OpenProject is the leading open source project management software.
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openproject/app/models/project.rb

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#-- encoding: UTF-8
#-- copyright
# OpenProject is an open source project management software.
# Copyright (C) 2012-2020 the OpenProject GmbH
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License version 3.
#
# OpenProject is a fork of ChiliProject, which is a fork of Redmine. The copyright follows:
# Copyright (C) 2006-2017 Jean-Philippe Lang
# Copyright (C) 2010-2013 the ChiliProject Team
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
# See docs/COPYRIGHT.rdoc for more details.
#++
class Project < ApplicationRecord
extend Pagination::Model
extend FriendlyId
include Projects::Copy
include Projects::Storage
include Projects::Activity
include ::Scopes::Scoped
# Maximum length for project identifiers
IDENTIFIER_MAX_LENGTH = 100
# reserved identifiers
RESERVED_IDENTIFIERS = %w(new).freeze
has_many :members, -> {
includes(:principal, :roles)
.where(
"#{Principal.table_name}.type='User' AND (
#{User.table_name}.status=#{Principal::STATUSES[:active]} OR
#{User.table_name}.status=#{Principal::STATUSES[:invited]}
)"
)
.references(:principal, :roles)
}
has_many :possible_assignee_members, -> {
includes(:principal, :roles)
.where(Project.possible_principles_condition)
.references(:principals, :roles)
}, class_name: 'Member'
# Read only
has_many :possible_assignees,
->(object) {
# Have to reference members and roles again although
# possible_assignee_members does already specify it to be able to use the
# Project.possible_principles_condition there
#
# The .where(members_users: { project_id: object.id })
# part is an optimization preventing to have all the members joined
includes(members: :roles)
.where(members_users: { project_id: object.id })
.references(:roles)
.merge(Principal.order_by_name)
},
through: :possible_assignee_members,
source: :principal
has_many :possible_responsible_members, -> {
includes(:principal, :roles)
.where(Project.possible_principles_condition)
.references(:principals, :roles)
}, class_name: 'Member'
# Read only
has_many :possible_responsibles,
->(object) {
# Have to reference members and roles again although
# possible_responsible_members does already specify it to be able to use
# the Project.possible_principles_condition there
#
# The .where(members_users: { project_id: object.id })
# part is an optimization preventing to have all the members joined
includes(members: :roles)
.where(members_users: { project_id: object.id })
.references(:roles)
.merge(Principal.order_by_name)
},
through: :possible_responsible_members,
source: :principal
has_many :memberships, class_name: 'Member'
has_many :member_principals,
-> {
includes(:principal)
.references(:principals)
.where("#{Principal.table_name}.type='Group' OR " +
"(#{Principal.table_name}.type='User' AND " +
"(#{Principal.table_name}.status=#{Principal::STATUSES[:active]} OR " +
"#{Principal.table_name}.status=#{Principal::STATUSES[:registered]} OR " +
"#{Principal.table_name}.status=#{Principal::STATUSES[:invited]}))")
},
class_name: 'Member'
has_many :users, through: :members, source: :principal
has_many :principals, through: :member_principals, source: :principal
has_many :enabled_modules, dependent: :delete_all
has_and_belongs_to_many :types, -> {
order("#{::Type.table_name}.position")
}
has_many :work_packages, -> {
order("#{WorkPackage.table_name}.created_at DESC")
.includes(:status, :type)
}
has_many :work_package_changes, through: :work_packages, source: :journals
has_many :versions, -> {
order("#{Version.table_name}.effective_date DESC, #{Version.table_name}.name DESC")
}, dependent: :destroy
has_many :time_entries, dependent: :delete_all
has_many :time_entry_activities_projects, dependent: :delete_all
has_many :queries, dependent: :delete_all
has_many :news, -> { includes(:author) }, dependent: :destroy
has_many :categories, -> { order("#{Category.table_name}.name") }, dependent: :delete_all
has_many :forums, -> { order('position ASC') }, dependent: :destroy
has_one :repository, dependent: :destroy
has_many :changesets, through: :repository
has_one :wiki, dependent: :destroy
# Custom field for the project's work_packages
has_and_belongs_to_many :work_package_custom_fields, -> {
order("#{CustomField.table_name}.position")
}, class_name: 'WorkPackageCustomField',
join_table: "#{table_name_prefix}custom_fields_projects#{table_name_suffix}",
association_foreign_key: 'custom_field_id'
has_one :status, class_name: 'Projects::Status', dependent: :destroy
acts_as_nested_set order_column: :name, dependent: :destroy
acts_as_customizable
acts_as_searchable columns: %W(#{table_name}.name #{table_name}.identifier #{table_name}.description),
date_column: "#{table_name}.created_at",
project_key: 'id',
permission: nil
acts_as_event title: Proc.new { |o| "#{Project.model_name.human}: #{o.name}" },
url: Proc.new { |o| { controller: 'overviews/overviews', action: 'show', project_id: o } },
author: nil,
datetime: :created_at
validates :name,
presence: true,
length: { maximum: 255 }
# TODO: we temporarily disable this validation because it leads to failed tests
# it implicitly assumes a db:seed-created standard type to be present and currently
# neither development nor deployment setups are prepared for this
# validates_presence_of :types
validates :identifier,
presence: true,
uniqueness: { case_sensitive: true },
length: { maximum: IDENTIFIER_MAX_LENGTH },
exclusion: RESERVED_IDENTIFIERS
validates_associated :repository, :wiki
# starts with lower-case letter, a-z, 0-9, dashes and underscores afterwards
validates :identifier,
format: { with: /\A[a-z][a-z0-9\-_]*\z/ },
if: ->(p) { p.identifier_changed? }
# reserved words
friendly_id :identifier, use: :finders
scope :has_module, ->(mod) {
where(["#{Project.table_name}.id IN (SELECT em.project_id FROM #{EnabledModule.table_name} em WHERE em.name=?)", mod.to_s])
}
scope :public_projects, -> { where(public: true) }
scope :visible, ->(user = User.current) { merge(Project.visible_by(user)) }
scope :newest, -> { order(created_at: :desc) }
scope :active, -> { where(active: true) }
scope_classes Projects::Scopes::ActivatedTimeActivity,
Projects::Scopes::VisibleWithActivatedTimeActivity
def visible?(user = User.current)
active? and (public? or user.admin? or user.member_of?(self))
end
def archived?
!active?
end
def copy_allowed?
User.current.allowed_to?(:copy_projects, self)
end
def self.selectable_projects
Project.visible.select { |p| User.current.member_of? p }.sort_by(&:to_s)
end
def self.search_scope(query)
# overwritten from Pagination::Model
visible.like(query)
end
def possible_members(criteria, limit)
Principal.active_or_registered.like(criteria).not_in_project(self).limit(limit)
end
def add_member(user, roles)
members.build.tap do |m|
m.principal = user
m.roles = Array(roles)
end
end
def add_member!(user, roles)
add_member(user, roles)
save
end
# Returns all projects the user is allowed to see.
#
# Employs the :view_project permission to perform the
# authorization check as the permissino is public, meaning it is granted
# to everybody having at least one role in a project regardless of the
# role's permissions.
def self.visible_by(user = User.current)
allowed_to(user, :view_project)
end
# Returns a ActiveRecord::Relation to find all projects for which
# +user+ has the given +permission+
def self.allowed_to(user, permission)
Authorization.projects(permission, user)
end
def reload(*args)
@all_work_package_custom_fields = nil
super
end
# Returns a :conditions SQL string that can be used to find the issues associated with this project.
#
# Examples:
# project.project_condition(true) => "(projects.id = 1 OR (projects.lft > 1 AND projects.rgt < 10))"
# project.project_condition(false) => "projects.id = 1"
def project_condition(with_subprojects)
projects_table = Project.arel_table
stmt = projects_table[:id].eq(id)
stmt = stmt.or(projects_table[:lft].gt(lft).and(projects_table[:rgt].lt(rgt))) if with_subprojects
stmt
end
def types_used_by_work_packages
::Type.where(id: WorkPackage.where(project_id: project.id)
.select(:type_id)
.distinct)
end
# Returns a scope of the types used by the project and its active sub projects
def rolled_up_types
::Type
.joins(:projects)
.select("DISTINCT #{::Type.table_name}.*")
.where(projects: { id: self_and_descendants.select(:id) })
.merge(Project.active)
.order("#{::Type.table_name}.position")
end
# Closes open and locked project versions that are completed
def close_completed_versions
Version.transaction do
versions.where(status: %w(open locked)).each do |version|
if version.completed?
version.update_attribute(:status, 'closed')
end
end
end
end
# Returns a scope of the Versions on subprojects
def rolled_up_versions
shared_versions_base_scope
.merge(Project.active)
.where(projects: { id: self_and_descendants.select(:id) })
end
# Returns a scope of the Versions used by the project
def shared_versions
if persisted?
shared_versions_on_persisted
else
shared_versions_by_system
end
end
# Returns all versions a work package can be assigned to. Opposed to
# #shared_versions this returns an array of Versions, not a scope.
#
# The main benefit is in scenarios where work packages' projects are eager
# loaded. Because eager loading the project e.g. via
# WorkPackage.includes(:project).where(type: 5) will assign the same instance
# (same object_id) for every work package having the same project this will
# reduce the number of db queries when performing operations including the
# project's versions.
def assignable_versions
@all_shared_versions ||= shared_versions.with_status_open.order_by_semver_name.to_a
end
# Returns a hash of project users grouped by role
def users_by_role
members.includes(:principal, :roles).inject({}) do |h, m|
m.roles.each do |r|
h[r] ||= []
h[r] << m.principal
end
h
end
end
# Returns users that should be always notified on project events
def recipients
notified_users
end
# Returns the users that should be notified on project events
def notified_users
# TODO: User part should be extracted to User#notify_about?
notified_members = members.select do |member|
setting = member.principal.mail_notification
(setting == 'selected' && member.mail_notification?) || setting == 'all'
end
notified_members.map(&:principal)
end
# Returns an array of all custom fields enabled for project issues
# (explictly associated custom fields and custom fields enabled for all projects)
#
# Supports the :include option.
def all_work_package_custom_fields(options = {})
@all_work_package_custom_fields ||= (
WorkPackageCustomField.for_all(options) + (
if options.include? :include
WorkPackageCustomField.joins(:projects)
.where(projects: { id: id })
.includes(options[:include]) # use #preload instead of #includes if join gets too big
else
work_package_custom_fields
end
)
).uniq.sort
end
def project
self
end
def <=>(project)
name.downcase <=> project.name.downcase
end
def to_s
name
end
# Return true if this project is allowed to do the specified action.
# action can be:
# * a parameter-like Hash (eg. controller: '/projects', action: 'edit')
# * a permission Symbol (eg. :edit_project)
def allows_to?(action)
if action.is_a? Hash
allowed_actions.include? "#{action[:controller]}/#{action[:action]}"
else
allowed_permissions.include? action
end
end
def module_enabled?(module_name)
module_name = module_name.to_s
enabled_modules.any? { |m| m.name == module_name }
end
def enabled_module_names=(module_names)
if module_names&.is_a?(Array)
module_names = module_names.map(&:to_s).reject(&:blank?)
self.enabled_modules = module_names.map { |name| enabled_modules.detect { |mod| mod.name == name } || EnabledModule.new(name: name) }
else
enabled_modules.clear
end
end
# Returns an array of the enabled modules names
def enabled_module_names
enabled_modules.map(&:name)
end
# Returns an array of projects that are in this project's hierarchy
#
# Example: parents, children, siblings
def hierarchy
parents = project.self_and_ancestors || []
descendants = project.descendants || []
parents | descendants # Set union
end
class << self
# Returns an auto-generated project identifier based on the last identifier used
def next_identifier
p = Project.newest.first
p.nil? ? nil : p.identifier.to_s.succ
end
# builds up a project hierarchy helper structure for use with #project_tree_from_hierarchy
#
# it expects a simple list of projects with a #lft column (awesome_nested_set)
# and returns a hierarchy based on #lft
#
# the result is a nested list of root level projects that contain their child projects
# but, each entry is actually a ruby hash wrapping the project and child projects
# the keys are :project and :children where :children is in the same format again
#
# result = [ root_level_project_info_1, root_level_project_info_2, ... ]
#
# where each entry has the form
#
# project_info = { project: the_project, children: [ child_info_1, child_info_2, ... ] }
#
# if a project has no children the :children array is just empty
#
def build_projects_hierarchy(projects)
ancestors = []
result = []
projects.sort_by(&:lft).each do |project|
while ancestors.any? && !project.is_descendant_of?(ancestors.last[:project])
# before we pop back one level, we sort the child projects by name
ancestors.last[:children] = sort_by_name(ancestors.last[:children])
ancestors.pop
end
current_hierarchy = { project: project, children: [] }
current_tree = ancestors.any? ? ancestors.last[:children] : result
current_tree << current_hierarchy
ancestors << current_hierarchy
end
# When the last project is deeply nested, we need to sort
# all layers we are in.
ancestors.each do |level|
level[:children] = sort_by_name(level[:children])
end
# we need one extra element to ensure sorting at the end
# at the end the root level must be sorted as well
sort_by_name(result)
end
def project_tree_from_hierarchy(projects_hierarchy, level, &block)
projects_hierarchy.each do |hierarchy|
project = hierarchy[:project]
children = hierarchy[:children]
yield project, level
# recursively show children
project_tree_from_hierarchy(children, level + 1, &block) if children.any?
end
end
# Yields the given block for each project with its level in the tree
def project_tree(projects, &block)
projects_hierarchy = build_projects_hierarchy(projects)
project_tree_from_hierarchy(projects_hierarchy, 0, &block)
end
def project_level_list(projects)
list = []
project_tree(projects) do |project, level|
element = {
project: project,
level: level
}
element.merge!(yield(project)) if block_given?
list << element
end
list
end
private
def sort_by_name(project_hashes)
project_hashes.sort_by { |h| h[:project].name&.downcase }
end
end
def allowed_permissions
@allowed_permissions ||= begin
names = enabled_modules.loaded? ? enabled_module_names : enabled_modules.pluck(:name)
OpenProject::AccessControl.modules_permissions(names).map(&:name)
end
end
def allowed_actions
@actions_allowed ||= allowed_permissions
.map { |permission| OpenProject::AccessControl.allowed_actions(permission) }
.flatten
end
def self.possible_principles_condition
condition = if Setting.work_package_group_assignment?
["(#{Principal.table_name}.type=? OR #{Principal.table_name}.type=?)", 'User', 'Group']
else
["(#{Principal.table_name}.type=?)", 'User']
end
condition[0] += " AND (#{User.table_name}.status=? OR #{User.table_name}.status=?) AND roles.assignable = ?"
condition << Principal::STATUSES[:active]
condition << Principal::STATUSES[:invited]
condition << true
sanitize_sql_array condition
end
protected
def shared_versions_on_persisted
shared_versions_base_scope
.where(projects: { id: id })
.or(shared_versions_by_system)
.or(shared_versions_by_tree)
.or(shared_versions_by_hierarchy_or_descendants)
.or(shared_versions_by_hierarchy)
end
def shared_versions_by_tree
r = root? ? self : root
shared_versions_base_scope
.merge(Project.active)
.where(projects: { id: r.self_and_descendants.select(:id) })
.where(sharing: 'tree')
end
def shared_versions_by_hierarchy_or_descendants
shared_versions_base_scope
.merge(Project.active)
.where(projects: { id: ancestors.select(:id) })
.where(sharing: %w(hierarchy descendants))
end
def shared_versions_by_hierarchy
rolled_up_versions
.where(sharing: 'hierarchy')
end
def shared_versions_by_system
shared_versions_base_scope
.merge(Project.active)
.where(sharing: 'system')
end
def shared_versions_base_scope
Version
.includes(:project)
.references(:projects)
end
end