': 'video/3gpp' '.3g2': 'video/3gpp2' '.7z': 'application/x-7z-compressed' '.m3u8': 'application/vnd.apple.mpegurl' '.vsh': 'text/x-vlang' '.v': 'text/x-vlang' } pub const max_http_post_size = 1024 * 1024 pub const default_port = 8080 // The Context struct represents the Context which hold the HTTP request and response. // It has fields for the query, form, files. pub struct Context { mut: content_type string = 'text/plain' status string = '200 OK' ctx context.Context = context.EmptyContext{} pub mut: // HTTP Request req http.Request // TODO: Response done bool // time.ticks() from start of vweb connection handle. // You can use it to determine how much time is spent on your request. page_gen_start i64 // TCP connection to client. // But beware, do not store it for further use, after request processing vweb will close connection. conn &net.TcpConn = unsafe { nil } static_files map[string]string static_mime_types map[string]string static_hosts map[string]string // Map containing query params for the route. // http://localhost:3000/index?q=vpm&order_by=desc => { 'q': 'vpm', 'order_by': 'desc' } query map[string]string // Multipart-form fields. form map[string]string // Files from multipart-form. files map[string][]http.FileData header http.Header // response headers // ? It doesn't seem to be used anywhere form_error string livereload_poll_interval_ms int = 250 } struct FileData { pub: filename string content_type string data string } struct Route { methods []http.Method path string path_words []string // precalculated once to avoid split() allocations in handle_conn() middleware string host string } // init_server is called at the server start. // Note: defining this method is optional. // You can use it for initializing globals. pub fn (ctx &Context) init_server() { eprintln('init_server() has been deprecated, please init your web app in `fn main()`') } // before_accept_loop is called once the vweb app is started, and listening, but before the loop that accepts // incoming request connections. // It will be called in the main thread, that runs vweb.run/2 or vweb.run_at/2. // It allows you to be notified about the successful start of your app, and to synchronise your other threads // with the webserver start, without error prone and slow pooling or time.sleep waiting. // Defining this method is optional. pub fn (ctx &Context) before_accept_loop() { } // before_request is called once before each request is routed. // It will be called in one of multiple threads in a pool, serving requests, // the same one, in which the matching route method will be executed right after it. // Defining this method is optional. pub fn (ctx &Context) before_request() {} // TODO: test // send_response_to_client sends back a custom response to the client, with the given `mimetype` and content in `res`. @[manualfree] pub fn (mut ctx Context) send_response_to_client(mimetype string, res string) bool { if ctx.done { return false } ctx.done = true mut resp := http.Response{ body: res } $if vweb_livereload ? { if mimetype == 'text/html' { resp.body = res.replace('', '\n') } } // build the header after the potential modification of resp.body from above header := http.new_header_from_map({ .content_type: mimetype .content_length: resp.body.len.str() }).join(ctx.header) resp.header = header.join(headers_close) resp.set_version(.v1_1) resp.set_status(http.status_from_int(ctx.status.int())) // send_string(mut ctx.conn, resp.bytestr()) or { return false } fast_send_resp(mut ctx.conn, resp) or { return false } return true } // html responds with payload and content-type `text/html` pub fn (mut ctx Context) html(payload string) Result { ctx.send_response_to_client('text/html', payload) return Result{} } // text responds with s as payload and content-type `text/plain` pub fn (mut ctx Context) text(s string) Result { ctx.send_response_to_client('text/plain', s) return Result{} } // json responds with json_s as payload and content-type `application/json` pub fn (mut ctx Context) json[T](j T) Result { json_s := json.encode(j) ctx.send_response_to_client('application/json', json_s) return Result{} } // json_pretty responds with a pretty-printed JSON result pub fn (mut ctx Context) json_pretty[T](j T) Result { json_s := json.encode_pretty(j) ctx.send_response_to_client('application/json', json_s) return Result{} } // TODO: test // file responds with the content of the given file as payload. pub fn (mut ctx Context) file(f_path string) Result { if !os.exists(f_path) { eprintln('[vweb] file ${f_path} does not exist') return ctx.not_found() } ext := os.file_ext(f_path) data := os.read_file(f_path) or { eprint(err.msg()) ctx.server_error(500) return Result{} } content_type := mime_types[ext] if content_type.len == 0 { eprintln('[vweb] no MIME type found for extension ${ext}') ctx.server_error(500) } else { ctx.send_response_to_client(content_type, data) } return Result{} } // ok responds with s as payload and sets the status code to HTTP_OK pub fn (mut ctx Context) ok(s string) Result { ctx.set_status(200, 'OK') ctx.send_response_to_client(ctx.content_type, s) return Result{} } // TODO: test // server_error will send back an error response to the client. pub fn (mut ctx Context) server_error(ecode int) Result { $if debug { eprintln('> ctx.server_error ecode: ${ecode}') } if ctx.done { return Result{} } send_string(mut ctx.conn, http_500.bytestr()) or {} return Result{} } // RedirectParams represent the optional parameters to redirect/2 . @[params] pub struct RedirectParams { pub: status_code int = 302 } // redirect to an url. pub fn (mut ctx Context) redirect(url string, params RedirectParams) Result { if ctx.done { return Result{} } ctx.done = true mut resp := http_302 if params.status_code == 303 { resp = http_303 } resp.header = resp.header.join(ctx.header) resp.header.add(.location, url) send_string(mut ctx.conn, resp.bytestr()) or { return Result{} } return Result{} } // not_found send an not_found response. pub fn (mut ctx Context) not_found() Result { // TODO: add a [must_be_returned] attribute, so that the caller is forced to use `return app.not_found()` if ctx.done { return Result{} } ctx.done = true send_string(mut ctx.conn, http_404.bytestr()) or {} return Result{} } // TODO: test // set_cookie sets a cookie. pub fn (mut ctx Context) set_cookie(cookie http.Cookie) { cookie_raw := cookie.str() if cookie_raw == '' { eprintln('[vweb] error setting cookie: name of cookie is invalid') return } ctx.add_header('Set-Cookie', cookie_raw) } // set_content_type sets the response content type. pub fn (mut ctx Context) set_content_type(typ string) { ctx.content_type = typ } // TODO: test // set_cookie_with_expire_date sets a cookie with an `expire_date`. pub fn (mut ctx Context) set_cookie_with_expire_date(key string, val string, expire_date time.Time) { cookie := http.Cookie{ name: key value: val expires: expire_date } ctx.set_cookie(cookie) } // get_cookie get the value of a cookie, given its key. pub fn (ctx &Context) get_cookie(key string) !string { c := ctx.req.cookie(key) or { return error('Cookie not found') } return c.value // if value := ctx.req.cookies[key] { // return value //} } // TODO: test // Sets the response status pub fn (mut ctx Context) set_status(code int, desc string) { if code < 100 || code > 599 { ctx.status = '500 Internal Server Error' } else { ctx.status = '${code} ${desc}' } } // TODO: test // Adds an header to the response with key and val pub fn (mut ctx Context) add_header(key string, val string) { ctx.header.add_custom(key, val) or {} } // TODO: test // Returns the header data from the key pub fn (ctx &Context) get_header(key string) string { return ctx.req.header.get_custom(key) or { '' } } // set_value sets a value on the context. pub fn (mut ctx Context) set_value(key context.Key, value context.Any) { ctx.ctx = context.with_value(ctx.ctx, key, value) } // get_value gets a value from the context. pub fn (ctx &Context) get_value[T](key context.Key) ?T { if val := ctx.ctx.value(key) { match val { T { // `context.value()` always returns a reference // if we send back `val` the returntype becomes `?&T` and this can be problematic // for end users since they won't be able to do something like // `app.get_value[string]('a') or { '' } // since V expects the value in the or block to be of type `&string`. // And if a reference was allowed it would enable mutating the context directly return *val } else {} } } return none } pub type DatabasePool[T] = fn (tid int) T interface DbPoolInterface { db_handle voidptr mut: db voidptr } interface DbInterface { mut: db voidptr } pub type Middleware = fn (mut Context) bool interface MiddlewareInterface { middlewares map[string][]Middleware } // Generate route structs for an app fn generate_routes[T](app &T) !map[string]Route { // Parsing methods attributes mut routes := map[string]Route{} $for method in T.methods { http_methods, route_path, middleware, host := parse_attrs(method.name, method.attrs) or { return error('error parsing method attributes: ${err}') } routes[method.name] = Route{ methods: http_methods path: route_path path_words: route_path.split('/').filter(it != '') middleware: middleware host: host } } return routes } type ControllerHandler = fn (ctx Context, mut url urllib.URL, host string, tid int) pub struct ControllerPath { pub: path string handler ControllerHandler = unsafe { nil } pub mut: host string } interface ControllerInterface { controllers []&ControllerPath } pub struct Controller { pub mut: controllers []&ControllerPath } // controller generates a new Controller for the main app. pub fn controller[T](path string, global_app &T) &ControllerPath { routes := generate_routes(global_app) or { panic(err.msg()) } // generate struct with closure so the generic type is encapsulated in the closure // no need to type `ControllerHandler` as generic since it's not needed for closures return &ControllerPath{ path: path handler: fn [global_app, path, routes] [T](ctx Context, mut url urllib.URL, host string, tid int) { // request_app is freed in `handle_route` mut request_app := new_request_app[T](global_app, ctx, tid) // transform the url url.path = url.path.all_after_first(path) handle_route[T](mut request_app, url, host, &routes, tid) } } } // controller_host generates a controller which only handles incoming requests from the `host` domain. pub fn controller_host[T](host string, path string, global_app &T) &ControllerPath { mut ctrl := controller(path, global_app) ctrl.host = host return ctrl } // run - start a new VWeb server, listening to all available addresses, at the specified `port`. pub fn run[T](global_app &T, port int) { run_at[T](global_app, host: '', port: port, family: .ip6) or { panic(err.msg()) } } @[params] pub struct RunParams { pub: family net.AddrFamily = .ip6 // use `family: .ip, host: 'localhost'` when you want it to bind only to 127.0.0.1 host string port int = 8080 nr_workers int = runtime.nr_jobs() pool_channel_slots int = 1000 show_startup_message bool = true startup_message string } // run_at - start a new VWeb server, listening only on a specific address `host`, at the specified `port`. // Usage example: vweb.run_at(new_app(), host: 'localhost' port: 8099 family: .ip)! @[manualfree] pub fn run_at[T](global_app &T, params RunParams) ! { if params.port <= 0 || params.port > 65535 { return error('invalid port number `${params.port}`, it should be between 1 and 65535') } if params.pool_channel_slots < 1 { return error('invalid pool_channel_slots `${params.pool_channel_slots}`, it should be above 0, preferably higher than 10 x nr_workers') } if params.nr_workers < 1 { return error('invalid nr_workers `${params.nr_workers}`, it should be above 0') } routes := generate_routes(global_app)! controllers_sorted := check_duplicate_routes_in_controllers[T](global_app, routes)! listen_address := '${params.host}:${params.port}' mut l := net.listen_tcp(params.family, listen_address) or { ecode := err.code() return error('failed to listen ${ecode} ${err}') } $if trace_listen ? { eprintln('>> vweb listen_address: `${listen_address}` | params.family: ${params.family} | l.addr: ${l.addr()} | params: ${params}') } if params.show_startup_message { if params.startup_message == '' { host := if params.host == '' { 'localhost' } else { params.host } println('[Vweb] Running app on http://${host}:${params.port}/') } else { println(params.startup_message) } } ch := chan &RequestParams{cap: params.pool_channel_slots} mut ws := []thread{cap: params.nr_workers} for worker_number in 0 .. params.nr_workers { ws << new_worker[T](ch, worker_number) } if params.show_startup_message { println('[Vweb] We have ${ws.len} workers') } flush_stdout() unsafe { global_app.before_accept_loop() } // Forever accept every connection that comes, and // pass it through the channel, to the thread pool: for { mut connection := l.accept_only() or { // failures should not panic eprintln('[vweb] accept() failed with error: ${err.msg()}') continue } ch <- &RequestParams{ connection: connection global_app: unsafe { global_app } controllers: controllers_sorted routes: &routes } } } fn check_duplicate_routes_in_controllers[T](global_app &T, routes map[string]Route) ![]&ControllerPath { mut controllers_sorted := []&ControllerPath{} $if T is ControllerInterface { mut paths := []string{} controllers_sorted = global_app.controllers.clone() controllers_sorted.sort(a.path.len > b.path.len) for controller in controllers_sorted { if controller.host == '' { if controller.path in paths { return error('conflicting paths: duplicate controller handling the route "${controller.path}"') } paths << controller.path } } for method_name, route in routes { for controller_path in paths { if route.path.starts_with(controller_path) { return error('conflicting paths: method "${method_name}" with route "${route.path}" should be handled by the Controller of path "${controller_path}"') } } } } return controllers_sorted } fn new_request_app[T](global_app &T, ctx Context, tid int) &T { // Create a new app object for each connection, copy global data like db connections mut request_app := &T{} $if T is MiddlewareInterface { request_app = &T{ middlewares: global_app.middlewares.clone() } } $if T is DbPoolInterface { // get database connection from the connection pool request_app.db = global_app.db_handle(tid) } $else $if T is DbInterface { // copy a database to a app without pooling request_app.db = global_app.db } $for field in T.fields { if field.is_shared { unsafe { // TODO: remove this horrible hack, when copying a shared field at comptime works properly!!! raptr := &voidptr(&request_app.$(field.name)) gaptr := &voidptr(&global_app.$(field.name)) *raptr = *gaptr _ = raptr // TODO: v produces a warning that `raptr` is unused otherwise, even though it was on the previous line } } else { if 'vweb_global' in field.attrs { request_app.$(field.name) = global_app.$(field.name) } } } request_app.Context = ctx // copy request data such as form and query etc // copy static files request_app.Context.static_files = global_app.static_files.clone() request_app.Context.static_mime_types = global_app.static_mime_types.clone() request_app.Context.static_hosts = global_app.static_hosts.clone() return request_app } @[manualfree] fn handle_conn[T](mut conn net.TcpConn, global_app &T, controllers []&ControllerPath, routes &map[string]Route, tid int) { conn.set_read_timeout(30 * time.second) conn.set_write_timeout(30 * time.second) defer { conn.close() or {} } conn.set_sock() or { eprintln('[vweb] tid: ${tid:03d}, error setting socket') return } mut reader := io.new_buffered_reader(reader: conn) defer { unsafe { reader.free() } } page_gen_start := time.ticks() // Request parse req := http.parse_request(mut reader) or { // Prevents errors from being thrown when BufferedReader is empty if err !is io.Eof { eprintln('[vweb] tid: ${tid:03d}, error parsing request: ${err}') } return } $if trace_request ? { dump(req) } $if trace_request_url ? { dump(req.url) } // URL Parse mut url := urllib.parse(req.url) or { eprintln('[vweb] tid: ${tid:03d}, error parsing path: ${err}') return } // Query parse query := parse_query_from_url(url) // Form parse form, files := parse_form_from_request(req) or { // Bad request conn.write(http_400.bytes()) or {} return } // remove the port from the HTTP Host header host_with_port := req.header.get(.host) or { '' } host, _ := urllib.split_host_port(host_with_port) // Create Context with request data ctx := Context{ ctx: context.background() req: req page_gen_start: page_gen_start conn: conn query: query form: form files: files } // match controller paths $if T is ControllerInterface { for controller in controllers { // skip controller if the hosts don't match if controller.host != '' && host != controller.host { continue } if url.path.len >= controller.path.len && url.path.starts_with(controller.path) { // pass route handling to the controller controller.handler(ctx, mut url, host, tid) return } } } mut request_app := new_request_app(global_app, ctx, tid) handle_route(mut request_app, url, host, routes, tid) } @[manualfree] fn handle_route[T](mut app T, url urllib.URL, host string, routes &map[string]Route, tid int) { defer { unsafe { free(app) } } url_words := url.path.split('/').filter(it != '') // Calling middleware... app.before_request() $if vweb_livereload ? { if url.path.starts_with('/vweb_livereload/') { if url.path.ends_with('current') { app.handle_vweb_livereload_current() return } if url.path.ends_with('script.js') { app.handle_vweb_livereload_script() return } } } // Static handling if serve_if_static[T](mut app, url, host) { // successfully served a static file return } // Route matching $for method in T.methods { $if method.return_type is Result { route := (*routes)[method.name] or { eprintln('[vweb] tid: ${tid:03d}, parsed attributes for the `${method.name}` are not found, skipping...') Route{} } // Skip if the HTTP request method does not match the attributes if app.req.method in route.methods { // Used for route matching route_words := route.path_words // route.path.split('/').filter(it != '') // println('ROUTES ${routes}') // println('\nROUTE WORDS') // println(route_words) // println(route.path_words) // Skip if the host does not match or is empty if route.host == '' || route.host == host { // Route immediate matches first // For example URL `/register` matches route `/:user`, but `fn register()` // should be called first. if !route.path.contains('/:') && url_words == route_words { // We found a match $if T is MiddlewareInterface { if validate_middleware(mut app, url.path) == false { return } } if app.req.method == .post && method.args.len > 0 { // Populate method args with form values mut args := []string{cap: method.args.len} for param in method.args { args << app.form[param.name] } if route.middleware == '' { app.$method(args) } else if validate_app_middleware(mut app, route.middleware, method.name) { app.$method(args) } } else { if route.middleware == '' { app.$method() } else if validate_app_middleware(mut app, route.middleware, method.name) { app.$method() } } return } if url_words.len == 0 && route_words == ['index'] && method.name == 'index' { $if T is MiddlewareInterface { if validate_middleware(mut app, url.path) == false { return } } if route.middleware == '' { app.$method() } else if validate_app_middleware(mut app, route.middleware, method.name) { app.$method() } return } if params := route_matches(url_words, route_words) { method_args := params.clone() if method_args.len != method.args.len { eprintln('[vweb] tid: ${tid:03d}, warning: uneven parameters count (${method.args.len}) in `${method.name}`, compared to the vweb route `${method.attrs}` (${method_args.len})') } $if T is MiddlewareInterface { if validate_middleware(mut app, url.path) == false { return } } if route.middleware == '' { app.$method(method_args) } else if validate_app_middleware(mut app, route.middleware, method.name) { app.$method(method_args) } return } } } } } // Route not found app.not_found() } // validate_middleware validates and fires all middlewares that are defined in the global app instance fn validate_middleware[T](mut app T, full_path string) bool { for path, middleware_chain in app.middlewares { // only execute middleware if route.path starts with `path` if full_path.len >= path.len && full_path.starts_with(path) { // there is middleware for this route for func in middleware_chain { if func(mut app.Context) == false { return false } } } } // passed all middleware checks return true } // validate_app_middleware validates all middlewares as a method of `app` fn validate_app_middleware[T](mut app T, middleware string, method_name string) bool { // then the middleware that is defined for this route specifically valid := fire_app_middleware(mut app, middleware) or { eprintln('[vweb] warning: middleware `${middleware}` for the `${method_name}` are not found') true } return valid } // fire_app_middleware fires all middlewares that are defined as a method of `app` fn fire_app_middleware[T](mut app T, method_name string) ?bool { $for method in T.methods { if method_name == method.name { $if method.return_type is bool { return app.$method() } $else { eprintln('[vweb] error in `${method.name}, middleware functions must return bool') return none } } } // no middleware function found return none } fn route_matches(url_words []string, route_words []string) ?[]string { // URL path should be at least as long as the route path // except for the catchall route (`/:path...`) if route_words.len == 1 && route_words[0].starts_with(':') && route_words[0].ends_with('...') { return ['/' + url_words.join('/')] } if url_words.len < route_words.len { return none } mut params := []string{cap: url_words.len} if url_words.len == route_words.len { for i in 0 .. url_words.len { if route_words[i].starts_with(':') { // We found a path parameter params << url_words[i] } else if route_words[i] != url_words[i] { // This url does not match the route return none } } return params } // The last route can end with ... indicating an array if route_words.len == 0 || !route_words[route_words.len - 1].ends_with('...') { return none } for i in 0 .. route_words.len - 1 { if route_words[i].starts_with(':') { // We found a path parameter params << url_words[i] } else if route_words[i] != url_words[i] { // This url does not match the route return none } } params << url_words[route_words.len - 1..url_words.len].join('/') return params } // check if request is for a static file and serves it // returns true if we served a static file, false otherwise @[manualfree] fn serve_if_static[T](mut app T, url urllib.URL, host string) bool { // TODO: handle url parameters properly - for now, ignore them static_file := app.static_files[url.path] or { return false } mime_type := app.static_mime_types[url.path] or { return false } static_host := app.static_hosts[url.path] or { '' } if static_file == '' || mime_type == '' { return false } if static_host != '' && static_host != host { return false } data := os.read_file(static_file) or { send_string(mut app.conn, http_404.bytestr()) or {} return true } app.send_response_to_client(mime_type, data) unsafe { data.free() } return true } fn (mut ctx Context) scan_static_directory(directory_path string, mount_path string, host string) { files := os.ls(directory_path) or { panic(err) } if files.len > 0 { for file in files { full_path := os.join_path(directory_path, file) if os.is_dir(full_path) { ctx.scan_static_directory(full_path, mount_path.trim_right('/') + '/' + file, host) } else if file.contains('.') && !file.starts_with('.') && !file.ends_with('.') { ext := os.file_ext(file) // Rudimentary guard against adding files not in mime_types. // Use host_serve_static directly to add non-standard mime types. if ext in mime_types { ctx.host_serve_static(host, mount_path.trim_right('/') + '/' + file, full_path) } } } } } // 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 '/' // Usage: // ```v // os.chdir( os.executable() )? // app.handle_static('assets', true) // ``` pub fn (mut ctx Context) handle_static(directory_path string, root bool) bool { return ctx.host_handle_static('', directory_path, root) } // host_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 '/' // Usage: // ```v // os.chdir( os.executable() )? // app.host_handle_static('localhost', 'assets', true) // ``` pub fn (mut ctx Context) host_handle_static(host string, directory_path string, root bool) bool { if ctx.done || !os.exists(directory_path) { return false } dir_path := directory_path.trim_space().trim_right('/') mut mount_path := '' if dir_path != '.' && os.is_dir(dir_path) && !root { // Mount point hygiene, "./assets" => "/assets". mount_path = '/' + dir_path.trim_left('.').trim('/') } ctx.scan_static_directory(dir_path, mount_path, host) return true } // TODO: test // 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 . pub fn (mut ctx Context) mount_static_folder_at(directory_path string, mount_path string) bool { return ctx.host_mount_static_folder_at('', directory_path, mount_path) } // TODO: test // host_mount_static_folder_at - makes all static files in `directory_path` and inside it, available at http://host/mount_path // For example: suppose you have called .host_mount_static_folder_at('localhost', '/var/share/myassets', '/assets'), // and you have a file /var/share/myassets/main.css . // => That file will be available at URL: http://localhost/assets/main.css . pub fn (mut ctx Context) host_mount_static_folder_at(host string, directory_path string, mount_path string) bool { if ctx.done || mount_path == '' || mount_path[0] != `/` || !os.exists(directory_path) { return false } dir_path := directory_path.trim_right('/') trim_mount_path := mount_path.trim_left('/').trim_right('/') ctx.scan_static_directory(dir_path, '/${trim_mount_path}', host) return true } // TODO: test // 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 pub fn (mut ctx Context) serve_static(url string, file_path string) { ctx.host_serve_static('', url, file_path) } // TODO: test // 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, `host` is the host to serve the file from pub fn (mut ctx Context) host_serve_static(host string, url string, file_path string) { ctx.static_files[url] = file_path // ctx.static_mime_types[url] = mime_type ext := os.file_ext(file_path) ctx.static_mime_types[url] = mime_types[ext] ctx.static_hosts[url] = host } // user_agent returns the user-agent header for the current client pub fn (ctx &Context) user_agent() string { return ctx.req.header.get(.user_agent) or { '' } } // Returns the ip address from the current user pub fn (ctx &Context) ip() string { mut ip := ctx.req.header.get(.x_forwarded_for) or { '' } if ip == '' { ip = ctx.req.header.get_custom('X-Real-Ip') or { '' } } if ip.contains(',') { ip = ip.all_before(',') } if ip == '' { ip = ctx.conn.peer_ip() or { '' } } return ip } // Set s to the form error pub fn (mut ctx Context) error(s string) { eprintln('[vweb] Context.error: ${s}') ctx.form_error = s // ctx.set_cookie(name: 'veb.error', value: s) } // Returns an empty result pub fn not_found() Result { return Result{} } fn send_string(mut conn net.TcpConn, s string) ! { $if trace_send_string_conn ? { eprintln('> send_string: conn: ${ptr_str(conn)}') } $if trace_response ? { eprintln('> send_string:\n${s}\n') } if voidptr(conn) == unsafe { nil } { return error('connection was closed before send_string') } conn.write_string(s)! } // Formats resp to a string suitable for HTTP response transmission // A fast version of `resp.bytestr()` used with // `send_string(mut ctx.conn, resp.bytestr())` fn fast_send_resp(mut conn net.TcpConn, resp http.Response) ! { mut sb := strings.new_builder(resp.body.len + 200) /* send_string(mut conn, 'HTTP/')! send_string(mut conn, resp.http_version)! send_string(mut conn, ' ')! send_string(mut conn, resp.status_code.str())! send_string(mut conn, ' ')! send_string(mut conn, resp.status_msg)! send_string(mut conn, '\r\n')! send_string(mut conn, resp.header.render( version: resp.version() ))! send_string(mut conn, '\r\n')! send_string(mut conn, resp.body)! */ sb.write_string('HTTP/') sb.write_string(resp.http_version) sb.write_string(' ') sb.write_decimal(resp.status_code) sb.write_string(' ') sb.write_string(resp.status_msg) sb.write_string('\r\n') // sb.write_string(resp.header.render_with_sb( // version: resp.version() //)) resp.header.render_into_sb(mut sb, version: resp.version() ) sb.write_string('\r\n') sb.write_string(resp.body) send_string(mut conn, sb.str())! } // Do not delete. // It used by `vlib/v/gen/c/str_intp.v:130` for string interpolation inside vweb templates // TODO: move it to template render fn filter(s string) string { return html.escape(s) } // Worker functions for the thread pool: struct RequestParams { global_app voidptr controllers []&ControllerPath routes &map[string]Route mut: connection &net.TcpConn } struct Worker[T] { id int ch chan &RequestParams } fn new_worker[T](ch chan &RequestParams, id int) thread { mut w := &Worker[T]{ id: id ch: ch } return spawn w.process_incoming_requests[T]() } fn (mut w Worker[T]) process_incoming_requests() { sid := '[vweb] tid: ${w.id:03d} received request' for { mut params := <-w.ch or { break } $if vweb_trace_worker_scan ? { eprintln(sid) } handle_conn[T](mut params.connection, params.global_app, params.controllers, params.routes, w.id) } $if vweb_trace_worker_scan ? { eprintln('[vweb] closing worker ${w.id}.') } } @[params] pub struct PoolParams[T] { pub: handler fn () T = unsafe { nil } @[required] nr_workers int = runtime.nr_jobs() } // database_pool creates a pool of database connections pub fn database_pool[T](params PoolParams[T]) DatabasePool[T] { mut connections := []T{} // create a database connection for each worker for _ in 0 .. params.nr_workers { connections << params.handler() } return fn [connections] [T](tid int) T { $if vweb_trace_worker_scan ? { eprintln('[vweb] worker ${tid} received database connection') } return connections[tid] } }