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package log_buffer
import ( "bytes" "fmt" "time"
"google.golang.org/protobuf/proto"
"github.com/seaweedfs/seaweedfs/weed/glog" "github.com/seaweedfs/seaweedfs/weed/pb/filer_pb" "github.com/seaweedfs/seaweedfs/weed/util" )
var ( ResumeError = fmt.Errorf("resume") ResumeFromDiskError = fmt.Errorf("resumeFromDisk") )
type MessagePosition struct { time.Time // this is the timestamp of the message
BatchIndex int64 // this is only used when the timestamp is not enough to identify the next message, when the timestamp is in the previous batch.
}
func NewMessagePosition(tsNs int64, batchIndex int64) MessagePosition { return MessagePosition{ Time: time.Unix(0, tsNs).UTC(), BatchIndex: batchIndex, } }
func (logBuffer *LogBuffer) LoopProcessLogData(readerName string, startPosition MessagePosition, stopTsNs int64, waitForDataFn func() bool, eachLogDataFn EachLogEntryFuncType) (lastReadPosition MessagePosition, isDone bool, err error) { // loop through all messages
var bytesBuf *bytes.Buffer var batchIndex int64 lastReadPosition = startPosition var entryCounter int64 defer func() { if bytesBuf != nil { logBuffer.ReleaseMemory(bytesBuf) } // println("LoopProcessLogData", readerName, "sent messages total", entryCounter)
}()
for {
if bytesBuf != nil { logBuffer.ReleaseMemory(bytesBuf) } bytesBuf, batchIndex, err = logBuffer.ReadFromBuffer(lastReadPosition) if err == ResumeFromDiskError { time.Sleep(1127 * time.Millisecond) return lastReadPosition, isDone, ResumeFromDiskError } readSize := 0 if bytesBuf != nil { readSize = bytesBuf.Len() } glog.V(4).Infof("%s ReadFromBuffer at %v batch %d. Read bytes %v batch %d", readerName, lastReadPosition, lastReadPosition.BatchIndex, readSize, batchIndex) if bytesBuf == nil { if batchIndex >= 0 { lastReadPosition = NewMessagePosition(lastReadPosition.UnixNano(), batchIndex) } if stopTsNs != 0 { isDone = true return } lastTsNs := logBuffer.LastTsNs for lastTsNs == logBuffer.LastTsNs { if waitForDataFn() { continue } else { isDone = true return } } if logBuffer.IsStopping() { isDone = true return } continue }
buf := bytesBuf.Bytes() // fmt.Printf("ReadFromBuffer %s by %v size %d\n", readerName, lastReadPosition, len(buf))
batchSize := 0
for pos := 0; pos+4 < len(buf); {
size := util.BytesToUint32(buf[pos : pos+4]) if pos+4+int(size) > len(buf) { err = ResumeError glog.Errorf("LoopProcessLogData: %s read buffer %v read %d entries [%d,%d) from [0,%d)", readerName, lastReadPosition, batchSize, pos, pos+int(size)+4, len(buf)) return } entryData := buf[pos+4 : pos+4+int(size)]
logEntry := &filer_pb.LogEntry{} if err = proto.Unmarshal(entryData, logEntry); err != nil { glog.Errorf("unexpected unmarshal mq_pb.Message: %v", err) pos += 4 + int(size) continue } if stopTsNs != 0 && logEntry.TsNs > stopTsNs { isDone = true // println("stopTsNs", stopTsNs, "logEntry.TsNs", logEntry.TsNs)
return } lastReadPosition = NewMessagePosition(logEntry.TsNs, batchIndex)
if isDone, err = eachLogDataFn(logEntry); err != nil { glog.Errorf("LoopProcessLogData: %s process log entry %d %v: %v", readerName, batchSize+1, logEntry, err) return } if isDone { glog.V(0).Infof("LoopProcessLogData2: %s process log entry %d", readerName, batchSize+1) return }
pos += 4 + int(size) batchSize++ entryCounter++
}
glog.V(4).Infof("%s sent messages ts[%+v,%+v] size %d\n", readerName, startPosition, lastReadPosition, batchSize) }
}
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