/* 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 engine import ( "bytes" "compress/zlib" "fmt" "io/ioutil" "strings" "time" "github.com/cgrates/cgrates/cache" "github.com/cgrates/cgrates/config" "github.com/cgrates/cgrates/guardian" "github.com/cgrates/cgrates/utils" "gopkg.in/mgo.v2" "gopkg.in/mgo.v2/bson" ) const ( colDst = "destinations" colRds = "reverse_destinations" colAct = "actions" colApl = "action_plans" colAAp = "account_action_plans" colTsk = "tasks" colAtr = "action_triggers" colRpl = "rating_plans" colRpf = "rating_profiles" colAcc = "accounts" colShg = "shared_groups" colLcr = "lcr_rules" colDcs = "derived_chargers" colAls = "aliases" colRCfgs = "reverse_aliases" colStq = "stat_qeues" colPbs = "pubsub" colUsr = "users" colCrs = "cdr_stats" colLht = "load_history" colVer = "versions" colRsP = "resource_profiles" colRFI = "request_filter_indexes" colTmg = "timings" colRes = "resources" colStQs = "statqueues" colSqp = "statqueue_profiles" ) var ( CGRIDLow = strings.ToLower(utils.CGRID) RunIDLow = strings.ToLower(utils.MEDI_RUNID) OrderIDLow = strings.ToLower(utils.ORDERID) OriginHostLow = strings.ToLower(utils.CDRHOST) OriginIDLow = strings.ToLower(utils.ACCID) ToRLow = strings.ToLower(utils.TOR) CDRHostLow = strings.ToLower(utils.CDRHOST) CDRSourceLow = strings.ToLower(utils.CDRSOURCE) RequestTypeLow = strings.ToLower(utils.REQTYPE) DirectionLow = strings.ToLower(utils.DIRECTION) TenantLow = strings.ToLower(utils.TENANT) CategoryLow = strings.ToLower(utils.CATEGORY) AccountLow = strings.ToLower(utils.ACCOUNT) SubjectLow = strings.ToLower(utils.SUBJECT) SupplierLow = strings.ToLower(utils.SUPPLIER) DisconnectCauseLow = strings.ToLower(utils.DISCONNECT_CAUSE) SetupTimeLow = strings.ToLower(utils.SETUP_TIME) AnswerTimeLow = strings.ToLower(utils.ANSWER_TIME) CreatedAtLow = strings.ToLower(utils.CreatedAt) UpdatedAtLow = strings.ToLower(utils.UpdatedAt) UsageLow = strings.ToLower(utils.USAGE) PDDLow = strings.ToLower(utils.PDD) CostDetailsLow = strings.ToLower(utils.COST_DETAILS) DestinationLow = strings.ToLower(utils.DESTINATION) CostLow = strings.ToLower(utils.COST) ) func NewMongoStorage(host, port, db, user, pass, storageType string, cdrsIndexes []string, cacheCfg config.CacheConfig, loadHistorySize int) (ms *MongoStorage, err error) { url := host if port != "" { url += ":" + port } if user != "" && pass != "" { url = fmt.Sprintf("%s:%s@%s", user, pass, url) } if db != "" { url += "/" + db } session, err := mgo.Dial(url) if err != nil { return nil, err } session.SetMode(mgo.Strong, true) ms = &MongoStorage{db: db, session: session, storageType: storageType, ms: NewCodecMsgpackMarshaler(), cacheCfg: cacheCfg, loadHistorySize: loadHistorySize, cdrsIndexes: cdrsIndexes} if cNames, err := session.DB(ms.db).CollectionNames(); err != nil { return nil, err } else if len(cNames) == 0 { // create indexes only if database is empty if err = ms.EnsureIndexes(); err != nil { return nil, err } } ms.cnter = utils.NewCounter(time.Now().UnixNano(), 0) return } type MongoStorage struct { session *mgo.Session db string storageType string // datadb, stordb ms Marshaler cacheCfg config.CacheConfig loadHistorySize int cdrsIndexes []string cnter *utils.Counter } func (ms *MongoStorage) conn(col string) (*mgo.Session, *mgo.Collection) { sessionCopy := ms.session.Copy() return sessionCopy, sessionCopy.DB(ms.db).C(col) } // EnsureIndexes creates db indexes func (ms *MongoStorage) EnsureIndexes() (err error) { dbSession := ms.session.Copy() defer dbSession.Close() db := dbSession.DB(ms.db) idx := mgo.Index{ Key: []string{"key"}, Unique: true, // Prevent two documents from having the same index key DropDups: false, // Drop documents with the same index key as a previously indexed one Background: false, // Build index in background and return immediately Sparse: false, // Only index documents containing the Key fields } var colectNames []string // collection names containing this index if ms.storageType == utils.DataDB { colectNames = []string{colAct, colApl, colAAp, colAtr, colDcs, colRsP, colRpl, colLcr, colDst, colRds, colAls, colUsr, colLht, colRes} } for _, col := range colectNames { if err = db.C(col).EnsureIndex(idx); err != nil { return } } idx = mgo.Index{ Key: []string{"id"}, Unique: true, DropDups: false, Background: false, Sparse: false, } if ms.storageType == utils.DataDB { colectNames = []string{colRpf, colShg, colCrs, colAcc} } for _, col := range colectNames { if err = db.C(col).EnsureIndex(idx); err != nil { return } } if ms.storageType == utils.StorDB { idx = mgo.Index{ Key: []string{"tpid", "id"}, Unique: true, DropDups: false, Background: false, Sparse: false, } for _, col := range []string{utils.TBLTPTimings, utils.TBLTPDestinations, utils.TBLTPDestinationRates, utils.TBLTPRatingPlans, utils.TBLTPSharedGroups, utils.TBLTPCdrStats, utils.TBLTPActions, utils.TBLTPActionPlans, utils.TBLTPActionTriggers, utils.TBLTPStats, utils.TBLTPResources} { if err = db.C(col).EnsureIndex(idx); err != nil { return } } idx = mgo.Index{ Key: []string{"tpid", "direction", "tenant", "category", "subject", "loadid"}, Unique: true, DropDups: false, Background: false, Sparse: false, } if err = db.C(utils.TBLTPRateProfiles).EnsureIndex(idx); err != nil { return } idx = mgo.Index{ Key: []string{"tpid", "direction", "tenant", "category", "account", "subject"}, Unique: true, DropDups: false, Background: false, Sparse: false, } if err = db.C(utils.TBLTPLcrs).EnsureIndex(idx); err != nil { return } idx = mgo.Index{ Key: []string{"tpid", "tenant", "username"}, Unique: true, DropDups: false, Background: false, Sparse: false, } if err = db.C(utils.TBLTPUsers).EnsureIndex(idx); err != nil { return } idx = mgo.Index{ Key: []string{"tpid", "direction", "tenant", "category", "account", "subject", "context"}, Unique: true, DropDups: false, Background: false, Sparse: false, } if err = db.C(utils.TBLTPLcrs).EnsureIndex(idx); err != nil { return } idx = mgo.Index{ Key: []string{"tpid", "direction", "tenant", "category", "subject", "account", "loadid"}, Unique: true, DropDups: false, Background: false, Sparse: false, } if err = db.C(utils.TBLTPDerivedChargers).EnsureIndex(idx); err != nil { return } idx = mgo.Index{ Key: []string{"tpid", "direction", "tenant", "account", "loadid"}, Unique: true, DropDups: false, Background: false, Sparse: false, } if err = db.C(utils.TBLTPDerivedChargers).EnsureIndex(idx); err != nil { return } idx = mgo.Index{ Key: []string{CGRIDLow, RunIDLow, OriginIDLow}, Unique: true, DropDups: false, Background: false, Sparse: false, } if err = db.C(utils.TBLCDRs).EnsureIndex(idx); err != nil { return } for _, idxKey := range ms.cdrsIndexes { idx = mgo.Index{ Key: []string{idxKey}, Unique: false, DropDups: false, Background: false, Sparse: false, } if err = db.C(utils.TBLCDRs).EnsureIndex(idx); err != nil { return } } idx = mgo.Index{ Key: []string{CGRIDLow, RunIDLow}, Unique: true, DropDups: false, Background: false, Sparse: false, } if err = db.C(utils.TBLSMCosts).EnsureIndex(idx); err != nil { return } idx = mgo.Index{ Key: []string{OriginHostLow, OriginIDLow}, Unique: false, DropDups: false, Background: false, Sparse: false, } if err = db.C(utils.TBLSMCosts).EnsureIndex(idx); err != nil { return } idx = mgo.Index{ Key: []string{RunIDLow, OriginIDLow}, Unique: false, DropDups: false, Background: false, Sparse: false, } if err = db.C(utils.TBLSMCosts).EnsureIndex(idx); err != nil { return } } return } func (ms *MongoStorage) getColNameForPrefix(prefix string) (name string, ok bool) { colMap := map[string]string{ utils.DESTINATION_PREFIX: colDst, utils.REVERSE_DESTINATION_PREFIX: colRds, utils.ACTION_PREFIX: colAct, utils.ACTION_PLAN_PREFIX: colApl, utils.AccountActionPlansPrefix: colAAp, utils.TASKS_KEY: colTsk, utils.ACTION_TRIGGER_PREFIX: colAtr, utils.RATING_PLAN_PREFIX: colRpl, utils.RATING_PROFILE_PREFIX: colRpf, utils.ACCOUNT_PREFIX: colAcc, utils.SHARED_GROUP_PREFIX: colShg, utils.LCR_PREFIX: colLcr, utils.DERIVEDCHARGERS_PREFIX: colDcs, utils.ALIASES_PREFIX: colAls, utils.REVERSE_ALIASES_PREFIX: colRCfgs, utils.PUBSUB_SUBSCRIBERS_PREFIX: colPbs, utils.USERS_PREFIX: colUsr, utils.CDR_STATS_PREFIX: colCrs, utils.LOADINST_KEY: colLht, utils.VERSION_PREFIX: colVer, utils.ResourceProfilesPrefix: colRsP, utils.StatQueuePrefix: colStq, utils.TimingsPrefix: colTmg, utils.ResourcesPrefix: colRes, } name, ok = colMap[prefix] return } func (ms *MongoStorage) Close() { ms.session.Close() } func (ms *MongoStorage) Flush(ignore string) (err error) { dbSession := ms.session.Copy() defer dbSession.Close() return dbSession.DB(ms.db).DropDatabase() } func (ms *MongoStorage) Marshaler() Marshaler { return ms.ms } // DB returnes a database object with cloned session inside func (ms *MongoStorage) DB() *mgo.Database { return ms.session.Copy().DB(ms.db) } func (ms *MongoStorage) SelectDatabase(dbName string) (err error) { ms.db = dbName return } func (ms *MongoStorage) RebuildReverseForPrefix(prefix string) (err error) { if !utils.IsSliceMember([]string{utils.REVERSE_DESTINATION_PREFIX, utils.REVERSE_ALIASES_PREFIX, utils.AccountActionPlansPrefix}, prefix) { return utils.ErrInvalidKey } colName, ok := ms.getColNameForPrefix(prefix) if !ok { return utils.ErrInvalidKey } session, col := ms.conn(colName) defer session.Close() if _, err := col.RemoveAll(bson.M{}); err != nil { return err } var keys []string switch prefix { case utils.REVERSE_DESTINATION_PREFIX: if keys, err = ms.GetKeysForPrefix(utils.DESTINATION_PREFIX); err != nil { return } for _, key := range keys { dest, err := ms.GetDestination(key[len(utils.DESTINATION_PREFIX):], true, utils.NonTransactional) if err != nil { return err } if err = ms.SetReverseDestination(dest, utils.NonTransactional); err != nil { return err } } case utils.REVERSE_ALIASES_PREFIX: if keys, err = ms.GetKeysForPrefix(utils.ALIASES_PREFIX); err != nil { return } for _, key := range keys { al, err := ms.GetAlias(key[len(utils.ALIASES_PREFIX):], true, utils.NonTransactional) if err != nil { return err } if err = ms.SetReverseAlias(al, utils.NonTransactional); err != nil { return err } } case utils.AccountActionPlansPrefix: if keys, err = ms.GetKeysForPrefix(utils.ACTION_PLAN_PREFIX); err != nil { return } for _, key := range keys { apl, err := ms.GetActionPlan(key[len(utils.ACTION_PLAN_PREFIX):], true, utils.NonTransactional) if err != nil { return err } for acntID := range apl.AccountIDs { if err = ms.SetAccountActionPlans(acntID, []string{apl.Id}, false); err != nil { return err } } } } return nil } func (ms *MongoStorage) LoadDataDBCache(dstIDs, rvDstIDs, rplIDs, rpfIDs, actIDs, aplIDs, aaPlIDs, atrgIDs, sgIDs, lcrIDs, dcIDs, alsIDs, rvAlsIDs, rpIDs, resIDs []string) (err error) { for key, ids := range map[string][]string{ utils.DESTINATION_PREFIX: dstIDs, utils.REVERSE_DESTINATION_PREFIX: rvDstIDs, utils.RATING_PLAN_PREFIX: rplIDs, utils.RATING_PROFILE_PREFIX: rpfIDs, utils.ACTION_PREFIX: actIDs, utils.ACTION_PLAN_PREFIX: aplIDs, utils.AccountActionPlansPrefix: aaPlIDs, utils.ACTION_TRIGGER_PREFIX: atrgIDs, utils.SHARED_GROUP_PREFIX: sgIDs, utils.LCR_PREFIX: lcrIDs, utils.DERIVEDCHARGERS_PREFIX: dcIDs, utils.ALIASES_PREFIX: alsIDs, utils.REVERSE_ALIASES_PREFIX: rvAlsIDs, utils.ResourceProfilesPrefix: rpIDs, utils.ResourcesPrefix: resIDs, } { if err = ms.CacheDataFromDB(key, ids, false); err != nil { return } } return } // CacheDataFromDB loads data to cache // prfx represents the cache prefix, ids should be nil if all available data should be loaded // mustBeCached specifies that data needs to be cached in order to be retrieved from db func (ms *MongoStorage) CacheDataFromDB(prfx string, ids []string, mustBeCached bool) (err error) { if !utils.IsSliceMember([]string{utils.DESTINATION_PREFIX, utils.REVERSE_DESTINATION_PREFIX, utils.RATING_PLAN_PREFIX, utils.RATING_PROFILE_PREFIX, utils.ACTION_PREFIX, utils.ACTION_PLAN_PREFIX, utils.AccountActionPlansPrefix, utils.ACTION_TRIGGER_PREFIX, utils.SHARED_GROUP_PREFIX, utils.DERIVEDCHARGERS_PREFIX, utils.LCR_PREFIX, utils.ALIASES_PREFIX, utils.REVERSE_ALIASES_PREFIX, utils.ResourceProfilesPrefix, utils.TimingsPrefix, utils.ResourcesPrefix}, prfx) { return utils.NewCGRError(utils.MONGO, utils.MandatoryIEMissingCaps, utils.UnsupportedCachePrefix, fmt.Sprintf("prefix <%s> is not a supported cache prefix", prfx)) } if ids == nil { keyIDs, err := ms.GetKeysForPrefix(prfx) if err != nil { return utils.NewCGRError(utils.MONGO, utils.ServerErrorCaps, err.Error(), fmt.Sprintf("mongo error <%s> querying keys for prefix: <%s>", prfx)) } for _, keyID := range keyIDs { if mustBeCached { // Only consider loading ids which are already in cache if _, hasIt := cache.Get(keyID); !hasIt { continue } } ids = append(ids, keyID[len(prfx):]) } var nrItems int if cCfg, has := ms.cacheCfg[utils.CachePrefixToInstance[prfx]]; has { nrItems = cCfg.Limit } if nrItems > 0 && nrItems < len(ids) { // More ids than cache config allows it, limit here ids = ids[:nrItems] } } for _, dataID := range ids { if mustBeCached { if _, hasIt := cache.Get(prfx + dataID); !hasIt { // only cache if previously there continue } } switch prfx { case utils.DESTINATION_PREFIX: _, err = ms.GetDestination(dataID, true, utils.NonTransactional) case utils.REVERSE_DESTINATION_PREFIX: _, err = ms.GetReverseDestination(dataID, true, utils.NonTransactional) case utils.RATING_PLAN_PREFIX: _, err = ms.GetRatingPlan(dataID, true, utils.NonTransactional) case utils.RATING_PROFILE_PREFIX: _, err = ms.GetRatingProfile(dataID, true, utils.NonTransactional) case utils.ACTION_PREFIX: _, err = ms.GetActions(dataID, true, utils.NonTransactional) case utils.ACTION_PLAN_PREFIX: _, err = ms.GetActionPlan(dataID, true, utils.NonTransactional) case utils.AccountActionPlansPrefix: _, err = ms.GetAccountActionPlans(dataID, true, utils.NonTransactional) case utils.ACTION_TRIGGER_PREFIX: _, err = ms.GetActionTriggers(dataID, true, utils.NonTransactional) case utils.SHARED_GROUP_PREFIX: _, err = ms.GetSharedGroup(dataID, true, utils.NonTransactional) case utils.DERIVEDCHARGERS_PREFIX: _, err = ms.GetDerivedChargers(dataID, true, utils.NonTransactional) case utils.LCR_PREFIX: _, err = ms.GetLCR(dataID, true, utils.NonTransactional) case utils.ALIASES_PREFIX: _, err = ms.GetAlias(dataID, true, utils.NonTransactional) case utils.REVERSE_ALIASES_PREFIX: _, err = ms.GetReverseAlias(dataID, true, utils.NonTransactional) case utils.ResourceProfilesPrefix: tntID := utils.NewTenantID(dataID) _, err = ms.GetResourceProfile(tntID.Tenant, tntID.ID, true, utils.NonTransactional) case utils.ResourcesPrefix: tntID := utils.NewTenantID(dataID) _, err = ms.GetResource(tntID.Tenant, tntID.ID, true, utils.NonTransactional) case utils.TimingsPrefix: _, err = ms.GetTiming(dataID, true, utils.NonTransactional) } if err != nil { return utils.NewCGRError(utils.MONGO, utils.ServerErrorCaps, err.Error(), fmt.Sprintf("error <%s> querying mongo for category: <%s>, dataID: <%s>", prfx, dataID)) } } return } func (ms *MongoStorage) GetKeysForPrefix(prefix string) (result []string, err error) { var category, subject string keyLen := len(utils.DESTINATION_PREFIX) if len(prefix) < keyLen { return nil, fmt.Errorf("unsupported prefix in GetKeysForPrefix: %s", prefix) } category = prefix[:keyLen] // prefix lenght subject = fmt.Sprintf("^%s", prefix[keyLen:]) session := ms.session.Copy() defer session.Close() db := session.DB(ms.db) keyResult := struct{ Key string }{} idResult := struct{ Tenant, Id string }{} switch category { case utils.DESTINATION_PREFIX: iter := db.C(colDst).Find(bson.M{"key": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"key": 1}).Iter() for iter.Next(&keyResult) { result = append(result, utils.DESTINATION_PREFIX+keyResult.Key) } case utils.REVERSE_DESTINATION_PREFIX: iter := db.C(colRds).Find(bson.M{"key": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"key": 1}).Iter() for iter.Next(&keyResult) { result = append(result, utils.REVERSE_DESTINATION_PREFIX+keyResult.Key) } case utils.RATING_PLAN_PREFIX: iter := db.C(colRpl).Find(bson.M{"key": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"key": 1}).Iter() for iter.Next(&keyResult) { result = append(result, utils.RATING_PLAN_PREFIX+keyResult.Key) } case utils.RATING_PROFILE_PREFIX: iter := db.C(colRpf).Find(bson.M{"id": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"id": 1}).Iter() for iter.Next(&idResult) { result = append(result, utils.RATING_PROFILE_PREFIX+idResult.Id) } case utils.ACTION_PREFIX: iter := db.C(colAct).Find(bson.M{"key": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"key": 1}).Iter() for iter.Next(&keyResult) { result = append(result, utils.ACTION_PREFIX+keyResult.Key) } case utils.ACTION_PLAN_PREFIX: iter := db.C(colApl).Find(bson.M{"key": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"key": 1}).Iter() for iter.Next(&keyResult) { result = append(result, utils.ACTION_PLAN_PREFIX+keyResult.Key) } case utils.ACTION_TRIGGER_PREFIX: iter := db.C(colAtr).Find(bson.M{"key": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"key": 1}).Iter() for iter.Next(&keyResult) { result = append(result, utils.ACTION_TRIGGER_PREFIX+keyResult.Key) } case utils.SHARED_GROUP_PREFIX: iter := db.C(colShg).Find(bson.M{"id": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"id": 1}).Iter() for iter.Next(&idResult) { result = append(result, utils.SHARED_GROUP_PREFIX+idResult.Id) } case utils.DERIVEDCHARGERS_PREFIX: iter := db.C(colDcs).Find(bson.M{"key": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"key": 1}).Iter() for iter.Next(&keyResult) { result = append(result, utils.DERIVEDCHARGERS_PREFIX+keyResult.Key) } case utils.LCR_PREFIX: iter := db.C(colLcr).Find(bson.M{"key": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"key": 1}).Iter() for iter.Next(&keyResult) { result = append(result, utils.LCR_PREFIX+keyResult.Key) } case utils.ACCOUNT_PREFIX: iter := db.C(colAcc).Find(bson.M{"id": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"id": 1}).Iter() for iter.Next(&idResult) { result = append(result, utils.ACCOUNT_PREFIX+idResult.Id) } case utils.ALIASES_PREFIX: iter := db.C(colAls).Find(bson.M{"key": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"key": 1}).Iter() for iter.Next(&keyResult) { result = append(result, utils.ALIASES_PREFIX+keyResult.Key) } case utils.REVERSE_ALIASES_PREFIX: iter := db.C(colRCfgs).Find(bson.M{"key": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"key": 1}).Iter() for iter.Next(&keyResult) { result = append(result, utils.REVERSE_ALIASES_PREFIX+keyResult.Key) } case utils.ResourceProfilesPrefix: iter := db.C(colRsP).Find(bson.M{"id": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"tenant": 1, "id": 1}).Iter() for iter.Next(&idResult) { result = append(result, utils.ResourceProfilesPrefix+utils.ConcatenatedKey(idResult.Tenant, idResult.Id)) } case utils.ResourcesPrefix: iter := db.C(colRes).Find(bson.M{"id": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"tenant": 1, "id": 1}).Iter() for iter.Next(&idResult) { result = append(result, utils.ResourcesPrefix+utils.ConcatenatedKey(idResult.Tenant, idResult.Id)) } case utils.StatQueuePrefix: // used with CDRStatS iter := db.C(colStq).Find(bson.M{"id": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"id": 1}).Iter() for iter.Next(&idResult) { result = append(result, utils.StatQueuePrefix+idResult.Id) } case utils.StatQueueProfilePrefix: iter := db.C(colSqp).Find(bson.M{"id": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"tenant": 1, "id": 1}).Iter() for iter.Next(&idResult) { result = append(result, utils.StatQueueProfilePrefix+utils.ConcatenatedKey(idResult.Tenant, idResult.Id)) } case utils.AccountActionPlansPrefix: iter := db.C(colAAp).Find(bson.M{"id": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"id": 1}).Iter() for iter.Next(&idResult) { result = append(result, utils.AccountActionPlansPrefix+idResult.Id) } case utils.TimingsPrefix: iter := db.C(colTmg).Find(bson.M{"id": bson.M{"$regex": bson.RegEx{Pattern: subject}}}).Select(bson.M{"id": 1}).Iter() for iter.Next(&idResult) { result = append(result, utils.TimingsPrefix+idResult.Id) } default: err = fmt.Errorf("unsupported prefix in GetKeysForPrefix: %s", prefix) } return } func (ms *MongoStorage) HasData(category, subject string) (has bool, err error) { session := ms.session.Copy() defer session.Close() db := session.DB(ms.db) var count int switch category { case utils.DESTINATION_PREFIX: count, err = db.C(colDst).Find(bson.M{"key": subject}).Count() has = count > 0 case utils.RATING_PLAN_PREFIX: count, err = db.C(colRpl).Find(bson.M{"key": subject}).Count() has = count > 0 case utils.RATING_PROFILE_PREFIX: count, err = db.C(colRpf).Find(bson.M{"id": subject}).Count() has = count > 0 case utils.ACTION_PREFIX: count, err = db.C(colAct).Find(bson.M{"key": subject}).Count() has = count > 0 case utils.ACTION_PLAN_PREFIX: count, err = db.C(colApl).Find(bson.M{"key": subject}).Count() has = count > 0 case utils.ACCOUNT_PREFIX: count, err = db.C(colAcc).Find(bson.M{"id": subject}).Count() has = count > 0 case utils.ResourcesPrefix: count, err = db.C(colRes).Find(bson.M{"id": subject}).Count() has = count > 0 case utils.StatQueuePrefix: count, err = db.C(colRes).Find(bson.M{"id": subject}).Count() has = count > 0 default: err = fmt.Errorf("unsupported category in HasData: %s", category) } return } func (ms *MongoStorage) GetRatingPlan(key string, skipCache bool, transactionID string) (rp *RatingPlan, err error) { cacheKey := utils.RATING_PLAN_PREFIX + key if !skipCache { if x, ok := cache.Get(cacheKey); ok { if x == nil { return nil, utils.ErrNotFound } return x.(*RatingPlan), nil } } rp = new(RatingPlan) var kv struct { Key string Value []byte } session, col := ms.conn(colRpl) defer session.Close() if err = col.Find(bson.M{"key": key}).One(&kv); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cacheCommit(transactionID), transactionID) err = utils.ErrNotFound } return nil, err } b := bytes.NewBuffer(kv.Value) r, err := zlib.NewReader(b) if err != nil { return nil, err } out, err := ioutil.ReadAll(r) if err != nil { return nil, err } r.Close() if err = ms.ms.Unmarshal(out, &rp); err != nil { return nil, err } cache.Set(cacheKey, rp, cacheCommit(transactionID), transactionID) return } func (ms *MongoStorage) SetRatingPlan(rp *RatingPlan, transactionID string) error { result, err := ms.ms.Marshal(rp) if err != nil { return err } var b bytes.Buffer w := zlib.NewWriter(&b) w.Write(result) w.Close() session, col := ms.conn(colRpl) defer session.Close() _, err = col.Upsert(bson.M{"key": rp.Id}, &struct { Key string Value []byte }{Key: rp.Id, Value: b.Bytes()}) if err == nil && historyScribe != nil { var response int historyScribe.Call("HistoryV1.Record", rp.GetHistoryRecord(), &response) } return err } func (ms *MongoStorage) GetRatingProfile(key string, skipCache bool, transactionID string) (rp *RatingProfile, err error) { cacheKey := utils.RATING_PROFILE_PREFIX + key if !skipCache { if x, ok := cache.Get(cacheKey); ok { if x == nil { return nil, utils.ErrNotFound } return x.(*RatingProfile), nil } } session, col := ms.conn(colRpf) defer session.Close() rp = new(RatingProfile) if err = col.Find(bson.M{"id": key}).One(rp); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cacheCommit(transactionID), transactionID) err = utils.ErrNotFound } return nil, err // Make sure we don't return new object on error } cache.Set(cacheKey, rp, cacheCommit(transactionID), transactionID) return } func (ms *MongoStorage) SetRatingProfile(rp *RatingProfile, transactionID string) (err error) { session, col := ms.conn(colRpf) defer session.Close() if _, err = col.Upsert(bson.M{"id": rp.Id}, rp); err != nil { return } if historyScribe != nil { var response int historyScribe.Call("HistoryV1.Record", rp.GetHistoryRecord(false), &response) } return } func (ms *MongoStorage) RemoveRatingProfile(key, transactionID string) error { session, col := ms.conn(colRpf) defer session.Close() iter := col.Find(bson.M{"id": key}).Select(bson.M{"id": 1}).Iter() var result struct{ Id string } for iter.Next(&result) { if err := col.Remove(bson.M{"id": result.Id}); err != nil { return err } cache.RemKey(utils.RATING_PROFILE_PREFIX+key, cacheCommit(transactionID), transactionID) rpf := &RatingProfile{Id: result.Id} if historyScribe != nil { var response int go historyScribe.Call("HistoryV1.Record", rpf.GetHistoryRecord(true), &response) } } return iter.Close() } func (ms *MongoStorage) GetLCR(key string, skipCache bool, transactionID string) (lcr *LCR, err error) { cacheKey := utils.LCR_PREFIX + key if !skipCache { if x, ok := cache.Get(cacheKey); ok { if x == nil { return nil, utils.ErrNotFound } return x.(*LCR), nil } } var result struct { Key string Value *LCR } session, col := ms.conn(colLcr) defer session.Close() cCommit := cacheCommit(transactionID) if err = col.Find(bson.M{"key": key}).One(&result); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cCommit, transactionID) err = utils.ErrNotFound } return nil, err } lcr = result.Value cache.Set(cacheKey, lcr, cCommit, transactionID) return } func (ms *MongoStorage) SetLCR(lcr *LCR, transactionID string) (err error) { session, col := ms.conn(colLcr) defer session.Close() if _, err = col.Upsert(bson.M{"key": lcr.GetId()}, &struct { Key string Value *LCR }{lcr.GetId(), lcr}); err != nil { return } return } func (ms *MongoStorage) GetDestination(key string, skipCache bool, transactionID string) (result *Destination, err error) { cacheKey := utils.DESTINATION_PREFIX + key if !skipCache { if x, ok := cache.Get(cacheKey); ok { if x == nil { return nil, utils.ErrNotFound } return x.(*Destination), nil } } var kv struct { Key string Value []byte } session, col := ms.conn(colDst) defer session.Close() if err = col.Find(bson.M{"key": key}).One(&kv); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cacheCommit(transactionID), transactionID) err = utils.ErrNotFound } return } b := bytes.NewBuffer(kv.Value) r, err := zlib.NewReader(b) if err != nil { return nil, err } out, err := ioutil.ReadAll(r) if err != nil { return nil, err } r.Close() err = ms.ms.Unmarshal(out, &result) if err != nil { return nil, err } cache.Set(cacheKey, result, cacheCommit(transactionID), transactionID) return } func (ms *MongoStorage) SetDestination(dest *Destination, transactionID string) (err error) { result, err := ms.ms.Marshal(dest) if err != nil { return err } var b bytes.Buffer w := zlib.NewWriter(&b) w.Write(result) w.Close() session, col := ms.conn(colDst) defer session.Close() if _, err = col.Upsert(bson.M{"key": dest.Id}, &struct { Key string Value []byte }{Key: dest.Id, Value: b.Bytes()}); err != nil { return } if historyScribe != nil { var response int historyScribe.Call("HistoryV1.Record", dest.GetHistoryRecord(false), &response) } return } func (ms *MongoStorage) GetReverseDestination(prefix string, skipCache bool, transactionID string) (ids []string, err error) { cacheKey := utils.REVERSE_DESTINATION_PREFIX + prefix if !skipCache { if x, ok := cache.Get(cacheKey); ok { if x == nil { return nil, utils.ErrNotFound } return x.([]string), nil } } var result struct { Key string Value []string } session, col := ms.conn(colRds) defer session.Close() if err = col.Find(bson.M{"key": prefix}).One(&result); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cacheCommit(transactionID), transactionID) err = utils.ErrNotFound } return } ids = result.Value cache.Set(cacheKey, ids, cacheCommit(transactionID), transactionID) return } func (ms *MongoStorage) SetReverseDestination(dest *Destination, transactionID string) (err error) { session, col := ms.conn(colRds) defer session.Close() for _, p := range dest.Prefixes { if _, err = col.Upsert(bson.M{"key": p}, bson.M{"$addToSet": bson.M{"value": dest.Id}}); err != nil { break } } return } func (ms *MongoStorage) RemoveDestination(destID string, transactionID string) (err error) { session, col := ms.conn(colDst) key := utils.DESTINATION_PREFIX + destID // get destination for prefix list d, err := ms.GetDestination(destID, false, transactionID) if err != nil { if err == mgo.ErrNotFound { err = nil } return } err = col.Remove(bson.M{"key": destID}) if err != nil { return err } cache.RemKey(key, cacheCommit(transactionID), transactionID) session.Close() session, col = ms.conn(colRds) defer session.Close() for _, prefix := range d.Prefixes { err = col.Update(bson.M{"key": prefix}, bson.M{"$pull": bson.M{"value": destID}}) if err != nil { return err } ms.GetReverseDestination(prefix, true, transactionID) // it will recache the destination } return } func (ms *MongoStorage) UpdateReverseDestination(oldDest, newDest *Destination, transactionID string) error { session, col := ms.conn(colRds) defer session.Close() //log.Printf("Old: %+v, New: %+v", oldDest, newDest) var obsoletePrefixes []string var addedPrefixes []string var found bool if oldDest == nil { oldDest = new(Destination) // so we can process prefixes } for _, oldPrefix := range oldDest.Prefixes { found = false for _, newPrefix := range newDest.Prefixes { if oldPrefix == newPrefix { found = true break } } if !found { obsoletePrefixes = append(obsoletePrefixes, oldPrefix) } } for _, newPrefix := range newDest.Prefixes { found = false for _, oldPrefix := range oldDest.Prefixes { if newPrefix == oldPrefix { found = true break } } if !found { addedPrefixes = append(addedPrefixes, newPrefix) } } //log.Print("Obsolete prefixes: ", obsoletePrefixes) //log.Print("Added prefixes: ", addedPrefixes) // remove id for all obsolete prefixes cCommit := cacheCommit(transactionID) var err error for _, obsoletePrefix := range obsoletePrefixes { err = col.Update(bson.M{"key": obsoletePrefix}, bson.M{"$pull": bson.M{"value": oldDest.Id}}) if err != nil { return err } cache.RemKey(utils.REVERSE_DESTINATION_PREFIX+obsoletePrefix, cCommit, transactionID) } // add the id to all new prefixes for _, addedPrefix := range addedPrefixes { _, err = col.Upsert(bson.M{"key": addedPrefix}, bson.M{"$addToSet": bson.M{"value": newDest.Id}}) if err != nil { return err } } return nil } func (ms *MongoStorage) GetActions(key string, skipCache bool, transactionID string) (as Actions, err error) { cacheKey := utils.ACTION_PREFIX + key if !skipCache { if x, err := cache.GetCloned(cacheKey); err != nil { if err.Error() != utils.ItemNotFound { return nil, err } } else if x == nil { return nil, utils.ErrNotFound } else { return x.(Actions), nil } } var result struct { Key string Value Actions } session, col := ms.conn(colAct) defer session.Close() if err = col.Find(bson.M{"key": key}).One(&result); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cacheCommit(transactionID), transactionID) err = utils.ErrNotFound } return nil, err } as = result.Value cache.Set(utils.ACTION_PREFIX+key, as, cacheCommit(transactionID), transactionID) return } func (ms *MongoStorage) SetActions(key string, as Actions, transactionID string) error { session, col := ms.conn(colAct) defer session.Close() _, err := col.Upsert(bson.M{"key": key}, &struct { Key string Value Actions }{Key: key, Value: as}) return err } func (ms *MongoStorage) RemoveActions(key string, transactionID string) error { session, col := ms.conn(colAct) defer session.Close() err := col.Remove(bson.M{"key": key}) cache.RemKey(utils.ACTION_PREFIX+key, cacheCommit(transactionID), transactionID) return err } func (ms *MongoStorage) GetSharedGroup(key string, skipCache bool, transactionID string) (sg *SharedGroup, err error) { cacheKey := utils.SHARED_GROUP_PREFIX + key if !skipCache { if x, ok := cache.Get(cacheKey); ok { if x == nil { return nil, utils.ErrNotFound } return x.(*SharedGroup), nil } } session, col := ms.conn(colShg) defer session.Close() sg = new(SharedGroup) if err = col.Find(bson.M{"id": key}).One(sg); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cacheCommit(transactionID), transactionID) err = utils.ErrNotFound } return nil, err } cache.Set(cacheKey, sg, cacheCommit(transactionID), transactionID) return } func (ms *MongoStorage) SetSharedGroup(sg *SharedGroup, transactionID string) (err error) { session, col := ms.conn(colShg) defer session.Close() if _, err = col.Upsert(bson.M{"id": sg.Id}, sg); err != nil { return } return } func (ms *MongoStorage) GetAccount(key string) (result *Account, err error) { result = new(Account) session, col := ms.conn(colAcc) defer session.Close() err = col.Find(bson.M{"id": key}).One(result) if err == mgo.ErrNotFound { err = utils.ErrNotFound result = nil } return } func (ms *MongoStorage) SetAccount(acc *Account) error { // never override existing account with an empty one // UPDATE: if all balances expired and were cleaned it makes // sense to write empty balance map if len(acc.BalanceMap) == 0 { if ac, err := ms.GetAccount(acc.ID); err == nil && !ac.allBalancesExpired() { ac.ActionTriggers = acc.ActionTriggers ac.UnitCounters = acc.UnitCounters ac.AllowNegative = acc.AllowNegative ac.Disabled = acc.Disabled acc = ac } } session, col := ms.conn(colAcc) defer session.Close() _, err := col.Upsert(bson.M{"id": acc.ID}, acc) return err } func (ms *MongoStorage) RemoveAccount(key string) error { session, col := ms.conn(colAcc) defer session.Close() return col.Remove(bson.M{"id": key}) } func (ms *MongoStorage) GetCdrStatsQueue(key string) (sq *CDRStatsQueue, err error) { var result struct { Key string Value *CDRStatsQueue } session, col := ms.conn(colStq) defer session.Close() if err = col.Find(bson.M{"key": key}).One(&result); err != nil { if err == mgo.ErrNotFound { err = utils.ErrNotFound } return nil, err } sq = result.Value return } func (ms *MongoStorage) SetCdrStatsQueue(sq *CDRStatsQueue) (err error) { session, col := ms.conn(colStq) defer session.Close() _, err = col.Upsert(bson.M{"key": sq.GetId()}, &struct { Key string Value *CDRStatsQueue }{Key: sq.GetId(), Value: sq}) return } func (ms *MongoStorage) GetSubscribers() (result map[string]*SubscriberData, err error) { session, col := ms.conn(colPbs) defer session.Close() iter := col.Find(nil).Iter() result = make(map[string]*SubscriberData) var kv struct { Key string Value *SubscriberData } for iter.Next(&kv) { result[kv.Key] = kv.Value } err = iter.Close() return } func (ms *MongoStorage) SetSubscriber(key string, sub *SubscriberData) (err error) { session, col := ms.conn(colPbs) defer session.Close() _, err = col.Upsert(bson.M{"key": key}, &struct { Key string Value *SubscriberData }{Key: key, Value: sub}) return err } func (ms *MongoStorage) RemoveSubscriber(key string) (err error) { session, col := ms.conn(colPbs) defer session.Close() return col.Remove(bson.M{"key": key}) } func (ms *MongoStorage) SetUser(up *UserProfile) (err error) { session, col := ms.conn(colUsr) defer session.Close() _, err = col.Upsert(bson.M{"key": up.GetId()}, &struct { Key string Value *UserProfile }{Key: up.GetId(), Value: up}) return err } func (ms *MongoStorage) GetUser(key string) (up *UserProfile, err error) { var kv struct { Key string Value *UserProfile } session, col := ms.conn(colUsr) defer session.Close() if err = col.Find(bson.M{"key": key}).One(&kv); err != nil { if err == mgo.ErrNotFound { err = utils.ErrNotFound } return nil, err } up = kv.Value return } func (ms *MongoStorage) GetUsers() (result []*UserProfile, err error) { session, col := ms.conn(colUsr) defer session.Close() iter := col.Find(nil).Iter() var kv struct { Key string Value *UserProfile } for iter.Next(&kv) { result = append(result, kv.Value) } err = iter.Close() return } func (ms *MongoStorage) RemoveUser(key string) (err error) { session, col := ms.conn(colUsr) defer session.Close() return col.Remove(bson.M{"key": key}) } func (ms *MongoStorage) GetAlias(key string, skipCache bool, transactionID string) (al *Alias, err error) { cacheKey := utils.ALIASES_PREFIX + key if !skipCache { if x, ok := cache.Get(cacheKey); ok { if x == nil { return nil, utils.ErrNotFound } al = x.(*Alias) return } } var kv struct { Key string Value AliasValues } session, col := ms.conn(colAls) defer session.Close() cCommit := cacheCommit(transactionID) if err = col.Find(bson.M{"key": key}).One(&kv); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cacheCommit(transactionID), transactionID) err = utils.ErrNotFound } return } al = &Alias{Values: kv.Value} al.SetId(key) cache.Set(cacheKey, al, cCommit, transactionID) return } func (ms *MongoStorage) SetAlias(al *Alias, transactionID string) (err error) { session, col := ms.conn(colAls) defer session.Close() if _, err = col.Upsert(bson.M{"key": al.GetId()}, &struct { Key string Value AliasValues }{Key: al.GetId(), Value: al.Values}); err != nil { return } return err } func (ms *MongoStorage) GetReverseAlias(reverseID string, skipCache bool, transactionID string) (ids []string, err error) { cacheKey := utils.REVERSE_ALIASES_PREFIX + reverseID if !skipCache { if x, ok := cache.Get(cacheKey); ok { if x == nil { return nil, utils.ErrNotFound } return x.([]string), nil } } var result struct { Key string Value []string } session, col := ms.conn(colRCfgs) defer session.Close() if err = col.Find(bson.M{"key": reverseID}).One(&result); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cacheCommit(transactionID), transactionID) err = utils.ErrNotFound } return } ids = result.Value cache.Set(cacheKey, ids, cacheCommit(transactionID), transactionID) return } func (ms *MongoStorage) SetReverseAlias(al *Alias, transactionID string) (err error) { session, col := ms.conn(colRCfgs) defer session.Close() for _, value := range al.Values { for target, pairs := range value.Pairs { for _, alias := range pairs { rKey := strings.Join([]string{alias, target, al.Context}, "") id := utils.ConcatenatedKey(al.GetId(), value.DestinationId) if _, err = col.Upsert(bson.M{"key": rKey}, bson.M{"$addToSet": bson.M{"value": id}}); err != nil { break } } } } return } func (ms *MongoStorage) RemoveAlias(key, transactionID string) (err error) { al := &Alias{} al.SetId(key) origKey := key key = utils.ALIASES_PREFIX + key var kv struct { Key string Value AliasValues } session, col := ms.conn(colAls) if err := col.Find(bson.M{"key": origKey}).One(&kv); err != nil { if err == mgo.ErrNotFound { err = nil } return err } al.Values = kv.Value if err = col.Remove(bson.M{"key": origKey}); err != nil { return } cCommit := cacheCommit(transactionID) cache.RemKey(key, cCommit, transactionID) session.Close() session, col = ms.conn(colRCfgs) defer session.Close() for _, value := range al.Values { tmpKey := utils.ConcatenatedKey(al.GetId(), value.DestinationId) for target, pairs := range value.Pairs { for _, alias := range pairs { rKey := alias + target + al.Context if err = col.Update(bson.M{"key": rKey}, bson.M{"$pull": bson.M{"value": tmpKey}}); err != nil { if err == mgo.ErrNotFound { err = nil // cancel the error not to be propagated with return bellow } else { return err } } cache.RemKey(utils.REVERSE_ALIASES_PREFIX+rKey, cCommit, transactionID) } } } return } // Limit will only retrieve the last n items out of history, newest first func (ms *MongoStorage) GetLoadHistory(limit int, skipCache bool, transactionID string) (loadInsts []*utils.LoadInstance, err error) { if limit == 0 { return nil, nil } if !skipCache { if x, ok := cache.Get(utils.LOADINST_KEY); ok { if x != nil { items := x.([]*utils.LoadInstance) if len(items) < limit || limit == -1 { return items, nil } return items[:limit], nil } return nil, utils.ErrNotFound } } var kv struct { Key string Value []*utils.LoadInstance } session, col := ms.conn(colLht) defer session.Close() err = col.Find(bson.M{"key": utils.LOADINST_KEY}).One(&kv) cCommit := cacheCommit(transactionID) if err == nil { loadInsts = kv.Value cache.RemKey(utils.LOADINST_KEY, cCommit, transactionID) cache.Set(utils.LOADINST_KEY, loadInsts, cCommit, transactionID) } if len(loadInsts) < limit || limit == -1 { return loadInsts, nil } return loadInsts[:limit], nil } // Adds a single load instance to load history func (ms *MongoStorage) AddLoadHistory(ldInst *utils.LoadInstance, loadHistSize int, transactionID string) error { if loadHistSize == 0 { // Load history disabled return nil } // get existing load history var existingLoadHistory []*utils.LoadInstance var kv struct { Key string Value []*utils.LoadInstance } session, col := ms.conn(colLht) defer session.Close() err := col.Find(bson.M{"key": utils.LOADINST_KEY}).One(&kv) if err != nil && err != mgo.ErrNotFound { return err } else { if kv.Value != nil { existingLoadHistory = kv.Value } } _, err = guardian.Guardian.Guard(func() (interface{}, error) { // Make sure we do it locked since other instance can modify history while we read it // insert on first position existingLoadHistory = append(existingLoadHistory, nil) copy(existingLoadHistory[1:], existingLoadHistory[0:]) existingLoadHistory[0] = ldInst //check length histLen := len(existingLoadHistory) if histLen >= loadHistSize { // Have hit maximum history allowed, remove oldest element in order to add new one existingLoadHistory = existingLoadHistory[:loadHistSize] } session, col := ms.conn(colLht) defer session.Close() _, err = col.Upsert(bson.M{"key": utils.LOADINST_KEY}, &struct { Key string Value []*utils.LoadInstance }{Key: utils.LOADINST_KEY, Value: existingLoadHistory}) return nil, err }, 0, utils.LOADINST_KEY) cache.RemKey(utils.LOADINST_KEY, cacheCommit(transactionID), transactionID) return err } func (ms *MongoStorage) GetActionTriggers(key string, skipCache bool, transactionID string) (atrs ActionTriggers, err error) { cacheKey := utils.ACTION_TRIGGER_PREFIX + key if !skipCache { if x, ok := cache.Get(cacheKey); ok { if x != nil { return x.(ActionTriggers), nil } return nil, utils.ErrNotFound } } var kv struct { Key string Value ActionTriggers } session, col := ms.conn(colAtr) defer session.Close() if err = col.Find(bson.M{"key": key}).One(&kv); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cacheCommit(transactionID), transactionID) err = utils.ErrNotFound } return } atrs = kv.Value cache.Set(cacheKey, atrs, cacheCommit(transactionID), transactionID) return } func (ms *MongoStorage) SetActionTriggers(key string, atrs ActionTriggers, transactionID string) (err error) { session, col := ms.conn(colAtr) defer session.Close() if len(atrs) == 0 { err = col.Remove(bson.M{"key": key}) if err == mgo.ErrNotFound { // Overwrite not found since it is not really mandatory here to be returned err = nil } return } _, err = col.Upsert(bson.M{"key": key}, &struct { Key string Value ActionTriggers }{Key: key, Value: atrs}) return err } func (ms *MongoStorage) RemoveActionTriggers(key string, transactionID string) error { session, col := ms.conn(colAtr) defer session.Close() err := col.Remove(bson.M{"key": key}) if err == nil { cache.RemKey(key, cacheCommit(transactionID), transactionID) } return err } func (ms *MongoStorage) GetActionPlan(key string, skipCache bool, transactionID string) (ats *ActionPlan, err error) { cacheKey := utils.ACTION_PLAN_PREFIX + key if !skipCache { if x, err := cache.GetCloned(cacheKey); err != nil { if err.Error() != utils.ItemNotFound { // Only consider cache if item was found return nil, err } } else if x == nil { // item was placed nil in cache return nil, utils.ErrNotFound } else { return x.(*ActionPlan), nil } } var kv struct { Key string Value []byte } session, col := ms.conn(colApl) defer session.Close() if err = col.Find(bson.M{"key": key}).One(&kv); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cacheCommit(transactionID), transactionID) err = utils.ErrNotFound } return nil, err } b := bytes.NewBuffer(kv.Value) r, err := zlib.NewReader(b) if err != nil { return nil, err } out, err := ioutil.ReadAll(r) if err != nil { return nil, err } r.Close() if err = ms.ms.Unmarshal(out, &ats); err != nil { return nil, err } cache.Set(cacheKey, ats, cacheCommit(transactionID), transactionID) return } func (ms *MongoStorage) SetActionPlan(key string, ats *ActionPlan, overwrite bool, transactionID string) (err error) { session, col := ms.conn(colApl) defer session.Close() dbKey := utils.ACTION_PLAN_PREFIX + key // clean dots from account ids map cCommit := cacheCommit(transactionID) if len(ats.ActionTimings) == 0 { cache.RemKey(dbKey, cCommit, transactionID) if err = col.Remove(bson.M{"key": key}); err != nil && err == mgo.ErrNotFound { err = nil // NotFound is good } return } if !overwrite { // get existing action plan to merge the account ids if existingAts, _ := ms.GetActionPlan(key, true, transactionID); existingAts != nil { if ats.AccountIDs == nil && len(existingAts.AccountIDs) > 0 { ats.AccountIDs = make(utils.StringMap) } for accID := range existingAts.AccountIDs { ats.AccountIDs[accID] = true } } } result, err := ms.ms.Marshal(ats) if err != nil { return err } var b bytes.Buffer w := zlib.NewWriter(&b) w.Write(result) w.Close() if _, err = col.Upsert(bson.M{"key": key}, &struct { Key string Value []byte }{Key: key, Value: b.Bytes()}); err != nil { return } return err } func (ms *MongoStorage) GetAllActionPlans() (ats map[string]*ActionPlan, err error) { keys, err := ms.GetKeysForPrefix(utils.ACTION_PLAN_PREFIX) if err != nil { return nil, err } ats = make(map[string]*ActionPlan, len(keys)) for _, key := range keys { ap, err := ms.GetActionPlan(key[len(utils.ACTION_PLAN_PREFIX):], false, utils.NonTransactional) if err != nil { return nil, err } ats[key[len(utils.ACTION_PLAN_PREFIX):]] = ap } return } func (ms *MongoStorage) GetAccountActionPlans(acntID string, skipCache bool, transactionID string) (aPlIDs []string, err error) { cacheKey := utils.AccountActionPlansPrefix + acntID if !skipCache { if x, ok := cache.Get(cacheKey); ok { if x == nil { return nil, utils.ErrNotFound } return x.([]string), nil } } session, col := ms.conn(colAAp) defer session.Close() var kv struct { Key string Value []string } if err = col.Find(bson.M{"key": acntID}).One(&kv); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cacheCommit(transactionID), transactionID) err = utils.ErrNotFound } return } aPlIDs = kv.Value cache.Set(cacheKey, aPlIDs, cacheCommit(transactionID), transactionID) return } func (ms *MongoStorage) SetAccountActionPlans(acntID string, aPlIDs []string, overwrite bool) (err error) { session, col := ms.conn(colAAp) defer session.Close() if !overwrite { if oldaPlIDs, err := ms.GetAccountActionPlans(acntID, false, utils.NonTransactional); err != nil && err != utils.ErrNotFound { return err } else { for _, oldAPid := range oldaPlIDs { if !utils.IsSliceMember(aPlIDs, oldAPid) { aPlIDs = append(aPlIDs, oldAPid) } } } } _, err = col.Upsert(bson.M{"key": acntID}, &struct { Key string Value []string }{Key: acntID, Value: aPlIDs}) return } func (ms *MongoStorage) RemAccountActionPlans(acntID string, aPlIDs []string) (err error) { session, col := ms.conn(colAAp) defer session.Close() if len(aPlIDs) == 0 { return col.Remove(bson.M{"key": acntID}) } oldAPlIDs, err := ms.GetAccountActionPlans(acntID, true, utils.NonTransactional) if err != nil { return err } for i := 0; i < len(oldAPlIDs); { if utils.IsSliceMember(aPlIDs, oldAPlIDs[i]) { oldAPlIDs = append(oldAPlIDs[:i], oldAPlIDs[i+1:]...) continue // if we have stripped, don't increase index so we can check next element by next run } i++ } if len(oldAPlIDs) == 0 { // no more elements, remove the reference return col.Remove(bson.M{"key": acntID}) } _, err = col.Upsert(bson.M{"key": acntID}, &struct { Key string Value []string }{Key: acntID, Value: oldAPlIDs}) return } func (ms *MongoStorage) PushTask(t *Task) error { session, col := ms.conn(colTsk) defer session.Close() return col.Insert(bson.M{"_id": bson.NewObjectId(), "task": t}) } func (ms *MongoStorage) PopTask() (t *Task, err error) { v := struct { ID bson.ObjectId `bson:"_id"` Task *Task }{} session, col := ms.conn(colTsk) defer session.Close() if err = col.Find(nil).One(&v); err == nil { if remErr := col.Remove(bson.M{"_id": v.ID}); remErr != nil { return nil, remErr } t = v.Task } return } func (ms *MongoStorage) GetDerivedChargers(key string, skipCache bool, transactionID string) (dcs *utils.DerivedChargers, err error) { cacheKey := utils.DERIVEDCHARGERS_PREFIX + key if !skipCache { if x, ok := cache.Get(cacheKey); ok { if x == nil { return nil, utils.ErrNotFound } return x.(*utils.DerivedChargers), nil } } var kv struct { Key string Value *utils.DerivedChargers } session, col := ms.conn(colDcs) defer session.Close() cCommit := cacheCommit(transactionID) if err = col.Find(bson.M{"key": key}).One(&kv); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cCommit, transactionID) err = utils.ErrNotFound } return } dcs = kv.Value cache.Set(cacheKey, dcs, cCommit, transactionID) return } func (ms *MongoStorage) SetDerivedChargers(key string, dcs *utils.DerivedChargers, transactionID string) (err error) { cCommit := cacheCommit(transactionID) cacheKey := utils.DERIVEDCHARGERS_PREFIX + key if dcs == nil || len(dcs.Chargers) == 0 { session, col := ms.conn(colDcs) defer session.Close() if err = col.Remove(bson.M{"key": key}); err != nil && err != mgo.ErrNotFound { return } cache.RemKey(cacheKey, cCommit, transactionID) return nil } session, col := ms.conn(colDcs) defer session.Close() if _, err = col.Upsert(bson.M{"key": key}, &struct { Key string Value *utils.DerivedChargers }{Key: key, Value: dcs}); err != nil { return } return err } func (ms *MongoStorage) SetCdrStats(cs *CdrStats) error { session, col := ms.conn(colCrs) defer session.Close() _, err := col.Upsert(bson.M{"id": cs.Id}, cs) return err } func (ms *MongoStorage) GetCdrStats(key string) (cs *CdrStats, err error) { cs = new(CdrStats) session, col := ms.conn(colCrs) defer session.Close() if err = col.Find(bson.M{"id": key}).One(cs); err != nil { if err == mgo.ErrNotFound { err = utils.ErrNotFound } return nil, err } return } func (ms *MongoStorage) GetAllCdrStats() (css []*CdrStats, err error) { session, col := ms.conn(colCrs) defer session.Close() iter := col.Find(nil).Iter() var cs CdrStats for iter.Next(&cs) { clone := cs // avoid using the same pointer in append css = append(css, &clone) } err = iter.Close() return } func (ms *MongoStorage) GetResourceProfile(tenant, id string, skipCache bool, transactionID string) (rp *ResourceProfile, err error) { key := utils.ResourceProfilesPrefix + utils.ConcatenatedKey(tenant, id) if !skipCache { if x, ok := cache.Get(key); ok { if x == nil { return nil, utils.ErrNotFound } return x.(*ResourceProfile), nil } } session, col := ms.conn(colRsP) defer session.Close() rp = new(ResourceProfile) if err = col.Find(bson.M{"tenant": tenant, "id": id}).One(rp); err != nil { if err == mgo.ErrNotFound { err = utils.ErrNotFound cache.Set(key, nil, cacheCommit(transactionID), transactionID) } return nil, err } for _, fltr := range rp.Filters { if err = fltr.CompileValues(); err != nil { return } } cache.Set(key, rp, cacheCommit(transactionID), transactionID) return } func (ms *MongoStorage) SetResourceProfile(rp *ResourceProfile) (err error) { session, col := ms.conn(colRsP) defer session.Close() _, err = col.Upsert(bson.M{"tenant": rp.Tenant, "id": rp.ID}, rp) return } func (ms *MongoStorage) RemoveResourceProfile(tenant, id string, transactionID string) (err error) { session, col := ms.conn(colRsP) defer session.Close() if err = col.Remove(bson.M{"tenant": tenant, "id": id}); err != nil { return } cache.RemKey(utils.ResourceProfilesPrefix+utils.ConcatenatedKey(tenant, id), cacheCommit(transactionID), transactionID) return nil } func (ms *MongoStorage) GetResource(tenant, id string, skipCache bool, transactionID string) (r *Resource, err error) { key := utils.ResourcesPrefix + utils.ConcatenatedKey(tenant, id) if !skipCache { if x, ok := cache.Get(key); ok { if x == nil { return nil, utils.ErrNotFound } return x.(*Resource), nil } } session, col := ms.conn(colRes) defer session.Close() r = new(Resource) if err = col.Find(bson.M{"tenant": tenant, "id": id}).One(r); err != nil { if err == mgo.ErrNotFound { err = utils.ErrNotFound cache.Set(key, nil, cacheCommit(transactionID), transactionID) } return nil, err } cache.Set(key, r, cacheCommit(transactionID), transactionID) return } func (ms *MongoStorage) SetResource(r *Resource) (err error) { session, col := ms.conn(colRes) defer session.Close() _, err = col.Upsert(bson.M{"tenant": r.Tenant, "id": r.ID}, r) return } func (ms *MongoStorage) RemoveResource(tenant, id string, transactionID string) (err error) { session, col := ms.conn(colRes) defer session.Close() if err = col.Remove(bson.M{"tenant": tenant, "id": id}); err != nil { return } cache.RemKey(utils.ResourcesPrefix+utils.ConcatenatedKey(tenant, id), cacheCommit(transactionID), transactionID) return nil } func (ms *MongoStorage) GetTiming(id string, skipCache bool, transactionID string) (t *utils.TPTiming, err error) { key := utils.TimingsPrefix + id if !skipCache { if x, ok := cache.Get(key); ok { if x == nil { return nil, utils.ErrNotFound } return x.(*utils.TPTiming), nil } } session, col := ms.conn(colTmg) defer session.Close() t = new(utils.TPTiming) if err = col.Find(bson.M{"id": id}).One(t); err != nil { if err == mgo.ErrNotFound { err = utils.ErrNotFound cache.Set(key, nil, cacheCommit(transactionID), transactionID) } return nil, err } cache.Set(key, t, cacheCommit(transactionID), transactionID) return } func (ms *MongoStorage) SetTiming(t *utils.TPTiming, transactionID string) (err error) { session, col := ms.conn(colTmg) defer session.Close() _, err = col.Upsert(bson.M{"id": t.ID}, t) return } func (ms *MongoStorage) RemoveTiming(id string, transactionID string) (err error) { session, col := ms.conn(colTmg) defer session.Close() if err = col.Remove(bson.M{"id": id}); err != nil { return } cache.RemKey(utils.TimingsPrefix+id, cacheCommit(transactionID), transactionID) return nil } func (ms *MongoStorage) GetReqFilterIndexes(dbKey string) (indexes map[string]map[string]utils.StringMap, err error) { session, col := ms.conn(colRFI) defer session.Close() var result struct { Key string Value map[string]map[string]utils.StringMap } if err = col.Find(bson.M{"key": dbKey}).One(&result); err != nil { if err == mgo.ErrNotFound { err = utils.ErrNotFound } return nil, err } return result.Value, nil } func (ms *MongoStorage) SetReqFilterIndexes(dbKey string, indexes map[string]map[string]utils.StringMap) (err error) { session, col := ms.conn(colRFI) defer session.Close() _, err = col.Upsert(bson.M{"key": dbKey}, &struct { Key string Value map[string]map[string]utils.StringMap }{dbKey, indexes}) return } func (ms *MongoStorage) MatchReqFilterIndex(dbKey, fldName, fldVal string) (itemIDs utils.StringMap, err error) { fieldValKey := utils.ConcatenatedKey(fldName, fldVal) cacheKey := dbKey + fieldValKey if x, ok := cache.Get(cacheKey); ok { // Attempt to find in cache first if x == nil { return nil, utils.ErrNotFound } return x.(utils.StringMap), nil } session, col := ms.conn(colRFI) defer session.Close() var result struct { Key string Value map[string]map[string]utils.StringMap } fldKey := fmt.Sprintf("value.%s.%s", fldName, fldVal) if err = col.Find( bson.M{"key": dbKey, fldKey: bson.M{"$exists": true}}).Select( bson.M{fldKey: true}).One(&result); err != nil { if err == mgo.ErrNotFound { err = utils.ErrNotFound cache.Set(cacheKey, nil, true, utils.NonTransactional) } return nil, err } itemIDs = result.Value[fldName][fldVal] cache.Set(cacheKey, itemIDs, true, utils.NonTransactional) return } // GetStatQueueProfile retrieves a StatQueueProfile from dataDB func (ms *MongoStorage) GetStatQueueProfile(tenant string, id string, skipCache bool, transactionID string) (sq *StatQueueProfile, err error) { key := utils.StatQueueProfilePrefix + utils.ConcatenatedKey(tenant, id) if !skipCache { if x, ok := cache.Get(key); ok { if x == nil { return nil, utils.ErrNotFound } return x.(*StatQueueProfile), nil } } session, col := ms.conn(colSqp) defer session.Close() sq = new(StatQueueProfile) if err = col.Find(bson.M{"tenant": tenant, "id": id}).One(&sq); err != nil { if err == mgo.ErrNotFound { err = utils.ErrNotFound cache.Set(key, nil, cacheCommit(transactionID), transactionID) } return nil, err } for _, fltr := range sq.Filters { if err = fltr.CompileValues(); err != nil { return } } cache.Set(key, sq, cacheCommit(transactionID), transactionID) return } // SetStatsQueue stores a StatsQueue into DataDB func (ms *MongoStorage) SetStatQueueProfile(sq *StatQueueProfile) (err error) { session, col := ms.conn(colSqp) defer session.Close() _, err = col.UpsertId(bson.M{"tennat": sq.Tenant, "id": sq.ID}, sq) return } // RemStatsQueue removes a StatsQueue from dataDB func (ms *MongoStorage) RemStatQueueProfile(tenant, id string, transactionID string) (err error) { session, col := ms.conn(colSqp) err = col.Remove(bson.M{"tenant": tenant, "id": id}) if err != nil { return err } session.Close() cache.RemKey(utils.StatQueueProfilePrefix+utils.ConcatenatedKey(tenant, id), cacheCommit(transactionID), transactionID) return } // GetStoredStatQueue retrieves a StoredStatQueue func (ms *MongoStorage) GetStoredStatQueue(tenant, id string) (sq *StoredStatQueue, err error) { session, col := ms.conn(colStQs) defer session.Close() if err = col.Find(bson.M{"tenant": tenant, "id": id}).One(&sq); err != nil { if err == mgo.ErrNotFound { err = utils.ErrNotFound } return nil, err } return } // SetStoredStatQueue stores the metrics for a StoredStatQueue func (ms *MongoStorage) SetStoredStatQueue(sq *StoredStatQueue) (err error) { session, col := ms.conn(colStQs) defer session.Close() _, err = col.Upsert(bson.M{"tenant": sq.Tenant, "id": sq.ID}, sq) return } // RemStatQueue removes stored metrics for a StoredStatQueue func (ms *MongoStorage) RemStoredStatQueue(tenant, id string) (err error) { session, col := ms.conn(colStQs) defer session.Close() err = col.Remove(bson.M{"tenant": tenant, "id": id}) if err == mgo.ErrNotFound { err = utils.ErrNotFound } return err } // GetThresholdCfg retrieves a ThresholdCfg from dataDB/cache func (ms *MongoStorage) GetThresholdCfg(ID string, skipCache bool, transactionID string) (th *ThresholdCfg, err error) { cacheKey := utils.ThresholdCfgPrefix + ID if !skipCache { if x, ok := cache.Get(cacheKey); ok { if x == nil { return nil, utils.ErrNotFound } return x.(*ThresholdCfg), nil } } session, col := ms.conn(utils.ThresholdCfgPrefix) defer session.Close() th = new(ThresholdCfg) cCommit := cacheCommit(transactionID) if err = col.Find(bson.M{"id": ID}).One(&th); err != nil { if err == mgo.ErrNotFound { cache.Set(cacheKey, nil, cCommit, transactionID) err = utils.ErrNotFound } return nil, err } for _, fltr := range th.Filters { if err = fltr.CompileValues(); err != nil { return } } cache.Set(cacheKey, th, cCommit, transactionID) return } // SetThresholdCfg stores a ThresholdCfg into DataDB func (ms *MongoStorage) SetThresholdCfg(th *ThresholdCfg) (err error) { session, col := ms.conn(utils.ThresholdCfgPrefix) defer session.Close() _, err = col.UpsertId(bson.M{"id": th.ID}, th) return } // RemThresholdCfg removes a ThresholdCfg from dataDB/cache func (ms *MongoStorage) RemThresholdCfg(ID string, transactionID string) (err error) { session, col := ms.conn(utils.ThresholdCfgPrefix) key := utils.ThresholdCfgPrefix + ID err = col.Remove(bson.M{"id": ID}) if err != nil { return err } cache.RemKey(key, cacheCommit(transactionID), transactionID) session.Close() return }