campaigner/vendor/gopkg.in/andygrunwald/go-jira.v1/issue.go

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package jira
import (
"bytes"
"encoding/json"
"fmt"
"io"
"io/ioutil"
"mime/multipart"
"net/url"
"reflect"
"strings"
"time"
"github.com/fatih/structs"
"github.com/google/go-querystring/query"
"github.com/trivago/tgo/tcontainer"
)
const (
// AssigneeAutomatic represents the value of the "Assignee: Automatic" of JIRA
AssigneeAutomatic = "-1"
)
// IssueService handles Issues for the JIRA instance / API.
//
// JIRA API docs: https://docs.atlassian.com/jira/REST/latest/#api/2/issue
type IssueService struct {
client *Client
}
// UpdateQueryOptions specifies the optional parameters to the Edit issue
type UpdateQueryOptions struct {
NotifyUsers bool `url:"notifyUsers,omitempty"`
OverrideScreenSecurity bool `url:"overrideScreenSecurity,omitempty"`
OverrideEditableFlag bool `url:"overrideEditableFlag,omitempty"`
}
// Issue represents a JIRA issue.
type Issue struct {
Expand string `json:"expand,omitempty" structs:"expand,omitempty"`
ID string `json:"id,omitempty" structs:"id,omitempty"`
Self string `json:"self,omitempty" structs:"self,omitempty"`
Key string `json:"key,omitempty" structs:"key,omitempty"`
Fields *IssueFields `json:"fields,omitempty" structs:"fields,omitempty"`
RenderedFields *IssueRenderedFields `json:"renderedFields,omitempty" structs:"renderedFields,omitempty"`
Changelog *Changelog `json:"changelog,omitempty" structs:"changelog,omitempty"`
}
// ChangelogItems reflects one single changelog item of a history item
type ChangelogItems struct {
Field string `json:"field" structs:"field"`
FieldType string `json:"fieldtype" structs:"fieldtype"`
From interface{} `json:"from" structs:"from"`
FromString string `json:"fromString" structs:"fromString"`
To interface{} `json:"to" structs:"to"`
ToString string `json:"toString" structs:"toString"`
}
// ChangelogHistory reflects one single changelog history entry
type ChangelogHistory struct {
Id string `json:"id" structs:"id"`
Author User `json:"author" structs:"author"`
Created string `json:"created" structs:"created"`
Items []ChangelogItems `json:"items" structs:"items"`
}
// Changelog reflects the change log of an issue
type Changelog struct {
Histories []ChangelogHistory `json:"histories,omitempty"`
}
// Attachment represents a JIRA attachment
type Attachment struct {
Self string `json:"self,omitempty" structs:"self,omitempty"`
ID string `json:"id,omitempty" structs:"id,omitempty"`
Filename string `json:"filename,omitempty" structs:"filename,omitempty"`
Author *User `json:"author,omitempty" structs:"author,omitempty"`
Created string `json:"created,omitempty" structs:"created,omitempty"`
Size int `json:"size,omitempty" structs:"size,omitempty"`
MimeType string `json:"mimeType,omitempty" structs:"mimeType,omitempty"`
Content string `json:"content,omitempty" structs:"content,omitempty"`
Thumbnail string `json:"thumbnail,omitempty" structs:"thumbnail,omitempty"`
}
// Epic represents the epic to which an issue is associated
// Not that this struct does not process the returned "color" value
type Epic struct {
ID int `json:"id" structs:"id"`
Key string `json:"key" structs:"key"`
Self string `json:"self" structs:"self"`
Name string `json:"name" structs:"name"`
Summary string `json:"summary" structs:"summary"`
Done bool `json:"done" structs:"done"`
}
// IssueFields represents single fields of a JIRA issue.
// Every JIRA issue has several fields attached.
type IssueFields struct {
// TODO Missing fields
// * "workratio": -1,
// * "lastViewed": null,
// * "environment": null,
Expand string `json:"expand,omitempty" structs:"expand,omitempty"`
Type IssueType `json:"issuetype,omitempty" structs:"issuetype,omitempty"`
Project Project `json:"project,omitempty" structs:"project,omitempty"`
Resolution *Resolution `json:"resolution,omitempty" structs:"resolution,omitempty"`
Priority *Priority `json:"priority,omitempty" structs:"priority,omitempty"`
Resolutiondate Time `json:"resolutiondate,omitempty" structs:"resolutiondate,omitempty"`
Created Time `json:"created,omitempty" structs:"created,omitempty"`
Duedate Date `json:"duedate,omitempty" structs:"duedate,omitempty"`
Watches *Watches `json:"watches,omitempty" structs:"watches,omitempty"`
Assignee *User `json:"assignee,omitempty" structs:"assignee,omitempty"`
Updated Time `json:"updated,omitempty" structs:"updated,omitempty"`
Description string `json:"description,omitempty" structs:"description,omitempty"`
Summary string `json:"summary,omitempty" structs:"summary,omitempty"`
Creator *User `json:"Creator,omitempty" structs:"Creator,omitempty"`
Reporter *User `json:"reporter,omitempty" structs:"reporter,omitempty"`
Components []*Component `json:"components,omitempty" structs:"components,omitempty"`
Status *Status `json:"status,omitempty" structs:"status,omitempty"`
Progress *Progress `json:"progress,omitempty" structs:"progress,omitempty"`
AggregateProgress *Progress `json:"aggregateprogress,omitempty" structs:"aggregateprogress,omitempty"`
TimeTracking *TimeTracking `json:"timetracking,omitempty" structs:"timetracking,omitempty"`
TimeSpent int `json:"timespent,omitempty" structs:"timespent,omitempty"`
TimeEstimate int `json:"timeestimate,omitempty" structs:"timeestimate,omitempty"`
TimeOriginalEstimate int `json:"timeoriginalestimate,omitempty" structs:"timeoriginalestimate,omitempty"`
Worklog *Worklog `json:"worklog,omitempty" structs:"worklog,omitempty"`
IssueLinks []*IssueLink `json:"issuelinks,omitempty" structs:"issuelinks,omitempty"`
Comments *Comments `json:"comment,omitempty" structs:"comment,omitempty"`
FixVersions []*FixVersion `json:"fixVersions,omitempty" structs:"fixVersions,omitempty"`
AffectsVersions []*AffectsVersion `json:"versions,omitempty" structs:"versions,omitempty"`
Labels []string `json:"labels,omitempty" structs:"labels,omitempty"`
Subtasks []*Subtasks `json:"subtasks,omitempty" structs:"subtasks,omitempty"`
Attachments []*Attachment `json:"attachment,omitempty" structs:"attachment,omitempty"`
Epic *Epic `json:"epic,omitempty" structs:"epic,omitempty"`
Sprint *Sprint `json:"sprint,omitempty" structs:"sprint,omitempty"`
Parent *Parent `json:"parent,omitempty" structs:"parent,omitempty"`
AggregateTimeOriginalEstimate int `json:"aggregatetimeoriginalestimate,omitempty" structs:"aggregatetimeoriginalestimate,omitempty"`
AggregateTimeSpent int `json:"aggregatetimespent,omitempty" structs:"aggregatetimespent,omitempty"`
AggregateTimeEstimate int `json:"aggregatetimeestimate,omitempty" structs:"aggregatetimeestimate,omitempty"`
Unknowns tcontainer.MarshalMap
}
// MarshalJSON is a custom JSON marshal function for the IssueFields structs.
// It handles JIRA custom fields and maps those from / to "Unknowns" key.
func (i *IssueFields) MarshalJSON() ([]byte, error) {
m := structs.Map(i)
unknowns, okay := m["Unknowns"]
if okay {
// if unknowns present, shift all key value from unknown to a level up
for key, value := range unknowns.(tcontainer.MarshalMap) {
m[key] = value
}
delete(m, "Unknowns")
}
return json.Marshal(m)
}
// UnmarshalJSON is a custom JSON marshal function for the IssueFields structs.
// It handles JIRA custom fields and maps those from / to "Unknowns" key.
func (i *IssueFields) UnmarshalJSON(data []byte) error {
// Do the normal unmarshalling first
// Details for this way: http://choly.ca/post/go-json-marshalling/
type Alias IssueFields
aux := &struct {
*Alias
}{
Alias: (*Alias)(i),
}
if err := json.Unmarshal(data, &aux); err != nil {
return err
}
totalMap := tcontainer.NewMarshalMap()
err := json.Unmarshal(data, &totalMap)
if err != nil {
return err
}
t := reflect.TypeOf(*i)
for i := 0; i < t.NumField(); i++ {
field := t.Field(i)
tagDetail := field.Tag.Get("json")
if tagDetail == "" {
// ignore if there are no tags
continue
}
options := strings.Split(tagDetail, ",")
if len(options) == 0 {
return fmt.Errorf("No tags options found for %s", field.Name)
}
// the first one is the json tag
key := options[0]
if _, okay := totalMap.Value(key); okay {
delete(totalMap, key)
}
}
i = (*IssueFields)(aux.Alias)
// all the tags found in the struct were removed. Whatever is left are unknowns to struct
i.Unknowns = totalMap
return nil
}
// IssueRenderedFields represents rendered fields of a JIRA issue.
// Not all IssueFields are rendered.
type IssueRenderedFields struct {
// TODO Missing fields
// * "aggregatetimespent": null,
// * "workratio": -1,
// * "lastViewed": null,
// * "aggregatetimeoriginalestimate": null,
// * "aggregatetimeestimate": null,
// * "environment": null,
Resolutiondate string `json:"resolutiondate,omitempty" structs:"resolutiondate,omitempty"`
Created string `json:"created,omitempty" structs:"created,omitempty"`
Duedate string `json:"duedate,omitempty" structs:"duedate,omitempty"`
Updated string `json:"updated,omitempty" structs:"updated,omitempty"`
Comments *Comments `json:"comment,omitempty" structs:"comment,omitempty"`
Description string `json:"description,omitempty" structs:"description,omitempty"`
}
// IssueType represents a type of a JIRA issue.
// Typical types are "Request", "Bug", "Story", ...
type IssueType struct {
Self string `json:"self,omitempty" structs:"self,omitempty"`
ID string `json:"id,omitempty" structs:"id,omitempty"`
Description string `json:"description,omitempty" structs:"description,omitempty"`
IconURL string `json:"iconUrl,omitempty" structs:"iconUrl,omitempty"`
Name string `json:"name,omitempty" structs:"name,omitempty"`
Subtask bool `json:"subtask,omitempty" structs:"subtask,omitempty"`
AvatarID int `json:"avatarId,omitempty" structs:"avatarId,omitempty"`
}
// Watches represents a type of how many and which user are "observing" a JIRA issue to track the status / updates.
type Watches struct {
Self string `json:"self,omitempty" structs:"self,omitempty"`
WatchCount int `json:"watchCount,omitempty" structs:"watchCount,omitempty"`
IsWatching bool `json:"isWatching,omitempty" structs:"isWatching,omitempty"`
Watchers []*Watcher `json:"watchers,omitempty" structs:"watchers,omitempty"`
}
// Watcher represents a simplified user that "observes" the issue
type Watcher struct {
Self string `json:"self,omitempty" structs:"self,omitempty"`
Name string `json:"name,omitempty" structs:"name,omitempty"`
DisplayName string `json:"displayName,omitempty" structs:"displayName,omitempty"`
Active bool `json:"active,omitempty" structs:"active,omitempty"`
}
// AvatarUrls represents different dimensions of avatars / images
type AvatarUrls struct {
Four8X48 string `json:"48x48,omitempty" structs:"48x48,omitempty"`
Two4X24 string `json:"24x24,omitempty" structs:"24x24,omitempty"`
One6X16 string `json:"16x16,omitempty" structs:"16x16,omitempty"`
Three2X32 string `json:"32x32,omitempty" structs:"32x32,omitempty"`
}
// Component represents a "component" of a JIRA issue.
// Components can be user defined in every JIRA instance.
type Component struct {
Self string `json:"self,omitempty" structs:"self,omitempty"`
ID string `json:"id,omitempty" structs:"id,omitempty"`
Name string `json:"name,omitempty" structs:"name,omitempty"`
}
// Status represents the current status of a JIRA issue.
// Typical status are "Open", "In Progress", "Closed", ...
// Status can be user defined in every JIRA instance.
type Status struct {
Self string `json:"self" structs:"self"`
Description string `json:"description" structs:"description"`
IconURL string `json:"iconUrl" structs:"iconUrl"`
Name string `json:"name" structs:"name"`
ID string `json:"id" structs:"id"`
StatusCategory StatusCategory `json:"statusCategory" structs:"statusCategory"`
}
// Progress represents the progress of a JIRA issue.
type Progress struct {
Progress int `json:"progress" structs:"progress"`
Total int `json:"total" structs:"total"`
Percent int `json:"percent" structs:"percent"`
}
// Parent represents the parent of a JIRA issue, to be used with subtask issue types.
type Parent struct {
ID string `json:"id,omitempty" structs:"id"`
Key string `json:"key,omitempty" structs:"key"`
}
// Time represents the Time definition of JIRA as a time.Time of go
type Time time.Time
// Date represents the Date definition of JIRA as a time.Time of go
type Date time.Time
// Wrapper struct for search result
type transitionResult struct {
Transitions []Transition `json:"transitions" structs:"transitions"`
}
// Transition represents an issue transition in JIRA
type Transition struct {
ID string `json:"id" structs:"id"`
Name string `json:"name" structs:"name"`
To Status `json:"to" structs:"status"`
Fields map[string]TransitionField `json:"fields" structs:"fields"`
}
// TransitionField represents the value of one Transition
type TransitionField struct {
Required bool `json:"required" structs:"required"`
}
// CreateTransitionPayload is used for creating new issue transitions
type CreateTransitionPayload struct {
Transition TransitionPayload `json:"transition" structs:"transition"`
Fields TransitionPayloadFields `json:"fields" structs:"fields"`
}
// TransitionPayload represents the request payload of Transition calls like DoTransition
type TransitionPayload struct {
ID string `json:"id" structs:"id"`
}
// TransitionPayloadFields represents the fields that can be set when executing a transition
type TransitionPayloadFields struct {
Resolution *Resolution `json:"resolution,omitempty" structs:"resolution,omitempty"`
}
// Option represents an option value in a SelectList or MultiSelect
// custom issue field
type Option struct {
Value string `json:"value" structs:"value"`
}
// UnmarshalJSON will transform the JIRA time into a time.Time
// during the transformation of the JIRA JSON response
func (t *Time) UnmarshalJSON(b []byte) error {
// Ignore null, like in the main JSON package.
if string(b) == "null" {
return nil
}
ti, err := time.Parse("\"2006-01-02T15:04:05.999-0700\"", string(b))
if err != nil {
return err
}
*t = Time(ti)
return nil
}
// MarshalJSON will transform the time.Time into a JIRA time
// during the creation of a JIRA request
func (t Time) MarshalJSON() ([]byte, error) {
return []byte(time.Time(t).Format("\"2006-01-02T15:04:05.999-0700\"")), nil
}
// UnmarshalJSON will transform the JIRA date into a time.Time
// during the transformation of the JIRA JSON response
func (t *Date) UnmarshalJSON(b []byte) error {
// Ignore null, like in the main JSON package.
if string(b) == "null" {
return nil
}
ti, err := time.Parse("\"2006-01-02\"", string(b))
if err != nil {
return err
}
*t = Date(ti)
return nil
}
// MarshalJSON will transform the Date object into a short
// date string as JIRA expects during the creation of a
// JIRA request
func (t Date) MarshalJSON() ([]byte, error) {
time := time.Time(t)
return []byte(time.Format("\"2006-01-02\"")), nil
}
// Worklog represents the work log of a JIRA issue.
// One Worklog contains zero or n WorklogRecords
// JIRA Wiki: https://confluence.atlassian.com/jira/logging-work-on-an-issue-185729605.html
type Worklog struct {
StartAt int `json:"startAt" structs:"startAt"`
MaxResults int `json:"maxResults" structs:"maxResults"`
Total int `json:"total" structs:"total"`
Worklogs []WorklogRecord `json:"worklogs" structs:"worklogs"`
}
// WorklogRecord represents one entry of a Worklog
type WorklogRecord struct {
Self string `json:"self,omitempty" structs:"self,omitempty"`
Author *User `json:"author,omitempty" structs:"author,omitempty"`
UpdateAuthor *User `json:"updateAuthor,omitempty" structs:"updateAuthor,omitempty"`
Comment string `json:"comment,omitempty" structs:"comment,omitempty"`
Created *Time `json:"created,omitempty" structs:"created,omitempty"`
Updated *Time `json:"updated,omitempty" structs:"updated,omitempty"`
Started *Time `json:"started,omitempty" structs:"started,omitempty"`
TimeSpent string `json:"timeSpent,omitempty" structs:"timeSpent,omitempty"`
TimeSpentSeconds int `json:"timeSpentSeconds,omitempty" structs:"timeSpentSeconds,omitempty"`
ID string `json:"id,omitempty" structs:"id,omitempty"`
IssueID string `json:"issueId,omitempty" structs:"issueId,omitempty"`
}
// TimeTracking represents the timetracking fields of a JIRA issue.
type TimeTracking struct {
OriginalEstimate string `json:"originalEstimate,omitempty" structs:"originalEstimate,omitempty"`
RemainingEstimate string `json:"remainingEstimate,omitempty" structs:"remainingEstimate,omitempty"`
TimeSpent string `json:"timeSpent,omitempty" structs:"timeSpent,omitempty"`
OriginalEstimateSeconds int `json:"originalEstimateSeconds,omitempty" structs:"originalEstimateSeconds,omitempty"`
RemainingEstimateSeconds int `json:"remainingEstimateSeconds,omitempty" structs:"remainingEstimateSeconds,omitempty"`
TimeSpentSeconds int `json:"timeSpentSeconds,omitempty" structs:"timeSpentSeconds,omitempty"`
}
// Subtasks represents all issues of a parent issue.
type Subtasks struct {
ID string `json:"id" structs:"id"`
Key string `json:"key" structs:"key"`
Self string `json:"self" structs:"self"`
Fields IssueFields `json:"fields" structs:"fields"`
}
// IssueLink represents a link between two issues in JIRA.
type IssueLink struct {
ID string `json:"id,omitempty" structs:"id,omitempty"`
Self string `json:"self,omitempty" structs:"self,omitempty"`
Type IssueLinkType `json:"type" structs:"type"`
OutwardIssue *Issue `json:"outwardIssue" structs:"outwardIssue"`
InwardIssue *Issue `json:"inwardIssue" structs:"inwardIssue"`
Comment *Comment `json:"comment,omitempty" structs:"comment,omitempty"`
}
// IssueLinkType represents a type of a link between to issues in JIRA.
// Typical issue link types are "Related to", "Duplicate", "Is blocked by", etc.
type IssueLinkType struct {
ID string `json:"id,omitempty" structs:"id,omitempty"`
Self string `json:"self,omitempty" structs:"self,omitempty"`
Name string `json:"name" structs:"name"`
Inward string `json:"inward" structs:"inward"`
Outward string `json:"outward" structs:"outward"`
}
// Comments represents a list of Comment.
type Comments struct {
Comments []*Comment `json:"comments,omitempty" structs:"comments,omitempty"`
}
// Comment represents a comment by a person to an issue in JIRA.
type Comment struct {
ID string `json:"id,omitempty" structs:"id,omitempty"`
Self string `json:"self,omitempty" structs:"self,omitempty"`
Name string `json:"name,omitempty" structs:"name,omitempty"`
Author User `json:"author,omitempty" structs:"author,omitempty"`
Body string `json:"body,omitempty" structs:"body,omitempty"`
UpdateAuthor User `json:"updateAuthor,omitempty" structs:"updateAuthor,omitempty"`
Updated string `json:"updated,omitempty" structs:"updated,omitempty"`
Created string `json:"created,omitempty" structs:"created,omitempty"`
Visibility CommentVisibility `json:"visibility,omitempty" structs:"visibility,omitempty"`
}
// FixVersion represents a software release in which an issue is fixed.
type FixVersion struct {
Self string `json:"self,omitempty" structs:"self,omitempty"`
ID string `json:"id,omitempty" structs:"id,omitempty"`
Name string `json:"name,omitempty" structs:"name,omitempty"`
Description string `json:"description,omitempty" structs:"name,omitempty"`
Archived *bool `json:"archived,omitempty" structs:"archived,omitempty"`
Released *bool `json:"released,omitempty" structs:"released,omitempty"`
ReleaseDate string `json:"releaseDate,omitempty" structs:"releaseDate,omitempty"`
UserReleaseDate string `json:"userReleaseDate,omitempty" structs:"userReleaseDate,omitempty"`
ProjectID int `json:"projectId,omitempty" structs:"projectId,omitempty"` // Unlike other IDs, this is returned as a number
StartDate string `json:"startDate,omitempty" structs:"startDate,omitempty"`
}
// AffectsVersion represents a software release which is affected by an issue.
type AffectsVersion Version
// CommentVisibility represents he visibility of a comment.
// E.g. Type could be "role" and Value "Administrators"
type CommentVisibility struct {
Type string `json:"type,omitempty" structs:"type,omitempty"`
Value string `json:"value,omitempty" structs:"value,omitempty"`
}
// SearchOptions specifies the optional parameters to various List methods that
// support pagination.
// Pagination is used for the JIRA REST APIs to conserve server resources and limit
// response size for resources that return potentially large collection of items.
// A request to a pages API will result in a values array wrapped in a JSON object with some paging metadata
// Default Pagination options
type SearchOptions struct {
// StartAt: The starting index of the returned projects. Base index: 0.
StartAt int `url:"startAt,omitempty"`
// MaxResults: The maximum number of projects to return per page. Default: 50.
MaxResults int `url:"maxResults,omitempty"`
// Expand: Expand specific sections in the returned issues
Expand string `url:"expand,omitempty"`
Fields []string
// ValidateQuery: The validateQuery param offers control over whether to validate and how strictly to treat the validation. Default: strict.
ValidateQuery string `url:"validateQuery,omitempty"`
}
// searchResult is only a small wrapper around the Search (with JQL) method
// to be able to parse the results
type searchResult struct {
Issues []Issue `json:"issues" structs:"issues"`
StartAt int `json:"startAt" structs:"startAt"`
MaxResults int `json:"maxResults" structs:"maxResults"`
Total int `json:"total" structs:"total"`
}
// GetQueryOptions specifies the optional parameters for the Get Issue methods
type GetQueryOptions struct {
// Fields is the list of fields to return for the issue. By default, all fields are returned.
Fields string `url:"fields,omitempty"`
Expand string `url:"expand,omitempty"`
// Properties is the list of properties to return for the issue. By default no properties are returned.
Properties string `url:"properties,omitempty"`
// FieldsByKeys if true then fields in issues will be referenced by keys instead of ids
FieldsByKeys bool `url:"fieldsByKeys,omitempty"`
UpdateHistory bool `url:"updateHistory,omitempty"`
ProjectKeys string `url:"projectKeys,omitempty"`
}
// CustomFields represents custom fields of JIRA
// This can heavily differ between JIRA instances
type CustomFields map[string]string
// Get returns a full representation of the issue for the given issue key.
// JIRA will attempt to identify the issue by the issueIdOrKey path parameter.
// This can be an issue id, or an issue key.
// If the issue cannot be found via an exact match, JIRA will also look for the issue in a case-insensitive way, or by looking to see if the issue was moved.
//
// The given options will be appended to the query string
//
// JIRA API docs: https://docs.atlassian.com/jira/REST/latest/#api/2/issue-getIssue
func (s *IssueService) Get(issueID string, options *GetQueryOptions) (*Issue, *Response, error) {
apiEndpoint := fmt.Sprintf("rest/api/2/issue/%s", issueID)
req, err := s.client.NewRequest("GET", apiEndpoint, nil)
if err != nil {
return nil, nil, err
}
if options != nil {
q, err := query.Values(options)
if err != nil {
return nil, nil, err
}
req.URL.RawQuery = q.Encode()
}
issue := new(Issue)
resp, err := s.client.Do(req, issue)
if err != nil {
jerr := NewJiraError(resp, err)
return nil, resp, jerr
}
return issue, resp, nil
}
// DownloadAttachment returns a Response of an attachment for a given attachmentID.
// The attachment is in the Response.Body of the response.
// This is an io.ReadCloser.
// The caller should close the resp.Body.
func (s *IssueService) DownloadAttachment(attachmentID string) (*Response, error) {
apiEndpoint := fmt.Sprintf("secure/attachment/%s/", attachmentID)
req, err := s.client.NewRequest("GET", apiEndpoint, nil)
if err != nil {
return nil, err
}
resp, err := s.client.Do(req, nil)
if err != nil {
jerr := NewJiraError(resp, err)
return resp, jerr
}
return resp, nil
}
// PostAttachment uploads r (io.Reader) as an attachment to a given issueID
func (s *IssueService) PostAttachment(issueID string, r io.Reader, attachmentName string) (*[]Attachment, *Response, error) {
apiEndpoint := fmt.Sprintf("rest/api/2/issue/%s/attachments", issueID)
b := new(bytes.Buffer)
writer := multipart.NewWriter(b)
fw, err := writer.CreateFormFile("file", attachmentName)
if err != nil {
return nil, nil, err
}
if r != nil {
// Copy the file
if _, err = io.Copy(fw, r); err != nil {
return nil, nil, err
}
}
writer.Close()
req, err := s.client.NewMultiPartRequest("POST", apiEndpoint, b)
if err != nil {
return nil, nil, err
}
req.Header.Set("Content-Type", writer.FormDataContentType())
// PostAttachment response returns a JSON array (as multiple attachments can be posted)
attachment := new([]Attachment)
resp, err := s.client.Do(req, attachment)
if err != nil {
jerr := NewJiraError(resp, err)
return nil, resp, jerr
}
return attachment, resp, nil
}
// GetWorklogs gets all the worklogs for an issue.
// This method is especially important if you need to read all the worklogs, not just the first page.
//
// https://docs.atlassian.com/jira/REST/cloud/#api/2/issue/{issueIdOrKey}/worklog-getIssueWorklog
func (s *IssueService) GetWorklogs(issueID string) (*Worklog, *Response, error) {
apiEndpoint := fmt.Sprintf("rest/api/2/issue/%s/worklog", issueID)
req, err := s.client.NewRequest("GET", apiEndpoint, nil)
if err != nil {
return nil, nil, err
}
v := new(Worklog)
resp, err := s.client.Do(req, v)
return v, resp, err
}
// Create creates an issue or a sub-task from a JSON representation.
// Creating a sub-task is similar to creating a regular issue, with two important differences:
// The issueType field must correspond to a sub-task issue type and you must provide a parent field in the issue create request containing the id or key of the parent issue.
//
// JIRA API docs: https://docs.atlassian.com/jira/REST/latest/#api/2/issue-createIssues
func (s *IssueService) Create(issue *Issue) (*Issue, *Response, error) {
apiEndpoint := "rest/api/2/issue"
req, err := s.client.NewRequest("POST", apiEndpoint, issue)
if err != nil {
return nil, nil, err
}
resp, err := s.client.Do(req, nil)
if err != nil {
// incase of error return the resp for further inspection
return nil, resp, err
}
responseIssue := new(Issue)
defer resp.Body.Close()
data, err := ioutil.ReadAll(resp.Body)
if err != nil {
return nil, resp, fmt.Errorf("Could not read the returned data")
}
err = json.Unmarshal(data, responseIssue)
if err != nil {
return nil, resp, fmt.Errorf("Could not unmarshall the data into struct")
}
return responseIssue, resp, nil
}
// UpdateWithOptions updates an issue from a JSON representation,
// while also specifiying query params. The issue is found by key.
//
// JIRA API docs: https://docs.atlassian.com/jira/REST/cloud/#api/2/issue-editIssue
func (s *IssueService) UpdateWithOptions(issue *Issue, opts *UpdateQueryOptions) (*Issue, *Response, error) {
apiEndpoint := fmt.Sprintf("rest/api/2/issue/%v", issue.Key)
url, err := addOptions(apiEndpoint, opts)
if err != nil {
return nil, nil, err
}
req, err := s.client.NewRequest("PUT", url, issue)
if err != nil {
return nil, nil, err
}
resp, err := s.client.Do(req, nil)
if err != nil {
jerr := NewJiraError(resp, err)
return nil, resp, jerr
}
// This is just to follow the rest of the API's convention of returning an issue.
// Returning the same pointer here is pointless, so we return a copy instead.
ret := *issue
return &ret, resp, nil
}
// Update updates an issue from a JSON representation. The issue is found by key.
//
// JIRA API docs: https://docs.atlassian.com/jira/REST/cloud/#api/2/issue-editIssue
func (s *IssueService) Update(issue *Issue) (*Issue, *Response, error) {
return s.UpdateWithOptions(issue, nil)
}
// UpdateIssue updates an issue from a JSON representation. The issue is found by key.
//
// https://docs.atlassian.com/jira/REST/7.4.0/#api/2/issue-editIssue
func (s *IssueService) UpdateIssue(jiraID string, data map[string]interface{}) (*Response, error) {
apiEndpoint := fmt.Sprintf("rest/api/2/issue/%v", jiraID)
req, err := s.client.NewRequest("PUT", apiEndpoint, data)
if err != nil {
return nil, err
}
resp, err := s.client.Do(req, nil)
if err != nil {
return resp, err
}
// This is just to follow the rest of the API's convention of returning an issue.
// Returning the same pointer here is pointless, so we return a copy instead.
return resp, nil
}
// AddComment adds a new comment to issueID.
//
// JIRA API docs: https://docs.atlassian.com/jira/REST/latest/#api/2/issue-addComment
func (s *IssueService) AddComment(issueID string, comment *Comment) (*Comment, *Response, error) {
apiEndpoint := fmt.Sprintf("rest/api/2/issue/%s/comment", issueID)
req, err := s.client.NewRequest("POST", apiEndpoint, comment)
if err != nil {
return nil, nil, err
}
responseComment := new(Comment)
resp, err := s.client.Do(req, responseComment)
if err != nil {
jerr := NewJiraError(resp, err)
return nil, resp, jerr
}
return responseComment, resp, nil
}
// UpdateComment updates the body of a comment, identified by comment.ID, on the issueID.
//
// JIRA API docs: https://docs.atlassian.com/jira/REST/cloud/#api/2/issue/{issueIdOrKey}/comment-updateComment
func (s *IssueService) UpdateComment(issueID string, comment *Comment) (*Comment, *Response, error) {
reqBody := struct {
Body string `json:"body"`
}{
Body: comment.Body,
}
apiEndpoint := fmt.Sprintf("rest/api/2/issue/%s/comment/%s", issueID, comment.ID)
req, err := s.client.NewRequest("PUT", apiEndpoint, reqBody)
if err != nil {
return nil, nil, err
}
responseComment := new(Comment)
resp, err := s.client.Do(req, responseComment)
if err != nil {
return nil, resp, err
}
return responseComment, resp, nil
}
// DeleteComment Deletes a comment from an issueID.
//
// JIRA API docs: https://developer.atlassian.com/cloud/jira/platform/rest/v3/#api-api-3-issue-issueIdOrKey-comment-id-delete
func (s *IssueService) DeleteComment(issueID, commentID string) error {
apiEndpoint := fmt.Sprintf("rest/api/2/issue/%s/comment/%s", issueID, commentID)
req, err := s.client.NewRequest("DELETE", apiEndpoint, nil)
if err != nil {
return err
}
resp, err := s.client.Do(req, nil)
if err != nil {
jerr := NewJiraError(resp, err)
return jerr
}
return nil
}
// AddWorklogRecord adds a new worklog record to issueID.
//
// https://developer.atlassian.com/cloud/jira/platform/rest/#api-api-2-issue-issueIdOrKey-worklog-post
func (s *IssueService) AddWorklogRecord(issueID string, record *WorklogRecord) (*WorklogRecord, *Response, error) {
apiEndpoint := fmt.Sprintf("rest/api/2/issue/%s/worklog", issueID)
req, err := s.client.NewRequest("POST", apiEndpoint, record)
if err != nil {
return nil, nil, err
}
responseRecord := new(WorklogRecord)
resp, err := s.client.Do(req, responseRecord)
if err != nil {
jerr := NewJiraError(resp, err)
return nil, resp, jerr
}
return responseRecord, resp, nil
}
// AddLink adds a link between two issues.
//
// JIRA API docs: https://docs.atlassian.com/jira/REST/latest/#api/2/issueLink
func (s *IssueService) AddLink(issueLink *IssueLink) (*Response, error) {
apiEndpoint := fmt.Sprintf("rest/api/2/issueLink")
req, err := s.client.NewRequest("POST", apiEndpoint, issueLink)
if err != nil {
return nil, err
}
resp, err := s.client.Do(req, nil)
if err != nil {
err = NewJiraError(resp, err)
}
return resp, err
}
// Search will search for tickets according to the jql
//
// JIRA API docs: https://developer.atlassian.com/jiradev/jira-apis/jira-rest-apis/jira-rest-api-tutorials/jira-rest-api-example-query-issues
func (s *IssueService) Search(jql string, options *SearchOptions) ([]Issue, *Response, error) {
var u string
if options == nil {
u = fmt.Sprintf("rest/api/2/search?jql=%s", url.QueryEscape(jql))
} else {
u = fmt.Sprintf("rest/api/2/search?jql=%s&startAt=%d&maxResults=%d&expand=%s&fields=%s&validateQuery=%s", url.QueryEscape(jql),
options.StartAt, options.MaxResults, options.Expand, strings.Join(options.Fields, ","), options.ValidateQuery)
}
req, err := s.client.NewRequest("GET", u, nil)
if err != nil {
return []Issue{}, nil, err
}
v := new(searchResult)
resp, err := s.client.Do(req, v)
if err != nil {
err = NewJiraError(resp, err)
}
return v.Issues, resp, err
}
// SearchPages will get issues from all pages in a search
//
// JIRA API docs: https://developer.atlassian.com/jiradev/jira-apis/jira-rest-apis/jira-rest-api-tutorials/jira-rest-api-example-query-issues
func (s *IssueService) SearchPages(jql string, options *SearchOptions, f func(Issue) error) error {
if options == nil {
options = &SearchOptions{
StartAt: 0,
MaxResults: 50,
}
}
if options.MaxResults == 0 {
options.MaxResults = 50
}
issues, resp, err := s.Search(jql, options)
if err != nil {
return err
}
for {
for _, issue := range issues {
err = f(issue)
if err != nil {
return err
}
}
if resp.StartAt+resp.MaxResults >= resp.Total {
return nil
}
options.StartAt += resp.MaxResults
issues, resp, err = s.Search(jql, options)
if err != nil {
return err
}
}
}
// GetCustomFields returns a map of customfield_* keys with string values
func (s *IssueService) GetCustomFields(issueID string) (CustomFields, *Response, error) {
apiEndpoint := fmt.Sprintf("rest/api/2/issue/%s", issueID)
req, err := s.client.NewRequest("GET", apiEndpoint, nil)
if err != nil {
return nil, nil, err
}
issue := new(map[string]interface{})
resp, err := s.client.Do(req, issue)
if err != nil {
jerr := NewJiraError(resp, err)
return nil, resp, jerr
}
m := *issue
f := m["fields"]
cf := make(CustomFields)
if f == nil {
return cf, resp, nil
}
if rec, ok := f.(map[string]interface{}); ok {
for key, val := range rec {
if strings.Contains(key, "customfield") {
if valMap, ok := val.(map[string]interface{}); ok {
if v, ok := valMap["value"]; ok {
val = v
}
}
cf[key] = fmt.Sprint(val)
}
}
}
return cf, resp, nil
}
// GetTransitions gets a list of the transitions possible for this issue by the current user,
// along with fields that are required and their types.
//
// JIRA API docs: https://docs.atlassian.com/jira/REST/latest/#api/2/issue-getTransitions
func (s *IssueService) GetTransitions(id string) ([]Transition, *Response, error) {
apiEndpoint := fmt.Sprintf("rest/api/2/issue/%s/transitions?expand=transitions.fields", id)
req, err := s.client.NewRequest("GET", apiEndpoint, nil)
if err != nil {
return nil, nil, err
}
result := new(transitionResult)
resp, err := s.client.Do(req, result)
if err != nil {
err = NewJiraError(resp, err)
}
return result.Transitions, resp, err
}
// DoTransition performs a transition on an issue.
// When performing the transition you can update or set other issue fields.
//
// JIRA API docs: https://docs.atlassian.com/jira/REST/latest/#api/2/issue-doTransition
func (s *IssueService) DoTransition(ticketID, transitionID string) (*Response, error) {
payload := CreateTransitionPayload{
Transition: TransitionPayload{
ID: transitionID,
},
}
return s.DoTransitionWithPayload(ticketID, payload)
}
// DoTransitionWithPayload performs a transition on an issue using any payload.
// When performing the transition you can update or set other issue fields.
//
// JIRA API docs: https://docs.atlassian.com/jira/REST/latest/#api/2/issue-doTransition
func (s *IssueService) DoTransitionWithPayload(ticketID, payload interface{}) (*Response, error) {
apiEndpoint := fmt.Sprintf("rest/api/2/issue/%s/transitions", ticketID)
req, err := s.client.NewRequest("POST", apiEndpoint, payload)
if err != nil {
return nil, err
}
resp, err := s.client.Do(req, nil)
if err != nil {
err = NewJiraError(resp, err)
}
return resp, err
}
// InitIssueWithMetaAndFields returns Issue with with values from fieldsConfig properly set.
// * metaProject should contain metaInformation about the project where the issue should be created.
// * metaIssuetype is the MetaInformation about the Issuetype that needs to be created.
// * fieldsConfig is a key->value pair where key represents the name of the field as seen in the UI
// And value is the string value for that particular key.
// Note: This method doesn't verify that the fieldsConfig is complete with mandatory fields. The fieldsConfig is
// supposed to be already verified with MetaIssueType.CheckCompleteAndAvailable. It will however return
// error if the key is not found.
// All values will be packed into Unknowns. This is much convenient. If the struct fields needs to be
// configured as well, marshalling and unmarshalling will set the proper fields.
func InitIssueWithMetaAndFields(metaProject *MetaProject, metaIssuetype *MetaIssueType, fieldsConfig map[string]string) (*Issue, error) {
issue := new(Issue)
issueFields := new(IssueFields)
issueFields.Unknowns = tcontainer.NewMarshalMap()
// map the field names the User presented to jira's internal key
allFields, _ := metaIssuetype.GetAllFields()
for key, value := range fieldsConfig {
jiraKey, found := allFields[key]
if !found {
return nil, fmt.Errorf("key %s is not found in the list of fields", key)
}
valueType, err := metaIssuetype.Fields.String(jiraKey + "/schema/type")
if err != nil {
return nil, err
}
switch valueType {
case "array":
elemType, err := metaIssuetype.Fields.String(jiraKey + "/schema/items")
if err != nil {
return nil, err
}
switch elemType {
case "component":
issueFields.Unknowns[jiraKey] = []Component{{Name: value}}
case "option":
issueFields.Unknowns[jiraKey] = []map[string]string{{"value": value}}
default:
issueFields.Unknowns[jiraKey] = []string{value}
}
case "string":
issueFields.Unknowns[jiraKey] = value
case "date":
issueFields.Unknowns[jiraKey] = value
case "datetime":
issueFields.Unknowns[jiraKey] = value
case "any":
// Treat any as string
issueFields.Unknowns[jiraKey] = value
case "project":
issueFields.Unknowns[jiraKey] = Project{
Name: metaProject.Name,
ID: metaProject.Id,
}
case "priority":
issueFields.Unknowns[jiraKey] = Priority{Name: value}
case "user":
issueFields.Unknowns[jiraKey] = User{
Name: value,
}
case "issuetype":
issueFields.Unknowns[jiraKey] = IssueType{
Name: value,
}
case "option":
issueFields.Unknowns[jiraKey] = Option{
Value: value,
}
default:
return nil, fmt.Errorf("Unknown issue type encountered: %s for %s", valueType, key)
}
}
issue.Fields = issueFields
return issue, nil
}
// Delete will delete a specified issue.
func (s *IssueService) Delete(issueID string) (*Response, error) {
apiEndpoint := fmt.Sprintf("rest/api/2/issue/%s", issueID)
// to enable deletion of subtasks; without this, the request will fail if the issue has subtasks
deletePayload := make(map[string]interface{})
deletePayload["deleteSubtasks"] = "true"
content, _ := json.Marshal(deletePayload)
req, err := s.client.NewRequest("DELETE", apiEndpoint, content)
if err != nil {
return nil, err
}
resp, err := s.client.Do(req, nil)
return resp, err
}
// GetWatchers wil return all the users watching/observing the given issue
//
// JIRA API docs: https://docs.atlassian.com/software/jira/docs/api/REST/latest/#api/2/issue-getIssueWatchers
func (s *IssueService) GetWatchers(issueID string) (*[]User, *Response, error) {
watchesAPIEndpoint := fmt.Sprintf("rest/api/2/issue/%s/watchers", issueID)
req, err := s.client.NewRequest("GET", watchesAPIEndpoint, nil)
if err != nil {
return nil, nil, err
}
watches := new(Watches)
resp, err := s.client.Do(req, watches)
if err != nil {
return nil, nil, NewJiraError(resp, err)
}
result := []User{}
user := new(User)
for _, watcher := range watches.Watchers {
user, resp, err = s.client.User.Get(watcher.Name)
if err != nil {
return nil, resp, NewJiraError(resp, err)
}
result = append(result, *user)
}
return &result, resp, nil
}
// AddWatcher adds watcher to the given issue
//
// JIRA API docs: https://docs.atlassian.com/software/jira/docs/api/REST/latest/#api/2/issue-addWatcher
func (s *IssueService) AddWatcher(issueID string, userName string) (*Response, error) {
apiEndPoint := fmt.Sprintf("rest/api/2/issue/%s/watchers", issueID)
req, err := s.client.NewRequest("POST", apiEndPoint, userName)
if err != nil {
return nil, err
}
resp, err := s.client.Do(req, nil)
if err != nil {
err = NewJiraError(resp, err)
}
return resp, err
}
// RemoveWatcher removes given user from given issue
//
// JIRA API docs: https://docs.atlassian.com/software/jira/docs/api/REST/latest/#api/2/issue-removeWatcher
func (s *IssueService) RemoveWatcher(issueID string, userName string) (*Response, error) {
apiEndPoint := fmt.Sprintf("rest/api/2/issue/%s/watchers", issueID)
req, err := s.client.NewRequest("DELETE", apiEndPoint, userName)
if err != nil {
return nil, err
}
resp, err := s.client.Do(req, nil)
if err != nil {
err = NewJiraError(resp, err)
}
return resp, err
}
// UpdateAssignee updates the user assigned to work on the given issue
//
// JIRA API docs: https://docs.atlassian.com/software/jira/docs/api/REST/7.10.2/#api/2/issue-assign
func (s *IssueService) UpdateAssignee(issueID string, assignee *User) (*Response, error) {
apiEndPoint := fmt.Sprintf("rest/api/2/issue/%s/assignee", issueID)
req, err := s.client.NewRequest("PUT", apiEndPoint, assignee)
if err != nil {
return nil, err
}
resp, err := s.client.Do(req, nil)
if err != nil {
err = NewJiraError(resp, err)
}
return resp, err
}
func (c ChangelogHistory) CreatedTime() (time.Time, error) {
var t time.Time
// Ignore null
if string(c.Created) == "null" {
return t, nil
}
t, err := time.Parse("2006-01-02T15:04:05.999-0700", c.Created)
return t, err
}