// Copyright 2017 The Gitea Authors. All rights reserved. // Use of this source code is governed by a MIT-style // license that can be found in the LICENSE file. package integrations import ( "fmt" "net/http" "net/url" "os" "testing" "code.gitea.io/gitea/models" "code.gitea.io/gitea/models/unittest" "code.gitea.io/gitea/modules/setting" api "code.gitea.io/gitea/modules/structs" "code.gitea.io/gitea/modules/util" "github.com/stretchr/testify/assert" ) func TestAPIUserReposNotLogin(t *testing.T) { defer prepareTestEnv(t)() user := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 2}).(*models.User) req := NewRequestf(t, "GET", "/api/v1/users/%s/repos", user.Name) resp := MakeRequest(t, req, http.StatusOK) var apiRepos []api.Repository DecodeJSON(t, resp, &apiRepos) expectedLen := unittest.GetCount(t, models.Repository{OwnerID: user.ID}, unittest.Cond("is_private = ?", false)) assert.Len(t, apiRepos, expectedLen) for _, repo := range apiRepos { assert.EqualValues(t, user.ID, repo.Owner.ID) assert.False(t, repo.Private) } } func TestAPISearchRepo(t *testing.T) { defer prepareTestEnv(t)() const keyword = "test" req := NewRequestf(t, "GET", "/api/v1/repos/search?q=%s", keyword) resp := MakeRequest(t, req, http.StatusOK) var body api.SearchResults DecodeJSON(t, resp, &body) assert.NotEmpty(t, body.Data) for _, repo := range body.Data { assert.Contains(t, repo.Name, keyword) assert.False(t, repo.Private) } user := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 15}).(*models.User) user2 := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 16}).(*models.User) user3 := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 18}).(*models.User) user4 := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 20}).(*models.User) orgUser := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 17}).(*models.User) oldAPIDefaultNum := setting.API.DefaultPagingNum defer func() { setting.API.DefaultPagingNum = oldAPIDefaultNum }() setting.API.DefaultPagingNum = 10 // Map of expected results, where key is user for login type expectedResults map[*models.User]struct { count int repoOwnerID int64 repoName string includesPrivate bool } testCases := []struct { name, requestURL string expectedResults }{ {name: "RepositoriesMax50", requestURL: "/api/v1/repos/search?limit=50&private=false", expectedResults: expectedResults{ nil: {count: 30}, user: {count: 30}, user2: {count: 30}}, }, {name: "RepositoriesMax10", requestURL: "/api/v1/repos/search?limit=10&private=false", expectedResults: expectedResults{ nil: {count: 10}, user: {count: 10}, user2: {count: 10}}, }, {name: "RepositoriesDefault", requestURL: "/api/v1/repos/search?default&private=false", expectedResults: expectedResults{ nil: {count: 10}, user: {count: 10}, user2: {count: 10}}, }, {name: "RepositoriesByName", requestURL: fmt.Sprintf("/api/v1/repos/search?q=%s&private=false", "big_test_"), expectedResults: expectedResults{ nil: {count: 7, repoName: "big_test_"}, user: {count: 7, repoName: "big_test_"}, user2: {count: 7, repoName: "big_test_"}}, }, {name: "RepositoriesAccessibleAndRelatedToUser", requestURL: fmt.Sprintf("/api/v1/repos/search?uid=%d", user.ID), expectedResults: expectedResults{ nil: {count: 5}, user: {count: 9, includesPrivate: true}, user2: {count: 6, includesPrivate: true}}, }, {name: "RepositoriesAccessibleAndRelatedToUser2", requestURL: fmt.Sprintf("/api/v1/repos/search?uid=%d", user2.ID), expectedResults: expectedResults{ nil: {count: 1}, user: {count: 2, includesPrivate: true}, user2: {count: 2, includesPrivate: true}, user4: {count: 1}}, }, {name: "RepositoriesAccessibleAndRelatedToUser3", requestURL: fmt.Sprintf("/api/v1/repos/search?uid=%d", user3.ID), expectedResults: expectedResults{ nil: {count: 1}, user: {count: 4, includesPrivate: true}, user2: {count: 3, includesPrivate: true}, user3: {count: 4, includesPrivate: true}}, }, {name: "RepositoriesOwnedByOrganization", requestURL: fmt.Sprintf("/api/v1/repos/search?uid=%d", orgUser.ID), expectedResults: expectedResults{ nil: {count: 1, repoOwnerID: orgUser.ID}, user: {count: 2, repoOwnerID: orgUser.ID, includesPrivate: true}, user2: {count: 1, repoOwnerID: orgUser.ID}}, }, {name: "RepositoriesAccessibleAndRelatedToUser4", requestURL: fmt.Sprintf("/api/v1/repos/search?uid=%d", user4.ID), expectedResults: expectedResults{ nil: {count: 3}, user: {count: 4, includesPrivate: true}, user4: {count: 7, includesPrivate: true}}}, {name: "RepositoriesAccessibleAndRelatedToUser4/SearchModeSource", requestURL: fmt.Sprintf("/api/v1/repos/search?uid=%d&mode=%s", user4.ID, "source"), expectedResults: expectedResults{ nil: {count: 0}, user: {count: 1, includesPrivate: true}, user4: {count: 1, includesPrivate: true}}}, {name: "RepositoriesAccessibleAndRelatedToUser4/SearchModeFork", requestURL: fmt.Sprintf("/api/v1/repos/search?uid=%d&mode=%s", user4.ID, "fork"), expectedResults: expectedResults{ nil: {count: 1}, user: {count: 1}, user4: {count: 2, includesPrivate: true}}}, {name: "RepositoriesAccessibleAndRelatedToUser4/SearchModeFork/Exclusive", requestURL: fmt.Sprintf("/api/v1/repos/search?uid=%d&mode=%s&exclusive=1", user4.ID, "fork"), expectedResults: expectedResults{ nil: {count: 1}, user: {count: 1}, user4: {count: 2, includesPrivate: true}}}, {name: "RepositoriesAccessibleAndRelatedToUser4/SearchModeMirror", requestURL: fmt.Sprintf("/api/v1/repos/search?uid=%d&mode=%s", user4.ID, "mirror"), expectedResults: expectedResults{ nil: {count: 2}, user: {count: 2}, user4: {count: 4, includesPrivate: true}}}, {name: "RepositoriesAccessibleAndRelatedToUser4/SearchModeMirror/Exclusive", requestURL: fmt.Sprintf("/api/v1/repos/search?uid=%d&mode=%s&exclusive=1", user4.ID, "mirror"), expectedResults: expectedResults{ nil: {count: 1}, user: {count: 1}, user4: {count: 2, includesPrivate: true}}}, {name: "RepositoriesAccessibleAndRelatedToUser4/SearchModeCollaborative", requestURL: fmt.Sprintf("/api/v1/repos/search?uid=%d&mode=%s", user4.ID, "collaborative"), expectedResults: expectedResults{ nil: {count: 0}, user: {count: 1, includesPrivate: true}, user4: {count: 1, includesPrivate: true}}}, } for _, testCase := range testCases { t.Run(testCase.name, func(t *testing.T) { for userToLogin, expected := range testCase.expectedResults { var session *TestSession var testName string var userID int64 var token string if userToLogin != nil && userToLogin.ID > 0 { testName = fmt.Sprintf("LoggedUser%d", userToLogin.ID) session = loginUser(t, userToLogin.Name) token = getTokenForLoggedInUser(t, session) userID = userToLogin.ID } else { testName = "AnonymousUser" session = emptyTestSession(t) } t.Run(testName, func(t *testing.T) { request := NewRequest(t, "GET", testCase.requestURL+"&token="+token) response := session.MakeRequest(t, request, http.StatusOK) var body api.SearchResults DecodeJSON(t, response, &body) repoNames := make([]string, 0, len(body.Data)) for _, repo := range body.Data { repoNames = append(repoNames, fmt.Sprintf("%d:%s:%t", repo.ID, repo.FullName, repo.Private)) } assert.Len(t, repoNames, expected.count) for _, repo := range body.Data { r := getRepo(t, repo.ID) hasAccess, err := models.HasAccess(userID, r) assert.NoError(t, err, "Error when checking if User: %d has access to %s: %v", userID, repo.FullName, err) assert.True(t, hasAccess, "User: %d does not have access to %s", userID, repo.FullName) assert.NotEmpty(t, repo.Name) assert.Equal(t, repo.Name, r.Name) if len(expected.repoName) > 0 { assert.Contains(t, repo.Name, expected.repoName) } if expected.repoOwnerID > 0 { assert.Equal(t, expected.repoOwnerID, repo.Owner.ID) } if !expected.includesPrivate { assert.False(t, repo.Private, "User: %d not expecting private repository: %s", userID, repo.FullName) } } }) } }) } } var repoCache = make(map[int64]*models.Repository) func getRepo(t *testing.T, repoID int64) *models.Repository { if _, ok := repoCache[repoID]; !ok { repoCache[repoID] = unittest.AssertExistsAndLoadBean(t, &models.Repository{ID: repoID}).(*models.Repository) } return repoCache[repoID] } func TestAPIViewRepo(t *testing.T) { defer prepareTestEnv(t)() var repo api.Repository req := NewRequest(t, "GET", "/api/v1/repos/user2/repo1") resp := MakeRequest(t, req, http.StatusOK) DecodeJSON(t, resp, &repo) assert.EqualValues(t, 1, repo.ID) assert.EqualValues(t, "repo1", repo.Name) assert.EqualValues(t, 2, repo.Releases) assert.EqualValues(t, 1, repo.OpenIssues) assert.EqualValues(t, 3, repo.OpenPulls) req = NewRequest(t, "GET", "/api/v1/repos/user12/repo10") resp = MakeRequest(t, req, http.StatusOK) DecodeJSON(t, resp, &repo) assert.EqualValues(t, 10, repo.ID) assert.EqualValues(t, "repo10", repo.Name) assert.EqualValues(t, 1, repo.OpenPulls) assert.EqualValues(t, 1, repo.Forks) req = NewRequest(t, "GET", "/api/v1/repos/user5/repo4") resp = MakeRequest(t, req, http.StatusOK) DecodeJSON(t, resp, &repo) assert.EqualValues(t, 4, repo.ID) assert.EqualValues(t, "repo4", repo.Name) assert.EqualValues(t, 1, repo.Stars) } func TestAPIOrgRepos(t *testing.T) { defer prepareTestEnv(t)() user := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 2}).(*models.User) user2 := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 1}).(*models.User) user3 := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 5}).(*models.User) // User3 is an Org. Check their repos. sourceOrg := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 3}).(*models.User) expectedResults := map[*models.User]struct { count int includesPrivate bool }{ nil: {count: 1}, user: {count: 3, includesPrivate: true}, user2: {count: 3, includesPrivate: true}, user3: {count: 1}, } for userToLogin, expected := range expectedResults { var session *TestSession var testName string var token string if userToLogin != nil && userToLogin.ID > 0 { testName = fmt.Sprintf("LoggedUser%d", userToLogin.ID) session = loginUser(t, userToLogin.Name) token = getTokenForLoggedInUser(t, session) } else { testName = "AnonymousUser" session = emptyTestSession(t) } t.Run(testName, func(t *testing.T) { req := NewRequestf(t, "GET", "/api/v1/orgs/%s/repos?token="+token, sourceOrg.Name) resp := session.MakeRequest(t, req, http.StatusOK) var apiRepos []*api.Repository DecodeJSON(t, resp, &apiRepos) assert.Len(t, apiRepos, expected.count) for _, repo := range apiRepos { if !expected.includesPrivate { assert.False(t, repo.Private) } } }) } } func TestAPIGetRepoByIDUnauthorized(t *testing.T) { defer prepareTestEnv(t)() user := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 4}).(*models.User) session := loginUser(t, user.Name) token := getTokenForLoggedInUser(t, session) req := NewRequestf(t, "GET", "/api/v1/repositories/2?token="+token) session.MakeRequest(t, req, http.StatusNotFound) } func TestAPIRepoMigrate(t *testing.T) { testCases := []struct { ctxUserID, userID int64 cloneURL, repoName string expectedStatus int }{ {ctxUserID: 1, userID: 2, cloneURL: "https://github.com/go-gitea/test_repo.git", repoName: "git-admin", expectedStatus: http.StatusCreated}, {ctxUserID: 2, userID: 2, cloneURL: "https://github.com/go-gitea/test_repo.git", repoName: "git-own", expectedStatus: http.StatusCreated}, {ctxUserID: 2, userID: 1, cloneURL: "https://github.com/go-gitea/test_repo.git", repoName: "git-bad", expectedStatus: http.StatusForbidden}, {ctxUserID: 2, userID: 3, cloneURL: "https://github.com/go-gitea/test_repo.git", repoName: "git-org", expectedStatus: http.StatusCreated}, {ctxUserID: 2, userID: 6, cloneURL: "https://github.com/go-gitea/test_repo.git", repoName: "git-bad-org", expectedStatus: http.StatusForbidden}, {ctxUserID: 2, userID: 3, cloneURL: "https://localhost:3000/user/test_repo.git", repoName: "private-ip", expectedStatus: http.StatusUnprocessableEntity}, {ctxUserID: 2, userID: 3, cloneURL: "https://10.0.0.1/user/test_repo.git", repoName: "private-ip", expectedStatus: http.StatusUnprocessableEntity}, } defer prepareTestEnv(t)() for _, testCase := range testCases { user := unittest.AssertExistsAndLoadBean(t, &models.User{ID: testCase.ctxUserID}).(*models.User) session := loginUser(t, user.Name) token := getTokenForLoggedInUser(t, session) req := NewRequestWithJSON(t, "POST", "/api/v1/repos/migrate?token="+token, &api.MigrateRepoOptions{ CloneAddr: testCase.cloneURL, RepoOwnerID: testCase.userID, RepoName: testCase.repoName, }) resp := MakeRequest(t, req, NoExpectedStatus) if resp.Code == http.StatusUnprocessableEntity { respJSON := map[string]string{} DecodeJSON(t, resp, &respJSON) switch respJSON["message"] { case "Remote visit addressed rate limitation.": t.Log("test hit github rate limitation") case "You can not import from disallowed hosts.": assert.EqualValues(t, "private-ip", testCase.repoName) default: assert.Failf(t, "unexpected error '%v' on url '%s'", respJSON["message"], testCase.cloneURL) } } else { assert.EqualValues(t, testCase.expectedStatus, resp.Code) } } } func TestAPIRepoMigrateConflict(t *testing.T) { onGiteaRun(t, testAPIRepoMigrateConflict) } func testAPIRepoMigrateConflict(t *testing.T, u *url.URL) { username := "user2" baseAPITestContext := NewAPITestContext(t, username, "repo1") u.Path = baseAPITestContext.GitPath() t.Run("Existing", func(t *testing.T) { httpContext := baseAPITestContext httpContext.Reponame = "repo-tmp-17" dstPath, err := os.MkdirTemp("", httpContext.Reponame) assert.NoError(t, err) defer util.RemoveAll(dstPath) t.Run("CreateRepo", doAPICreateRepository(httpContext, false)) user, err := models.GetUserByName(httpContext.Username) assert.NoError(t, err) userID := user.ID cloneURL := "https://github.com/go-gitea/test_repo.git" req := NewRequestWithJSON(t, "POST", "/api/v1/repos/migrate?token="+httpContext.Token, &api.MigrateRepoOptions{ CloneAddr: cloneURL, RepoOwnerID: userID, RepoName: httpContext.Reponame, }) resp := httpContext.Session.MakeRequest(t, req, http.StatusConflict) respJSON := map[string]string{} DecodeJSON(t, resp, &respJSON) assert.Equal(t, "The repository with the same name already exists.", respJSON["message"]) }) } func TestAPIOrgRepoCreate(t *testing.T) { testCases := []struct { ctxUserID int64 orgName, repoName string expectedStatus int }{ {ctxUserID: 1, orgName: "user3", repoName: "repo-admin", expectedStatus: http.StatusCreated}, {ctxUserID: 2, orgName: "user3", repoName: "repo-own", expectedStatus: http.StatusCreated}, {ctxUserID: 2, orgName: "user6", repoName: "repo-bad-org", expectedStatus: http.StatusForbidden}, {ctxUserID: 28, orgName: "user3", repoName: "repo-creator", expectedStatus: http.StatusCreated}, {ctxUserID: 28, orgName: "user6", repoName: "repo-not-creator", expectedStatus: http.StatusForbidden}, } defer prepareTestEnv(t)() for _, testCase := range testCases { user := unittest.AssertExistsAndLoadBean(t, &models.User{ID: testCase.ctxUserID}).(*models.User) session := loginUser(t, user.Name) token := getTokenForLoggedInUser(t, session) req := NewRequestWithJSON(t, "POST", fmt.Sprintf("/api/v1/org/%s/repos?token="+token, testCase.orgName), &api.CreateRepoOption{ Name: testCase.repoName, }) session.MakeRequest(t, req, testCase.expectedStatus) } } func TestAPIRepoCreateConflict(t *testing.T) { onGiteaRun(t, testAPIRepoCreateConflict) } func testAPIRepoCreateConflict(t *testing.T, u *url.URL) { username := "user2" baseAPITestContext := NewAPITestContext(t, username, "repo1") u.Path = baseAPITestContext.GitPath() t.Run("Existing", func(t *testing.T) { httpContext := baseAPITestContext httpContext.Reponame = "repo-tmp-17" dstPath, err := os.MkdirTemp("", httpContext.Reponame) assert.NoError(t, err) defer util.RemoveAll(dstPath) t.Run("CreateRepo", doAPICreateRepository(httpContext, false)) req := NewRequestWithJSON(t, "POST", "/api/v1/user/repos?token="+httpContext.Token, &api.CreateRepoOption{ Name: httpContext.Reponame, }) resp := httpContext.Session.MakeRequest(t, req, http.StatusConflict) respJSON := map[string]string{} DecodeJSON(t, resp, &respJSON) assert.Equal(t, respJSON["message"], "The repository with the same name already exists.") }) } func TestAPIRepoTransfer(t *testing.T) { testCases := []struct { ctxUserID int64 newOwner string teams *[]int64 expectedStatus int }{ // Disclaimer for test story: "user1" is an admin, "user2" is normal user and part of in owner team of org "user3" // Transfer to a user with teams in another org should fail {ctxUserID: 1, newOwner: "user3", teams: &[]int64{5}, expectedStatus: http.StatusForbidden}, // Transfer to a user with non-existent team IDs should fail {ctxUserID: 1, newOwner: "user2", teams: &[]int64{2}, expectedStatus: http.StatusUnprocessableEntity}, // Transfer should go through {ctxUserID: 1, newOwner: "user3", teams: &[]int64{2}, expectedStatus: http.StatusAccepted}, // Let user transfer it back to himself {ctxUserID: 2, newOwner: "user2", expectedStatus: http.StatusAccepted}, // And revert transfer {ctxUserID: 2, newOwner: "user3", teams: &[]int64{2}, expectedStatus: http.StatusAccepted}, // Cannot start transfer to an existing repo {ctxUserID: 2, newOwner: "user3", teams: nil, expectedStatus: http.StatusUnprocessableEntity}, // Start transfer, repo is now in pending transfer mode {ctxUserID: 2, newOwner: "user6", teams: nil, expectedStatus: http.StatusCreated}, } defer prepareTestEnv(t)() //create repo to move user := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 1}).(*models.User) session := loginUser(t, user.Name) token := getTokenForLoggedInUser(t, session) repoName := "moveME" apiRepo := new(api.Repository) req := NewRequestWithJSON(t, "POST", fmt.Sprintf("/api/v1/user/repos?token=%s", token), &api.CreateRepoOption{ Name: repoName, Description: "repo move around", Private: false, Readme: "Default", AutoInit: true, }) resp := session.MakeRequest(t, req, http.StatusCreated) DecodeJSON(t, resp, apiRepo) //start testing for _, testCase := range testCases { user = unittest.AssertExistsAndLoadBean(t, &models.User{ID: testCase.ctxUserID}).(*models.User) repo := unittest.AssertExistsAndLoadBean(t, &models.Repository{ID: apiRepo.ID}).(*models.Repository) session = loginUser(t, user.Name) token = getTokenForLoggedInUser(t, session) req = NewRequestWithJSON(t, "POST", fmt.Sprintf("/api/v1/repos/%s/%s/transfer?token=%s", repo.OwnerName, repo.Name, token), &api.TransferRepoOption{ NewOwner: testCase.newOwner, TeamIDs: testCase.teams, }) session.MakeRequest(t, req, testCase.expectedStatus) } //cleanup repo := unittest.AssertExistsAndLoadBean(t, &models.Repository{ID: apiRepo.ID}).(*models.Repository) _ = models.DeleteRepository(user, repo.OwnerID, repo.ID) } func TestAPIGenerateRepo(t *testing.T) { defer prepareTestEnv(t)() user := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 1}).(*models.User) session := loginUser(t, user.Name) token := getTokenForLoggedInUser(t, session) templateRepo := unittest.AssertExistsAndLoadBean(t, &models.Repository{ID: 44}).(*models.Repository) // user repo := new(api.Repository) req := NewRequestWithJSON(t, "POST", fmt.Sprintf("/api/v1/repos/%s/%s/generate?token=%s", templateRepo.OwnerName, templateRepo.Name, token), &api.GenerateRepoOption{ Owner: user.Name, Name: "new-repo", Description: "test generate repo", Private: false, GitContent: true, }) resp := session.MakeRequest(t, req, http.StatusCreated) DecodeJSON(t, resp, repo) assert.Equal(t, "new-repo", repo.Name) // org req = NewRequestWithJSON(t, "POST", fmt.Sprintf("/api/v1/repos/%s/%s/generate?token=%s", templateRepo.OwnerName, templateRepo.Name, token), &api.GenerateRepoOption{ Owner: "user3", Name: "new-repo", Description: "test generate repo", Private: false, GitContent: true, }) resp = session.MakeRequest(t, req, http.StatusCreated) DecodeJSON(t, resp, repo) assert.Equal(t, "new-repo", repo.Name) } func TestAPIRepoGetReviewers(t *testing.T) { defer prepareTestEnv(t)() user := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 2}).(*models.User) session := loginUser(t, user.Name) token := getTokenForLoggedInUser(t, session) repo := unittest.AssertExistsAndLoadBean(t, &models.Repository{ID: 1}).(*models.Repository) req := NewRequestf(t, "GET", "/api/v1/repos/%s/%s/reviewers?token=%s", user.Name, repo.Name, token) resp := session.MakeRequest(t, req, http.StatusOK) var reviewers []*api.User DecodeJSON(t, resp, &reviewers) assert.Len(t, reviewers, 4) } func TestAPIRepoGetAssignees(t *testing.T) { defer prepareTestEnv(t)() user := unittest.AssertExistsAndLoadBean(t, &models.User{ID: 2}).(*models.User) session := loginUser(t, user.Name) token := getTokenForLoggedInUser(t, session) repo := unittest.AssertExistsAndLoadBean(t, &models.Repository{ID: 1}).(*models.Repository) req := NewRequestf(t, "GET", "/api/v1/repos/%s/%s/assignees?token=%s", user.Name, repo.Name, token) resp := session.MakeRequest(t, req, http.StatusOK) var assignees []*api.User DecodeJSON(t, resp, &assignees) assert.Len(t, assignees, 1) }