func (cdre *CdrExporter) getDateTimeFieldVal(cdr *engine.CDR, cfgCdrFld *config.CfgCdrField) (string, error) {
if len(cfgCdrFld.Value) == 0 {
return "", nil
}
for _, fltrRl := range cfgCdrFld.FieldFilter {
if fltrPass, _ := cdr.PassesFieldFilter(fltrRl); !fltrPass {
return "", fmt.Errorf("Field: %s not matching filter rule %v", fltrRl.Id, fltrRl)
}
}
layout := cfgCdrFld.Layout
if len(layout) == 0 {
layout = time.RFC3339
}
if dtFld, err := utils.ParseTimeDetectLayout(cdr.FieldAsString(cfgCdrFld.Value[0]), cdre.timezone); err != nil { // Only one rule makes sense here
return "", err
} else {
return dtFld.Format(layout), nil
}
}
func (cdre *CdrExporter) getCombimedCdrFieldVal(processedCdr *engine.CDR, cfgCdrFld *config.CfgCdrField) (string, error) {
var combinedVal string // Will result as combination of the field values, filters must match
for _, filterRule := range cfgCdrFld.FieldFilter {
if !filterRule.FilterPasses(processedCdr.FieldAsString(&utils.RSRField{Id: filterRule.Id})) { // Filter will activate the rule to extract the content
continue
}
pairingVal := processedCdr.FieldAsString(filterRule)
for _, cdr := range cdre.cdrs {
if cdr.CGRID != processedCdr.CGRID {
continue // We only care about cdrs with same primary cdr behind
}
if cdr.FieldAsString(&utils.RSRField{Id: filterRule.Id}) == pairingVal { // First CDR with filte
for _, rsrRule := range cfgCdrFld.Value {
combinedVal += cdr.FieldAsString(rsrRule)
}
}
}
}
return combinedVal, nil
}
func (cdre *CdrExporter) getDateTimeFieldVal(cdr *engine.CDR, cfgCdrFld *config.CfgCdrField) (string, error) {
if len(cfgCdrFld.Value) == 0 {
return "", nil
}
passesFilters := true
for _, cdfFltr := range cfgCdrFld.FieldFilter {
if !cdfFltr.FilterPasses(cdr.FieldAsString(cdfFltr)) {
passesFilters = false
break
}
}
if !passesFilters { // Not passes filters, ignore this replication
return "", errors.New("Not passing filters")
}
layout := cfgCdrFld.Layout
if len(layout) == 0 {
layout = time.RFC3339
}
if dtFld, err := utils.ParseTimeDetectLayout(cdr.FieldAsString(cfgCdrFld.Value[0]), cdre.timezone); err != nil { // Only one rule makes sense here
return "", err
} else {
return dtFld.Format(layout), nil
}
}
// Extracts the value specified by cfgHdr out of cdr
func (cdre *CdrExporter) cdrFieldValue(cdr *engine.CDR, cfgCdrFld *config.CfgCdrField) (string, error) {
passesFilters := true
for _, cdfFltr := range cfgCdrFld.FieldFilter {
if !cdfFltr.FilterPasses(cdr.FieldAsString(cdfFltr)) {
passesFilters = false
break
}
}
if !passesFilters { // Not passes filters, ignore this replication
return "", fmt.Errorf("Filters not passing")
}
layout := cfgCdrFld.Layout
if len(layout) == 0 {
layout = time.RFC3339
}
var retVal string // Concatenate the resulting values
for _, rsrFld := range cfgCdrFld.Value {
var cdrVal string
switch rsrFld.Id {
case COST_DETAILS: // Special case when we need to further extract cost_details out of logDb
if cdr.ExtraFields[COST_DETAILS], err = cdre.getCdrCostDetails(cdr.CGRID, cdr.RunID); err != nil {
return "", err
} else {
cdrVal = cdr.FieldAsString(rsrFld)
}
case utils.COST:
cdrVal = cdr.FormatCost(cdre.costShiftDigits, cdre.roundDecimals)
case utils.USAGE:
cdrVal = cdr.FormatUsage(layout)
case utils.SETUP_TIME:
cdrVal = cdr.SetupTime.Format(layout)
case utils.ANSWER_TIME: // Format time based on layout
cdrVal = cdr.AnswerTime.Format(layout)
case utils.DESTINATION:
cdrVal = cdr.FieldAsString(rsrFld)
if cdre.maskLen != -1 && cdre.maskedDestination(cdrVal) {
cdrVal = MaskDestination(cdrVal, cdre.maskLen)
}
default:
cdrVal = cdr.FieldAsString(rsrFld)
}
retVal += cdrVal
}
return retVal, nil
}
// Write individual cdr into content buffer, build stats
func (cdre *CdrExporter) processCdr(cdr *engine.CDR) error {
if cdr == nil || len(cdr.CGRID) == 0 { // We do not export empty CDRs
return nil
} else if cdr.ExtraFields == nil { // Avoid assignment in nil map if not initialized
cdr.ExtraFields = make(map[string]string)
}
// Cost multiply
if cdre.dataUsageMultiplyFactor != 0.0 && cdr.ToR == utils.DATA {
cdr.UsageMultiply(cdre.dataUsageMultiplyFactor, cdre.cgrPrecision)
} else if cdre.smsUsageMultiplyFactor != 0 && cdr.ToR == utils.SMS {
cdr.UsageMultiply(cdre.smsUsageMultiplyFactor, cdre.cgrPrecision)
} else if cdre.mmsUsageMultiplyFactor != 0 && cdr.ToR == utils.MMS {
cdr.UsageMultiply(cdre.mmsUsageMultiplyFactor, cdre.cgrPrecision)
} else if cdre.genericUsageMultiplyFactor != 0 && cdr.ToR == utils.GENERIC {
cdr.UsageMultiply(cdre.genericUsageMultiplyFactor, cdre.cgrPrecision)
}
if cdre.costMultiplyFactor != 0.0 {
cdr.CostMultiply(cdre.costMultiplyFactor, cdre.cgrPrecision)
}
var err error
cdrRow := make([]string, len(cdre.exportTemplate.ContentFields))
for idx, cfgFld := range cdre.exportTemplate.ContentFields {
var outVal string
switch cfgFld.Type {
case utils.META_FILLER:
outVal = cfgFld.Value.Id()
cfgFld.Padding = "right"
case utils.META_CONSTANT:
outVal = cfgFld.Value.Id()
case utils.META_COMPOSED:
outVal, err = cdre.cdrFieldValue(cdr, cfgFld)
case META_DATETIME:
outVal, err = cdre.getDateTimeFieldVal(cdr, cfgFld)
case utils.META_HTTP_POST:
var outValByte []byte
httpAddr := cfgFld.Value.Id()
if len(httpAddr) == 0 {
err = fmt.Errorf("Empty http address for field %s type %s", cfgFld.Tag, cfgFld.Type)
} else if outValByte, err = utils.HttpJsonPost(httpAddr, cdre.httpSkipTlsCheck, cdr); err == nil {
outVal = string(outValByte)
if len(outVal) == 0 && cfgFld.Mandatory {
err = fmt.Errorf("Empty result for http_post field: %s", cfgFld.Tag)
}
}
case utils.META_COMBIMED:
outVal, err = cdre.getCombimedCdrFieldVal(cdr, cfgFld)
case utils.META_HANDLER:
if cfgFld.Value.Id() == META_MASKDESTINATION {
outVal, err = cdre.metaHandler(cfgFld.Value.Id(), cdr.FieldAsString(&utils.RSRField{Id: utils.DESTINATION}))
} else {
outVal, err = cdre.metaHandler(cfgFld.Value.Id(), cfgFld.Layout)
}
}
if err != nil {
utils.Logger.Err(fmt.Sprintf("<CdreFw> Cannot export CDR with CGRID: %s and runid: %s, error: %s", cdr.CGRID, cdr.RunID, err.Error()))
return err
}
fmtOut := outVal
if fmtOut, err = utils.FmtFieldWidth(outVal, cfgFld.Width, cfgFld.Strip, cfgFld.Padding, cfgFld.Mandatory); err != nil {
utils.Logger.Err(fmt.Sprintf("<CdreFw> Cannot export CDR with CGRID: %s, runid: %s, fieldName: %s, fieldValue: %s, error: %s", cdr.CGRID, cdr.RunID, cfgFld.Tag, outVal, err.Error()))
return err
}
cdrRow[idx] += fmtOut
}
if len(cdrRow) == 0 { // No CDR data, most likely no configuration fields defined
return nil
} else {
cdre.content = append(cdre.content, cdrRow)
}
// Done with writing content, compute stats here
if cdre.firstCdrATime.IsZero() || cdr.AnswerTime.Before(cdre.firstCdrATime) {
cdre.firstCdrATime = cdr.AnswerTime
}
if cdr.AnswerTime.After(cdre.lastCdrATime) {
cdre.lastCdrATime = cdr.AnswerTime
}
cdre.numberOfRecords += 1
if cdr.ToR == utils.VOICE { // Only count duration for non data cdrs
cdre.totalDuration += cdr.Usage
}
if cdr.ToR == utils.SMS { // Count usage for SMS
cdre.totalSmsUsage += cdr.Usage
}
if cdr.ToR == utils.MMS { // Count usage for MMS
cdre.totalMmsUsage += cdr.Usage
}
if cdr.ToR == utils.GENERIC { // Count usage for GENERIC
cdre.totalGenericUsage += cdr.Usage
}
if cdr.ToR == utils.DATA { // Count usage for DATA
cdre.totalDataUsage += cdr.Usage
}
if cdr.Cost != -1 {
cdre.totalCost += cdr.Cost
cdre.totalCost = utils.Round(cdre.totalCost, cdre.roundDecimals, utils.ROUNDING_MIDDLE)
}
if cdre.firstExpOrderId > cdr.OrderID || cdre.firstExpOrderId == 0 {
cdre.firstExpOrderId = cdr.OrderID
}
if cdre.lastExpOrderId < cdr.OrderID {
cdre.lastExpOrderId = cdr.OrderID
}
return nil
}