package jsonmessage // import "github.com/docker/docker/pkg/jsonmessage" import ( "bytes" "fmt" "strings" "testing" "time" "github.com/moby/term" "gotest.tools/v3/assert" is "gotest.tools/v3/assert/cmp" ) func TestError(t *testing.T) { je := JSONError{404, "Not found"} assert.Assert(t, is.Error(&je, "Not found")) } func TestProgressString(t *testing.T) { type expected struct { short string long string } shortAndLong := func(short, long string) expected { return expected{short: short, long: long} } start := time.Date(2017, 12, 3, 15, 10, 1, 0, time.UTC) timeAfter := func(delta time.Duration) func() time.Time { return func() time.Time { return start.Add(delta) } } var testcases = []struct { name string progress JSONProgress expected expected }{ { name: "no progress", }, { name: "progress 1", progress: JSONProgress{Current: 1}, expected: shortAndLong(" 1B", " 1B"), }, { name: "some progress with a start time", progress: JSONProgress{ Current: 20, Total: 100, Start: start.Unix(), nowFunc: timeAfter(time.Second), }, expected: shortAndLong( " 20B/100B 4s", "[==========> ] 20B/100B 4s", ), }, { name: "some progress without a start time", progress: JSONProgress{Current: 50, Total: 100}, expected: shortAndLong( " 50B/100B", "[=========================> ] 50B/100B", ), }, { name: "current more than total is not negative gh#7136", progress: JSONProgress{Current: 50, Total: 40}, expected: shortAndLong( " 50B", "[==================================================>] 50B", ), }, { name: "with units", progress: JSONProgress{Current: 50, Total: 100, Units: "units"}, expected: shortAndLong( "50/100 units", "[=========================> ] 50/100 units", ), }, { name: "current more than total with units is not negative ", progress: JSONProgress{Current: 50, Total: 40, Units: "units"}, expected: shortAndLong( "50 units", "[==================================================>] 50 units", ), }, { name: "hide counts", progress: JSONProgress{Current: 50, Total: 100, HideCounts: true}, expected: shortAndLong( "", "[=========================> ] ", ), }, } for _, testcase := range testcases { t.Run(testcase.name, func(t *testing.T) { testcase.progress.winSize = 100 assert.Equal(t, testcase.progress.String(), testcase.expected.short) testcase.progress.winSize = 200 assert.Equal(t, testcase.progress.String(), testcase.expected.long) }) } } func TestJSONMessageDisplay(t *testing.T) { now := time.Now() messages := map[JSONMessage][]string{ // Empty {}: {"\n", "\n"}, // Status { Status: "status", }: { "status\n", "status\n", }, // General { Time: now.Unix(), ID: "ID", From: "From", Status: "status", }: { fmt.Sprintf("%v ID: (from From) status\n", time.Unix(now.Unix(), 0).Format(RFC3339NanoFixed)), fmt.Sprintf("%v ID: (from From) status\n", time.Unix(now.Unix(), 0).Format(RFC3339NanoFixed)), }, // General, with nano precision time { TimeNano: now.UnixNano(), ID: "ID", From: "From", Status: "status", }: { fmt.Sprintf("%v ID: (from From) status\n", time.Unix(0, now.UnixNano()).Format(RFC3339NanoFixed)), fmt.Sprintf("%v ID: (from From) status\n", time.Unix(0, now.UnixNano()).Format(RFC3339NanoFixed)), }, // General, with both times Nano is preferred { Time: now.Unix(), TimeNano: now.UnixNano(), ID: "ID", From: "From", Status: "status", }: { fmt.Sprintf("%v ID: (from From) status\n", time.Unix(0, now.UnixNano()).Format(RFC3339NanoFixed)), fmt.Sprintf("%v ID: (from From) status\n", time.Unix(0, now.UnixNano()).Format(RFC3339NanoFixed)), }, // Stream over status { Status: "status", Stream: "stream", }: { "stream", "stream", }, // With progress message { Status: "status", ProgressMessage: "progressMessage", }: { "status progressMessage", "status progressMessage", }, // With progress, stream empty { Status: "status", Stream: "", Progress: &JSONProgress{Current: 1}, }: { "", fmt.Sprintf("%c[2K\rstatus 1B\r", 27), }, } // The tests :) for jsonMessage, expectedMessages := range messages { // Without terminal data := bytes.NewBuffer([]byte{}) if err := jsonMessage.Display(data, false); err != nil { t.Fatal(err) } if data.String() != expectedMessages[0] { t.Fatalf("Expected %q,got %q", expectedMessages[0], data.String()) } // With terminal data = bytes.NewBuffer([]byte{}) if err := jsonMessage.Display(data, true); err != nil { t.Fatal(err) } if data.String() != expectedMessages[1] { t.Fatalf("\nExpected %q\n got %q", expectedMessages[1], data.String()) } } } // Test JSONMessage with an Error. It will return an error with the text as error, not the meaning of the HTTP code. func TestJSONMessageDisplayWithJSONError(t *testing.T) { data := bytes.NewBuffer([]byte{}) jsonMessage := JSONMessage{Error: &JSONError{404, "Can't find it"}} err := jsonMessage.Display(data, true) if err == nil || err.Error() != "Can't find it" { t.Fatalf("Expected a JSONError 404, got %q", err) } jsonMessage = JSONMessage{Error: &JSONError{401, "Anything"}} err = jsonMessage.Display(data, true) assert.Check(t, is.Error(err, "authentication is required")) } func TestDisplayJSONMessagesStreamInvalidJSON(t *testing.T) { var ( inFd uintptr ) data := bytes.NewBuffer([]byte{}) reader := strings.NewReader("This is not a 'valid' JSON []") inFd, _ = term.GetFdInfo(reader) exp := "invalid character " if err := DisplayJSONMessagesStream(reader, data, inFd, false, nil); err == nil || !strings.HasPrefix(err.Error(), exp) { t.Fatalf("Expected error (%s...), got %q", exp, err) } } func TestDisplayJSONMessagesStream(t *testing.T) { var ( inFd uintptr ) messages := map[string][]string{ // empty string "": { "", ""}, // Without progress & ID "{ \"status\": \"status\" }": { "status\n", "status\n", }, // Without progress, with ID "{ \"id\": \"ID\",\"status\": \"status\" }": { "ID: status\n", "ID: status\n", }, // With progress "{ \"id\": \"ID\", \"status\": \"status\", \"progress\": \"ProgressMessage\" }": { "ID: status ProgressMessage", fmt.Sprintf("\n%c[%dAID: status ProgressMessage%c[%dB", 27, 1, 27, 1), }, // With progressDetail "{ \"id\": \"ID\", \"status\": \"status\", \"progressDetail\": { \"Current\": 1} }": { "", // progressbar is disabled in non-terminal fmt.Sprintf("\n%c[%dA%c[2K\rID: status 1B\r%c[%dB", 27, 1, 27, 27, 1), }, } // Use $TERM which is unlikely to exist, forcing DisplayJSONMessageStream to // (hopefully) use &noTermInfo. t.Setenv("TERM", "xyzzy-non-existent-terminfo") for jsonMessage, expectedMessages := range messages { data := bytes.NewBuffer([]byte{}) reader := strings.NewReader(jsonMessage) inFd, _ = term.GetFdInfo(reader) // Without terminal if err := DisplayJSONMessagesStream(reader, data, inFd, false, nil); err != nil { t.Fatal(err) } if data.String() != expectedMessages[0] { t.Fatalf("Expected an %q, got %q", expectedMessages[0], data.String()) } // With terminal data = bytes.NewBuffer([]byte{}) reader = strings.NewReader(jsonMessage) if err := DisplayJSONMessagesStream(reader, data, inFd, true, nil); err != nil { t.Fatal(err) } if data.String() != expectedMessages[1] { t.Fatalf("\nExpected %q\n got %q", expectedMessages[1], data.String()) } } }