package main import ( "regexp" "strconv" "strings" "testing" "github.com/ddworken/hishtory/shared/testutils" "github.com/google/go-cmp/cmp" ) type operation struct { device device cmd string redactQuery string } var tmp int = 0 var runCounter *int = &tmp func fuzzTest(t *testing.T, tester shellTester, input string) { *runCounter += 1 // Parse the input if len(input) > 1_000 { return } input = strings.TrimSpace(input) ops := make([]operation, 0) for _, line := range strings.Split(input, "\n") { split1 := strings.SplitN(line, "|", 2) if len(split1) != 2 { panic("malformed: split1") } split2 := strings.SplitN(split1[0], ";", 2) if len(split2) != 2 { panic("malformed: split2") } thingToDo := split1[1] cmd := "" redactQuery := "" if strings.HasPrefix(thingToDo, "!") { redactQuery = thingToDo[1:] } else { cmd = "echo " + thingToDo } re := regexp.MustCompile(`[a-zA-Z]+`) if !re.MatchString(cmd) && cmd != "" { panic("malformed: re") } key := split2[0] if strings.Contains(key, "-") { panic("malformed: key-") } op := operation{device: device{key: key + "-" + strconv.Itoa(*runCounter), deviceId: split2[1]}, cmd: cmd, redactQuery: redactQuery} ops = append(ops, op) } // Set up and create the devices defer testutils.BackupAndRestore(t)() var deviceMap map[device]deviceOp = make(map[device]deviceOp) var devices deviceSet = deviceSet{} devices.deviceMap = &deviceMap devices.currentDevice = nil for _, op := range ops { _, ok := (*devices.deviceMap)[op.device] if ok { continue } createDevice(t, tester, &devices, op.device.key, op.device.deviceId) } // Persist our basic in-memory copy of expected shell commands keyToCommands := make(map[string]string) // Run the commands for _, op := range ops { // Run the command switchToDevice(&devices, op.device) if op.cmd != "" { _, err := tester.RunInteractiveShellRelaxed(t, op.cmd) testutils.Check(t, err) } if op.redactQuery != "" { _, err := tester.RunInteractiveShellRelaxed(t, `HISHTORY_REDACT_FORCE=1 hishtory redact `+op.redactQuery) testutils.Check(t, err) } // Calculate the expected output of hishtory export val, ok := keyToCommands[op.device.key] if !ok { val = "" } if op.cmd != "" { val += op.cmd val += "\n" } if op.redactQuery != "" { lines := strings.Split(val, "\n") filteredLines := make([]string, 0) for _, line := range lines { if strings.Contains(line, op.redactQuery) { continue } filteredLines = append(filteredLines, line) } val = strings.Join(filteredLines, "\n") val += `HISHTORY_REDACT_FORCE=1 hishtory redact ` + op.redactQuery + "\n" } keyToCommands[op.device.key] = val // Run hishtory export and check the output out, err := tester.RunInteractiveShellRelaxed(t, `hishtory export -export -pipefail`) testutils.Check(t, err) expectedOutput := keyToCommands[op.device.key] if diff := cmp.Diff(expectedOutput, out); diff != "" { t.Fatalf("hishtory export mismatch for input=%#v key=%s (-expected +got):\n%s\nout=%#v", input, op.device.key, diff, out) } } // Check that hishtory export has the expected results for _, op := range ops { switchToDevice(&devices, op.device) out, err := tester.RunInteractiveShellRelaxed(t, `hishtory export -export -pipefail`) testutils.Check(t, err) expectedOutput := keyToCommands[op.device.key] if diff := cmp.Diff(expectedOutput, out); diff != "" { t.Fatalf("hishtory export mismatch for key=%s (-expected +got):\n%s\nout=%#v", op.device.key, diff, out) } } } func FuzzTestMultipleUsers(f *testing.F) { if skipSlowTests() { f.Skip("skipping slow tests") } defer testutils.RunTestServer()() // Format: // $Op = $Key;$Device|$Command\n // $Key;$Device|$Command\n$Op // $Command = !$ThingToRedact // $CommandToRun // // Running repeated commands f.Add("a;b|2\n") f.Add("a;b|aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa\n") f.Add("a;b|aaaBBcccDD\n") f.Add("a;a|hello\na;a|world") f.Add("a;a|hello\na;a|world\na;b|3") f.Add("a;a|1\na;a|2\na;b|3\nb;a|4\na;b|5") f.Add("a;a|1\na;a|2\na;b|1\n") f.Add("a;a|1\na;a|2\na;b|1\nz;z|1\na;a|1\n") f.Add("a;a|hello\na;a|wobld") f.Add("a;a|hello\na;a|hello") f.Add("a;a|1\nb;a|2\nc;a|2\nd;a|2\na;b|2\na;b|3\na;b|4\na;b|8\na;d|2\nb;a|1\n") f.Add("a;a|1\na;b|1\na;c|1\na;d|1\na;e|1\na;f|1\na;g|1\na;b|1\na;b|1\na;b|1\na;b|1\n") f.Add("a;a|1\nb;b|1\na;c|1\na;d|1\na;e|1\na;f|1\na;g|1\na;b|1\na;b|1\na;b|1\na;b|1\n") f.Add("a;a|1\na;a|1\na;c|1\na;d|1\na;e|1\na;f|1\na;g|1\na;b|1\na;b|1\na;b|1\na;b|1\n") f.Add("a;a|1\na;a|2\na;c|1\na;d|3\na;e|4\na;f|5\na;g|6\na;b|7\na;b|1\na;b|8\na;b|1\n") // Running repeated commands with redaction f.Add("a;b|!hello\n") f.Add("a;b|hello\na;b|world\na;b|!hello\n") f.Add("a;a|hello\na;a|world\na;b|!hello\na;b|hello\na;a|hell\na;a|hello\na;c|!hello\na;d|!hell\n") f.Add("a;b|hello\na;b|world\na;a|hello2\na;b|!hello\na;b|hello3\na;b|hello4\n") f.Add("a;b|hello\na;b|world\na;a|hello2\na;b|!h\na;b|!h\na;b|hello3\na;b|hello4\n") f.Add("a;a|1\na;a|2\na;c|1\na;d|3\na;e|4\na;f|5\na;g|6\na;b|7\na;b|1\na;b|8\na;b|1\na;a|!1\n") f.Fuzz(func(t *testing.T, input string) { fuzzTest(t, bashTester{}, input) fuzzTest(t, zshTester{}, input) }) }