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5cf3cd59ecaf4d608f279ff90fffdf43c33edd56
cgrates/engine/tp_reader.go
edwardro22 5cf3cd59ec Refactored and optimized code
2017-12-27 12:16:40 +01:00

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/*
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 <http://www.gnu.org/licenses/>
*/
package engine
import (
"errors"
"fmt"
"log"
"strconv"
"strings"
"github.com/cgrates/cgrates/cache"
"github.com/cgrates/cgrates/structmatcher"
"github.com/cgrates/cgrates/utils"
)
type TpReader struct {
tpid string
timezone string
dm *DataManager
lr LoadReader
actions map[string][]*Action
actionPlans map[string]*ActionPlan
actionsTriggers map[string]ActionTriggers
accountActions map[string]*Account
dirtyRpAliases []*TenantRatingSubject // used to clean aliases that might have changed
dirtyAccAliases []*TenantAccount // used to clean aliases that might have changed
destinations map[string]*Destination
timings map[string]*utils.TPTiming
rates map[string]*utils.TPRate
destinationRates map[string]*utils.TPDestinationRate
ratingPlans map[string]*RatingPlan
ratingProfiles map[string]*RatingProfile
sharedGroups map[string]*SharedGroup
lcrs map[string]*LCR
derivedChargers map[string]*utils.DerivedChargers
cdrStats map[string]*CdrStats
users map[string]*UserProfile
aliases map[string]*Alias
resProfiles map[utils.TenantID]*utils.TPResource
sqProfiles map[utils.TenantID]*utils.TPStats
thProfiles map[utils.TenantID]*utils.TPThreshold
filters map[utils.TenantID]*utils.TPFilterProfile
sppProfiles map[utils.TenantID]*utils.TPSupplierProfile
attributeProfiles map[utils.TenantID]*utils.TPAttributeProfile
resources []*utils.TenantID // IDs of resources which need creation based on resourceProfiles
statQueues []*utils.TenantID // IDs of statQueues which need creation based on statQueueProfiles
thresholds []*utils.TenantID // IDs of thresholds which need creation based on thresholdProfiles
suppliers []*utils.TenantID // IDs of suppliers which need creation based on sppProfiles
attrTntID []*utils.TenantID // IDs of suppliers which need creation based on attributeProfiles
revDests,
revAliases,
acntActionPlans map[string][]string
thdsIndexers map[string]*ReqFilterIndexer // tenant, indexer
sqpIndexers map[string]*ReqFilterIndexer // tenant, indexer
resIndexers map[string]*ReqFilterIndexer // tenant, indexer
sppIndexers map[string]*ReqFilterIndexer // tenant, indexer
attrIndexers map[string]*ReqFilterIndexer // tenant:context , indexer
}
func NewTpReader(db DataDB, lr LoadReader, tpid, timezone string) *TpReader {
tpr := &TpReader{
tpid: tpid,
timezone: timezone,
dm: NewDataManager(db),
lr: lr,
}
tpr.Init()
//add *any and *asap timing tag (in case of no timings file)
tpr.timings[utils.ANY] = &utils.TPTiming{
ID: utils.ANY,
Years: utils.Years{},
Months: utils.Months{},
MonthDays: utils.MonthDays{},
WeekDays: utils.WeekDays{},
StartTime: "00:00:00",
EndTime: "",
}
tpr.timings[utils.ASAP] = &utils.TPTiming{
ID: utils.ASAP,
Years: utils.Years{},
Months: utils.Months{},
MonthDays: utils.MonthDays{},
WeekDays: utils.WeekDays{},
StartTime: utils.ASAP,
EndTime: "",
}
tpr.timings[utils.MetaEveryMinute] = &utils.TPTiming{
ID: utils.MetaEveryMinute,
Years: utils.Years{},
Months: utils.Months{},
MonthDays: utils.MonthDays{},
WeekDays: utils.WeekDays{},
StartTime: utils.MetaEveryMinute,
EndTime: "",
}
tpr.timings[utils.MetaHourly] = &utils.TPTiming{
ID: utils.MetaHourly,
Years: utils.Years{},
Months: utils.Months{},
MonthDays: utils.MonthDays{},
WeekDays: utils.WeekDays{},
StartTime: utils.MetaHourly,
EndTime: "",
}
return tpr
}
func (tpr *TpReader) Init() {
tpr.actions = make(map[string][]*Action)
tpr.actionPlans = make(map[string]*ActionPlan)
tpr.actionsTriggers = make(map[string]ActionTriggers)
tpr.rates = make(map[string]*utils.TPRate)
tpr.destinations = make(map[string]*Destination)
tpr.destinationRates = make(map[string]*utils.TPDestinationRate)
tpr.timings = make(map[string]*utils.TPTiming)
tpr.ratingPlans = make(map[string]*RatingPlan)
tpr.ratingProfiles = make(map[string]*RatingProfile)
tpr.sharedGroups = make(map[string]*SharedGroup)
tpr.lcrs = make(map[string]*LCR)
tpr.accountActions = make(map[string]*Account)
tpr.cdrStats = make(map[string]*CdrStats)
tpr.users = make(map[string]*UserProfile)
tpr.aliases = make(map[string]*Alias)
tpr.derivedChargers = make(map[string]*utils.DerivedChargers)
tpr.resProfiles = make(map[utils.TenantID]*utils.TPResource)
tpr.sqProfiles = make(map[utils.TenantID]*utils.TPStats)
tpr.thProfiles = make(map[utils.TenantID]*utils.TPThreshold)
tpr.sppProfiles = make(map[utils.TenantID]*utils.TPSupplierProfile)
tpr.attributeProfiles = make(map[utils.TenantID]*utils.TPAttributeProfile)
tpr.filters = make(map[utils.TenantID]*utils.TPFilterProfile)
tpr.revDests = make(map[string][]string)
tpr.revAliases = make(map[string][]string)
tpr.acntActionPlans = make(map[string][]string)
tpr.thdsIndexers = make(map[string]*ReqFilterIndexer)
tpr.sqpIndexers = make(map[string]*ReqFilterIndexer)
tpr.resIndexers = make(map[string]*ReqFilterIndexer)
tpr.sppIndexers = make(map[string]*ReqFilterIndexer)
tpr.attrIndexers = make(map[string]*ReqFilterIndexer)
}
func (tpr *TpReader) LoadDestinationsFiltered(tag string) (bool, error) {
tpDests, err := tpr.lr.GetTPDestinations(tpr.tpid, tag)
if err != nil {
return false, err
} else if len(tpDests) == 0 {
return false, nil
}
transID := utils.GenUUID()
for _, tpDst := range tpDests {
dst := NewDestinationFromTPDestination(tpDst)
// ToDo: Fix transactions at onlineDB level
if err = tpr.dm.DataDB().SetDestination(dst, transID); err != nil {
cache.RollbackTransaction(transID)
}
if err = tpr.dm.DataDB().SetReverseDestination(dst, transID); err != nil {
cache.RollbackTransaction(transID)
}
}
cache.CommitTransaction(transID)
return true, nil
}
func (tpr *TpReader) LoadDestinations() (err error) {
tps, err := tpr.lr.GetTPDestinations(tpr.tpid, "")
if err != nil {
return
}
for _, tpDst := range tps {
tpr.destinations[tpDst.ID] = NewDestinationFromTPDestination(tpDst)
for _, prfx := range tpr.destinations[tpDst.ID].Prefixes {
if _, hasIt := tpr.revDests[prfx]; !hasIt {
tpr.revDests[prfx] = make([]string, 0)
}
tpr.revDests[prfx] = append(tpr.revDests[prfx], tpDst.ID)
}
}
return
}
func (tpr *TpReader) LoadTimings() (err error) {
tps, err := tpr.lr.GetTPTimings(tpr.tpid, "")
if err != nil {
return err
}
tpr.timings, err = MapTPTimings(tps)
// add *any timing tag
tpr.timings[utils.ANY] = &utils.TPTiming{
ID: utils.ANY,
Years: utils.Years{},
Months: utils.Months{},
MonthDays: utils.MonthDays{},
WeekDays: utils.WeekDays{},
StartTime: "00:00:00",
EndTime: "",
}
tpr.timings[utils.ASAP] = &utils.TPTiming{
ID: utils.ASAP,
Years: utils.Years{},
Months: utils.Months{},
MonthDays: utils.MonthDays{},
WeekDays: utils.WeekDays{},
StartTime: utils.ASAP,
EndTime: "",
}
return err
}
func (tpr *TpReader) LoadRates() (err error) {
tps, err := tpr.lr.GetTPRates(tpr.tpid, "")
if err != nil {
return err
}
tpr.rates, err = MapTPRates(tps)
return err
}
func (tpr *TpReader) LoadDestinationRates() (err error) {
tps, err := tpr.lr.GetTPDestinationRates(tpr.tpid, "", nil)
if err != nil {
return err
}
tpr.destinationRates, err = MapTPDestinationRates(tps)
if err != nil {
return err
}
for _, drs := range tpr.destinationRates {
for _, dr := range drs.DestinationRates {
rate, exists := tpr.rates[dr.RateId]
if !exists {
return fmt.Errorf("could not find rate for tag %v", dr.RateId)
}
dr.Rate = rate
destinationExists := dr.DestinationId == utils.ANY
if !destinationExists {
_, destinationExists = tpr.destinations[dr.DestinationId]
}
if !destinationExists && tpr.dm.dataDB != nil {
if destinationExists, err = tpr.dm.HasData(utils.DESTINATION_PREFIX, dr.DestinationId); err != nil {
return err
}
}
if !destinationExists {
return fmt.Errorf("could not get destination for tag %v", dr.DestinationId)
}
}
}
return nil
}
// Returns true, nil in case of load success, false, nil in case of RatingPlan not found dataStorage
func (tpr *TpReader) LoadRatingPlansFiltered(tag string) (bool, error) {
mpRpls, err := tpr.lr.GetTPRatingPlans(tpr.tpid, tag, nil)
if err != nil {
return false, err
} else if len(mpRpls) == 0 {
return false, nil
}
bindings := MapTPRatingPlanBindings(mpRpls)
for tag, rplBnds := range bindings {
ratingPlan := &RatingPlan{Id: tag}
for _, rp := range rplBnds {
tptm, err := tpr.lr.GetTPTimings(tpr.tpid, rp.TimingId)
if err != nil || len(tptm) == 0 {
return false, fmt.Errorf("no timing with id %s: %v", rp.TimingId, err)
}
tm, err := MapTPTimings(tptm)
if err != nil {
return false, err
}
rp.SetTiming(tm[rp.TimingId])
tpdrm, err := tpr.lr.GetTPDestinationRates(tpr.tpid, rp.DestinationRatesId, nil)
if err != nil || len(tpdrm) == 0 {
return false, fmt.Errorf("no DestinationRates profile with id %s: %v", rp.DestinationRatesId, err)
}
drm, err := MapTPDestinationRates(tpdrm)
if err != nil {
return false, err
}
for _, drate := range drm[rp.DestinationRatesId].DestinationRates {
tprt, err := tpr.lr.GetTPRates(tpr.tpid, drate.RateId)
if err != nil || len(tprt) == 0 {
return false, fmt.Errorf("no Rates profile with id %s: %v", drate.RateId, err)
}
rt, err := MapTPRates(tprt)
if err != nil {
return false, err
}
drate.Rate = rt[drate.RateId]
ratingPlan.AddRateInterval(drate.DestinationId, GetRateInterval(rp, drate))
if drate.DestinationId == utils.ANY {
continue // no need of loading the destinations in this case
}
tpDests, err := tpr.lr.GetTPDestinations(tpr.tpid, drate.DestinationId)
if err != nil {
return false, err
}
dms := make([]*Destination, len(tpDests))
for i, tpDst := range tpDests {
dms[i] = NewDestinationFromTPDestination(tpDst)
}
destsExist := len(dms) != 0
if !destsExist && tpr.dm.dataDB != nil {
if dbExists, err := tpr.dm.HasData(utils.DESTINATION_PREFIX, drate.DestinationId); err != nil {
return false, err
} else if dbExists {
destsExist = true
}
continue
}
if !destsExist {
return false, fmt.Errorf("could not get destination for tag %v", drate.DestinationId)
}
for _, destination := range dms {
tpr.dm.DataDB().SetDestination(destination, utils.NonTransactional)
tpr.dm.DataDB().SetReverseDestination(destination, utils.NonTransactional)
}
}
}
if err := tpr.dm.SetRatingPlan(ratingPlan, utils.NonTransactional); err != nil {
return false, err
}
}
return true, nil
}
func (tpr *TpReader) LoadRatingPlans() (err error) {
tps, err := tpr.lr.GetTPRatingPlans(tpr.tpid, "", nil)
if err != nil {
return err
}
bindings := MapTPRatingPlanBindings(tps)
for tag, rplBnds := range bindings {
for _, rplBnd := range rplBnds {
t, exists := tpr.timings[rplBnd.TimingId]
if !exists {
return fmt.Errorf("could not get timing for tag %v", rplBnd.TimingId)
}
rplBnd.SetTiming(t)
drs, exists := tpr.destinationRates[rplBnd.DestinationRatesId]
if !exists {
return fmt.Errorf("could not find destination rate for tag %v", rplBnd.DestinationRatesId)
}
plan, exists := tpr.ratingPlans[tag]
if !exists {
plan = &RatingPlan{Id: tag}
tpr.ratingPlans[plan.Id] = plan
}
for _, dr := range drs.DestinationRates {
plan.AddRateInterval(dr.DestinationId, GetRateInterval(rplBnd, dr))
}
}
}
return nil
}
func (tpr *TpReader) LoadRatingProfilesFiltered(qriedRpf *utils.TPRatingProfile) error {
var resultRatingProfile *RatingProfile
mpTpRpfs, err := tpr.lr.GetTPRatingProfiles(qriedRpf)
if err != nil {
return fmt.Errorf("no RateProfile for filter %v, error: %v", qriedRpf, err)
}
rpfs, err := MapTPRatingProfiles(mpTpRpfs)
if err != nil {
return err
}
for _, tpRpf := range rpfs {
resultRatingProfile = &RatingProfile{Id: tpRpf.KeyId()}
for _, tpRa := range tpRpf.RatingPlanActivations {
at, err := utils.ParseDate(tpRa.ActivationTime)
if err != nil {
return fmt.Errorf("cannot parse activation time from %v", tpRa.ActivationTime)
}
_, exists := tpr.ratingPlans[tpRa.RatingPlanId]
if !exists && tpr.dm.dataDB != nil {
if exists, err = tpr.dm.HasData(utils.RATING_PLAN_PREFIX, tpRa.RatingPlanId); err != nil {
return err
}
}
if !exists {
return fmt.Errorf("could not load rating plans for tag: %v", tpRa.RatingPlanId)
}
resultRatingProfile.RatingPlanActivations = append(resultRatingProfile.RatingPlanActivations,
&RatingPlanActivation{
ActivationTime: at,
RatingPlanId: tpRa.RatingPlanId,
FallbackKeys: utils.FallbackSubjKeys(tpRpf.Direction, tpRpf.Tenant, tpRpf.Category, tpRa.FallbackSubjects),
CdrStatQueueIds: strings.Split(tpRa.CdrStatQueueIds, utils.INFIELD_SEP),
})
}
if err := tpr.dm.SetRatingProfile(resultRatingProfile, utils.NonTransactional); err != nil {
return err
}
}
return nil
}
func (tpr *TpReader) LoadRatingProfiles() (err error) {
tps, err := tpr.lr.GetTPRatingProfiles(&utils.TPRatingProfile{TPid: tpr.tpid})
if err != nil {
return err
}
mpTpRpfs, err := MapTPRatingProfiles(tps)
if err != nil {
return err
}
for _, tpRpf := range mpTpRpfs {
rpf := &RatingProfile{Id: tpRpf.KeyId()}
for _, tpRa := range tpRpf.RatingPlanActivations {
at, err := utils.ParseDate(tpRa.ActivationTime)
if err != nil {
return fmt.Errorf("cannot parse activation time from %v", tpRa.ActivationTime)
}
_, exists := tpr.ratingPlans[tpRa.RatingPlanId]
if !exists && tpr.dm.dataDB != nil { // Only query if there is a connection, eg on dry run there is none
if exists, err = tpr.dm.HasData(utils.RATING_PLAN_PREFIX, tpRa.RatingPlanId); err != nil {
return err
}
}
if !exists {
return fmt.Errorf("could not load rating plans for tag: %v", tpRa.RatingPlanId)
}
rpf.RatingPlanActivations = append(rpf.RatingPlanActivations,
&RatingPlanActivation{
ActivationTime: at,
RatingPlanId: tpRa.RatingPlanId,
FallbackKeys: utils.FallbackSubjKeys(tpRpf.Direction, tpRpf.Tenant, tpRpf.Category, tpRa.FallbackSubjects),
CdrStatQueueIds: strings.Split(tpRa.CdrStatQueueIds, utils.INFIELD_SEP),
})
}
tpr.ratingProfiles[tpRpf.KeyId()] = rpf
}
return nil
}
func (tpr *TpReader) LoadSharedGroupsFiltered(tag string, save bool) (err error) {
tps, err := tpr.lr.GetTPSharedGroups(tpr.tpid, "")
if err != nil {
return err
}
storSgs := MapTPSharedGroup(tps)
for tag, tpSgs := range storSgs {
sg, exists := tpr.sharedGroups[tag]
if !exists {
sg = &SharedGroup{
Id: tag,
AccountParameters: make(map[string]*SharingParameters, len(tpSgs)),
}
}
for _, tpSg := range tpSgs {
sg.AccountParameters[tpSg.Account] = &SharingParameters{
Strategy: tpSg.Strategy,
RatingSubject: tpSg.RatingSubject,
}
}
tpr.sharedGroups[tag] = sg
}
if save {
for _, sg := range tpr.sharedGroups {
if err := tpr.dm.SetSharedGroup(sg, utils.NonTransactional); err != nil {
return err
}
}
}
return nil
}
func (tpr *TpReader) LoadSharedGroups() error {
return tpr.LoadSharedGroupsFiltered(tpr.tpid, false)
}
func (tpr *TpReader) LoadLCRs() (err error) {
tps, err := tpr.lr.GetTPLCRs(&utils.TPLcrRules{TPid: tpr.tpid})
if err != nil {
return err
}
for _, tpLcr := range tps {
if tpLcr != nil {
for _, rule := range tpLcr.Rules {
// check the rating profiles
ratingProfileSearchKey := utils.ConcatenatedKey(tpLcr.Direction, tpLcr.Tenant, rule.RpCategory)
found := false
for rpfKey := range tpr.ratingProfiles {
if strings.HasPrefix(rpfKey, ratingProfileSearchKey) {
found = true
break
}
}
if !found && tpr.dm.dataDB != nil {
if keys, err := tpr.dm.DataDB().GetKeysForPrefix(utils.RATING_PROFILE_PREFIX + ratingProfileSearchKey); err != nil {
return fmt.Errorf("[LCR] error querying dataDb %s", err.Error())
} else if len(keys) != 0 {
found = true
}
}
if !found {
return fmt.Errorf("[LCR] could not find ratingProfiles with prefix %s", ratingProfileSearchKey)
}
// check destination tags
if rule.DestinationId != "" && rule.DestinationId != utils.ANY {
_, found := tpr.destinations[rule.DestinationId]
if !found && tpr.dm.dataDB != nil {
if found, err = tpr.dm.HasData(utils.DESTINATION_PREFIX, rule.DestinationId); err != nil {
return fmt.Errorf("[LCR] error querying dataDb %s", err.Error())
}
}
if !found {
return fmt.Errorf("[LCR] could not find destination with tag %s", rule.DestinationId)
}
}
tag := utils.LCRKey(tpLcr.Direction, tpLcr.Tenant, tpLcr.Category, tpLcr.Account, tpLcr.Subject)
activationTime, _ := utils.ParseTimeDetectLayout(rule.ActivationTime, tpr.timezone)
lcr, found := tpr.lcrs[tag]
if !found {
lcr = &LCR{
Direction: tpLcr.Direction,
Tenant: tpLcr.Tenant,
Category: tpLcr.Category,
Account: tpLcr.Account,
Subject: tpLcr.Subject,
}
}
var act *LCRActivation
for _, existingAct := range lcr.Activations {
if existingAct.ActivationTime.Equal(activationTime) {
act = existingAct
break
}
}
if act == nil {
act = &LCRActivation{
ActivationTime: activationTime,
}
lcr.Activations = append(lcr.Activations, act)
}
act.Entries = append(act.Entries, &LCREntry{
DestinationId: rule.DestinationId,
RPCategory: rule.RpCategory,
Strategy: rule.Strategy,
StrategyParams: rule.StrategyParams,
Weight: rule.Weight,
})
tpr.lcrs[tag] = lcr
}
}
}
return nil
}
func (tpr *TpReader) LoadActions() (err error) {
tps, err := tpr.lr.GetTPActions(tpr.tpid, "")
if err != nil {
return err
}
storActs := MapTPActions(tps)
// map[string][]*Action
for tag, tpacts := range storActs {
acts := make([]*Action, len(tpacts))
for idx, tpact := range tpacts {
// check filter field
if len(tpact.Filter) > 0 {
if _, err := structmatcher.NewStructMatcher(tpact.Filter); err != nil {
return fmt.Errorf("error parsing action %s filter field: %v", tag, err)
}
}
acts[idx] = &Action{
Id: tag,
ActionType: tpact.Identifier,
//BalanceType: tpact.BalanceType,
Weight: tpact.Weight,
ExtraParameters: tpact.ExtraParameters,
ExpirationString: tpact.ExpiryTime,
Filter: tpact.Filter,
Balance: &BalanceFilter{},
}
if tpact.BalanceId != "" && tpact.BalanceId != utils.ANY {
acts[idx].Balance.ID = utils.StringPointer(tpact.BalanceId)
}
if tpact.BalanceType != "" && tpact.BalanceType != utils.ANY {
acts[idx].Balance.Type = utils.StringPointer(tpact.BalanceType)
}
if tpact.Units != "" && tpact.Units != utils.ANY {
vf, err := utils.ParseBalanceFilterValue(tpact.BalanceType, tpact.Units)
if err != nil {
return err
}
acts[idx].Balance.Value = vf
}
if tpact.BalanceWeight != "" && tpact.BalanceWeight != utils.ANY {
u, err := strconv.ParseFloat(tpact.BalanceWeight, 64)
if err != nil {
return err
}
acts[idx].Balance.Weight = utils.Float64Pointer(u)
}
if tpact.RatingSubject != "" && tpact.RatingSubject != utils.ANY {
acts[idx].Balance.RatingSubject = utils.StringPointer(tpact.RatingSubject)
}
if tpact.Categories != "" && tpact.Categories != utils.ANY {
acts[idx].Balance.Categories = utils.StringMapPointer(utils.ParseStringMap(tpact.Categories))
}
if tpact.Directions != "" && tpact.Directions != utils.ANY {
acts[idx].Balance.Directions = utils.StringMapPointer(utils.ParseStringMap(tpact.Directions))
}
if tpact.DestinationIds != "" && tpact.DestinationIds != utils.ANY {
acts[idx].Balance.DestinationIDs = utils.StringMapPointer(utils.ParseStringMap(tpact.DestinationIds))
}
if tpact.SharedGroups != "" && tpact.SharedGroups != utils.ANY {
acts[idx].Balance.SharedGroups = utils.StringMapPointer(utils.ParseStringMap(tpact.SharedGroups))
}
if tpact.TimingTags != "" && tpact.TimingTags != utils.ANY {
acts[idx].Balance.TimingIDs = utils.StringMapPointer(utils.ParseStringMap(tpact.TimingTags))
}
if tpact.BalanceBlocker != "" && tpact.BalanceBlocker != utils.ANY {
u, err := strconv.ParseBool(tpact.BalanceBlocker)
if err != nil {
return err
}
acts[idx].Balance.Blocker = utils.BoolPointer(u)
}
if tpact.BalanceDisabled != "" && tpact.BalanceDisabled != utils.ANY {
u, err := strconv.ParseBool(tpact.BalanceDisabled)
if err != nil {
return err
}
acts[idx].Balance.Disabled = utils.BoolPointer(u)
}
// load action timings from tags
if tpact.TimingTags != "" {
timingIds := strings.Split(tpact.TimingTags, utils.INFIELD_SEP)
for _, timingID := range timingIds {
if timing, found := tpr.timings[timingID]; found {
acts[idx].Balance.Timings = append(acts[idx].Balance.Timings, &RITiming{
Years: timing.Years,
Months: timing.Months,
MonthDays: timing.MonthDays,
WeekDays: timing.WeekDays,
StartTime: timing.StartTime,
EndTime: timing.EndTime,
})
} else {
return fmt.Errorf("could not find timing: %v", timingID)
}
}
}
}
tpr.actions[tag] = acts
}
return nil
}
func (tpr *TpReader) LoadActionPlans() (err error) {
tps, err := tpr.lr.GetTPActionPlans(tpr.tpid, "")
if err != nil {
return err
}
storAps := MapTPActionTimings(tps)
for atId, ats := range storAps {
for _, at := range ats {
_, exists := tpr.actions[at.ActionsId]
if !exists && tpr.dm.dataDB != nil {
if exists, err = tpr.dm.HasData(utils.ACTION_PREFIX, at.ActionsId); err != nil {
return fmt.Errorf("[ActionPlans] Error querying actions: %v - %s", at.ActionsId, err.Error())
}
}
if !exists {
return fmt.Errorf("[ActionPlans] Could not load the action for tag: %v", at.ActionsId)
}
t, exists := tpr.timings[at.TimingId]
if !exists {
return fmt.Errorf("[ActionPlans] Could not load the timing for tag: %v", at.TimingId)
}
var actPln *ActionPlan
if actPln, exists = tpr.actionPlans[atId]; !exists {
actPln = &ActionPlan{
Id: atId,
}
}
actPln.ActionTimings = append(actPln.ActionTimings, &ActionTiming{
Uuid: utils.GenUUID(),
Weight: at.Weight,
Timing: &RateInterval{
Timing: &RITiming{
Years: t.Years,
Months: t.Months,
MonthDays: t.MonthDays,
WeekDays: t.WeekDays,
StartTime: t.StartTime,
},
},
ActionsID: at.ActionsId,
})
tpr.actionPlans[atId] = actPln
}
}
return nil
}
func (tpr *TpReader) LoadActionTriggers() (err error) {
tps, err := tpr.lr.GetTPActionTriggers(tpr.tpid, "")
if err != nil {
return err
}
storAts := MapTPActionTriggers(tps)
for key, atrsLst := range storAts {
atrs := make([]*ActionTrigger, len(atrsLst))
for idx, atr := range atrsLst {
expirationDate, err := utils.ParseTimeDetectLayout(atr.ExpirationDate, tpr.timezone)
if err != nil {
return err
}
activationDate, err := utils.ParseTimeDetectLayout(atr.ActivationDate, tpr.timezone)
if err != nil {
return err
}
minSleep, err := utils.ParseDurationWithNanosecs(atr.MinSleep)
if err != nil {
return err
}
if atr.UniqueID == "" {
atr.UniqueID = utils.GenUUID()
}
atrs[idx] = &ActionTrigger{
ID: key,
UniqueID: atr.UniqueID,
ThresholdType: atr.ThresholdType,
ThresholdValue: atr.ThresholdValue,
Recurrent: atr.Recurrent,
MinSleep: minSleep,
ExpirationDate: expirationDate,
ActivationDate: activationDate,
Balance: &BalanceFilter{},
Weight: atr.Weight,
ActionsID: atr.ActionsId,
MinQueuedItems: atr.MinQueuedItems,
}
if atr.BalanceId != "" && atr.BalanceId != utils.ANY {
atrs[idx].Balance.ID = utils.StringPointer(atr.BalanceId)
}
if atr.BalanceType != "" && atr.BalanceType != utils.ANY {
atrs[idx].Balance.Type = utils.StringPointer(atr.BalanceType)
}
if atr.BalanceWeight != "" && atr.BalanceWeight != utils.ANY {
u, err := strconv.ParseFloat(atr.BalanceWeight, 64)
if err != nil {
return err
}
atrs[idx].Balance.Weight = utils.Float64Pointer(u)
}
if atr.BalanceExpirationDate != "" && atr.BalanceExpirationDate != utils.ANY && atr.ExpirationDate != utils.UNLIMITED {
u, err := utils.ParseTimeDetectLayout(atr.BalanceExpirationDate, tpr.timezone)
if err != nil {
return err
}
atrs[idx].Balance.ExpirationDate = utils.TimePointer(u)
}
if atr.BalanceRatingSubject != "" && atr.BalanceRatingSubject != utils.ANY {
atrs[idx].Balance.RatingSubject = utils.StringPointer(atr.BalanceRatingSubject)
}
if atr.BalanceCategories != "" && atr.BalanceCategories != utils.ANY {
atrs[idx].Balance.Categories = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceCategories))
}
if atr.BalanceDirections != "" && atr.BalanceDirections != utils.ANY {
atrs[idx].Balance.Directions = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceDirections))
}
if atr.BalanceDestinationIds != "" && atr.BalanceDestinationIds != utils.ANY {
atrs[idx].Balance.DestinationIDs = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceDestinationIds))
}
if atr.BalanceSharedGroups != "" && atr.BalanceSharedGroups != utils.ANY {
atrs[idx].Balance.SharedGroups = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceSharedGroups))
}
if atr.BalanceTimingTags != "" && atr.BalanceTimingTags != utils.ANY {
atrs[idx].Balance.TimingIDs = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceTimingTags))
}
if atr.BalanceBlocker != "" && atr.BalanceBlocker != utils.ANY {
u, err := strconv.ParseBool(atr.BalanceBlocker)
if err != nil {
return err
}
atrs[idx].Balance.Blocker = utils.BoolPointer(u)
}
if atr.BalanceDisabled != "" && atr.BalanceDisabled != utils.ANY {
u, err := strconv.ParseBool(atr.BalanceDisabled)
if err != nil {
return err
}
atrs[idx].Balance.Disabled = utils.BoolPointer(u)
}
}
tpr.actionsTriggers[key] = atrs
}
return nil
}
func (tpr *TpReader) LoadAccountActionsFiltered(qriedAA *utils.TPAccountActions) error {
accountActions, err := tpr.lr.GetTPAccountActions(qriedAA)
if err != nil {
return errors.New(err.Error() + ": " + fmt.Sprintf("%+v", qriedAA))
}
storAas, err := MapTPAccountActions(accountActions)
if err != nil {
return err
}
for _, accountAction := range storAas {
id := accountAction.KeyId()
var actionIDs []string // collects action ids
// action timings
if accountAction.ActionPlanId != "" {
// get old userBalanceIds
exitingAccountIds := make(utils.StringMap)
existingActionPlan, err := tpr.dm.DataDB().GetActionPlan(accountAction.ActionPlanId, true, utils.NonTransactional)
if err == nil && existingActionPlan != nil {
exitingAccountIds = existingActionPlan.AccountIDs
}
tpap, err := tpr.lr.GetTPActionPlans(tpr.tpid, accountAction.ActionPlanId)
if err != nil {
return errors.New(err.Error() + " (ActionPlan): " + accountAction.ActionPlanId)
} else if len(tpap) == 0 {
return fmt.Errorf("no action plan with id <%s>", accountAction.ActionPlanId)
}
aps := MapTPActionTimings(tpap)
var actionPlan *ActionPlan
ats := aps[accountAction.ActionPlanId]
for _, at := range ats {
// Check action exists before saving it inside actionTiming key
// ToDo: try saving the key after the actions was retrieved in order to save one query here.
if actions, err := tpr.lr.GetTPActions(tpr.tpid, at.ActionsId); err != nil {
return errors.New(err.Error() + " (Actions): " + at.ActionsId)
} else if len(actions) == 0 {
return fmt.Errorf("no action with id <%s>", at.ActionsId)
}
var t *utils.TPTiming
if at.TimingId != utils.ASAP {
tptm, err := tpr.lr.GetTPTimings(tpr.tpid, at.TimingId)
if err != nil {
return errors.New(err.Error() + " (Timing): " + at.TimingId)
} else if len(tptm) == 0 {
return fmt.Errorf("no timing with id <%s>", at.TimingId)
}
tm, err := MapTPTimings(tptm)
if err != nil {
return err
}
t = tm[at.TimingId]
} else {
t = tpr.timings[at.TimingId] // *asap
}
if actionPlan == nil {
actionPlan = &ActionPlan{
Id: accountAction.ActionPlanId,
}
}
actionPlan.ActionTimings = append(actionPlan.ActionTimings, &ActionTiming{
Uuid: utils.GenUUID(),
Weight: at.Weight,
Timing: &RateInterval{
Timing: &RITiming{
Months: t.Months,
MonthDays: t.MonthDays,
WeekDays: t.WeekDays,
StartTime: t.StartTime,
},
},
ActionsID: at.ActionsId,
})
// collect action ids from timings
actionIDs = append(actionIDs, at.ActionsId)
exitingAccountIds[id] = true
actionPlan.AccountIDs = exitingAccountIds
}
// write tasks
for _, at := range actionPlan.ActionTimings {
if at.IsASAP() {
for accID := range actionPlan.AccountIDs {
t := &Task{
Uuid: utils.GenUUID(),
AccountID: accID,
ActionsID: at.ActionsID,
}
if err = tpr.dm.DataDB().PushTask(t); err != nil {
return err
}
}
}
}
// write action plan
if err = tpr.dm.DataDB().SetActionPlan(accountAction.ActionPlanId, actionPlan, false, utils.NonTransactional); err != nil {
return errors.New(err.Error() + " (SetActionPlan): " + accountAction.ActionPlanId)
}
if err = tpr.dm.DataDB().SetAccountActionPlans(id, []string{accountAction.ActionPlanId}, false); err != nil {
return err
}
if err = tpr.dm.CacheDataFromDB(utils.AccountActionPlansPrefix, []string{id}, true); err != nil {
return err
}
}
// action triggers
var actionTriggers ActionTriggers
//ActionTriggerPriotityList []*ActionTrigger
if accountAction.ActionTriggersId != "" {
tpatrs, err := tpr.lr.GetTPActionTriggers(tpr.tpid, accountAction.ActionTriggersId)
if err != nil {
return errors.New(err.Error() + " (ActionTriggers): " + accountAction.ActionTriggersId)
}
atrs := MapTPActionTriggers(tpatrs)
atrsMap := make(map[string][]*ActionTrigger)
for key, atrsLst := range atrs {
atrs := make([]*ActionTrigger, len(atrsLst))
for idx, atr := range atrsLst {
minSleep, _ := utils.ParseDurationWithNanosecs(atr.MinSleep)
expTime, _ := utils.ParseTimeDetectLayout(atr.ExpirationDate, tpr.timezone)
actTime, _ := utils.ParseTimeDetectLayout(atr.ActivationDate, tpr.timezone)
if atr.UniqueID == "" {
atr.UniqueID = utils.GenUUID()
}
atrs[idx] = &ActionTrigger{
ID: key,
UniqueID: atr.UniqueID,
ThresholdType: atr.ThresholdType,
ThresholdValue: atr.ThresholdValue,
Recurrent: atr.Recurrent,
MinSleep: minSleep,
ExpirationDate: expTime,
ActivationDate: actTime,
Balance: &BalanceFilter{},
Weight: atr.Weight,
ActionsID: atr.ActionsId,
}
if atr.BalanceId != "" && atr.BalanceId != utils.ANY {
atrs[idx].Balance.ID = utils.StringPointer(atr.BalanceId)
}
if atr.BalanceType != "" && atr.BalanceType != utils.ANY {
atrs[idx].Balance.Type = utils.StringPointer(atr.BalanceType)
}
if atr.BalanceWeight != "" && atr.BalanceWeight != utils.ANY {
u, err := strconv.ParseFloat(atr.BalanceWeight, 64)
if err != nil {
return err
}
atrs[idx].Balance.Weight = utils.Float64Pointer(u)
}
if atr.BalanceExpirationDate != "" && atr.BalanceExpirationDate != utils.ANY && atr.ExpirationDate != utils.UNLIMITED {
u, err := utils.ParseTimeDetectLayout(atr.BalanceExpirationDate, tpr.timezone)
if err != nil {
return err
}
atrs[idx].Balance.ExpirationDate = utils.TimePointer(u)
}
if atr.BalanceRatingSubject != "" && atr.BalanceRatingSubject != utils.ANY {
atrs[idx].Balance.RatingSubject = utils.StringPointer(atr.BalanceRatingSubject)
}
if atr.BalanceCategories != "" && atr.BalanceCategories != utils.ANY {
atrs[idx].Balance.Categories = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceCategories))
}
if atr.BalanceDirections != "" && atr.BalanceDirections != utils.ANY {
atrs[idx].Balance.Directions = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceDirections))
}
if atr.BalanceDestinationIds != "" && atr.BalanceDestinationIds != utils.ANY {
atrs[idx].Balance.DestinationIDs = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceDestinationIds))
}
if atr.BalanceSharedGroups != "" && atr.BalanceSharedGroups != utils.ANY {
atrs[idx].Balance.SharedGroups = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceSharedGroups))
}
if atr.BalanceTimingTags != "" && atr.BalanceTimingTags != utils.ANY {
atrs[idx].Balance.TimingIDs = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceTimingTags))
}
if atr.BalanceBlocker != "" && atr.BalanceBlocker != utils.ANY {
u, err := strconv.ParseBool(atr.BalanceBlocker)
if err != nil {
return err
}
atrs[idx].Balance.Blocker = utils.BoolPointer(u)
}
if atr.BalanceDisabled != "" && atr.BalanceDisabled != utils.ANY {
u, err := strconv.ParseBool(atr.BalanceDisabled)
if err != nil {
return err
}
atrs[idx].Balance.Disabled = utils.BoolPointer(u)
}
}
atrsMap[key] = atrs
}
actionTriggers = atrsMap[accountAction.ActionTriggersId]
// collect action ids from triggers
for _, atr := range actionTriggers {
actionIDs = append(actionIDs, atr.ActionsID)
}
// write action triggers
err = tpr.dm.SetActionTriggers(accountAction.ActionTriggersId, actionTriggers, utils.NonTransactional)
if err != nil {
return errors.New(err.Error() + " (SetActionTriggers): " + accountAction.ActionTriggersId)
}
}
// actions
facts := make(map[string][]*Action)
for _, actId := range actionIDs {
tpas, err := tpr.lr.GetTPActions(tpr.tpid, actId)
if err != nil {
return err
}
as := MapTPActions(tpas)
for tag, tpacts := range as {
acts := make([]*Action, len(tpacts))
for idx, tpact := range tpacts {
// check filter field
if len(tpact.Filter) > 0 {
if _, err := structmatcher.NewStructMatcher(tpact.Filter); err != nil {
return fmt.Errorf("error parsing action %s filter field: %v", tag, err)
}
}
acts[idx] = &Action{
Id: tag,
ActionType: tpact.Identifier,
//BalanceType: tpact.BalanceType,
Weight: tpact.Weight,
ExtraParameters: tpact.ExtraParameters,
ExpirationString: tpact.ExpiryTime,
Filter: tpact.Filter,
Balance: &BalanceFilter{},
}
if tpact.BalanceId != "" && tpact.BalanceId != utils.ANY {
acts[idx].Balance.ID = utils.StringPointer(tpact.BalanceId)
}
if tpact.BalanceType != "" && tpact.BalanceType != utils.ANY {
acts[idx].Balance.Type = utils.StringPointer(tpact.BalanceType)
}
if tpact.Units != "" && tpact.Units != utils.ANY {
vf, err := utils.ParseBalanceFilterValue(tpact.BalanceType, tpact.Units)
if err != nil {
return err
}
acts[idx].Balance.Value = vf
}
if tpact.BalanceWeight != "" && tpact.BalanceWeight != utils.ANY {
u, err := strconv.ParseFloat(tpact.BalanceWeight, 64)
if err != nil {
return err
}
acts[idx].Balance.Weight = utils.Float64Pointer(u)
}
if tpact.RatingSubject != "" && tpact.RatingSubject != utils.ANY {
acts[idx].Balance.RatingSubject = utils.StringPointer(tpact.RatingSubject)
}
if tpact.Categories != "" && tpact.Categories != utils.ANY {
acts[idx].Balance.Categories = utils.StringMapPointer(utils.ParseStringMap(tpact.Categories))
}
if tpact.Directions != "" && tpact.Directions != utils.ANY {
acts[idx].Balance.Directions = utils.StringMapPointer(utils.ParseStringMap(tpact.Directions))
}
if tpact.DestinationIds != "" && tpact.DestinationIds != utils.ANY {
acts[idx].Balance.DestinationIDs = utils.StringMapPointer(utils.ParseStringMap(tpact.DestinationIds))
}
if tpact.SharedGroups != "" && tpact.SharedGroups != utils.ANY {
acts[idx].Balance.SharedGroups = utils.StringMapPointer(utils.ParseStringMap(tpact.SharedGroups))
}
if tpact.TimingTags != "" && tpact.TimingTags != utils.ANY {
acts[idx].Balance.TimingIDs = utils.StringMapPointer(utils.ParseStringMap(tpact.TimingTags))
}
if tpact.BalanceBlocker != "" && tpact.BalanceBlocker != utils.ANY {
u, err := strconv.ParseBool(tpact.BalanceBlocker)
if err != nil {
return err
}
acts[idx].Balance.Blocker = utils.BoolPointer(u)
}
if tpact.BalanceDisabled != "" && tpact.BalanceDisabled != utils.ANY {
u, err := strconv.ParseBool(tpact.BalanceDisabled)
if err != nil {
return err
}
acts[idx].Balance.Disabled = utils.BoolPointer(u)
}
// load action timings from tags
if tpact.TimingTags != "" {
timingIds := strings.Split(tpact.TimingTags, utils.INFIELD_SEP)
for _, timingID := range timingIds {
if timing, found := tpr.timings[timingID]; found {
acts[idx].Balance.Timings = append(acts[idx].Balance.Timings, &RITiming{
Years: timing.Years,
Months: timing.Months,
MonthDays: timing.MonthDays,
WeekDays: timing.WeekDays,
StartTime: timing.StartTime,
EndTime: timing.EndTime,
})
} else {
return fmt.Errorf("could not find timing: %v", timingID)
}
}
}
}
facts[tag] = acts
}
}
// write actions
for k, as := range facts {
err = tpr.dm.SetActions(k, as, utils.NonTransactional)
if err != nil {
return err
}
}
ub, err := tpr.dm.DataDB().GetAccount(id)
if err != nil {
ub = &Account{
ID: id,
}
}
ub.ActionTriggers = actionTriggers
// init counters
ub.InitCounters()
if err := tpr.dm.DataDB().SetAccount(ub); err != nil {
return err
}
}
return nil
}
func (tpr *TpReader) LoadAccountActions() (err error) {
tps, err := tpr.lr.GetTPAccountActions(&utils.TPAccountActions{TPid: tpr.tpid})
if err != nil {
return err
}
storAts, err := MapTPAccountActions(tps)
if err != nil {
return err
}
for _, aa := range storAts {
aaKeyID := aa.KeyId()
if _, alreadyDefined := tpr.accountActions[aa.KeyId()]; alreadyDefined {
return fmt.Errorf("duplicate account action found: %s", aaKeyID)
}
var aTriggers ActionTriggers
if aa.ActionTriggersId != "" {
var exists bool
if aTriggers, exists = tpr.actionsTriggers[aa.ActionTriggersId]; !exists {
return fmt.Errorf("could not get action triggers for tag %s", aa.ActionTriggersId)
}
}
ub := &Account{
ID: aaKeyID,
ActionTriggers: aTriggers,
AllowNegative: aa.AllowNegative,
Disabled: aa.Disabled,
}
ub.InitCounters()
tpr.accountActions[aaKeyID] = ub
if aa.ActionPlanId != "" {
actionPlan, exists := tpr.actionPlans[aa.ActionPlanId]
if !exists {
return fmt.Errorf("could not get action plan for tag %v", aa.ActionPlanId)
}
if actionPlan.AccountIDs == nil {
actionPlan.AccountIDs = make(utils.StringMap)
}
actionPlan.AccountIDs[aaKeyID] = true
if _, hasKey := tpr.acntActionPlans[aaKeyID]; !hasKey {
tpr.acntActionPlans[aaKeyID] = make([]string, 0)
}
tpr.acntActionPlans[aaKeyID] = append(tpr.acntActionPlans[aaKeyID], aa.ActionPlanId)
}
}
return nil
}
func (tpr *TpReader) LoadDerivedChargersFiltered(filter *utils.TPDerivedChargers, save bool) (err error) {
tps, err := tpr.lr.GetTPDerivedChargers(filter)
if err != nil {
return err
}
storDcs, err := MapTPDerivedChargers(tps)
if err != nil {
return err
}
for _, tpDcs := range storDcs {
tag := tpDcs.GetDerivedChargersKey()
if _, hasIt := tpr.derivedChargers[tag]; !hasIt {
tpr.derivedChargers[tag] = &utils.DerivedChargers{
DestinationIDs: make(utils.StringMap),
Chargers: make([]*utils.DerivedCharger, 0),
} // Load object map since we use this method also from LoadDerivedChargers
}
for _, tpDc := range tpDcs.DerivedChargers {
dc, err := utils.NewDerivedCharger(tpDc.RunId, tpDc.RunFilters, tpDc.ReqTypeField, tpDc.DirectionField, tpDc.TenantField, tpDc.CategoryField,
tpDc.AccountField, tpDc.SubjectField, tpDc.DestinationField, tpDc.SetupTimeField, tpDc.PddField, tpDc.AnswerTimeField, tpDc.UsageField, tpDc.SupplierField,
tpDc.DisconnectCauseField, tpDc.RatedField, tpDc.CostField)
if err != nil {
return err
}
tpr.derivedChargers[tag].DestinationIDs.Copy(utils.ParseStringMap(tpDcs.DestinationIds))
tpr.derivedChargers[tag].Chargers = append(tpr.derivedChargers[tag].Chargers, dc)
}
}
if save {
for dcsKey, dcs := range tpr.derivedChargers {
if err := tpr.dm.DataDB().SetDerivedChargers(dcsKey, dcs, utils.NonTransactional); err != nil {
return err
}
}
}
return nil
}
func (tpr *TpReader) LoadDerivedChargers() (err error) {
return tpr.LoadDerivedChargersFiltered(&utils.TPDerivedChargers{TPid: tpr.tpid}, false)
}
func (tpr *TpReader) LoadCdrStatsFiltered(tag string, save bool) (err error) {
tps, err := tpr.lr.GetTPCdrStats(tpr.tpid, tag)
if err != nil {
return err
}
storStats := MapTPCdrStats(tps)
var actionIDs []string // collect action ids
for tag, tpStats := range storStats {
for _, tpStat := range tpStats {
var cs *CdrStats
var exists bool
if cs, exists = tpr.cdrStats[tag]; !exists {
cs = &CdrStats{Id: tag}
}
// action triggers
triggerTag := tpStat.ActionTriggers
if triggerTag != "" {
_, exists := tpr.actionsTriggers[triggerTag]
if !exists {
tpatrs, err := tpr.lr.GetTPActionTriggers(tpr.tpid, triggerTag)
if err != nil {
return errors.New(err.Error() + " (ActionTriggers): " + triggerTag)
}
atrsM := MapTPActionTriggers(tpatrs)
for _, atrsLst := range atrsM {
atrs := make([]*ActionTrigger, len(atrsLst))
for idx, atr := range atrsLst {
minSleep, _ := utils.ParseDurationWithNanosecs(atr.MinSleep)
expTime, _ := utils.ParseTimeDetectLayout(atr.ExpirationDate, tpr.timezone)
actTime, _ := utils.ParseTimeDetectLayout(atr.ActivationDate, tpr.timezone)
if atr.UniqueID == "" {
atr.UniqueID = utils.GenUUID()
}
atrs[idx] = &ActionTrigger{
ID: triggerTag,
UniqueID: atr.UniqueID,
ThresholdType: atr.ThresholdType,
ThresholdValue: atr.ThresholdValue,
Recurrent: atr.Recurrent,
MinSleep: minSleep,
ExpirationDate: expTime,
ActivationDate: actTime,
Balance: &BalanceFilter{},
Weight: atr.Weight,
ActionsID: atr.ActionsId,
}
if atr.BalanceId != "" && atr.BalanceId != utils.ANY {
atrs[idx].Balance.ID = utils.StringPointer(atr.BalanceId)
}
if atr.BalanceType != "" && atr.BalanceType != utils.ANY {
atrs[idx].Balance.Type = utils.StringPointer(atr.BalanceType)
}
if atr.BalanceWeight != "" && atr.BalanceWeight != utils.ANY {
u, err := strconv.ParseFloat(atr.BalanceWeight, 64)
if err != nil {
return err
}
atrs[idx].Balance.Weight = utils.Float64Pointer(u)
}
if atr.BalanceExpirationDate != "" && atr.BalanceExpirationDate != utils.ANY && atr.ExpirationDate != utils.UNLIMITED {
u, err := utils.ParseTimeDetectLayout(atr.BalanceExpirationDate, tpr.timezone)
if err != nil {
return err
}
atrs[idx].Balance.ExpirationDate = utils.TimePointer(u)
}
if atr.BalanceRatingSubject != "" && atr.BalanceRatingSubject != utils.ANY {
atrs[idx].Balance.RatingSubject = utils.StringPointer(atr.BalanceRatingSubject)
}
if atr.BalanceCategories != "" && atr.BalanceCategories != utils.ANY {
atrs[idx].Balance.Categories = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceCategories))
}
if atr.BalanceDirections != "" && atr.BalanceDirections != utils.ANY {
atrs[idx].Balance.Directions = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceDirections))
}
if atr.BalanceDestinationIds != "" && atr.BalanceDestinationIds != utils.ANY {
atrs[idx].Balance.DestinationIDs = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceDestinationIds))
}
if atr.BalanceSharedGroups != "" && atr.BalanceSharedGroups != utils.ANY {
atrs[idx].Balance.SharedGroups = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceSharedGroups))
}
if atr.BalanceTimingTags != "" && atr.BalanceTimingTags != utils.ANY {
atrs[idx].Balance.TimingIDs = utils.StringMapPointer(utils.ParseStringMap(atr.BalanceTimingTags))
}
if atr.BalanceBlocker != "" && atr.BalanceBlocker != utils.ANY {
u, err := strconv.ParseBool(atr.BalanceBlocker)
if err != nil {
return err
}
atrs[idx].Balance.Blocker = utils.BoolPointer(u)
}
if atr.BalanceDisabled != "" && atr.BalanceDisabled != utils.ANY {
u, err := strconv.ParseBool(atr.BalanceDisabled)
if err != nil {
return err
}
atrs[idx].Balance.Disabled = utils.BoolPointer(u)
}
}
tpr.actionsTriggers[triggerTag] = atrs
}
}
// collect action ids from triggers
for _, atr := range tpr.actionsTriggers[triggerTag] {
actionIDs = append(actionIDs, atr.ActionsID)
}
}
triggers, exists := tpr.actionsTriggers[triggerTag]
if triggerTag != "" && !exists {
// only return error if there was something there for the tag
return fmt.Errorf("could not get action triggers for cdr stats id %s: %s", cs.Id, triggerTag)
}
// write action triggers
err = tpr.dm.SetActionTriggers(triggerTag, triggers, utils.NonTransactional)
if err != nil {
return errors.New(err.Error() + " (SetActionTriggers): " + triggerTag)
}
UpdateCdrStats(cs, triggers, tpStat, tpr.timezone)
tpr.cdrStats[tag] = cs
}
}
// actions
for _, actId := range actionIDs {
_, exists := tpr.actions[actId]
if !exists {
tpas, err := tpr.lr.GetTPActions(tpr.tpid, actId)
if err != nil {
return err
}
as := MapTPActions(tpas)
for tag, tpacts := range as {
acts := make([]*Action, len(tpacts))
for idx, tpact := range tpacts {
// check filter field
if len(tpact.Filter) > 0 {
if _, err := structmatcher.NewStructMatcher(tpact.Filter); err != nil {
return fmt.Errorf("error parsing action %s filter field: %v", tag, err)
}
}
acts[idx] = &Action{
Id: tag,
ActionType: tpact.Identifier,
//BalanceType: tpact.BalanceType,
Weight: tpact.Weight,
ExtraParameters: tpact.ExtraParameters,
ExpirationString: tpact.ExpiryTime,
Filter: tpact.Filter,
Balance: &BalanceFilter{},
}
if tpact.BalanceId != "" && tpact.BalanceId != utils.ANY {
acts[idx].Balance.ID = utils.StringPointer(tpact.BalanceId)
}
if tpact.BalanceType != "" && tpact.BalanceType != utils.ANY {
acts[idx].Balance.Type = utils.StringPointer(tpact.BalanceType)
}
if tpact.Units != "" && tpact.Units != utils.ANY {
vf, err := utils.ParseBalanceFilterValue(tpact.BalanceType, tpact.Units)
if err != nil {
return err
}
acts[idx].Balance.Value = vf
}
if tpact.BalanceWeight != "" && tpact.BalanceWeight != utils.ANY {
u, err := strconv.ParseFloat(tpact.BalanceWeight, 64)
if err != nil {
return err
}
acts[idx].Balance.Weight = utils.Float64Pointer(u)
}
if tpact.RatingSubject != "" && tpact.RatingSubject != utils.ANY {
acts[idx].Balance.RatingSubject = utils.StringPointer(tpact.RatingSubject)
}
if tpact.Categories != "" && tpact.Categories != utils.ANY {
acts[idx].Balance.Categories = utils.StringMapPointer(utils.ParseStringMap(tpact.Categories))
}
if tpact.Directions != "" && tpact.Directions != utils.ANY {
acts[idx].Balance.Directions = utils.StringMapPointer(utils.ParseStringMap(tpact.Directions))
}
if tpact.DestinationIds != "" && tpact.DestinationIds != utils.ANY {
acts[idx].Balance.DestinationIDs = utils.StringMapPointer(utils.ParseStringMap(tpact.DestinationIds))
}
if tpact.SharedGroups != "" && tpact.SharedGroups != utils.ANY {
acts[idx].Balance.SharedGroups = utils.StringMapPointer(utils.ParseStringMap(tpact.SharedGroups))
}
if tpact.TimingTags != "" && tpact.TimingTags != utils.ANY {
acts[idx].Balance.TimingIDs = utils.StringMapPointer(utils.ParseStringMap(tpact.TimingTags))
}
if tpact.BalanceBlocker != "" && tpact.BalanceBlocker != utils.ANY {
u, err := strconv.ParseBool(tpact.BalanceBlocker)
if err != nil {
return err
}
acts[idx].Balance.Blocker = utils.BoolPointer(u)
}
if tpact.BalanceDisabled != "" && tpact.BalanceDisabled != utils.ANY {
u, err := strconv.ParseBool(tpact.BalanceDisabled)
if err != nil {
return err
}
acts[idx].Balance.Disabled = utils.BoolPointer(u)
}
}
tpr.actions[tag] = acts
}
}
}
if save {
// write actions
for k, as := range tpr.actions {
err = tpr.dm.SetActions(k, as, utils.NonTransactional)
if err != nil {
return err
}
}
for _, stat := range tpr.cdrStats {
if err := tpr.dm.SetCdrStats(stat); err != nil {
return err
}
}
}
return nil
}
func (tpr *TpReader) LoadCdrStats() error {
return tpr.LoadCdrStatsFiltered("", false)
}
func (tpr *TpReader) LoadUsersFiltered(filter *utils.TPUsers) (bool, error) {
tpUsers, err := tpr.lr.GetTPUsers(filter)
if err != nil {
return false, err
}
for _, tpUser := range tpUsers {
user := &UserProfile{
Tenant: tpUser.Tenant,
UserName: tpUser.UserName,
Profile: make(map[string]string),
}
for _, up := range tpUser.Profile {
user.Profile[up.AttrName] = up.AttrValue
}
tpr.dm.SetUser(user)
}
return len(tpUsers) > 0, err
}
func (tpr *TpReader) LoadUsers() error {
tps, err := tpr.lr.GetTPUsers(&utils.TPUsers{TPid: tpr.tpid})
if err != nil {
return err
}
userMap, err := MapTPUsers(tps)
if err != nil {
return err
}
for key, usr := range userMap {
up, found := tpr.users[key]
if !found {
up = &UserProfile{
Tenant: usr.Tenant,
UserName: usr.UserName,
Profile: make(map[string]string),
}
tpr.users[key] = up
}
for _, p := range usr.Profile {
up.Profile[p.AttrName] = p.AttrValue
}
}
return err
}
func (tpr *TpReader) LoadAliasesFiltered(filter *utils.TPAliases) (bool, error) {
tpAliases, err := tpr.lr.GetTPAliases(filter)
alias := &Alias{
Direction: filter.Direction,
Tenant: filter.Tenant,
Category: filter.Category,
Account: filter.Account,
Subject: filter.Subject,
Context: filter.Context,
Values: make(AliasValues, 0),
}
for _, tpAlias := range tpAliases {
for _, aliasValue := range tpAlias.Values {
av := alias.Values.GetValueByDestId(aliasValue.DestinationId)
if av == nil {
av = &AliasValue{
DestinationId: aliasValue.DestinationId,
Pairs: make(AliasPairs),
Weight: aliasValue.Weight,
}
alias.Values = append(alias.Values, av)
}
if av.Pairs[aliasValue.Target] == nil {
av.Pairs[aliasValue.Target] = make(map[string]string)
}
av.Pairs[aliasValue.Target][aliasValue.Original] = aliasValue.Alias
}
}
tpr.dm.DataDB().SetAlias(alias, utils.NonTransactional)
tpr.dm.DataDB().SetReverseAlias(alias, utils.NonTransactional)
return len(tpAliases) > 0, err
}
func (tpr *TpReader) LoadAliases() error {
tps, err := tpr.lr.GetTPAliases(&utils.TPAliases{TPid: tpr.tpid})
if err != nil {
return err
}
alMap, err := MapTPAliases(tps)
if err != nil {
return err
}
for key, tal := range alMap {
al, found := tpr.aliases[key]
if !found {
al = &Alias{
Direction: tal.Direction,
Tenant: tal.Tenant,
Category: tal.Category,
Account: tal.Account,
Subject: tal.Subject,
Context: tal.Context,
Values: make(AliasValues, 0),
}
tpr.aliases[key] = al
}
for _, v := range tal.Values {
av := al.Values.GetValueByDestId(v.DestinationId)
if av == nil {
av = &AliasValue{
DestinationId: v.DestinationId,
Pairs: make(AliasPairs),
Weight: v.Weight,
}
al.Values = append(al.Values, av)
}
if av.Pairs[v.Target] == nil {
av.Pairs[v.Target] = make(map[string]string)
}
av.Pairs[v.Target][v.Original] = v.Alias
// Report reverse aliases keys which we need to reload late
rvAlsKey := v.Alias + v.Target + tal.Context
if _, hasIt := tpr.revAliases[rvAlsKey]; !hasIt {
tpr.revAliases[rvAlsKey] = make([]string, 0)
}
tpr.revAliases[rvAlsKey] = append(tpr.revAliases[rvAlsKey], utils.ConcatenatedKey(al.GetId(), v.DestinationId))
}
}
return err
}
func (tpr *TpReader) LoadResourceProfilesFiltered(tag string) (err error) {
rls, err := tpr.lr.GetTPResources(tpr.tpid, tag)
if err != nil {
return err
}
mapRsPfls := make(map[utils.TenantID]*utils.TPResource)
for _, rl := range rls {
mapRsPfls[utils.TenantID{Tenant: rl.Tenant, ID: rl.ID}] = rl
}
tpr.resProfiles = mapRsPfls
for tntID, res := range mapRsPfls {
if has, err := tpr.dm.HasData(utils.ResourcesPrefix, tntID.TenantID()); err != nil {
return err
} else if !has {
tpr.resources = append(tpr.resources, &utils.TenantID{Tenant: tntID.Tenant, ID: tntID.ID})
}
// index resource for filters
if _, has := tpr.resIndexers[tntID.Tenant]; !has {
if tpr.resIndexers[tntID.Tenant] = NewReqFilterIndexer(tpr.dm, utils.ResourceProfilesPrefix, tntID.Tenant); err != nil {
return
}
}
for _, fltrID := range res.FilterIDs {
tpFltr, has := tpr.filters[utils.TenantID{Tenant: tntID.Tenant, ID: fltrID}]
if !has {
var fltr *Filter
if fltr, err = tpr.dm.GetFilter(tntID.Tenant, fltrID, false, utils.NonTransactional); err != nil {
if err == utils.ErrNotFound {
err = fmt.Errorf("broken reference to filter: %+v for resoruce: %+v", fltrID, res)
}
return
} else {
tpFltr = FilterToTPFilter(fltr)
}
} else {
tpr.resIndexers[tntID.Tenant].IndexTPFilter(tpFltr, res.ID)
}
}
}
return nil
}
func (tpr *TpReader) LoadResourceProfiles() error {
return tpr.LoadResourceProfilesFiltered("")
}
func (tpr *TpReader) LoadStatsFiltered(tag string) (err error) {
tps, err := tpr.lr.GetTPStats(tpr.tpid, tag)
if err != nil {
return err
}
mapSTs := make(map[utils.TenantID]*utils.TPStats)
for _, st := range tps {
mapSTs[utils.TenantID{Tenant: st.Tenant, ID: st.ID}] = st
}
tpr.sqProfiles = mapSTs
for tntID, sq := range mapSTs {
if has, err := tpr.dm.HasData(utils.StatQueuePrefix, tntID.TenantID()); err != nil {
return err
} else if !has {
tpr.statQueues = append(tpr.statQueues, &utils.TenantID{Tenant: tntID.Tenant, ID: tntID.ID})
}
// index statQueues for filters
if _, has := tpr.sqpIndexers[tntID.Tenant]; !has {
if tpr.sqpIndexers[tntID.Tenant] = NewReqFilterIndexer(tpr.dm, utils.StatQueueProfilePrefix, tntID.Tenant); err != nil {
return
}
}
for _, fltrID := range sq.FilterIDs {
tpFltr, has := tpr.filters[utils.TenantID{Tenant: tntID.Tenant, ID: fltrID}]
if !has {
var fltr *Filter
if fltr, err = tpr.dm.GetFilter(tntID.Tenant, fltrID, false, utils.NonTransactional); err != nil {
if err == utils.ErrNotFound {
err = fmt.Errorf("broken reference to filter: %+v for statQueue: %+v", fltrID, sq)
}
return
} else {
tpFltr = FilterToTPFilter(fltr)
}
} else {
tpr.sqpIndexers[tntID.Tenant].IndexTPFilter(tpFltr, sq.ID)
}
}
}
return nil
}
func (tpr *TpReader) LoadStats() error {
return tpr.LoadStatsFiltered("")
}
func (tpr *TpReader) LoadThresholdsFiltered(tag string) (err error) {
tps, err := tpr.lr.GetTPThresholds(tpr.tpid, tag)
if err != nil {
return err
}
mapTHs := make(map[utils.TenantID]*utils.TPThreshold)
for _, th := range tps {
mapTHs[utils.TenantID{Tenant: th.Tenant, ID: th.ID}] = th
}
tpr.thProfiles = mapTHs
for tntID, th := range mapTHs {
if has, err := tpr.dm.HasData(utils.ThresholdPrefix, tntID.TenantID()); err != nil {
return err
} else if !has {
tpr.thresholds = append(tpr.thresholds, &utils.TenantID{Tenant: tntID.Tenant, ID: tntID.ID})
}
// index thresholds for filters
if _, has := tpr.thdsIndexers[tntID.Tenant]; !has {
if tpr.thdsIndexers[tntID.Tenant] = NewReqFilterIndexer(tpr.dm, utils.ThresholdProfilePrefix, tntID.Tenant); err != nil {
return
}
}
for _, fltrID := range th.FilterIDs {
tpFltr, has := tpr.filters[utils.TenantID{Tenant: tntID.Tenant, ID: fltrID}]
if !has {
var fltr *Filter
if fltr, err = tpr.dm.GetFilter(tntID.Tenant, fltrID, false, utils.NonTransactional); err != nil {
if err == utils.ErrNotFound {
err = fmt.Errorf("broken reference to filter: %+v for threshold: %+v", fltrID, th)
}
return
} else {
tpFltr = FilterToTPFilter(fltr)
}
} else {
tpr.thdsIndexers[tntID.Tenant].IndexTPFilter(tpFltr, th.ID)
}
}
}
return nil
}
func (tpr *TpReader) LoadThresholds() error {
return tpr.LoadThresholdsFiltered("")
}
func (tpr *TpReader) LoadFiltersFiltered(tag string) error {
tps, err := tpr.lr.GetTPFilters(tpr.tpid, tag)
if err != nil {
return err
}
mapTHs := make(map[utils.TenantID]*utils.TPFilterProfile)
for _, th := range tps {
mapTHs[utils.TenantID{Tenant: th.Tenant, ID: th.ID}] = th
}
tpr.filters = mapTHs
return nil
}
func (tpr *TpReader) LoadFilters() error {
return tpr.LoadFiltersFiltered("")
}
func (tpr *TpReader) LoadSupplierProfilesFiltered(tag string) (err error) {
rls, err := tpr.lr.GetTPSuppliers(tpr.tpid, tag)
if err != nil {
return err
}
mapRsPfls := make(map[utils.TenantID]*utils.TPSupplierProfile)
for _, rl := range rls {
mapRsPfls[utils.TenantID{Tenant: rl.Tenant, ID: rl.ID}] = rl
}
tpr.sppProfiles = mapRsPfls
for tntID, res := range mapRsPfls {
if has, err := tpr.dm.HasData(utils.SupplierProfilePrefix, tntID.TenantID()); err != nil {
return err
} else if !has {
tpr.suppliers = append(tpr.suppliers, &utils.TenantID{Tenant: tntID.Tenant, ID: tntID.ID})
}
// index supplier profile for filters
if _, has := tpr.sppIndexers[tntID.Tenant]; !has {
if tpr.sppIndexers[tntID.Tenant] = NewReqFilterIndexer(tpr.dm, utils.SupplierProfilePrefix, tntID.Tenant); err != nil {
return
}
}
for _, fltrID := range res.FilterIDs {
tpFltr, has := tpr.filters[utils.TenantID{Tenant: tntID.Tenant, ID: fltrID}]
if !has {
var fltr *Filter
if fltr, err = tpr.dm.GetFilter(tntID.Tenant, fltrID, false, utils.NonTransactional); err != nil {
if err == utils.ErrNotFound {
err = fmt.Errorf("broken reference to filter: %+v for resoruce: %+v", fltrID, res)
}
return
} else {
tpFltr = FilterToTPFilter(fltr)
}
} else {
tpr.sppIndexers[tntID.Tenant].IndexTPFilter(tpFltr, res.ID)
}
}
}
return nil
}
func (tpr *TpReader) LoadSupplierProfiles() error {
return tpr.LoadSupplierProfilesFiltered("")
}
func (tpr *TpReader) LoadAttributeProfilesFiltered(tag string) (err error) {
rls, err := tpr.lr.GetTPAttributes(tpr.tpid, tag)
if err != nil {
return err
}
mapRsPfls := make(map[utils.TenantID]*utils.TPAttributeProfile)
for _, rl := range rls {
mapRsPfls[utils.TenantID{Tenant: rl.Tenant, ID: rl.ID}] = rl
}
tpr.attributeProfiles = mapRsPfls
for tntID, res := range mapRsPfls {
if has, err := tpr.dm.HasData(utils.AttributeProfilePrefix, tntID.TenantID()); err != nil {
return err
} else if !has {
tpr.attrTntID = append(tpr.attrTntID, &utils.TenantID{Tenant: tntID.Tenant, ID: tntID.ID})
}
// index attribute profile for filters
attrKey := utils.ConcatenatedKey(tntID.Tenant, res.Context)
if _, has := tpr.attrIndexers[attrKey]; !has {
if tpr.attrIndexers[attrKey] = NewReqFilterIndexer(tpr.dm, utils.AttributeProfilePrefix, attrKey); err != nil {
return
}
}
for _, fltrID := range res.FilterIDs {
tpFltr, has := tpr.filters[utils.TenantID{Tenant: tntID.Tenant, ID: fltrID}]
if !has {
var fltr *Filter
if fltr, err = tpr.dm.GetFilter(tntID.Tenant, fltrID, false, utils.NonTransactional); err != nil {
if err == utils.ErrNotFound {
err = fmt.Errorf("broken reference to filter: %+v for resoruce: %+v", fltrID, res)
}
return
} else {
tpFltr = FilterToTPFilter(fltr)
}
} else {
tpr.attrIndexers[attrKey].IndexTPFilter(tpFltr, res.ID)
}
}
}
return nil
}
func (tpr *TpReader) LoadAttributeProfiles() error {
return tpr.LoadAttributeProfilesFiltered("")
}
func (tpr *TpReader) LoadAll() (err error) {
if err = tpr.LoadDestinations(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadTimings(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadRates(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadDestinationRates(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadRatingPlans(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadRatingProfiles(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadSharedGroups(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadLCRs(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadActions(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadActionPlans(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadActionTriggers(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadAccountActions(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadDerivedChargers(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadCdrStats(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadUsers(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadAliases(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadFilters(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadResourceProfiles(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadStats(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadThresholds(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadSupplierProfiles(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
if err = tpr.LoadAttributeProfiles(); err != nil && err.Error() != utils.NotFoundCaps {
return
}
return nil
}
func (tpr *TpReader) IsValid() bool {
valid := true
for rplTag, rpl := range tpr.ratingPlans {
if !rpl.isContinous() {
log.Printf("The rating plan %s is not covering all weekdays", rplTag)
valid = false
}
if crazyRate := rpl.getFirstUnsaneRating(); crazyRate != "" {
log.Printf("The rate %s is invalid", crazyRate)
valid = false
}
if crazyTiming := rpl.getFirstUnsaneTiming(); crazyTiming != "" {
log.Printf("The timing %s is invalid", crazyTiming)
valid = false
}
}
return valid
}
func (tpr *TpReader) WriteToDatabase(flush, verbose, disable_reverse bool) (err error) {
if tpr.dm.dataDB == nil {
return errors.New("no database connection")
}
if flush { // ToDo
//tpr.dm.DataDB().Flush("")
}
if verbose {
log.Print("Destinations:")
}
for _, d := range tpr.destinations {
err = tpr.dm.DataDB().SetDestination(d, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Print("\t", d.Id, " : ", d.Prefixes)
}
}
if verbose {
log.Print("Reverse Destinations:")
for id, vals := range tpr.revDests {
log.Printf("\t %s : %+v", id, vals)
}
}
if verbose {
log.Print("Rating Plans:")
}
for _, rp := range tpr.ratingPlans {
err = tpr.dm.SetRatingPlan(rp, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Print("\t", rp.Id)
}
}
if verbose {
log.Print("Rating Profiles:")
}
for _, rp := range tpr.ratingProfiles {
err = tpr.dm.SetRatingProfile(rp, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Print("\t", rp.Id)
}
}
if verbose {
log.Print("Action Plans:")
}
for k, ap := range tpr.actionPlans {
for _, at := range ap.ActionTimings {
if at.IsASAP() {
for accID := range ap.AccountIDs {
t := &Task{
Uuid: utils.GenUUID(),
AccountID: accID,
ActionsID: at.ActionsID,
}
if verbose {
log.Println("\tTask: ", t)
}
if err = tpr.dm.DataDB().PushTask(t); err != nil {
return err
}
}
if len(ap.AccountIDs) == 0 {
t := &Task{
Uuid: utils.GenUUID(),
ActionsID: at.ActionsID,
}
if verbose {
log.Println("\tTask: ", t)
}
if err = tpr.dm.DataDB().PushTask(t); err != nil {
return err
}
}
}
}
err = tpr.dm.DataDB().SetActionPlan(k, ap, false, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Println("\t", k)
}
}
if verbose {
log.Print("Account Action Plans:")
for id, vals := range tpr.acntActionPlans {
log.Printf("\t %s : %+v", id, vals)
}
}
if verbose {
log.Print("Action Triggers:")
}
for k, atrs := range tpr.actionsTriggers {
err = tpr.dm.SetActionTriggers(k, atrs, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Println("\t", k)
}
}
if verbose {
log.Print("Shared Groups:")
}
for k, sg := range tpr.sharedGroups {
err = tpr.dm.SetSharedGroup(sg, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Println("\t", k)
}
}
if verbose {
log.Print("LCR Rules:")
}
for k, lcr := range tpr.lcrs {
err = tpr.dm.SetLCR(lcr, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Println("\t", k)
}
}
if verbose {
log.Print("Actions:")
}
for k, as := range tpr.actions {
err = tpr.dm.SetActions(k, as, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Println("\t", k)
}
}
if verbose {
log.Print("Account Actions:")
}
for _, ub := range tpr.accountActions {
err = tpr.dm.DataDB().SetAccount(ub)
if err != nil {
return err
}
if verbose {
log.Println("\t", ub.ID)
}
}
if verbose {
log.Print("Derived Chargers:")
}
for key, dcs := range tpr.derivedChargers {
err = tpr.dm.DataDB().SetDerivedChargers(key, dcs, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Print("\t", key)
}
}
if verbose {
log.Print("CDR Stats Queues:")
}
for _, sq := range tpr.cdrStats {
err = tpr.dm.SetCdrStats(sq)
if err != nil {
return err
}
if verbose {
log.Print("\t", sq.Id)
}
}
if verbose {
log.Print("Users:")
}
for _, u := range tpr.users {
err = tpr.dm.SetUser(u)
if err != nil {
return err
}
if verbose {
log.Print("\t", u.GetId())
}
}
if verbose {
log.Print("Aliases:")
}
for _, al := range tpr.aliases {
err = tpr.dm.DataDB().SetAlias(al, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Print("\t", al.GetId())
}
}
if verbose {
log.Print("Reverse Aliases:")
for id, vals := range tpr.revAliases {
log.Printf("\t %s : %+v", id, vals)
}
}
if verbose {
log.Print("Filters:")
}
for _, tpTH := range tpr.filters {
th, err := APItoFilter(tpTH, tpr.timezone)
if err != nil {
return err
}
if err = tpr.dm.SetFilter(th); err != nil {
return err
}
if verbose {
log.Print("\t", th.TenantID())
}
}
if verbose {
log.Print("ResourceProfiles:")
}
for _, tpRsp := range tpr.resProfiles {
rsp, err := APItoResource(tpRsp, tpr.timezone)
if err != nil {
return err
}
if err = tpr.dm.SetResourceProfile(rsp); err != nil {
return err
}
if verbose {
log.Print("\t", rsp.TenantID())
}
}
if verbose {
log.Print("Resources:")
}
for _, rTid := range tpr.resources {
if err = tpr.dm.SetResource(&Resource{Tenant: rTid.Tenant, ID: rTid.ID, Usages: make(map[string]*ResourceUsage)}); err != nil {
return
}
if verbose {
log.Print("\t", rTid.TenantID())
}
}
if verbose {
log.Print("StatQueueProfiles:")
}
for _, tpST := range tpr.sqProfiles {
st, err := APItoStats(tpST, tpr.timezone)
if err != nil {
return err
}
if err = tpr.dm.SetStatQueueProfile(st); err != nil {
return err
}
if verbose {
log.Print("\t", st.TenantID())
}
}
if verbose {
log.Print("StatQueues:")
}
for _, sqTntID := range tpr.statQueues {
metrics := make(map[string]StatMetric)
for _, metricwithparam := range tpr.sqProfiles[utils.TenantID{Tenant: sqTntID.Tenant, ID: sqTntID.ID}].Metrics {
if metric, err := NewStatMetric(metricwithparam.MetricID,
tpr.sqProfiles[utils.TenantID{Tenant: sqTntID.Tenant, ID: sqTntID.ID}].MinItems, metricwithparam.Parameters); err != nil {
return err
} else {
metrics[metricwithparam.MetricID] = metric
}
}
sq := &StatQueue{Tenant: sqTntID.Tenant, ID: sqTntID.ID, SQMetrics: metrics}
if err = tpr.dm.SetStatQueue(sq); err != nil {
return
}
if verbose {
log.Print("\t", sqTntID.TenantID())
}
}
if verbose {
log.Print("ThresholdProfiles:")
}
for _, tpTH := range tpr.thProfiles {
th, err := APItoThresholdProfile(tpTH, tpr.timezone)
if err != nil {
return err
}
if err = tpr.dm.SetThresholdProfile(th, false); err != nil {
return err
}
if verbose {
log.Print("\t", th.TenantID())
}
}
if verbose {
log.Print("Thresholds:")
}
for _, thd := range tpr.thresholds {
if err = tpr.dm.SetThreshold(&Threshold{Tenant: thd.Tenant, ID: thd.ID}); err != nil {
return err
}
if verbose {
log.Print("\t", thd.TenantID())
}
}
if verbose {
log.Print("SupplierProfiles:")
}
for _, tpTH := range tpr.sppProfiles {
th, err := APItoSupplierProfile(tpTH, tpr.timezone)
if err != nil {
return err
}
if err = tpr.dm.SetSupplierProfile(th); err != nil {
return err
}
if verbose {
log.Print("\t", th.TenantID())
}
}
if verbose {
log.Print("AttributeProfiles:")
}
for _, tpTH := range tpr.attributeProfiles {
th, err := APItoAttributeProfile(tpTH, tpr.timezone)
if err != nil {
return err
}
if err = tpr.dm.SetAttributeProfile(th); err != nil {
return err
}
if verbose {
log.Print("\t", th.TenantID())
}
}
if verbose {
log.Print("Timings:")
}
for _, t := range tpr.timings {
if err = tpr.dm.SetTiming(t); err != nil {
return err
}
if verbose {
log.Print("\t", t.ID)
}
}
if !disable_reverse {
if len(tpr.destinations) > 0 {
if verbose {
log.Print("Rebuilding reverse destinations")
}
if err = tpr.dm.DataDB().RebuildReverseForPrefix(utils.REVERSE_DESTINATION_PREFIX); err != nil {
return err
}
}
if len(tpr.acntActionPlans) > 0 {
if verbose {
log.Print("Rebuilding account action plans")
}
if err = tpr.dm.DataDB().RebuildReverseForPrefix(utils.AccountActionPlansPrefix); err != nil {
return err
}
}
if len(tpr.aliases) > 0 {
if verbose {
log.Print("Rebuilding reverse aliases")
}
if err = tpr.dm.DataDB().RebuildReverseForPrefix(utils.REVERSE_ALIASES_PREFIX); err != nil {
return err
}
}
}
if verbose {
log.Print("Indexing resource profiles")
}
for tenant, fltrIdxer := range tpr.resIndexers {
if err := fltrIdxer.StoreIndexes(); err != nil {
return err
}
if verbose {
log.Printf("Tenant: %s, keys %+v", tenant, fltrIdxer.ChangedKeys(false).Slice())
}
if verbose {
log.Printf("Tenant: %s, keys %+v", tenant, fltrIdxer.ChangedKeys(true).Slice())
}
}
if verbose {
log.Print("StatQueue filter indexes:")
}
for tenant, fltrIdxer := range tpr.sqpIndexers {
if err := fltrIdxer.StoreIndexes(); err != nil {
return err
}
if verbose {
log.Printf("Tenant: %s, keys %+v", tenant, fltrIdxer.ChangedKeys(false).Slice())
}
if verbose {
log.Printf("Tenant: %s, keys %+v", tenant, fltrIdxer.ChangedKeys(true).Slice())
}
}
if verbose {
log.Print("Threshold filter indexes:")
}
for tenant, fltrIdxer := range tpr.thdsIndexers {
if err := fltrIdxer.StoreIndexes(); err != nil {
return err
}
if verbose {
log.Printf("Tenant: %s, keys %+v", tenant, fltrIdxer.ChangedKeys(false).Slice())
}
if verbose {
log.Printf("Tenant: %s, keys %+v", tenant, fltrIdxer.ChangedKeys(true).Slice())
}
}
if verbose {
log.Print("Indexing Supplier Profiles")
}
for tenant, fltrIdxer := range tpr.sppIndexers {
if err := fltrIdxer.StoreIndexes(); err != nil {
return err
}
if verbose {
log.Printf("Tenant: %s, keys %+v", tenant, fltrIdxer.ChangedKeys(false).Slice())
}
if verbose {
log.Printf("Tenant: %s, keys %+v", tenant, fltrIdxer.ChangedKeys(true).Slice())
}
}
if verbose {
log.Print("Indexing Attribute Profiles")
}
for tntCntx, fltrIdxer := range tpr.attrIndexers {
if err := fltrIdxer.StoreIndexes(); err != nil {
return err
}
if verbose {
log.Printf("Tenant:Context %s, keys %+v", tntCntx, fltrIdxer.ChangedKeys(false).Slice())
}
if verbose {
log.Printf("Tenant:Context %s, keys %+v", tntCntx, fltrIdxer.ChangedKeys(true).Slice())
}
}
return
}
func (tpr *TpReader) ShowStatistics() {
// destinations
destCount := len(tpr.destinations)
log.Print("Destinations: ", destCount)
prefixDist := make(map[int]int, 50)
prefixCount := 0
for _, d := range tpr.destinations {
prefixDist[len(d.Prefixes)] += 1
prefixCount += len(d.Prefixes)
}
log.Print("Avg Prefixes: ", prefixCount/destCount)
log.Print("Prefixes distribution:")
for k, v := range prefixDist {
log.Printf("%d: %d", k, v)
}
// rating plans
rplCount := len(tpr.ratingPlans)
log.Print("Rating plans: ", rplCount)
destRatesDist := make(map[int]int, 50)
destRatesCount := 0
for _, rpl := range tpr.ratingPlans {
destRatesDist[len(rpl.DestinationRates)] += 1
destRatesCount += len(rpl.DestinationRates)
}
log.Print("Avg Destination Rates: ", destRatesCount/rplCount)
log.Print("Destination Rates distribution:")
for k, v := range destRatesDist {
log.Printf("%d: %d", k, v)
}
// rating profiles
rpfCount := len(tpr.ratingProfiles)
log.Print("Rating profiles: ", rpfCount)
activDist := make(map[int]int, 50)
activCount := 0
for _, rpf := range tpr.ratingProfiles {
activDist[len(rpf.RatingPlanActivations)] += 1
activCount += len(rpf.RatingPlanActivations)
}
log.Print("Avg Activations: ", activCount/rpfCount)
log.Print("Activation distribution:")
for k, v := range activDist {
log.Printf("%d: %d", k, v)
}
// actions
log.Print("Actions: ", len(tpr.actions))
// action plans
log.Print("Action plans: ", len(tpr.actionPlans))
// action triggers
log.Print("Action triggers: ", len(tpr.actionsTriggers))
// account actions
log.Print("Account actions: ", len(tpr.accountActions))
// derivedChargers
log.Print("Derived Chargers: ", len(tpr.derivedChargers))
// lcr rules
log.Print("LCR rules: ", len(tpr.lcrs))
// cdr stats
log.Print("CDR stats: ", len(tpr.cdrStats))
// resource profiles
log.Print("ResourceProfiles: ", len(tpr.resProfiles))
// stats
log.Print("Stats: ", len(tpr.sqProfiles))
// thresholds
log.Print("Thresholds: ", len(tpr.thProfiles))
// filters
log.Print("Filters: ", len(tpr.filters))
// Supplier profiles
log.Print("SupplierProfiles: ", len(tpr.sppProfiles))
// Attribute profiles
log.Print("AttributeProfiles: ", len(tpr.attributeProfiles))
}
// Returns the identities loaded for a specific category, useful for cache reloads
func (tpr *TpReader) GetLoadedIds(categ string) ([]string, error) {
switch categ {
case utils.DESTINATION_PREFIX:
keys := make([]string, len(tpr.destinations))
i := 0
for k := range tpr.destinations {
keys[i] = k
i++
}
return keys, nil
case utils.REVERSE_DESTINATION_PREFIX:
keys := make([]string, len(tpr.revDests))
i := 0
for k := range tpr.revDests {
keys[i] = k
i++
}
return keys, nil
case utils.RATING_PLAN_PREFIX:
keys := make([]string, len(tpr.ratingPlans))
i := 0
for k := range tpr.ratingPlans {
keys[i] = k
i++
}
return keys, nil
case utils.RATING_PROFILE_PREFIX:
keys := make([]string, len(tpr.ratingProfiles))
i := 0
for k := range tpr.ratingProfiles {
keys[i] = k
i++
}
return keys, nil
case utils.ACTION_PREFIX:
keys := make([]string, len(tpr.actions))
i := 0
for k := range tpr.actions {
keys[i] = k
i++
}
return keys, nil
case utils.ACTION_PLAN_PREFIX: // actionPlans
keys := make([]string, len(tpr.actionPlans))
i := 0
for k := range tpr.actionPlans {
keys[i] = k
i++
}
return keys, nil
case utils.AccountActionPlansPrefix:
keys := make([]string, len(tpr.acntActionPlans))
i := 0
for k := range tpr.acntActionPlans {
keys[i] = k
i++
}
return keys, nil
case utils.DERIVEDCHARGERS_PREFIX: // derived chargers
keys := make([]string, len(tpr.derivedChargers))
i := 0
for k := range tpr.derivedChargers {
keys[i] = k
i++
}
return keys, nil
case utils.CDR_STATS_PREFIX: // cdr stats
keys := make([]string, len(tpr.cdrStats))
i := 0
for k := range tpr.cdrStats {
keys[i] = k
i++
}
return keys, nil
case utils.SHARED_GROUP_PREFIX:
keys := make([]string, len(tpr.sharedGroups))
i := 0
for k := range tpr.sharedGroups {
keys[i] = k
i++
}
return keys, nil
case utils.USERS_PREFIX:
keys := make([]string, len(tpr.users))
i := 0
for k := range tpr.users {
keys[i] = k
i++
}
return keys, nil
case utils.ALIASES_PREFIX:
keys := make([]string, len(tpr.aliases))
i := 0
for k := range tpr.aliases {
keys[i] = k
i++
}
return keys, nil
case utils.REVERSE_ALIASES_PREFIX:
keys := make([]string, len(tpr.revAliases))
i := 0
for k := range tpr.revAliases {
keys[i] = k
i++
}
return keys, nil
case utils.ResourceProfilesPrefix:
keys := make([]string, len(tpr.resProfiles))
i := 0
for k, _ := range tpr.resProfiles {
keys[i] = k.TenantID()
i++
}
return keys, nil
case utils.ACTION_TRIGGER_PREFIX:
keys := make([]string, len(tpr.actionsTriggers))
i := 0
for k := range tpr.actionsTriggers {
keys[i] = k
i++
}
return keys, nil
case utils.LCR_PREFIX:
keys := make([]string, len(tpr.lcrs))
i := 0
for k := range tpr.lcrs {
keys[i] = k
i++
}
return keys, nil
case utils.StatQueueProfilePrefix:
keys := make([]string, len(tpr.sqProfiles))
i := 0
for k, _ := range tpr.sqProfiles {
keys[i] = k.TenantID()
i++
}
return keys, nil
case utils.ThresholdProfilePrefix:
keys := make([]string, len(tpr.thProfiles))
i := 0
for k, _ := range tpr.thProfiles {
keys[i] = k.TenantID()
i++
}
return keys, nil
case utils.FilterPrefix:
keys := make([]string, len(tpr.filters))
i := 0
for k := range tpr.filters {
keys[i] = k.TenantID()
i++
}
return keys, nil
case utils.SupplierProfilePrefix:
keys := make([]string, len(tpr.sppProfiles))
i := 0
for k, _ := range tpr.sppProfiles {
keys[i] = k.TenantID()
i++
}
return keys, nil
case utils.AttributeProfilePrefix:
keys := make([]string, len(tpr.attributeProfiles))
i := 0
for k, _ := range tpr.attributeProfiles {
keys[i] = k.TenantID()
i++
}
return keys, nil
}
return nil, errors.New("Unsupported load category")
}
func (tpr *TpReader) RemoveFromDatabase(verbose, disable_reverse bool) (err error) {
for _, d := range tpr.destinations {
err = tpr.dm.DataDB().RemoveDestination(d.Id, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Print("\t", d.Id, " : ", d.Prefixes)
}
}
if verbose {
log.Print("Reverse Destinations:")
for id, vals := range tpr.revDests {
log.Printf("\t %s : %+v", id, vals)
}
}
if verbose {
log.Print("Rating Plans:")
}
for _, rp := range tpr.ratingPlans {
err = tpr.dm.RemoveRatingPlan(rp.Id, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Print("\t", rp.Id)
}
}
if verbose {
log.Print("Rating Profiles:")
}
for _, rp := range tpr.ratingProfiles {
err = tpr.dm.RemoveRatingProfile(rp.Id, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Print("\t", rp.Id)
}
}
if verbose {
log.Print("Action Plans:")
}
for k, _ := range tpr.actionPlans {
err = tpr.dm.DataDB().RemoveActionPlan(k, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Println("\t", k)
}
}
if verbose {
log.Print("Account Action Plans:")
for id, vals := range tpr.acntActionPlans {
log.Printf("\t %s : %+v", id, vals)
}
}
if verbose {
log.Print("Action Triggers:")
}
for k, _ := range tpr.actionsTriggers {
err = tpr.dm.RemoveActionTriggers(k, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Println("\t", k)
}
}
if verbose {
log.Print("Shared Groups:")
}
for k, _ := range tpr.sharedGroups {
err = tpr.dm.RemoveSharedGroup(k, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Println("\t", k)
}
}
if verbose {
log.Print("LCR Rules:")
}
for k, lcr := range tpr.lcrs {
err = tpr.dm.RemoveLCR(lcr.GetId(), utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Println("\t", k)
}
}
if verbose {
log.Print("Actions:")
}
for k, _ := range tpr.actions {
err = tpr.dm.RemoveActions(k, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Println("\t", k)
}
}
if verbose {
log.Print("Account Actions:")
}
for _, ub := range tpr.accountActions {
err = tpr.dm.DataDB().RemoveAccount(ub.ID)
if err != nil {
return err
}
if verbose {
log.Println("\t", ub.ID)
}
}
if verbose {
log.Print("Derived Chargers:")
}
for key, _ := range tpr.derivedChargers {
err = tpr.dm.RemoveDerivedChargers(key, utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Print("\t", key)
}
}
if verbose {
log.Print("CDR Stats Queues:")
}
for _, sq := range tpr.cdrStats {
err = tpr.dm.RemoveCdrStatsQueue(sq.Id)
if err != nil {
return err
}
if verbose {
log.Print("\t", sq.Id)
}
}
if verbose {
log.Print("Users:")
}
for _, u := range tpr.users {
err = tpr.dm.RemoveUser(u.GetId())
if err != nil {
return err
}
if verbose {
log.Print("\t", u.GetId())
}
}
if verbose {
log.Print("Aliases:")
}
for _, al := range tpr.aliases {
err = tpr.dm.DataDB().RemoveAlias(al.GetId(), utils.NonTransactional)
if err != nil {
return err
}
if verbose {
log.Print("\t", al.GetId())
}
}
if verbose {
log.Print("Reverse Aliases:")
for id, vals := range tpr.revAliases {
log.Printf("\t %s : %+v", id, vals)
}
}
if verbose {
log.Print("Filters:")
}
for _, tpTH := range tpr.filters {
if err = tpr.dm.RemoveFilter(tpTH.Tenant, tpTH.ID, utils.NonTransactional); err != nil {
return err
}
if verbose {
log.Print("\t", tpTH.Tenant)
}
}
if verbose {
log.Print("ResourceProfiles:")
}
for _, tpRsp := range tpr.resProfiles {
if err = tpr.dm.RemoveResourceProfile(tpRsp.Tenant, tpRsp.ID, utils.NonTransactional); err != nil {
return err
}
if verbose {
log.Print("\t", tpRsp.Tenant)
}
}
if verbose {
log.Print("Resources:")
}
for _, rTid := range tpr.resources {
if err = tpr.dm.RemoveResource(rTid.Tenant, rTid.ID, utils.NonTransactional); err != nil {
return
}
if verbose {
log.Print("\t", rTid.TenantID())
}
}
if verbose {
log.Print("StatQueueProfiles:")
}
for _, tpST := range tpr.sqProfiles {
if err = tpr.dm.RemoveStatQueueProfile(tpST.Tenant, tpST.ID, utils.NonTransactional); err != nil {
return err
}
if verbose {
log.Print("\t", tpST.Tenant)
}
}
if verbose {
log.Print("StatQueues:")
}
for _, sqTntID := range tpr.statQueues {
if err = tpr.dm.RemStatQueue(sqTntID.Tenant, sqTntID.ID, utils.NonTransactional); err != nil {
return
}
if verbose {
log.Print("\t", sqTntID.Tenant)
}
}
if verbose {
log.Print("ThresholdProfiles:")
}
for _, tpTH := range tpr.thProfiles {
if err = tpr.dm.RemoveThresholdProfile(tpTH.Tenant, tpTH.ID, utils.NonTransactional); err != nil {
return err
}
if verbose {
log.Print("\t", tpTH.Tenant)
}
}
if verbose {
log.Print("Thresholds:")
}
for _, thd := range tpr.thresholds {
if err = tpr.dm.RemoveThreshold(thd.Tenant, thd.ID, utils.NonTransactional); err != nil {
return err
}
if verbose {
log.Print("\t", thd.Tenant)
}
}
if verbose {
log.Print("SupplierProfiles:")
}
for _, tpTH := range tpr.sppProfiles {
if err = tpr.dm.RemoveSupplierProfile(tpTH.Tenant, tpTH.ID, utils.NonTransactional); err != nil {
return err
}
if verbose {
log.Print("\t", tpTH.Tenant)
}
}
if verbose {
log.Print("Timings:")
}
for _, t := range tpr.timings {
if err = tpr.dm.RemoveTiming(t.ID, utils.NonTransactional); err != nil {
return err
}
if verbose {
log.Print("\t", t.ID)
}
}
if !disable_reverse {
if len(tpr.destinations) > 0 {
if verbose {
log.Print("Removing reverse destinations")
}
if err = tpr.dm.DataDB().RemoveReverseForPrefix(utils.REVERSE_DESTINATION_PREFIX); err != nil {
return err
}
}
if len(tpr.acntActionPlans) > 0 {
if verbose {
log.Print("Removing account action plans")
}
if err = tpr.dm.DataDB().RemoveReverseForPrefix(utils.AccountActionPlansPrefix); err != nil {
return err
}
}
if len(tpr.aliases) > 0 {
if verbose {
log.Print("Removing reverse aliases")
}
if err = tpr.dm.DataDB().RemoveReverseForPrefix(utils.REVERSE_ALIASES_PREFIX); err != nil {
return err
}
}
if verbose {
log.Print("Indexing resource profiles")
}
for tenant, fltrIdxer := range tpr.resIndexers {
if err := tpr.dm.RemoveFilterIndexes(GetDBIndexKey(fltrIdxer.itemType, fltrIdxer.dbKeySuffix, false)); err != nil {
return err
}
if verbose {
log.Printf("Tenant: %s, keys %+v", tenant, fltrIdxer.ChangedKeys(false).Slice())
}
}
if verbose {
log.Print("StatQueue filter indexes:")
}
for tenant, fltrIdxer := range tpr.sqpIndexers {
if err := tpr.dm.RemoveFilterIndexes(GetDBIndexKey(fltrIdxer.itemType, fltrIdxer.dbKeySuffix, false)); err != nil {
return err
}
if verbose {
log.Printf("Tenant: %s, keys %+v", tenant, fltrIdxer.ChangedKeys(true).Slice())
}
}
if verbose {
log.Print("Threshold filter indexes:")
}
for tenant, fltrIdxer := range tpr.thdsIndexers {
if err := tpr.dm.RemoveFilterIndexes(GetDBIndexKey(fltrIdxer.itemType, fltrIdxer.dbKeySuffix, false)); err != nil {
return err
}
if verbose {
log.Printf("Tenant: %s, keys %+v", tenant, fltrIdxer.ChangedKeys(false).Slice())
}
}
if verbose {
log.Print("Indexing Supplier Profiles")
}
for tenant, fltrIdxer := range tpr.sppIndexers {
if err := tpr.dm.RemoveFilterIndexes(GetDBIndexKey(fltrIdxer.itemType, fltrIdxer.dbKeySuffix, false)); err != nil {
return err
}
if verbose {
log.Printf("Tenant: %s, keys %+v", tenant, fltrIdxer.ChangedKeys(true).Slice())
}
}
}
return
}
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