1
0
Fork 0
forgejo/models/repo/repo_list.go
delvh 4d20a4a1ba
Remove ONLY_SHOW_RELEVANT_REPOS setting (#21962)
Every user can already disable the filter manually, so the explicit
setting is absolutely useless and only complicates the logic.

Previously, there was also unexpected behavior when multiple query
parameters were present.

---------

Co-authored-by: zeripath <art27@cantab.net>
Co-authored-by: Lunny Xiao <xiaolunwen@gmail.com>
2023-02-04 21:26:38 +08:00

736 lines
25 KiB
Go

// Copyright 2021 The Gitea Authors. All rights reserved.
// SPDX-License-Identifier: MIT
package repo
import (
"context"
"fmt"
"strings"
"code.gitea.io/gitea/models/db"
"code.gitea.io/gitea/models/perm"
"code.gitea.io/gitea/models/unit"
user_model "code.gitea.io/gitea/models/user"
"code.gitea.io/gitea/modules/container"
"code.gitea.io/gitea/modules/setting"
"code.gitea.io/gitea/modules/structs"
"code.gitea.io/gitea/modules/util"
"xorm.io/builder"
)
// FindReposMapByIDs find repos as map
func FindReposMapByIDs(repoIDs []int64, res map[int64]*Repository) error {
return db.GetEngine(db.DefaultContext).In("id", repoIDs).Find(&res)
}
// RepositoryListDefaultPageSize is the default number of repositories
// to load in memory when running administrative tasks on all (or almost
// all) of them.
// The number should be low enough to avoid filling up all RAM with
// repository data...
const RepositoryListDefaultPageSize = 64
// RepositoryList contains a list of repositories
type RepositoryList []*Repository
func (repos RepositoryList) Len() int {
return len(repos)
}
func (repos RepositoryList) Less(i, j int) bool {
return repos[i].FullName() < repos[j].FullName()
}
func (repos RepositoryList) Swap(i, j int) {
repos[i], repos[j] = repos[j], repos[i]
}
// ValuesRepository converts a repository map to a list
// FIXME: Remove in favor of maps.values when MIN_GO_VERSION >= 1.18
func ValuesRepository(m map[int64]*Repository) []*Repository {
values := make([]*Repository, 0, len(m))
for _, v := range m {
values = append(values, v)
}
return values
}
// RepositoryListOfMap make list from values of map
func RepositoryListOfMap(repoMap map[int64]*Repository) RepositoryList {
return RepositoryList(ValuesRepository(repoMap))
}
func (repos RepositoryList) loadAttributes(ctx context.Context) error {
if len(repos) == 0 {
return nil
}
set := make(container.Set[int64])
repoIDs := make([]int64, len(repos))
for i := range repos {
set.Add(repos[i].OwnerID)
repoIDs[i] = repos[i].ID
}
// Load owners.
users := make(map[int64]*user_model.User, len(set))
if err := db.GetEngine(ctx).
Where("id > 0").
In("id", set.Values()).
Find(&users); err != nil {
return fmt.Errorf("find users: %w", err)
}
for i := range repos {
repos[i].Owner = users[repos[i].OwnerID]
}
// Load primary language.
stats := make(LanguageStatList, 0, len(repos))
if err := db.GetEngine(ctx).
Where("`is_primary` = ? AND `language` != ?", true, "other").
In("`repo_id`", repoIDs).
Find(&stats); err != nil {
return fmt.Errorf("find primary languages: %w", err)
}
stats.LoadAttributes()
for i := range repos {
for _, st := range stats {
if st.RepoID == repos[i].ID {
repos[i].PrimaryLanguage = st
break
}
}
}
return nil
}
// LoadAttributes loads the attributes for the given RepositoryList
func (repos RepositoryList) LoadAttributes() error {
return repos.loadAttributes(db.DefaultContext)
}
// SearchRepoOptions holds the search options
type SearchRepoOptions struct {
db.ListOptions
Actor *user_model.User
Keyword string
OwnerID int64
PriorityOwnerID int64
TeamID int64
OrderBy db.SearchOrderBy
Private bool // Include private repositories in results
StarredByID int64
WatchedByID int64
AllPublic bool // Include also all public repositories of users and public organisations
AllLimited bool // Include also all public repositories of limited organisations
// None -> include public and private
// True -> include just private
// False -> include just public
IsPrivate util.OptionalBool
// None -> include collaborative AND non-collaborative
// True -> include just collaborative
// False -> include just non-collaborative
Collaborate util.OptionalBool
// None -> include forks AND non-forks
// True -> include just forks
// False -> include just non-forks
Fork util.OptionalBool
// None -> include templates AND non-templates
// True -> include just templates
// False -> include just non-templates
Template util.OptionalBool
// None -> include mirrors AND non-mirrors
// True -> include just mirrors
// False -> include just non-mirrors
Mirror util.OptionalBool
// None -> include archived AND non-archived
// True -> include just archived
// False -> include just non-archived
Archived util.OptionalBool
// only search topic name
TopicOnly bool
// only search repositories with specified primary language
Language string
// include description in keyword search
IncludeDescription bool
// None -> include has milestones AND has no milestone
// True -> include just has milestones
// False -> include just has no milestone
HasMilestones util.OptionalBool
// LowerNames represents valid lower names to restrict to
LowerNames []string
// When specified true, apply some filters over the conditions:
// - Don't show forks, when opts.Fork is OptionalBoolNone.
// - Do not display repositories that don't have a description, an icon and topics.
OnlyShowRelevant bool
}
// SearchOrderBy is used to sort the result
type SearchOrderBy string
func (s SearchOrderBy) String() string {
return string(s)
}
// Strings for sorting result
const (
SearchOrderByAlphabetically SearchOrderBy = "name ASC"
SearchOrderByAlphabeticallyReverse SearchOrderBy = "name DESC"
SearchOrderByLeastUpdated SearchOrderBy = "updated_unix ASC"
SearchOrderByRecentUpdated SearchOrderBy = "updated_unix DESC"
SearchOrderByOldest SearchOrderBy = "created_unix ASC"
SearchOrderByNewest SearchOrderBy = "created_unix DESC"
SearchOrderBySize SearchOrderBy = "size ASC"
SearchOrderBySizeReverse SearchOrderBy = "size DESC"
SearchOrderByID SearchOrderBy = "id ASC"
SearchOrderByIDReverse SearchOrderBy = "id DESC"
SearchOrderByStars SearchOrderBy = "num_stars ASC"
SearchOrderByStarsReverse SearchOrderBy = "num_stars DESC"
SearchOrderByForks SearchOrderBy = "num_forks ASC"
SearchOrderByForksReverse SearchOrderBy = "num_forks DESC"
)
// UserOwnedRepoCond returns user ownered repositories
func UserOwnedRepoCond(userID int64) builder.Cond {
return builder.Eq{
"repository.owner_id": userID,
}
}
// UserAssignedRepoCond return user as assignee repositories list
func UserAssignedRepoCond(id string, userID int64) builder.Cond {
return builder.And(
builder.Eq{
"repository.is_private": false,
},
builder.In(id,
builder.Select("issue.repo_id").From("issue_assignees").
InnerJoin("issue", "issue.id = issue_assignees.issue_id").
Where(builder.Eq{
"issue_assignees.assignee_id": userID,
}),
),
)
}
// UserCreateIssueRepoCond return user created issues repositories list
func UserCreateIssueRepoCond(id string, userID int64, isPull bool) builder.Cond {
return builder.And(
builder.Eq{
"repository.is_private": false,
},
builder.In(id,
builder.Select("issue.repo_id").From("issue").
Where(builder.Eq{
"issue.poster_id": userID,
"issue.is_pull": isPull,
}),
),
)
}
// UserMentionedRepoCond return user metinoed repositories list
func UserMentionedRepoCond(id string, userID int64) builder.Cond {
return builder.And(
builder.Eq{
"repository.is_private": false,
},
builder.In(id,
builder.Select("issue.repo_id").From("issue_user").
InnerJoin("issue", "issue.id = issue_user.issue_id").
Where(builder.Eq{
"issue_user.is_mentioned": true,
"issue_user.uid": userID,
}),
),
)
}
// UserAccessRepoCond returns a condition for selecting all repositories a user has unit independent access to
func UserAccessRepoCond(idStr string, userID int64) builder.Cond {
return builder.In(idStr, builder.Select("repo_id").
From("`access`").
Where(builder.And(
builder.Eq{"`access`.user_id": userID},
builder.Gt{"`access`.mode": int(perm.AccessModeNone)},
)),
)
}
// userCollaborationRepoCond returns a condition for selecting all repositories a user is collaborator in
func UserCollaborationRepoCond(idStr string, userID int64) builder.Cond {
return builder.In(idStr, builder.Select("repo_id").
From("`collaboration`").
Where(builder.And(
builder.Eq{"`collaboration`.user_id": userID},
)),
)
}
// UserOrgTeamRepoCond selects repos that the given user has access to through team membership
func UserOrgTeamRepoCond(idStr string, userID int64) builder.Cond {
return builder.In(idStr, userOrgTeamRepoBuilder(userID))
}
// userOrgTeamRepoBuilder returns repo ids where user's teams can access.
func userOrgTeamRepoBuilder(userID int64) *builder.Builder {
return builder.Select("`team_repo`.repo_id").
From("team_repo").
Join("INNER", "team_user", "`team_user`.team_id = `team_repo`.team_id").
Where(builder.Eq{"`team_user`.uid": userID})
}
// userOrgTeamUnitRepoBuilder returns repo ids where user's teams can access the special unit.
func userOrgTeamUnitRepoBuilder(userID int64, unitType unit.Type) *builder.Builder {
return userOrgTeamRepoBuilder(userID).
Join("INNER", "team_unit", "`team_unit`.team_id = `team_repo`.team_id").
Where(builder.Eq{"`team_unit`.`type`": unitType}).
And(builder.Gt{"`team_unit`.`access_mode`": int(perm.AccessModeNone)})
}
// userOrgTeamUnitRepoCond returns a condition to select repo ids where user's teams can access the special unit.
func userOrgTeamUnitRepoCond(idStr string, userID int64, unitType unit.Type) builder.Cond {
return builder.In(idStr, userOrgTeamUnitRepoBuilder(userID, unitType))
}
// UserOrgUnitRepoCond selects repos that the given user has access to through org and the special unit
func UserOrgUnitRepoCond(idStr string, userID, orgID int64, unitType unit.Type) builder.Cond {
return builder.In(idStr,
userOrgTeamUnitRepoBuilder(userID, unitType).
And(builder.Eq{"`team_unit`.org_id": orgID}),
)
}
// userOrgPublicRepoCond returns the condition that one user could access all public repositories in organizations
func userOrgPublicRepoCond(userID int64) builder.Cond {
return builder.And(
builder.Eq{"`repository`.is_private": false},
builder.In("`repository`.owner_id",
builder.Select("`org_user`.org_id").
From("org_user").
Where(builder.Eq{"`org_user`.uid": userID}),
),
)
}
// userOrgPublicRepoCondPrivate returns the condition that one user could access all public repositories in private organizations
func userOrgPublicRepoCondPrivate(userID int64) builder.Cond {
return builder.And(
builder.Eq{"`repository`.is_private": false},
builder.In("`repository`.owner_id",
builder.Select("`org_user`.org_id").
From("org_user").
Join("INNER", "`user`", "`user`.id = `org_user`.org_id").
Where(builder.Eq{
"`org_user`.uid": userID,
"`user`.`type`": user_model.UserTypeOrganization,
"`user`.visibility": structs.VisibleTypePrivate,
}),
),
)
}
// UserOrgPublicUnitRepoCond returns the condition that one user could access all public repositories in the special organization
func UserOrgPublicUnitRepoCond(userID, orgID int64) builder.Cond {
return userOrgPublicRepoCond(userID).
And(builder.Eq{"`repository`.owner_id": orgID})
}
// SearchRepositoryCondition creates a query condition according search repository options
func SearchRepositoryCondition(opts *SearchRepoOptions) builder.Cond {
cond := builder.NewCond()
if opts.Private {
if opts.Actor != nil && !opts.Actor.IsAdmin && opts.Actor.ID != opts.OwnerID {
// OK we're in the context of a User
cond = cond.And(AccessibleRepositoryCondition(opts.Actor, unit.TypeInvalid))
}
} else {
// Not looking at private organisations and users
// We should be able to see all non-private repositories that
// isn't in a private or limited organisation.
cond = cond.And(
builder.Eq{"is_private": false},
builder.NotIn("owner_id", builder.Select("id").From("`user`").Where(
builder.Or(builder.Eq{"visibility": structs.VisibleTypeLimited}, builder.Eq{"visibility": structs.VisibleTypePrivate}),
)))
}
if opts.IsPrivate != util.OptionalBoolNone {
cond = cond.And(builder.Eq{"is_private": opts.IsPrivate.IsTrue()})
}
if opts.Template != util.OptionalBoolNone {
cond = cond.And(builder.Eq{"is_template": opts.Template == util.OptionalBoolTrue})
}
// Restrict to starred repositories
if opts.StarredByID > 0 {
cond = cond.And(builder.In("id", builder.Select("repo_id").From("star").Where(builder.Eq{"uid": opts.StarredByID})))
}
// Restrict to watched repositories
if opts.WatchedByID > 0 {
cond = cond.And(builder.In("id", builder.Select("repo_id").From("watch").Where(builder.Eq{"user_id": opts.WatchedByID})))
}
// Restrict repositories to those the OwnerID owns or contributes to as per opts.Collaborate
if opts.OwnerID > 0 {
accessCond := builder.NewCond()
if opts.Collaborate != util.OptionalBoolTrue {
accessCond = builder.Eq{"owner_id": opts.OwnerID}
}
if opts.Collaborate != util.OptionalBoolFalse {
// A Collaboration is:
collaborateCond := builder.And(
// 1. Repository we don't own
builder.Neq{"owner_id": opts.OwnerID},
// 2. But we can see because of:
builder.Or(
// A. We have unit independent access
UserAccessRepoCond("`repository`.id", opts.OwnerID),
// B. We are in a team for
UserOrgTeamRepoCond("`repository`.id", opts.OwnerID),
// C. Public repositories in organizations that we are member of
userOrgPublicRepoCondPrivate(opts.OwnerID),
),
)
if !opts.Private {
collaborateCond = collaborateCond.And(builder.Expr("owner_id NOT IN (SELECT org_id FROM org_user WHERE org_user.uid = ? AND org_user.is_public = ?)", opts.OwnerID, false))
}
accessCond = accessCond.Or(collaborateCond)
}
if opts.AllPublic {
accessCond = accessCond.Or(builder.Eq{"is_private": false}.And(builder.In("owner_id", builder.Select("`user`.id").From("`user`").Where(builder.Eq{"`user`.visibility": structs.VisibleTypePublic}))))
}
if opts.AllLimited {
accessCond = accessCond.Or(builder.Eq{"is_private": false}.And(builder.In("owner_id", builder.Select("`user`.id").From("`user`").Where(builder.Eq{"`user`.visibility": structs.VisibleTypeLimited}))))
}
cond = cond.And(accessCond)
}
if opts.TeamID > 0 {
cond = cond.And(builder.In("`repository`.id", builder.Select("`team_repo`.repo_id").From("team_repo").Where(builder.Eq{"`team_repo`.team_id": opts.TeamID})))
}
if opts.Keyword != "" {
// separate keyword
subQueryCond := builder.NewCond()
for _, v := range strings.Split(opts.Keyword, ",") {
if opts.TopicOnly {
subQueryCond = subQueryCond.Or(builder.Eq{"topic.name": strings.ToLower(v)})
} else {
subQueryCond = subQueryCond.Or(builder.Like{"topic.name", strings.ToLower(v)})
}
}
subQuery := builder.Select("repo_topic.repo_id").From("repo_topic").
Join("INNER", "topic", "topic.id = repo_topic.topic_id").
Where(subQueryCond).
GroupBy("repo_topic.repo_id")
keywordCond := builder.In("id", subQuery)
if !opts.TopicOnly {
likes := builder.NewCond()
for _, v := range strings.Split(opts.Keyword, ",") {
likes = likes.Or(builder.Like{"lower_name", strings.ToLower(v)})
// If the string looks like "org/repo", match against that pattern too
if opts.TeamID == 0 && strings.Count(opts.Keyword, "/") == 1 {
pieces := strings.Split(opts.Keyword, "/")
ownerName := pieces[0]
repoName := pieces[1]
likes = likes.Or(builder.And(builder.Like{"owner_name", strings.ToLower(ownerName)}, builder.Like{"lower_name", strings.ToLower(repoName)}))
}
if opts.IncludeDescription {
likes = likes.Or(builder.Like{"LOWER(description)", strings.ToLower(v)})
}
}
keywordCond = keywordCond.Or(likes)
}
cond = cond.And(keywordCond)
}
if opts.Language != "" {
cond = cond.And(builder.In("id", builder.
Select("repo_id").
From("language_stat").
Where(builder.Eq{"language": opts.Language}).And(builder.Eq{"is_primary": true})))
}
if opts.Fork != util.OptionalBoolNone || opts.OnlyShowRelevant {
if opts.OnlyShowRelevant && opts.Fork == util.OptionalBoolNone {
cond = cond.And(builder.Eq{"is_fork": false})
} else {
cond = cond.And(builder.Eq{"is_fork": opts.Fork == util.OptionalBoolTrue})
}
}
if opts.Mirror != util.OptionalBoolNone {
cond = cond.And(builder.Eq{"is_mirror": opts.Mirror == util.OptionalBoolTrue})
}
if opts.Actor != nil && opts.Actor.IsRestricted {
cond = cond.And(AccessibleRepositoryCondition(opts.Actor, unit.TypeInvalid))
}
if opts.Archived != util.OptionalBoolNone {
cond = cond.And(builder.Eq{"is_archived": opts.Archived == util.OptionalBoolTrue})
}
switch opts.HasMilestones {
case util.OptionalBoolTrue:
cond = cond.And(builder.Gt{"num_milestones": 0})
case util.OptionalBoolFalse:
cond = cond.And(builder.Eq{"num_milestones": 0}.Or(builder.IsNull{"num_milestones"}))
}
if opts.OnlyShowRelevant {
// Only show a repo that has at least a topic, an icon, or a description
subQueryCond := builder.NewCond()
// Topic checking. Topics are present.
if setting.Database.UsePostgreSQL { // postgres stores the topics as json and not as text
subQueryCond = subQueryCond.Or(builder.And(builder.NotNull{"topics"}, builder.Neq{"(topics)::text": "[]"}))
} else {
subQueryCond = subQueryCond.Or(builder.And(builder.Neq{"topics": "null"}, builder.Neq{"topics": "[]"}))
}
// Description checking. Description not empty
subQueryCond = subQueryCond.Or(builder.Neq{"description": ""})
// Repo has a avatar
subQueryCond = subQueryCond.Or(builder.Neq{"avatar": ""})
// Always hide repo's that are empty
subQueryCond = subQueryCond.And(builder.Eq{"is_empty": false})
cond = cond.And(subQueryCond)
}
return cond
}
// SearchRepository returns repositories based on search options,
// it returns results in given range and number of total results.
func SearchRepository(ctx context.Context, opts *SearchRepoOptions) (RepositoryList, int64, error) {
cond := SearchRepositoryCondition(opts)
return SearchRepositoryByCondition(ctx, opts, cond, true)
}
// SearchRepositoryByCondition search repositories by condition
func SearchRepositoryByCondition(ctx context.Context, opts *SearchRepoOptions, cond builder.Cond, loadAttributes bool) (RepositoryList, int64, error) {
sess, count, err := searchRepositoryByCondition(ctx, opts, cond)
if err != nil {
return nil, 0, err
}
defaultSize := 50
if opts.PageSize > 0 {
defaultSize = opts.PageSize
}
repos := make(RepositoryList, 0, defaultSize)
if err := sess.Find(&repos); err != nil {
return nil, 0, fmt.Errorf("Repo: %w", err)
}
if opts.PageSize <= 0 {
count = int64(len(repos))
}
if loadAttributes {
if err := repos.loadAttributes(ctx); err != nil {
return nil, 0, fmt.Errorf("LoadAttributes: %w", err)
}
}
return repos, count, nil
}
func searchRepositoryByCondition(ctx context.Context, opts *SearchRepoOptions, cond builder.Cond) (db.Engine, int64, error) {
if opts.Page <= 0 {
opts.Page = 1
}
if len(opts.OrderBy) == 0 {
opts.OrderBy = db.SearchOrderByAlphabetically
}
args := make([]interface{}, 0)
if opts.PriorityOwnerID > 0 {
opts.OrderBy = db.SearchOrderBy(fmt.Sprintf("CASE WHEN owner_id = ? THEN 0 ELSE owner_id END, %s", opts.OrderBy))
args = append(args, opts.PriorityOwnerID)
} else if strings.Count(opts.Keyword, "/") == 1 {
// With "owner/repo" search times, prioritise results which match the owner field
orgName := strings.Split(opts.Keyword, "/")[0]
opts.OrderBy = db.SearchOrderBy(fmt.Sprintf("CASE WHEN owner_name LIKE ? THEN 0 ELSE 1 END, %s", opts.OrderBy))
args = append(args, orgName)
}
sess := db.GetEngine(ctx)
var count int64
if opts.PageSize > 0 {
var err error
count, err = sess.
Where(cond).
Count(new(Repository))
if err != nil {
return nil, 0, fmt.Errorf("Count: %w", err)
}
}
sess = sess.Where(cond).OrderBy(opts.OrderBy.String(), args...)
if opts.PageSize > 0 {
sess = sess.Limit(opts.PageSize, (opts.Page-1)*opts.PageSize)
}
return sess, count, nil
}
// SearchRepositoryIDsByCondition search repository IDs by given condition.
func SearchRepositoryIDsByCondition(ctx context.Context, cond builder.Cond) ([]int64, error) {
repoIDs := make([]int64, 0, 10)
return repoIDs, db.GetEngine(ctx).
Table("repository").
Cols("id").
Where(cond).
Find(&repoIDs)
}
// AccessibleRepositoryCondition takes a user a returns a condition for checking if a repository is accessible
func AccessibleRepositoryCondition(user *user_model.User, unitType unit.Type) builder.Cond {
cond := builder.NewCond()
if user == nil || !user.IsRestricted || user.ID <= 0 {
orgVisibilityLimit := []structs.VisibleType{structs.VisibleTypePrivate}
if user == nil || user.ID <= 0 {
orgVisibilityLimit = append(orgVisibilityLimit, structs.VisibleTypeLimited)
}
// 1. Be able to see all non-private repositories that either:
cond = cond.Or(builder.And(
builder.Eq{"`repository`.is_private": false},
// 2. Aren't in an private organisation or limited organisation if we're not logged in
builder.NotIn("`repository`.owner_id", builder.Select("id").From("`user`").Where(
builder.And(
builder.Eq{"type": user_model.UserTypeOrganization},
builder.In("visibility", orgVisibilityLimit)),
))))
}
if user != nil {
// 2. Be able to see all repositories that we have unit independent access to
// 3. Be able to see all repositories through team membership(s)
if unitType == unit.TypeInvalid {
// Regardless of UnitType
cond = cond.Or(
UserAccessRepoCond("`repository`.id", user.ID),
UserOrgTeamRepoCond("`repository`.id", user.ID),
)
} else {
// For a specific UnitType
cond = cond.Or(
UserCollaborationRepoCond("`repository`.id", user.ID),
userOrgTeamUnitRepoCond("`repository`.id", user.ID, unitType),
)
}
cond = cond.Or(
// 4. Repositories that we directly own
builder.Eq{"`repository`.owner_id": user.ID},
// 5. Be able to see all public repos in private organizations that we are an org_user of
userOrgPublicRepoCond(user.ID),
)
}
return cond
}
// SearchRepositoryByName takes keyword and part of repository name to search,
// it returns results in given range and number of total results.
func SearchRepositoryByName(ctx context.Context, opts *SearchRepoOptions) (RepositoryList, int64, error) {
opts.IncludeDescription = false
return SearchRepository(ctx, opts)
}
// SearchRepositoryIDs takes keyword and part of repository name to search,
// it returns results in given range and number of total results.
func SearchRepositoryIDs(opts *SearchRepoOptions) ([]int64, int64, error) {
opts.IncludeDescription = false
cond := SearchRepositoryCondition(opts)
sess, count, err := searchRepositoryByCondition(db.DefaultContext, opts, cond)
if err != nil {
return nil, 0, err
}
defaultSize := 50
if opts.PageSize > 0 {
defaultSize = opts.PageSize
}
ids := make([]int64, 0, defaultSize)
err = sess.Select("id").Table("repository").Find(&ids)
if opts.PageSize <= 0 {
count = int64(len(ids))
}
return ids, count, err
}
// AccessibleRepoIDsQuery queries accessible repository ids. Usable as a subquery wherever repo ids need to be filtered.
func AccessibleRepoIDsQuery(user *user_model.User) *builder.Builder {
// NB: Please note this code needs to still work if user is nil
return builder.Select("id").From("repository").Where(AccessibleRepositoryCondition(user, unit.TypeInvalid))
}
// FindUserCodeAccessibleRepoIDs finds all at Code level accessible repositories' ID by the user's id
func FindUserCodeAccessibleRepoIDs(ctx context.Context, user *user_model.User) ([]int64, error) {
return SearchRepositoryIDsByCondition(ctx, AccessibleRepositoryCondition(user, unit.TypeCode))
}
// FindUserCodeAccessibleOwnerRepoIDs finds all repository IDs for the given owner whose code the user can see.
func FindUserCodeAccessibleOwnerRepoIDs(ctx context.Context, ownerID int64, user *user_model.User) ([]int64, error) {
return SearchRepositoryIDsByCondition(ctx, builder.NewCond().And(
builder.Eq{"owner_id": ownerID},
AccessibleRepositoryCondition(user, unit.TypeCode),
))
}
// GetUserRepositories returns a list of repositories of given user.
func GetUserRepositories(opts *SearchRepoOptions) (RepositoryList, int64, error) {
if len(opts.OrderBy) == 0 {
opts.OrderBy = "updated_unix DESC"
}
cond := builder.NewCond()
if opts.Actor == nil {
return nil, 0, util.NewInvalidArgumentErrorf("GetUserRepositories: Actor is needed but not given")
}
cond = cond.And(builder.Eq{"owner_id": opts.Actor.ID})
if !opts.Private {
cond = cond.And(builder.Eq{"is_private": false})
}
if opts.LowerNames != nil && len(opts.LowerNames) > 0 {
cond = cond.And(builder.In("lower_name", opts.LowerNames))
}
sess := db.GetEngine(db.DefaultContext)
count, err := sess.Where(cond).Count(new(Repository))
if err != nil {
return nil, 0, fmt.Errorf("Count: %w", err)
}
sess = sess.Where(cond).OrderBy(opts.OrderBy.String())
repos := make(RepositoryList, 0, opts.PageSize)
return repos, count, db.SetSessionPagination(sess, opts).Find(&repos)
}