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e4abc4ea07ea7af7fdcd18d5e3bb8cf503b671fc
cgrates/engine/units_counter_test.go

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/*
Real-time Online/Offline Charging System (OCS) for Telecom & ISP environments
Copyright (C) ITsysCOM GmbH
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>
*/
package engine
import (
"testing"
"github.com/cgrates/cgrates/utils"
)
func TestUnitsCounterAddBalance(t *testing.T) {
uc := &UnitCounter{
Counters: CounterFilters{&CounterFilter{Value: 1},
&CounterFilter{Filter: &BalanceFilter{Weight: utils.Float64Pointer(20),
DestinationIDs: utils.StringMapPointer(utils.NewStringMap("NAT"))}},
&CounterFilter{Filter: &BalanceFilter{Weight: utils.Float64Pointer(10),
DestinationIDs: utils.StringMapPointer(utils.NewStringMap("RET"))}}},
}
UnitCounters{utils.SMS: []*UnitCounter{uc}}.addUnits(20, utils.SMS,
&CallCost{Destination: "test"}, nil)
if len(uc.Counters) != 3 {
t.Error("Error adding minute bucket: ", uc.Counters)
}
}
func TestUnitsCounterAddBalanceExists(t *testing.T) {
uc := &UnitCounter{
Counters: CounterFilters{&CounterFilter{Value: 1}, &CounterFilter{Value: 10,
Filter: &BalanceFilter{Weight: utils.Float64Pointer(20),
DestinationIDs: utils.StringMapPointer(utils.NewStringMap("NAT"))}},
&CounterFilter{Filter: &BalanceFilter{Weight: utils.Float64Pointer(10),
DestinationIDs: utils.StringMapPointer(utils.NewStringMap("RET"))}}},
}
UnitCounters{utils.SMS: []*UnitCounter{uc}}.addUnits(5,
utils.SMS, &CallCost{Destination: "0723"}, nil)
if len(uc.Counters) != 3 || uc.Counters[1].Value != 15 {
t.Error("Error adding minute bucket!")
}
}
func TestUnitCountersCountAllMonetary(t *testing.T) {
a := &Account{
ActionTriggers: ActionTriggers{
&ActionTrigger{
UniqueID: "TestTR1",
ThresholdType: utils.TRIGGER_MAX_EVENT_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.MONETARY),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR11",
ThresholdType: utils.TRIGGER_MAX_EVENT_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.MONETARY),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR2",
ThresholdType: utils.TRIGGER_MAX_EVENT_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.VOICE),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR3",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.VOICE),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR4",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.SMS),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR5",
ThresholdType: utils.TRIGGER_MAX_BALANCE,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.SMS),
Weight: utils.Float64Pointer(10),
},
},
},
}
a.InitCounters()
a.UnitCounters.addUnits(10, utils.MONETARY, &CallCost{}, nil)
if len(a.UnitCounters) != 3 ||
len(a.UnitCounters[utils.MONETARY][0].Counters) != 2 ||
a.UnitCounters[utils.MONETARY][0].Counters[0].Value != 10 ||
a.UnitCounters[utils.MONETARY][0].Counters[1].Value != 10 {
for key, counters := range a.UnitCounters {
t.Log(key)
for _, uc := range counters {
t.Logf("UC: %+v", uc)
for _, b := range uc.Counters {
t.Logf("B: %+v", b)
}
}
}
t.Errorf("Error Initializing adding unit counters: %v", len(a.UnitCounters))
}
}
func TestUnitCountersCountAllMonetaryId(t *testing.T) {
a := &Account{
ActionTriggers: ActionTriggers{
&ActionTrigger{
UniqueID: "TestTR1",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.MONETARY),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR11",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.MONETARY),
Weight: utils.Float64Pointer(20),
},
},
&ActionTrigger{
UniqueID: "TestTR2",
ThresholdType: utils.TRIGGER_MAX_EVENT_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.VOICE),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR3",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.VOICE),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR4",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.SMS),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR5",
ThresholdType: utils.TRIGGER_MAX_BALANCE,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.SMS),
Weight: utils.Float64Pointer(10),
},
},
},
}
a.InitCounters()
a.UnitCounters.addUnits(10, utils.MONETARY, nil, &Balance{Weight: 20})
if len(a.UnitCounters) != 3 ||
len(a.UnitCounters[utils.MONETARY][0].Counters) != 2 ||
a.UnitCounters[utils.MONETARY][0].Counters[0].Value != 0 ||
a.UnitCounters[utils.MONETARY][0].Counters[1].Value != 10 {
for key, counters := range a.UnitCounters {
t.Log(key)
for _, uc := range counters {
t.Logf("UC: %+v", uc)
for _, b := range uc.Counters {
t.Logf("B: %+v", b)
}
}
}
t.Errorf("Error adding unit counters: %v", len(a.UnitCounters))
}
}
func TestUnitCountersCountAllVoiceDestinationEvent(t *testing.T) {
a := &Account{
ActionTriggers: ActionTriggers{
&ActionTrigger{
UniqueID: "TestTR1",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.MONETARY),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR11",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.MONETARY),
Weight: utils.Float64Pointer(20),
},
},
&ActionTrigger{
UniqueID: "TestTR2",
ThresholdType: utils.TRIGGER_MAX_EVENT_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.VOICE),
DestinationIDs: utils.StringMapPointer(utils.NewStringMap("NAT")),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR22",
ThresholdType: utils.TRIGGER_MAX_EVENT_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.VOICE),
DestinationIDs: utils.StringMapPointer(utils.NewStringMap("RET")),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR3",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.VOICE),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR4",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.SMS),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR5",
ThresholdType: utils.TRIGGER_MAX_BALANCE,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.SMS),
Weight: utils.Float64Pointer(10),
},
},
},
}
a.InitCounters()
a.UnitCounters.addUnits(10, utils.VOICE, &CallCost{Destination: "0723045326"}, nil)
if len(a.UnitCounters) != 3 ||
len(a.UnitCounters[utils.VOICE][0].Counters) != 2 ||
a.UnitCounters[utils.VOICE][0].Counters[0].Value != 10 ||
a.UnitCounters[utils.VOICE][0].Counters[1].Value != 10 {
for key, counters := range a.UnitCounters {
t.Log(key)
for _, uc := range counters {
t.Logf("UC: %+v", uc)
for _, b := range uc.Counters {
t.Logf("B: %+v", b)
}
}
}
t.Errorf("Error adding unit counters: %v", len(a.UnitCounters))
}
}
func TestUnitCountersKeepValuesAfterInit(t *testing.T) {
a := &Account{
ActionTriggers: ActionTriggers{
&ActionTrigger{
UniqueID: "TestTR1",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.MONETARY),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR11",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.MONETARY),
Weight: utils.Float64Pointer(20),
},
},
&ActionTrigger{
UniqueID: "TestTR2",
ThresholdType: utils.TRIGGER_MAX_EVENT_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.VOICE),
DestinationIDs: utils.StringMapPointer(utils.NewStringMap("NAT")),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR22",
ThresholdType: utils.TRIGGER_MAX_EVENT_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.VOICE),
DestinationIDs: utils.StringMapPointer(utils.NewStringMap("RET")),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR3",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.VOICE),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR4",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.SMS),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR5",
ThresholdType: utils.TRIGGER_MAX_BALANCE,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.SMS),
Weight: utils.Float64Pointer(10),
},
},
},
}
a.InitCounters()
a.UnitCounters.addUnits(10, utils.VOICE, &CallCost{Destination: "0723045326"}, nil)
if len(a.UnitCounters) != 3 ||
len(a.UnitCounters[utils.VOICE][0].Counters) != 2 ||
a.UnitCounters[utils.VOICE][0].Counters[0].Value != 10 ||
a.UnitCounters[utils.VOICE][0].Counters[1].Value != 10 {
for key, counters := range a.UnitCounters {
t.Log(key)
for _, uc := range counters {
t.Logf("UC: %+v", uc)
for _, b := range uc.Counters {
t.Logf("B: %+v", b)
}
}
}
t.Errorf("Error adding unit counters: %v", len(a.UnitCounters))
}
a.InitCounters()
if len(a.UnitCounters) != 3 ||
len(a.UnitCounters[utils.VOICE][0].Counters) != 2 ||
a.UnitCounters[utils.VOICE][0].Counters[0].Value != 10 ||
a.UnitCounters[utils.VOICE][0].Counters[1].Value != 10 {
for key, counters := range a.UnitCounters {
t.Log(key)
for _, uc := range counters {
t.Logf("UC: %+v", uc)
for _, b := range uc.Counters {
t.Logf("B: %+v", b)
}
}
}
t.Errorf("Error keeping counter values after init: %v", len(a.UnitCounters))
}
}
func TestUnitCountersResetCounterById(t *testing.T) {
a := &Account{
ActionTriggers: ActionTriggers{
&ActionTrigger{
UniqueID: "TestTR1",
ThresholdType: utils.TRIGGER_MAX_EVENT_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.MONETARY),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR11",
ThresholdType: utils.TRIGGER_MAX_EVENT_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.MONETARY),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR2",
ThresholdType: utils.TRIGGER_MAX_EVENT_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.VOICE),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR3",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.VOICE),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR4",
ThresholdType: utils.TRIGGER_MAX_BALANCE_COUNTER,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.SMS),
Weight: utils.Float64Pointer(10),
},
},
&ActionTrigger{
UniqueID: "TestTR5",
ThresholdType: utils.TRIGGER_MAX_BALANCE,
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.SMS),
Weight: utils.Float64Pointer(10),
},
},
},
}
a.InitCounters()
a.UnitCounters.addUnits(10, utils.MONETARY, &CallCost{}, nil)
if len(a.UnitCounters) != 3 ||
len(a.UnitCounters[utils.MONETARY][0].Counters) != 2 ||
a.UnitCounters[utils.MONETARY][0].Counters[0].Value != 10 ||
a.UnitCounters[utils.MONETARY][0].Counters[1].Value != 10 {
for key, counters := range a.UnitCounters {
t.Log(key)
for _, uc := range counters {
t.Logf("UC: %+v", uc)
for _, b := range uc.Counters {
t.Logf("B: %+v", b)
}
}
}
t.Errorf("Error Initializing adding unit counters: %v", len(a.UnitCounters))
}
a.UnitCounters.resetCounters(&Action{
Balance: &BalanceFilter{
Type: utils.StringPointer(utils.MONETARY),
ID: utils.StringPointer("TestTR11"),
},
})
if len(a.UnitCounters) != 3 ||
len(a.UnitCounters[utils.MONETARY][0].Counters) != 2 ||
a.UnitCounters[utils.MONETARY][0].Counters[0].Value != 10 ||
a.UnitCounters[utils.MONETARY][0].Counters[1].Value != 0 {
for key, counters := range a.UnitCounters {
t.Log(key)
for _, uc := range counters {
t.Logf("UC: %+v", uc)
for _, b := range uc.Counters {
t.Logf("B: %+v", b)
}
}
}
t.Errorf("Error Initializing adding unit counters: %v", len(a.UnitCounters))
}
}
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