Functions that wrap Jira API.
Every Jira function in this namespace follows the same pattern and
accepts at least the following three parameters: send-fn
,
receive-fn
, and opts
.
send-fn
. A function of one argument, that accepts a Ring-style
request map, sends it to a Jira HTTP server and returns
a Ring-style response map.receive-fn
. A function of one argument, that accepts a Ring-style
response map, transforms it and returns the transformed value.opts
. A map (it is optional for some of the functions) that configures
a Jira query.The library doesn't send HTTP requests itself, delegating this job
to a caller via send-fn
and receive-fn
parameters instead. Each
function will invoke send-fn
argument with a request map it
generated, then return a result of applying receive-fn
to the
return value from send-fn
:
(defn typical-function
[send-fn receive-fn opts]
(let [request (generate-request-map opts)]
(-> request
send-fn
receive-fn)))
This approach allows for zero dependencies library but it comes with
a price - users have to add a glue between HTTP library of their
choice and manenko/clj-jira
.
This section explains how to use manenko/clj-jira
and clj-http
libraries together.
First, require both libraries in your application:
(ns manenko.clj-jira.example
(:require [clj-http.client :as client]
[manenko.clj-jira.core :as jira]
[manenko.clj-jira.middleware :as middleware]))
Then, define a host, email, and API token for Jira communication:
(def host "example.atlassian.net")
(def email "user@example.com")
(def token "DN21KLJh298haishu8AUHIU3")
You can, of course, retrieve them from other sources instead of hardcoding.
Next step is to define a function that sends an HTTP request and
integrate it with Jira middleware provided by manenko/clj-jira
:
(defn request
[m]
(client/with-middleware
(conj
client/default-middleware
(middleware/wrap-api host)
(middleware/wrap-token-auth email token))
(client/request m)))
Now you can use request
function to make API calls:
(jira/get-current-user request identity)
Functions that wrap Jira API. ### Design Every Jira function in this namespace follows the same pattern and accepts at least the following three parameters: `send-fn`, `receive-fn`, and `opts`. * `send-fn`. A function of one argument, that accepts a [Ring-style] *request* map, sends it to a Jira HTTP server and returns a [Ring-style] *response* map. * `receive-fn`. A function of one argument, that accepts a [Ring-style] *response* map, transforms it and returns the *transformed* value. * `opts`. A map (it is optional for some of the functions) that configures a Jira query. The library doesn't send HTTP requests itself, delegating this job to a caller via `send-fn` and `receive-fn` parameters instead. Each function will invoke `send-fn` argument with a request map it generated, then return a result of applying `receive-fn` to the return value from `send-fn`: ```clojure (defn typical-function [send-fn receive-fn opts] (let [request (generate-request-map opts)] (-> request send-fn receive-fn))) ``` This approach allows for zero dependencies library but it comes with a price - users have to add a glue between HTTP library of their choice and `manenko/clj-jira`. ### Quickstart This section explains how to use `manenko/clj-jira` and [clj-http] libraries together. First, require both libraries in your application: ```clojure (ns manenko.clj-jira.example (:require [clj-http.client :as client] [manenko.clj-jira.core :as jira] [manenko.clj-jira.middleware :as middleware])) ``` Then, define a host, email, and [API token] for Jira communication: ```clojure (def host "example.atlassian.net") (def email "user@example.com") (def token "DN21KLJh298haishu8AUHIU3") ``` You can, of course, retrieve them from other sources instead of hardcoding. Next step is to define a function that sends an HTTP request and integrate it with Jira middleware provided by `manenko/clj-jira`: ```clojure (defn request [m] (client/with-middleware (conj client/default-middleware (middleware/wrap-api host) (middleware/wrap-token-auth email token)) (client/request m))) ``` Now you can use `request` function to make API calls: ```clojure (jira/get-current-user request identity) ``` [clj-http]: https://github.com/dakrone/clj-http [Ring-style]: https://github.com/ring-clojure/ring/blob/master/SPEC [API token]: https://confluence.atlassian.com/cloud/api-tokens-938839638.html
(get-current-user send-fn receive-fn)
(get-current-user send-fn receive-fn options)
Gets information about a current user.
Arguments:
send-fn
. A function of one argument, that accepts a Ring-style request map,
sends it to a Jira HTTP server and returns a Ring-style response map.receive-fn
. A function of one argument, that accepts a Ring-style response map,
transforms it and returns the transformed value.opts
. An optional map that configures a Jira query and supports the following
keys:
:expand
- A sequence of fields to include to the response. Supports
the following values: :group
(returns all groups, including
nested groups, the user belongs to) and :applicationRoles
(returns the application roles the user is assigned to).The function uses Get current user Atlassian Jira API.
Gets information about a current user. **Arguments:** * `send-fn`. A function of one argument, that accepts a Ring-style request map, sends it to a Jira HTTP server and returns a Ring-style response map. * `receive-fn`. A function of one argument, that accepts a Ring-style response map, transforms it and returns the transformed value. * `opts`. An optional map that configures a Jira query and supports the following keys: * `:expand` - A sequence of fields to include to the response. Supports the following values: `:group` (returns all groups, including nested groups, the user belongs to) and `:applicationRoles` (returns the application roles the user is assigned to). The function uses [Get current user] Atlassian Jira API. [Get current user]: https://developer.atlassian.com/cloud/jira/platform/rest/v3/#api-rest-api-3-myself-get
(get-projects send-fn receive-fn)
(get-projects send-fn receive-fn opts)
Gets projects visible to a current user.
send-fn
A function of one argument, that accepts a Ring-style request map, sends it to a Jira HTTP server and returns a Ring-style response map.
receive-fn
A function of one argument, that accepts a Ring-style response map, transforms it and returns the transformed value.
opts
An optional map that configures a Jira query and supports the following keys:
:startAt
- A page offset. Integer. Default is 0
.:maxResults
- A page size. Integer. Default is 0
. Maximum is 0
.:orderBy
- Orders results by a field. The following values
are supported: :category
, :key
, :name
, :owner
.
Default is :key
, which sorts projects alpabetically
by project key. You can prepend value with +
or -
to specify a sort direction, e.g. :+owner
,
:-category
, etc.:query
- Searches for projects which key
or name
matches
the given string.:typeKey
- Orders results by the project type. A sequence of the
following values: :business
, :service_desk
,
:software
.:categoryId
- An identifier of the project's category. Integer.:searchBy
- Default is [:key, :name]
.:action
- Filters results by projects for which user can view,
browse, or edit the project. Supports the following
values: :view
, :browse
, :edit
. Default is view
.:expand
- A sequence of fields to include to the response. Supports
the following values: :description
, :projectKeys
,
:lead
, :issueTypes
, :url
.The function uses Get projects paginated Atlassian Jira API.
Gets projects visible to a current user. ##### Arguments ###### `send-fn` A function of one argument, that accepts a Ring-style request map, sends it to a Jira HTTP server and returns a Ring-style response map. ###### `receive-fn` A function of one argument, that accepts a Ring-style response map, transforms it and returns the transformed value. ###### `opts` An optional map that configures a Jira query and supports the following keys: * `:startAt` - A page offset. Integer. Default is `0`. * `:maxResults` - A page size. Integer. Default is `0`. Maximum is `0`. * `:orderBy` - Orders results by a field. The following values are supported: `:category`, `:key`, `:name`, `:owner`. Default is `:key`, which sorts projects alpabetically by project key. You can prepend value with `+` or `-` to specify a sort direction, e.g. `:+owner`, `:-category`, etc. * `:query` - Searches for projects which `key` or `name` matches the given string. * `:typeKey` - Orders results by the project type. A sequence of the following values: `:business`, `:service_desk`, `:software`. * `:categoryId` - An identifier of the project's category. Integer. * `:searchBy` - Default is `[:key, :name]`. * `:action` - Filters results by projects for which user can view, browse, or edit the project. Supports the following values: `:view`, `:browse`, `:edit`. Default is `view`. * `:expand` - A sequence of fields to include to the response. Supports the following values: `:description`, `:projectKeys`, `:lead`, `:issueTypes`, `:url`. ##### Jira API Reference The function uses [Get projects paginated] Atlassian Jira API. [Get projects paginated]: https://developer.atlassian.com/cloud/jira/platform/rest/v3/#api-rest-api-3-project-search-get
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