/* Real-time Online/Offline Charging System (OCS) for Telecom & ISP environments Copyright (C) ITsysCOM GmbH This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see */ package ers import ( "bufio" "encoding/csv" "errors" "fmt" "io" "io/ioutil" "os" "path" "strconv" "strings" "sync" "time" "github.com/cgrates/ltcache" "github.com/cgrates/cgrates/agents" "github.com/cgrates/cgrates/config" "github.com/cgrates/cgrates/engine" "github.com/cgrates/cgrates/utils" ) func NewFlatstoreER(cfg *config.CGRConfig, cfgIdx int, rdrEvents chan *erEvent, rdrErr chan error, fltrS *engine.FilterS, rdrExit chan struct{}) (er EventReader, err error) { srcPath := cfg.ERsCfg().Readers[cfgIdx].SourcePath if strings.HasSuffix(srcPath, utils.Slash) { srcPath = srcPath[:len(srcPath)-1] } flatER := &FlatstoreER{ cgrCfg: cfg, cfgIdx: cfgIdx, fltrS: fltrS, rdrDir: srcPath, rdrEvents: rdrEvents, rdrError: rdrErr, rdrExit: rdrExit, conReqs: make(chan struct{}, cfg.ERsCfg().Readers[cfgIdx].ConcurrentReqs), } var processFile struct{} for i := 0; i < cfg.ERsCfg().Readers[cfgIdx].ConcurrentReqs; i++ { flatER.conReqs <- processFile // Empty initiate so we do not need to wait later when we pop } flatER.cache = ltcache.NewCache(ltcache.UnlimitedCaching, cfg.ERsCfg().Readers[cfgIdx].PartialRecordCache, false, flatER.dumpToFile) return flatER, err } // FlatstoreER implements EventReader interface for Flatstore CDR type FlatstoreER struct { sync.RWMutex cgrCfg *config.CGRConfig cfgIdx int // index of config instance within ERsCfg.Readers fltrS *engine.FilterS cache *ltcache.Cache rdrDir string rdrEvents chan *erEvent // channel to dispatch the events created to rdrError chan error rdrExit chan struct{} conReqs chan struct{} // limit number of opened files } func (rdr *FlatstoreER) Config() *config.EventReaderCfg { return rdr.cgrCfg.ERsCfg().Readers[rdr.cfgIdx] } func (rdr *FlatstoreER) Serve() (err error) { switch rdr.Config().RunDelay { case time.Duration(0): // 0 disables the automatic read, maybe done per API return case time.Duration(-1): return watchDir(rdr.rdrDir, rdr.processFile, utils.ERs, rdr.rdrExit) default: go func() { for { // Not automated, process and sleep approach select { case <-rdr.rdrExit: utils.Logger.Info( fmt.Sprintf("<%s> stop monitoring path <%s>", utils.ERs, rdr.rdrDir)) return default: } filesInDir, _ := ioutil.ReadDir(rdr.rdrDir) for _, file := range filesInDir { if !strings.HasSuffix(file.Name(), utils.CSVSuffix) { // hardcoded file extension for csv event reader continue // used in order to filter the files from directory } go func(fileName string) { if err := rdr.processFile(rdr.rdrDir, fileName); err != nil { utils.Logger.Warning( fmt.Sprintf("<%s> processing file %s, error: %s", utils.ERs, fileName, err.Error())) } }(file.Name()) } time.Sleep(rdr.Config().RunDelay) } }() } return } // processFile is called for each file in a directory and dispatches erEvents from it func (rdr *FlatstoreER) processFile(fPath, fName string) (err error) { if cap(rdr.conReqs) != 0 { // 0 goes for no limit processFile := <-rdr.conReqs // Queue here for maxOpenFiles defer func() { rdr.conReqs <- processFile }() } absPath := path.Join(fPath, fName) utils.Logger.Info( fmt.Sprintf("<%s> parsing <%s>", utils.ERs, absPath)) var file *os.File if file, err = os.Open(absPath); err != nil { return } defer file.Close() csvReader := csv.NewReader(bufio.NewReader(file)) csvReader.FieldsPerRecord = rdr.cgrCfg.ERsCfg().Readers[rdr.cfgIdx].RowLength csvReader.Comma = ',' if len(rdr.Config().FieldSep) > 0 { csvReader.Comma = rune(rdr.Config().FieldSep[0]) } csvReader.Comment = '#' rowNr := 0 // This counts the rows in the file, not really number of CDRs evsPosted := 0 timeStart := time.Now() reqVars := utils.NavigableMap2{utils.FileName: utils.NewNMData(fName)} for { var record []string if record, err = csvReader.Read(); err != nil { if err == io.EOF { break } return } if strings.HasPrefix(fName, rdr.Config().FailedCallsPrefix) { // Use the first index since they should be the same in all configs record = append(record, "0") // Append duration 0 for failed calls flatstore CDR } else { pr, err := NewUnpairedRecord(record, rdr.Config().Timezone, fName) if err != nil { utils.Logger.Warning( fmt.Sprintf("<%s> Converting row : <%s> to unpairedRecord , ignoring due to error: <%s>", utils.ERs, record, err.Error())) continue } if val, has := rdr.cache.Get(pr.OriginID); !has { rdr.cache.Set(pr.OriginID, pr, nil) continue } else { pair := val.(*UnpairedRecord) record, err = pairToRecord(pair, pr) if err != nil { utils.Logger.Warning( fmt.Sprintf("<%s> Merging unpairedRecords : <%s> and <%s> to record , ignoring due to error: <%s>", utils.ERs, utils.ToJSON(pair), utils.ToJSON(pr), err.Error())) continue } rdr.cache.Remove(pr.OriginID) } } // build Usage from Fields based on record lenght for i, cntFld := range rdr.Config().Fields { if cntFld.Path == utils.MetaCgreq+utils.NestingSep+utils.Usage { rdr.Config().Fields[i].Value = config.NewRSRParsersMustCompile("~*req."+strconv.Itoa(len(record)-1), utils.INFIELD_SEP) // in case of flatstore, last element will be the duration computed by us } } rowNr++ // increment the rowNr after checking if it's not the end of file agReq := agents.NewAgentRequest( config.NewSliceDP(record, nil), reqVars, nil, nil, nil, rdr.Config().Tenant, rdr.cgrCfg.GeneralCfg().DefaultTenant, utils.FirstNonEmpty(rdr.Config().Timezone, rdr.cgrCfg.GeneralCfg().DefaultTimezone), rdr.fltrS, nil, nil) // create an AgentRequest if pass, err := rdr.fltrS.Pass(agReq.Tenant, rdr.Config().Filters, agReq); err != nil { utils.Logger.Warning( fmt.Sprintf("<%s> reading file: <%s> row <%d>, ignoring due to filter error: <%s>", utils.ERs, absPath, rowNr, err.Error())) return err } else if !pass { continue } if err = agReq.SetFields(rdr.Config().Fields); err != nil { utils.Logger.Warning( fmt.Sprintf("<%s> reading file: <%s> row <%d>, ignoring due to error: <%s>", utils.ERs, absPath, rowNr, err.Error())) return } rdr.rdrEvents <- &erEvent{ cgrEvent: config.NMAsCGREvent(agReq.CGRRequest, agReq.Tenant, utils.NestingSep), rdrCfg: rdr.Config(), opts: config.NMAsMapInterface(agReq.Opts, utils.NestingSep), } evsPosted++ } if rdr.Config().ProcessedPath != "" { // Finished with file, move it to processed folder outPath := path.Join(rdr.Config().ProcessedPath, fName) if err = os.Rename(absPath, outPath); err != nil { return } } utils.Logger.Info( fmt.Sprintf("%s finished processing file <%s>. Total records processed: %d, events posted: %d, run duration: %s", utils.ERs, absPath, rowNr, evsPosted, time.Now().Sub(timeStart))) return } func NewUnpairedRecord(record []string, timezone string, fileName string) (*UnpairedRecord, error) { if len(record) < 7 { return nil, errors.New("MISSING_IE") } pr := &UnpairedRecord{Method: record[0], OriginID: record[3] + record[1] + record[2], Values: record, FileName: fileName} var err error if pr.Timestamp, err = utils.ParseTimeDetectLayout(record[6], timezone); err != nil { return nil, err } return pr, nil } // UnpairedRecord is a partial record received from Flatstore, can be INVITE or BYE and it needs to be paired in order to produce duration type UnpairedRecord struct { Method string // INVITE or BYE OriginID string // Copute here the OriginID Timestamp time.Time // Timestamp of the event, as written by db_flastore module Values []string // Can contain original values or updated via UpdateValues FileName string } // Pairs INVITE and BYE into final record containing as last element the duration func pairToRecord(part1, part2 *UnpairedRecord) ([]string, error) { var invite, bye *UnpairedRecord if part1.Method == "INVITE" { invite = part1 } else if part2.Method == "INVITE" { invite = part2 } else { return nil, errors.New("MISSING_INVITE") } if part1.Method == "BYE" { bye = part1 } else if part2.Method == "BYE" { bye = part2 } else { return nil, errors.New("MISSING_BYE") } if len(invite.Values) != len(bye.Values) { return nil, errors.New("INCONSISTENT_VALUES_LENGTH") } record := invite.Values for idx := range record { switch idx { case 0, 1, 2, 3, 6: // Leave these values as they are case 4, 5: record[idx] = bye.Values[idx] // Update record with status from bye default: if bye.Values[idx] != "" { // Any value higher than 6 is dynamically inserted, overwrite if non empty record[idx] = bye.Values[idx] } } } callDur := bye.Timestamp.Sub(invite.Timestamp) record = append(record, strconv.FormatFloat(callDur.Seconds(), 'f', -1, 64)) return record, nil } func (rdr *FlatstoreER) dumpToFile(itmID string, value interface{}) { unpRcd := value.(*UnpairedRecord) dumpFilePath := path.Join(rdr.Config().ProcessedPath, unpRcd.FileName+utils.TmpSuffix) fileOut, err := os.Create(dumpFilePath) if err != nil { utils.Logger.Err(fmt.Sprintf("<%s> Failed creating %s, error: %s", utils.ERs, dumpFilePath, err.Error())) return } csvWriter := csv.NewWriter(fileOut) csvWriter.Comma = rune(rdr.Config().FieldSep[0]) if err = csvWriter.Write(unpRcd.Values); err != nil { utils.Logger.Err(fmt.Sprintf("<%s> Failed writing partial record %v to file: %s, error: %s", utils.ERs, unpRcd.Values, dumpFilePath, err.Error())) return } csvWriter.Flush() }