package sqlite import ( "context" "os" "path/filepath" "testing" "time" "github.com/steveyegge/beads/internal/types" _ "modernc.org/sqlite" ) func setupTestDB(t *testing.T) (*SQLiteStorage, func()) { t.Helper() // Create temporary directory tmpDir, err := os.MkdirTemp("", "beads-test-*") if err != nil { t.Fatalf("failed to create temp dir: %v", err) } dbPath := filepath.Join(tmpDir, "test.db") store, err := New(dbPath) if err != nil { os.RemoveAll(tmpDir) t.Fatalf("failed to create storage: %v", err) } cleanup := func() { store.Close() os.RemoveAll(tmpDir) } return store, cleanup } func TestCreateIssue(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() issue := &types.Issue{ Title: "Test issue", Description: "Test description", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, } err := store.CreateIssue(ctx, issue, "test-user") if err != nil { t.Fatalf("CreateIssue failed: %v", err) } if issue.ID == "" { t.Error("Issue ID should be set") } if !issue.CreatedAt.After(time.Time{}) { t.Error("CreatedAt should be set") } if !issue.UpdatedAt.After(time.Time{}) { t.Error("UpdatedAt should be set") } } func TestCreateIssueValidation(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() tests := []struct { name string issue *types.Issue wantErr bool }{ { name: "valid issue", issue: &types.Issue{ Title: "Valid", Status: types.StatusOpen, Priority: 2, IssueType: types.TypeTask, }, wantErr: false, }, { name: "missing title", issue: &types.Issue{ Status: types.StatusOpen, Priority: 2, IssueType: types.TypeTask, }, wantErr: true, }, { name: "invalid priority", issue: &types.Issue{ Title: "Test", Status: types.StatusOpen, Priority: 10, IssueType: types.TypeTask, }, wantErr: true, }, { name: "invalid status", issue: &types.Issue{ Title: "Test", Status: "invalid", Priority: 2, IssueType: types.TypeTask, }, wantErr: true, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { err := store.CreateIssue(ctx, tt.issue, "test-user") if (err != nil) != tt.wantErr { t.Errorf("CreateIssue() error = %v, wantErr %v", err, tt.wantErr) } }) } } func TestGetIssue(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() original := &types.Issue{ Title: "Test issue", Description: "Description", Design: "Design notes", AcceptanceCriteria: "Acceptance", Notes: "Notes", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeFeature, Assignee: "alice", } err := store.CreateIssue(ctx, original, "test-user") if err != nil { t.Fatalf("CreateIssue failed: %v", err) } // Retrieve the issue retrieved, err := store.GetIssue(ctx, original.ID) if err != nil { t.Fatalf("GetIssue failed: %v", err) } if retrieved == nil { t.Fatal("GetIssue returned nil") } if retrieved.ID != original.ID { t.Errorf("ID mismatch: got %v, want %v", retrieved.ID, original.ID) } if retrieved.Title != original.Title { t.Errorf("Title mismatch: got %v, want %v", retrieved.Title, original.Title) } if retrieved.Description != original.Description { t.Errorf("Description mismatch: got %v, want %v", retrieved.Description, original.Description) } if retrieved.Assignee != original.Assignee { t.Errorf("Assignee mismatch: got %v, want %v", retrieved.Assignee, original.Assignee) } } func TestGetIssueNotFound(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() issue, err := store.GetIssue(ctx, "bd-999") if err != nil { t.Fatalf("GetIssue failed: %v", err) } if issue != nil { t.Errorf("Expected nil for non-existent issue, got %v", issue) } } func TestCreateIssues(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() tests := []struct { name string issues []*types.Issue wantErr bool checkFunc func(t *testing.T, issues []*types.Issue) }{ { name: "empty batch", issues: []*types.Issue{}, wantErr: false, checkFunc: func(t *testing.T, issues []*types.Issue) { if len(issues) != 0 { t.Errorf("expected 0 issues, got %d", len(issues)) } }, }, { name: "single issue", issues: []*types.Issue{ { Title: "Single issue", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, }, wantErr: false, checkFunc: func(t *testing.T, issues []*types.Issue) { if len(issues) != 1 { t.Fatalf("expected 1 issue, got %d", len(issues)) } if issues[0].ID == "" { t.Error("issue ID should be set") } if !issues[0].CreatedAt.After(time.Time{}) { t.Error("CreatedAt should be set") } if !issues[0].UpdatedAt.After(time.Time{}) { t.Error("UpdatedAt should be set") } }, }, { name: "multiple issues", issues: []*types.Issue{ { Title: "Issue 1", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, { Title: "Issue 2", Status: types.StatusInProgress, Priority: 2, IssueType: types.TypeBug, }, { Title: "Issue 3", Status: types.StatusOpen, Priority: 3, IssueType: types.TypeFeature, }, }, wantErr: false, checkFunc: func(t *testing.T, issues []*types.Issue) { if len(issues) != 3 { t.Fatalf("expected 3 issues, got %d", len(issues)) } for i, issue := range issues { if issue.ID == "" { t.Errorf("issue %d: ID should be set", i) } if !issue.CreatedAt.After(time.Time{}) { t.Errorf("issue %d: CreatedAt should be set", i) } if !issue.UpdatedAt.After(time.Time{}) { t.Errorf("issue %d: UpdatedAt should be set", i) } } // Verify IDs are unique ids := make(map[string]bool) for _, issue := range issues { if ids[issue.ID] { t.Errorf("duplicate ID found: %s", issue.ID) } ids[issue.ID] = true } }, }, { name: "mixed ID assignment - explicit and auto-generated", issues: []*types.Issue{ { ID: "custom-1", Title: "Custom ID 1", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, { Title: "Auto ID", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, { ID: "custom-2", Title: "Custom ID 2", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, }, wantErr: false, checkFunc: func(t *testing.T, issues []*types.Issue) { if len(issues) != 3 { t.Fatalf("expected 3 issues, got %d", len(issues)) } if issues[0].ID != "custom-1" { t.Errorf("expected ID 'custom-1', got %s", issues[0].ID) } if issues[1].ID == "" || issues[1].ID == "custom-1" || issues[1].ID == "custom-2" { t.Errorf("expected auto-generated ID, got %s", issues[1].ID) } if issues[2].ID != "custom-2" { t.Errorf("expected ID 'custom-2', got %s", issues[2].ID) } }, }, { name: "validation error - missing title", issues: []*types.Issue{ { Title: "Valid issue", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, { Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, }, wantErr: true, checkFunc: func(t *testing.T, issues []*types.Issue) { // Should not be called on error }, }, { name: "validation error - invalid priority", issues: []*types.Issue{ { Title: "Test", Status: types.StatusOpen, Priority: 10, IssueType: types.TypeTask, }, }, wantErr: true, checkFunc: func(t *testing.T, issues []*types.Issue) { // Should not be called on error }, }, { name: "validation error - invalid status", issues: []*types.Issue{ { Title: "Test", Status: "invalid", Priority: 1, IssueType: types.TypeTask, }, }, wantErr: true, checkFunc: func(t *testing.T, issues []*types.Issue) { // Should not be called on error }, }, { name: "duplicate ID error", issues: []*types.Issue{ { ID: "duplicate-id", Title: "First issue", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, { ID: "duplicate-id", Title: "Second issue", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, }, wantErr: true, checkFunc: func(t *testing.T, issues []*types.Issue) { // Should not be called on error }, }, { name: "closed_at invariant - open status with closed_at", issues: []*types.Issue{ { Title: "Invalid closed_at", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, ClosedAt: &time.Time{}, }, }, wantErr: true, checkFunc: func(t *testing.T, issues []*types.Issue) { // Should not be called on error }, }, { name: "closed_at invariant - closed status without closed_at", issues: []*types.Issue{ { Title: "Missing closed_at", Status: types.StatusClosed, Priority: 1, IssueType: types.TypeTask, }, }, wantErr: true, checkFunc: func(t *testing.T, issues []*types.Issue) { // Should not be called on error }, }, { name: "nil item in batch", issues: []*types.Issue{ { Title: "Valid issue", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, nil, }, wantErr: true, checkFunc: func(t *testing.T, issues []*types.Issue) { // Should not be called on error }, }, { name: "valid closed issue with closed_at", issues: []*types.Issue{ { Title: "Properly closed", Status: types.StatusClosed, Priority: 1, IssueType: types.TypeTask, ClosedAt: func() *time.Time { t := time.Now(); return &t }(), }, }, wantErr: false, checkFunc: func(t *testing.T, issues []*types.Issue) { if len(issues) != 1 { t.Fatalf("expected 1 issue, got %d", len(issues)) } if issues[0].Status != types.StatusClosed { t.Errorf("expected closed status, got %s", issues[0].Status) } if issues[0].ClosedAt == nil { t.Error("ClosedAt should be set for closed issue") } }, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { err := store.CreateIssues(ctx, tt.issues, "test-user") if (err != nil) != tt.wantErr { t.Errorf("CreateIssues() error = %v, wantErr %v", err, tt.wantErr) return } if tt.wantErr { // Verify IDs weren't auto-generated on error (timestamps may be set) for i, issue := range tt.issues { if issue == nil { continue } // Allow pre-set IDs (custom-1, existing-id, duplicate-id, etc.) hasCustomID := issue.ID != "" && (issue.ID == "custom-1" || issue.ID == "custom-2" || issue.ID == "duplicate-id" || issue.ID == "existing-id") if !hasCustomID && issue.ID != "" { t.Errorf("issue %d: ID should not be auto-generated on error, got %s", i, issue.ID) } } } if !tt.wantErr && tt.checkFunc != nil { tt.checkFunc(t, tt.issues) } }) } } func TestCreateIssuesRollback(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() t.Run("rollback on validation error", func(t *testing.T) { // Create a valid issue first validIssue := &types.Issue{ Title: "Valid issue", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, } err := store.CreateIssue(ctx, validIssue, "test-user") if err != nil { t.Fatalf("failed to create valid issue: %v", err) } // Try to create batch with one valid and one invalid issue issues := []*types.Issue{ { Title: "Another valid issue", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, { Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, } err = store.CreateIssues(ctx, issues, "test-user") if err == nil { t.Fatal("expected error for invalid batch, got nil") } // Verify the "Another valid issue" was rolled back by searching all issues filter := types.IssueFilter{} allIssues, err := store.SearchIssues(ctx, "", filter) if err != nil { t.Fatalf("failed to search issues: %v", err) } // Should only have the first valid issue, not the rolled-back one if len(allIssues) != 1 { t.Errorf("expected 1 issue after rollback, got %d", len(allIssues)) } if len(allIssues) > 0 && allIssues[0].ID != validIssue.ID { t.Errorf("expected only the first valid issue, got %s", allIssues[0].ID) } }) t.Run("rollback on conflict with existing ID", func(t *testing.T) { // Create an issue with explicit ID existingIssue := &types.Issue{ ID: "existing-id", Title: "Existing issue", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, } err := store.CreateIssue(ctx, existingIssue, "test-user") if err != nil { t.Fatalf("failed to create existing issue: %v", err) } // Try to create batch with conflicting ID issues := []*types.Issue{ { Title: "Should rollback", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, { ID: "existing-id", Title: "Conflict", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask, }, } err = store.CreateIssues(ctx, issues, "test-user") if err == nil { t.Fatal("expected error for duplicate ID, got nil") } // Verify rollback - "Should rollback" issue should not exist filter := types.IssueFilter{} allIssues, err := store.SearchIssues(ctx, "", filter) if err != nil { t.Fatalf("failed to search issues: %v", err) } // Count should only include the pre-existing issues foundRollback := false for _, issue := range allIssues { if issue.Title == "Should rollback" { foundRollback = true break } } if foundRollback { t.Error("expected rollback of all issues in batch, but 'Should rollback' was found") } }) } func TestUpdateIssue(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() issue := &types.Issue{ Title: "Original", Status: types.StatusOpen, Priority: 2, IssueType: types.TypeTask, } err := store.CreateIssue(ctx, issue, "test-user") if err != nil { t.Fatalf("CreateIssue failed: %v", err) } // Update the issue updates := map[string]interface{}{ "title": "Updated", "status": string(types.StatusInProgress), "priority": 1, "assignee": "bob", } err = store.UpdateIssue(ctx, issue.ID, updates, "test-user") if err != nil { t.Fatalf("UpdateIssue failed: %v", err) } // Verify updates updated, err := store.GetIssue(ctx, issue.ID) if err != nil { t.Fatalf("GetIssue failed: %v", err) } if updated.Title != "Updated" { t.Errorf("Title not updated: got %v, want Updated", updated.Title) } if updated.Status != types.StatusInProgress { t.Errorf("Status not updated: got %v, want %v", updated.Status, types.StatusInProgress) } if updated.Priority != 1 { t.Errorf("Priority not updated: got %v, want 1", updated.Priority) } if updated.Assignee != "bob" { t.Errorf("Assignee not updated: got %v, want bob", updated.Assignee) } } func TestCloseIssue(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() issue := &types.Issue{ Title: "Test", Status: types.StatusOpen, Priority: 2, IssueType: types.TypeTask, } err := store.CreateIssue(ctx, issue, "test-user") if err != nil { t.Fatalf("CreateIssue failed: %v", err) } err = store.CloseIssue(ctx, issue.ID, "Done", "test-user") if err != nil { t.Fatalf("CloseIssue failed: %v", err) } // Verify closure closed, err := store.GetIssue(ctx, issue.ID) if err != nil { t.Fatalf("GetIssue failed: %v", err) } if closed.Status != types.StatusClosed { t.Errorf("Status not closed: got %v, want %v", closed.Status, types.StatusClosed) } if closed.ClosedAt == nil { t.Error("ClosedAt should be set") } } func TestClosedAtInvariant(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() t.Run("UpdateIssue auto-sets closed_at when closing", func(t *testing.T) { issue := &types.Issue{ Title: "Test", Status: types.StatusOpen, Priority: 2, IssueType: types.TypeTask, } err := store.CreateIssue(ctx, issue, "test-user") if err != nil { t.Fatalf("CreateIssue failed: %v", err) } // Update to closed without providing closed_at updates := map[string]interface{}{ "status": string(types.StatusClosed), } err = store.UpdateIssue(ctx, issue.ID, updates, "test-user") if err != nil { t.Fatalf("UpdateIssue failed: %v", err) } // Verify closed_at was auto-set updated, err := store.GetIssue(ctx, issue.ID) if err != nil { t.Fatalf("GetIssue failed: %v", err) } if updated.Status != types.StatusClosed { t.Errorf("Status should be closed, got %v", updated.Status) } if updated.ClosedAt == nil { t.Error("ClosedAt should be auto-set when changing to closed status") } }) t.Run("UpdateIssue clears closed_at when reopening", func(t *testing.T) { issue := &types.Issue{ Title: "Test", Status: types.StatusOpen, Priority: 2, IssueType: types.TypeTask, } err := store.CreateIssue(ctx, issue, "test-user") if err != nil { t.Fatalf("CreateIssue failed: %v", err) } // Close the issue err = store.CloseIssue(ctx, issue.ID, "Done", "test-user") if err != nil { t.Fatalf("CloseIssue failed: %v", err) } // Verify it's closed with closed_at set closed, err := store.GetIssue(ctx, issue.ID) if err != nil { t.Fatalf("GetIssue failed: %v", err) } if closed.ClosedAt == nil { t.Fatal("ClosedAt should be set after closing") } // Reopen the issue updates := map[string]interface{}{ "status": string(types.StatusOpen), } err = store.UpdateIssue(ctx, issue.ID, updates, "test-user") if err != nil { t.Fatalf("UpdateIssue failed: %v", err) } // Verify closed_at was cleared reopened, err := store.GetIssue(ctx, issue.ID) if err != nil { t.Fatalf("GetIssue failed: %v", err) } if reopened.Status != types.StatusOpen { t.Errorf("Status should be open, got %v", reopened.Status) } if reopened.ClosedAt != nil { t.Error("ClosedAt should be cleared when reopening issue") } }) t.Run("CreateIssue rejects closed issue without closed_at", func(t *testing.T) { issue := &types.Issue{ Title: "Test", Status: types.StatusClosed, Priority: 2, IssueType: types.TypeTask, ClosedAt: nil, // Invalid: closed without closed_at } err := store.CreateIssue(ctx, issue, "test-user") if err == nil { t.Error("CreateIssue should reject closed issue without closed_at") } }) t.Run("CreateIssue rejects open issue with closed_at", func(t *testing.T) { now := time.Now() issue := &types.Issue{ Title: "Test", Status: types.StatusOpen, Priority: 2, IssueType: types.TypeTask, ClosedAt: &now, // Invalid: open with closed_at } err := store.CreateIssue(ctx, issue, "test-user") if err == nil { t.Error("CreateIssue should reject open issue with closed_at") } }) } func TestSearchIssues(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() // Create test issues issues := []*types.Issue{ {Title: "Bug in login", Status: types.StatusOpen, Priority: 0, IssueType: types.TypeBug}, {Title: "Feature request", Status: types.StatusOpen, Priority: 2, IssueType: types.TypeFeature}, {Title: "Another bug", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeBug}, } for _, issue := range issues { err := store.CreateIssue(ctx, issue, "test-user") if err != nil { t.Fatalf("CreateIssue failed: %v", err) } // Close the third issue if issue.Title == "Another bug" { err = store.CloseIssue(ctx, issue.ID, "Done", "test-user") if err != nil { t.Fatalf("CloseIssue failed: %v", err) } } } // Test query search results, err := store.SearchIssues(ctx, "bug", types.IssueFilter{}) if err != nil { t.Fatalf("SearchIssues failed: %v", err) } if len(results) != 2 { t.Errorf("Expected 2 results, got %d", len(results)) } // Test status filter openStatus := types.StatusOpen results, err = store.SearchIssues(ctx, "", types.IssueFilter{Status: &openStatus}) if err != nil { t.Fatalf("SearchIssues failed: %v", err) } if len(results) != 2 { t.Errorf("Expected 2 open issues, got %d", len(results)) } // Test type filter bugType := types.TypeBug results, err = store.SearchIssues(ctx, "", types.IssueFilter{IssueType: &bugType}) if err != nil { t.Fatalf("SearchIssues failed: %v", err) } if len(results) != 2 { t.Errorf("Expected 2 bugs, got %d", len(results)) } // Test priority filter (P0) priority0 := 0 results, err = store.SearchIssues(ctx, "", types.IssueFilter{Priority: &priority0}) if err != nil { t.Fatalf("SearchIssues failed: %v", err) } if len(results) != 1 { t.Errorf("Expected 1 P0 issue, got %d", len(results)) } } func TestGetStatistics(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() // Test statistics on empty database (regression test for NULL handling) stats, err := store.GetStatistics(ctx) if err != nil { t.Fatalf("GetStatistics failed on empty database: %v", err) } if stats.TotalIssues != 0 { t.Errorf("Expected 0 total issues, got %d", stats.TotalIssues) } if stats.OpenIssues != 0 { t.Errorf("Expected 0 open issues, got %d", stats.OpenIssues) } if stats.InProgressIssues != 0 { t.Errorf("Expected 0 in-progress issues, got %d", stats.InProgressIssues) } if stats.ClosedIssues != 0 { t.Errorf("Expected 0 closed issues, got %d", stats.ClosedIssues) } // Create some issues to verify statistics work with data issues := []*types.Issue{ {Title: "Open task", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask}, {Title: "In progress task", Status: types.StatusInProgress, Priority: 1, IssueType: types.TypeTask}, {Title: "Closed task", Status: types.StatusOpen, Priority: 1, IssueType: types.TypeTask}, {Title: "Another open task", Status: types.StatusOpen, Priority: 2, IssueType: types.TypeTask}, } for _, issue := range issues { err := store.CreateIssue(ctx, issue, "test-user") if err != nil { t.Fatalf("CreateIssue failed: %v", err) } // Close the one that should be closed if issue.Title == "Closed task" { err = store.CloseIssue(ctx, issue.ID, "Done", "test-user") if err != nil { t.Fatalf("CloseIssue failed: %v", err) } } } // Get statistics with data stats, err = store.GetStatistics(ctx) if err != nil { t.Fatalf("GetStatistics failed with data: %v", err) } if stats.TotalIssues != 4 { t.Errorf("Expected 4 total issues, got %d", stats.TotalIssues) } if stats.OpenIssues != 2 { t.Errorf("Expected 2 open issues, got %d", stats.OpenIssues) } if stats.InProgressIssues != 1 { t.Errorf("Expected 1 in-progress issue, got %d", stats.InProgressIssues) } if stats.ClosedIssues != 1 { t.Errorf("Expected 1 closed issue, got %d", stats.ClosedIssues) } if stats.ReadyIssues != 2 { t.Errorf("Expected 2 ready issues (open with no blockers), got %d", stats.ReadyIssues) } } // Note: High-concurrency stress tests were removed as the pure Go SQLite driver // (modernc.org/sqlite) can experience "database is locked" errors under extreme // parallel load (100+ simultaneous operations). This is a known limitation and // does not affect normal usage where WAL mode handles typical concurrent operations. // For very high concurrency needs, consider using CGO-enabled sqlite3 driver or PostgreSQL. // TestParallelIssueCreation verifies that parallel issue creation doesn't cause ID collisions // This is a regression test for bd-89 (GH-6) where race conditions in ID generation caused // UNIQUE constraint failures when creating issues rapidly in parallel. func TestParallelIssueCreation(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() const numIssues = 20 // Create issues in parallel using goroutines errors := make(chan error, numIssues) ids := make(chan string, numIssues) for i := 0; i < numIssues; i++ { go func(num int) { issue := &types.Issue{ Title: "Parallel test issue", Status: types.StatusOpen, Priority: 2, IssueType: types.TypeTask, } err := store.CreateIssue(ctx, issue, "test-user") if err != nil { errors <- err return } ids <- issue.ID errors <- nil }(i) } // Collect results var collectedIDs []string var failureCount int for i := 0; i < numIssues; i++ { if err := <-errors; err != nil { t.Errorf("CreateIssue failed in parallel test: %v", err) failureCount++ } } close(ids) for id := range ids { collectedIDs = append(collectedIDs, id) } // Verify no failures occurred if failureCount > 0 { t.Fatalf("Expected 0 failures, got %d", failureCount) } // Verify we got the expected number of IDs if len(collectedIDs) != numIssues { t.Fatalf("Expected %d IDs, got %d", numIssues, len(collectedIDs)) } // Verify all IDs are unique (no duplicates from race conditions) seen := make(map[string]bool) for _, id := range collectedIDs { if seen[id] { t.Errorf("Duplicate ID detected: %s", id) } seen[id] = true } // Verify all issues can be retrieved (they actually exist in the database) for _, id := range collectedIDs { issue, err := store.GetIssue(ctx, id) if err != nil { t.Errorf("Failed to retrieve issue %s: %v", id, err) } if issue == nil { t.Errorf("Issue %s not found in database", id) } } } func TestSetAndGetMetadata(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() // Set metadata err := store.SetMetadata(ctx, "import_hash", "abc123def456") if err != nil { t.Fatalf("SetMetadata failed: %v", err) } // Get metadata value, err := store.GetMetadata(ctx, "import_hash") if err != nil { t.Fatalf("GetMetadata failed: %v", err) } if value != "abc123def456" { t.Errorf("Expected 'abc123def456', got '%s'", value) } } func TestGetMetadataNotFound(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() // Get non-existent metadata value, err := store.GetMetadata(ctx, "nonexistent") if err != nil { t.Fatalf("GetMetadata failed: %v", err) } if value != "" { t.Errorf("Expected empty string for non-existent key, got '%s'", value) } } func TestSetMetadataUpdate(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() // Set initial value err := store.SetMetadata(ctx, "test_key", "initial_value") if err != nil { t.Fatalf("SetMetadata failed: %v", err) } // Update value err = store.SetMetadata(ctx, "test_key", "updated_value") if err != nil { t.Fatalf("SetMetadata update failed: %v", err) } // Verify updated value value, err := store.GetMetadata(ctx, "test_key") if err != nil { t.Fatalf("GetMetadata failed: %v", err) } if value != "updated_value" { t.Errorf("Expected 'updated_value', got '%s'", value) } } func TestMetadataMultipleKeys(t *testing.T) { store, cleanup := setupTestDB(t) defer cleanup() ctx := context.Background() // Set multiple metadata keys keys := map[string]string{ "key1": "value1", "key2": "value2", "key3": "value3", } for key, value := range keys { err := store.SetMetadata(ctx, key, value) if err != nil { t.Fatalf("SetMetadata failed for %s: %v", key, err) } } // Verify all keys for key, expectedValue := range keys { value, err := store.GetMetadata(ctx, key) if err != nil { t.Fatalf("GetMetadata failed for %s: %v", key, err) } if value != expectedValue { t.Errorf("For key %s, expected '%s', got '%s'", key, expectedValue, value) } } }