// Copyright 2017 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package test2json import ( "bytes" "encoding/json" "flag" "fmt" "io" "io/ioutil" "path/filepath" "reflect" "strings" "testing" "unicode/utf8" ) var update = flag.Bool("update", false, "rewrite testdata/*.json files") func TestGolden(t *testing.T) { files, err := filepath.Glob("testdata/*.test") if err != nil { t.Fatal(err) } for _, file := range files { name := strings.TrimSuffix(filepath.Base(file), ".test") t.Run(name, func(t *testing.T) { orig, err := ioutil.ReadFile(file) if err != nil { t.Fatal(err) } // Test one line written to c at a time. // Assume that's the most likely to be handled correctly. var buf bytes.Buffer c := NewConverter(&buf, "", 0) in := append([]byte{}, orig...) for _, line := range bytes.SplitAfter(in, []byte("\n")) { writeAndKill(c, line) } c.Close() if *update { js := strings.TrimSuffix(file, ".test") + ".json" t.Logf("rewriting %s", js) if err := ioutil.WriteFile(js, buf.Bytes(), 0666); err != nil { t.Fatal(err) } return } want, err := ioutil.ReadFile(strings.TrimSuffix(file, ".test") + ".json") if err != nil { t.Fatal(err) } diffJSON(t, buf.Bytes(), want) if t.Failed() { // If the line-at-a-time conversion fails, no point testing boundary conditions. return } // Write entire input in bulk. t.Run("bulk", func(t *testing.T) { buf.Reset() c = NewConverter(&buf, "", 0) in = append([]byte{}, orig...) writeAndKill(c, in) c.Close() diffJSON(t, buf.Bytes(), want) }) // Write 2 bytes at a time on even boundaries. t.Run("even2", func(t *testing.T) { buf.Reset() c = NewConverter(&buf, "", 0) in = append([]byte{}, orig...) for i := 0; i < len(in); i += 2 { if i+2 <= len(in) { writeAndKill(c, in[i:i+2]) } else { writeAndKill(c, in[i:]) } } c.Close() diffJSON(t, buf.Bytes(), want) }) // Write 2 bytes at a time on odd boundaries. t.Run("odd2", func(t *testing.T) { buf.Reset() c = NewConverter(&buf, "", 0) in = append([]byte{}, orig...) if len(in) > 0 { writeAndKill(c, in[:1]) } for i := 1; i < len(in); i += 2 { if i+2 <= len(in) { writeAndKill(c, in[i:i+2]) } else { writeAndKill(c, in[i:]) } } c.Close() diffJSON(t, buf.Bytes(), want) }) // Test with very small output buffers, to check that // UTF8 sequences are not broken up. for b := 5; b <= 8; b++ { t.Run(fmt.Sprintf("tiny%d", b), func(t *testing.T) { oldIn := inBuffer oldOut := outBuffer defer func() { inBuffer = oldIn outBuffer = oldOut }() inBuffer = 64 outBuffer = b buf.Reset() c = NewConverter(&buf, "", 0) in = append([]byte{}, orig...) writeAndKill(c, in) c.Close() diffJSON(t, buf.Bytes(), want) }) } }) } } // writeAndKill writes b to w and then fills b with Zs. // The filling makes sure that if w is holding onto b for // future use, that future use will have obviously wrong data. func writeAndKill(w io.Writer, b []byte) { w.Write(b) for i := range b { b[i] = 'Z' } } // diffJSON diffs the stream we have against the stream we want // and fails the test with a useful message if they don't match. func diffJSON(t *testing.T, have, want []byte) { t.Helper() type event map[string]any // Parse into events, one per line. parseEvents := func(b []byte) ([]event, []string) { t.Helper() var events []event var lines []string for _, line := range bytes.SplitAfter(b, []byte("\n")) { if len(line) > 0 { line = bytes.TrimSpace(line) var e event err := json.Unmarshal(line, &e) if err != nil { t.Errorf("unmarshal %s: %v", b, err) continue } events = append(events, e) lines = append(lines, string(line)) } } return events, lines } haveEvents, haveLines := parseEvents(have) wantEvents, wantLines := parseEvents(want) if t.Failed() { return } // Make sure the events we have match the events we want. // At each step we're matching haveEvents[i] against wantEvents[j]. // i and j can move independently due to choices about exactly // how to break up text in "output" events. i := 0 j := 0 // Fail reports a failure at the current i,j and stops the test. // It shows the events around the current positions, // with the current positions marked. fail := func() { var buf bytes.Buffer show := func(i int, lines []string) { for k := -2; k < 5; k++ { marker := "" if k == 0 { marker = "» " } if 0 <= i+k && i+k < len(lines) { fmt.Fprintf(&buf, "\t%s%s\n", marker, lines[i+k]) } } if i >= len(lines) { // show marker after end of input fmt.Fprintf(&buf, "\t» \n") } } fmt.Fprintf(&buf, "have:\n") show(i, haveLines) fmt.Fprintf(&buf, "want:\n") show(j, wantLines) t.Fatal(buf.String()) } var outputTest string // current "Test" key in "output" events var wantOutput, haveOutput string // collected "Output" of those events // getTest returns the "Test" setting, or "" if it is missing. getTest := func(e event) string { s, _ := e["Test"].(string) return s } // checkOutput collects output from the haveEvents for the current outputTest // and then checks that the collected output matches the wanted output. checkOutput := func() { for i < len(haveEvents) && haveEvents[i]["Action"] == "output" && getTest(haveEvents[i]) == outputTest { haveOutput += haveEvents[i]["Output"].(string) i++ } if haveOutput != wantOutput { t.Errorf("output mismatch for Test=%q:\nhave %q\nwant %q", outputTest, haveOutput, wantOutput) fail() } haveOutput = "" wantOutput = "" } // Walk through wantEvents matching against haveEvents. for j = range wantEvents { e := wantEvents[j] if e["Action"] == "output" && getTest(e) == outputTest { wantOutput += e["Output"].(string) continue } checkOutput() if e["Action"] == "output" { outputTest = getTest(e) wantOutput += e["Output"].(string) continue } if i >= len(haveEvents) { t.Errorf("early end of event stream: missing event") fail() } if !reflect.DeepEqual(haveEvents[i], e) { t.Errorf("events out of sync") fail() } i++ } checkOutput() if i < len(haveEvents) { t.Errorf("extra events in stream") fail() } } func TestTrimUTF8(t *testing.T) { s := "hello α ☺ 😂 world" // α is 2-byte, ☺ is 3-byte, 😂 is 4-byte b := []byte(s) for i := 0; i < len(s); i++ { j := trimUTF8(b[:i]) u := string([]rune(s[:j])) + string([]rune(s[j:])) if u != s { t.Errorf("trimUTF8(%q) = %d (-%d), not at boundary (split: %q %q)", s[:i], j, i-j, s[:j], s[j:]) } if utf8.FullRune(b[j:i]) { t.Errorf("trimUTF8(%q) = %d (-%d), too early (missed: %q)", s[:j], j, i-j, s[j:i]) } } }