func (self *LogOutput) Run(or OutputRunner, h PluginHelper) (err error) {
inChan := or.InChan()
var (
pack *PipelinePack
msg *message.Message
)
for plc := range inChan {
pack = plc.Pack
msg = pack.Message
if self.payloadOnly {
log.Printf(msg.GetPayload())
} else {
log.Printf("<\n\tTimestamp: %s\n"+
"\tType: %s\n"+
"\tHostname: %s\n"+
"\tPid: %d\n"+
"\tUUID: %s\n"+
"\tLogger: %s\n"+
"\tPayload: %s\n"+
"\tEnvVersion: %s\n"+
"\tSeverity: %d\n"+
"\tFields: %+v\n"+
"\tCaptures: %v\n>\n",
time.Unix(0, msg.GetTimestamp()), msg.GetType(),
msg.GetHostname(), msg.GetPid(), msg.GetUuidString(),
msg.GetLogger(), msg.GetPayload(), msg.GetEnvVersion(),
msg.GetSeverity(), msg.Fields, plc.Captures)
}
pack.Recycle()
}
return
}
func (c *CleanMessageFormatter) Format(m *message.Message) (doc []byte, err error) {
buf := bytes.Buffer{}
buf.WriteString(`{`)
// Iterates over fields configured for clean formating
for _, f := range c.fields {
switch strings.ToLower(f) {
case "uuid":
writeField(&buf, f, strconv.Quote(m.GetUuidString()))
case "timestamp":
t := time.Unix(0, m.GetTimestamp()).UTC()
writeField(&buf, f, strconv.Quote(t.Format(c.timestampFormat)))
case "type":
writeField(&buf, f, strconv.Quote(m.GetType()))
case "logger":
writeField(&buf, f, strconv.Quote(m.GetLogger()))
case "severity":
writeField(&buf, f, strconv.Itoa(int(m.GetSeverity())))
case "payload":
if utf8.ValidString(m.GetPayload()) {
writeField(&buf, f, strconv.Quote(m.GetPayload()))
}
case "envversion":
writeField(&buf, f, strconv.Quote(m.GetEnvVersion()))
case "pid":
writeField(&buf, f, strconv.Itoa(int(m.GetPid())))
case "hostname":
writeField(&buf, f, strconv.Quote(m.GetHostname()))
case "fields":
for _, field := range m.Fields {
switch field.GetValueType() {
case message.Field_STRING:
writeField(&buf, *field.Name, strconv.Quote(field.GetValue().(string)))
case message.Field_BYTES:
data := field.GetValue().([]byte)[:]
writeField(&buf, *field.Name, strconv.Quote(base64.StdEncoding.EncodeToString(data)))
case message.Field_INTEGER:
writeField(&buf, *field.Name, strconv.FormatInt(field.GetValue().(int64), 10))
case message.Field_DOUBLE:
writeField(&buf, *field.Name, strconv.FormatFloat(field.GetValue().(float64),
'g', -1, 64))
case message.Field_BOOL:
writeField(&buf, *field.Name, strconv.FormatBool(field.GetValue().(bool)))
}
}
default:
// Search fo a given fields in the message
err = fmt.Errorf("Unable to find field: %s", f)
return
}
}
buf.WriteString(`}`)
doc = buf.Bytes()
return
}
func (self *DashboardOutput) Run(or OutputRunner, h PluginHelper) (err error) {
inChan := or.InChan()
ticker := or.Ticker()
var (
ok = true
plc *PipelineCapture
pack *PipelinePack
msg *message.Message
)
for ok {
select {
case plc, ok = <-inChan:
if !ok {
break
}
pack = plc.Pack
msg = pack.Message
switch msg.GetType() {
case "heka.all-report":
fn := path.Join(self.workingDirectory, "heka_report.json")
overwriteFile(fn, msg.GetPayload())
case "heka.sandbox-output":
tmp, ok := msg.GetFieldValue("payload_type")
if ok {
if pt, ok := tmp.(string); ok && pt == "cbuf" {
html := path.Join(self.workingDirectory, msg.GetLogger()+".html")
_, err := os.Stat(html)
if err != nil {
overwriteFile(html, fmt.Sprintf(getCbufTemplate(), msg.GetLogger(), msg.GetLogger()))
}
fn := path.Join(self.workingDirectory, msg.GetLogger()+"."+pt)
overwriteFile(fn, msg.GetPayload())
}
}
case "heka.sandbox-terminated":
fn := path.Join(self.workingDirectory, self.terminationFile)
if file, err := os.OpenFile(fn, os.O_WRONLY|os.O_APPEND|os.O_CREATE, 0644); err == nil {
line := fmt.Sprintf("%d\t%s\t%v\n", msg.GetTimestamp()/1e9, msg.GetLogger(), msg.GetPayload())
file.WriteString(line)
file.Close()
}
}
plc.Pack.Recycle()
case <-ticker:
go h.PipelineConfig().allReportsMsg()
}
}
return
}
func (n *NagiosOutput) Run(or OutputRunner, h PluginHelper) (err error) {
inChan := or.InChan()
var (
pack *PipelinePack
msg *message.Message
payload string
)
for pack = range inChan {
msg = pack.Message
payload = msg.GetPayload()
pos := strings.IndexAny(payload, ":")
state := "3" // UNKNOWN
if pos != -1 {
switch payload[:pos] {
case "OK":
state = "0"
case "WARNING":
state = "1"
case "CRITICAL":
state = "2"
}
}
data := url.Values{
"cmd_typ": {"30"}, // PROCESS_SERVICE_CHECK_RESULT
"cmd_mod": {"2"}, // CMDMODE_COMMIT
"host": {msg.GetHostname()},
"service": {msg.GetLogger()},
"plugin_state": {state},
"plugin_output": {payload[pos+1:]},
"performance_data": {""}}
req, err := http.NewRequest("POST", n.conf.Url,
strings.NewReader(data.Encode()))
if err == nil {
req.SetBasicAuth(n.conf.Username, n.conf.Password)
if resp, err := n.client.Do(req); err == nil {
resp.Body.Close()
} else {
or.LogError(err)
}
} else {
or.LogError(err)
}
pack.Recycle()
}
return
}
// Replaces a date pattern (ex: %{2012.09.19} in the index name
func interpolateFlag(e *ElasticSearchCoordinates, m *message.Message, name string) (
interpolatedValue string, err error) {
iSlice := strings.Split(name, "%{")
for i, element := range iSlice {
elEnd := strings.Index(element, "}")
if elEnd > -1 {
elVal := element[:elEnd]
switch elVal {
case "Type":
iSlice[i] = strings.Replace(iSlice[i], element[:elEnd+1], m.GetType(), -1)
case "Hostname":
iSlice[i] = strings.Replace(iSlice[i], element[:elEnd+1], m.GetHostname(), -1)
case "Pid":
iSlice[i] = strings.Replace(iSlice[i], element[:elEnd+1],
strconv.Itoa(int(m.GetPid())), -1)
case "UUID":
iSlice[i] = strings.Replace(iSlice[i], element[:elEnd+1], m.GetUuidString(), -1)
case "Logger":
iSlice[i] = strings.Replace(iSlice[i], element[:elEnd+1], m.GetLogger(), -1)
case "EnvVersion":
iSlice[i] = strings.Replace(iSlice[i], element[:elEnd+1], m.GetEnvVersion(), -1)
case "Severity":
iSlice[i] = strings.Replace(iSlice[i], element[:elEnd+1],
strconv.Itoa(int(m.GetSeverity())), -1)
default:
if fname, ok := m.GetFieldValue(elVal); ok {
iSlice[i] = strings.Replace(iSlice[i], element[:elEnd+1], fname.(string), -1)
} else {
var t time.Time
if e.ESIndexFromTimestamp && m.Timestamp != nil {
t = time.Unix(0, *m.Timestamp).UTC()
} else {
t = time.Now().UTC()
}
iSlice[i] = strings.Replace(iSlice[i], element[:elEnd+1], t.Format(elVal), -1)
}
}
if iSlice[i] == elVal {
err = fmt.Errorf("Could not interpolate field from config: %s", name)
}
}
}
interpolatedValue = strings.Join(iSlice, "")
return
}
func (n *NagiosOutput) Run(or OutputRunner, h PluginHelper) (err error) {
inChan := or.InChan()
var (
pack *PipelinePack
msg *message.Message
payload string
)
for pack = range inChan {
msg = pack.Message
payload = msg.GetPayload()
pos := strings.IndexAny(payload, ":")
state := "3" // UNKNOWN
if pos != -1 {
switch payload[:pos] {
case "OK":
state = "0"
case "WARNING":
state = "1"
case "CRITICAL":
state = "2"
}
}
host := n.conf.NagiosHost
if host == "" {
host = msg.GetHostname()
}
service_description := n.conf.NagiosServiceDescription
if service_description == "" {
service_description = msg.GetLogger()
}
payload = payload[pos+1:]
err = n.submitter(host, service_description, state, payload)
if err != nil {
err = NewRetryMessageError(err.Error())
pack.Recycle(err)
continue
}
or.UpdateCursor(pack.QueueCursor)
pack.Recycle(nil)
}
return
}
func getMessageVariable(msg *message.Message, mvar *messageVariable) string {
if mvar.header {
switch mvar.name {
case "Type":
return msg.GetType()
case "Logger":
return msg.GetLogger()
case "Hostname":
return msg.GetHostname()
case "Payload":
return msg.GetPayload()
default:
return ""
}
} else {
return getFieldAsString(msg, mvar)
}
}
func (c *KibanaFormatter) Format(m *message.Message) (doc []byte, err error) {
buf := bytes.Buffer{}
buf.WriteString(`{`)
writeStringField(true, &buf, `@uuid`, m.GetUuidString())
t := time.Unix(0, m.GetTimestamp()) // time.Unix gives local time back
writeStringField(false, &buf, `@timestamp`, t.UTC().Format("2006-01-02T15:04:05.000Z"))
writeStringField(false, &buf, `@type`, m.GetType())
writeStringField(false, &buf, `@logger`, m.GetLogger())
writeRawField(false, &buf, `@severity`, strconv.Itoa(int(m.GetSeverity())))
writeStringField(false, &buf, `@message`, m.GetPayload())
writeRawField(false, &buf, `@envversion`, strconv.Quote(m.GetEnvVersion()))
writeRawField(false, &buf, `@pid`, strconv.Itoa(int(m.GetPid())))
writeStringField(false, &buf, `@source_host`, m.GetHostname())
buf.WriteString(`,"@fields":{`)
first := true
for _, field := range m.Fields {
switch field.GetValueType() {
case message.Field_STRING:
writeStringField(first, &buf, *field.Name, field.GetValue().(string))
first = false
case message.Field_BYTES:
data := field.GetValue().([]byte)[:]
writeStringField(first, &buf, *field.Name, base64.StdEncoding.EncodeToString(data))
first = false
case message.Field_INTEGER:
writeRawField(first, &buf, *field.Name, strconv.FormatInt(field.GetValue().(int64), 10))
first = false
case message.Field_DOUBLE:
writeRawField(first, &buf, *field.Name, strconv.FormatFloat(field.GetValue().(float64),
'g', -1, 64))
first = false
case message.Field_BOOL:
writeRawField(first, &buf, *field.Name, strconv.FormatBool(field.GetValue().(bool)))
first = false
}
}
buf.WriteString(`}`) // end of fields
buf.WriteString(`}`)
doc = buf.Bytes()
return
}
func (self *DashboardOutput) Run(or OutputRunner, h PluginHelper) (err error) {
inChan := or.InChan()
ticker := or.Ticker()
go self.starterFunc(self)
var (
ok = true
pack *PipelinePack
msg *message.Message
)
// Maps sandbox names to plugin list items used to generate the
// sandboxes.json file.
sandboxes := make(map[string]*DashPluginListItem)
sbxsLock := new(sync.Mutex)
reNotWord, _ := regexp.Compile("\\W")
for ok {
select {
case pack, ok = <-inChan:
if !ok {
break
}
msg = pack.Message
switch msg.GetType() {
case "heka.all-report":
fn := filepath.Join(self.dataDirectory, "heka_report.json")
overwriteFile(fn, msg.GetPayload())
sbxsLock.Lock()
if err := overwritePluginListFile(self.dataDirectory, sandboxes); err != nil {
or.LogError(fmt.Errorf("Can't write plugin list file to '%s': %s",
self.dataDirectory, err))
}
sbxsLock.Unlock()
case "heka.sandbox-output":
tmp, _ := msg.GetFieldValue("payload_type")
if payloadType, ok := tmp.(string); ok {
var payloadName, nameExt string
tmp, _ := msg.GetFieldValue("payload_name")
if payloadName, ok = tmp.(string); ok {
nameExt = reNotWord.ReplaceAllString(payloadName, "")
}
if len(nameExt) > 64 {
nameExt = nameExt[:64]
}
nameExt = "." + nameExt
payloadType = reNotWord.ReplaceAllString(payloadType, "")
filterName := msg.GetLogger()
fn := filterName + nameExt + "." + payloadType
ofn := filepath.Join(self.dataDirectory, fn)
relPath := path.Join(self.relDataPath, fn) // Used for generating HTTP URLs.
overwriteFile(ofn, msg.GetPayload())
sbxsLock.Lock()
if listItem, ok := sandboxes[filterName]; !ok {
// First time we've seen this sandbox, add it to the set.
output := &DashPluginOutput{
Name: payloadName,
Filename: relPath,
}
sandboxes[filterName] = &DashPluginListItem{
Name: filterName,
Outputs: []*DashPluginOutput{output},
}
} else {
// We've seen the sandbox, see if we already have this output.
found := false
for _, output := range listItem.Outputs {
if output.Name == payloadName {
found = true
break
}
}
if !found {
output := &DashPluginOutput{
Name: payloadName,
Filename: relPath,
}
listItem.Outputs = append(listItem.Outputs, output)
}
}
sbxsLock.Unlock()
}
case "heka.sandbox-terminated":
fn := filepath.Join(self.dataDirectory, "heka_sandbox_termination.tsv")
filterName := msg.GetLogger()
if file, err := os.OpenFile(fn, os.O_WRONLY|os.O_APPEND|os.O_CREATE, 0644); err == nil {
var line string
if _, ok := msg.GetFieldValue("ProcessMessageCount"); !ok {
line = fmt.Sprintf("%d\t%s\t%v\n", msg.GetTimestamp()/1e9,
msg.GetLogger(), msg.GetPayload())
} else {
pmc, _ := msg.GetFieldValue("ProcessMessageCount")
pms, _ := msg.GetFieldValue("ProcessMessageSamples")
pmd, _ := msg.GetFieldValue("ProcessMessageAvgDuration")
mad, _ := msg.GetFieldValue("MatchAvgDuration")
fcl, _ := msg.GetFieldValue("FilterChanLength")
mcl, _ := msg.GetFieldValue("MatchChanLength")
rcl, _ := msg.GetFieldValue("RouterChanLength")
line = fmt.Sprintf("%d\t%s\t%v"+
" ProcessMessageCount:%v"+
" ProcessMessageSamples:%v"+
" ProcessMessageAvgDuration:%v"+
" MatchAvgDuration:%v"+
" FilterChanLength:%v"+
" MatchChanLength:%v"+
" RouterChanLength:%v\n",
msg.GetTimestamp()/1e9,
filterName, msg.GetPayload(), pmc, pms, pmd,
mad, fcl, mcl, rcl)
}
file.WriteString(line)
file.Close()
}
sbxsLock.Lock()
delete(sandboxes, filterName)
sbxsLock.Unlock()
}
pack.Recycle()
case <-ticker:
go h.PipelineConfig().AllReportsMsg()
}
}
return
}
func (s *SandboxDecoder) SetDecoderRunner(dr pipeline.DecoderRunner) {
if s.sb != nil {
return // no-op already initialized
}
s.dRunner = dr
var original *message.Message
switch s.sbc.ScriptType {
case "lua":
s.sb, s.err = lua.CreateLuaSandbox(s.sbc)
default:
s.err = fmt.Errorf("unsupported script type: %s", s.sbc.ScriptType)
}
if s.err == nil {
s.preservationFile = filepath.Join(s.pConfig.Globals.PrependBaseDir(DATA_DIR),
dr.Name()+DATA_EXT)
if s.sbc.PreserveData && fileExists(s.preservationFile) {
s.err = s.sb.Init(s.preservationFile, "decoder")
} else {
s.err = s.sb.Init("", "decoder")
}
}
if s.err != nil {
dr.LogError(s.err)
if s.sb != nil {
s.sb.Destroy("")
s.sb = nil
}
s.pConfig.Globals.ShutDown()
return
}
s.sb.InjectMessage(func(payload, payload_type, payload_name string) int {
if s.pack == nil {
s.pack = dr.NewPack()
if original == nil && len(s.packs) > 0 {
original = s.packs[0].Message // payload injections have the original header data in the first pack
}
} else {
original = nil // processing a new message, clear the old message
}
if len(payload_type) == 0 { // heka protobuf message
if original == nil {
original = new(message.Message)
copyMessageHeaders(original, s.pack.Message) // save off the header values since unmarshal will wipe them out
}
if nil != proto.Unmarshal([]byte(payload), s.pack.Message) {
return 1
}
if s.tz != time.UTC {
const layout = "2006-01-02T15:04:05.999999999" // remove the incorrect UTC tz info
t := time.Unix(0, s.pack.Message.GetTimestamp())
t = t.In(time.UTC)
ct, _ := time.ParseInLocation(layout, t.Format(layout), s.tz)
s.pack.Message.SetTimestamp(ct.UnixNano())
}
} else {
s.pack.Message.SetPayload(payload)
ptype, _ := message.NewField("payload_type", payload_type, "file-extension")
s.pack.Message.AddField(ptype)
pname, _ := message.NewField("payload_name", payload_name, "")
s.pack.Message.AddField(pname)
}
if original != nil {
// if future injections fail to set the standard headers, use the values
// from the original message.
if s.pack.Message.Uuid == nil {
s.pack.Message.SetUuid(original.GetUuid())
}
if s.pack.Message.Timestamp == nil {
s.pack.Message.SetTimestamp(original.GetTimestamp())
}
if s.pack.Message.Type == nil {
s.pack.Message.SetType(original.GetType())
}
if s.pack.Message.Hostname == nil {
s.pack.Message.SetHostname(original.GetHostname())
}
if s.pack.Message.Logger == nil {
s.pack.Message.SetLogger(original.GetLogger())
}
if s.pack.Message.Severity == nil {
s.pack.Message.SetSeverity(original.GetSeverity())
}
if s.pack.Message.Pid == nil {
s.pack.Message.SetPid(original.GetPid())
}
}
s.packs = append(s.packs, s.pack)
s.pack = nil
return 0
})
}
func main() {
flagMatch := flag.String("match", "TRUE", "message_matcher filter expression")
flagFormat := flag.String("format", "txt", "output format [txt|json|heka|count]")
flagOutput := flag.String("output", "", "output filename, defaults to stdout")
flagTail := flag.Bool("tail", false, "don't exit on EOF")
flagOffset := flag.Int64("offset", 0, "starting offset for the input file in bytes")
flagMaxMessageSize := flag.Uint64("max-message-size", 4*1024*1024, "maximum message size in bytes")
flag.Parse()
if flag.NArg() != 1 {
flag.PrintDefaults()
os.Exit(1)
}
if *flagMaxMessageSize < math.MaxUint32 {
maxSize := uint32(*flagMaxMessageSize)
message.SetMaxMessageSize(maxSize)
} else {
fmt.Printf("Message size is too large: %d\n", flagMaxMessageSize)
os.Exit(8)
}
var err error
var match *message.MatcherSpecification
if match, err = message.CreateMatcherSpecification(*flagMatch); err != nil {
fmt.Printf("Match specification - %s\n", err)
os.Exit(2)
}
var file *os.File
if file, err = os.Open(flag.Arg(0)); err != nil {
fmt.Printf("%s\n", err)
os.Exit(3)
}
defer file.Close()
var out *os.File
if "" == *flagOutput {
out = os.Stdout
} else {
if out, err = os.OpenFile(*flagOutput, os.O_WRONLY|os.O_CREATE|os.O_TRUNC, 0644); err != nil {
fmt.Printf("%s\n", err)
os.Exit(4)
}
defer out.Close()
}
var offset int64
if offset, err = file.Seek(*flagOffset, 0); err != nil {
fmt.Printf("%s\n", err)
os.Exit(5)
}
sRunner, err := makeSplitterRunner()
if err != nil {
fmt.Println(err)
os.Exit(7)
}
msg := new(message.Message)
var processed, matched int64
fmt.Printf("Input:%s Offset:%d Match:%s Format:%s Tail:%t Output:%s\n",
flag.Arg(0), *flagOffset, *flagMatch, *flagFormat, *flagTail, *flagOutput)
for true {
n, record, err := sRunner.GetRecordFromStream(file)
if n > 0 && n != len(record) {
fmt.Printf("Corruption detected at offset: %d bytes: %d\n", offset, n-len(record))
}
if err != nil {
if err == io.EOF {
if !*flagTail || "count" == *flagFormat {
break
}
time.Sleep(time.Duration(500) * time.Millisecond)
} else {
break
}
} else {
if len(record) > 0 {
processed += 1
headerLen := int(record[1]) + message.HEADER_FRAMING_SIZE
if err = proto.Unmarshal(record[headerLen:], msg); err != nil {
fmt.Printf("Error unmarshalling message at offset: %d error: %s\n", offset, err)
continue
}
if !match.Match(msg) {
continue
}
matched += 1
switch *flagFormat {
case "count":
// no op
case "json":
contents, _ := json.Marshal(msg)
fmt.Fprintf(out, "%s\n", contents)
case "heka":
fmt.Fprintf(out, "%s", record)
default:
fmt.Fprintf(out, "Timestamp: %s\n"+
"Type: %s\n"+
"Hostname: %s\n"+
"Pid: %d\n"+
"UUID: %s\n"+
"Logger: %s\n"+
"Payload: %s\n"+
"EnvVersion: %s\n"+
"Severity: %d\n"+
"Fields: %+v\n\n",
time.Unix(0, msg.GetTimestamp()), msg.GetType(),
msg.GetHostname(), msg.GetPid(), msg.GetUuidString(),
msg.GetLogger(), msg.GetPayload(), msg.GetEnvVersion(),
msg.GetSeverity(), msg.Fields)
}
}
}
offset += int64(n)
}
fmt.Printf("Processed: %d, matched: %d messages\n", processed, matched)
if err != nil {
fmt.Printf("%s\n", err)
os.Exit(6)
}
}
func (self *DashboardOutput) Run(or OutputRunner, h PluginHelper) (err error) {
inChan := or.InChan()
ticker := or.Ticker()
var (
ok = true
pack *PipelinePack
msg *message.Message
)
reNotWord, _ := regexp.Compile("\\W")
for ok {
select {
case pack, ok = <-inChan:
if !ok {
break
}
msg = pack.Message
switch msg.GetType() {
case "heka.all-report":
fn := path.Join(self.workingDirectory, "heka_report.json")
createPluginPages(self.workingDirectory, msg.GetPayload())
overwriteFile(fn, msg.GetPayload())
case "heka.sandbox-output":
tmp, _ := msg.GetFieldValue("payload_type")
if payloadType, ok := tmp.(string); ok {
var payloadName, nameExt string
tmp, _ := msg.GetFieldValue("payload_name")
if payloadName, ok = tmp.(string); ok {
nameExt = reNotWord.ReplaceAllString(payloadName, "")
}
if len(nameExt) > 64 {
nameExt = nameExt[:64]
}
nameExt = "." + nameExt
payloadType = reNotWord.ReplaceAllString(payloadType, "")
fn := msg.GetLogger() + nameExt + "." + payloadType
ofn := path.Join(self.workingDirectory, fn)
if payloadType == "cbuf" {
html := msg.GetLogger() + nameExt + ".html"
ohtml := path.Join(self.workingDirectory, html)
_, err := os.Stat(ohtml)
if err != nil {
overwriteFile(ohtml, fmt.Sprintf(getCbufTemplate(),
msg.GetLogger(),
payloadName,
fn))
}
overwriteFile(ofn, msg.GetPayload())
updatePluginMetadata(self.workingDirectory, msg.GetLogger(), html, payloadName)
} else {
overwriteFile(ofn, msg.GetPayload())
updatePluginMetadata(self.workingDirectory, msg.GetLogger(), fn, payloadName)
}
}
case "heka.sandbox-terminated":
fn := path.Join(self.workingDirectory, "heka_sandbox_termination.tsv")
if file, err := os.OpenFile(fn, os.O_WRONLY|os.O_APPEND|os.O_CREATE, 0644); err == nil {
var line string
if _, ok := msg.GetFieldValue("ProcessMessageCount"); !ok {
line = fmt.Sprintf("%d\t%s\t%v\n", msg.GetTimestamp()/1e9, msg.GetLogger(), msg.GetPayload())
} else {
pmc, _ := msg.GetFieldValue("ProcessMessageCount")
pms, _ := msg.GetFieldValue("ProcessMessageSamples")
pmd, _ := msg.GetFieldValue("ProcessMessageAvgDuration")
ms, _ := msg.GetFieldValue("MatchSamples")
mad, _ := msg.GetFieldValue("MatchAvgDuration")
fcl, _ := msg.GetFieldValue("FilterChanLength")
mcl, _ := msg.GetFieldValue("MatchChanLength")
rcl, _ := msg.GetFieldValue("RouterChanLength")
line = fmt.Sprintf("%d\t%s\t%v"+
" ProcessMessageCount:%v"+
" ProcessMessageSamples:%v"+
" ProcessMessageAvgDuration:%v"+
" MatchSamples:%v"+
" MatchAvgDuration:%v"+
" FilterChanLength:%v"+
" MatchChanLength:%v"+
" RouterChanLength:%v\n",
msg.GetTimestamp()/1e9,
msg.GetLogger(), msg.GetPayload(), pmc, pms, pmd,
ms, mad, fcl, mcl, rcl)
}
file.WriteString(line)
file.Close()
}
}
pack.Recycle()
case <-ticker:
go h.PipelineConfig().allReportsMsg()
}
}
return
}
// Save matching client records locally to the given output file in the given
// format.
func save(recordChannel <-chan s3splitfile.S3Record, match *message.MatcherSpecification, format string, out *os.File, done chan<- int) {
processed := 0
matched := 0
bytes := 0
msg := new(message.Message)
ok := true
for ok {
r, ok := <-recordChannel
if !ok {
// Channel is closed
done <- bytes
break
}
bytes += len(r.Record)
processed += 1
headerLen := int(r.Record[1]) + message.HEADER_FRAMING_SIZE
messageBytes := r.Record[headerLen:]
unsnappy, decodeErr := snappy.Decode(nil, messageBytes)
if decodeErr == nil {
messageBytes = unsnappy
}
if err := proto.Unmarshal(messageBytes, msg); err != nil {
fmt.Fprintf(os.Stderr, "Error unmarshalling message %d in %s, error: %s\n", processed, r.Key, err)
continue
}
if !match.Match(msg) {
continue
}
matched += 1
switch format {
case "count":
// no op
case "json":
contents, _ := json.Marshal(msg)
fmt.Fprintf(out, "%s\n", contents)
case "heka":
fmt.Fprintf(out, "%s", r.Record)
case "offsets":
// Use offsets mode for indexing the S3 files by clientId
clientId, ok := msg.GetFieldValue("clientId")
recordLength := len(r.Record) - headerLen
if ok {
fmt.Fprintf(out, "%s\t%s\t%d\t%d\n", r.Key, clientId, (r.Offset + uint64(headerLen)), recordLength)
} else {
fmt.Fprintf(os.Stderr, "Missing client id in %s @ %d+%d\n", r.Key, r.Offset, recordLength)
}
default:
fmt.Fprintf(out, "Timestamp: %s\n"+
"Type: %s\n"+
"Hostname: %s\n"+
"Pid: %d\n"+
"UUID: %s\n"+
"Logger: %s\n"+
"Payload: %s\n"+
"EnvVersion: %s\n"+
"Severity: %d\n"+
"Fields: %+v\n\n",
time.Unix(0, msg.GetTimestamp()), msg.GetType(),
msg.GetHostname(), msg.GetPid(), msg.GetUuidString(),
msg.GetLogger(), msg.GetPayload(), msg.GetEnvVersion(),
msg.GetSeverity(), msg.Fields)
}
}
fmt.Fprintf(os.Stderr, "Processed: %d, matched: %d messages (%.2f MB)\n", processed, matched, (float64(bytes) / 1024.0 / 1024.0))
}
