(frontend-services)= # Services Services are long lived pieces of code that provide a feature. They may be imported by components (with `useService`) or by other services. Also, they can declare a set of dependencies. In that sense, services are basically a DI {dfn}`dependency injection` system. For example, the `notification` service provides a way to display a notification, or the `rpc` service is the proper way to perform a request to the Odoo server. The following example registers a simple service that displays a notification every 5 seconds: ```javascript import { registry } from "@web/core/registry"; const myService = { dependencies: ["notification"], start(env, { notification }) { let counter = 1; setInterval(() => { notification.add(`Tick Tock ${counter++}`); }, 5000); } }; registry.category("services").add("myService", myService); ``` At startup, the web client starts all services present in the `services` registry. Note that the name used in the registry is the name of the service. :::{note} Most code that is not a component should be *packaged* in a service, in particular if it performs some side effect. This is very useful for testing purposes: tests can choose which services are active, so there are less chance for unwanted side effects interfering with the code being tested. ::: ## Defining a service A service needs to implement the following interface: ```{eval-rst} .. js:data:: dependencies Optional list of strings. It is the list of all dependencies (other services) that this service needs ``` ```{eval-rst} .. js:function:: start(env, deps) :param Environment env: the application environment :param Object deps: all requested dependencies :returns: value of service or Promise This is the main definition for the service. It can return either a value or a promise. In that case, the service loader simply waits for the promise to resolve to a value, which is then the value of the service. Some services do not export any value. They may just do their work without a need to be directly called by other code. In that case, their value will be set to ``null`` in ``env.services``. ``` ```{eval-rst} .. js:data:: async Optional value. If given, it should be `true` or a list of strings. Some services need to provide an asynchronous API. For example, the `rpc` service is an asynchronous function, or the `orm` service provides a set of functions to call the Odoo server. In that case, it is possible for components that use a service to be destroyed before the end of an asynchronous function call. Most of the time, the asynchronous function call needs to be ignored. Doing otherwise is potentially very risky, because the underlying component is no longer active. The `async` flag is a way to do just that: it signals to the service creator that all asynchronous calls coming from components should be left pending if the component is destroyed. ``` ## Using a service A service that depends on other services and has properly declared its `dependencies` simply receives a reference to the corresponding services in the second argument of the `start` method. The `useService` hook is the proper way to use a service in a component. It simply returns a reference to the service value, that can then be used by the component later. For example: ```javascript import { useService } from "@web/core/utils/hooks"; class MyComponent extends Component { setup() { const rpc = useService("rpc"); onWillStart(async () => { this.someValue = await rpc(...); }); } } ``` ## Reference List ```{eval-rst} .. list-table:: :widths: 25 75 :header-rows: 1 * - Technical Name - Short Description * - :ref:`cookie ` - read or modify cookies * - :ref:`effect ` - display graphical effects * - :ref:`http ` - perform low level http calls * - :ref:`notification ` - display notifications * - :ref:`router ` - manage the browser url * - :ref:`rpc ` - send requests to the server * - :ref:`scroller ` - handle clicks on anchors elements * - :ref:`title ` - read or modify the window title * - :ref:`user ` - provides some information related to the current user ``` (frontend-services-cookie)= ### Cookie service #### Overview - Technical name: `cookie` - Dependencies: none Provides a way to manipulate cookies. For example: ```javascript cookieService.setCookie("hello", "odoo"); ``` #### API ```{eval-rst} .. js:data:: current Object representing each cookie and its value if any (or empty string) ``` ```{eval-rst} .. js:function:: setCookie(name[, value, ttl]) :param string name: the name of the cookie that should be set :param any value: optional. If given, the cookie will be set to that value :param number ttl: optional. the time in seconds before the cookie will be deleted (default=1 year) Sets the cookie `name` to the value `value` with a max age of `ttl` ``` ```{eval-rst} .. js:function:: deleteCookie(name) :param string name: name of the cookie Deletes the cookie `name`. ``` (frontend-services-effect)= ### Effect service #### Overview - Technical name: `effect` - Dependencies: None Effects are graphical elements that can be temporarily displayed on top of the page, usually to provide feedback to the user that something interesting happened. A good example would be the rainbow man: ```{image} services/rainbow_man.png :align: center :alt: The rainbow man effect :width: 600 ``` Here's how this can be displayed: ```javascript const effectService = useService("effect"); effectService.add({ type: "rainbow_man", // can be omitted, default type is already "rainbow_man" message: "Boom! Team record for the past 30 days.", }); ``` :::{warning} The hook `useEffect` is not related to the effect service. ::: #### API ```{eval-rst} .. js:function:: effectService.add(options) :param object options: the options for the effect. They will get passed along to the underlying effect component. Display an effect. ``` The options are defined by: ```ts interface EffectOptions { // The name of the desired effect type?: string; [paramName: string]: any; } ``` #### Available effects Currently, the only effect is the rainbow man. ##### RainbowMan ```javascript effectService.add({ type: "rainbow_man" }); ``` ```{eval-rst} .. list-table:: :widths: 20 40 40 :header-rows: 1 * - Name - Type - Description * - `params.Component` - `owl.Component?` - Component class to instantiate inside the RainbowMan (will replace the message). * - `params.props` - `object?={}` - If params.Component is given, its props can be passed with this argument. * - `params.message` - `string?="Well Done!"` - Message is the notice the rainbowman holds. If effects are disabled for the user, the rainbowman won't appear and a simple notification will get displayed as a fallback. If effects are enabled and params.Component is given, params.message is not used. The message is a simple string or a string representing html (prefer using params.Component if you want interactions in the DOM). * - `params.messageIsHtml` - `boolean?=false` - Set to true if the message represents html, s.t. it will be correctly inserted into the DOM. * - `params.img_url` - `string?=/web/static/img/smile.svg` - The url of the image to display inside the rainbow. * - `params.fadeout` - `("slow"|"medium"|"fast"|"no")?="medium"` - Delay for rainbowman to disappear. `"fast"` will make rainbowman dissapear quickly. `"medium"` and `"slow"` will wait little longer before disappearing (can be used when `params.message` is longer). `"no"` will keep rainbowman on screen until user clicks anywhere outside rainbowman. ``` #### How to add an effect (frontend-services-effect-registry)= The effects are stored in a registry called `effects`. You can add new effects by providing a name and a function. ```javascript const effectRegistry = registry.category("effects"); effectRegistry.add("rainbow_man", rainbowManEffectFunction); ``` The function must follow this API: ```{eval-rst} .. js:function:: (env, params) :param Env env: the environment received by the service :param object params: the params received from the add function on the service. :returns: `({Component, props} | void)` A component and its props or nothing. ``` This function must create a component and return it. This component is mounted inside the effect component container. #### Example Let's say we want to add an effect that add a sepia look at the page. ```javascript import { registry } from "@web/core/registry"; import { Component, xml } from "@odoo/owl"; class SepiaEffect extends Component { static template = xml`
`; } export function sepiaEffectProvider(env, params = {}) { return { Component: SepiaEffect, }; } const effectRegistry = registry.category("effects"); effectRegistry.add("sepia", sepiaEffectProvider); ``` And then, call it somewhere you want and you will see the result. Here, it is called in webclient.js to make it visible everywhere for the example. ```javascript const effectService = useService("effect"); effectService.add({ type: "sepia" }); ``` ```{image} services/odoo_sepia.png :align: center :alt: Odoo in sepia :width: 600 ``` (frontend-services-http)= ### Http Service #### Overview - Technical name: `http` - Dependencies: None While most interactions between the client and the server in odoo are `RPCs` (`XMLHTTPRequest`), lower level control on requests may sometimes be required. This service provides a way to send `get` and `post` [http requests](https://developer.mozilla.org/en-US/docs/Web/HTTP/Methods). #### API ```{eval-rst} .. js:function:: async get(route[,readMethod = "json"]) :param string route: the url to send the request to :param string readMethod: the response content type. Can be "text", "json", "formData", "blob", "arrayBuffer". :returns: the result of the request with the format defined by the readMethod argument. Sends a get request. ``` ```{eval-rst} .. js:function:: async post(route [,params = {}, readMethod = "json"]) :param string route: the url to send the request to :param object params: key value data to be set in the form data part of the request :param string readMethod: the response content type. Can be "text", "json", "formData", "blob", "arrayBuffer". :returns: the result of the request with the format defined by the readMethod argument. Sends a post request. ``` #### Example ```javascript const httpService = useService("http"); const data = await httpService.get("https://something.com/posts/1"); // ... await httpService.post("https://something.com/posts/1", { title: "new title", content: "new content" }); ``` (frontend-services-notification)= ### Notification service #### Overview - Technical name: `notification` - Dependencies: None The `notification` service allows to display notifications on the screen. ```javascript const notificationService = useService("notification"); notificationService.add("I'm a very simple notification"); ``` #### API ```{eval-rst} .. js:function:: add(message[, options]) :param string message: the notification message to display :param object options: the options of the notification :returns: a function to close the notification Shows a notification. The options are defined by: .. list-table:: :widths: 15 30 55 :header-rows: 1 * - Name - Type - Description * - `title` - string - Add a title to the notification * - `type` - `warning` | `danger` | `success` | `info` - Changes the background color according to the type * - `sticky` - boolean - Whether or not the notification should stay until dismissed * - `className` - string - additional css class that will be added to the notification * - `onClose` - function - callback to be executed when the notification closes * - `buttons` - button[] (see below) - list of button to display in the notification * - `autocloseDelay` - number - duration in milliseconds before the notification is closed automatically The buttons are defined by: .. list-table:: :widths: 15 30 55 :header-rows: 1 * - Name - Type - Description * - `name` - string - The button text * - `onClick` - function - callback to execute when the button is clicked * - `primary` - boolean - whether the button should be styled as a primary button ``` #### Examples A notification for when a sale deal is made with a button to go some kind of commission page. ```javascript // in setup this.notificationService = useService("notification"); this.actionService = useService("action"); // later this.notificationService.add("You closed a deal!", { title: "Congrats", type: "success", buttons: [ { name: "See your Commission", onClick: () => { this.actionService.doAction("commission_action"); }, }, ], }); ``` ```{image} services/notification_service.png :align: center :alt: Example of notification :width: 600 px ``` A notification that closes after a second: ```javascript const notificationService = useService("notification"); const close = notificationService.add("I will be quickly closed"); setTimeout(close, 1000); ``` (frontend-services-router)= ### Router Service #### Overview - Technical name: `router` - Dependencies: none The `router` service provides three features: - information about the current route - a way for the application to update the url, depending on its state - listens to every hash change, and notifies the rest of the application #### API ```{eval-rst} .. js:data:: current :noindex: The current route can be accessed with the ``current`` key. It is an object with the following information: * `pathname (string)`: the path for the current location (most likely `/web` ) * `search (object)`: a dictionary mapping each search keyword (the querystring) from the url to its value. An empty string is the value if no value was explicitely given * `hash (object)`: same as above, but for values described in the hash. ``` For example: ```javascript // url = /web?debug=assets#action=123&owl&menu_id=174 const { pathname, search, hash } = env.services.router.current; console.log(pathname); // /web console.log(search); // { debug="assets" } console.log(hash); // { action:123, owl: "", menu_id: 174 } ``` Updating the URL is done with the `pushState` method: ```{eval-rst} .. js:function:: pushState(hash: object[, replace?: boolean]) :param Object hash: object containing a mapping from some keys to some values :param boolean replace: if true, the url will be replaced, otherwise only key/value pairs from the `hash` will be updated. Updates the URL with each key/value pair from the `hash` object. If a value is set to an empty string, the key is added to the url without any corresponding value. If true, the `replace` argument tells the router that the url hash should be completely replaced (so values not present in the `hash` object will be removed). This method call does not reload the page. It also does not trigger a `hashchange` event, nor a `ROUTE_CHANGE` in the :ref:`main bus `. This is because this method is intended to only updates the url. The code calling this method has the responsibility to make sure that the screen is updated as well. ``` For example: ```javascript // url = /web#action_id=123 routerService.pushState({ menu_id: 321 }); // url is now /web#action_id=123&menu_id=321 routerService.pushState({ yipyip: "" }, replace: true); // url is now /web#yipyip ``` Finally, the `redirect` method will redirect the browser to a specified url: ```{eval-rst} .. js:function:: redirect(url[, wait]) :param string url: a valid url :param boolean wait: if true, wait for the server to be ready, and redirect after Redirect the browser to `url`. This method reloads the page. The `wait` argument is rarely used: it is useful in some cases where we know that the server will be unavailable for a short duration, typically just after an addon update or install operation. ``` :::{note} The router service emits a `ROUTE_CHANGE` event on the {ref}`main bus ` whenever the current route has changed. ::: (frontend-services-rpc)= ### RPC service #### Overview - Technical name: `rpc` - Dependencies: none The `rpc` service provides a single asynchronous function to send requests to the server. Calling a controller is very simple: the route should be the first argument and optionally, a `params` object can be given as a second argument. ```javascript // in setup this.rpc = useService("rpc"); // somewhere else, in an async function: const result = await this.rpc("/my/route", { some: "value" }); ``` :::{note} Note that the `rpc` service is considered a low-level service. It should only be used to interact with Odoo controllers. To work with models (which is by far the most important usecase), one should use the `orm` service instead. ::: #### API ```{eval-rst} .. js:function:: rpc(route, params, settings) :param string route: route targeted by the request :param Object params: (optional) parameters sent to the server :param Object settings: (optional) request settings (see below) The ``settings`` object can contain: - ``xhr``, which should be a ``XMLHTTPRequest`` object. In that case, the ``rpc`` method will simply use it instead of creating a new one. This is useful when one accesses advanced features of the `XMLHTTPRequest` API. - ``silent (boolean)`` If set to ``true``, the web client will not provide a feedback that there is a pending rpc. ``` The `rpc` service communicates with the server by using a `XMLHTTPRequest` object, configured to work with the `application/json` content type. So clearly the content of the request should be JSON serializable. Each request done by this service uses the `POST` http method. Server errors actually return the response with an http code 200. But the `rpc` service will treat them as error. #### Error Handling An rpc can fail for two main reasons: - either the odoo server returns an error (so, we call this a `server` error). In that case the http request will return with an http code 200 BUT with a response object containing an `error` key. - or there is some other kind of network error When a rpc fails, then: - the promise representing the rpc is rejected, so the calling code will crash, unless it handles the situation - an event `RPC_ERROR` is triggered on the main application bus. The event payload contains a description of the cause of the error: If it is a server error (the server code threw an exception). In that case the event payload will be an object with the following keys: - `type = 'server'` - `message(string)` - `code(number)` - `name(string)` (optional, used by the error service to look for an appropriate dialog to use when handling the error) - `subType(string)` (optional, often used to determine the dialog title) - `data(object)` (optional object that can contain various keys among which `debug` : the main debug information, with the call stack) If it is a network error, then the error description is simply an object `{type: 'network'}`. When a network error occurs, a {ref}`notification ` is displayed and the server is regularly contacted until it responds. The notification is closed as soon as the server responds. (frontend-services-scroller)= ### Scroller service #### Overview - Technical name: `scroller` - Dependencies: none Whenever the user clicks on an anchor in the web client, this service automatically scrolls to the target (if appropriate). The service adds an event listener to get `click`'s on the document. The service checks if the selector contained in its href attribute is valid to distinguish anchors and Odoo actions (e.g. ``). It does nothing if it is not the case. An event `SCROLLER:ANCHOR_LINK_CLICKED` is triggered on the main application bus if the click seems to be targeted at an element. The event contains a custom event containing the `element` matching and its `id` as a reference. It may allow other parts to handle a behavior relative to anchors themselves. The original event is also given as it might need to be prevented. If the event is not prevented, then the user interface will scroll to the target element. #### API The following values are contained in the `anchor-link-clicked` custom event explained above. ```{eval-rst} .. list-table:: :widths: 25 25 50 :header-rows: 1 * - Name - Type - Description * - `element` - `HTMLElement | null` - The anchor element targeted by the href * - `id` - `string` - The id contained in the href * - `originalEv` - `Event` - The original click event ``` :::{note} The scroller service emits a `SCROLLER:ANCHOR_LINK_CLICKED` event on the {ref}`main bus `. To avoid the default scroll behavior of the scroller service, you must use `preventDefault()` on the event given to the listener so that you can implement your own behavior correctly from the listener. ::: (frontend-services-title)= ### Title Service #### Overview - Technical name: `title` - Dependencies: none The `title` service offers a simple API that allows to read/modify the document title. For example, if the current document title is "Odoo", we can change it to "Odoo 15 - Apple" by using the following command: ```javascript // in some component setup method const titleService = useService("title"); titleService.setParts({ odoo: "Odoo 15", fruit: "Apple" }); ``` #### API The `title` service manipulates the following interface: ```ts interface Parts { [key: string]: string | null; } ``` Each key represents the identity of a part of the title, and each value is the string that is displayed, or `null` if it has been removed. Its API is: ```{eval-rst} .. js:data:: current :noindex: This is a string representing the current title. It is structured in the following way: ``value_1 - ... - value_n`` where each `value_i` is a (non null) value found in the `Parts` object (returned by the `getParts` function) ``` ```{eval-rst} .. js:function:: getParts :returns: Parts the current `Parts` object maintained by the title service ``` ```{eval-rst} .. js:function:: setParts(parts) :param Parts parts: object representing the required change The ``setParts`` method allows to add/replace/delete several parts of the title. Delete a part (a value) is done by setting the associated key value to `null`. Note that one can only modify a single part without affecting the other parts. For example, if the title is composed of the following parts: .. code-block:: javascript { odoo: "Odoo", action: "Import" } with ``current`` value being ``Odoo - Import`` , then .. code-block:: javascript setParts({ action: null, }); will change the title to ``Odoo``. ``` (frontend-services-user)= ### User service #### Overview - Technical name: `user` - Dependencies: `rpc` The `user` service provides a bunch of data and a few helper functions concerning the connected user. #### API ```{eval-rst} .. list-table:: :widths: 25 25 50 :header-rows: 1 * - Name - Type - Description * - ``context`` - ``Object`` - The :ref:`user context` * - ``db`` - ``Object`` - Info about the database * - ``home_action_id`` - ``(number | false)`` - Id of the action used as home for the user * - ``isAdmin`` - ``boolean`` - Whether the user is an admin (group `base.group_erp_manager` or superuser) * - ``isSystem`` - ``boolean`` - Whether the user is part of the system group (`base.group_system`) * - ``lang`` - ``string`` - language used * - ``name`` - ``string`` - Name of the user * - ``partnerId`` - ``number`` - Id of the partner instance of the user * - ``tz`` - ``string`` - The timezone of the user * - ``userId`` - ``number`` - Id of the user * - ``userName`` - ``string`` - Alternative nick name of the user ``` ```{eval-rst} .. js:function:: updateContext(update) :param object update: the object to update the context with update the :ref:`user context` with the given object. .. code-block:: javascript userService.updateContext({ isFriend: true }) ``` ```{eval-rst} .. js:function:: removeFromContext(key) :param string key: the key of the targeted attribute remove the value with the given key from the :ref:`user context` .. code-block:: javascript userService.removeFromContext("isFriend") ``` ```{eval-rst} .. js:function:: hasGroup(group) :param string group: the xml_id of the group to look for :returns: `Promise` is the user in the group check if the user is part of a group .. code-block:: javascript const isInSalesGroup = await userService.hasGroup("sale.group_sales") ```