/* Rating system designed to be used in VoIP Carriers World Copyright (C) 2013 ITsysCOM 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 ( "fmt" "github.com/cgrates/cgrates/utils" "testing" "time" ) var ( //referenceDate = time.Date(2014, 1, 1, 0, 0, 0, 0, time.Local) //referenceDate = time.Date(2013, 7, 10, 10, 30, 0, 0, time.Local) //referenceDate = time.Date(2013, 12, 31, 23, 59, 59, 0, time.Local) referenceDate = time.Now() now = referenceDate ) func TestActionTimingNothing(t *testing.T) { at := &ActionTiming{} st := at.GetNextStartTime(referenceDate) expected := time.Date(1, 1, 1, 0, 0, 0, 0, time.UTC) if !st.Equal(expected) { t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingOnlyHour(t *testing.T) { at := &ActionTiming{Timing: &RateInterval{Timing: &RITiming{StartTime: "10:01:00"}}} st := at.GetNextStartTime(referenceDate) y, m, d := now.Date() expected := time.Date(y, m, d, 10, 1, 0, 0, time.Local) if !st.Equal(expected) { t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingOnlyWeekdays(t *testing.T) { at := &ActionTiming{Timing: &RateInterval{Timing: &RITiming{WeekDays: []time.Weekday{time.Monday}}}} st := at.GetNextStartTime(referenceDate) y, m, d := now.Date() h, min, s := now.Clock() e := time.Date(y, m, d, h, min, s, 0, time.Local) day := e.Day() for _, i := range []int{0, 1, 2, 3, 4, 5, 6, 7} { e = time.Date(e.Year(), e.Month(), day, e.Hour(), e.Minute(), e.Second(), e.Nanosecond(), e.Location()).AddDate(0, 0, i) if e.Weekday() == time.Monday && (e.Equal(now) || e.After(now)) { break } } if !st.Equal(e) { t.Errorf("Expected %v was %v", e, st) } } func TestActionTimingHourWeekdays(t *testing.T) { at := &ActionTiming{Timing: &RateInterval{Timing: &RITiming{WeekDays: []time.Weekday{time.Monday}, StartTime: "10:01:00"}}} st := at.GetNextStartTime(referenceDate) y, m, d := now.Date() e := time.Date(y, m, d, 10, 1, 0, 0, time.Local) day := e.Day() for _, i := range []int{0, 1, 2, 3, 4, 5, 6, 7} { e = time.Date(e.Year(), e.Month(), day, e.Hour(), e.Minute(), e.Second(), e.Nanosecond(), e.Location()).AddDate(0, 0, i) if e.Weekday() == time.Monday && (e.Equal(now) || e.After(now)) { break } } if !st.Equal(e) { t.Errorf("Expected %v was %v", e, st) } } func TestActionTimingOnlyMonthdays(t *testing.T) { y, m, d := now.Date() tomorrow := time.Date(y, m, d, 0, 0, 0, 0, time.Local).AddDate(0, 0, 1) at := &ActionTiming{Timing: &RateInterval{Timing: &RITiming{MonthDays: utils.MonthDays{1, 25, 2, tomorrow.Day()}}}} st := at.GetNextStartTime(referenceDate) expected := tomorrow if !st.Equal(expected) { t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingHourMonthdays(t *testing.T) { y, m, d := now.Date() testTime := time.Date(y, m, d, 10, 1, 0, 0, time.Local) tomorrow := time.Date(y, m, d, 0, 0, 0, 0, time.Local).AddDate(0, 0, 1) if now.After(testTime) { y, m, d = tomorrow.Date() } at := &ActionTiming{Timing: &RateInterval{Timing: &RITiming{MonthDays: utils.MonthDays{now.Day(), tomorrow.Day()}, StartTime: "10:01:00"}}} st := at.GetNextStartTime(referenceDate) expected := time.Date(y, m, d, 10, 1, 0, 0, time.Local) if !st.Equal(expected) { t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingOnlyMonths(t *testing.T) { y, m, _ := now.Date() nextMonth := time.Date(y, m, 1, 0, 0, 0, 0, time.Local).AddDate(0, 1, 0) at := &ActionTiming{Timing: &RateInterval{Timing: &RITiming{Months: utils.Months{time.February, time.May, nextMonth.Month()}}}} st := at.GetNextStartTime(referenceDate) expected := time.Date(nextMonth.Year(), nextMonth.Month(), 1, 0, 0, 0, 0, time.Local) if !st.Equal(expected) { t.Log("NextMonth: ", nextMonth) t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingHourMonths(t *testing.T) { y, m, d := now.Date() testTime := time.Date(y, m, d, 10, 1, 0, 0, time.Local) nextMonth := time.Date(y, m, 1, 0, 0, 0, 0, time.Local).AddDate(0, 1, 0) if now.After(testTime) { m = nextMonth.Month() y = nextMonth.Year() } at := &ActionTiming{Timing: &RateInterval{Timing: &RITiming{ Months: utils.Months{now.Month(), nextMonth.Month()}, StartTime: "10:01:00"}}} st := at.GetNextStartTime(referenceDate) expected := time.Date(y, m, d, 10, 1, 0, 0, time.Local) if !st.Equal(expected) { t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingHourMonthdaysMonths(t *testing.T) { y, m, d := now.Date() testTime := time.Date(y, m, d, 10, 1, 0, 0, time.Local) nextMonth := time.Date(y, m, 1, 0, 0, 0, 0, time.Local).AddDate(0, 1, 0) tomorrow := time.Date(y, m, d, 0, 0, 0, 0, time.Local).AddDate(0, 0, 1) if now.After(testTime) { y, m, d = tomorrow.Date() } nextDay := time.Date(y, m, d, 10, 1, 0, 0, time.Local) month := nextDay.Month() if nextDay.Before(now) { if now.After(testTime) { month = nextMonth.Month() } } at := &ActionTiming{Timing: &RateInterval{ Timing: &RITiming{ Months: utils.Months{now.Month(), nextMonth.Month()}, MonthDays: utils.MonthDays{now.Day(), tomorrow.Day()}, StartTime: "10:01:00", }, }} st := at.GetNextStartTime(referenceDate) expected := time.Date(y, month, d, 10, 1, 0, 0, time.Local) if !st.Equal(expected) { t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingFirstOfTheMonth(t *testing.T) { y, m, _ := now.Date() nextMonth := time.Date(y, m, 1, 0, 0, 0, 0, time.Local).AddDate(0, 1, 0) at := &ActionTiming{Timing: &RateInterval{ Timing: &RITiming{ MonthDays: utils.MonthDays{1}, }, }} st := at.GetNextStartTime(referenceDate) expected := nextMonth if !st.Equal(expected) { t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingOnlyYears(t *testing.T) { y, m, d := now.Date() nextYear := time.Date(y, m, d, 0, 0, 0, 0, time.Local).AddDate(1, 0, 0) at := &ActionTiming{Timing: &RateInterval{Timing: &RITiming{Years: utils.Years{now.Year(), nextYear.Year()}}}} st := at.GetNextStartTime(referenceDate) expected := time.Date(nextYear.Year(), 1, 1, 0, 0, 0, 0, time.Local) if !st.Equal(expected) { t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingHourYears(t *testing.T) { y, m, d := now.Date() testTime := time.Date(y, m, d, 10, 1, 0, 0, time.Local) nextYear := time.Date(y, m, d, 0, 0, 0, 0, time.Local).AddDate(1, 0, 0) year := now.Year() if now.After(testTime) { year = nextYear.Year() } at := &ActionTiming{Timing: &RateInterval{Timing: &RITiming{Years: utils.Years{now.Year(), nextYear.Year()}, StartTime: "10:01:00"}}} st := at.GetNextStartTime(referenceDate) expected := time.Date(year, m, d, 10, 1, 0, 0, time.Local) if !st.Equal(expected) { t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingHourMonthdaysYear(t *testing.T) { y, m, d := now.Date() testTime := time.Date(y, m, d, 10, 1, 0, 0, time.Local) nextYear := time.Date(y, m, 1, 0, 0, 0, 0, time.Local).AddDate(1, 0, 0) tomorrow := time.Date(y, m, d, 0, 0, 0, 0, time.Local).AddDate(0, 0, 1) if now.After(testTime) { y, m, d = tomorrow.Date() } nextDay := time.Date(y, m, d, 10, 1, 0, 0, time.Local) year := nextDay.Year() if nextDay.Before(now) { if now.After(testTime) { year = nextYear.Year() } } at := &ActionTiming{Timing: &RateInterval{ Timing: &RITiming{ Years: utils.Years{now.Year(), nextYear.Year()}, MonthDays: utils.MonthDays{now.Day(), tomorrow.Day()}, StartTime: "10:01:00", }, }} st := at.GetNextStartTime(referenceDate) expected := time.Date(year, m, d, 10, 1, 0, 0, time.Local) if !st.Equal(expected) { t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingHourMonthdaysMonthYear(t *testing.T) { y, m, d := now.Date() testTime := time.Date(y, m, d, 10, 1, 0, 0, time.Local) nextYear := time.Date(y, m, 1, 0, 0, 0, 0, time.Local).AddDate(1, 0, 0) nextMonth := time.Date(y, m, 1, 0, 0, 0, 0, time.Local).AddDate(0, 1, 0) tomorrow := time.Date(y, m, d, 0, 0, 0, 0, time.Local).AddDate(0, 0, 1) day := now.Day() if now.After(testTime) { day = tomorrow.Day() } nextDay := time.Date(y, m, day, 10, 1, 0, 0, time.Local) month := now.Month() if nextDay.Before(now) { if now.After(testTime) { month = nextMonth.Month() } } nextDay = time.Date(y, month, day, 10, 1, 0, 0, time.Local) year := now.Year() if nextDay.Before(now) { if now.After(testTime) { year = nextYear.Year() } } at := &ActionTiming{Timing: &RateInterval{ Timing: &RITiming{ Years: utils.Years{now.Year(), nextYear.Year()}, Months: utils.Months{now.Month(), nextMonth.Month()}, MonthDays: utils.MonthDays{now.Day(), tomorrow.Day()}, StartTime: "10:01:00", }, }} st := at.GetNextStartTime(referenceDate) expected := time.Date(year, month, day, 10, 1, 0, 0, time.Local) if !st.Equal(expected) { t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingFirstOfTheYear(t *testing.T) { y, _, _ := now.Date() nextYear := time.Date(y, 1, 1, 0, 0, 0, 0, time.Local).AddDate(1, 0, 0) at := &ActionTiming{Timing: &RateInterval{ Timing: &RITiming{ Years: utils.Years{nextYear.Year()}, Months: utils.Months{time.January}, MonthDays: utils.MonthDays{1}, StartTime: "00:00:00", }, }} st := at.GetNextStartTime(referenceDate) expected := nextYear if !st.Equal(expected) { t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingFirstMonthOfTheYear(t *testing.T) { y, _, _ := now.Date() nextYear := time.Date(y, 1, 1, 0, 0, 0, 0, time.Local).AddDate(1, 0, 0) at := &ActionTiming{Timing: &RateInterval{ Timing: &RITiming{ Months: utils.Months{time.January}, }, }} st := at.GetNextStartTime(referenceDate) expected := nextYear if !st.Equal(expected) { t.Errorf("Expected %v was %v", expected, st) } } func TestActionTimingCheckForASAP(t *testing.T) { at := &ActionTiming{Timing: &RateInterval{Timing: &RITiming{StartTime: ASAP}}} if !at.CheckForASAP() { t.Errorf("%v should be asap!", at) } } func TestActionTimingIsOneTimeRun(t *testing.T) { at := &ActionTiming{Timing: &RateInterval{Timing: &RITiming{StartTime: ASAP}}} if !at.CheckForASAP() { t.Errorf("%v should be asap!", at) } if !at.IsOneTimeRun() { t.Errorf("%v should be one time run!", at) } } func TestActionTimingOneTimeRun(t *testing.T) { at := &ActionTiming{Timing: &RateInterval{Timing: &RITiming{StartTime: ASAP}}} at.CheckForASAP() nextRun := at.GetNextStartTime(referenceDate) if nextRun.IsZero() { t.Error("next time failed for asap") } } func TestActionTimingLogFunction(t *testing.T) { a := &Action{ ActionType: "*log", BalanceType: "test", Balance: &Balance{Value: 1.1}, } at := &ActionTiming{ actions: []*Action{a}, } err := at.Execute() if err != nil { t.Errorf("Could not execute LOG action: %v", err) } } func TestActionTimingPriotityListSortByWeight(t *testing.T) { at1 := &ActionTiming{Timing: &RateInterval{ Timing: &RITiming{ Years: utils.Years{2100}, Months: utils.Months{time.January, time.February, time.March, time.April, time.May, time.June, time.July, time.August, time.September, time.October, time.November, time.December}, MonthDays: utils.MonthDays{1}, StartTime: "00:00:00", }, Weight: 20, }} at2 := &ActionTiming{Timing: &RateInterval{ Timing: &RITiming{ Years: utils.Years{2100}, Months: utils.Months{time.January, time.February, time.March, time.April, time.May, time.June, time.July, time.August, time.September, time.October, time.November, time.December}, MonthDays: utils.MonthDays{2}, StartTime: "00:00:00", }, Weight: 10, }} var atpl ActionTimingPriotityList atpl = append(atpl, at2, at1) atpl.Sort() if atpl[0] != at1 || atpl[1] != at2 { t.Error("Timing list not sorted correctly: ", at1, at2, atpl) } } func TestActionTimingPriotityListWeight(t *testing.T) { at1 := &ActionTiming{ Timing: &RateInterval{ Timing: &RITiming{ Months: utils.Months{time.January, time.February, time.March, time.April, time.May, time.June, time.July, time.August, time.September, time.October, time.November, time.December}, MonthDays: utils.MonthDays{1}, StartTime: "00:00:00", }, }, Weight: 10.0, } at2 := &ActionTiming{ Timing: &RateInterval{ Timing: &RITiming{ Months: utils.Months{time.January, time.February, time.March, time.April, time.May, time.June, time.July, time.August, time.September, time.October, time.November, time.December}, MonthDays: utils.MonthDays{1}, StartTime: "00:00:00", }, }, Weight: 20.0, } var atpl ActionTimingPriotityList atpl = append(atpl, at2, at1) atpl.Sort() if atpl[0] != at1 || atpl[1] != at2 { t.Error("Timing list not sorted correctly: ", atpl) } } func TestActionTimingsRemoveMember(t *testing.T) { at1 := &ActionTiming{ Uuid: "some uuid", Id: "test", AccountIds: []string{"one", "two", "three"}, ActionsId: "TEST_ACTIONS", } at2 := &ActionTiming{ Uuid: "some uuid22", Id: "test2", AccountIds: []string{"three", "four"}, ActionsId: "TEST_ACTIONS2", } ats := ActionPlan{at1, at2} if outAts := RemActionTiming(ats, "", "four"); len(outAts[1].AccountIds) != 1 { t.Error("Expecting fewer balance ids", outAts[1].AccountIds) } if ats = RemActionTiming(ats, "", "three"); len(ats) != 1 { t.Error("Expecting fewer actionTimings", ats) } if ats = RemActionTiming(ats, "some_uuid22", ""); len(ats) != 1 { t.Error("Expecting fewer actionTimings members", ats) } ats2 := ActionPlan{at1, at2} if ats2 = RemActionTiming(ats2, "", ""); len(ats2) != 0 { t.Error("Should have no members anymore", ats2) } } func TestActionTriggerMatchNil(t *testing.T) { at := &ActionTrigger{ Direction: OUTBOUND, BalanceType: CREDIT, ThresholdType: TRIGGER_MAX_BALANCE, ThresholdValue: 2, } var a *Action if !at.Match(a) { t.Errorf("Action trigger [%v] does not match action [%v]", at, a) } } func TestActionTriggerMatchAllBlank(t *testing.T) { at := &ActionTrigger{ Direction: OUTBOUND, BalanceType: CREDIT, ThresholdType: TRIGGER_MAX_BALANCE, ThresholdValue: 2, } a := &Action{} if !at.Match(a) { t.Errorf("Action trigger [%v] does not match action [%v]", at, a) } } func TestActionTriggerMatchMinuteBucketBlank(t *testing.T) { at := &ActionTrigger{ Direction: OUTBOUND, BalanceType: CREDIT, ThresholdType: TRIGGER_MAX_BALANCE, ThresholdValue: 2, } a := &Action{Direction: OUTBOUND, BalanceType: CREDIT} if !at.Match(a) { t.Errorf("Action trigger [%v] does not match action [%v]", at, a) } } func TestActionTriggerMatchMinuteBucketFull(t *testing.T) { at := &ActionTrigger{ Direction: OUTBOUND, BalanceType: CREDIT, ThresholdType: TRIGGER_MAX_BALANCE, ThresholdValue: 2, } a := &Action{ExtraParameters: fmt.Sprintf(`{"ThresholdType":"%v", "ThresholdValue": %v}`, TRIGGER_MAX_BALANCE, 2)} if !at.Match(a) { t.Errorf("Action trigger [%v] does not match action [%v]", at, a) } } func TestActionTriggerMatchAllFull(t *testing.T) { at := &ActionTrigger{ Direction: OUTBOUND, BalanceType: CREDIT, ThresholdType: TRIGGER_MAX_BALANCE, ThresholdValue: 2, } a := &Action{Direction: OUTBOUND, BalanceType: CREDIT, ExtraParameters: fmt.Sprintf(`{"ThresholdType":"%v", "ThresholdValue": %v}`, TRIGGER_MAX_BALANCE, 2)} if !at.Match(a) { t.Errorf("Action trigger [%v] does not match action [%v]", at, a) } } func TestActionTriggerMatchSomeFalse(t *testing.T) { at := &ActionTrigger{ Direction: OUTBOUND, BalanceType: CREDIT, ThresholdType: TRIGGER_MAX_BALANCE, ThresholdValue: 2, } a := &Action{Direction: INBOUND, BalanceType: CREDIT, ExtraParameters: fmt.Sprintf(`{"ThresholdType":"%v", "ThresholdValue": %v}`, TRIGGER_MAX_BALANCE, 2)} if at.Match(a) { t.Errorf("Action trigger [%v] does not match action [%v]", at, a) } } func TestActionTriggerMatcBalanceFalse(t *testing.T) { at := &ActionTrigger{ Direction: OUTBOUND, BalanceType: CREDIT, ThresholdType: TRIGGER_MAX_BALANCE, ThresholdValue: 2, } a := &Action{Direction: OUTBOUND, BalanceType: CREDIT, ExtraParameters: fmt.Sprintf(`{"ThresholdType":"%v", "ThresholdValue": %v}`, TRIGGER_MAX_BALANCE, 3.0)} if at.Match(a) { t.Errorf("Action trigger [%v] does not match action [%v]", at, a) } } func TestActionTriggerMatcAllFalse(t *testing.T) { at := &ActionTrigger{ Direction: OUTBOUND, BalanceType: CREDIT, ThresholdType: TRIGGER_MAX_BALANCE, ThresholdValue: 2, } a := &Action{Direction: INBOUND, BalanceType: MINUTES, ExtraParameters: fmt.Sprintf(`{"ThresholdType":"%v", "ThresholdValue": %v}`, TRIGGER_MAX_COUNTER, 3)} if at.Match(a) { t.Errorf("Action trigger [%v] does not match action [%v]", at, a) } } func TestActionTriggerPriotityList(t *testing.T) { at1 := &ActionTrigger{Weight: 10} at2 := &ActionTrigger{Weight: 20} at3 := &ActionTrigger{Weight: 30} var atpl ActionTriggerPriotityList atpl = append(atpl, at2, at1, at3) atpl.Sort() if atpl[0] != at1 || atpl[2] != at3 || atpl[1] != at2 { t.Error("List not sorted: ", atpl) } } func TestActionResetTriggres(t *testing.T) { ub := &Account{ Id: "TEST_UB", BalanceMap: map[string]BalanceChain{CREDIT: BalanceChain{&Balance{Value: 10}}, MINUTES + OUTBOUND: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}, &ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } resetTriggersAction(ub, nil) if ub.ActionTriggers[0].Executed == true || ub.ActionTriggers[1].Executed == true { t.Error("Reset triggers action failed!") } } func TestActionResetTriggresExecutesThem(t *testing.T) { ub := &Account{ Id: "TEST_UB", BalanceMap: map[string]BalanceChain{CREDIT: BalanceChain{&Balance{Value: 10}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } resetTriggersAction(ub, nil) if ub.ActionTriggers[0].Executed == true || ub.BalanceMap[CREDIT][0].Value == 12 { t.Error("Reset triggers action failed!") } } func TestActionResetTriggresActionFilter(t *testing.T) { ub := &Account{ Id: "TEST_UB", BalanceMap: map[string]BalanceChain{CREDIT: BalanceChain{&Balance{Value: 10}}, MINUTES + OUTBOUND: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}, &ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } resetTriggersAction(ub, &Action{BalanceType: SMS}) if ub.ActionTriggers[0].Executed == false || ub.ActionTriggers[1].Executed == false { t.Error("Reset triggers action failed!") } } func TestActionSetPostpaid(t *testing.T) { ub := &Account{ Id: "TEST_UB", BalanceMap: map[string]BalanceChain{CREDIT: BalanceChain{&Balance{Value: 100}}, MINUTES + OUTBOUND: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}, &ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } allowNegativeAction(ub, nil) if !ub.AllowNegative { t.Error("Set postpaid action failed!") } } func TestActionSetPrepaid(t *testing.T) { ub := &Account{ Id: "TEST_UB", AllowNegative: true, BalanceMap: map[string]BalanceChain{CREDIT: BalanceChain{&Balance{Value: 100}}, MINUTES + OUTBOUND: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}, &ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } denyNegativeAction(ub, nil) if ub.AllowNegative { t.Error("Set prepaid action failed!") } } func TestActionResetPrepaid(t *testing.T) { ub := &Account{ Id: "TEST_UB", AllowNegative: true, BalanceMap: map[string]BalanceChain{CREDIT: BalanceChain{&Balance{Value: 100}}, MINUTES + OUTBOUND: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: SMS, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}, &ActionTrigger{BalanceType: SMS, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } resetAccountAction(ub, nil) if !ub.AllowNegative || ub.BalanceMap[CREDIT].GetTotalValue() != 0 || len(ub.UnitCounters) != 0 || ub.BalanceMap[MINUTES+OUTBOUND][0].Value != 0 || ub.ActionTriggers[0].Executed == true || ub.ActionTriggers[1].Executed == true { t.Log(ub.BalanceMap) t.Error("Reset prepaid action failed!") } } func TestActionResetPostpaid(t *testing.T) { ub := &Account{ Id: "TEST_UB", BalanceMap: map[string]BalanceChain{CREDIT: BalanceChain{&Balance{Value: 100}}, MINUTES + OUTBOUND: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: SMS, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}, &ActionTrigger{BalanceType: SMS, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } resetAccountAction(ub, nil) if ub.BalanceMap[CREDIT].GetTotalValue() != 0 || len(ub.UnitCounters) != 0 || ub.BalanceMap[MINUTES+OUTBOUND][0].Value != 0 || ub.ActionTriggers[0].Executed == true || ub.ActionTriggers[1].Executed == true { t.Error("Reset postpaid action failed!") } } func TestActionTopupResetCredit(t *testing.T) { ub := &Account{ Id: "TEST_UB", BalanceMap: map[string]BalanceChain{CREDIT + OUTBOUND: BalanceChain{&Balance{Value: 100}}, MINUTES + OUTBOUND: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Direction: OUTBOUND, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, Direction: OUTBOUND, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}, &ActionTrigger{BalanceType: CREDIT, Direction: OUTBOUND, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } a := &Action{BalanceType: CREDIT, Direction: OUTBOUND, Balance: &Balance{Value: 10}} topupResetAction(ub, a) if ub.AllowNegative || ub.BalanceMap[CREDIT+OUTBOUND].GetTotalValue() != 10 || len(ub.UnitCounters) != 1 || len(ub.BalanceMap[MINUTES+OUTBOUND]) != 2 || ub.ActionTriggers[0].Executed != true || ub.ActionTriggers[1].Executed != true { t.Errorf("Topup reset action failed: %+v", ub.BalanceMap[CREDIT+OUTBOUND][0]) } } func TestActionTopupResetMinutes(t *testing.T) { ub := &Account{ Id: "TEST_UB", BalanceMap: map[string]BalanceChain{ CREDIT + OUTBOUND: BalanceChain{&Balance{Value: 100}}, MINUTES + OUTBOUND: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Direction: OUTBOUND, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, Direction: OUTBOUND, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}, &ActionTrigger{BalanceType: CREDIT, Direction: OUTBOUND, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } a := &Action{BalanceType: MINUTES, Direction: OUTBOUND, Balance: &Balance{Value: 5, Weight: 20, DestinationId: "NAT"}} topupResetAction(ub, a) if ub.AllowNegative || ub.BalanceMap[MINUTES+OUTBOUND].GetTotalValue() != 5 || ub.BalanceMap[CREDIT+OUTBOUND].GetTotalValue() != 100 || len(ub.UnitCounters) != 1 || len(ub.BalanceMap[MINUTES+OUTBOUND]) != 1 || ub.ActionTriggers[0].Executed != true || ub.ActionTriggers[1].Executed != true { t.Errorf("Topup reset minutes action failed: %+v", ub.BalanceMap[MINUTES+OUTBOUND][0]) } } func TestActionTopupCredit(t *testing.T) { ub := &Account{ Id: "TEST_UB", BalanceMap: map[string]BalanceChain{CREDIT + OUTBOUND: BalanceChain{&Balance{Value: 100}}, MINUTES + OUTBOUND: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Direction: OUTBOUND, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, Direction: OUTBOUND, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}, &ActionTrigger{BalanceType: CREDIT, Direction: OUTBOUND, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } a := &Action{BalanceType: CREDIT, Direction: OUTBOUND, Balance: &Balance{Value: 10}} topupAction(ub, a) if ub.AllowNegative || ub.BalanceMap[CREDIT+OUTBOUND].GetTotalValue() != 110 || len(ub.UnitCounters) != 1 || len(ub.BalanceMap[MINUTES+OUTBOUND]) != 2 || ub.ActionTriggers[0].Executed != true || ub.ActionTriggers[1].Executed != true { t.Error("Topup action failed!", ub.BalanceMap[CREDIT+OUTBOUND].GetTotalValue()) } } func TestActionTopupMinutes(t *testing.T) { ub := &Account{ Id: "TEST_UB", BalanceMap: map[string]BalanceChain{CREDIT: BalanceChain{&Balance{Value: 100}}, MINUTES + OUTBOUND: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}, &ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } a := &Action{BalanceType: MINUTES, Direction: OUTBOUND, Balance: &Balance{Value: 5, Weight: 20, DestinationId: "NAT"}} topupAction(ub, a) if ub.AllowNegative || ub.BalanceMap[MINUTES+OUTBOUND].GetTotalValue() != 15 || ub.BalanceMap[CREDIT].GetTotalValue() != 100 || len(ub.UnitCounters) != 1 || len(ub.BalanceMap[MINUTES+OUTBOUND]) != 2 || ub.ActionTriggers[0].Executed != true || ub.ActionTriggers[1].Executed != true { t.Error("Topup minutes action failed!", ub.BalanceMap[MINUTES+OUTBOUND]) } } func TestActionDebitCredit(t *testing.T) { ub := &Account{ Id: "TEST_UB", BalanceMap: map[string]BalanceChain{CREDIT + OUTBOUND: BalanceChain{&Balance{Value: 100}}, MINUTES + OUTBOUND: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Direction: OUTBOUND, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, Direction: OUTBOUND, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}, &ActionTrigger{BalanceType: CREDIT, Direction: OUTBOUND, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } a := &Action{BalanceType: CREDIT, Direction: OUTBOUND, Balance: &Balance{Value: 10}} debitAction(ub, a) if ub.AllowNegative || ub.BalanceMap[CREDIT+OUTBOUND].GetTotalValue() != 90 || len(ub.UnitCounters) != 1 || len(ub.BalanceMap[MINUTES+OUTBOUND]) != 2 || ub.ActionTriggers[0].Executed != true || ub.ActionTriggers[1].Executed != true { t.Error("Debit action failed!", ub.BalanceMap[CREDIT+OUTBOUND].GetTotalValue()) } } func TestActionDebitMinutes(t *testing.T) { ub := &Account{ Id: "TEST_UB", BalanceMap: map[string]BalanceChain{CREDIT: BalanceChain{&Balance{Value: 100}}, MINUTES + OUTBOUND: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}, &ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } a := &Action{BalanceType: MINUTES, Direction: OUTBOUND, Balance: &Balance{Value: 5, Weight: 20, DestinationId: "NAT"}} debitAction(ub, a) if ub.AllowNegative || ub.BalanceMap[MINUTES+OUTBOUND][0].Value != 5 || ub.BalanceMap[CREDIT].GetTotalValue() != 100 || len(ub.UnitCounters) != 1 || len(ub.BalanceMap[MINUTES+OUTBOUND]) != 2 || ub.ActionTriggers[0].Executed != true || ub.ActionTriggers[1].Executed != true { t.Error("Debit minutes action failed!", ub.BalanceMap[MINUTES+OUTBOUND][0]) } } func TestActionResetAllCounters(t *testing.T) { ub := &Account{ Id: "TEST_UB", AllowNegative: true, BalanceMap: map[string]BalanceChain{ CREDIT: BalanceChain{&Balance{Value: 100}}, MINUTES: BalanceChain{ &Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } resetCountersAction(ub, nil) if !ub.AllowNegative || ub.BalanceMap[CREDIT].GetTotalValue() != 100 || len(ub.UnitCounters) != 1 || len(ub.UnitCounters[0].Balances) != 2 || len(ub.BalanceMap[MINUTES]) != 2 || ub.ActionTriggers[0].Executed != true { t.Errorf("Reset counters action failed: %+v", ub.UnitCounters) } if len(ub.UnitCounters) < 1 { t.FailNow() } mb := ub.UnitCounters[0].Balances[0] if mb.Weight != 20 || mb.Value != 0 || mb.DestinationId != "NAT" { t.Errorf("Balance cloned incorrectly: %v!", mb) } } func TestActionResetCounterMinutes(t *testing.T) { ub := &Account{ Id: "TEST_UB", AllowNegative: true, BalanceMap: map[string]BalanceChain{ CREDIT: BalanceChain{&Balance{Value: 100}}, MINUTES: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } a := &Action{BalanceType: MINUTES} resetCounterAction(ub, a) if !ub.AllowNegative || ub.BalanceMap[CREDIT].GetTotalValue() != 100 || len(ub.UnitCounters) != 2 || len(ub.UnitCounters[1].Balances) != 2 || len(ub.BalanceMap[MINUTES]) != 2 || ub.ActionTriggers[0].Executed != true { for _, b := range ub.UnitCounters[1].Balances { t.Logf("B: %+v", b) } t.Error("Reset counters action failed!", ub.UnitCounters[1]) } if len(ub.UnitCounters) < 2 || len(ub.UnitCounters[1].Balances) < 1 { t.FailNow() } mb := ub.UnitCounters[1].Balances[0] if mb.Weight != 20 || mb.Value != 0 || mb.DestinationId != "NAT" { t.Errorf("Balance cloned incorrectly: %v!", mb) } } func TestActionResetCounterCREDIT(t *testing.T) { ub := &Account{ Id: "TEST_UB", AllowNegative: true, BalanceMap: map[string]BalanceChain{CREDIT: BalanceChain{&Balance{Value: 100}}, MINUTES + OUTBOUND: BalanceChain{&Balance{Value: 10, Weight: 20, DestinationId: "NAT"}, &Balance{Weight: 10, DestinationId: "RET"}}}, UnitCounters: []*UnitsCounter{&UnitsCounter{BalanceType: CREDIT, Direction: OUTBOUND, Balances: BalanceChain{&Balance{Value: 1}}}, &UnitsCounter{BalanceType: SMS, Direction: OUTBOUND, Balances: BalanceChain{&Balance{Value: 1}}}}, ActionTriggers: ActionTriggerPriotityList{&ActionTrigger{BalanceType: CREDIT, Direction: OUTBOUND, ThresholdValue: 2, ActionsId: "TEST_ACTIONS", Executed: true}}, } a := &Action{BalanceType: CREDIT, Direction: OUTBOUND} resetCounterAction(ub, a) if !ub.AllowNegative || ub.BalanceMap[CREDIT].GetTotalValue() != 100 || len(ub.UnitCounters) != 2 || len(ub.BalanceMap[MINUTES+OUTBOUND]) != 2 || ub.ActionTriggers[0].Executed != true { t.Error("Reset counters action failed!", ub.UnitCounters) } } func TestActionTriggerLogging(t *testing.T) { at := &ActionTrigger{ Id: "some_uuid", BalanceType: CREDIT, Direction: OUTBOUND, ThresholdValue: 100.0, DestinationId: "NAT", Weight: 10.0, ActionsId: "TEST_ACTIONS", } as, err := accountingStorage.GetActions(at.ActionsId, false) if err != nil { t.Error("Error getting actions for the action timing: ", as, err) } storageLogger.LogActionTrigger("rif", RATER_SOURCE, at, as) //expected := "rif*some_uuid;MONETARY;OUT;NAT;TEST_ACTIONS;100;10;false*|TOPUP|MONETARY|OUT|10|0" var key string atMap, _ := accountingStorage.GetAllActionTimings() for k, v := range atMap { _ = k _ = v /*if strings.Contains(k, LOG_ACTION_TRIGGER_PREFIX) && strings.Contains(v, expected) { key = k break }*/ } if key != "" { t.Error("Action timing was not logged") } } func TestActionTimingLogging(t *testing.T) { i := &RateInterval{ Timing: &RITiming{ Months: utils.Months{time.January, time.February, time.March, time.April, time.May, time.June, time.July, time.August, time.September, time.October, time.November, time.December}, MonthDays: utils.MonthDays{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31}, WeekDays: utils.WeekDays{time.Monday, time.Tuesday, time.Wednesday, time.Thursday, time.Friday}, StartTime: "18:00:00", EndTime: "00:00:00", }, Weight: 10.0, Rating: &RIRate{ ConnectFee: 0.0, Rates: RateGroups{&Rate{0, 1.0, 1 * time.Second, 60 * time.Second}}, }, } at := &ActionTiming{ Uuid: "some uuid", Id: "test", AccountIds: []string{"one", "two", "three"}, Timing: i, Weight: 10.0, ActionsId: "TEST_ACTIONS", } as, err := accountingStorage.GetActions(at.ActionsId, false) if err != nil { t.Error("Error getting actions for the action trigger: ", err) } storageLogger.LogActionTiming(SCHED_SOURCE, at, as) //expected := "some uuid|test|one,two,three|;1,2,3,4,5,6,7,8,9,10,11,12;1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31;1,2,3,4,5;18:00:00;00:00:00;10;0;1;60;1|10|TEST_ACTIONS*|TOPUP|MONETARY|OUT|10|0" var key string atMap, _ := accountingStorage.GetAllActionTimings() for k, v := range atMap { _ = k _ = v /*if strings.Contains(k, LOG_ACTION_TIMMING_PREFIX) && strings.Contains(string(v), expected) { key = k }*/ } if key != "" { t.Error("Action trigger was not logged") } } func TestActionMakeNegative(t *testing.T) { a := &Action{Balance: &Balance{Value: 10}} genericMakeNegative(a) if a.Balance.Value > 0 { t.Error("Failed to make negative: ", a) } genericMakeNegative(a) if a.Balance.Value > 0 { t.Error("Failed to preserve negative: ", a) } } func TestTopupAction(t *testing.T) { initialUb, _ := accountingStorage.GetAccount("*out:vdf:minu") a := &Action{ ActionType: "*topup", BalanceType: CREDIT, Direction: OUTBOUND, Balance: &Balance{Value: 25, DestinationId: "RET", Weight: 20}, } at := &ActionTiming{ AccountIds: []string{"*out:vdf:minu"}, actions: Actions{a}, } at.Execute() afterUb, _ := accountingStorage.GetAccount("*out:vdf:minu") initialValue := initialUb.BalanceMap[CREDIT+OUTBOUND].GetTotalValue() afterValue := afterUb.BalanceMap[CREDIT+OUTBOUND].GetTotalValue() if initialValue != 50 || afterValue != 75 { t.Error("Bad topup before and after: ", initialValue, afterValue) } } func TestTopupActionLoaded(t *testing.T) { initialUb, _ := accountingStorage.GetAccount("*out:vdf:minitsboy") a := &Action{ ActionType: "*topup", BalanceType: CREDIT, Direction: OUTBOUND, Balance: &Balance{Value: 25, DestinationId: "RET", Weight: 20}, } at := &ActionTiming{ AccountIds: []string{"*out:vdf:minitsboy"}, actions: Actions{a}, } at.Execute() afterUb, _ := accountingStorage.GetAccount("*out:vdf:minitsboy") initialValue := initialUb.BalanceMap[CREDIT+OUTBOUND].GetTotalValue() afterValue := afterUb.BalanceMap[CREDIT+OUTBOUND].GetTotalValue() if initialValue != 100 || afterValue != 125 { t.Error("Bad topup before and after: ", initialValue, afterValue) } } /********************************** Benchmarks ********************************/ func BenchmarkUUID(b *testing.B) { m := make(map[string]int, 1000) for i := 0; i < b.N; i++ { uuid := utils.GenUUID() if len(uuid) == 0 { b.Fatalf("GenUUID error %s", uuid) } b.StopTimer() c := m[uuid] if c > 0 { b.Fatalf("duplicate uuid[%s] count %d", uuid, c) } m[uuid] = c + 1 b.StartTimer() } }