// Go support for leveled logs, analogous to https://code.google.com/p/google-glog/ // // Copyright 2013 Google Inc. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package glog import ( "bytes" "fmt" stdLog "log" "path/filepath" "runtime" "strconv" "strings" "testing" "time" ) // Test that shortHostname works as advertised. func TestShortHostname(t *testing.T) { for hostname, expect := range map[string]string{ "": "", "host": "host", "host.google.com": "host", } { if got := shortHostname(hostname); expect != got { t.Errorf("shortHostname(%q): expected %q, got %q", hostname, expect, got) } } } // flushBuffer wraps a bytes.Buffer to satisfy flushSyncWriter. type flushBuffer struct { bytes.Buffer } func (f *flushBuffer) Flush() error { return nil } func (f *flushBuffer) Sync() error { return nil } // swap sets the log writers and returns the old array. func (l *loggingT) swap(writers [numSeverity]flushSyncWriter) (old [numSeverity]flushSyncWriter) { l.mu.Lock() defer l.mu.Unlock() old = l.file for i, w := range writers { logging.file[i] = w } return } // newBuffers sets the log writers to all new byte buffers and returns the old array. func (l *loggingT) newBuffers() [numSeverity]flushSyncWriter { return l.swap([numSeverity]flushSyncWriter{new(flushBuffer), new(flushBuffer), new(flushBuffer), new(flushBuffer)}) } // contents returns the specified log value as a string. func contents(s severity) string { return logging.file[s].(*flushBuffer).String() } // contains reports whether the string is contained in the log. func contains(s severity, str string, t *testing.T) bool { return strings.Contains(contents(s), str) } // setFlags configures the logging flags how the test expects them. func setFlags() { logging.toStderr = false } func TestOutputSeverity(t *testing.T) { setFlags() defer logging.swap(logging.newBuffers()) Debug("test") if contains(debugLog, "test", t) { t.Error("OutputSeverity failed") } SetLevelString("DEBUG") Debug("test") if !contains(debugLog, "test", t) { t.Error("OutputSeverity failed") } } // Test that Info works as advertised. func TestInfo(t *testing.T) { setFlags() defer logging.swap(logging.newBuffers()) Info("test") if !contains(infoLog, "I", t) { t.Errorf("Info has wrong character: %q", contents(infoLog)) } if !contains(infoLog, "test", t) { t.Error("Info failed") } } func TestInfoDepth(t *testing.T) { setFlags() defer logging.swap(logging.newBuffers()) f := func() { InfoDepth(1, "depth-test1") } // The next three lines must stay together _, _, wantLine, _ := runtime.Caller(0) InfoDepth(0, "depth-test0") f() msgs := strings.Split(strings.TrimSuffix(contents(infoLog), "\n"), "\n") if len(msgs) != 2 { t.Fatalf("Got %d lines, expected 2", len(msgs)) } for i, m := range msgs { if !strings.HasPrefix(m, "I") { t.Errorf("InfoDepth[%d] has wrong character: %q", i, m) } w := fmt.Sprintf("depth-test%d", i) if !strings.Contains(m, w) { t.Errorf("InfoDepth[%d] missing %q: %q", i, w, m) } // pull out the line number (between : and ]) msg := m[strings.LastIndex(m, ":")+1:] x := strings.Index(msg, "]") if x < 0 { t.Errorf("InfoDepth[%d]: missing ']': %q", i, m) continue } line, err := strconv.Atoi(msg[:x]) if err != nil { t.Errorf("InfoDepth[%d]: bad line number: %q", i, m) continue } wantLine++ if wantLine != line { t.Errorf("InfoDepth[%d]: got line %d, want %d", i, line, wantLine) } } } func init() { CopyStandardLogTo("INFO") } // Test that CopyStandardLogTo panics on bad input. func TestCopyStandardLogToPanic(t *testing.T) { defer func() { if s, ok := recover().(string); !ok || !strings.Contains(s, "LOG") { t.Errorf(`CopyStandardLogTo("LOG") should have panicked: %v`, s) } }() CopyStandardLogTo("LOG") } // Test that using the standard log package logs to INFO. func TestStandardLog(t *testing.T) { setFlags() defer logging.swap(logging.newBuffers()) stdLog.Print("test") if !contains(infoLog, "I", t) { t.Errorf("Info has wrong character: %q", contents(infoLog)) } if !contains(infoLog, "test", t) { t.Error("Info failed") } } // Test that the header has the correct format. func TestHeader(t *testing.T) { setFlags() defer logging.swap(logging.newBuffers()) defer func(previous func() time.Time) { timeNow = previous }(timeNow) timeNow = func() time.Time { return time.Date(2006, 1, 2, 15, 4, 5, .067890e9, time.Local) } pid = 1234 Info("test") var line int format := "I0102 15:04:05.067890 1234 glog_test.go:%d] test\n" n, err := fmt.Sscanf(contents(infoLog), format, &line) if n != 1 || err != nil { t.Errorf("log format error: %d elements, error %s:\n%s", n, err, contents(infoLog)) } // Scanf treats multiple spaces as equivalent to a single space, // so check for correct space-padding also. want := fmt.Sprintf(format, line) if contents(infoLog) != want { t.Errorf("log format error: got:\n\t%q\nwant:\t%q", contents(infoLog), want) } } // Test that an Error log goes to Warning and Info. // Even in the Info log, the source character will be E, so the data should // all be identical. func TestError(t *testing.T) { setFlags() defer logging.swap(logging.newBuffers()) Error("test") if !contains(errorLog, "E", t) { t.Errorf("Error has wrong character: %q", contents(errorLog)) } if !contains(errorLog, "test", t) { t.Error("Error failed") } str := contents(errorLog) if !contains(warningLog, str, t) { t.Error("Warning failed") } if !contains(infoLog, str, t) { t.Error("Info failed") } if !contains(debugLog, str, t) { t.Error("Debug failed") } } // Test that a Warning log goes to Info. // Even in the Info log, the source character will be W, so the data should // all be identical. func TestWarning(t *testing.T) { setFlags() defer logging.swap(logging.newBuffers()) Warning("test") if !contains(warningLog, "W", t) { t.Errorf("Warning has wrong character: %q", contents(warningLog)) } if !contains(warningLog, "test", t) { t.Error("Warning failed") } str := contents(warningLog) if !contains(infoLog, str, t) { t.Error("Info failed") } } // Test that a V log goes to Info. func TestV(t *testing.T) { setFlags() defer logging.swap(logging.newBuffers()) logging.verbosity.Set("2") defer logging.verbosity.Set("0") V(2).Info("test") if !contains(infoLog, "I", t) { t.Errorf("Info has wrong character: %q", contents(infoLog)) } if !contains(infoLog, "test", t) { t.Error("Info failed") } } // Test that a vmodule enables a log in this file. func TestVmoduleOn(t *testing.T) { setFlags() defer logging.swap(logging.newBuffers()) logging.vmodule.Set("glog_test=2") defer logging.vmodule.Set("") if !V(1) { t.Error("V not enabled for 1") } if !V(2) { t.Error("V not enabled for 2") } if V(3) { t.Error("V enabled for 3") } V(2).Info("test") if !contains(infoLog, "I", t) { t.Errorf("Info has wrong character: %q", contents(infoLog)) } if !contains(infoLog, "test", t) { t.Error("Info failed") } } // Test that a vmodule of another file does not enable a log in this file. func TestVmoduleOff(t *testing.T) { setFlags() defer logging.swap(logging.newBuffers()) logging.vmodule.Set("notthisfile=2") defer logging.vmodule.Set("") for i := 1; i <= 3; i++ { if V(Level(i)) { t.Errorf("V enabled for %d", i) } } V(2).Info("test") if contents(infoLog) != "" { t.Error("V logged incorrectly") } } // vGlobs are patterns that match/don't match this file at V=2. var vGlobs = map[string]bool{ // Easy to test the numeric match here. "glog_test=1": false, // If -vmodule sets V to 1, V(2) will fail. "glog_test=2": true, "glog_test=3": true, // If -vmodule sets V to 1, V(3) will succeed. // These all use 2 and check the patterns. All are true. "*=2": true, "?l*=2": true, "????_*=2": true, "??[mno]?_*t=2": true, // These all use 2 and check the patterns. All are false. "*x=2": false, "m*=2": false, "??_*=2": false, "?[abc]?_*t=2": false, } // Test that vmodule globbing works as advertised. func testVmoduleGlob(pat string, match bool, t *testing.T) { setFlags() defer logging.swap(logging.newBuffers()) defer logging.vmodule.Set("") logging.vmodule.Set(pat) if V(2) != Verbose(match) { t.Errorf("incorrect match for %q: got %t expected %t", pat, V(2), match) } } // Test that a vmodule globbing works as advertised. func TestVmoduleGlob(t *testing.T) { for glob, match := range vGlobs { testVmoduleGlob(glob, match, t) } } func TestRollover(t *testing.T) { setFlags() var err error defer func(previous func(error)) { logExitFunc = previous }(logExitFunc) logExitFunc = func(e error) { err = e } defer func(previous uint64) { MaxSize = previous }(MaxSize) MaxSize = 512 Info("x") // Be sure we have a file. info, ok := logging.file[infoLog].(*syncBuffer) if !ok { t.Fatal("info wasn't created") } if err != nil { t.Fatalf("info has initial error: %v", err) } fname0 := info.file.Name() Info(strings.Repeat("x", int(MaxSize))) // force a rollover if err != nil { t.Fatalf("info has error after big write: %v", err) } // Make sure the next log file gets a file name with a different // time stamp. // // TODO: determine whether we need to support subsecond log // rotation. C++ does not appear to handle this case (nor does it // handle Daylight Savings Time properly). time.Sleep(1 * time.Second) Info("x") // create a new file if err != nil { t.Fatalf("error after rotation: %v", err) } fname1 := info.file.Name() if fname0 == fname1 { t.Errorf("info.f.Name did not change: %v", fname0) } if info.nbytes >= MaxSize { t.Errorf("file size was not reset: %d", info.nbytes) } } func TestLogBacktraceAt(t *testing.T) { setFlags() defer logging.swap(logging.newBuffers()) // The peculiar style of this code simplifies line counting and maintenance of the // tracing block below. var infoLine string setTraceLocation := func(file string, line int, ok bool, delta int) { if !ok { t.Fatal("could not get file:line") } _, file = filepath.Split(file) infoLine = fmt.Sprintf("%s:%d", file, line+delta) err := logging.traceLocation.Set(infoLine) if err != nil { t.Fatal("error setting log_backtrace_at: ", err) } } { // Start of tracing block. These lines know about each other's relative position. _, file, line, ok := runtime.Caller(0) setTraceLocation(file, line, ok, +2) // Two lines between Caller and Info calls. Info("we want a stack trace here") } numAppearances := strings.Count(contents(infoLog), infoLine) if numAppearances < 2 { // Need 2 appearances, one in the log header and one in the trace: // log_test.go:281: I0511 16:36:06.952398 02238 log_test.go:280] we want a stack trace here // ... // github.com/glog/glog_test.go:280 (0x41ba91) // ... // We could be more precise but that would require knowing the details // of the traceback format, which may not be dependable. t.Fatal("got no trace back; log is ", contents(infoLog)) } } func BenchmarkHeader(b *testing.B) { for i := 0; i < b.N; i++ { buf, _, _ := logging.header(infoLog, 0) logging.putBuffer(buf) } }