/* Real-time Online/Offline Charging System (OCS) for Telecom & ISP environments Copyright (C) ITsysCOM GmbH This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see */ package utils import ( "reflect" "sort" "testing" ) func TestConvertMapValStrIf(t *testing.T) { var mapIn map[string]string var mapOut map[string]interface{} if rcv := ConvertMapValStrIf(mapIn); reflect.TypeOf(rcv) != reflect.TypeOf(mapOut) { t.Errorf("Expecting: %+v, received: %+v", reflect.TypeOf(mapOut), reflect.TypeOf(rcv)) } mapIn = map[string]string{"test1": "_test1_", "test2": "_test2_"} if rcv := ConvertMapValStrIf(mapIn); reflect.TypeOf(rcv) != reflect.TypeOf(mapOut) { t.Errorf("Expecting: %+v, received: %+v", reflect.TypeOf(mapOut), reflect.TypeOf(rcv)) } else if !reflect.DeepEqual(mapIn["test1"], rcv["test1"]) { t.Errorf("Expecting: %+v, received: %+v", mapIn["test1"], rcv["test1"]) } else if len(rcv) != len(mapIn) { t.Errorf("Expecting: %+v, received: %+v", len(mapIn), len(rcv)) } } func TestMirrorMap(t *testing.T) { var mapIn map[string]string if rcv := MirrorMap(mapIn); reflect.DeepEqual(rcv, mapIn) { t.Errorf("Expecting: %+v, received: %+v", reflect.TypeOf(mapIn), reflect.TypeOf(rcv)) } else if len(rcv) != 0 { t.Errorf("Expecting: %+v, received: %+v", 0, len(rcv)) } mapIn = map[string]string{"test1": "_test1_", "test2": "_test2_"} eOut := map[string]string{"_test1_": "test1", "_test2_": "test2"} if rcv := MirrorMap(mapIn); reflect.DeepEqual(rcv, mapIn) { t.Errorf("Expecting: %+v, received: %+v", reflect.TypeOf(mapIn), reflect.TypeOf(rcv)) } else if !reflect.DeepEqual(eOut, rcv) { t.Errorf("Expecting: %+v, received: %+v", eOut, rcv) } } func TestMissingMapKeys(t *testing.T) { mapIn := map[string]string{} requiredKeys := []string{} if rcv := MissingMapKeys(mapIn, requiredKeys); len(rcv) != 0 { t.Errorf("Expecting: %+v, received: %+v", 0, len(rcv)) } mapIn = map[string]string{"test1": "_test1_", "test2": "_test2_"} requiredKeys = []string{"test1", "test2"} if rcv := MissingMapKeys(mapIn, requiredKeys); len(rcv) != 0 { t.Errorf("Expecting: %+v, received: %+v", 0, len(rcv)) } mapIn = map[string]string{"test1": "_test1_", "test2": "_test2_"} requiredKeys = []string{"test2", "test3"} if rcv := MissingMapKeys(mapIn, requiredKeys); len(rcv) != 1 { t.Errorf("Expecting: %+v, received: %+v", 1, len(rcv)) } else if !reflect.DeepEqual([]string{"test3"}, rcv) { t.Errorf("Expecting: %+v, received: %+v", []string{"test3"}, rcv) } requiredKeys = []string{"test3", "test4"} eOut := []string{"test3", "test4"} if rcv := MissingMapKeys(mapIn, requiredKeys); len(rcv) != 2 { t.Errorf("Expecting: %+v, received: %+v", 2, len(rcv)) } else if !reflect.DeepEqual(eOut, rcv) { t.Errorf("Expecting: %+v, received: %+v", eOut, rcv) } } func TestMapKeys(t *testing.T) { mapIn := map[string]string{"test1": "_test1_", "test2": "_test2_"} eOut := []string{"test1", "test2"} rcv := MapKeys(mapIn) sort.Slice(rcv, func(i, j int) bool { return rcv[i] < rcv[j] }) if !reflect.DeepEqual(eOut, rcv) { t.Errorf("Expecting: %+v, received: %+v", eOut, rcv) } mapIn = map[string]string{"test1": "_test1_", "test2": "_test2_", "test3": "_test3_", "test4": "_test4_"} eOut = []string{"test1", "test2", "test3", "test4"} rcv = MapKeys(mapIn) sort.Slice(rcv, func(i, j int) bool { return rcv[i] < rcv[j] }) if !reflect.DeepEqual(eOut, rcv) { t.Errorf("Expecting: %+v, received: %+v", eOut, rcv) } } func TestMapKeysStringMapParse(t *testing.T) { if sm := ParseStringMap(EmptyString); len(sm) != 0 { t.Errorf("Expecting %+v, received %+v", 0, len(sm)) } if sm := ParseStringMap(ZERO); len(sm) != 0 { t.Errorf("Expecting %+v, received %+v", 0, len(sm)) } if sm := ParseStringMap("1;2;3;4"); len(sm) != 4 { t.Error("Error pasring map: ", sm) } if sm := ParseStringMap("1;2;!3;4"); len(sm) != 4 { t.Error("Error pasring map: ", sm) } else if sm["3"] != false { t.Error("Error parsing negative: ", sm) } sm := ParseStringMap("1;2;!3;4") if include, has := sm["2"]; include != true && has != true { t.Error("Error detecting positive: ", sm) } if include, has := sm["3"]; include != false && has != true { t.Error("Error detecting negative: ", sm) } if include, has := sm["5"]; include != false && has != false { t.Error("Error detecting missing: ", sm) } eOut := make(StringMap) if rcv := ParseStringMap(ZERO); !reflect.DeepEqual(eOut, rcv) { t.Errorf("Expecting: %+v, received: %+v", eOut, rcv) } } func TestMapMergeMapsStringIface(t *testing.T) { mp1 := map[string]interface{}{ "Hdr1": "Val1", "Hdr2": "Val2", "Hdr3": "Val3", } mp2 := map[string]interface{}{ "Hdr3": "Val4", "Hdr4": "Val4", } eMergedMap := map[string]interface{}{ "Hdr1": "Val1", "Hdr2": "Val2", "Hdr3": "Val4", "Hdr4": "Val4", } if mergedMap := MergeMapsStringIface(mp1, mp2); !reflect.DeepEqual(eMergedMap, mergedMap) { t.Errorf("Expecting: %+v, received: %+v", eMergedMap, mergedMap) } } func TestEqual(t *testing.T) { t1 := NewStringMap("val1") t2 := NewStringMap("val2") result := t1.Equal(t2) expected := false if result != expected { t.Error("Expecting:", expected, ", received:", result) } } func TestIsEmpty(t *testing.T) { t1 := NewStringMap("val1") result := t1.IsEmpty() expected := false if result != expected { t.Error("Expecting:", expected, ", received:", result) } } func TestMapStringToInt64(t *testing.T) { t1 := map[string]int64{"test": int64(21)} t2 := map[string]string{"test": "21"} t3, err := MapStringToInt64(t2) if err != nil { t.Error("Got Error: ", err) } if !reflect.DeepEqual(t1, t3) { t.Errorf("Expecting: %+v, received: %+v", t1, t3) } } func TestMapHasKey(t *testing.T) { mp := ParseStringMap("Item1;Item2;Item3") if mp.HasKey("Item1") != true { t.Errorf("Expecting: true, received: %+v", mp.HasKey("Item1")) } if mp.HasKey("Item4") != false { t.Errorf("Expecting: true, received: %+v", mp.HasKey("Item4")) } } func TestMapSubsystemIDsFromSlice(t *testing.T) { sls := []string{"*event", "*thresholds:*ids:ID1;ID2;ID3", "*thresholds:*derived_reply", "*attributes:*disabled", "*stats:*ids:ID"} eMp := FlagsWithParams{ "*event": map[string][]string{}, "*thresholds": map[string][]string{MetaIDs: {"ID1", "ID2", "ID3"}, MetaDerivedReply: {}}, "*attributes": map[string][]string{"*disabled": {}}, "*stats": map[string][]string{MetaIDs: {"ID"}}, } if mp := FlagsWithParamsFromSlice(sls); !reflect.DeepEqual(mp, eMp) { t.Errorf("Expecting: %+v, received: %+v", eMp, mp) } } func TestMapSubsystemIDsHasKey(t *testing.T) { sls := []string{"*event", "*thresholds:*ids:ID1;ID2;ID3", "*attributes", "*stats:*ids:ID"} eMp := FlagsWithParams{ "*event": map[string][]string{}, "*thresholds": map[string][]string{MetaIDs: {"ID1", "ID2", "ID3"}}, "*attributes": map[string][]string{}, "*stats": map[string][]string{MetaIDs: {"ID"}}, } mp := FlagsWithParamsFromSlice(sls) if !reflect.DeepEqual(mp, eMp) { t.Errorf("Expecting: %+v, received: %+v", eMp, mp) } if has := mp.Has("*event"); !has { t.Errorf("Expecting: true, received: %+v", has) } if has := mp.Has("*thresholds"); !has { t.Errorf("Expecting: true, received: %+v", has) } if has := mp.Has("*resources"); has { t.Errorf("Expecting: false, received: %+v", has) } } func TestMapSubsystemIDsGetIDs(t *testing.T) { sls := []string{"*event", "*thresholds:*ids:ID1;ID2;ID3", "*attributes", "*stats:*ids:ID"} eMp := FlagsWithParams{ "*event": map[string][]string{}, "*thresholds": map[string][]string{MetaIDs: {"ID1", "ID2", "ID3"}}, "*attributes": map[string][]string{}, "*stats": map[string][]string{MetaIDs: {"ID"}}, } mp := FlagsWithParamsFromSlice(sls) if !reflect.DeepEqual(mp, eMp) { t.Errorf("Expecting: %+v, received: %+v", eMp, mp) } eIDs := []string{"ID1", "ID2", "ID3"} if ids := mp.ParamsSlice("*thresholds", MetaIDs); !reflect.DeepEqual(ids, eIDs) { t.Errorf("Expecting: %+v, received: %+v", eIDs, ids) } eIDs = nil if ids := mp.ParamsSlice("*event", MetaIDs); !reflect.DeepEqual(ids, eIDs) { t.Errorf("Expecting: %+v, received: %+v", eIDs, ids) } if ids := mp.ParamsSlice("*test", MetaIDs); !reflect.DeepEqual(ids, eIDs) { t.Errorf("Expecting: %+v, received: %+v", eIDs, ids) } } func TestFlagsToSlice(t *testing.T) { sls := []string{"*event", "*thresholds:*ids:ID1;ID2;ID3", "*attributes", "*stats:*ids:ID", "*routes:*derived_reply"} eMp := FlagsWithParams{ "*event": map[string][]string{}, "*thresholds": map[string][]string{MetaIDs: {"ID1", "ID2", "ID3"}}, "*attributes": map[string][]string{}, "*stats": map[string][]string{MetaIDs: {"ID"}}, "*routes": map[string][]string{MetaDerivedReply: {}}, } mp := FlagsWithParamsFromSlice(sls) if !reflect.DeepEqual(mp, eMp) { t.Errorf("Expecting: %+v, received: %+v", eMp, mp) } sort.Strings(sls) flgSls := mp.SliceFlags() sort.Strings(flgSls) if !reflect.DeepEqual(flgSls, sls) { t.Errorf("Expecting: %+v, received: %+v", sls, flgSls) } } func TestFlagsWithParamsGetBool(t *testing.T) { flagsWithParams := &FlagsWithParams{ "test": map[string][]string{"false": {}, "string2": {}}, "test2": map[string][]string{"string2": {}}, "test3": map[string][]string{"true": {}}, "empty": map[string][]string{}, } key := "notpresent" if rcv := flagsWithParams.GetBool(key); rcv != false { t.Errorf("Expecting: false, received: %+v", ToJSON(rcv)) } key = "empty" if rcv := flagsWithParams.GetBool(key); rcv != true { t.Errorf("Expecting: false, received: %+v", ToJSON(rcv)) } key = "test" if rcv := flagsWithParams.GetBool(key); rcv != false { t.Errorf("Expecting: false, received: %+v", ToJSON(rcv)) } key = "test2" if rcv := flagsWithParams.GetBool(key); rcv != true { t.Errorf("Expecting: true, received: %+v", ToJSON(rcv)) } key = "test3" if rcv := flagsWithParams.GetBool(key); rcv != true { t.Errorf("Expecting: true, received: %+v", ToJSON(rcv)) } } func TestFlagParamsAdd(t *testing.T) { flgs := make(FlagParams) exp := FlagParams{ MetaIDs: []string{"id1", "id2"}, } flgs.Add([]string{MetaIDs, "id1;id2", "ignored"}) if !reflect.DeepEqual(flgs, exp) { t.Errorf("Expecting: %+v, received: %+v", exp, flgs) } } func TestFlagsToSlice2(t *testing.T) { sls := []string{"*event", "*thresholds:*ids:ID1;ID2;ID3", "*attributes", "*stats:*ids:ID", "*routes:*derived_reply", "*cdrs:*attributes", "*cdrs:*stats:ID"} eMp := FlagsWithParams{ "*event": map[string][]string{}, "*thresholds": map[string][]string{MetaIDs: {"ID1", "ID2", "ID3"}}, "*attributes": map[string][]string{}, "*stats": map[string][]string{MetaIDs: {"ID"}}, "*routes": map[string][]string{MetaDerivedReply: {}}, "*cdrs": map[string][]string{MetaAttributes: {}, MetaStats: {"ID"}}, } mp := FlagsWithParamsFromSlice(sls) if !reflect.DeepEqual(mp, eMp) { t.Errorf("Expecting: %+v, received: %+v", ToJSON(eMp), ToJSON(mp)) } sort.Strings(sls) flgSls := mp.SliceFlags() sort.Strings(flgSls) if !reflect.DeepEqual(flgSls, sls) { t.Errorf("Expecting: %+v, received: %+v", sls, flgSls) } sls = []string{"*attributes", "*stats:ID"} flgSls = mp["*cdrs"].SliceFlags() sort.Strings(flgSls) if !reflect.DeepEqual(flgSls, sls) { t.Errorf("Expecting: %+v, received: %+v", sls, flgSls) } } func TestNewStringMap(t *testing.T) { expected := StringMap{"item1": true, "item2": true, "negitem1": false} received := NewStringMap("item1", "item2", "!negitem1") if !reflect.DeepEqual(expected, received) { t.Errorf("Expecting: %+v, received: %+v", expected, received) } } func TestNewStringMap2(t *testing.T) { expected := StringMap{"test": true, "test!": true, "t!est": true} received := NewStringMap("test", "test!", "t!est") if !reflect.DeepEqual(expected, received) { t.Errorf("Expecting: %+v, received: %+v", expected, received) } } func TestStringMapEqual1(t *testing.T) { expected := false received := new(StringMap).Equal(StringMap{"test": true}) if expected != received { t.Errorf("Expecting: %+v, received: %+v", expected, received) } } func TestStringMapEqual2(t *testing.T) { expected := false received := StringMap{"test": true, "test2": true}.Equal(StringMap{"test": true}) if expected != received { t.Errorf("Expecting: %+v, received: %+v", expected, received) } } func TestStringMapEqual3(t *testing.T) { expected := true received := StringMap{"test": true, "test2": true}.Equal(StringMap{"test": true, "test2": true}) if expected != received { t.Errorf("Expecting: %+v, received: %+v", expected, received) } } func TestStringMapIncludes1(t *testing.T) { expected := false received := StringMap{"test": true}.Includes(StringMap{"test": true, "test2": true}) if expected != received { t.Errorf("Expecting: %+v, received: %+v", expected, received) } } func TestStringMapIncludes2(t *testing.T) { expected := false received := StringMap{"test": true, "test2": true}.Includes(StringMap{"test3": true}) if expected != received { t.Errorf("Expecting: %+v, received: %+v", expected, received) } } func TestStringMapIncludes3(t *testing.T) { expected := true received := StringMap{"test": true, "test2": true}.Includes(StringMap{"test": true, "test2": true}) if expected != received { t.Errorf("Expecting: %+v, received: %+v", expected, received) } } func TestStringMapSlice(t *testing.T) { expected := []string{"test", "test2"} received := StringMap{"test": true, "test2": true}.Slice() sort.Strings(received) sort.Strings(expected) if !reflect.DeepEqual(expected, received) { t.Errorf("Expecting: %+v, received: %+v", expected, received) } } func TestStringMapClone(t *testing.T) { expected := StringMap{"test": true, "test2": true} received := StringMap{"test": true, "test2": true}.Clone() if !reflect.DeepEqual(expected, received) { t.Errorf("Expecting: %+v, received: %+v", expected, received) } } func TestStringMapString(t *testing.T) { received := StringMap{"test": true, "test2": true}.String() if received != "test;test2" && received != "test2;test" { t.Errorf("Expecting: test or test2, received: %+v", received) } } func TestStringMapGetOneEmpty(t *testing.T) { expected := EmptyString received := StringMap{}.GetOne() if !reflect.DeepEqual(expected, received) { t.Errorf("Expecting: %+v, received: %+v", expected, received) } } func TestStringMapGetOneNotEmpty(t *testing.T) { received := StringMap{"test": true, "test2": true}.GetOne() if received != "test" && received != "test2" { t.Errorf("Expecting: test or test2, received: %+v", received) } } func TestMapStringToInt64Err(t *testing.T) { t2 := map[string]string{"test": "a"} _, err := MapStringToInt64(t2) if err == nil { t.Error("Got Error: ", err) } }