/* Real-time Online/Offline Charging System (OCS) for Telecom & ISP environments Copyright (C) ITsysCOM GmbH This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see */ package engine import ( "log" "reflect" "sort" "strings" "testing" "time" "github.com/cgrates/cgrates/utils" "github.com/google/go-cmp/cmp" "github.com/google/go-cmp/cmp/cmpopts" ) var ( testTPID = "LoaderCSVTests" ) var csvr *TpReader func init() { var err error csvr, err = NewTpReader(dm.dataDB, NewStringCSVStorage(utils.CSVSep, DestinationsCSVContent, TimingsCSVContent, RatesCSVContent, DestinationRatesCSVContent, RatingPlansCSVContent, RatingProfilesCSVContent, SharedGroupsCSVContent, ActionsCSVContent, ActionPlansCSVContent, ActionTriggersCSVContent, AccountActionsCSVContent, ResourcesCSVContent, StatsCSVContent, TrendsCSVContent, RankingsCSVContent, ThresholdsCSVContent, FiltersCSVContent, RoutesCSVContent, AttributesCSVContent, ChargersCSVContent, DispatcherCSVContent, DispatcherHostCSVContent), testTPID, "", nil, nil, false) if err != nil { log.Print("error when creating TpReader:", err) } if err := csvr.LoadDestinations(); err != nil { log.Print("error in LoadDestinations:", err) } if err := csvr.LoadTimings(); err != nil { log.Print("error in LoadTimings:", err) } if err := csvr.LoadRates(); err != nil { log.Print("error in LoadRates:", err) } if err := csvr.LoadDestinationRates(); err != nil { log.Print("error in LoadDestRates:", err) } if err := csvr.LoadRatingPlans(); err != nil { log.Print("error in LoadRatingPlans:", err) } if err := csvr.LoadRatingProfiles(); err != nil { log.Print("error in LoadRatingProfiles:", err) } if err := csvr.LoadSharedGroups(); err != nil { log.Print("error in LoadSharedGroups:", err) } if err := csvr.LoadActions(); err != nil { log.Print("error in LoadActions:", err) } if err := csvr.LoadActionPlans(); err != nil { log.Print("error in LoadActionPlans:", err) } if err := csvr.LoadActionTriggers(); err != nil { log.Print("error in LoadActionTriggers:", err) } if err := csvr.LoadAccountActions(); err != nil { log.Print("error in LoadAccountActions:", err) } if err := csvr.LoadFilters(); err != nil { log.Print("error in LoadFilter:", err) } if err := csvr.LoadResourceProfiles(); err != nil { log.Print("error in LoadResourceProfiles:", err) } if err := csvr.LoadStats(); err != nil { log.Print("error in LoadStats:", err) } if err := csvr.LoadRankings(); err != nil { log.Print("error in LoadRankings:", err) } if err := csvr.LoadThresholds(); err != nil { log.Print("error in LoadThresholds:", err) } if err := csvr.LoadRouteProfiles(); err != nil { log.Print("error in LoadRouteProfiles:", err) } if err := csvr.LoadAttributeProfiles(); err != nil { log.Print("error in LoadAttributeProfiles:", err) } if err := csvr.LoadChargerProfiles(); err != nil { log.Print("error in LoadChargerProfiles:", err) } if err := csvr.LoadDispatcherProfiles(); err != nil { log.Print("error in LoadDispatcherProfiles:", err) } if err := csvr.LoadDispatcherHosts(); err != nil { log.Print("error in LoadDispatcherHosts:", err) } if err := csvr.WriteToDatabase(false, false); err != nil { log.Print("error when writing into database ", err) } } func TestLoadDestinations(t *testing.T) { if len(csvr.destinations) != 14 { t.Error("Failed to load destinations: ", len(csvr.destinations)) } for _, d := range csvr.destinations { switch d.Id { case "NAT": if !reflect.DeepEqual(d.Prefixes, []string{`0256`, `0257`, `0723`, `+49`}) { t.Error("Faild to load destinations", d) } case "ALL": if !reflect.DeepEqual(d.Prefixes, []string{`49`, `41`, `43`}) { t.Error("Faild to load destinations", d) } case "RET": if !reflect.DeepEqual(d.Prefixes, []string{`0723`, `0724`}) { t.Error("Faild to load destinations", d) } case "GERMANY": if !reflect.DeepEqual(d.Prefixes, []string{`49`}) { t.Error("Faild to load destinations", d) } case "GERMANY_O2": if !reflect.DeepEqual(d.Prefixes, []string{`41`}) { t.Error("Faild to load destinations", d) } case "GERMANY_PREMIUM": if !reflect.DeepEqual(d.Prefixes, []string{`43`}) { t.Error("Faild to load destinations", d) } case "PSTN_71": if !reflect.DeepEqual(d.Prefixes, []string{`+4971`}) { t.Error("Faild to load destinations", d) } case "PSTN_72": if !reflect.DeepEqual(d.Prefixes, []string{`+4972`}) { t.Error("Faild to load destinations", d) } case "PSTN_70": if !reflect.DeepEqual(d.Prefixes, []string{`+4970`}) { t.Error("Faild to load destinations", d) } } } } func TestLoadTimimgs(t *testing.T) { if len(csvr.timings) != 14 { t.Error("Failed to load timings: ", csvr.timings) } timing := csvr.timings["WORKDAYS_00"] if !reflect.DeepEqual(timing, &utils.TPTiming{ ID: "WORKDAYS_00", Years: utils.Years{}, Months: utils.Months{}, MonthDays: utils.MonthDays{}, WeekDays: utils.WeekDays{1, 2, 3, 4, 5}, StartTime: "00:00:00", }) { t.Error("Error loading timing: ", timing) } timing = csvr.timings["WORKDAYS_18"] if !reflect.DeepEqual(timing, &utils.TPTiming{ ID: "WORKDAYS_18", Years: utils.Years{}, Months: utils.Months{}, MonthDays: utils.MonthDays{}, WeekDays: utils.WeekDays{1, 2, 3, 4, 5}, StartTime: "18:00:00", }) { t.Error("Error loading timing: ", timing) } timing = csvr.timings["WEEKENDS"] if !reflect.DeepEqual(timing, &utils.TPTiming{ ID: "WEEKENDS", Years: utils.Years{}, Months: utils.Months{}, MonthDays: utils.MonthDays{}, WeekDays: utils.WeekDays{time.Saturday, time.Sunday}, StartTime: "00:00:00", }) { t.Error("Error loading timing: ", timing) } timing = csvr.timings["ONE_TIME_RUN"] if !reflect.DeepEqual(timing, &utils.TPTiming{ ID: "ONE_TIME_RUN", Years: utils.Years{2012}, Months: utils.Months{}, MonthDays: utils.MonthDays{}, WeekDays: utils.WeekDays{}, StartTime: "*asap", }) { t.Error("Error loading timing: ", timing) } } func TestLoadRates(t *testing.T) { if len(csvr.rates) != 15 { t.Error("Failed to load rates: ", len(csvr.rates)) } rate := csvr.rates["R1"].RateSlots[0] expctRs, err := utils.NewRateSlot(0, 0.2, "60s", "1s", "0s") if err != nil { t.Error("Error loading rate: ", rate, err.Error()) } else if !reflect.DeepEqual(rate, expctRs) || rate.RateUnitDuration() != expctRs.RateUnitDuration() || rate.RateIncrementDuration() != expctRs.RateIncrementDuration() || rate.GroupIntervalStartDuration() != expctRs.GroupIntervalStartDuration() { t.Error("Error loading rate: ", rate, expctRs) } rate = csvr.rates["R2"].RateSlots[0] if expctRs, err = utils.NewRateSlot(0, 0.1, "60s", "1s", "0s"); err != nil { t.Error("Error loading rate: ", rate, err.Error()) } else if !reflect.DeepEqual(rate, expctRs) || rate.RateUnitDuration() != expctRs.RateUnitDuration() || rate.RateIncrementDuration() != expctRs.RateIncrementDuration() || rate.GroupIntervalStartDuration() != expctRs.GroupIntervalStartDuration() { t.Errorf("Expecting: %+v, received: %+v", expctRs, rate) } rate = csvr.rates["R3"].RateSlots[0] if expctRs, err = utils.NewRateSlot(0, 0.05, "60s", "1s", "0s"); err != nil { t.Error("Error loading rate: ", rate, err.Error()) } else if !reflect.DeepEqual(rate, expctRs) || rate.RateUnitDuration() != expctRs.RateUnitDuration() || rate.RateIncrementDuration() != expctRs.RateIncrementDuration() || rate.GroupIntervalStartDuration() != expctRs.GroupIntervalStartDuration() { t.Error("Error loading rate: ", rate) } rate = csvr.rates["R4"].RateSlots[0] if expctRs, err = utils.NewRateSlot(1, 1.0, "1s", "1s", "0s"); err != nil { t.Error("Error loading rate: ", rate, err.Error()) } else if !reflect.DeepEqual(rate, expctRs) || rate.RateUnitDuration() != expctRs.RateUnitDuration() || rate.RateIncrementDuration() != expctRs.RateIncrementDuration() || rate.GroupIntervalStartDuration() != expctRs.GroupIntervalStartDuration() { t.Error("Error loading rate: ", rate) } rate = csvr.rates["R5"].RateSlots[0] if expctRs, err = utils.NewRateSlot(0, 0.5, "1s", "1s", "0s"); err != nil { t.Error("Error loading rate: ", rate, err.Error()) } else if !reflect.DeepEqual(rate, expctRs) || rate.RateUnitDuration() != expctRs.RateUnitDuration() || rate.RateIncrementDuration() != expctRs.RateIncrementDuration() || rate.GroupIntervalStartDuration() != expctRs.GroupIntervalStartDuration() { t.Error("Error loading rate: ", rate) } rate = csvr.rates["LANDLINE_OFFPEAK"].RateSlots[0] if expctRs, err = utils.NewRateSlot(0, 1, "1s", "60s", "0s"); err != nil { t.Error("Error loading rate: ", rate, err.Error()) } else if !reflect.DeepEqual(rate, expctRs) || rate.RateUnitDuration() != expctRs.RateUnitDuration() || rate.RateIncrementDuration() != expctRs.RateIncrementDuration() || rate.GroupIntervalStartDuration() != expctRs.GroupIntervalStartDuration() { t.Error("Error loading rate: ", rate) } rate = csvr.rates["LANDLINE_OFFPEAK"].RateSlots[1] if expctRs, err = utils.NewRateSlot(0, 1, "1s", "1s", "60s"); err != nil { t.Error("Error loading rate: ", rate, err.Error()) } else if !reflect.DeepEqual(rate, expctRs) || rate.RateUnitDuration() != expctRs.RateUnitDuration() || rate.RateIncrementDuration() != expctRs.RateIncrementDuration() || rate.GroupIntervalStartDuration() != expctRs.GroupIntervalStartDuration() { t.Error("Error loading rate: ", rate) } } func TestLoadDestinationRates(t *testing.T) { if len(csvr.destinationRates) != 15 { t.Error("Failed to load destinationrates: ", len(csvr.destinationRates)) } drs := csvr.destinationRates["RT_STANDARD"] dr := &utils.TPDestinationRate{ TPid: testTPID, ID: "RT_STANDARD", DestinationRates: []*utils.DestinationRate{ { DestinationId: "GERMANY", RateId: "R1", Rate: csvr.rates["R1"], RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, }, { DestinationId: "GERMANY_O2", RateId: "R2", Rate: csvr.rates["R2"], RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, }, { DestinationId: "GERMANY_PREMIUM", RateId: "R2", Rate: csvr.rates["R2"], RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, }, }, } if !reflect.DeepEqual(drs, dr) { t.Errorf("Error loading destination rate: \n%+v \n%+v", drs.DestinationRates[0], dr.DestinationRates[0]) } drs = csvr.destinationRates["RT_DEFAULT"] if !reflect.DeepEqual(drs, &utils.TPDestinationRate{ TPid: testTPID, ID: "RT_DEFAULT", DestinationRates: []*utils.DestinationRate{ { DestinationId: "ALL", RateId: "R2", Rate: csvr.rates["R2"], RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, }, }, }) { t.Errorf("Error loading destination rate: %+v", drs.DestinationRates[0]) } drs = csvr.destinationRates["RT_STD_WEEKEND"] if !reflect.DeepEqual(drs, &utils.TPDestinationRate{ TPid: testTPID, ID: "RT_STD_WEEKEND", DestinationRates: []*utils.DestinationRate{ { DestinationId: "GERMANY", RateId: "R2", Rate: csvr.rates["R2"], RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, }, { DestinationId: "GERMANY_O2", RateId: "R3", Rate: csvr.rates["R3"], RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, }, }, }) { t.Error("Error loading destination rate: ", drs) } drs = csvr.destinationRates["P1"] if !reflect.DeepEqual(drs, &utils.TPDestinationRate{ TPid: testTPID, ID: "P1", DestinationRates: []*utils.DestinationRate{ { DestinationId: "NAT", RateId: "R4", Rate: csvr.rates["R4"], RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, }, }, }) { t.Error("Error loading destination rate: ", drs) } drs = csvr.destinationRates["P2"] if !reflect.DeepEqual(drs, &utils.TPDestinationRate{ TPid: testTPID, ID: "P2", DestinationRates: []*utils.DestinationRate{ { DestinationId: "NAT", RateId: "R5", Rate: csvr.rates["R5"], RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, }, }, }) { t.Error("Error loading destination rate: ", drs) } drs = csvr.destinationRates["T1"] if !reflect.DeepEqual(drs, &utils.TPDestinationRate{ TPid: testTPID, ID: "T1", DestinationRates: []*utils.DestinationRate{ { DestinationId: "NAT", RateId: "LANDLINE_OFFPEAK", Rate: csvr.rates["LANDLINE_OFFPEAK"], RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, }, }, }) { t.Error("Error loading destination rate: ", drs) } drs = csvr.destinationRates["T2"] if !reflect.DeepEqual(drs, &utils.TPDestinationRate{ TPid: testTPID, ID: "T2", DestinationRates: []*utils.DestinationRate{ { DestinationId: "GERMANY", RateId: "GBP_72", Rate: csvr.rates["GBP_72"], RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, }, { DestinationId: "GERMANY_O2", RateId: "GBP_70", Rate: csvr.rates["GBP_70"], RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, }, { DestinationId: "GERMANY_PREMIUM", RateId: "GBP_71", Rate: csvr.rates["GBP_71"], RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, }, }, }) { t.Error("Error loading destination rate: ", drs) } } func TestLoadRatingPlans(t *testing.T) { if len(csvr.ratingPlans) != 14 { t.Error("Failed to load rating plans: ", len(csvr.ratingPlans)) } rplan := csvr.ratingPlans["STANDARD"] expected := &RatingPlan{ Id: "STANDARD", Timings: map[string]*RITiming{ "59a981b9": { Years: utils.Years{}, Months: utils.Months{}, MonthDays: utils.MonthDays{}, WeekDays: utils.WeekDays{1, 2, 3, 4, 5}, StartTime: "00:00:00", tag: "WORKDAYS_00", }, "2d9ca6c4": { Years: utils.Years{}, Months: utils.Months{}, MonthDays: utils.MonthDays{}, WeekDays: utils.WeekDays{1, 2, 3, 4, 5}, StartTime: "18:00:00", tag: "WORKDAYS_18", }, "ec8ed374": { Years: utils.Years{}, Months: utils.Months{}, MonthDays: utils.MonthDays{}, WeekDays: utils.WeekDays{time.Saturday, time.Sunday}, StartTime: "00:00:00", tag: "WEEKENDS", }, "83429156": { Years: utils.Years{}, Months: utils.Months{}, MonthDays: utils.MonthDays{}, WeekDays: utils.WeekDays{}, StartTime: "00:00:00", tag: "*any", }, }, Ratings: map[string]*RIRate{ "ebefae11": { ConnectFee: 0, Rates: []*RGRate{ { GroupIntervalStart: 0, Value: 0.2, RateIncrement: time.Second, RateUnit: time.Minute, }, }, RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, tag: "R1", }, "fac0138e": { ConnectFee: 0, Rates: []*RGRate{ { GroupIntervalStart: 0, Value: 0.1, RateIncrement: time.Second, RateUnit: time.Minute, }, }, RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, tag: "R2", }, "781bfa03": { ConnectFee: 0, Rates: []*RGRate{ { GroupIntervalStart: 0, Value: 0.05, RateIncrement: time.Second, RateUnit: time.Minute, }, }, RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, tag: "R3", }, "f692daa4": { ConnectFee: 0, Rates: []*RGRate{ { GroupIntervalStart: 0, Value: 0, RateIncrement: time.Second, RateUnit: time.Second, }, }, RoundingMethod: utils.MetaRoundingMiddle, RoundingDecimals: 4, tag: "R_URG", }, }, DestinationRates: map[string]RPRateList{ "GERMANY": []*RPRate{ { Timing: "ec8ed374", Rating: "ebefae11", Weight: 10, }, { Timing: "83429156", Rating: "fac0138e", Weight: 10, }, { Timing: "a60bfb13", Rating: "fac0138e", Weight: 10, }, }, "GERMANY_O2": []*RPRate{ { Timing: "ec8ed374", Rating: "fac0138e", Weight: 10, }, { Timing: "83429156", Rating: "781bfa03", Weight: 10, }, { Timing: "a60bfb13", Rating: "781bfa03", Weight: 10, }, }, "GERMANY_PREMIUM": []*RPRate{ { Timing: "ec8ed374", Rating: "16e9ee19", Weight: 10, }, }, "URG": []*RPRate{ { Timing: "2d9ca64", Rating: "f692daa4", Weight: 20, }, }, }, } if !reflect.DeepEqual(rplan.Ratings, expected.Ratings) { /*for tag, key := range rplan.Ratings { log.Print(tag, key) }*/ t.Errorf("Expecting:\n%s\nReceived:\n%s", utils.ToIJSON(expected.Ratings), utils.ToIJSON(rplan.Ratings)) } anyTiming := &RITiming{ ID: utils.MetaAny, Years: utils.Years{}, Months: utils.Months{}, MonthDays: utils.MonthDays{}, WeekDays: utils.WeekDays{}, StartTime: "00:00:00", EndTime: "", cronString: "", tag: utils.MetaAny, } if !reflect.DeepEqual(csvr.ratingPlans["ANY_PLAN"].Timings["b9b78731"], anyTiming) { t.Errorf("Error using *any timing in rating plans: %+v : %+v", utils.ToJSON(csvr.ratingPlans["ANY_PLAN"].Timings["b9b78731"]), utils.ToJSON(anyTiming)) } } func TestLoadRatingProfiles(t *testing.T) { if len(csvr.ratingProfiles) != 24 { t.Error("Failed to load rating profiles: ", len(csvr.ratingProfiles), csvr.ratingProfiles) } rp := csvr.ratingProfiles["*out:test:0:trp"] expected := &RatingProfile{ Id: "*out:test:0:trp", RatingPlanActivations: RatingPlanActivations{ &RatingPlanActivation{ ActivationTime: time.Date(2013, 10, 1, 0, 0, 0, 0, time.UTC), RatingPlanId: "TDRT", FallbackKeys: []string{"*out:test:0:rif", "*out:test:0:danb"}, }}, } if !reflect.DeepEqual(rp, expected) { t.Errorf("Error loading rating profile: %+v", rp.RatingPlanActivations[0]) } } func TestLoadActions(t *testing.T) { if len(csvr.actions) != 16 { t.Error("Failed to load actions: ", len(csvr.actions)) } as1 := csvr.actions["MINI"] expected := []*Action{ { Id: "MINI", ActionType: utils.MetaTopUpReset, ExpirationString: utils.MetaUnlimited, ExtraParameters: "", Weight: 10, Balance: &BalanceFilter{ Type: utils.StringPointer(utils.MetaMonetary), Uuid: as1[0].Balance.Uuid, Value: &utils.ValueFormula{Static: 10}, Weight: utils.Float64Pointer(10), DestinationIDs: nil, TimingIDs: nil, SharedGroups: nil, Categories: nil, Disabled: utils.BoolPointer(false), Blocker: utils.BoolPointer(false), }, }, { Id: "MINI", ActionType: utils.MetaTopUp, ExpirationString: utils.MetaUnlimited, ExtraParameters: "", Weight: 10, Balance: &BalanceFilter{ Type: utils.StringPointer(utils.MetaVoice), Uuid: as1[1].Balance.Uuid, Value: &utils.ValueFormula{Static: 100 * float64(time.Second)}, Weight: utils.Float64Pointer(10), RatingSubject: utils.StringPointer("test"), DestinationIDs: utils.StringMapPointer(utils.NewStringMap("NAT")), TimingIDs: nil, SharedGroups: nil, Categories: nil, Disabled: utils.BoolPointer(false), Blocker: utils.BoolPointer(false), }, }, } if !reflect.DeepEqual(as1, expected) { t.Errorf("expecting: %s received: %s", utils.ToIJSON(expected), utils.ToIJSON(as1)) } as2 := csvr.actions["SHARED"] expected = []*Action{ { Id: "SHARED", ActionType: utils.MetaTopUp, ExpirationString: utils.MetaUnlimited, Weight: 10, Balance: &BalanceFilter{ Type: utils.StringPointer(utils.MetaMonetary), DestinationIDs: nil, Uuid: as2[0].Balance.Uuid, Value: &utils.ValueFormula{Static: 100}, Weight: utils.Float64Pointer(10), SharedGroups: utils.StringMapPointer(utils.NewStringMap("SG1")), TimingIDs: nil, Categories: nil, Disabled: utils.BoolPointer(false), Blocker: utils.BoolPointer(false), }, }, } if !reflect.DeepEqual(as2, expected) { t.Errorf("Error loading action: %s", utils.ToIJSON(as2)) } as3 := csvr.actions["DEFEE"] expected = []*Action{ { Id: "DEFEE", ActionType: utils.CDRLog, ExtraParameters: `{"Category":"^ddi","MediationRunId":"^did_run"}`, Weight: 10, Balance: &BalanceFilter{ Uuid: as3[0].Balance.Uuid, DestinationIDs: nil, TimingIDs: nil, Categories: nil, SharedGroups: nil, Blocker: utils.BoolPointer(false), Disabled: utils.BoolPointer(false), }, }, } if !reflect.DeepEqual(as3, expected) { t.Errorf("Error loading action: %+v", as3[0].Balance) } asGnrc := csvr.actions["TOPUP_RST_GNR_1000"] //TOPUP_RST_GNR_1000,*topup_reset,"{""*voice"": 60.0,""*data"":1024.0,""*sms"":1.0}",,,*generic,*out,,*any,,,*unlimited,,1000,20,false,false,10 expected = []*Action{ { Id: "TOPUP_RST_GNR_1000", ActionType: utils.MetaTopUpReset, ExtraParameters: `{"*voice": 60.0,"*data":1024.0,"*sms":1.0}`, Weight: 10, ExpirationString: utils.MetaUnlimited, Balance: &BalanceFilter{ Uuid: asGnrc[0].Balance.Uuid, Type: utils.StringPointer(utils.MetaGeneric), Value: &utils.ValueFormula{Static: 1000}, Weight: utils.Float64Pointer(20), Disabled: utils.BoolPointer(false), Blocker: utils.BoolPointer(false), }, }, } if !reflect.DeepEqual(asGnrc, expected) { t.Errorf("Expecting: %+v, received: %+v", expected[0].Balance, asGnrc[0].Balance) } } func TestLoadSharedGroups(t *testing.T) { if len(csvr.sharedGroups) != 3 { t.Error("Failed to shared groups: ", csvr.sharedGroups) } sg1 := csvr.sharedGroups["SG1"] expected := &SharedGroup{ Id: "SG1", AccountParameters: map[string]*SharingParameters{ "*any": { Strategy: "*lowest", RatingSubject: "", }, }, } if !reflect.DeepEqual(sg1, expected) { t.Errorf("Expected: %s, received %s ", utils.ToJSON(expected), utils.ToJSON(sg1)) } sg2 := csvr.sharedGroups["SG2"] expected = &SharedGroup{ Id: "SG2", AccountParameters: map[string]*SharingParameters{ "*any": { Strategy: "*lowest", RatingSubject: "one", }, }, } if !reflect.DeepEqual(sg2, expected) { t.Errorf("Expected: %s, received %s ", utils.ToJSON(expected), utils.ToJSON(sg2)) } /*sg, _ := dataStorage.GetSharedGroup("SG1", false) if len(sg.Members) != 0 { t.Errorf("Memebers should be empty: %+v", sg) } // execute action timings to fill memebers atm := csvr.actionPlans["MORE_MINUTES"][1] atm.Execute() atm.actions, atm.stCache = nil, time.Time{} sg, _ = dataStorage.GetSharedGroup("SG1", false) if len(sg.Members) != 1 { t.Errorf("Memebers should not be empty: %+v", sg) }*/ } func TestLoadActionTimings(t *testing.T) { if len(csvr.actionPlans) != 9 { t.Error("Failed to load action timings: ", len(csvr.actionPlans)) } atm := csvr.actionPlans["MORE_MINUTES"] expected := &ActionPlan{ Id: "MORE_MINUTES", AccountIDs: utils.StringMap{}, ActionTimings: []*ActionTiming{ { Uuid: atm.ActionTimings[0].Uuid, Timing: &RateInterval{ Timing: &RITiming{ ID: "ONE_TIME_RUN", Years: utils.Years{2012}, Months: utils.Months{}, MonthDays: utils.MonthDays{}, WeekDays: utils.WeekDays{}, StartTime: utils.MetaASAP, }, }, Weight: 10, ActionsID: "MINI", }, { Uuid: atm.ActionTimings[1].Uuid, Timing: &RateInterval{ Timing: &RITiming{ ID: "ONE_TIME_RUN", Years: utils.Years{2012}, Months: utils.Months{}, MonthDays: utils.MonthDays{}, WeekDays: utils.WeekDays{}, StartTime: utils.MetaASAP, }, }, Weight: 10, ActionsID: "SHARED", }, }, } if !reflect.DeepEqual(atm, expected) { t.Errorf("Error loading action timing:\n%+v", utils.ToJSON(atm)) } } func TestLoadActionTriggers(t *testing.T) { if len(csvr.actionsTriggers) != 2 { t.Error("Failed to load action triggers: ", len(csvr.actionsTriggers)) } atr := csvr.actionsTriggers["STANDARD_TRIGGER"][0] expected := &ActionTrigger{ ID: "STANDARD_TRIGGER", UniqueID: "st0", ThresholdType: utils.TriggerMinEventCounter, ThresholdValue: 10, Balance: &BalanceFilter{ ID: nil, Type: utils.StringPointer(utils.MetaVoice), DestinationIDs: utils.StringMapPointer(utils.NewStringMap("GERMANY_O2")), Categories: nil, TimingIDs: nil, SharedGroups: nil, Disabled: nil, Blocker: nil, }, Weight: 10, ActionsID: "SOME_1", Executed: false, } if !reflect.DeepEqual(atr, expected) { t.Errorf("Expected: %+v, received %+v", utils.ToJSON(expected), utils.ToJSON(atr)) } atr = csvr.actionsTriggers["STANDARD_TRIGGER"][1] expected = &ActionTrigger{ ID: "STANDARD_TRIGGER", UniqueID: "st1", ThresholdType: utils.TriggerMaxBalance, ThresholdValue: 200, Balance: &BalanceFilter{ Type: utils.StringPointer(utils.MetaVoice), DestinationIDs: utils.StringMapPointer(utils.NewStringMap("GERMANY")), Categories: nil, TimingIDs: nil, SharedGroups: nil, }, Weight: 10, ActionsID: "SOME_2", Executed: false, } if !reflect.DeepEqual(atr, expected) { t.Errorf("Error loading action trigger: %+v", atr) } } func TestLoadAccountActions(t *testing.T) { if len(csvr.accountActions) != 17 { t.Error("Failed to load account actions: ", len(csvr.accountActions)) } aa := csvr.accountActions["vdf:minitsboy"] expected := &Account{ ID: "vdf:minitsboy", UnitCounters: UnitCounters{ utils.MetaVoice: []*UnitCounter{ { CounterType: "*event", Counters: CounterFilters{ &CounterFilter{ Value: 0, Filter: &BalanceFilter{ ID: utils.StringPointer("st0"), Type: utils.StringPointer(utils.MetaVoice), DestinationIDs: utils.StringMapPointer(utils.NewStringMap("GERMANY_O2")), SharedGroups: nil, Categories: nil, TimingIDs: nil, }, }, }, }, }, }, ActionTriggers: csvr.actionsTriggers["STANDARD_TRIGGER"], } // set propper uuid for i, atr := range aa.ActionTriggers { csvr.actionsTriggers["STANDARD_TRIGGER"][i].ID = atr.ID } for i, b := range aa.UnitCounters[utils.MetaVoice][0].Counters { expected.UnitCounters[utils.MetaVoice][0].Counters[i].Filter.ID = b.Filter.ID } if !reflect.DeepEqual(aa.UnitCounters[utils.MetaVoice][0].Counters[0], expected.UnitCounters[utils.MetaVoice][0].Counters[0]) { t.Errorf("Error loading account action: %+v", utils.ToIJSON(aa.UnitCounters[utils.MetaVoice][0].Counters[0].Filter)) } // test that it does not overwrite balances existing, err := dm.GetAccount(aa.ID) if err != nil || len(existing.BalanceMap) != 2 { t.Errorf("The account was not set before load: %+v", existing) } dm.SetAccount(aa) existing, err = dm.GetAccount(aa.ID) if err != nil || len(existing.BalanceMap) != 2 { t.Errorf("The set account altered the balances: %+v", existing) } } func TestLoadResourceProfiles(t *testing.T) { eResProfiles := map[utils.TenantID]*utils.TPResourceProfile{ {Tenant: "cgrates.org", ID: "ResGroup21"}: { TPid: testTPID, Tenant: "cgrates.org", ID: "ResGroup21", FilterIDs: []string{"*string:~*req.Account:1001"}, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, UsageTTL: "1s", AllocationMessage: "call", Weight: 10, Limit: "2", Blocker: true, Stored: true, }, {Tenant: "cgrates.org", ID: "ResGroup22"}: { TPid: testTPID, Tenant: "cgrates.org", ID: "ResGroup22", FilterIDs: []string{"*string:~*req.Account:dan"}, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, UsageTTL: "3600s", AllocationMessage: "premium_call", Blocker: true, Stored: true, Weight: 10, Limit: "2", }, } resKey := utils.TenantID{Tenant: "cgrates.org", ID: "ResGroup21"} if len(csvr.resProfiles) != len(eResProfiles) { t.Errorf("Failed to load ResourceProfiles: %s", utils.ToIJSON(csvr.resProfiles)) } else if !reflect.DeepEqual(eResProfiles[resKey], csvr.resProfiles[resKey]) { t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eResProfiles[resKey]), utils.ToJSON(csvr.resProfiles[resKey])) } } func TestLoadStatQueueProfiles(t *testing.T) { eStats := map[utils.TenantID]*utils.TPStatProfile{ {Tenant: "cgrates.org", ID: "TestStats"}: { Tenant: "cgrates.org", TPid: testTPID, ID: "TestStats", FilterIDs: []string{"*string:~*req.Account:1001"}, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, QueueLength: 100, TTL: "1s", Metrics: []*utils.MetricWithFilters{ { MetricID: "*sum#Value", }, { MetricID: "*sum#Usage", }, { MetricID: "*average#Value", }, }, ThresholdIDs: []string{"Th1", "Th2"}, Blocker: true, Stored: true, Weight: 20, MinItems: 2, }, {Tenant: "cgrates.org", ID: "TestStats2"}: { Tenant: "cgrates.org", TPid: testTPID, ID: "TestStats2", FilterIDs: []string{"FLTR_1"}, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, QueueLength: 100, TTL: "1s", Metrics: []*utils.MetricWithFilters{ { MetricID: "*sum#Value", }, { MetricID: "*sum#Usage", }, { FilterIDs: []string{"*string:Account:1001"}, MetricID: "*sum#Cost", }, { MetricID: "*average#Value", }, { MetricID: "*average#Usage", }, { FilterIDs: []string{"*string:Account:1001"}, MetricID: "*average#Cost", }, }, ThresholdIDs: []string{"Th"}, Blocker: true, Stored: true, Weight: 20, MinItems: 2, }, } stKeys := []utils.TenantID{ {Tenant: "cgrates.org", ID: "TestStats"}, {Tenant: "cgrates.org", ID: "TestStats2"}, } for _, stKey := range stKeys { if len(csvr.sqProfiles) != len(eStats) { t.Errorf("Failed to load StatQueueProfiles: %s", utils.ToJSON(csvr.sqProfiles)) } else if !reflect.DeepEqual(eStats[stKey].Tenant, csvr.sqProfiles[stKey].Tenant) { t.Errorf("Expecting: %s, received: %s", eStats[stKey].Tenant, csvr.sqProfiles[stKey].Tenant) } else if !reflect.DeepEqual(eStats[stKey].ID, csvr.sqProfiles[stKey].ID) { t.Errorf("Expecting: %s, received: %s", eStats[stKey].ID, csvr.sqProfiles[stKey].ID) } else if !reflect.DeepEqual(len(eStats[stKey].ThresholdIDs), len(csvr.sqProfiles[stKey].ThresholdIDs)) { t.Errorf("Expecting: %s, received: %s", utils.ToJSON(eStats[stKey].ThresholdIDs), utils.ToJSON(csvr.sqProfiles[stKey].ThresholdIDs)) } else if !reflect.DeepEqual(len(eStats[stKey].Metrics), len(csvr.sqProfiles[stKey].Metrics)) { t.Errorf("Expecting: %s, \n received: %s", utils.ToJSON(eStats[stKey].Metrics), utils.ToJSON(csvr.sqProfiles[stKey].Metrics)) } } } func TestLoadRankingProfiles(t *testing.T) { eRankings := map[utils.TenantID]*utils.TPRankingProfile{ {Tenant: "cgrates.org", ID: "Ranking1"}: { TPid: testTPID, Tenant: "cgrates.org", ID: "Ranking1", QueryInterval: "15m", StatIDs: []string{"Stats2", "Stats3", "Stats4"}, MetricIDs: []string{"Metric1", "Metric3"}, Sorting: "*asc", ThresholdIDs: []string{"THD1", "THD2"}, }, } rgkey := utils.TenantID{Tenant: "cgrates.org", ID: "RANKING1"} if len(eRankings) != len(csvr.rgProfiles) { t.Errorf("Failed to load RankingProfiles: %+v", csvr.rgProfiles) } else if diff := cmp.Diff(eRankings[rgkey], csvr.rgProfiles[rgkey], cmpopts.SortSlices(func(a, b string) bool { return a < b })); diff != "" { t.Errorf("Wrong TPRankingProfiles (-expected +got):\n%s", diff) } } func TestLoadThresholdProfiles(t *testing.T) { eThresholds := map[utils.TenantID]*utils.TPThresholdProfile{ {Tenant: "cgrates.org", ID: "Threshold1"}: { TPid: testTPID, Tenant: "cgrates.org", ID: "Threshold1", FilterIDs: []string{"*string:~*req.Account:1001", "*string:~*req.RunID:*default"}, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, MaxHits: 12, MinHits: 10, MinSleep: "1s", Blocker: true, Weight: 10, ActionIDs: []string{"THRESH1"}, Async: true, }, } eThresholdReverse := map[utils.TenantID]*utils.TPThresholdProfile{ {Tenant: "cgrates.org", ID: "Threshold1"}: { TPid: testTPID, Tenant: "cgrates.org", ID: "Threshold1", FilterIDs: []string{"*string:~*req.RunID:*default", "*string:~*req.Account:1001"}, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, MaxHits: 12, MinHits: 10, MinSleep: "1s", Blocker: true, Weight: 10, ActionIDs: []string{"THRESH1"}, Async: true, }, } thkey := utils.TenantID{Tenant: "cgrates.org", ID: "Threshold1"} if len(csvr.thProfiles) != len(eThresholds) { t.Errorf("Failed to load ThresholdProfiles: %s", utils.ToIJSON(csvr.thProfiles)) } else if !reflect.DeepEqual(eThresholds[thkey], csvr.thProfiles[thkey]) && !reflect.DeepEqual(eThresholdReverse[thkey], csvr.thProfiles[thkey]) { t.Errorf("Expecting: %+v , %+v , received: %+v", eThresholds[thkey], eThresholdReverse[thkey], csvr.thProfiles[thkey]) } } func TestLoadFilters(t *testing.T) { eFilters := map[utils.TenantID]*utils.TPFilterProfile{ {Tenant: "cgrates.org", ID: "FLTR_1"}: { TPid: testTPID, Tenant: "cgrates.org", ID: "FLTR_1", Filters: []*utils.TPFilter{ { Element: utils.DynamicDataPrefix + utils.MetaReq + utils.NestingSep + utils.AccountField, Type: utils.MetaString, Values: []string{"1001", "1002"}, }, { Element: "~*req.Destination", Type: utils.MetaPrefix, Values: []string{"10", "20"}, }, { Element: "~*req.Subject", Type: utils.MetaRSR, Values: []string{"~^1.*1$"}, }, { Element: "~*req.Destination", Type: utils.MetaRSR, Values: []string{"1002"}, }, }, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, }, {Tenant: "cgrates.org", ID: "FLTR_ACNT_dan"}: { TPid: testTPID, Tenant: "cgrates.org", ID: "FLTR_ACNT_dan", Filters: []*utils.TPFilter{ { Element: utils.DynamicDataPrefix + utils.MetaReq + utils.NestingSep + utils.AccountField, Type: utils.MetaString, Values: []string{"dan"}, }, }, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, }, {Tenant: "cgrates.org", ID: "FLTR_DST_DE"}: { TPid: testTPID, Tenant: "cgrates.org", ID: "FLTR_DST_DE", Filters: []*utils.TPFilter{ { Element: "~*req.Destination", Type: utils.MetaDestinations, Values: []string{"DST_DE"}, }, }, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, }, {Tenant: "cgrates.org", ID: "FLTR_DST_NL"}: { TPid: testTPID, Tenant: "cgrates.org", ID: "FLTR_DST_NL", Filters: []*utils.TPFilter{ { Element: "~*req.Destination", Type: utils.MetaDestinations, Values: []string{"DST_NL"}, }, }, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, }, } fltrKey := utils.TenantID{Tenant: "cgrates.org", ID: "FLTR_1"} if len(csvr.filters) != len(eFilters) { t.Errorf("Failed to load Filters: %s", utils.ToIJSON(csvr.filters)) } else if !reflect.DeepEqual(eFilters[fltrKey], csvr.filters[fltrKey]) { t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eFilters[fltrKey]), utils.ToJSON(csvr.filters[fltrKey])) } } func TestLoadRouteProfiles(t *testing.T) { eSppProfile := &utils.TPRouteProfile{ TPid: testTPID, Tenant: "cgrates.org", ID: "RoutePrf1", FilterIDs: []string{"*string:~*req.Account:dan"}, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, Sorting: utils.MetaLC, Routes: []*utils.TPRoute{ { ID: "route1", FilterIDs: []string{"FLTR_ACNT_dan"}, AccountIDs: []string{"Account1", "Account1_1"}, RatingPlanIDs: []string{"RPL_1"}, ResourceIDs: []string{"ResGroup1"}, StatIDs: []string{"Stat1"}, Weight: 10, Blocker: true, RouteParameters: "param1", }, { ID: "route1", RatingPlanIDs: []string{"RPL_2"}, ResourceIDs: []string{"ResGroup2", "ResGroup4"}, StatIDs: []string{"Stat3"}, Weight: 10, Blocker: false, RouteParameters: utils.EmptyString, }, { ID: "route1", FilterIDs: []string{"FLTR_DST_DE"}, AccountIDs: []string{"Account2"}, RatingPlanIDs: []string{"RPL_3"}, ResourceIDs: []string{"ResGroup3"}, StatIDs: []string{"Stat2"}, Weight: 10, Blocker: false, RouteParameters: utils.EmptyString, }, }, Weight: 20, } sort.Slice(eSppProfile.Routes, func(i, j int) bool { return strings.Compare(eSppProfile.Routes[i].ID+strings.Join(eSppProfile.Routes[i].FilterIDs, utils.ConcatenatedKeySep), eSppProfile.Routes[j].ID+strings.Join(eSppProfile.Routes[j].FilterIDs, utils.ConcatenatedKeySep)) < 0 }) resKey := utils.TenantID{Tenant: "cgrates.org", ID: "RoutePrf1"} if len(csvr.routeProfiles) != 1 { t.Errorf("Failed to load RouteProfiles: %s", utils.ToIJSON(csvr.routeProfiles)) } else { rcvRoute := csvr.routeProfiles[resKey] if rcvRoute == nil { t.Fatal("Missing route") } sort.Slice(rcvRoute.Routes, func(i, j int) bool { return strings.Compare(rcvRoute.Routes[i].ID+strings.Join(rcvRoute.Routes[i].FilterIDs, utils.ConcatenatedKeySep), rcvRoute.Routes[j].ID+strings.Join(rcvRoute.Routes[j].FilterIDs, utils.ConcatenatedKeySep)) < 0 }) if !reflect.DeepEqual(eSppProfile, rcvRoute) { t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eSppProfile), utils.ToJSON(rcvRoute)) } } } func TestLoadAttributeProfiles(t *testing.T) { eAttrProfiles := map[utils.TenantID]*utils.TPAttributeProfile{ {Tenant: "cgrates.org", ID: "ALS1"}: { TPid: testTPID, Tenant: "cgrates.org", ID: "ALS1", Contexts: []string{"con1", "con2", "con3"}, FilterIDs: []string{"*string:~*req.Account:1001"}, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, Attributes: []*utils.TPAttribute{ { FilterIDs: []string{"*string:~*req.Field1:Initial"}, Path: utils.MetaReq + utils.NestingSep + "Field1", Type: utils.MetaVariable, Value: "Sub1", }, { FilterIDs: []string{}, Path: utils.MetaReq + utils.NestingSep + "Field2", Type: utils.MetaVariable, Value: "Sub2", }, }, Blocker: true, Weight: 20, }, } resKey := utils.TenantID{Tenant: "cgrates.org", ID: "ALS1"} if len(csvr.attributeProfiles) != len(eAttrProfiles) { t.Errorf("Failed to load attributeProfiles: %s", utils.ToIJSON(csvr.attributeProfiles)) } else if !reflect.DeepEqual(eAttrProfiles[resKey].Tenant, csvr.attributeProfiles[resKey].Tenant) { t.Errorf("Expecting: %+v, received: %+v", eAttrProfiles[resKey].Tenant, csvr.attributeProfiles[resKey].Tenant) } else if !reflect.DeepEqual(eAttrProfiles[resKey].ID, csvr.attributeProfiles[resKey].ID) { t.Errorf("Expecting: %+v, received: %+v", eAttrProfiles[resKey].ID, csvr.attributeProfiles[resKey].ID) } else if len(eAttrProfiles[resKey].Contexts) != len(csvr.attributeProfiles[resKey].Contexts) { t.Errorf("Expecting: %+v, received: %+v", eAttrProfiles[resKey].Contexts, csvr.attributeProfiles[resKey].Contexts) } else if !reflect.DeepEqual(eAttrProfiles[resKey].FilterIDs, csvr.attributeProfiles[resKey].FilterIDs) { t.Errorf("Expecting: %+v, received: %+v", eAttrProfiles[resKey].FilterIDs, csvr.attributeProfiles[resKey].FilterIDs) } else if !reflect.DeepEqual(eAttrProfiles[resKey].ActivationInterval.ActivationTime, csvr.attributeProfiles[resKey].ActivationInterval.ActivationTime) { t.Errorf("Expecting: %+v, received: %+v", eAttrProfiles[resKey].ActivationInterval, csvr.attributeProfiles[resKey].ActivationInterval) } else if !reflect.DeepEqual(eAttrProfiles[resKey].Attributes, csvr.attributeProfiles[resKey].Attributes) { t.Errorf("Expecting: %+v, received: %+v", eAttrProfiles[resKey].Attributes, csvr.attributeProfiles[resKey].Attributes) } else if !reflect.DeepEqual(eAttrProfiles[resKey].Blocker, csvr.attributeProfiles[resKey].Blocker) { t.Errorf("Expecting: %+v, received: %+v", eAttrProfiles[resKey].Blocker, csvr.attributeProfiles[resKey].Blocker) } } func TestLoadChargerProfiles(t *testing.T) { eChargerProfiles := map[utils.TenantID]*utils.TPChargerProfile{ {Tenant: "cgrates.org", ID: "Charger1"}: { TPid: testTPID, Tenant: "cgrates.org", ID: "Charger1", FilterIDs: []string{"*string:~*req.Account:1001"}, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, RunID: "*rated", AttributeIDs: []string{"ATTR_1001_SIMPLEAUTH"}, Weight: 20, }, } cppKey := utils.TenantID{Tenant: "cgrates.org", ID: "Charger1"} if len(csvr.chargerProfiles) != len(eChargerProfiles) { t.Errorf("Failed to load chargerProfiles: %s", utils.ToIJSON(csvr.chargerProfiles)) } else if !reflect.DeepEqual(eChargerProfiles[cppKey], csvr.chargerProfiles[cppKey]) { t.Errorf("Expecting: %+v, received: %+v", eChargerProfiles[cppKey], csvr.chargerProfiles[cppKey]) } } func TestLoadDispatcherProfiles(t *testing.T) { eDispatcherProfiles := &utils.TPDispatcherProfile{ TPid: testTPID, Tenant: "cgrates.org", ID: "D1", Subsystems: []string{"*any"}, FilterIDs: []string{"*string:~*req.Account:1001"}, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", }, Strategy: "*first", Weight: 20, Hosts: []*utils.TPDispatcherHostProfile{ { ID: "C1", FilterIDs: []string{"*gt:~*req.Usage:10"}, Weight: 10, Params: []any{"192.168.56.203"}, Blocker: false, }, { ID: "C2", FilterIDs: []string{"*lt:~*req.Usage:10"}, Weight: 10, Params: []any{"192.168.56.204"}, Blocker: false, }, }, } if len(csvr.dispatcherProfiles) != 1 { t.Errorf("Failed to load dispatcherProfiles: %s", utils.ToIJSON(csvr.dispatcherProfiles)) } dppKey := utils.TenantID{Tenant: "cgrates.org", ID: "D1"} sort.Slice(eDispatcherProfiles.Hosts, func(i, j int) bool { return eDispatcherProfiles.Hosts[i].ID < eDispatcherProfiles.Hosts[j].ID }) sort.Slice(csvr.dispatcherProfiles[dppKey].Hosts, func(i, j int) bool { return csvr.dispatcherProfiles[dppKey].Hosts[i].ID < csvr.dispatcherProfiles[dppKey].Hosts[j].ID }) if !reflect.DeepEqual(eDispatcherProfiles, csvr.dispatcherProfiles[dppKey]) { t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eDispatcherProfiles), utils.ToJSON(csvr.dispatcherProfiles[dppKey])) } } func TestLoadDispatcherHosts(t *testing.T) { eDispatcherHosts := &utils.TPDispatcherHost{ TPid: testTPID, Tenant: "cgrates.org", ID: "ALL", Conn: &utils.TPDispatcherHostConn{ Address: "127.0.0.1:6012", Transport: utils.MetaJSON, ConnectAttempts: 1, Reconnects: 3, MaxReconnectInterval: 5 * time.Minute, ConnectTimeout: 1 * time.Minute, ReplyTimeout: 2 * time.Minute, TLS: false, }, } dphKey := utils.TenantID{Tenant: "cgrates.org", ID: "ALL"} if len(csvr.dispatcherHosts) != 1 { t.Fatalf("Failed to load DispatcherHosts: %v", len(csvr.dispatcherHosts)) } if !reflect.DeepEqual(eDispatcherHosts, csvr.dispatcherHosts[dphKey]) { t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eDispatcherHosts), utils.ToJSON(csvr.dispatcherHosts[dphKey])) } }