/* 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, or56 (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 ( "reflect" "testing" "github.com/cgrates/cgrates/utils" ) func TestModelHelperCsvLoad(t *testing.T) { l, err := csvLoad(TpDestination{}, []string{"TEST_DEST", "+492"}) tpd, ok := l.(TpDestination) if err != nil || !ok || tpd.Tag != "TEST_DEST" || tpd.Prefix != "+492" { t.Errorf("model load failed: %+v", tpd) } } func TestModelHelperCsvLoadInt(t *testing.T) { l, err := csvLoad(TpCdrstat{}, []string{"CDRST1", "5", "60m", "10s", "ASR", "2014-07-29T15:00:00Z;2014-07-29T16:00:00Z", "*voice", "87.139.12.167", "FS_JSON", "*rated", "*out", "cgrates.org", "call", "dan", "dan", "49", "3m;7m", "5m;10m", "suppl1", "NORMAL_CLEARING", "default", "rif", "rif", "0;2", "STANDARD_TRIGGERS"}) tpd, ok := l.(TpCdrstat) if err != nil || !ok || tpd.QueueLength != 5 { t.Errorf("model load failed: %+v", tpd) } } func TestModelHelperCsvDump(t *testing.T) { tpd := TpDestination{ Tag: "TEST_DEST", Prefix: "+492"} csv, err := csvDump(tpd) if err != nil || csv[0] != "TEST_DEST" || csv[1] != "+492" { t.Errorf("model load failed: %+v", tpd) } } func TestTPDestinationAsExportSlice(t *testing.T) { tpDst := &utils.TPDestination{ TPid: "TEST_TPID", ID: "TEST_DEST", Prefixes: []string{"49", "49176", "49151"}, } expectedSlc := [][]string{ []string{"TEST_DEST", "49"}, []string{"TEST_DEST", "49176"}, []string{"TEST_DEST", "49151"}, } mdst := APItoModelDestination(tpDst) var slc [][]string for _, md := range mdst { lc, err := csvDump(md) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) } if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: %+v, received: %+v", expectedSlc, slc) } } func TestTpDestinationsAsTPDestinations(t *testing.T) { tpd1 := TpDestination{Tpid: "TEST_TPID", Tag: "TEST_DEST", Prefix: "+491"} tpd2 := TpDestination{Tpid: "TEST_TPID", Tag: "TEST_DEST", Prefix: "+492"} tpd3 := TpDestination{Tpid: "TEST_TPID", Tag: "TEST_DEST", Prefix: "+493"} eTPDestinations := []*utils.TPDestination{&utils.TPDestination{TPid: "TEST_TPID", ID: "TEST_DEST", Prefixes: []string{"+491", "+492", "+493"}}} if tpDst := TpDestinations([]TpDestination{tpd1, tpd2, tpd3}).AsTPDestinations(); !reflect.DeepEqual(eTPDestinations, tpDst) { t.Errorf("Expecting: %+v, received: %+v", eTPDestinations, tpDst) } } func TestTPRateAsExportSlice(t *testing.T) { tpRate := &utils.TPRate{ TPid: "TEST_TPID", ID: "TEST_RATEID", RateSlots: []*utils.RateSlot{ &utils.RateSlot{ ConnectFee: 0.100, Rate: 0.200, RateUnit: "60", RateIncrement: "60", GroupIntervalStart: "0"}, &utils.RateSlot{ ConnectFee: 0.0, Rate: 0.1, RateUnit: "1", RateIncrement: "60", GroupIntervalStart: "60"}, }, } expectedSlc := [][]string{ []string{"TEST_RATEID", "0.1", "0.2", "60", "60", "0"}, []string{"TEST_RATEID", "0", "0.1", "1", "60", "60"}, } ms := APItoModelRate(tpRate) var slc [][]string for _, m := range ms { lc, err := csvDump(m) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) } if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: %+v, received: %+v", expectedSlc[0], slc[0]) } } func TestTPDestinationRateAsExportSlice(t *testing.T) { tpDstRate := &utils.TPDestinationRate{ TPid: "TEST_TPID", ID: "TEST_DSTRATE", DestinationRates: []*utils.DestinationRate{ &utils.DestinationRate{ DestinationId: "TEST_DEST1", RateId: "TEST_RATE1", RoundingMethod: "*up", RoundingDecimals: 4}, &utils.DestinationRate{ DestinationId: "TEST_DEST2", RateId: "TEST_RATE2", RoundingMethod: "*up", RoundingDecimals: 4}, }, } expectedSlc := [][]string{ []string{"TEST_DSTRATE", "TEST_DEST1", "TEST_RATE1", "*up", "4", "0", ""}, []string{"TEST_DSTRATE", "TEST_DEST2", "TEST_RATE2", "*up", "4", "0", ""}, } ms := APItoModelDestinationRate(tpDstRate) var slc [][]string for _, m := range ms { lc, err := csvDump(m) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) } if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: %+v, received: %+v", expectedSlc, slc) } } func TestApierTPTimingAsExportSlice(t *testing.T) { tpTiming := &utils.ApierTPTiming{ TPid: "TEST_TPID", ID: "TEST_TIMING", Years: "*any", Months: "*any", MonthDays: "*any", WeekDays: "1;2;4", Time: "00:00:01"} expectedSlc := [][]string{ []string{"TEST_TIMING", "*any", "*any", "*any", "1;2;4", "00:00:01"}, } ms := APItoModelTiming(tpTiming) var slc [][]string lc, err := csvDump(ms) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: %+v, received: %+v", expectedSlc, slc) } } /* func TestAPItoModelStats(t *testing.T) { tpS := &utils.TPStats{ TPid: "TPS1", ID: "Stat1", Filters: []*utils.TPRequestFilter{ &utils.TPRequestFilter{ Type: "*string", FieldName: "Account", Values: []string{"1002"}, }, }, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: "2014-07-29T15:00:00Z", ExpiryTime: "", }, TTL: "1", Metrics: []string{"MetricValue"}, Blocker: true, Stored: true, Weight: 20, Thresholds: nil, } expectedSlc := [][]string{ []string{,"TPS1", "*Stat1", "*string", "*Account", "1002", "2014-07-29T15:00:00Z","","1","MetricValue",}, } expectedtpS := APItoModelStats(tpS) var slc [][]string lc, err := csvDump(expectedtpS) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) if !reflect.DeepEqual(expectedtpS, tpS) { t.Errorf("Expecting: %+v, received: %+v", expectedtpS, slc) } } */ func TestTPRatingPlanAsExportSlice(t *testing.T) { tpRpln := &utils.TPRatingPlan{ TPid: "TEST_TPID", ID: "TEST_RPLAN", RatingPlanBindings: []*utils.TPRatingPlanBinding{ &utils.TPRatingPlanBinding{ DestinationRatesId: "TEST_DSTRATE1", TimingId: "TEST_TIMING1", Weight: 10.0}, &utils.TPRatingPlanBinding{ DestinationRatesId: "TEST_DSTRATE2", TimingId: "TEST_TIMING2", Weight: 20.0}, }} expectedSlc := [][]string{ []string{"TEST_RPLAN", "TEST_DSTRATE1", "TEST_TIMING1", "10"}, []string{"TEST_RPLAN", "TEST_DSTRATE2", "TEST_TIMING2", "20"}, } ms := APItoModelRatingPlan(tpRpln) var slc [][]string for _, m := range ms { lc, err := csvDump(m) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) } if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: %+v, received: %+v", expectedSlc, slc) } } func TestTPRatingProfileAsExportSlice(t *testing.T) { tpRpf := &utils.TPRatingProfile{ TPid: "TEST_TPID", LoadId: "TEST_LOADID", Direction: utils.OUT, Tenant: "cgrates.org", Category: "call", Subject: "*any", RatingPlanActivations: []*utils.TPRatingActivation{ &utils.TPRatingActivation{ ActivationTime: "2014-01-14T00:00:00Z", RatingPlanId: "TEST_RPLAN1", FallbackSubjects: "subj1;subj2"}, &utils.TPRatingActivation{ ActivationTime: "2014-01-15T00:00:00Z", RatingPlanId: "TEST_RPLAN2", FallbackSubjects: "subj1;subj2"}, }, } expectedSlc := [][]string{ []string{utils.OUT, "cgrates.org", "call", "*any", "2014-01-14T00:00:00Z", "TEST_RPLAN1", "subj1;subj2", ""}, []string{utils.OUT, "cgrates.org", "call", "*any", "2014-01-15T00:00:00Z", "TEST_RPLAN2", "subj1;subj2", ""}, } ms := APItoModelRatingProfile(tpRpf) var slc [][]string for _, m := range ms { lc, err := csvDump(m) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) } if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: %+v, received: %+v", expectedSlc, slc) } } func TestTPActionsAsExportSlice(t *testing.T) { tpActs := &utils.TPActions{ TPid: "TEST_TPID", ID: "TEST_ACTIONS", Actions: []*utils.TPAction{ &utils.TPAction{ Identifier: "*topup_reset", BalanceType: "*monetary", Directions: utils.OUT, Units: "5.0", ExpiryTime: "*never", DestinationIds: "*any", RatingSubject: "special1", Categories: "call", SharedGroups: "GROUP1", BalanceWeight: "10.0", ExtraParameters: "", Weight: 10.0}, &utils.TPAction{ Identifier: "*http_post", BalanceType: "", Directions: "", Units: "0.0", ExpiryTime: "", DestinationIds: "", RatingSubject: "", Categories: "", SharedGroups: "", BalanceWeight: "0.0", ExtraParameters: "http://localhost/¶m1=value1", Weight: 20.0}, }, } expectedSlc := [][]string{ []string{"TEST_ACTIONS", "*topup_reset", "", "", "", "*monetary", utils.OUT, "call", "*any", "special1", "GROUP1", "*never", "", "5.0", "10.0", "", "", "10"}, []string{"TEST_ACTIONS", "*http_post", "http://localhost/¶m1=value1", "", "", "", "", "", "", "", "", "", "", "0.0", "0.0", "", "", "20"}, } ms := APItoModelAction(tpActs) var slc [][]string for _, m := range ms { lc, err := csvDump(m) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) } if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: \n%+v, received: \n%+v", expectedSlc, slc) } } // SHARED_A,*any,*highest, func TestTPSharedGroupsAsExportSlice(t *testing.T) { tpSGs := &utils.TPSharedGroups{ TPid: "TEST_TPID", ID: "SHARED_GROUP_TEST", SharedGroups: []*utils.TPSharedGroup{ &utils.TPSharedGroup{ Account: "*any", Strategy: "*highest", RatingSubject: "special1"}, &utils.TPSharedGroup{ Account: "second", Strategy: "*highest", RatingSubject: "special2"}, }, } expectedSlc := [][]string{ []string{"SHARED_GROUP_TEST", "*any", "*highest", "special1"}, []string{"SHARED_GROUP_TEST", "second", "*highest", "special2"}, } ms := APItoModelSharedGroup(tpSGs) var slc [][]string for _, m := range ms { lc, err := csvDump(m) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) } if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: %+v, received: %+v", expectedSlc, slc) } } //*in,cgrates.org,*any,EU_LANDLINE,LCR_STANDARD,*static,ivo;dan;rif,2012-01-01T00:00:00Z,10 func TestTPLcrRulesAsExportSlice(t *testing.T) { lcr := &utils.TPLcrRules{ TPid: "TEST_TPID", Direction: "*in", Tenant: "cgrates.org", Category: "LCR_STANDARD", Account: "*any", Subject: "*any", Rules: []*utils.TPLcrRule{ &utils.TPLcrRule{ DestinationId: "EU_LANDLINE", Strategy: "*static", StrategyParams: "ivo;dan;rif", ActivationTime: "2012-01-01T00:00:00Z", Weight: 20.0}, //*in,cgrates.org,*any,*any,LCR_STANDARD,*lowest_cost,,2012-01-01T00:00:00Z,20 &utils.TPLcrRule{ DestinationId: "*any", Strategy: "*lowest_cost", StrategyParams: "", ActivationTime: "2012-01-01T00:00:00Z", Weight: 10.0}, }, } expectedSlc := [][]string{ []string{"*in", "cgrates.org", "LCR_STANDARD", "*any", "*any", "EU_LANDLINE", "", "*static", "ivo;dan;rif", "2012-01-01T00:00:00Z", "20"}, []string{"*in", "cgrates.org", "LCR_STANDARD", "*any", "*any", "*any", "", "*lowest_cost", "", "2012-01-01T00:00:00Z", "10"}, } ms := APItoModelLcrRule(lcr) var slc [][]string for _, m := range ms { lc, err := csvDump(m) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) } if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: %+v, received: %+v", expectedSlc, slc) } } //CDRST1,5,60m,ASR,2014-07-29T15:00:00Z;2014-07-29T16:00:00Z,*voice,87.139.12.167,FS_JSON,rated,*out,cgrates.org,call,dan,dan,49,5m;10m,default,rif,rif,0;2,STANDARD_TRIGGERS func TestTPCdrStatsAsExportSlice(t *testing.T) { cdrStats := &utils.TPCdrStats{ TPid: "TEST_TPID", ID: "CDRST1", CdrStats: []*utils.TPCdrStat{ &utils.TPCdrStat{ QueueLength: "5", TimeWindow: "60m", SaveInterval: "10s", Metrics: "ASR;ACD", SetupInterval: "2014-07-29T15:00:00Z;2014-07-29T16:00:00Z", TORs: "*voice", CdrHosts: "87.139.12.167", CdrSources: "FS_JSON", ReqTypes: utils.META_RATED, Directions: "*out", Tenants: "cgrates.org", Categories: "call", Accounts: "dan", Subjects: "dan", DestinationIds: "49", PddInterval: "3m;7m", UsageInterval: "5m;10m", Suppliers: "supplier1", DisconnectCauses: "NORMAL_CLEARNING", MediationRunIds: "default", RatedAccounts: "rif", RatedSubjects: "rif", CostInterval: "0;2", ActionTriggers: "STANDARD_TRIGGERS"}, &utils.TPCdrStat{ QueueLength: "5", TimeWindow: "60m", SaveInterval: "9s", Metrics: "ASR", SetupInterval: "2014-07-29T15:00:00Z;2014-07-29T16:00:00Z", TORs: "*voice", CdrHosts: "87.139.12.167", CdrSources: "FS_JSON", ReqTypes: utils.META_RATED, Directions: "*out", Tenants: "cgrates.org", Categories: "call", Accounts: "dan", Subjects: "dan", DestinationIds: "49", PddInterval: "3m;7m", UsageInterval: "5m;10m", Suppliers: "supplier1", DisconnectCauses: "NORMAL_CLEARNING", MediationRunIds: "default", RatedAccounts: "dan", RatedSubjects: "dan", CostInterval: "0;2", ActionTriggers: "STANDARD_TRIGGERS"}, }, } expectedSlc := [][]string{ []string{"CDRST1", "5", "60m", "10s", "ASR;ACD", "2014-07-29T15:00:00Z;2014-07-29T16:00:00Z", "*voice", "87.139.12.167", "FS_JSON", utils.META_RATED, "*out", "cgrates.org", "call", "dan", "dan", "49", "3m;7m", "5m;10m", "supplier1", "NORMAL_CLEARNING", "default", "rif", "rif", "0;2", "STANDARD_TRIGGERS"}, []string{"CDRST1", "5", "60m", "9s", "ASR", "2014-07-29T15:00:00Z;2014-07-29T16:00:00Z", "*voice", "87.139.12.167", "FS_JSON", utils.META_RATED, "*out", "cgrates.org", "call", "dan", "dan", "49", "3m;7m", "5m;10m", "supplier1", "NORMAL_CLEARNING", "default", "dan", "dan", "0;2", "STANDARD_TRIGGERS"}, } ms := APItoModelCdrStat(cdrStats) var slc [][]string for _, m := range ms { lc, err := csvDump(m) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) } if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: %+v, received: %+v", expectedSlc, slc) } } //#Direction,Tenant,Category,Account,Subject,RunId,RunFilter,ReqTypeField,DirectionField,TenantField,CategoryField,AccountField,SubjectField,DestinationField,SetupTimeField,AnswerTimeField,UsageField //*out,cgrates.org,call,1001,1001,derived_run1,,^rated,*default,*default,*default,*default,^1002,*default,*default,*default,*default func TestTPDerivedChargersAsExportSlice(t *testing.T) { dcs := &utils.TPDerivedChargers{ TPid: "TEST_TPID", LoadId: "TEST_LOADID", Direction: "*out", Tenant: "cgrates.org", Category: "call", Account: "1001", Subject: "1001", DerivedChargers: []*utils.TPDerivedCharger{ &utils.TPDerivedCharger{ RunId: "derived_run1", RunFilters: "", ReqTypeField: "^rated", DirectionField: utils.META_DEFAULT, TenantField: utils.META_DEFAULT, CategoryField: utils.META_DEFAULT, AccountField: utils.META_DEFAULT, SubjectField: "^1002", DestinationField: utils.META_DEFAULT, SetupTimeField: utils.META_DEFAULT, PddField: utils.META_DEFAULT, AnswerTimeField: utils.META_DEFAULT, UsageField: utils.META_DEFAULT, SupplierField: utils.META_DEFAULT, DisconnectCauseField: utils.META_DEFAULT, CostField: utils.META_DEFAULT, RatedField: utils.META_DEFAULT, }, &utils.TPDerivedCharger{ RunId: "derived_run2", RunFilters: "", ReqTypeField: "^rated", DirectionField: utils.META_DEFAULT, TenantField: utils.META_DEFAULT, CategoryField: utils.META_DEFAULT, AccountField: "^1002", SubjectField: utils.META_DEFAULT, DestinationField: utils.META_DEFAULT, SetupTimeField: utils.META_DEFAULT, PddField: utils.META_DEFAULT, AnswerTimeField: utils.META_DEFAULT, UsageField: utils.META_DEFAULT, SupplierField: utils.META_DEFAULT, DisconnectCauseField: utils.META_DEFAULT, RatedField: utils.META_DEFAULT, CostField: utils.META_DEFAULT, }, }, } expectedSlc := [][]string{ []string{"*out", "cgrates.org", "call", "1001", "1001", "", "derived_run1", "", "^rated", utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, "^1002", utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT}, []string{"*out", "cgrates.org", "call", "1001", "1001", "", "derived_run2", "", "^rated", utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, "^1002", utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT, utils.META_DEFAULT}, } ms := APItoModelDerivedCharger(dcs) var slc [][]string for _, m := range ms { lc, err := csvDump(m) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) } if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: %+v, received: %+v", expectedSlc, slc) } } func TestTPActionTriggersAsExportSlice(t *testing.T) { ap := &utils.TPActionPlan{ TPid: "TEST_TPID", ID: "PACKAGE_10", ActionPlan: []*utils.TPActionTiming{ &utils.TPActionTiming{ ActionsId: "TOPUP_RST_10", TimingId: "ASAP", Weight: 10.0}, &utils.TPActionTiming{ ActionsId: "TOPUP_RST_5", TimingId: "ASAP", Weight: 20.0}, }, } expectedSlc := [][]string{ []string{"PACKAGE_10", "TOPUP_RST_10", "ASAP", "10"}, []string{"PACKAGE_10", "TOPUP_RST_5", "ASAP", "20"}, } ms := APItoModelActionPlan(ap) var slc [][]string for _, m := range ms { lc, err := csvDump(m) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) } if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: %+v, received: %+v", expectedSlc, slc) } } func TestTPActionPlanAsExportSlice(t *testing.T) { at := &utils.TPActionTriggers{ TPid: "TEST_TPID", ID: "STANDARD_TRIGGERS", ActionTriggers: []*utils.TPActionTrigger{ &utils.TPActionTrigger{ Id: "STANDARD_TRIGGERS", UniqueID: "1", ThresholdType: "*min_balance", ThresholdValue: 2.0, Recurrent: false, MinSleep: "0", BalanceId: "b1", BalanceType: "*monetary", BalanceDirections: "*out", BalanceDestinationIds: "", BalanceWeight: "0.0", BalanceExpirationDate: "*never", BalanceTimingTags: "T1", BalanceRatingSubject: "special1", BalanceCategories: "call", BalanceSharedGroups: "SHARED_1", BalanceBlocker: "false", BalanceDisabled: "false", MinQueuedItems: 0, ActionsId: "LOG_WARNING", Weight: 10}, &utils.TPActionTrigger{ Id: "STANDARD_TRIGGERS", UniqueID: "2", ThresholdType: "*max_event_counter", ThresholdValue: 5.0, Recurrent: false, MinSleep: "0", BalanceId: "b2", BalanceType: "*monetary", BalanceDirections: "*out", BalanceDestinationIds: "FS_USERS", BalanceWeight: "0.0", BalanceExpirationDate: "*never", BalanceTimingTags: "T1", BalanceRatingSubject: "special1", BalanceCategories: "call", BalanceSharedGroups: "SHARED_1", BalanceBlocker: "false", BalanceDisabled: "false", MinQueuedItems: 0, ActionsId: "LOG_WARNING", Weight: 10}, }, } expectedSlc := [][]string{ []string{"STANDARD_TRIGGERS", "1", "*min_balance", "2", "false", "0", "", "", "b1", "*monetary", "*out", "call", "", "special1", "SHARED_1", "*never", "T1", "0.0", "false", "false", "0", "LOG_WARNING", "10"}, []string{"STANDARD_TRIGGERS", "2", "*max_event_counter", "5", "false", "0", "", "", "b2", "*monetary", "*out", "call", "FS_USERS", "special1", "SHARED_1", "*never", "T1", "0.0", "false", "false", "0", "LOG_WARNING", "10"}, } ms := APItoModelActionTrigger(at) var slc [][]string for _, m := range ms { lc, err := csvDump(m) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) } if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: %+v, received: %+v", expectedSlc, slc) } } func TestTPAccountActionsAsExportSlice(t *testing.T) { aa := &utils.TPAccountActions{ TPid: "TEST_TPID", LoadId: "TEST_LOADID", Tenant: "cgrates.org", Account: "1001", ActionPlanId: "PACKAGE_10_SHARED_A_5", ActionTriggersId: "STANDARD_TRIGGERS", } expectedSlc := [][]string{ []string{"cgrates.org", "1001", "PACKAGE_10_SHARED_A_5", "STANDARD_TRIGGERS", "false", "false"}, } ms := APItoModelAccountAction(aa) var slc [][]string lc, err := csvDump(*ms) if err != nil { t.Error("Error dumping to csv: ", err) } slc = append(slc, lc) if !reflect.DeepEqual(expectedSlc, slc) { t.Errorf("Expecting: %+v, received: %+v", expectedSlc, slc) } } func TestTpResourcesAsTpResources(t *testing.T) { tps := []*TpResource{ &TpResource{ Tpid: "TEST_TPID", Tenant: "cgrates.org", ID: "ResGroup1", FilterType: MetaStringPrefix, FilterFieldName: "Destination", FilterFieldValues: "+49151;+49161", ActivationInterval: "2014-07-29T15:00:00Z", Stored: false, Blocker: false, Weight: 10.0, Limit: "45", Thresholds: "WARN_RES1;WARN_RES2"}, &TpResource{ Tpid: "TEST_TPID", ID: "ResGroup1", Tenant: "cgrates.org", FilterType: MetaStringPrefix, FilterFieldName: "Category", FilterFieldValues: "call;inbound_call", Thresholds: "WARN3"}, &TpResource{ Tpid: "TEST_TPID", Tenant: "cgrates.org", ID: "ResGroup2", FilterType: MetaStringPrefix, FilterFieldName: "Destination", FilterFieldValues: "+40", ActivationInterval: "2014-07-29T15:00:00Z", Stored: false, Blocker: false, Weight: 10.0, Limit: "20"}, } eTPs := []*utils.TPResource{ &utils.TPResource{ TPid: tps[0].Tpid, Tenant: tps[0].Tenant, ID: tps[0].ID, Filters: []*utils.TPRequestFilter{ &utils.TPRequestFilter{ Type: tps[0].FilterType, FieldName: tps[0].FilterFieldName, Values: []string{"+49151", "+49161"}, }, &utils.TPRequestFilter{ Type: tps[1].FilterType, FieldName: tps[1].FilterFieldName, Values: []string{"call", "inbound_call"}, }, }, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: tps[0].ActivationInterval, }, Stored: tps[0].Stored, Blocker: tps[0].Blocker, Weight: tps[0].Weight, Limit: tps[0].Limit, Thresholds: []string{"WARN_RES1", "WARN_RES2", "WARN3"}, }, &utils.TPResource{ TPid: tps[2].Tpid, Tenant: tps[2].Tenant, ID: tps[2].ID, Filters: []*utils.TPRequestFilter{ &utils.TPRequestFilter{ Type: tps[2].FilterType, FieldName: tps[2].FilterFieldName, Values: []string{"+40"}, }, }, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: tps[2].ActivationInterval, }, Stored: tps[2].Stored, Blocker: tps[2].Blocker, Weight: tps[2].Weight, Limit: tps[2].Limit, }, } rcvTPs := TpResources(tps).AsTPResources() if !(reflect.DeepEqual(eTPs, rcvTPs) || reflect.DeepEqual(eTPs[0], rcvTPs[1])) { t.Errorf("\nExpecting:\n%+v\nReceived:\n%+v", utils.ToIJSON(eTPs), utils.ToIJSON(rcvTPs)) } } func TestAPItoResource(t *testing.T) { tpRL := &utils.TPResource{ TPid: testTPID, ID: "ResGroup1", Filters: []*utils.TPRequestFilter{ &utils.TPRequestFilter{Type: MetaString, FieldName: "Account", Values: []string{"1001", "1002"}}, &utils.TPRequestFilter{Type: MetaStringPrefix, FieldName: "Destination", Values: []string{"10", "20"}}, &utils.TPRequestFilter{Type: MetaStatS, Values: []string{"CDRST1:*min_asr:34", "CDRST_1001:*min_asr:20"}}, &utils.TPRequestFilter{Type: MetaRSRFields, Values: []string{"Subject(~^1.*1$)", "Destination(1002)"}}, }, ActivationInterval: &utils.TPActivationInterval{ActivationTime: "2014-07-29T15:00:00Z"}, Stored: false, Blocker: false, Weight: 10, Limit: "2", } eRL := &ResourceProfile{ ID: tpRL.ID, Stored: tpRL.Stored, Blocker: tpRL.Blocker, Weight: tpRL.Weight, Filters: make([]*RequestFilter, len(tpRL.Filters))} eRL.Filters[0] = &RequestFilter{Type: MetaString, FieldName: "Account", Values: []string{"1001", "1002"}} eRL.Filters[1] = &RequestFilter{Type: MetaStringPrefix, FieldName: "Destination", Values: []string{"10", "20"}} eRL.Filters[2] = &RequestFilter{Type: MetaStatS, Values: []string{"CDRST1:*min_asr:34", "CDRST_1001:*min_asr:20"}, statSThresholds: []*RFStatSThreshold{ &RFStatSThreshold{QueueID: "CDRST1", ThresholdType: "*min_asr", ThresholdValue: 34}, &RFStatSThreshold{QueueID: "CDRST_1001", ThresholdType: "*min_asr", ThresholdValue: 20}, }} eRL.Filters[3] = &RequestFilter{Type: MetaRSRFields, Values: []string{"Subject(~^1.*1$)", "Destination(1002)"}, rsrFields: utils.ParseRSRFieldsMustCompile("Subject(~^1.*1$);Destination(1002)", utils.INFIELD_SEP), } at, _ := utils.ParseTimeDetectLayout("2014-07-29T15:00:00Z", "UTC") eRL.ActivationInterval = &utils.ActivationInterval{ActivationTime: at} eRL.Limit = 2 if rl, err := APItoResource(tpRL, "UTC"); err != nil { t.Error(err) } else if !reflect.DeepEqual(eRL, rl) { t.Errorf("Expecting: %+v, received: %+v", eRL, rl) } } func TestTPStatsAsTPStats(t *testing.T) { tps := []*TpStats{ &TpStats{ Tpid: "TEST_TPID", Tag: "Stats1", FilterType: MetaStringPrefix, FilterFieldName: "Account", FilterFieldValues: "1001;1002", ActivationInterval: "2014-07-29T15:00:00Z", QueueLength: 100, TTL: "1s", Metrics: "*asr;*acd;*acc", Thresholds: "THRESH1;THRESH2", Stored: false, Blocker: false, Weight: 20.0, }, } eTPs := []*utils.TPStats{ &utils.TPStats{ TPid: tps[0].Tpid, ID: tps[0].Tag, Filters: []*utils.TPRequestFilter{ &utils.TPRequestFilter{ Type: tps[0].FilterType, FieldName: tps[0].FilterFieldName, Values: []string{"1001", "1002"}, }, }, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: tps[0].ActivationInterval, }, QueueLength: tps[0].QueueLength, TTL: tps[0].TTL, Metrics: []string{"*asr", "*acd", "*acc"}, Thresholds: []string{"THRESH1", "THRESH2"}, Stored: tps[0].Stored, Blocker: tps[0].Blocker, Weight: tps[0].Weight, }, } rcvTPs := TpStatsS(tps).AsTPStats() if !(reflect.DeepEqual(eTPs, rcvTPs) || reflect.DeepEqual(eTPs[0], rcvTPs[0])) { t.Errorf("\nExpecting:\n%+v\nReceived:\n%+v", utils.ToIJSON(eTPs), utils.ToIJSON(rcvTPs)) } } func TestAPItoTPStats(t *testing.T) { tps := &utils.TPStats{ TPid: testTPID, ID: "Stats1", Filters: []*utils.TPRequestFilter{ &utils.TPRequestFilter{Type: MetaString, FieldName: "Account", Values: []string{"1001", "1002"}}, }, ActivationInterval: &utils.TPActivationInterval{ActivationTime: "2014-07-29T15:00:00Z"}, QueueLength: 100, TTL: "1s", Metrics: []string{"*asr", "*acd", "*acc"}, Thresholds: []string{"THRESH1", "THRESH2"}, Stored: false, Blocker: false, Weight: 20.0, } eTPs := &StatQueueProfile{ID: tps.ID, QueueLength: tps.QueueLength, Metrics: []string{"*asr", "*acd", "*acc"}, Thresholds: []string{"THRESH1", "THRESH2"}, Filters: make([]*RequestFilter, len(tps.Filters)), Stored: tps.Stored, Blocker: tps.Blocker, Weight: 20.0, } if eTPs.TTL, err = utils.ParseDurationWithSecs(tps.TTL); err != nil { t.Errorf("Got error: %+v", err) } eTPs.Filters[0] = &RequestFilter{Type: MetaString, FieldName: "Account", Values: []string{"1001", "1002"}} at, _ := utils.ParseTimeDetectLayout("2014-07-29T15:00:00Z", "UTC") eTPs.ActivationInterval = &utils.ActivationInterval{ActivationTime: at} if st, err := APItoStats(tps, "UTC"); err != nil { t.Error(err) } else if !reflect.DeepEqual(eTPs, st) { t.Errorf("Expecting: %+v, received: %+v", eTPs, st) } } func TestAsTPThresholdAsAsTPThreshold(t *testing.T) { tps := []*TpThreshold{ &TpThreshold{ Tpid: "TEST_TPID", Tag: "Stats1", FilterType: MetaStringPrefix, FilterFieldName: "Account", FilterFieldValues: "1001;1002", ActivationInterval: "2014-07-29T15:00:00Z", MinItems: 100, Recurrent: false, MinSleep: "1s", ThresholdType: "", ThresholdValue: 1.2, Stored: false, Blocker: false, Weight: 20.0, ActionIDs: "WARN3", }, } eTPs := []*utils.TPThreshold{ &utils.TPThreshold{ TPid: tps[0].Tpid, ID: tps[0].Tag, Filters: []*utils.TPRequestFilter{ &utils.TPRequestFilter{ Type: tps[0].FilterType, FieldName: tps[0].FilterFieldName, Values: []string{"1001", "1002"}, }, }, ActivationInterval: &utils.TPActivationInterval{ ActivationTime: tps[0].ActivationInterval, }, MinItems: tps[0].MinItems, MinSleep: tps[0].MinSleep, ThresholdType: tps[0].ThresholdType, ThresholdValue: tps[0].ThresholdValue, Recurrent: tps[0].Recurrent, Stored: tps[0].Stored, Blocker: tps[0].Blocker, Weight: tps[0].Weight, ActionIDs: []string{"WARN3"}, }, } rcvTPs := TpThresholdS(tps).AsTPThreshold() if !(reflect.DeepEqual(eTPs, rcvTPs) || reflect.DeepEqual(eTPs[0], rcvTPs[0])) { t.Errorf("\nExpecting:\n%+v\nReceived:\n%+v", utils.ToIJSON(eTPs), utils.ToIJSON(rcvTPs)) } } func TestAPItoTPThreshold(t *testing.T) { tps := &utils.TPThreshold{ TPid: testTPID, ID: "Stats1", Filters: []*utils.TPRequestFilter{ &utils.TPRequestFilter{Type: MetaString, FieldName: "Account", Values: []string{"1001", "1002"}}, }, ActivationInterval: &utils.TPActivationInterval{ActivationTime: "2014-07-29T15:00:00Z"}, MinItems: 100, Recurrent: false, MinSleep: "1s", ThresholdType: "", ThresholdValue: 1.2, Stored: false, Blocker: false, Weight: 20.0, ActionIDs: []string{"WARN3"}, } eTPs := &ThresholdCfg{ID: tps.ID, Filters: make([]*RequestFilter, len(tps.Filters)), MinItems: tps.MinItems, Recurrent: tps.Recurrent, ThresholdType: tps.ThresholdType, ThresholdValue: tps.ThresholdValue, Stored: tps.Stored, Blocker: tps.Blocker, Weight: tps.Weight, ActionIDs: []string{"WARN3"}, } if eTPs.MinSleep, err = utils.ParseDurationWithSecs(tps.MinSleep); err != nil { t.Errorf("Got error: %+v", err) } eTPs.Filters[0] = &RequestFilter{Type: MetaString, FieldName: "Account", Values: []string{"1001", "1002"}} at, _ := utils.ParseTimeDetectLayout("2014-07-29T15:00:00Z", "UTC") eTPs.ActivationInterval = &utils.ActivationInterval{ActivationTime: at} if st, err := APItoThresholdCfg(tps, "UTC"); err != nil { t.Error(err) } else if !reflect.DeepEqual(eTPs, st) { t.Errorf("Expecting: %+v, received: %+v", eTPs, st) } }