/* Real-time Online/Offline Charging System (OerS) 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 rates import ( "fmt" "time" "github.com/ericlagergren/decimal" "github.com/cgrates/birpc/context" "github.com/cgrates/cgrates/config" "github.com/cgrates/cgrates/engine" "github.com/cgrates/cgrates/utils" ) // NewRateS instantiates the RateS func NewRateS(cfg *config.CGRConfig, filterS *engine.FilterS, dm *engine.DataManager) *RateS { return &RateS{ cfg: cfg, filterS: filterS, dm: dm, } } // RateS calculates costs for events type RateS struct { cfg *config.CGRConfig filterS *engine.FilterS dm *engine.DataManager } // ListenAndServe keeps the service alive func (rS *RateS) ListenAndServe(stopChan, cfgRld chan struct{}) { utils.Logger.Info(fmt.Sprintf("<%s> starting <%s>", utils.CoreS, utils.RateS)) for { select { case <-stopChan: return case rld := <-cfgRld: // configuration was reloaded cfgRld <- rld } } } // Shutdown is called to shutdown the service func (rS *RateS) Shutdown() (err error) { utils.Logger.Info(fmt.Sprintf("<%s> shutdown <%s>", utils.CoreS, utils.RateS)) return } // matchingRateProfileForEvent returns the matched RateProfile for the given event func (rS *RateS) matchingRateProfileForEvent(ctx *context.Context, tnt string, rPfIDs []string, args *utils.CGREvent, ignoreFilters bool) (rtPfl *utils.RateProfile, err error) { evNm := utils.MapStorage{ utils.MetaReq: args.Event, utils.MetaOpts: args.APIOpts, } if len(rPfIDs) == 0 { ignoreFilters = false var rPfIDMp utils.StringSet if rPfIDMp, err = engine.MatchingItemIDsForEvent(ctx, evNm, rS.cfg.RateSCfg().StringIndexedFields, rS.cfg.RateSCfg().PrefixIndexedFields, rS.cfg.RateSCfg().SuffixIndexedFields, rS.dm, utils.CacheRateProfilesFilterIndexes, tnt, rS.cfg.RateSCfg().IndexedSelects, rS.cfg.RateSCfg().NestedFields, ); err != nil { return } rPfIDs = rPfIDMp.AsSlice() } var rpWw *rpWithWeight for _, rPfID := range rPfIDs { var rPf *utils.RateProfile if rPf, err = rS.dm.GetRateProfile(ctx, tnt, rPfID, true, true, utils.NonTransactional); err != nil { if err == utils.ErrNotFound { err = nil continue } return } if !ignoreFilters { var pass bool if pass, err = rS.filterS.Pass(ctx, tnt, rPf.FilterIDs, evNm); err != nil { return } else if !pass { continue } } var rPfWeight float64 if rPfWeight, err = engine.WeightFromDynamics(ctx, rPf.Weights, rS.filterS, tnt, evNm); err != nil { return } if rpWw == nil || rpWw.weight < rPfWeight { rpWw = &rpWithWeight{rPf, rPfWeight} } } if rpWw == nil { return nil, utils.ErrNotFound } return rpWw.RateProfile, nil } // rateProfileCostForEvent computes the rateProfileCost for an event based on a preselected rate profile func (rS *RateS) rateProfileCostForEvent(ctx *context.Context, rtPfl *utils.RateProfile, args *utils.CGREvent, verbosity int) (rpCost *utils.RateProfileCost, err error) { evNm := utils.MapStorage{ utils.MetaReq: args.Event, utils.MetaOpts: args.APIOpts, } rtIDs := utils.StringSet{} if rS.cfg.RateSCfg().RateIndexedSelects { if rtIDs, err = engine.MatchingItemIDsForEvent(ctx, evNm, rS.cfg.RateSCfg().RateStringIndexedFields, rS.cfg.RateSCfg().RatePrefixIndexedFields, rS.cfg.RateSCfg().RateSuffixIndexedFields, rS.dm, utils.CacheRateFilterIndexes, utils.ConcatenatedKey(args.Tenant, rtPfl.ID), rS.cfg.RateSCfg().RateIndexedSelects, rS.cfg.RateSCfg().RateNestedFields, ); err != nil { return } } else { for id := range rtPfl.Rates { rtIDs.Add(id) } } aRates := make([]*utils.Rate, 0, len(rtIDs)) for rtID := range rtIDs { rt := rtPfl.Rates[rtID] // pick the rate directly from map based on matched ID var pass bool if pass, err = rS.filterS.Pass(ctx, args.Tenant, rt.FilterIDs, evNm); err != nil { return } else if !pass { continue } aRates = append(aRates, rt) } // populate weights to be used on ordering wghts := make([]float64, len(aRates)) for i, aRt := range aRates { if wghts[i], err = engine.WeightFromDynamics(ctx, aRt.Weights, rS.filterS, args.Tenant, evNm); err != nil { return } } var sTime time.Time if sTime, err = engine.GetTimeOpts(ctx, args.Tenant, args, rS.filterS, rS.cfg.RateSCfg().Opts.StartTime, rS.cfg.GeneralCfg().DefaultTimezone, config.RatesStartTimeDftOpt, utils.OptsRatesStartTime, utils.MetaStartTime); err != nil { return } var usage *decimal.Big if usage, err = engine.GetDecimalBigOpts(ctx, args.Tenant, args, rS.filterS, rS.cfg.RateSCfg().Opts.Usage, config.RatesUsageDftOpt, utils.OptsRatesUsage, utils.MetaUsage); err != nil { return } var ordRts []*orderedRate if ordRts, err = orderRatesOnIntervals(aRates, wghts, sTime, usage, true, verbosity); err != nil { return } rpCost = &utils.RateProfileCost{ ID: rtPfl.ID, Rates: make(map[string]*utils.IntervalRate), } if rtPfl.MinCost != nil { rpCost.MinCost = rtPfl.MinCost } if rtPfl.MaxCost != nil { rpCost.MaxCost = rtPfl.MaxCost } var ivalStart *decimal.Big if ivalStart, err = engine.GetDecimalBigOpts(ctx, args.Tenant, args, rS.filterS, rS.cfg.RateSCfg().Opts.IntervalStart, config.RatesIntervalStartDftOpt, utils.OptsRatesIntervalStart); err != nil { return } var costIntervals []*utils.RateSInterval if costIntervals, err = computeRateSIntervals(ordRts, ivalStart, usage, rpCost.Rates); err != nil { return nil, err } rpCost.CostIntervals = make([]*utils.RateSIntervalCost, len(costIntervals)) finalCost := new(decimal.Big) for idx, costInt := range costIntervals { finalCost = utils.SumBig(finalCost, costInt.Cost(rpCost.Rates)) // sums the costs for all intervals rpCost.CostIntervals[idx] = costInt.AsRatesIntervalsCost() //this does not contains IncrementStart and IntervalStart so we convert in RatesIntervalCosts } rpCost.Cost = &utils.Decimal{finalCost} return } // V1CostForEvent will be called to calculate the cost for an event func (rS *RateS) V1CostForEvent(ctx *context.Context, args *utils.CGREvent, rpCost *utils.RateProfileCost) (err error) { var rPfIDs []string if rPfIDs, err = engine.GetStringSliceOpts(ctx, args.Tenant, args, rS.filterS, rS.cfg.RateSCfg().Opts.RateProfileIDs, config.RatesRateProfileIDsDftOpt, utils.OptsRatesRateProfileIDs); err != nil { return } var ignFilters bool if ignFilters, err = engine.GetBoolOpts(ctx, args.Tenant, args, rS.filterS, rS.cfg.RateSCfg().Opts.ProfileIgnoreFilters, config.RatesProfileIgnoreFiltersDftOpt, utils.MetaProfileIgnoreFilters); err != nil { return } var rtPrl *utils.RateProfile if rtPrl, err = rS.matchingRateProfileForEvent(ctx, args.Tenant, rPfIDs, args, ignFilters); err != nil { if err != utils.ErrNotFound { err = utils.NewErrServerError(err) } return } var rcvCost *utils.RateProfileCost if rcvCost, err = rS.rateProfileCostForEvent(ctx, rtPrl, args, rS.cfg.RateSCfg().Verbosity); err != nil { if err != utils.ErrNotFound { err = utils.NewErrServerError(err) } return } *rpCost = *rcvCost return }