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c2bb67bafab39ede8bdfcf083056091a911bd3a8
cgrates/engine/model_helpers_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, 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 <http://www.gnu.org/licenses/>
*/
package engine
import (
"reflect"
"sort"
"strings"
"testing"
"time"
"github.com/cgrates/cgrates/config"
"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 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{
{"TEST_DEST", "49"},
{"TEST_DEST", "49176"},
{"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 TestTpDestinationsAsMapDestinations(t *testing.T) {
in := &TpDestinations{}
eOut := map[string]*Destination{}
if rcv, err := in.AsMapDestinations(); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(rcv, eOut) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
in = &TpDestinations{
TpDestination{Tpid: "TEST_TPID", Tag: "TEST_DEST1", Prefix: "+491"},
TpDestination{Tpid: "TEST_TPID", Tag: "TEST_DEST2", Prefix: "+492"},
}
eOut = map[string]*Destination{
"TEST_DEST1": &Destination{
Id: "TEST_DEST1",
Prefixes: []string{"+491"},
},
"TEST_DEST2": &Destination{
Id: "TEST_DEST2",
Prefixes: []string{"+492"},
},
}
var rcv map[string]*Destination
if rcv, err = in.AsMapDestinations(); err != nil {
t.Error(err)
}
for key := range rcv {
if !reflect.DeepEqual(rcv[key], eOut[key]) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut[key]), utils.ToJSON(rcv[key]))
}
}
in = &TpDestinations{
TpDestination{Tpid: "TEST_TPID", Tag: "TEST_DEST1", Prefix: "+491"},
TpDestination{Tpid: "TEST_TPID", Tag: "TEST_DEST2", Prefix: "+492"},
TpDestination{Tpid: "TEST_ID", Tag: "", Prefix: ""},
}
eOut = map[string]*Destination{
"TEST_DEST1": &Destination{
Id: "TEST_DEST1",
Prefixes: []string{"+491"},
},
"TEST_DEST2": &Destination{
Id: "TEST_DEST2",
Prefixes: []string{"+492"},
},
"": &Destination{
Id: "",
Prefixes: []string{""},
},
}
if rcv, err = in.AsMapDestinations(); err != nil {
t.Error(err)
}
for key, _ := range rcv {
if !reflect.DeepEqual(rcv[key], eOut[key]) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut[key]), utils.ToJSON(rcv[key]))
}
}
}
func TestTpDestinationsAPItoModelDestination(t *testing.T) {
d := &utils.TPDestination{}
eOut := TpDestinations{
TpDestination{},
}
if rcv := APItoModelDestination(d); rcv != nil {
if !reflect.DeepEqual(rcv, eOut) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
d = &utils.TPDestination{
TPid: "TEST_TPID",
ID: "TEST_ID",
Prefixes: []string{"+491"},
}
eOut = TpDestinations{
TpDestination{
Tpid: "TEST_TPID",
Tag: "TEST_ID",
Prefix: "+491",
},
}
if rcv := APItoModelDestination(d); rcv != nil {
if !reflect.DeepEqual(rcv, eOut) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
}
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{{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 TestMapTPTimings(t *testing.T) {
var tps []*utils.ApierTPTiming
eOut := map[string]*utils.TPTiming{}
if rcv, err := MapTPTimings(tps); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", eOut, rcv)
}
tps = []*utils.ApierTPTiming{
&utils.ApierTPTiming{
TPid: "TPid1",
ID: "ID1",
},
}
eOut = map[string]*utils.TPTiming{
"ID1": &utils.TPTiming{
ID: "ID1",
Years: utils.Years{},
Months: utils.Months{},
MonthDays: utils.MonthDays{},
WeekDays: utils.WeekDays{},
},
}
if rcv, err := MapTPTimings(tps); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
tps = []*utils.ApierTPTiming{
&utils.ApierTPTiming{
TPid: "TPid1",
ID: "ID1",
Months: "1;2;3;4",
},
}
eOut = map[string]*utils.TPTiming{
"ID1": &utils.TPTiming{
ID: "ID1",
Years: utils.Years{},
Months: utils.Months{1, 2, 3, 4},
MonthDays: utils.MonthDays{},
WeekDays: utils.WeekDays{},
},
}
if rcv, err := MapTPTimings(tps); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
//same id error
tps = []*utils.ApierTPTiming{
&utils.ApierTPTiming{
TPid: "TPid1",
ID: "ID1",
Months: "1;2;3;4",
},
&utils.ApierTPTiming{
TPid: "TPid1",
ID: "ID1",
Months: "1;2;3;4",
},
}
eOut = map[string]*utils.TPTiming{
"ID1": &utils.TPTiming{
ID: "ID1",
Years: utils.Years{},
Months: utils.Months{1, 2, 3, 4},
MonthDays: utils.MonthDays{},
WeekDays: utils.WeekDays{},
},
}
if _, err := MapTPTimings(tps); err == nil || err.Error() != "duplicate timing tag: ID1" {
t.Errorf("Expecting: nil, received: %+v", err)
}
}
func TestMapTPRates(t *testing.T) {
s := []*utils.TPRateRALs{}
eOut := map[string]*utils.TPRateRALs{}
if rcv, err := MapTPRates(s); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
s = []*utils.TPRateRALs{
&utils.TPRateRALs{
ID: "ID",
TPid: "TPid",
RateSlots: []*utils.RateSlot{
{
ConnectFee: 0.100,
Rate: 0.200,
RateUnit: "60",
RateIncrement: "60",
GroupIntervalStart: "0"},
{
ConnectFee: 0.0,
Rate: 0.1,
RateUnit: "1",
RateIncrement: "60",
GroupIntervalStart: "60"},
},
},
}
eOut = map[string]*utils.TPRateRALs{
"ID": {
TPid: "TPid",
ID: "ID",
RateSlots: []*utils.RateSlot{
{
ConnectFee: 0.1,
Rate: 0.2,
RateUnit: "60",
RateIncrement: "60",
GroupIntervalStart: "0",
}, {
ConnectFee: 0,
Rate: 0.1,
RateUnit: "1",
RateIncrement: "60",
GroupIntervalStart: "60",
},
},
},
}
if rcv, err := MapTPRates(s); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
s = []*utils.TPRateRALs{
&utils.TPRateRALs{
ID: "",
TPid: "",
RateSlots: []*utils.RateSlot{
{ConnectFee: 0.8},
{ConnectFee: 0.7},
},
},
}
eOut = map[string]*utils.TPRateRALs{
"": {
TPid: "",
ID: "",
RateSlots: []*utils.RateSlot{
{ConnectFee: 0.8},
{ConnectFee: 0.7},
},
},
}
if rcv, err := MapTPRates(s); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
s = []*utils.TPRateRALs{
&utils.TPRateRALs{
ID: "SameID",
TPid: "",
RateSlots: []*utils.RateSlot{
{ConnectFee: 0.8},
{ConnectFee: 0.7},
},
},
&utils.TPRateRALs{
ID: "SameID",
TPid: "",
RateSlots: []*utils.RateSlot{
{ConnectFee: 0.9},
{ConnectFee: 0.1},
},
},
}
if _, err := MapTPRates(s); err == nil || err.Error() != "Non unique ID SameID" {
t.Error(err)
}
}
func TestAPItoModelTimings(t *testing.T) {
ts := []*utils.ApierTPTiming{}
eOut := TpTimings{}
if rcv := APItoModelTimings(ts); rcv != nil {
t.Errorf("Expecting: nil, received: %+v", utils.ToJSON(rcv))
}
ts = []*utils.ApierTPTiming{
&utils.ApierTPTiming{
TPid: "TPid1",
ID: "ID1",
Months: "1;2;3;4",
},
}
eOut = TpTimings{
TpTiming{
Tpid: "TPid1",
Months: "1;2;3;4",
Tag: "ID1",
},
}
if rcv := APItoModelTimings(ts); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
ts = []*utils.ApierTPTiming{
&utils.ApierTPTiming{
TPid: "TPid1",
ID: "ID1",
Months: "1;2;3;4",
},
&utils.ApierTPTiming{
TPid: "TPid2",
ID: "ID2",
Months: "1;2;3;4",
MonthDays: "1;2;3;4;28",
Years: "2020;2019",
WeekDays: "4;5",
},
}
eOut = TpTimings{
TpTiming{
Tpid: "TPid1",
Months: "1;2;3;4",
Tag: "ID1",
},
TpTiming{
Tpid: "TPid2",
Tag: "ID2",
Months: "1;2;3;4",
MonthDays: "1;2;3;4;28",
Years: "2020;2019",
WeekDays: "4;5",
},
}
if rcv := APItoModelTimings(ts); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestTPRateAsExportSlice(t *testing.T) {
tpRate := &utils.TPRateRALs{
TPid: "TEST_TPID",
ID: "TEST_RATEID",
RateSlots: []*utils.RateSlot{
{
ConnectFee: 0.100,
Rate: 0.200,
RateUnit: "60",
RateIncrement: "60",
GroupIntervalStart: "0"},
{
ConnectFee: 0.0,
Rate: 0.1,
RateUnit: "1",
RateIncrement: "60",
GroupIntervalStart: "60"},
},
}
expectedSlc := [][]string{
{"TEST_RATEID", "0.1", "0.2", "60", "60", "0"},
{"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 TestAPItoModelRates(t *testing.T) {
rs := []*utils.TPRateRALs{}
eOut := TpRates{}
if rcv := APItoModelRates(rs); rcv != nil {
t.Errorf("Expecting: nil, received: %+v", utils.ToJSON(rcv))
}
rs = []*utils.TPRateRALs{
&utils.TPRateRALs{
ID: "SomeID",
TPid: "TPid",
RateSlots: []*utils.RateSlot{
&utils.RateSlot{
ConnectFee: 0.7,
Rate: 0.8,
},
&utils.RateSlot{
ConnectFee: 0.77,
Rate: 0.88,
},
},
},
}
eOut = TpRates{
TpRate{
Tpid: "TPid",
Tag: "SomeID",
ConnectFee: 0.7,
Rate: 0.8,
},
TpRate{
Tpid: "TPid",
Tag: "SomeID",
ConnectFee: 0.77,
Rate: 0.88,
},
}
if rcv := APItoModelRates(rs); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
rs = []*utils.TPRateRALs{
&utils.TPRateRALs{
ID: "SomeID",
TPid: "TPid",
RateSlots: []*utils.RateSlot{},
},
}
eOut = TpRates{
TpRate{
Tpid: "TPid",
Tag: "SomeID",
},
}
if rcv := APItoModelRates(rs); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestTPDestinationRateAsExportSlice(t *testing.T) {
tpDstRate := &utils.TPDestinationRate{
TPid: "TEST_TPID",
ID: "TEST_DSTRATE",
DestinationRates: []*utils.DestinationRate{
{
DestinationId: "TEST_DEST1",
RateId: "TEST_RATE1",
RoundingMethod: "*up",
RoundingDecimals: 4},
{
DestinationId: "TEST_DEST2",
RateId: "TEST_RATE2",
RoundingMethod: "*up",
RoundingDecimals: 4},
},
}
expectedSlc := [][]string{
{"TEST_DSTRATE", "TEST_DEST1", "TEST_RATE1", "*up", "4", "0", ""},
{"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)
}
tpDstRate = &utils.TPDestinationRate{
TPid: "TEST_TPID",
ID: "TEST_DSTRATE",
DestinationRates: []*utils.DestinationRate{},
}
eOut := TpDestinationRates{
TpDestinationRate{
Tpid: "TEST_TPID",
Tag: "TEST_DSTRATE",
},
}
if rcv := APItoModelDestinationRate(tpDstRate); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", eOut, rcv)
}
}
func TestAPItoModelDestinationRates(t *testing.T) {
var drs []*utils.TPDestinationRate
if rcv := APItoModelDestinationRates(drs); rcv != nil {
t.Errorf("Expecting: nil, received: %+v", rcv)
}
drs = []*utils.TPDestinationRate{
&utils.TPDestinationRate{
TPid: "TEST_TPID",
ID: "TEST_DSTRATE",
DestinationRates: []*utils.DestinationRate{
{
DestinationId: "TEST_DEST1",
RateId: "TEST_RATE1",
RoundingMethod: "*up",
RoundingDecimals: 4},
{
DestinationId: "TEST_DEST2",
RateId: "TEST_RATE2",
RoundingMethod: "*up",
RoundingDecimals: 4},
},
},
}
eOut := TpDestinationRates{
TpDestinationRate{
Tpid: "TEST_TPID",
Tag: "TEST_DSTRATE",
DestinationsTag: "TEST_DEST1",
RatesTag: "TEST_RATE1",
RoundingMethod: "*up",
RoundingDecimals: 4,
},
TpDestinationRate{
Tpid: "TEST_TPID",
Tag: "TEST_DSTRATE",
DestinationsTag: "TEST_DEST2",
RatesTag: "TEST_RATE2",
RoundingMethod: "*up",
RoundingDecimals: 4,
},
}
if rcv := APItoModelDestinationRates(drs); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", eOut, rcv)
}
}
func TestTpDestinationRatesAsTPDestinationRates(t *testing.T) {
pts := TpDestinationRates{}
eOut := []*utils.TPDestinationRate{}
if rcv, err := pts.AsTPDestinationRates(); err != nil {
t.Error(err)
} else if rcv != nil {
t.Errorf("Expecting: nil, received: %+v", utils.ToJSON(rcv))
}
pts = TpDestinationRates{
TpDestinationRate{
Id: 66,
Tpid: "Tpid",
Tag: "Tag",
DestinationsTag: "DestinationsTag",
RatesTag: "RatesTag",
RoundingMethod: "*up",
RoundingDecimals: 2,
MaxCost: 0.7,
MaxCostStrategy: "*free",
},
}
eOut = []*utils.TPDestinationRate{
&utils.TPDestinationRate{
TPid: "Tpid",
ID: "Tag",
DestinationRates: []*utils.DestinationRate{
&utils.DestinationRate{
DestinationId: "DestinationsTag",
RateId: "RatesTag",
RoundingMethod: "*up",
RoundingDecimals: 2,
MaxCost: 0.7,
MaxCostStrategy: "*free",
},
},
},
}
if rcv, err := pts.AsTPDestinationRates(); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestMapTPDestinationRates(t *testing.T) {
var s []*utils.TPDestinationRate
eOut := map[string]*utils.TPDestinationRate{}
if rcv, err := MapTPDestinationRates(s); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
s = []*utils.TPDestinationRate{
&utils.TPDestinationRate{
TPid: "TEST_TPID",
ID: "TEST_DSTRATE",
DestinationRates: []*utils.DestinationRate{
{
DestinationId: "TEST_DEST1",
RateId: "TEST_RATE1",
RoundingMethod: "*up",
RoundingDecimals: 4},
{
DestinationId: "TEST_DEST2",
RateId: "TEST_RATE2",
RoundingMethod: "*up",
RoundingDecimals: 4},
},
},
}
eOut = map[string]*utils.TPDestinationRate{
"TEST_DSTRATE": &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,
},
},
},
}
if rcv, err := MapTPDestinationRates(s); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
s = []*utils.TPDestinationRate{
&utils.TPDestinationRate{
TPid: "TEST_TPID",
ID: "TEST_DSTRATE",
DestinationRates: []*utils.DestinationRate{},
},
&utils.TPDestinationRate{
TPid: "TEST_TPID",
ID: "TEST_DSTRATE",
DestinationRates: []*utils.DestinationRate{},
},
}
if rcv, err := MapTPDestinationRates(s); err == nil || err.Error() != "Non unique ID TEST_DSTRATE" {
t.Error(err)
} else if rcv != nil {
t.Errorf("Expecting: nil, received: %+v", rcv)
}
}
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{
{"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 TestTPRatingPlanAsExportSlice(t *testing.T) {
tpRpln := &utils.TPRatingPlan{
TPid: "TEST_TPID",
ID: "TEST_RPLAN",
RatingPlanBindings: []*utils.TPRatingPlanBinding{
{
DestinationRatesId: "TEST_DSTRATE1",
TimingId: "TEST_TIMING1",
Weight: 10.0},
{
DestinationRatesId: "TEST_DSTRATE2",
TimingId: "TEST_TIMING2",
Weight: 20.0},
}}
expectedSlc := [][]string{
{"TEST_RPLAN", "TEST_DSTRATE1", "TEST_TIMING1", "10"},
{"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 TestAPItoModelRatingPlan(t *testing.T) {
rp := &utils.TPRatingPlan{}
eOut := TpRatingPlans{TpRatingPlan{}}
if rcv := APItoModelRatingPlan(rp); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
rp = &utils.TPRatingPlan{
TPid: "TEST_TPID",
ID: "TEST_RPLAN",
RatingPlanBindings: []*utils.TPRatingPlanBinding{
{
DestinationRatesId: "TEST_DSTRATE1",
TimingId: "TEST_TIMING1",
Weight: 10.0},
{
DestinationRatesId: "TEST_DSTRATE2",
TimingId: "TEST_TIMING2",
Weight: 20.0},
}}
eOut = TpRatingPlans{
TpRatingPlan{
Tpid: "TEST_TPID",
Tag: "TEST_RPLAN",
DestratesTag: "TEST_DSTRATE1",
TimingTag: "TEST_TIMING1",
Weight: 10.0,
},
TpRatingPlan{
Tpid: "TEST_TPID",
Tag: "TEST_RPLAN",
DestratesTag: "TEST_DSTRATE2",
TimingTag: "TEST_TIMING2",
Weight: 20.0,
},
}
if rcv := APItoModelRatingPlan(rp); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
rp = &utils.TPRatingPlan{
TPid: "TEST_TPID",
ID: "TEST_RPLAN",
}
eOut = TpRatingPlans{
TpRatingPlan{
Tpid: "TEST_TPID",
Tag: "TEST_RPLAN",
},
}
if rcv := APItoModelRatingPlan(rp); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestAPItoModelRatingPlans(t *testing.T) {
var rps []*utils.TPRatingPlan
if rcv := APItoModelRatingPlans(rps); rcv != nil {
t.Errorf("Expecting: nil, received: %+v", utils.ToJSON(rcv))
}
rps = []*utils.TPRatingPlan{
&utils.TPRatingPlan{
ID: "ID",
TPid: "TPid",
RatingPlanBindings: []*utils.TPRatingPlanBinding{
&utils.TPRatingPlanBinding{
DestinationRatesId: "DestinationRatesId",
TimingId: "TimingId",
Weight: 0.7,
},
},
},
}
eOut := TpRatingPlans{
TpRatingPlan{
Tag: "ID",
Tpid: "TPid",
DestratesTag: "DestinationRatesId",
TimingTag: "TimingId",
Weight: 0.7,
},
}
if rcv := APItoModelRatingPlans(rps); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestTPRatingProfileAsExportSlice(t *testing.T) {
tpRpf := &utils.TPRatingProfile{
TPid: "TEST_TPID",
LoadId: "TEST_LOADID",
Tenant: "cgrates.org",
Category: "call",
Subject: "*any",
RatingPlanActivations: []*utils.TPRatingActivation{
{
ActivationTime: "2014-01-14T00:00:00Z",
RatingPlanId: "TEST_RPLAN1",
FallbackSubjects: "subj1;subj2"},
{
ActivationTime: "2014-01-15T00:00:00Z",
RatingPlanId: "TEST_RPLAN2",
FallbackSubjects: "subj1;subj2"},
},
}
expectedSlc := [][]string{
{"cgrates.org", "call", "*any", "2014-01-14T00:00:00Z", "TEST_RPLAN1", "subj1;subj2"},
{"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 TestAPItoModelRatingProfile(t *testing.T) {
var rp *utils.TPRatingProfile
if rcv := APItoModelRatingProfile(rp); rcv != nil {
t.Errorf("Expecting: nil, received: %+v", rcv)
}
rp = &utils.TPRatingProfile{
TPid: "TEST_TPID",
LoadId: "TEST_LOADID",
Tenant: "cgrates.org",
Category: "call",
Subject: "*any",
RatingPlanActivations: []*utils.TPRatingActivation{
{
ActivationTime: "2014-01-14T00:00:00Z",
RatingPlanId: "TEST_RPLAN1",
FallbackSubjects: "subj1;subj2"},
{
ActivationTime: "2014-01-15T00:00:00Z",
RatingPlanId: "TEST_RPLAN2",
FallbackSubjects: "subj1;subj2"},
},
}
eOut := TpRatingProfiles{
TpRatingProfile{
Tpid: "TEST_TPID",
Loadid: "TEST_LOADID",
Tenant: "cgrates.org",
Category: "call",
Subject: "*any",
RatingPlanTag: "TEST_RPLAN1",
FallbackSubjects: "subj1;subj2",
ActivationTime: "2014-01-14T00:00:00Z",
},
TpRatingProfile{
Tpid: "TEST_TPID",
Loadid: "TEST_LOADID",
Tenant: "cgrates.org",
Category: "call",
Subject: "*any",
RatingPlanTag: "TEST_RPLAN2",
FallbackSubjects: "subj1;subj2",
ActivationTime: "2014-01-15T00:00:00Z",
},
}
if rcv := APItoModelRatingProfile(rp); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
rp = &utils.TPRatingProfile{
TPid: "TEST_TPID",
LoadId: "TEST_LOADID",
Tenant: "cgrates.org",
Category: "call",
Subject: "*any",
}
eOut = TpRatingProfiles{
TpRatingProfile{
Tpid: "TEST_TPID",
Loadid: "TEST_LOADID",
Tenant: "cgrates.org",
Category: "call",
Subject: "*any",
},
}
if rcv := APItoModelRatingProfile(rp); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestAPItoModelRatingProfiles(t *testing.T) {
var rps []*utils.TPRatingProfile
if rcv := APItoModelRatingProfiles(rps); rcv != nil {
t.Errorf("Expecting: nil, received: %+v", rcv)
}
rps = []*utils.TPRatingProfile{
&utils.TPRatingProfile{
TPid: "TEST_TPID",
LoadId: "TEST_LOADID",
Tenant: "cgrates.org",
Category: "call",
Subject: "*any",
},
&utils.TPRatingProfile{
TPid: "TEST_TPID2",
LoadId: "TEST_LOADID2",
Tenant: "cgrates.org",
Category: "call",
Subject: "*any",
},
}
eOut := TpRatingProfiles{
TpRatingProfile{
Tpid: "TEST_TPID",
Loadid: "TEST_LOADID",
Tenant: "cgrates.org",
Category: "call",
Subject: "*any",
},
TpRatingProfile{
Tpid: "TEST_TPID2",
Loadid: "TEST_LOADID2",
Tenant: "cgrates.org",
Category: "call",
Subject: "*any",
},
}
if rcv := APItoModelRatingProfiles(rps); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestTPActionsAsExportSlice(t *testing.T) {
tpActs := &utils.TPActions{
TPid: "TEST_TPID",
ID: "TEST_ACTIONS",
Actions: []*utils.TPAction{
{
Identifier: "*topup_reset",
BalanceType: "*monetary",
Units: "5.0",
ExpiryTime: "*never",
DestinationIds: "*any",
RatingSubject: "special1",
Categories: "call",
SharedGroups: "GROUP1",
BalanceWeight: "10.0",
ExtraParameters: "",
Weight: 10.0},
{
Identifier: "*http_post",
BalanceType: "",
Units: "0.0",
ExpiryTime: "",
DestinationIds: "",
RatingSubject: "",
Categories: "",
SharedGroups: "",
BalanceWeight: "0.0",
ExtraParameters: "http://localhost/&param1=value1",
Weight: 20.0},
},
}
expectedSlc := [][]string{
{"TEST_ACTIONS", "*topup_reset", "", "", "", "*monetary", "call", "*any", "special1", "GROUP1", "*never", "", "5.0", "10.0", "", "", "10"},
{"TEST_ACTIONS", "*http_post", "http://localhost/&param1=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{
{
Account: "*any",
Strategy: "*highest",
RatingSubject: "special1"},
{
Account: "second",
Strategy: "*highest",
RatingSubject: "special2"},
},
}
expectedSlc := [][]string{
{"SHARED_GROUP_TEST", "*any", "*highest", "special1"},
{"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)
}
}
func TestAPItoModelSharedGroups(t *testing.T) {
sgs := []*utils.TPSharedGroups{}
if rcv := APItoModelSharedGroups(sgs); rcv != nil {
t.Errorf("Expecting: nil, received: %+v", rcv)
}
sgs = []*utils.TPSharedGroups{
&utils.TPSharedGroups{
TPid: "TEST_TPID",
ID: "SHARED_GROUP_TEST",
SharedGroups: []*utils.TPSharedGroup{
{
Account: "*any",
Strategy: "*highest",
RatingSubject: "special1"},
{
Account: "*second",
Strategy: "*highest",
RatingSubject: "special2"},
},
},
}
eOut := TpSharedGroups{
TpSharedGroup{
Tpid: "TEST_TPID",
Tag: "SHARED_GROUP_TEST",
Account: "*any",
Strategy: "*highest",
RatingSubject: "special1",
},
TpSharedGroup{
Tpid: "TEST_TPID",
Tag: "SHARED_GROUP_TEST",
Account: "*second",
Strategy: "*highest",
RatingSubject: "special2",
},
}
if rcv := APItoModelSharedGroups(sgs); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
sgs = []*utils.TPSharedGroups{
&utils.TPSharedGroups{
TPid: "TEST_TPID",
ID: "SHARED_GROUP_TEST",
},
}
eOut = TpSharedGroups{
TpSharedGroup{
Tpid: "TEST_TPID",
Tag: "SHARED_GROUP_TEST",
},
}
if rcv := APItoModelSharedGroups(sgs); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
sgs = []*utils.TPSharedGroups{
&utils.TPSharedGroups{
TPid: "TEST_TPID",
ID: "SHARED_GROUP_TEST",
SharedGroups: []*utils.TPSharedGroup{
{
Account: "*any",
Strategy: "*highest",
RatingSubject: "special1"},
{
Account: "*second",
Strategy: "*highest",
RatingSubject: "special2"},
},
},
&utils.TPSharedGroups{
TPid: "TEST_TPID2",
ID: "SHARED_GROUP_TEST2",
SharedGroups: []*utils.TPSharedGroup{
{
Account: "*any",
Strategy: "*highest",
RatingSubject: "special1"},
{
Account: "second",
Strategy: "*highest",
RatingSubject: "special2"},
},
},
}
eOut = TpSharedGroups{
TpSharedGroup{
Tpid: "TEST_TPID",
Tag: "SHARED_GROUP_TEST",
Account: "*any",
Strategy: "*highest",
RatingSubject: "special1",
},
TpSharedGroup{
Tpid: "TEST_TPID",
Tag: "SHARED_GROUP_TEST",
Account: "*second",
Strategy: "*highest",
RatingSubject: "special2",
},
TpSharedGroup{
Tpid: "TEST_TPID2",
Tag: "SHARED_GROUP_TEST2",
Account: "*any",
Strategy: "*highest",
RatingSubject: "special1",
},
TpSharedGroup{
Tpid: "TEST_TPID2",
Tag: "SHARED_GROUP_TEST2",
Account: "second",
Strategy: "*highest",
RatingSubject: "special2",
},
}
if rcv := APItoModelSharedGroups(sgs); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestTPActionTriggersAsExportSlice(t *testing.T) {
ap := &utils.TPActionPlan{
TPid: "TEST_TPID",
ID: "PACKAGE_10",
ActionPlan: []*utils.TPActionTiming{
{
ActionsId: "TOPUP_RST_10",
TimingId: "ASAP",
Weight: 10.0},
{
ActionsId: "TOPUP_RST_5",
TimingId: "ASAP",
Weight: 20.0},
},
}
expectedSlc := [][]string{
{"PACKAGE_10", "TOPUP_RST_10", "ASAP", "10"},
{"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 TestAPItoModelActionPlan(t *testing.T) {
var a *utils.TPActionPlan
if rcv := APItoModelActionPlan(a); rcv != nil {
t.Errorf("Expecting: nil, received: %+v", rcv)
}
a = &utils.TPActionPlan{
TPid: "TEST_TPID",
ID: "PACKAGE_10",
ActionPlan: []*utils.TPActionTiming{
{
ActionsId: "TOPUP_RST_10",
TimingId: "ASAP",
Weight: 10.0},
{
ActionsId: "TOPUP_RST_5",
TimingId: "ASAP",
Weight: 20.0},
},
}
eOut := TpActionPlans{
TpActionPlan{
Tpid: "TEST_TPID",
Tag: "PACKAGE_10",
ActionsTag: "TOPUP_RST_10",
TimingTag: "ASAP",
Weight: 10,
},
TpActionPlan{
Tpid: "TEST_TPID",
Tag: "PACKAGE_10",
ActionsTag: "TOPUP_RST_5",
TimingTag: "ASAP",
Weight: 20,
},
}
if rcv := APItoModelActionPlan(a); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
a = &utils.TPActionPlan{
TPid: "TEST_TPID",
ID: "PACKAGE_10",
}
eOut = TpActionPlans{
TpActionPlan{
Tpid: "TEST_TPID",
Tag: "PACKAGE_10",
},
}
if rcv := APItoModelActionPlan(a); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestAPItoModelActionPlans(t *testing.T) {
var a []*utils.TPActionPlan
if rcv := APItoModelActionPlans(a); rcv != nil {
t.Errorf("Expecting: nil, received: %+v", rcv)
}
a = []*utils.TPActionPlan{
&utils.TPActionPlan{
TPid: "TEST_TPID",
ID: "PACKAGE_10",
ActionPlan: []*utils.TPActionTiming{
{
ActionsId: "TOPUP_RST_10",
TimingId: "ASAP",
Weight: 10.0},
{
ActionsId: "TOPUP_RST_5",
TimingId: "ASAP",
Weight: 20.0},
},
},
}
eOut := TpActionPlans{
TpActionPlan{
Tpid: "TEST_TPID",
Tag: "PACKAGE_10",
ActionsTag: "TOPUP_RST_10",
TimingTag: "ASAP",
Weight: 10,
},
TpActionPlan{
Tpid: "TEST_TPID",
Tag: "PACKAGE_10",
ActionsTag: "TOPUP_RST_5",
TimingTag: "ASAP",
Weight: 20,
},
}
if rcv := APItoModelActionPlans(a); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
a = []*utils.TPActionPlan{
&utils.TPActionPlan{
TPid: "TEST_TPID",
ID: "PACKAGE_10",
},
}
eOut = TpActionPlans{
TpActionPlan{
Tpid: "TEST_TPID",
Tag: "PACKAGE_10",
},
}
if rcv := APItoModelActionPlans(a); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestTPActionPlanAsExportSlice(t *testing.T) {
at := &utils.TPActionTriggers{
TPid: "TEST_TPID",
ID: "STANDARD_TRIGGERS",
ActionTriggers: []*utils.TPActionTrigger{
{
Id: "STANDARD_TRIGGERS",
UniqueID: "1",
ThresholdType: "*min_balance",
ThresholdValue: 2.0,
Recurrent: false,
MinSleep: "0",
BalanceId: "b1",
BalanceType: "*monetary",
BalanceDestinationIds: "",
BalanceWeight: "0.0",
BalanceExpirationDate: "*never",
BalanceTimingTags: "T1",
BalanceRatingSubject: "special1",
BalanceCategories: "call",
BalanceSharedGroups: "SHARED_1",
BalanceBlocker: "false",
BalanceDisabled: "false",
ActionsId: "LOG_WARNING",
Weight: 10},
{
Id: "STANDARD_TRIGGERS",
UniqueID: "2",
ThresholdType: "*max_event_counter",
ThresholdValue: 5.0,
Recurrent: false,
MinSleep: "0",
BalanceId: "b2",
BalanceType: "*monetary",
BalanceDestinationIds: "FS_USERS",
BalanceWeight: "0.0",
BalanceExpirationDate: "*never",
BalanceTimingTags: "T1",
BalanceRatingSubject: "special1",
BalanceCategories: "call",
BalanceSharedGroups: "SHARED_1",
BalanceBlocker: "false",
BalanceDisabled: "false",
ActionsId: "LOG_WARNING",
Weight: 10},
},
}
expectedSlc := [][]string{
{"STANDARD_TRIGGERS", "1", "*min_balance", "2", "false", "0", "", "", "b1", "*monetary", "call", "", "special1", "SHARED_1", "*never", "T1", "0.0", "false", "false", "LOG_WARNING", "10"},
{"STANDARD_TRIGGERS", "2", "*max_event_counter", "5", "false", "0", "", "", "b2", "*monetary", "call", "FS_USERS", "special1", "SHARED_1", "*never", "T1", "0.0", "false", "false", "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 TestAPItoModelActionTrigger(t *testing.T) {
var at *utils.TPActionTriggers
if rcv := APItoModelActionTrigger(at); rcv != nil {
t.Errorf("Expecting: nil, received: %+v", rcv)
}
at = &utils.TPActionTriggers{
TPid: "TEST_TPID",
ID: "STANDARD_TRIGGERS",
ActionTriggers: []*utils.TPActionTrigger{
{
Id: "STANDARD_TRIGGERS",
UniqueID: "1",
ThresholdType: "*min_balance",
ThresholdValue: 2.0,
Recurrent: false,
MinSleep: "0",
BalanceId: "b1",
BalanceType: "*monetary",
BalanceDestinationIds: "",
BalanceWeight: "0.0",
BalanceExpirationDate: "*never",
BalanceTimingTags: "T1",
BalanceRatingSubject: "special1",
BalanceCategories: "call",
BalanceSharedGroups: "SHARED_1",
BalanceBlocker: "false",
BalanceDisabled: "false",
ActionsId: "LOG_WARNING",
Weight: 10},
{
Id: "STANDARD_TRIGGERS",
UniqueID: "2",
ThresholdType: "*max_event_counter",
ThresholdValue: 5.0,
Recurrent: false,
MinSleep: "0",
BalanceId: "b2",
BalanceType: "*monetary",
BalanceDestinationIds: "FS_USERS",
BalanceWeight: "0.0",
BalanceExpirationDate: "*never",
BalanceTimingTags: "T1",
BalanceRatingSubject: "special1",
BalanceCategories: "call",
BalanceSharedGroups: "SHARED_1",
BalanceBlocker: "false",
BalanceDisabled: "false",
ActionsId: "LOG_WARNING",
Weight: 10},
},
}
eOut := TpActionTriggers{
TpActionTrigger{
Tpid: "TEST_TPID",
Tag: "STANDARD_TRIGGERS",
UniqueId: "1",
ThresholdType: "*min_balance",
ThresholdValue: 2,
MinSleep: "0",
BalanceTag: "b1",
BalanceType: "*monetary",
BalanceCategories: "call",
BalanceRatingSubject: "special1",
BalanceSharedGroups: "SHARED_1",
BalanceExpiryTime: "*never",
BalanceTimingTags: "T1",
BalanceWeight: "0.0",
BalanceBlocker: "false",
BalanceDisabled: "false",
ActionsTag: "LOG_WARNING",
Weight: 10,
},
TpActionTrigger{
Tpid: "TEST_TPID",
Tag: "STANDARD_TRIGGERS",
UniqueId: "2",
ThresholdType: "*max_event_counter",
ThresholdValue: 5,
MinSleep: "0",
BalanceTag: "b2",
BalanceType: "*monetary",
BalanceCategories: "call",
BalanceDestinationTags: "FS_USERS",
BalanceRatingSubject: "special1",
BalanceSharedGroups: "SHARED_1",
BalanceExpiryTime: "*never",
BalanceTimingTags: "T1",
BalanceWeight: "0.0",
BalanceBlocker: "false",
BalanceDisabled: "false",
ActionsTag: "LOG_WARNING",
Weight: 10,
},
}
if rcv := APItoModelActionTrigger(at); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
at = &utils.TPActionTriggers{
TPid: "TEST_TPID",
ID: "STANDARD_TRIGGERS",
}
eOut = TpActionTriggers{
TpActionTrigger{
Tpid: "TEST_TPID",
Tag: "STANDARD_TRIGGERS",
},
}
if rcv := APItoModelActionTrigger(at); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
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{
{"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 TestAPItoModelActionTriggers(t *testing.T) {
var ts []*utils.TPActionTriggers
if rcv := APItoModelActionTriggers(ts); rcv != nil {
t.Errorf("Expecting: nil, received: %+v", rcv)
}
ts = []*utils.TPActionTriggers{
&utils.TPActionTriggers{
TPid: "TEST_TPID",
ID: "STANDARD_TRIGGERS",
ActionTriggers: []*utils.TPActionTrigger{
{
Id: "STANDARD_TRIGGERS",
UniqueID: "1",
ThresholdType: "*min_balance",
Weight: 0.7},
{
Id: "STANDARD_TRIGGERS",
UniqueID: "2",
ThresholdType: "*max_event_counter",
Weight: 0.8},
},
},
}
eOut := TpActionTriggers{
TpActionTrigger{
Tpid: "TEST_TPID",
Tag: "STANDARD_TRIGGERS",
UniqueId: "1",
ThresholdType: "*min_balance",
Weight: 0.7,
},
TpActionTrigger{
Tpid: "TEST_TPID",
Tag: "STANDARD_TRIGGERS",
UniqueId: "2",
ThresholdType: "*max_event_counter",
Weight: 0.8,
},
}
if rcv := APItoModelActionTriggers(ts); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v,\nreceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestAPItoModelAction(t *testing.T) {
var as *utils.TPActions
if rcv := APItoModelAction(as); rcv != nil {
t.Errorf("Expecting: nil, received: %+v", rcv)
}
as = &utils.TPActions{
TPid: "TEST_TPID",
ID: "TEST_ACTIONS",
}
eOut := TpActions{
TpAction{
Tpid: "TEST_TPID",
Tag: "TEST_ACTIONS",
},
}
if rcv := APItoModelAction(as); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
as = &utils.TPActions{
TPid: "TEST_TPID",
ID: "TEST_ACTIONS",
Actions: []*utils.TPAction{
{
Identifier: "*topup_reset",
BalanceType: "*monetary",
Units: "5.0",
ExpiryTime: "*never",
DestinationIds: "*any",
RatingSubject: "special1",
Categories: "call",
SharedGroups: "GROUP1",
BalanceWeight: "10.0",
ExtraParameters: "",
Weight: 10.0},
{
Identifier: "*http_post",
BalanceType: "",
Units: "0.0",
ExpiryTime: "",
DestinationIds: "",
RatingSubject: "",
Categories: "",
SharedGroups: "",
BalanceWeight: "0.0",
ExtraParameters: "http://localhost/&param1=value1",
Weight: 20.0},
},
}
eOut = TpActions{
TpAction{
Tpid: "TEST_TPID",
Tag: "TEST_ACTIONS",
BalanceType: "*monetary",
Categories: "call",
DestinationTags: "*any",
RatingSubject: "special1",
SharedGroups: "GROUP1",
ExpiryTime: "*never",
Units: "5.0",
BalanceWeight: "10.0",
Weight: 10,
Action: "*topup_reset",
},
TpAction{
Tpid: "TEST_TPID",
Tag: "TEST_ACTIONS",
Action: "*http_post",
ExtraParameters: "http://localhost/\u0026param1=value1",
Units: "0.0",
BalanceWeight: "0.0",
Weight: 20,
},
}
if rcv := APItoModelAction(as); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v,\nreceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestAPItoModelActions(t *testing.T) {
var as []*utils.TPActions
if rcv := APItoModelActions(as); rcv != nil {
t.Errorf("Expecting: nil, received: %+v", rcv)
}
as = []*utils.TPActions{
&utils.TPActions{
TPid: "TEST_TPID",
ID: "TEST_ACTIONS",
},
&utils.TPActions{
TPid: "TEST_TPID2",
ID: "TEST_ACTIONS2",
},
}
eOut := TpActions{
TpAction{
Tpid: "TEST_TPID",
Tag: "TEST_ACTIONS",
},
TpAction{
Tpid: "TEST_TPID2",
Tag: "TEST_ACTIONS2",
},
}
if rcv := APItoModelActions(as); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v,\nreceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
as = []*utils.TPActions{
&utils.TPActions{
TPid: "TEST_TPID",
ID: "TEST_ACTIONS",
Actions: []*utils.TPAction{
{
Identifier: "*topup_reset",
BalanceType: "*monetary",
Units: "5.0",
ExpiryTime: "*never",
DestinationIds: "*any",
RatingSubject: "special1",
Categories: "call",
SharedGroups: "GROUP1",
BalanceWeight: "10.0",
ExtraParameters: "",
Weight: 10.0},
{
Identifier: "*http_post",
BalanceType: "",
Units: "0.0",
BalanceWeight: "0.0",
ExtraParameters: "http://localhost/&param1=value1",
Weight: 20.0},
},
},
}
eOut = TpActions{
TpAction{
Tpid: "TEST_TPID",
Tag: "TEST_ACTIONS",
BalanceType: "*monetary",
Categories: "call",
DestinationTags: "*any",
RatingSubject: "special1",
SharedGroups: "GROUP1",
ExpiryTime: "*never",
Units: "5.0",
BalanceWeight: "10.0",
Weight: 10,
Action: "*topup_reset",
},
TpAction{
Tpid: "TEST_TPID",
Tag: "TEST_ACTIONS",
Action: "*http_post",
ExtraParameters: "http://localhost/\u0026param1=value1",
Units: "0.0",
BalanceWeight: "0.0",
Weight: 20,
},
}
if rcv := APItoModelActions(as); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v,\nreceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestTpResourcesAsTpResources(t *testing.T) {
tps := []*TpResource{
{
Tpid: "TEST_TPID",
Tenant: "cgrates.org",
ID: "ResGroup1",
FilterIDs: "FLTR_RES_GR1",
ActivationInterval: "2014-07-29T15:00:00Z",
Stored: false,
Blocker: false,
Weight: 10.0,
Limit: "45",
ThresholdIDs: "WARN_RES1;WARN_RES1"},
{
Tpid: "TEST_TPID",
ID: "ResGroup1",
Tenant: "cgrates.org",
FilterIDs: "FLTR_RES_GR1",
ThresholdIDs: "WARN3"},
{
Tpid: "TEST_TPID",
Tenant: "cgrates.org",
ID: "ResGroup2",
FilterIDs: "FLTR_RES_GR2",
ActivationInterval: "2014-07-29T15:00:00Z",
Stored: false,
Blocker: false,
Weight: 10.0,
Limit: "20"},
}
eTPs := []*utils.TPResourceProfile{
{
TPid: tps[0].Tpid,
Tenant: tps[0].Tenant,
ID: tps[0].ID,
FilterIDs: []string{"FLTR_RES_GR1"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: tps[0].ActivationInterval,
},
Stored: tps[0].Stored,
Blocker: tps[0].Blocker,
Weight: tps[0].Weight,
Limit: tps[0].Limit,
ThresholdIDs: []string{"WARN_RES1", "WARN3"},
},
{
TPid: tps[2].Tpid,
Tenant: tps[2].Tenant,
ID: tps[2].ID,
FilterIDs: []string{"FLTR_RES_GR2"},
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 len(rcvTPs) != len(eTPs) {
t.Errorf("Expecting: %+v Received: %+v", utils.ToIJSON(eTPs), utils.ToIJSON(rcvTPs))
}
}
func TestAPItoResource(t *testing.T) {
tpRL := &utils.TPResourceProfile{
Tenant: "cgrates.org",
TPid: testTPID,
ID: "ResGroup1",
FilterIDs: []string{"FLTR_RES_GR_1"},
ActivationInterval: &utils.TPActivationInterval{ActivationTime: "2014-07-29T15:00:00Z"},
Stored: false,
Blocker: false,
Weight: 10,
Limit: "2",
ThresholdIDs: []string{"TRes1"},
AllocationMessage: "asd",
}
eRL := &ResourceProfile{
Tenant: "cgrates.org",
ID: tpRL.ID,
Stored: tpRL.Stored,
Blocker: tpRL.Blocker,
Weight: tpRL.Weight,
FilterIDs: []string{"FLTR_RES_GR_1"},
ThresholdIDs: []string{"TRes1"},
AllocationMessage: tpRL.AllocationMessage,
Limit: 2,
}
at, _ := utils.ParseTimeDetectLayout("2014-07-29T15:00:00Z", "UTC")
eRL.ActivationInterval = &utils.ActivationInterval{ActivationTime: at}
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 TestResourceProfileToAPI(t *testing.T) {
expected := &utils.TPResourceProfile{
Tenant: "cgrates.org",
ID: "ResGroup1",
FilterIDs: []string{"FLTR_RES_GR_1"},
ActivationInterval: &utils.TPActivationInterval{ActivationTime: "2014-07-29T15:00:00Z"},
Weight: 10,
Limit: "2",
ThresholdIDs: []string{"TRes1"},
AllocationMessage: "asd",
}
rp := &ResourceProfile{
Tenant: "cgrates.org",
ID: "ResGroup1",
ActivationInterval: &utils.ActivationInterval{
ActivationTime: time.Date(2014, 7, 29, 15, 0, 0, 0, time.UTC),
},
Weight: 10,
FilterIDs: []string{"FLTR_RES_GR_1"},
ThresholdIDs: []string{"TRes1"},
AllocationMessage: "asd",
Limit: 2,
}
if rcv := ResourceProfileToAPI(rp); !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting: %+v, \n received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
func TestAPItoModelResource(t *testing.T) {
tpRL := &utils.TPResourceProfile{
Tenant: "cgrates.org",
TPid: testTPID,
ID: "ResGroup1",
ActivationInterval: &utils.TPActivationInterval{ActivationTime: "2014-07-29T15:00:00Z"},
Weight: 10,
Limit: "2",
ThresholdIDs: []string{"TRes1"},
AllocationMessage: "test",
}
expModel := &TpResource{
Tpid: testTPID,
Tenant: "cgrates.org",
ID: "ResGroup1",
ActivationInterval: "2014-07-29T15:00:00Z",
Weight: 10.0,
Limit: "2",
ThresholdIDs: "TRes1",
AllocationMessage: "test",
}
rcv := APItoModelResource(tpRL)
if len(rcv) != 1 {
t.Errorf("Expecting: 1, received: %+v", len(rcv))
} else if !reflect.DeepEqual(rcv[0], expModel) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(expModel), utils.ToJSON(rcv[0]))
}
}
func TestTPStatsAsTPStats(t *testing.T) {
tps := TpStats{
&TpStat{
Tpid: "TEST_TPID",
Tenant: "cgrates.org",
ID: "Stats1",
FilterIDs: "FLTR_1",
ActivationInterval: "2014-07-29T15:00:00Z",
QueueLength: 100,
TTL: "1s",
MinItems: 2,
MetricIDs: "*asr;*acc;*tcc;*acd;*tcd;*pdd",
Stored: true,
Blocker: true,
Weight: 20.0,
},
&TpStat{
Tpid: "TEST_TPID",
Tenant: "cgrates.org",
ID: "Stats1",
FilterIDs: "FLTR_1",
ActivationInterval: "2014-07-29T15:00:00Z",
QueueLength: 100,
TTL: "1s",
MinItems: 2,
MetricIDs: "*sum#BalanceValue;*average#BalanceValue;*tcc",
ThresholdIDs: "THRESH3",
Stored: true,
Blocker: true,
Weight: 20.0,
},
&TpStat{
Tpid: "TEST_TPID",
Tenant: "itsyscom.com",
ID: "Stats1",
FilterIDs: "FLTR_1",
ActivationInterval: "2014-07-29T15:00:00Z",
QueueLength: 100,
TTL: "1s",
MinItems: 2,
MetricIDs: "*sum#BalanceValue;*average#BalanceValue;*tcc",
ThresholdIDs: "THRESH4",
Stored: true,
Blocker: true,
Weight: 20.0,
},
}
rcvTPs := tps.AsTPStats()
if len(rcvTPs) != 2 {
t.Errorf("Expecting: 2, received: %+v", len(rcvTPs))
}
for _, rcvTP := range rcvTPs {
if rcvTP.Tenant == "cgrates.org" {
if len(rcvTP.Metrics) != 8 {
t.Errorf("Expecting: 8, received: %+v", len(rcvTP.Metrics))
}
} else {
if len(rcvTP.Metrics) != 3 {
t.Errorf("Expecting: 3, received: %+v", len(rcvTP.Metrics))
}
}
}
}
func TestAPItoTPStats(t *testing.T) {
tps := &utils.TPStatProfile{
TPid: testTPID,
ID: "Stats1",
FilterIDs: []string{"FLTR_1"},
ActivationInterval: &utils.TPActivationInterval{ActivationTime: "2014-07-29T15:00:00Z"},
QueueLength: 100,
TTL: "1s",
Metrics: []*utils.MetricWithFilters{
{
MetricID: "*sum#BalanceValue",
},
{
MetricID: "*average#BalanceValue",
},
{
MetricID: "*tcc",
},
},
MinItems: 1,
ThresholdIDs: []string{"THRESH1", "THRESH2"},
Stored: false,
Blocker: false,
Weight: 20.0,
}
eTPs := &StatQueueProfile{ID: tps.ID,
QueueLength: tps.QueueLength,
Metrics: []*MetricWithFilters{
{
MetricID: "*sum#BalanceValue",
},
{
MetricID: "*average#BalanceValue",
},
{
MetricID: "*tcc",
},
},
ThresholdIDs: []string{"THRESH1", "THRESH2"},
FilterIDs: []string{"FLTR_1"},
Stored: tps.Stored,
Blocker: tps.Blocker,
Weight: 20.0,
MinItems: tps.MinItems,
}
if eTPs.TTL, err = utils.ParseDurationWithNanosecs(tps.TTL); err != nil {
t.Errorf("Got error: %+v", err)
}
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 TestStatQueueProfileToAPI(t *testing.T) {
expected := &utils.TPStatProfile{
Tenant: "cgrates.org",
ID: "Stats1",
FilterIDs: []string{"FLTR_1"},
ActivationInterval: &utils.TPActivationInterval{ActivationTime: "2014-07-29T15:00:00Z"},
QueueLength: 100,
TTL: "1s",
Metrics: []*utils.MetricWithFilters{
{
MetricID: "*sum#BalanceValue",
},
{
MetricID: "*average#BalanceValue",
},
{
MetricID: "*tcc",
},
},
MinItems: 1,
ThresholdIDs: []string{"THRESH1", "THRESH2"},
Weight: 20.0,
}
sqPrf := &StatQueueProfile{
Tenant: "cgrates.org",
ID: "Stats1",
QueueLength: 100,
ActivationInterval: &utils.ActivationInterval{
ActivationTime: time.Date(2014, 7, 29, 15, 0, 0, 0, time.UTC),
},
Metrics: []*MetricWithFilters{
{
MetricID: "*sum#BalanceValue",
},
{
MetricID: "*average#BalanceValue",
},
{
MetricID: "*tcc",
},
},
TTL: time.Duration(1 * time.Second),
ThresholdIDs: []string{"THRESH1", "THRESH2"},
FilterIDs: []string{"FLTR_1"},
Weight: 20.0,
MinItems: 1,
}
if rcv := StatQueueProfileToAPI(sqPrf); !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting: %+v,\n received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
func TestAPItoModelStats(t *testing.T) {
tpS := &utils.TPStatProfile{
TPid: "TPS1",
Tenant: "cgrates.org",
ID: "Stat1",
FilterIDs: []string{"*string:Account:1002"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-29T15:00:00Z",
ExpiryTime: "",
},
QueueLength: 100,
TTL: "1s",
Metrics: []*utils.MetricWithFilters{
{
MetricID: "*tcc",
},
{
MetricID: "*average#Usage",
},
},
Blocker: true,
Stored: true,
Weight: 20,
MinItems: 2,
ThresholdIDs: []string{"Th1"},
}
rcv := APItoModelStats(tpS)
eRcv := TpStats{
&TpStat{
Tpid: "TPS1",
Tenant: "cgrates.org",
ID: "Stat1",
FilterIDs: "*string:Account:1002",
ActivationInterval: "2014-07-29T15:00:00Z",
QueueLength: 100,
TTL: "1s",
MinItems: 2,
MetricIDs: "*tcc",
Stored: true,
Blocker: true,
Weight: 20.0,
ThresholdIDs: "Th1",
},
&TpStat{
Tpid: "TPS1",
Tenant: "cgrates.org",
ID: "Stat1",
MetricIDs: "*average#Usage",
},
}
if len(rcv) != len(eRcv) {
t.Errorf("Expecting: %+v, received: %+v", len(eRcv), len(rcv))
} else if !reflect.DeepEqual(eRcv, rcv) {
t.Errorf("Expecting: %+v, \n received: %+v", utils.ToJSON(eRcv), utils.ToJSON(rcv))
}
}
func TestTPThresholdsAsTPThreshold(t *testing.T) {
tps := []*TpThreshold{
{
Tpid: "TEST_TPID",
ID: "Threhold",
FilterIDs: "FilterID1;FilterID2;FilterID1;FilterID2;FilterID2",
ActivationInterval: "2014-07-29T15:00:00Z",
MaxHits: 12,
MinHits: 10,
MinSleep: "1s",
Blocker: false,
Weight: 20.0,
ActionIDs: "WARN3",
},
}
eTPs := []*utils.TPThresholdProfile{
{
TPid: tps[0].Tpid,
ID: tps[0].ID,
FilterIDs: []string{"FilterID1", "FilterID2"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: tps[0].ActivationInterval,
},
MinSleep: tps[0].MinSleep,
MaxHits: tps[0].MaxHits,
MinHits: tps[0].MinHits,
Blocker: tps[0].Blocker,
Weight: tps[0].Weight,
ActionIDs: []string{"WARN3"},
},
{
TPid: tps[0].Tpid,
ID: tps[0].ID,
FilterIDs: []string{"FilterID2", "FilterID1"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: tps[0].ActivationInterval,
},
MinSleep: tps[0].MinSleep,
MaxHits: tps[0].MaxHits,
MinHits: tps[0].MinHits,
Blocker: tps[0].Blocker,
Weight: tps[0].Weight,
ActionIDs: []string{"WARN3"},
},
}
rcvTPs := TpThresholds(tps).AsTPThreshold()
if !reflect.DeepEqual(eTPs[0], rcvTPs[0]) && !reflect.DeepEqual(eTPs[1], rcvTPs[0]) {
t.Errorf("Expecting: %+v , Received: %+v", utils.ToIJSON(eTPs), utils.ToIJSON(rcvTPs))
}
}
func TestAPItoModelAccountActions(t *testing.T) {
var aas []*utils.TPAccountActions
if rcv := APItoModelAccountActions(aas); rcv != nil {
t.Errorf("Expecting: nil , Received: %+v", utils.ToIJSON(rcv))
}
aas = []*utils.TPAccountActions{
&utils.TPAccountActions{
TPid: "TEST_TPID",
LoadId: "TEST_LOADID",
Tenant: "cgrates.org",
Account: "1001",
ActionPlanId: "PACKAGE_10_SHARED_A_5",
ActionTriggersId: "STANDARD_TRIGGERS",
},
&utils.TPAccountActions{
TPid: "TEST_TPID2",
LoadId: "TEST_LOADID2",
Tenant: "cgrates.org",
Account: "1001",
ActionPlanId: "PACKAGE_10_SHARED_A_5",
ActionTriggersId: "STANDARD_TRIGGERS",
},
}
eOut := TpAccountActions{
TpAccountAction{
Tpid: "TEST_TPID",
Loadid: "TEST_LOADID",
Tenant: "cgrates.org",
Account: "1001",
ActionPlanTag: "PACKAGE_10_SHARED_A_5",
ActionTriggersTag: "STANDARD_TRIGGERS",
},
TpAccountAction{
Tpid: "TEST_TPID2",
Loadid: "TEST_LOADID2",
Tenant: "cgrates.org",
Account: "1001",
ActionPlanTag: "PACKAGE_10_SHARED_A_5",
ActionTriggersTag: "STANDARD_TRIGGERS",
},
}
if rcv := APItoModelAccountActions(aas); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestCSVHeader(t *testing.T) {
var tps TpResources
eOut := []string{
"#Tenant", "ID", "FilterIDs", "ActivationInterval", "UsageTTL", "Limit", "AllocationMessage", "Blocker", "Stored", "Weight", "ThresholdIDs",
}
if rcv := tps.CSVHeader(); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestAPItoModelTPThreshold(t *testing.T) {
th := &utils.TPThresholdProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "TH_1",
FilterIDs: []string{"FilterID1"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
MaxHits: 12,
MinHits: 10,
MinSleep: "1s",
Blocker: false,
Weight: 20.0,
ActionIDs: []string{"WARN3"},
}
models := TpThresholds{
{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "TH_1",
FilterIDs: "FilterID1",
ActivationInterval: "2014-07-14T14:35:00Z",
MaxHits: 12,
MinHits: 10,
MinSleep: "1s",
Blocker: false,
Weight: 20.0,
ActionIDs: "WARN3",
},
}
rcv := APItoModelTPThreshold(th)
if !reflect.DeepEqual(models, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(models), utils.ToJSON(rcv))
}
}
func TestAPItoModelTPThreshold2(t *testing.T) {
th := &utils.TPThresholdProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "TH_1",
FilterIDs: []string{"FLTR_1", "FLTR_2"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
MaxHits: 12,
MinHits: 10,
MinSleep: "1s",
Blocker: false,
Weight: 20.0,
ActionIDs: []string{"WARN3"},
}
models := TpThresholds{
{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "TH_1",
FilterIDs: "FLTR_1",
ActivationInterval: "2014-07-14T14:35:00Z",
MaxHits: 12,
MinHits: 10,
MinSleep: "1s",
Blocker: false,
Weight: 20.0,
ActionIDs: "WARN3",
},
{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "TH_1",
FilterIDs: "FLTR_2",
},
}
rcv := APItoModelTPThreshold(th)
if !reflect.DeepEqual(models, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(models), utils.ToJSON(rcv))
}
}
func TestAPItoModelTPThreshold3(t *testing.T) {
th := &utils.TPThresholdProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "TH_1",
FilterIDs: []string{"FLTR_1"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
MaxHits: 12,
MinHits: 10,
MinSleep: "1s",
Blocker: false,
Weight: 20.0,
ActionIDs: []string{"WARN3", "LOG"},
}
models := TpThresholds{
{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "TH_1",
FilterIDs: "FLTR_1",
ActivationInterval: "2014-07-14T14:35:00Z",
MaxHits: 12,
MinHits: 10,
MinSleep: "1s",
Blocker: false,
Weight: 20.0,
ActionIDs: "WARN3",
},
{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "TH_1",
ActionIDs: "LOG",
},
}
rcv := APItoModelTPThreshold(th)
if !reflect.DeepEqual(models, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(models), utils.ToJSON(rcv))
}
}
func TestAPItoModelTPThreshold4(t *testing.T) {
th := &utils.TPThresholdProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "TH_1",
FilterIDs: []string{},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
MaxHits: 12,
MinHits: 10,
MinSleep: "1s",
Blocker: false,
Weight: 20.0,
ActionIDs: []string{"WARN3", "LOG"},
}
models := TpThresholds{
{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "TH_1",
ActivationInterval: "2014-07-14T14:35:00Z",
MaxHits: 12,
MinHits: 10,
MinSleep: "1s",
Blocker: false,
Weight: 20.0,
ActionIDs: "WARN3",
},
{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "TH_1",
ActionIDs: "LOG",
},
}
rcv := APItoModelTPThreshold(th)
if !reflect.DeepEqual(models, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(models), utils.ToJSON(rcv))
}
}
func TestAPItoModelTPThreshold5(t *testing.T) {
th := &utils.TPThresholdProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "TH_1",
FilterIDs: []string{"FLTR_1"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
MaxHits: 12,
MinHits: 10,
MinSleep: "1s",
Blocker: false,
Weight: 20.0,
ActionIDs: []string{},
}
rcv := APItoModelTPThreshold(th)
if rcv != nil {
t.Errorf("Expecting : nil, received: %+v", utils.ToJSON(rcv))
}
}
func TestAPItoTPThreshold(t *testing.T) {
tps := &utils.TPThresholdProfile{
TPid: testTPID,
ID: "TH1",
FilterIDs: []string{"FilterID1", "FilterID2"},
ActivationInterval: &utils.TPActivationInterval{ActivationTime: "2014-07-29T15:00:00Z"},
MaxHits: 12,
MinHits: 10,
MinSleep: "1s",
Blocker: false,
Weight: 20.0,
ActionIDs: []string{"WARN3"},
}
eTPs := &ThresholdProfile{
ID: tps.ID,
MaxHits: tps.MaxHits,
Blocker: tps.Blocker,
MinHits: tps.MinHits,
Weight: tps.Weight,
FilterIDs: tps.FilterIDs,
ActionIDs: []string{"WARN3"},
}
if eTPs.MinSleep, err = utils.ParseDurationWithNanosecs(tps.MinSleep); err != nil {
t.Errorf("Got error: %+v", err)
}
at, _ := utils.ParseTimeDetectLayout("2014-07-29T15:00:00Z", "UTC")
eTPs.ActivationInterval = &utils.ActivationInterval{ActivationTime: at}
if st, err := APItoThresholdProfile(tps, "UTC"); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(eTPs, st) {
t.Errorf("Expecting: %+v, received: %+v", eTPs, st)
}
}
func TestThresholdProfileToAPI(t *testing.T) {
expected := &utils.TPThresholdProfile{
Tenant: "cgrates.org",
ID: "TH1",
FilterIDs: []string{"FilterID1", "FilterID2"},
ActivationInterval: &utils.TPActivationInterval{ActivationTime: "2014-07-29T15:00:00Z"},
MaxHits: 12,
MinHits: 10,
MinSleep: "1s",
Weight: 20.0,
ActionIDs: []string{"WARN3"},
}
thPrf := &ThresholdProfile{
Tenant: "cgrates.org",
ID: "TH1",
FilterIDs: []string{"FilterID1", "FilterID2"},
ActivationInterval: &utils.ActivationInterval{
ActivationTime: time.Date(2014, 7, 29, 15, 0, 0, 0, time.UTC),
},
MaxHits: 12,
MinHits: 10,
MinSleep: time.Duration(1 * time.Second),
Weight: 20.0,
ActionIDs: []string{"WARN3"},
}
if rcv := ThresholdProfileToAPI(thPrf); !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting: %+v,\n received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
func TestTPFilterAsTPFilter(t *testing.T) {
tps := []*TpFilter{
{
Tpid: "TEST_TPID",
ID: "Filter1",
Type: utils.MetaPrefix,
Element: "Account",
Values: "1001;1002",
},
}
eTPs := []*utils.TPFilterProfile{
{
TPid: tps[0].Tpid,
ID: tps[0].ID,
Filters: []*utils.TPFilter{
{
Type: utils.MetaPrefix,
Element: "Account",
Values: []string{"1001", "1002"},
},
},
},
}
rcvTPs := TpFilterS(tps).AsTPFilter()
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 TestTPFilterAsTPFilterWithDynValues(t *testing.T) {
tps := []*TpFilter{
{
Tpid: "TEST_TPID",
ID: "Filter1",
ActivationInterval: "2014-07-29T15:00:00Z;2014-08-29T15:00:00Z",
Type: utils.MetaString,
Element: "CustomField",
Values: "1001;~*uch.<~*rep.CGRID;~*rep.RunID;-Cost>;1002;~*uch.<~*rep.CGRID;~*rep.RunID>",
},
}
eTPs := []*utils.TPFilterProfile{
{
TPid: tps[0].Tpid,
ID: tps[0].ID,
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-29T15:00:00Z",
ExpiryTime: "2014-08-29T15:00:00Z",
},
Filters: []*utils.TPFilter{
{
Type: utils.MetaString,
Element: "CustomField",
Values: []string{"1001", "~*uch.<~*rep.CGRID;~*rep.RunID;-Cost>", "1002", "~*uch.<~*rep.CGRID;~*rep.RunID>"},
},
},
},
}
rcvTPs := TpFilterS(tps).AsTPFilter()
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 TestTPFilterAsTPFilter2(t *testing.T) {
tps := []*TpFilter{
{
Tpid: "TEST_TPID",
Tenant: "cgrates.org",
ID: "Filter1",
Type: utils.MetaPrefix,
Element: "Account",
Values: "1001;1002",
},
{
Tpid: "TEST_TPID",
Tenant: "anotherTenant",
ID: "Filter1",
Type: utils.MetaPrefix,
Element: "Account",
Values: "1010",
},
}
eTPs := []*utils.TPFilterProfile{
{
TPid: tps[0].Tpid,
Tenant: "cgrates.org",
ID: tps[0].ID,
Filters: []*utils.TPFilter{
{
Type: utils.MetaPrefix,
Element: "Account",
Values: []string{"1001", "1002"},
},
},
},
{
TPid: tps[1].Tpid,
Tenant: "anotherTenant",
ID: tps[1].ID,
Filters: []*utils.TPFilter{
{
Type: utils.MetaPrefix,
Element: "Account",
Values: []string{"1010"},
},
},
},
}
rcvTPs := TpFilterS(tps).AsTPFilter()
if len(eTPs) != len(rcvTPs) {
t.Errorf("Expecting: %+v ,Received: %+v", utils.ToIJSON(eTPs), utils.ToIJSON(rcvTPs))
}
}
func TestAPItoModelTPFilter(t *testing.T) {
var th *utils.TPFilterProfile
if rcv := APItoModelTPFilter(th); rcv != nil {
t.Errorf("Expecting: nil ,Received: %+v", utils.ToJSON(rcv))
}
th = &utils.TPFilterProfile{
ID: "someID",
}
if rcv := APItoModelTPFilter(th); rcv != nil {
t.Errorf("Expecting: nil ,Received: %+v", utils.ToJSON(rcv))
}
th = &utils.TPFilterProfile{
ID: "someID",
Filters: []*utils.TPFilter{
&utils.TPFilter{
Type: utils.MetaPrefix,
Element: "Account",
Values: []string{"1010"},
},
&utils.TPFilter{
Type: utils.MetaPrefix,
Element: "Account",
Values: []string{"0708"},
},
},
}
eOut := TpFilterS{
&TpFilter{
ID: "someID",
Type: "*prefix",
Element: "Account",
Values: "1010",
},
&TpFilter{
ID: "someID",
Type: "*prefix",
Element: "Account",
Values: "0708",
},
}
if rcv := APItoModelTPFilter(th); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
th = &utils.TPFilterProfile{
TPid: "TPid",
Tenant: "cgrates.org",
ID: "someID",
Filters: []*utils.TPFilter{
{
Type: utils.MetaPrefix,
Element: "Account",
Values: []string{"1001", "1002"},
},
},
}
eOut = TpFilterS{
{
Tpid: "TPid",
Tenant: "cgrates.org",
ID: "someID",
Type: "*prefix",
Element: "Account",
Values: "1001;1002",
},
}
if rcv := APItoModelTPFilter(th); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
th = &utils.TPFilterProfile{
TPid: "TPid",
ID: "testID",
Tenant: "cgrates.org",
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-29T15:00:00Z",
ExpiryTime: "2014-08-29T15:00:00Z",
},
Filters: []*utils.TPFilter{
{
Type: utils.MetaString,
Element: "CustomField",
Values: []string{"1001", "~*uch.<~*rep.CGRID;~*rep.RunID;-Cost>", "1002", "~*uch.<~*rep.CGRID;~*rep.RunID>"},
},
},
}
eOut = TpFilterS{
{
Tpid: "TPid",
Tenant: "cgrates.org",
ID: "testID",
Type: "*string",
Element: "CustomField",
Values: "1001;~*uch.\u003c~*rep.CGRID;~*rep.RunID;-Cost\u003e;1002;~*uch.\u003c~*rep.CGRID;~*rep.RunID\u003e",
ActivationInterval: "2014-07-29T15:00:00Z;2014-08-29T15:00:00Z",
},
}
if rcv := APItoModelTPFilter(th); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestAPItoTPFilter(t *testing.T) {
tps := &utils.TPFilterProfile{
TPid: testTPID,
Tenant: "cgrates.org",
ID: "Filter1",
Filters: []*utils.TPFilter{
{
Element: "Account",
Type: utils.MetaString,
Values: []string{"1001", "1002"},
},
},
}
eTPs := &Filter{
Tenant: "cgrates.org",
ID: tps.ID,
Rules: []*FilterRule{
{
Element: "Account",
Type: utils.MetaString,
Values: []string{"1001", "1002"},
},
},
}
if err := eTPs.Compile(); err != nil {
t.Fatal(err)
}
if st, err := APItoFilter(tps, "UTC"); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(eTPs, st) {
t.Errorf("Expecting: %+v, received: %+v", eTPs, st)
}
}
func TestFilterToTPFilter(t *testing.T) {
filter := &Filter{
Tenant: "cgrates.org",
ID: "Fltr1",
ActivationInterval: &utils.ActivationInterval{
ActivationTime: time.Date(2014, 1, 14, 0, 0, 0, 0, time.UTC),
ExpiryTime: time.Date(2014, 1, 14, 0, 0, 0, 0, time.UTC),
},
Rules: []*FilterRule{
{
Element: "Account",
Type: utils.MetaString,
Values: []string{"1001", "1002"},
},
},
}
tpfilter := &utils.TPFilterProfile{
ID: "Fltr1",
Tenant: "cgrates.org",
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-01-14T00:00:00Z",
ExpiryTime: "2014-01-14T00:00:00Z",
},
Filters: []*utils.TPFilter{
{
Element: "Account",
Type: utils.MetaString,
Values: []string{"1001", "1002"},
},
},
}
eTPFilter := FilterToTPFilter(filter)
if !reflect.DeepEqual(tpfilter, eTPFilter) {
t.Errorf("Expecting: %+v, received: %+v", tpfilter, eTPFilter)
}
}
func TestCsvHeader(t *testing.T) {
var tps TPRoutes
eOut := []string{
"#" + utils.Tenant, utils.ID, utils.FilterIDs, utils.ActivationIntervalString,
utils.Sorting, utils.SortingParameters, utils.RouteID, utils.RouteFilterIDs,
utils.RouteAccountIDs, utils.RouteRatingplanIDs, utils.RouteResourceIDs,
utils.RouteStatIDs, utils.RouteWeight, utils.RouteBlocker,
utils.RouteParameters, utils.Weight,
}
if rcv := tps.CSVHeader(); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("Expecting: %+v, received: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestAPItoAttributeProfile(t *testing.T) {
tpAlsPrf := &utils.TPAttributeProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "ALS1",
Contexts: []string{"con1"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
Attributes: []*utils.TPAttribute{
{
Path: utils.MetaReq + utils.NestingSep + "FL1",
Value: "Al1",
},
},
Weight: 20,
}
expected := &AttributeProfile{
Tenant: "cgrates.org",
ID: "ALS1",
Contexts: []string{"con1"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
ActivationInterval: &utils.ActivationInterval{
ActivationTime: time.Date(2014, 7, 14, 14, 35, 0, 0, time.UTC),
},
Attributes: []*Attribute{
{
Path: utils.MetaReq + utils.NestingSep + "FL1",
Value: config.NewRSRParsersMustCompile("Al1", utils.INFIELD_SEP),
},
},
Weight: 20,
}
if rcv, err := APItoAttributeProfile(tpAlsPrf, "UTC"); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
func TestAttributeProfileToAPI(t *testing.T) {
exp := &utils.TPAttributeProfile{
TPid: utils.EmptyString,
Tenant: "cgrates.org",
ID: "ALS1",
Contexts: []string{"con1"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
Attributes: []*utils.TPAttribute{
{
Path: utils.MetaReq + utils.NestingSep + "FL1",
Value: "Al1",
},
},
Weight: 20,
}
attr := &AttributeProfile{
Tenant: "cgrates.org",
ID: "ALS1",
Contexts: []string{"con1"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
ActivationInterval: &utils.ActivationInterval{
ActivationTime: time.Date(2014, 7, 14, 14, 35, 0, 0, time.UTC),
},
Attributes: []*Attribute{
{
Path: utils.MetaReq + utils.NestingSep + "FL1",
Value: config.NewRSRParsersMustCompile("Al1", utils.INFIELD_SEP),
},
},
Weight: 20,
}
if rcv := AttributeProfileToAPI(attr); !reflect.DeepEqual(exp, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(exp), utils.ToJSON(rcv))
}
}
func TestAttributeProfileToAPI2(t *testing.T) {
exp := &utils.TPAttributeProfile{
TPid: utils.EmptyString,
Tenant: "cgrates.org",
ID: "ALS1",
Contexts: []string{"con1"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
Attributes: []*utils.TPAttribute{
{
Path: utils.MetaReq + utils.NestingSep + "FL1",
Value: "Al1",
},
{
Path: utils.MetaReq + utils.NestingSep + "Test",
Value: "~*req.Account",
},
},
Weight: 20,
}
attr := &AttributeProfile{
Tenant: "cgrates.org",
ID: "ALS1",
Contexts: []string{"con1"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
ActivationInterval: &utils.ActivationInterval{
ActivationTime: time.Date(2014, 7, 14, 14, 35, 0, 0, time.UTC),
},
Attributes: []*Attribute{
{
Path: utils.MetaReq + utils.NestingSep + "FL1",
Value: config.NewRSRParsersMustCompile("Al1", utils.INFIELD_SEP),
},
{
Path: utils.MetaReq + utils.NestingSep + "Test",
Value: config.NewRSRParsersMustCompile("~*req.Account", utils.INFIELD_SEP),
},
},
Weight: 20,
}
if rcv := AttributeProfileToAPI(attr); !reflect.DeepEqual(exp, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(exp), utils.ToJSON(rcv))
}
}
func TestAPItoModelTPAttribute(t *testing.T) {
tpAlsPrf := &utils.TPAttributeProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "ALS1",
Contexts: []string{"con1"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
Attributes: []*utils.TPAttribute{
{
Path: utils.MetaReq + utils.NestingSep + "FL1",
Value: "Al1",
},
},
Weight: 20,
}
expected := TPAttributes{
&TPAttribute{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "ALS1",
Contexts: "con1",
FilterIDs: "FLTR_ACNT_dan;FLTR_DST_DE",
Path: utils.MetaReq + utils.NestingSep + "FL1",
Value: "Al1",
ActivationInterval: "2014-07-14T14:35:00Z",
Weight: 20,
},
}
rcv := APItoModelTPAttribute(tpAlsPrf)
if !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
func TestCsvDumpForAttributeModels(t *testing.T) {
tpAlsPrf := &utils.TPAttributeProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "ALS1",
Contexts: []string{"con1"},
FilterIDs: []string{"FLTR_ACNT_dan"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
Attributes: []*utils.TPAttribute{
{
Path: utils.MetaReq + utils.NestingSep + "FL1",
Value: "Al1",
},
{
Path: utils.MetaReq + utils.NestingSep + "FL2",
Value: "Al2",
},
},
Weight: 20,
}
expected := TPAttributes{
&TPAttribute{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "ALS1",
Contexts: "con1",
FilterIDs: "FLTR_ACNT_dan",
Path: utils.MetaReq + utils.NestingSep + "FL1",
Value: "Al1",
ActivationInterval: "2014-07-14T14:35:00Z",
Weight: 20,
},
&TPAttribute{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "ALS1",
Path: utils.MetaReq + utils.NestingSep + "FL2",
Value: "Al2",
},
}
rcv := APItoModelTPAttribute(tpAlsPrf)
if !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting : %+v,\n received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
expRecord := []string{"cgrates.org", "ALS1", "con1", "FLTR_ACNT_dan", "2014-07-14T14:35:00Z", "", "*req.FL1", "", "Al1", "false", "20"}
for i, model := range rcv {
if i == 1 {
expRecord = []string{"cgrates.org", "ALS1", "", "", "", "", "*req.FL2", "", "Al2", "false", "0"}
}
if csvRecordRcv, _ := CsvDump(model); !reflect.DeepEqual(expRecord, csvRecordRcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expRecord), utils.ToJSON(csvRecordRcv))
}
}
}
func TestModelAsTPAttribute(t *testing.T) {
models := TPAttributes{
&TPAttribute{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "ALS1",
Contexts: "con1",
FilterIDs: "FLTR_ACNT_dan;FLTR_DST_DE",
Path: utils.MetaReq + utils.NestingSep + "FL1",
Value: "Al1",
ActivationInterval: "2014-07-14T14:35:00Z",
Weight: 20,
},
}
expected := &utils.TPAttributeProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "ALS1",
Contexts: []string{"con1"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
Attributes: []*utils.TPAttribute{
{
FilterIDs: []string{},
Path: utils.MetaReq + utils.NestingSep + "FL1",
Value: "Al1",
},
},
Weight: 20,
}
expected2 := &utils.TPAttributeProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "ALS1",
Contexts: []string{"con1"},
FilterIDs: []string{"FLTR_DST_DE", "FLTR_ACNT_dan"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
Attributes: []*utils.TPAttribute{
{
FilterIDs: []string{},
Path: utils.MetaReq + utils.NestingSep + "FL1",
Value: "Al1",
},
},
Weight: 20,
}
rcv := models.AsTPAttributes()
if !reflect.DeepEqual(expected, rcv[0]) && !reflect.DeepEqual(expected2, rcv[0]) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv[0]))
}
}
func TestAPItoChargerProfile(t *testing.T) {
tpCPP := &utils.TPChargerProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
RunID: "*rated",
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
AttributeIDs: []string{"ATTR1", "ATTR2"},
Weight: 20,
}
expected := &ChargerProfile{
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
ActivationInterval: &utils.ActivationInterval{
ActivationTime: time.Date(2014, 7, 14, 14, 35, 0, 0, time.UTC),
},
RunID: "*rated",
AttributeIDs: []string{"ATTR1", "ATTR2"},
Weight: 20,
}
if rcv, err := APItoChargerProfile(tpCPP, "UTC"); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
func TestChargerProfileToAPI(t *testing.T) {
exp := &utils.TPChargerProfile{
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
RunID: "*rated",
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
AttributeIDs: []string{"ATTR1", "ATTR2"},
Weight: 20,
}
chargerPrf := &ChargerProfile{
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
ActivationInterval: &utils.ActivationInterval{
ActivationTime: time.Date(2014, 7, 14, 14, 35, 0, 0, time.UTC),
},
RunID: "*rated",
AttributeIDs: []string{"ATTR1", "ATTR2"},
Weight: 20,
}
if rcv := ChargerProfileToAPI(chargerPrf); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(exp, rcv) {
t.Errorf("Expecting : %+v, \n received: %+v", utils.ToJSON(exp), utils.ToJSON(rcv))
}
}
//Number of FilterIDs and AttributeIDs are equal
func TestAPItoModelTPCharger(t *testing.T) {
tpCharger := &utils.TPChargerProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
RunID: "*rated",
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
AttributeIDs: []string{"ATTR1", "ATTR2"},
Weight: 20,
}
expected := TPChargers{
&TPCharger{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: "FLTR_ACNT_dan",
RunID: "*rated",
AttributeIDs: "ATTR1",
ActivationInterval: "2014-07-14T14:35:00Z",
Weight: 20,
},
&TPCharger{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: "FLTR_DST_DE",
AttributeIDs: "ATTR2",
ActivationInterval: "",
},
}
rcv := APItoModelTPCharger(tpCharger)
if !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
//Number of FilterIDs is smaller than AttributeIDs
func TestAPItoModelTPCharger2(t *testing.T) {
tpCharger := &utils.TPChargerProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: []string{"FLTR_ACNT_dan"},
RunID: "*rated",
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
AttributeIDs: []string{"ATTR1", "ATTR2"},
Weight: 20,
}
expected := TPChargers{
&TPCharger{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: "FLTR_ACNT_dan",
RunID: "*rated",
AttributeIDs: "ATTR1",
ActivationInterval: "2014-07-14T14:35:00Z",
Weight: 20,
},
&TPCharger{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
AttributeIDs: "ATTR2",
ActivationInterval: "",
},
}
rcv := APItoModelTPCharger(tpCharger)
if !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
//Number of FilterIDs is greater than AttributeIDs
func TestAPItoModelTPCharger3(t *testing.T) {
tpCharger := &utils.TPChargerProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
RunID: "*rated",
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
AttributeIDs: []string{"ATTR1"},
Weight: 20,
}
expected := TPChargers{
&TPCharger{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: "FLTR_ACNT_dan",
RunID: "*rated",
AttributeIDs: "ATTR1",
ActivationInterval: "2014-07-14T14:35:00Z",
Weight: 20,
},
&TPCharger{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: "FLTR_DST_DE",
},
}
rcv := APItoModelTPCharger(tpCharger)
if !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
//len(AttributeIDs) is 0
func TestAPItoModelTPCharger4(t *testing.T) {
tpCharger := &utils.TPChargerProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: []string{"FLTR_ACNT_dan"},
RunID: "*rated",
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
Weight: 20,
}
expected := TPChargers{
&TPCharger{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: "FLTR_ACNT_dan",
RunID: "*rated",
ActivationInterval: "2014-07-14T14:35:00Z",
Weight: 20,
},
}
rcv := APItoModelTPCharger(tpCharger)
if !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
//len(FilterIDs) is 0
func TestAPItoModelTPCharger5(t *testing.T) {
tpCharger := &utils.TPChargerProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
RunID: "*rated",
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
AttributeIDs: []string{"ATTR1"},
Weight: 20,
}
expected := TPChargers{
&TPCharger{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
RunID: "*rated",
AttributeIDs: "ATTR1",
ActivationInterval: "2014-07-14T14:35:00Z",
Weight: 20,
},
}
rcv := APItoModelTPCharger(tpCharger)
if !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
//both len(AttributeIDs) and len(FilterIDs) are 0
func TestAPItoModelTPCharger6(t *testing.T) {
tpCharger := &utils.TPChargerProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
RunID: "*rated",
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
Weight: 20,
}
expected := TPChargers{
&TPCharger{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
RunID: "*rated",
ActivationInterval: "2014-07-14T14:35:00Z",
Weight: 20,
},
}
rcv := APItoModelTPCharger(tpCharger)
if !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
func TestModelAsTPChargers(t *testing.T) {
models := TPChargers{
&TPCharger{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: "FLTR_ACNT_dan;FLTR_DST_DE",
RunID: "*rated",
AttributeIDs: "ATTR1",
ActivationInterval: "2014-07-14T14:35:00Z",
Weight: 20,
},
}
expected := &utils.TPChargerProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
RunID: "*rated",
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
AttributeIDs: []string{"ATTR1"},
Weight: 20,
}
expected2 := &utils.TPChargerProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: []string{"FLTR_DST_DE", "FLTR_ACNT_dan"},
RunID: "*rated",
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
AttributeIDs: []string{"ATTR1"},
Weight: 20,
}
rcv := models.AsTPChargers()
if !reflect.DeepEqual(expected, rcv[0]) && !reflect.DeepEqual(expected2, rcv[0]) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv[0]))
}
}
func TestModelAsTPChargers2(t *testing.T) {
models := TPChargers{
&TPCharger{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: "FLTR_ACNT_dan;FLTR_DST_DE",
RunID: "*rated",
AttributeIDs: "*constant:*req.RequestType:*rated;*constant:*req.Category:call;ATTR1;*constant:*req.Category:call",
ActivationInterval: "2014-07-14T14:35:00Z",
Weight: 20,
},
}
expected := &utils.TPChargerProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "Charger1",
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
RunID: "*rated",
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
AttributeIDs: []string{"*constant:*req.RequestType:*rated;*constant:*req.Category:call", "ATTR1", "*constant:*req.Category:call"},
Weight: 20,
}
rcv := models.AsTPChargers()
sort.Strings(rcv[0].FilterIDs)
if !reflect.DeepEqual(expected, rcv[0]) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv[0]))
}
}
func TestAPItoDispatcherProfile(t *testing.T) {
tpDPP := &utils.TPDispatcherProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "Dsp",
Subsystems: []string{"*any"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
Strategy: utils.MetaFirst,
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
StrategyParams: []interface{}{},
Weight: 20,
Hosts: []*utils.TPDispatcherHostProfile{
{
ID: "C1",
FilterIDs: []string{},
Weight: 10,
Params: []interface{}{"192.168.54.203", "*ratio:2"},
Blocker: false,
},
},
}
expected := &DispatcherProfile{
Tenant: "cgrates.org",
ID: "Dsp",
Subsystems: []string{"*any"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
Strategy: utils.MetaFirst,
ActivationInterval: &utils.ActivationInterval{
ActivationTime: time.Date(2014, 7, 14, 14, 35, 0, 0, time.UTC),
},
StrategyParams: map[string]interface{}{},
Weight: 20,
Hosts: DispatcherHostProfiles{
&DispatcherHostProfile{
ID: "C1",
FilterIDs: []string{},
Weight: 10,
Params: map[string]interface{}{"0": "192.168.54.203", utils.MetaRatio: "2"},
Blocker: false,
},
},
}
if rcv, err := APItoDispatcherProfile(tpDPP, "UTC"); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting : %+v, received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
func TestDispatcherProfileToAPI(t *testing.T) {
exp := &utils.TPDispatcherProfile{
Tenant: "cgrates.org",
ID: "Dsp",
Subsystems: []string{"*any"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
Strategy: utils.MetaFirst,
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
StrategyParams: []interface{}{},
Weight: 20,
Hosts: []*utils.TPDispatcherHostProfile{
{
ID: "C1",
FilterIDs: []string{},
Weight: 10,
Params: []interface{}{"192.168.54.203", "*ratio:2"},
Blocker: false,
},
},
}
exp2 := &utils.TPDispatcherProfile{
Tenant: "cgrates.org",
ID: "Dsp",
Subsystems: []string{"*any"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
Strategy: utils.MetaFirst,
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
StrategyParams: []interface{}{},
Weight: 20,
Hosts: []*utils.TPDispatcherHostProfile{
{
ID: "C1",
FilterIDs: []string{},
Weight: 10,
Params: []interface{}{"*ratio:2", "192.168.54.203"},
Blocker: false,
},
},
}
dspPrf := &DispatcherProfile{
Tenant: "cgrates.org",
ID: "Dsp",
Subsystems: []string{"*any"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
Strategy: utils.MetaFirst,
ActivationInterval: &utils.ActivationInterval{
ActivationTime: time.Date(2014, 7, 14, 14, 35, 0, 0, time.UTC),
},
StrategyParams: map[string]interface{}{},
Weight: 20,
Hosts: DispatcherHostProfiles{
&DispatcherHostProfile{
ID: "C1",
FilterIDs: []string{},
Weight: 10,
Params: map[string]interface{}{"0": "192.168.54.203", utils.MetaRatio: "2"},
Blocker: false,
},
},
}
if rcv := DispatcherProfileToAPI(dspPrf); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(exp, rcv) && !reflect.DeepEqual(exp2, rcv) {
t.Errorf("Expecting : \n %+v \n or \n %+v \n ,\n received: %+v", utils.ToJSON(exp), utils.ToJSON(exp2), utils.ToJSON(rcv))
}
}
func TestAPItoModelTPDispatcher(t *testing.T) {
tpDPP := &utils.TPDispatcherProfile{
TPid: "TP1",
Tenant: "cgrates.org",
ID: "Dsp",
Subsystems: []string{"*any"},
FilterIDs: []string{"FLTR_ACNT_dan", "FLTR_DST_DE"},
Strategy: utils.MetaFirst,
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2014-07-14T14:35:00Z",
ExpiryTime: "",
},
StrategyParams: []interface{}{},
Weight: 20,
Hosts: []*utils.TPDispatcherHostProfile{
{
ID: "C1",
FilterIDs: []string{},
Weight: 10,
Params: []interface{}{"192.168.54.203"},
Blocker: false,
},
{
ID: "C2",
FilterIDs: []string{},
Weight: 10,
Params: []interface{}{"192.168.54.204"},
Blocker: false,
},
},
}
expected := TPDispatcherProfiles{
&TPDispatcherProfile{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "Dsp",
Subsystems: "*any",
FilterIDs: "FLTR_ACNT_dan;FLTR_DST_DE",
Strategy: utils.MetaFirst,
ActivationInterval: "2014-07-14T14:35:00Z",
Weight: 20,
ConnID: "C1",
ConnWeight: 10,
ConnBlocker: false,
ConnParameters: "192.168.54.203",
},
&TPDispatcherProfile{
Tpid: "TP1",
Tenant: "cgrates.org",
ID: "Dsp",
ConnID: "C2",
ConnWeight: 10,
ConnBlocker: false,
ConnParameters: "192.168.54.204",
},
}
rcv := APItoModelTPDispatcherProfile(tpDPP)
if !reflect.DeepEqual(expected, rcv) {
t.Errorf("Expecting : %+v, \n received: %+v", utils.ToJSON(expected), utils.ToJSON(rcv))
}
}
func TestTPDispatcherHostsCSVHeader(t *testing.T) {
tps := &TPDispatcherHosts{}
eOut := []string{"#" + utils.Tenant, utils.ID, utils.Address, utils.Transport, utils.TLS}
if rcv := tps.CSVHeader(); !reflect.DeepEqual(rcv, eOut) {
t.Errorf("\nExpecting: %+v,\nReceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestTPDispatcherHostsAsTPDispatcherHosts(t *testing.T) {
tps := &TPDispatcherHosts{}
if rcv := tps.AsTPDispatcherHosts(); rcv != nil {
t.Errorf("\nExpecting: nil,\nReceived: %+v", utils.ToJSON(rcv))
}
tps = &TPDispatcherHosts{
&TPDispatcherHost{
ID: "ID1",
Tenant: "Tenant1",
}}
if rcv := tps.AsTPDispatcherHosts(); rcv != nil {
t.Errorf("\nExpecting: nil,\nReceived: %+v", utils.ToJSON(rcv))
}
tps = &TPDispatcherHosts{
&TPDispatcherHost{
Address: "Address1",
ID: "ID1",
Tenant: "Tenant1",
Transport: utils.EmptyString,
}}
eOut := []*utils.TPDispatcherHost{
{
Tenant: "Tenant1",
ID: "ID1",
Conns: []*utils.TPDispatcherHostConn{
{
Address: "Address1",
Transport: "*json",
},
},
},
}
if rcv := tps.AsTPDispatcherHosts(); !reflect.DeepEqual(rcv, eOut) {
t.Errorf("\nExpecting: %+v,\nReceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
tps = &TPDispatcherHosts{
&TPDispatcherHost{
Address: "Address2",
ID: "ID2",
Tenant: "Tenant2",
Transport: "*gob",
}}
eOut = []*utils.TPDispatcherHost{
{
Tenant: "Tenant2",
ID: "ID2",
Conns: []*utils.TPDispatcherHostConn{
{
Address: "Address2",
Transport: "*gob",
},
},
},
}
if rcv := tps.AsTPDispatcherHosts(); !reflect.DeepEqual(rcv, eOut) {
t.Errorf("\nExpecting: %+v,\nReceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
tps = &TPDispatcherHosts{
&TPDispatcherHost{
Address: "Address3",
ID: "ID3",
Tenant: "Tenant3",
Transport: "*gob",
},
&TPDispatcherHost{
Address: "Address4",
ID: "ID3",
Tenant: "Tenant3",
Transport: utils.EmptyString,
},
}
eOut = []*utils.TPDispatcherHost{
{
Tenant: "Tenant3",
ID: "ID3",
Conns: []*utils.TPDispatcherHostConn{
{
Address: "Address3",
Transport: "*gob",
},
{
Address: "Address4",
Transport: "*json",
},
},
},
}
if rcv := tps.AsTPDispatcherHosts(); !reflect.DeepEqual(rcv, eOut) {
t.Errorf("\nExpecting: %+v,\nReceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
tps = &TPDispatcherHosts{
&TPDispatcherHost{
Address: "Address4",
ID: "ID4",
Tenant: "Tenant4",
Transport: "*gob",
},
&TPDispatcherHost{
Address: "Address5",
ID: "ID5",
Tenant: "Tenant5",
Transport: utils.EmptyString,
},
}
eOut = []*utils.TPDispatcherHost{
{
Tenant: "Tenant4",
ID: "ID4",
Conns: []*utils.TPDispatcherHostConn{
{
Address: "Address4",
Transport: "*gob",
},
},
},
{
Tenant: "Tenant5",
ID: "ID5",
Conns: []*utils.TPDispatcherHostConn{
{
Address: "Address5",
Transport: "*json",
},
},
},
}
rcv := tps.AsTPDispatcherHosts()
sort.Slice(rcv, func(i, j int) bool { return strings.Compare(rcv[i].ID, rcv[j].ID) < 0 })
if !reflect.DeepEqual(rcv, eOut) {
t.Errorf("\nExpecting: %+v,\nReceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestAPItoModelTPDispatcherHost(t *testing.T) {
var tpDPH *utils.TPDispatcherHost
if rcv := APItoModelTPDispatcherHost(tpDPH); rcv != nil {
t.Errorf("\nExpecting: nil,\nReceived: %+v", utils.ToJSON(rcv))
}
tpDPH = &utils.TPDispatcherHost{
ID: "ID",
}
eOut := make(TPDispatcherHosts, len(tpDPH.Conns))
if rcv := APItoModelTPDispatcherHost(tpDPH); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("\nExpecting: %+v,\nReceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
tpDPH = &utils.TPDispatcherHost{
Tenant: "Tenant",
ID: "ID",
Conns: []*utils.TPDispatcherHostConn{
{
Address: "Address1",
Transport: "*json",
},
{
Address: "Address2",
Transport: "*gob",
},
},
}
eOut = TPDispatcherHosts{
&TPDispatcherHost{
Address: "Address1",
Transport: "*json",
Tenant: "Tenant",
ID: "ID",
},
&TPDispatcherHost{
Address: "Address2",
Transport: "*gob",
Tenant: "Tenant",
ID: "ID",
},
}
if rcv := APItoModelTPDispatcherHost(tpDPH); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("\nExpecting: %+v,\nReceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestAPItoDispatcherHost(t *testing.T) {
var tpDPH *utils.TPDispatcherHost
if rcv := APItoDispatcherHost(tpDPH); rcv != nil {
t.Errorf("\nExpecting: nil,\nReceived: %+v", utils.ToJSON(rcv))
}
tpDPH = &utils.TPDispatcherHost{
Tenant: "Tenant1",
ID: "ID1",
Conns: []*utils.TPDispatcherHostConn{
{
Address: "Address1",
Transport: "*json",
},
{
Address: "Address2",
Transport: "*gob",
},
},
}
eOut := &DispatcherHost{
Tenant: "Tenant1",
ID: "ID1",
Conns: []*config.RemoteHost{
{
Address: "Address1",
Transport: "*json",
},
{
Address: "Address2",
Transport: "*gob",
},
},
}
if rcv := APItoDispatcherHost(tpDPH); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("\nExpecting: %+v,\nReceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
tpDPH = &utils.TPDispatcherHost{
Tenant: "Tenant2",
ID: "ID2",
Conns: []*utils.TPDispatcherHostConn{
{
Address: "Address1",
Transport: "*json",
TLS: true,
},
},
}
eOut = &DispatcherHost{
Tenant: "Tenant2",
ID: "ID2",
Conns: []*config.RemoteHost{
{
Address: "Address1",
Transport: "*json",
TLS: true,
},
},
}
if rcv := APItoDispatcherHost(tpDPH); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("\nExpecting: %+v,\nReceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestDispatcherHostToAPI(t *testing.T) {
dph := &DispatcherHost{
Tenant: "Tenant1",
ID: "ID1",
Conns: []*config.RemoteHost{
{
Address: "Address1",
Transport: "*json",
TLS: true,
},
},
}
eOut := &utils.TPDispatcherHost{
Tenant: "Tenant1",
ID: "ID1",
Conns: []*utils.TPDispatcherHostConn{
{
Address: "Address1",
Transport: "*json",
TLS: true,
},
},
}
if rcv := DispatcherHostToAPI(dph); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("\nExpecting: %+v,\nReceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
dph = &DispatcherHost{
Tenant: "Tenant1",
ID: "ID1",
Conns: []*config.RemoteHost{
{
Address: "Address1",
Transport: "*json",
TLS: false,
},
{
Address: "Address2",
Transport: "*gob",
TLS: true,
},
},
}
eOut = &utils.TPDispatcherHost{
Tenant: "Tenant1",
ID: "ID1",
Conns: []*utils.TPDispatcherHostConn{
{
Address: "Address1",
Transport: "*json",
TLS: false,
},
{
Address: "Address2",
Transport: "*gob",
TLS: true,
},
},
}
if rcv := DispatcherHostToAPI(dph); !reflect.DeepEqual(eOut, rcv) {
t.Errorf("\nExpecting: %+v,\nReceived: %+v", utils.ToJSON(eOut), utils.ToJSON(rcv))
}
}
func TestTPRoutesAsTPRouteProfile(t *testing.T) {
mdl := TPRoutes{
&TpRoute{
PK: 1,
Tpid: "TP",
Tenant: "cgrates.org",
ID: "RoutePrf",
FilterIDs: "FltrRoute",
ActivationInterval: "2017-11-27T00:00:00Z",
Sorting: "*weight",
SortingParameters: "srtPrm1",
RouteID: "route1",
RouteFilterIDs: "",
RouteAccountIDs: "",
RouteRatingplanIDs: "",
RouteResourceIDs: "",
RouteStatIDs: "",
RouteWeight: 10.0,
RouteBlocker: false,
RouteParameters: "",
Weight: 10.0,
CreatedAt: time.Time{},
},
&TpRoute{
PK: 2,
Tpid: "TP",
Tenant: "cgrates.org",
ID: "RoutePrf",
FilterIDs: "",
ActivationInterval: "",
Sorting: "",
SortingParameters: "",
RouteID: "route2",
RouteFilterIDs: "",
RouteAccountIDs: "",
RouteRatingplanIDs: "",
RouteResourceIDs: "",
RouteStatIDs: "",
RouteWeight: 20.0,
RouteBlocker: false,
RouteParameters: "",
Weight: 0,
CreatedAt: time.Time{},
},
}
expPrf := []*utils.TPRouteProfile{
{
TPid: "TP",
Tenant: "cgrates.org",
ID: "RoutePrf",
Sorting: "*weight",
SortingParameters: []string{"srtPrm1"},
FilterIDs: []string{"FltrRoute"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2017-11-27T00:00:00Z",
ExpiryTime: "",
},
Routes: []*utils.TPRoute{
{
ID: "route1",
Weight: 10.0,
},
{
ID: "route2",
Weight: 20.0,
},
},
Weight: 10,
},
}
rcv := mdl.AsTPRouteProfile()
sort.Slice(rcv[0].Routes, func(i, j int) bool {
return strings.Compare(rcv[0].Routes[i].ID, rcv[0].Routes[j].ID) < 0
})
if !reflect.DeepEqual(rcv, expPrf) {
t.Errorf("Expecting: %+v,\nReceived: %+v", utils.ToJSON(expPrf), utils.ToJSON(rcv))
}
mdlReverse := TPRoutes{
&TpRoute{
PK: 2,
Tpid: "TP",
Tenant: "cgrates.org",
ID: "RoutePrf",
FilterIDs: "",
ActivationInterval: "",
Sorting: "",
SortingParameters: "",
RouteID: "route2",
RouteFilterIDs: "",
RouteAccountIDs: "",
RouteRatingplanIDs: "",
RouteResourceIDs: "",
RouteStatIDs: "",
RouteWeight: 20.0,
RouteBlocker: false,
RouteParameters: "",
Weight: 0,
CreatedAt: time.Time{},
},
&TpRoute{
PK: 1,
Tpid: "TP",
Tenant: "cgrates.org",
ID: "RoutePrf",
FilterIDs: "FltrRoute",
ActivationInterval: "2017-11-27T00:00:00Z",
Sorting: "*weight",
SortingParameters: "srtPrm1",
RouteID: "route1",
RouteFilterIDs: "",
RouteAccountIDs: "",
RouteRatingplanIDs: "",
RouteResourceIDs: "",
RouteStatIDs: "",
RouteWeight: 10.0,
RouteBlocker: false,
RouteParameters: "",
Weight: 10.0,
CreatedAt: time.Time{},
},
}
expPrfRev := []*utils.TPRouteProfile{
{
TPid: "TP",
Tenant: "cgrates.org",
ID: "RoutePrf",
Sorting: "*weight",
SortingParameters: []string{"srtPrm1"},
FilterIDs: []string{"FltrRoute"},
ActivationInterval: &utils.TPActivationInterval{
ActivationTime: "2017-11-27T00:00:00Z",
ExpiryTime: "",
},
Routes: []*utils.TPRoute{
{
ID: "route1",
Weight: 10.0,
},
{
ID: "route2",
Weight: 20.0,
},
},
Weight: 10,
},
}
rcvRev := mdlReverse.AsTPRouteProfile()
sort.Slice(rcvRev[0].Routes, func(i, j int) bool {
return strings.Compare(rcvRev[0].Routes[i].ID, rcvRev[0].Routes[j].ID) < 0
})
sort.Strings(rcvRev[0].SortingParameters)
if !reflect.DeepEqual(rcvRev, expPrfRev) {
t.Errorf("Expecting: %+v,\nReceived: %+v", utils.ToJSON(expPrfRev), utils.ToJSON(rcvRev))
}
}
func TestRateProfileToAPI(t *testing.T) {
rPrf := &RateProfile{
Tenant: "cgrates.org",
ID: "RP1",
FilterIDs: []string{"*string:~*req.Subject:1001"},
Weight: 0,
ConnectFee: 0.1,
RoundingMethod: "*up",
RoundingDecimals: 4,
MinCost: 0.1,
MaxCost: 0.6,
MaxCostStrategy: "*free",
Rates: map[string]*Rate{
"RT_WEEK": &Rate{
ID: "RT_WEEK",
Weight: 0,
ActivationTime: "* * * * 1-5",
IntervalRates: []*IntervalRate{
&IntervalRate{
IntervalStart: time.Duration(0 * time.Second),
Value: 0.12,
Unit: time.Duration(1 * time.Minute),
Increment: time.Duration(1 * time.Minute),
},
&IntervalRate{
IntervalStart: time.Duration(1 * time.Minute),
Value: 0.06,
Unit: time.Duration(1 * time.Minute),
Increment: time.Duration(1 * time.Second),
},
},
},
"RT_WEEKEND": &Rate{
ID: "RT_WEEKEND",
Weight: 10,
ActivationTime: "* * * * 0,6",
IntervalRates: []*IntervalRate{
&IntervalRate{
IntervalStart: time.Duration(0 * time.Second),
Value: 0.06,
Unit: time.Duration(1 * time.Minute),
Increment: time.Duration(1 * time.Second),
},
},
},
"RT_CHRISTMAS": &Rate{
ID: "RT_CHRISTMAS",
Weight: 30,
ActivationTime: "* * 24 12 *",
IntervalRates: []*IntervalRate{
&IntervalRate{
IntervalStart: time.Duration(0 * time.Second),
Value: 0.06,
Unit: time.Duration(1 * time.Minute),
Increment: time.Duration(1 * time.Second),
},
},
},
},
}
eTPRatePrf := &utils.TPRateProfile{
Tenant: "cgrates.org",
ID: "RP1",
FilterIDs: []string{"*string:~*req.Subject:1001"},
Weight: 0,
ActivationInterval: new(utils.TPActivationInterval),
ConnectFee: 0.1,
RoundingMethod: "*up",
RoundingDecimals: 4,
MinCost: 0.1,
MaxCost: 0.6,
MaxCostStrategy: "*free",
Rates: map[string]*utils.TPRate{
"RT_WEEK": &utils.TPRate{
ID: "RT_WEEK",
Weight: 0,
ActivationTime: "* * * * 1-5",
IntervalRates: []*utils.TPIntervalRate{
&utils.TPIntervalRate{
IntervalStart: "0s",
Value: 0.12,
Unit: "1m0s",
Increment: "1m0s",
},
&utils.TPIntervalRate{
IntervalStart: "1m0s",
Value: 0.06,
Unit: "1m0s",
Increment: "1s",
},
},
},
"RT_WEEKEND": &utils.TPRate{
ID: "RT_WEEKEND",
Weight: 10,
ActivationTime: "* * * * 0,6",
IntervalRates: []*utils.TPIntervalRate{
&utils.TPIntervalRate{
IntervalStart: "0s",
Value: 0.06,
Unit: "1m0s",
Increment: "1s",
},
},
},
"RT_CHRISTMAS": &utils.TPRate{
ID: "RT_CHRISTMAS",
Weight: 30,
ActivationTime: "* * 24 12 *",
IntervalRates: []*utils.TPIntervalRate{
&utils.TPIntervalRate{
IntervalStart: "0s",
Value: 0.06,
Unit: "1m0s",
Increment: "1s",
},
},
},
},
}
if rcv := RateProfileToAPI(rPrf); !reflect.DeepEqual(rcv, eTPRatePrf) {
t.Errorf("Expecting: %+v,\nReceived: %+v", utils.ToJSON(eTPRatePrf), utils.ToJSON(rcv))
}
}
func TestAPIToRateProfile(t *testing.T) {
eRprf := &RateProfile{
Tenant: "cgrates.org",
ID: "RP1",
FilterIDs: []string{"*string:~*req.Subject:1001"},
Weight: 0,
ConnectFee: 0.1,
RoundingMethod: "*up",
RoundingDecimals: 4,
MinCost: 0.1,
MaxCost: 0.6,
MaxCostStrategy: "*free",
Rates: map[string]*Rate{
"RT_WEEK": &Rate{
ID: "RT_WEEK",
Weight: 0,
ActivationTime: "* * * * 1-5",
IntervalRates: []*IntervalRate{
&IntervalRate{
IntervalStart: time.Duration(0 * time.Second),
Value: 0.12,
Unit: time.Duration(1 * time.Minute),
Increment: time.Duration(1 * time.Minute),
},
&IntervalRate{
IntervalStart: time.Duration(1 * time.Minute),
Value: 0.06,
Unit: time.Duration(1 * time.Minute),
Increment: time.Duration(1 * time.Second),
},
},
},
"RT_WEEKEND": &Rate{
ID: "RT_WEEKEND",
Weight: 10,
ActivationTime: "* * * * 0,6",
IntervalRates: []*IntervalRate{
&IntervalRate{
IntervalStart: time.Duration(0 * time.Second),
Value: 0.06,
Unit: time.Duration(1 * time.Minute),
Increment: time.Duration(1 * time.Second),
},
},
},
"RT_CHRISTMAS": &Rate{
ID: "RT_CHRISTMAS",
Weight: 30,
ActivationTime: "* * 24 12 *",
IntervalRates: []*IntervalRate{
&IntervalRate{
IntervalStart: time.Duration(0 * time.Second),
Value: 0.06,
Unit: time.Duration(1 * time.Minute),
Increment: time.Duration(1 * time.Second),
},
},
},
},
}
tpRprf := &utils.TPRateProfile{
TPid: "",
Tenant: "cgrates.org",
ID: "RP1",
FilterIDs: []string{"*string:~*req.Subject:1001"},
Weight: 0,
ConnectFee: 0.1,
RoundingMethod: "*up",
RoundingDecimals: 4,
MinCost: 0.1,
MaxCost: 0.6,
MaxCostStrategy: "*free",
Rates: map[string]*utils.TPRate{
"RT_WEEK": &utils.TPRate{
ID: "RT_WEEK",
Weight: 0,
ActivationTime: "* * * * 1-5",
IntervalRates: []*utils.TPIntervalRate{
&utils.TPIntervalRate{
IntervalStart: "0s",
Value: 0.12,
Unit: "1m0s",
Increment: "1m0s",
},
&utils.TPIntervalRate{
IntervalStart: "1m0s",
Value: 0.06,
Unit: "1m0s",
Increment: "1s",
},
},
},
"RT_WEEKEND": &utils.TPRate{
ID: "RT_WEEKEND",
Weight: 10,
ActivationTime: "* * * * 0,6",
IntervalRates: []*utils.TPIntervalRate{
&utils.TPIntervalRate{
IntervalStart: "0s",
Value: 0.06,
Unit: "1m0s",
Increment: "1s",
},
},
},
"RT_CHRISTMAS": &utils.TPRate{
ID: "RT_CHRISTMAS",
Weight: 30,
ActivationTime: "* * 24 12 *",
IntervalRates: []*utils.TPIntervalRate{
&utils.TPIntervalRate{
IntervalStart: "0s",
Value: 0.06,
Unit: "1m0s",
Increment: "1s",
},
},
},
},
}
if rcv, err := APItoRateProfile(tpRprf, utils.EmptyString); err != nil {
t.Error(err)
} else if !reflect.DeepEqual(rcv, eRprf) {
t.Errorf("Expecting: %+v,\nReceived: %+v", utils.ToJSON(eRprf), utils.ToJSON(rcv))
}
}
func TestAPItoModelTPRateProfile(t *testing.T) {
tpRprf := &utils.TPRateProfile{
TPid: "",
Tenant: "cgrates.org",
ID: "RP1",
FilterIDs: []string{"*string:~*req.Subject:1001"},
Weight: 0,
ConnectFee: 0.1,
RoundingMethod: "*up",
RoundingDecimals: 4,
MinCost: 0.1,
MaxCost: 0.6,
MaxCostStrategy: "*free",
Rates: map[string]*utils.TPRate{
"RT_WEEK": &utils.TPRate{
ID: "RT_WEEK",
Weight: 0,
ActivationTime: "* * * * 1-5",
IntervalRates: []*utils.TPIntervalRate{
&utils.TPIntervalRate{
IntervalStart: "0s",
Value: 0.12,
Unit: "1m0s",
Increment: "1m0s",
},
&utils.TPIntervalRate{
IntervalStart: "1m",
Value: 0.06,
Unit: "1m0s",
Increment: "1s",
},
},
},
},
}
expModels := RateProfileMdls{
&RateProfileMdl{
PK: 0,
Tpid: "",
Tenant: "cgrates.org",
ID: "RP1",
FilterIDs: "*string:~*req.Subject:1001",
ActivationInterval: "",
Weight: 0,
ConnectFee: 0.1,
RoundingMethod: "*up",
RoundingDecimals: 4,
MinCost: 0.1,
MaxCost: 0.6,
MaxCostStrategy: "*free",
RateID: "RT_WEEK",
RateFilterIDs: "",
RateActivationStart: "* * * * 1-5",
RateWeight: 0,
RateBlocker: false,
RateIntervalStart: "1m",
RateValue: 0.06,
RateUnit: "1m0s",
RateIncrement: "1s",
CreatedAt: time.Time{},
},
&RateProfileMdl{
PK: 0,
Tpid: "",
Tenant: "cgrates.org",
ID: "RP1",
FilterIDs: "",
ActivationInterval: "",
Weight: 0,
ConnectFee: 0,
RoundingMethod: "",
RoundingDecimals: 0,
MinCost: 0,
MaxCost: 0,
MaxCostStrategy: "",
RateID: "RT_WEEK",
RateFilterIDs: "",
RateActivationStart: "",
RateWeight: 0,
RateBlocker: false,
RateIntervalStart: "0s",
RateValue: 0.12,
RateUnit: "1m0s",
RateIncrement: "1m0s",
CreatedAt: time.Time{},
},
}
expModelsRev := RateProfileMdls{
&RateProfileMdl{
PK: 0,
Tpid: "",
Tenant: "cgrates.org",
ID: "RP1",
FilterIDs: "*string:~*req.Subject:1001",
ActivationInterval: "",
Weight: 0,
ConnectFee: 0.1,
RoundingMethod: "*up",
RoundingDecimals: 4,
MinCost: 0.1,
MaxCost: 0.6,
MaxCostStrategy: "*free",
RateID: "RT_WEEK",
RateFilterIDs: "",
RateActivationStart: "* * * * 1-5",
RateWeight: 0,
RateBlocker: false,
RateIntervalStart: "0s",
RateValue: 0.12,
RateUnit: "1m0s",
RateIncrement: "1m0s",
CreatedAt: time.Time{},
},
&RateProfileMdl{
PK: 0,
Tpid: "",
Tenant: "cgrates.org",
ID: "RP1",
FilterIDs: "",
ActivationInterval: "",
Weight: 0,
ConnectFee: 0,
RoundingMethod: "",
RoundingDecimals: 0,
MinCost: 0,
MaxCost: 0,
MaxCostStrategy: "",
RateID: "RT_WEEK",
RateFilterIDs: "",
RateActivationStart: "",
RateWeight: 0,
RateBlocker: false,
RateIntervalStart: "1m",
RateValue: 0.06,
RateUnit: "1m0s",
RateIncrement: "1s",
CreatedAt: time.Time{},
},
}
rcv := APItoModelTPRateProfile(tpRprf)
if !reflect.DeepEqual(rcv, expModels) && !reflect.DeepEqual(rcv, expModelsRev) {
t.Errorf("Expecting: %+v,\nReceived: %+v", utils.ToJSON(expModels), utils.ToJSON(rcv))
}
}
func TestAsTPRateProfile(t *testing.T) {
rtMdl := RateProfileMdls{
&RateProfileMdl{
PK: 0,
Tpid: "",
Tenant: "cgrates.org",
ID: "RP1",
FilterIDs: "*string:~*req.Subject:1001",
ActivationInterval: "",
Weight: 0,
ConnectFee: 0.1,
RoundingMethod: "*up",
RoundingDecimals: 4,
MinCost: 0.1,
MaxCost: 0.6,
MaxCostStrategy: "*free",
RateID: "RT_WEEK",
RateFilterIDs: "",
RateActivationStart: "* * * * 1-5",
RateWeight: 0,
RateBlocker: false,
RateIntervalStart: "1m",
RateValue: 0.06,
RateUnit: "1m",
RateIncrement: "1s",
CreatedAt: time.Time{},
},
&RateProfileMdl{
PK: 0,
Tpid: "",
Tenant: "cgrates.org",
ID: "RP1",
FilterIDs: "",
ActivationInterval: "",
Weight: 0,
ConnectFee: 0,
RoundingMethod: "",
RoundingDecimals: 0,
MinCost: 0,
MaxCost: 0,
MaxCostStrategy: "",
RateID: "RT_WEEK",
RateFilterIDs: "",
RateActivationStart: "",
RateWeight: 0,
RateBlocker: false,
RateIntervalStart: "0s",
RateValue: 0.12,
RateUnit: "1m",
RateIncrement: "1m",
CreatedAt: time.Time{},
},
}
eRprf := &utils.TPRateProfile{
TPid: utils.EmptyString,
Tenant: "cgrates.org",
ID: "RP1",
FilterIDs: []string{"*string:~*req.Subject:1001"},
Weight: 0,
ConnectFee: 0.1,
RoundingMethod: "*up",
RoundingDecimals: 4,
MinCost: 0.1,
MaxCost: 0.6,
MaxCostStrategy: "*free",
Rates: map[string]*utils.TPRate{
"RT_WEEK": &utils.TPRate{
ID: "RT_WEEK",
Weight: 0,
ActivationTime: "* * * * 1-5",
IntervalRates: []*utils.TPIntervalRate{
&utils.TPIntervalRate{
IntervalStart: "1m",
Value: 0.06,
Unit: "1m",
Increment: "1s",
},
&utils.TPIntervalRate{
IntervalStart: "0s",
Value: 0.12,
Unit: "1m",
Increment: "1m",
},
},
},
},
}
rcv := rtMdl.AsTPRateProfile()
if len(rcv) != 1 {
t.Errorf("Expecting: %+v,\nReceived: %+v", 1, len(rcv))
} else if !reflect.DeepEqual(rcv[0], eRprf) {
t.Errorf("Expecting: %+v,\nReceived: %+v", utils.ToJSON(eRprf), utils.ToJSON(rcv[0]))
}
}
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