package handlers import ( "context" "os" "path/filepath" "strconv" "testing" "time" "github.com/stretchr/testify/assert" ) func TestDefaultCrowdsecExecutorPidFile(t *testing.T) { e := NewDefaultCrowdsecExecutor() tmp := t.TempDir() expected := filepath.Join(tmp, "crowdsec.pid") if p := e.pidFile(tmp); p != expected { t.Fatalf("pidFile mismatch got %s expected %s", p, expected) } } func TestDefaultCrowdsecExecutorStartStatusStop(t *testing.T) { e := NewDefaultCrowdsecExecutor() tmp := t.TempDir() // create a tiny script that sleeps and traps TERM script := filepath.Join(tmp, "runscript.sh") content := `#!/bin/sh trap 'exit 0' TERM INT while true; do sleep 1; done ` if err := os.WriteFile(script, []byte(content), 0o755); err != nil { t.Fatalf("write script: %v", err) } ctx, cancel := context.WithTimeout(context.Background(), time.Second*10) defer cancel() pid, err := e.Start(ctx, script, tmp) if err != nil { t.Fatalf("start err: %v", err) } if pid <= 0 { t.Fatalf("invalid pid %d", pid) } // ensure pid file exists and content matches pidB, err := os.ReadFile(e.pidFile(tmp)) if err != nil { t.Fatalf("read pid file: %v", err) } gotPid, _ := strconv.Atoi(string(pidB)) if gotPid != pid { t.Fatalf("pid file mismatch got %d expected %d", gotPid, pid) } // Status should return running running, got, err := e.Status(ctx, tmp) if err != nil { t.Fatalf("status err: %v", err) } if !running || got != pid { t.Fatalf("status expected running for %d got %d running=%v", pid, got, running) } // Stop should terminate and remove pid file if err := e.Stop(ctx, tmp); err != nil { t.Fatalf("stop err: %v", err) } // give a little time for process to exit time.Sleep(200 * time.Millisecond) running2, _, _ := e.Status(ctx, tmp) if running2 { t.Fatalf("process still running after stop") } } // Additional coverage tests for error paths func TestDefaultCrowdsecExecutor_Status_NoPidFile(t *testing.T) { exec := NewDefaultCrowdsecExecutor() tmpDir := t.TempDir() running, pid, err := exec.Status(context.Background(), tmpDir) assert.NoError(t, err) assert.False(t, running) assert.Equal(t, 0, pid) } func TestDefaultCrowdsecExecutor_Status_InvalidPid(t *testing.T) { exec := NewDefaultCrowdsecExecutor() tmpDir := t.TempDir() // Write invalid pid os.WriteFile(filepath.Join(tmpDir, "crowdsec.pid"), []byte("invalid"), 0o644) running, pid, err := exec.Status(context.Background(), tmpDir) assert.NoError(t, err) assert.False(t, running) assert.Equal(t, 0, pid) } func TestDefaultCrowdsecExecutor_Status_NonExistentProcess(t *testing.T) { exec := NewDefaultCrowdsecExecutor() tmpDir := t.TempDir() // Write a pid that doesn't exist // Use a very high PID that's unlikely to exist os.WriteFile(filepath.Join(tmpDir, "crowdsec.pid"), []byte("999999999"), 0o644) running, pid, err := exec.Status(context.Background(), tmpDir) assert.NoError(t, err) assert.False(t, running) assert.Equal(t, 999999999, pid) } func TestDefaultCrowdsecExecutor_Stop_NoPidFile(t *testing.T) { exec := NewDefaultCrowdsecExecutor() tmpDir := t.TempDir() err := exec.Stop(context.Background(), tmpDir) assert.Error(t, err) assert.Contains(t, err.Error(), "pid file read") } func TestDefaultCrowdsecExecutor_Stop_InvalidPid(t *testing.T) { exec := NewDefaultCrowdsecExecutor() tmpDir := t.TempDir() // Write invalid pid os.WriteFile(filepath.Join(tmpDir, "crowdsec.pid"), []byte("invalid"), 0o644) err := exec.Stop(context.Background(), tmpDir) assert.Error(t, err) assert.Contains(t, err.Error(), "invalid pid") } func TestDefaultCrowdsecExecutor_Stop_NonExistentProcess(t *testing.T) { exec := NewDefaultCrowdsecExecutor() tmpDir := t.TempDir() // Write a pid that doesn't exist os.WriteFile(filepath.Join(tmpDir, "crowdsec.pid"), []byte("999999999"), 0o644) err := exec.Stop(context.Background(), tmpDir) // Should fail with signal error assert.Error(t, err) } func TestDefaultCrowdsecExecutor_Start_InvalidBinary(t *testing.T) { exec := NewDefaultCrowdsecExecutor() tmpDir := t.TempDir() pid, err := exec.Start(context.Background(), "/nonexistent/binary", tmpDir) assert.Error(t, err) assert.Equal(t, 0, pid) }