/*
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 main
import (
"flag"
"fmt"
"log"
"path"
"strings"
"time"
"github.com/cgrates/cgrates/config"
"github.com/cgrates/cgrates/engine"
"github.com/cgrates/cgrates/utils"
"github.com/cgrates/rpcclient"
)
var (
dfltCfg = config.CgrConfig()
cfgDir = flag.String("config_dir", "",
"Configuration directory path.")
dataDBType = flag.String("datadb_type", dfltCfg.DataDbCfg().DataDbType,
"The type of the DataDB database <*redis|*mongo>")
dataDBHost = flag.String("datadb_host", dfltCfg.DataDbCfg().DataDbHost,
"The DataDb host to connect to.")
dataDBPort = flag.String("datadb_port", dfltCfg.DataDbCfg().DataDbPort,
"The DataDb port to bind to.")
dataDBName = flag.String("datadb_name", dfltCfg.DataDbCfg().DataDbName,
"The name/number of the DataDb to connect to.")
dataDBUser = flag.String("datadb_user", dfltCfg.DataDbCfg().DataDbUser,
"The DataDb user to sign in as.")
dataDBPasswd = flag.String("datadb_passwd", dfltCfg.DataDbCfg().DataDbPass,
"The DataDb user's password.")
dbDataEncoding = flag.String("dbdata_encoding", dfltCfg.GeneralCfg().DBDataEncoding,
"The encoding used to store object data in strings")
dbRedisSentinel = flag.String("redis_sentinel", dfltCfg.DataDbCfg().DataDbSentinelName,
"The name of redis sentinel")
storDBType = flag.String("stordb_type", dfltCfg.StorDbCfg().StorDBType,
"The type of the storDb database <*mysql|*postgres|*mongo>")
storDBHost = flag.String("stordb_host", dfltCfg.StorDbCfg().StorDBHost,
"The storDb host to connect to.")
storDBPort = flag.String("stordb_port", dfltCfg.StorDbCfg().StorDBPort,
"The storDb port to bind to.")
storDBName = flag.String("stordb_name", dfltCfg.StorDbCfg().StorDBName,
"The name/number of the storDb to connect to.")
storDBUser = flag.String("stordb_user", dfltCfg.StorDbCfg().StorDBUser,
"The storDb user to sign in as.")
storDBPasswd = flag.String("stordb_passwd", dfltCfg.StorDbCfg().StorDBPass,
"The storDb user's password.")
flush = flag.Bool("flushdb", false,
"Flush the database before importing")
tpid = flag.String("tpid", dfltCfg.LoaderCgrConfig.TpID,
"The tariff plan ID from the database")
dataPath = flag.String("path", dfltCfg.LoaderCgrConfig.DataPath,
"The path to folder containing the data files")
version = flag.Bool("version", false,
"Prints the application version.")
verbose = flag.Bool("verbose", false,
"Enable detailed verbose logging output")
dryRun = flag.Bool("dry_run", false,
"When true will not save loaded data to dataDb but just parse it for consistency and errors.")
fromStorDB = flag.Bool("from_stordb", false, "Load the tariff plan from storDb to dataDb")
toStorDB = flag.Bool("to_stordb", false, "Import the tariff plan from files to storDb")
rpcEncoding = flag.String("rpc_encoding", utils.MetaJSONrpc, "RPC encoding used ")
cacheSAddress = flag.String("caches_address", dfltCfg.LoaderCgrConfig.CachesConns[0].Address,
"CacheS component to contact for cache reloads, empty to disable automatic cache reloads")
schedulerAddress = flag.String("scheduler_address", dfltCfg.LoaderCgrConfig.SchedulerConns[0].Address, "")
importID = flag.String("import_id", "", "Uniquely identify an import/load, postpended to some automatic fields")
timezone = flag.String("timezone", "", `Timezone for timestamps where not specified <""|UTC|Local|$IANA_TZ_DB>`)
disableReverse = flag.Bool("disable_reverse_mappings", false, "Will disable reverse mappings rebuilding")
flushStorDB = flag.Bool("flush_stordb", false, "Remove tariff plan data for id from the database")
remove = flag.Bool("remove", false, "Will remove instead of adding data from DB")
usersAddress = flag.String("users", "", "Users service to contact for data reloads, empty to disable automatic data reloads")
err error
dm *engine.DataManager
storDb engine.LoadStorage
cacheS, userS rpcclient.RpcClientConnection
loader engine.LoadReader
)
func main() {
flag.Parse()
if *version {
fmt.Println(utils.GetCGRVersion())
return
}
ldrCfg := config.CgrConfig()
if *cfgDir != "" {
if ldrCfg, err = config.NewCGRConfigFromFolder(*cfgDir); err != nil {
log.Fatalf("Error loading config file %s", err.Error())
}
}
if *dataDBType != dfltCfg.DataDbCfg().DataDbType {
ldrCfg.DataDbCfg().DataDbType = *dataDBType
}
if *dataDBHost != dfltCfg.DataDbCfg().DataDbHost {
ldrCfg.DataDbCfg().DataDbHost = *dataDBHost
}
if *dataDBPort != dfltCfg.DataDbCfg().DataDbPort {
ldrCfg.DataDbCfg().DataDbPort = *dataDBPort
}
if *dataDBName != dfltCfg.DataDbCfg().DataDbName {
ldrCfg.DataDbCfg().DataDbName = *dataDBName
}
if *dataDBUser != dfltCfg.DataDbCfg().DataDbUser {
ldrCfg.DataDbCfg().DataDbUser = *dataDBUser
}
if *dataDBPasswd != dfltCfg.DataDbCfg().DataDbPass {
ldrCfg.DataDbCfg().DataDbPass = *dataDBPasswd
}
if *dbRedisSentinel != dfltCfg.DataDbCfg().DataDbSentinelName {
ldrCfg.DataDbCfg().DataDbSentinelName = *dbRedisSentinel
}
if *storDBType != dfltCfg.StorDbCfg().StorDBType {
ldrCfg.StorDbCfg().StorDBType = *storDBType
}
if *storDBHost != dfltCfg.StorDbCfg().StorDBHost {
ldrCfg.StorDbCfg().StorDBHost = *storDBHost
}
if *storDBPort != dfltCfg.StorDbCfg().StorDBPort {
ldrCfg.StorDbCfg().StorDBPort = *storDBPort
}
if *storDBName != dfltCfg.StorDbCfg().StorDBName {
ldrCfg.StorDbCfg().StorDBName = *storDBName
}
if *storDBUser != dfltCfg.StorDbCfg().StorDBUser {
ldrCfg.StorDbCfg().StorDBUser = *storDBUser
}
if *storDBPasswd != "" {
ldrCfg.StorDbCfg().StorDBPass = *storDBPasswd
}
if *dbDataEncoding != "" {
ldrCfg.GeneralCfg().DBDataEncoding = *dbDataEncoding
}
if *tpid != "" {
ldrCfg.LoaderCgrConfig.TpID = *tpid
}
if *dataPath != "" {
ldrCfg.LoaderCgrConfig.DataPath = *dataPath
}
if *cacheSAddress != dfltCfg.LoaderCgrConfig.CachesConns[0].Address {
ldrCfg.LoaderCgrConfig.CachesConns = make([]*config.HaPoolConfig, 0)
if *cacheSAddress != "" {
ldrCfg.LoaderCgrConfig.CachesConns = append(ldrCfg.LoaderCgrConfig.CachesConns,
&config.HaPoolConfig{Address: *cacheSAddress})
}
}
if *schedulerAddress != dfltCfg.LoaderCgrConfig.SchedulerConns[0].Address {
ldrCfg.LoaderCgrConfig.SchedulerConns = make([]*config.HaPoolConfig, 0)
if *schedulerAddress != "" {
ldrCfg.LoaderCgrConfig.SchedulerConns = append(ldrCfg.LoaderCgrConfig.SchedulerConns,
&config.HaPoolConfig{Address: *schedulerAddress})
}
}
if *rpcEncoding != dfltCfg.LoaderCgrConfig.CachesConns[0].Transport &&
len(ldrCfg.LoaderCgrConfig.CachesConns) != 0 {
ldrCfg.LoaderCgrConfig.CachesConns[0].Transport = *rpcEncoding
}
if *importID == "" {
*importID = utils.UUIDSha1Prefix()
}
if *timezone != dfltCfg.GeneralCfg().DefaultTimezone {
ldrCfg.GeneralCfg().DefaultTimezone = *timezone
}
if *disableReverse != dfltCfg.LoaderCgrConfig.DisableReverse {
ldrCfg.LoaderCgrConfig.DisableReverse = *disableReverse
}
if !*toStorDB {
if dm, err = engine.ConfigureDataStorage(ldrCfg.DataDbCfg().DataDbType,
ldrCfg.DataDbCfg().DataDbHost, ldrCfg.DataDbCfg().DataDbPort,
ldrCfg.DataDbCfg().DataDbName, ldrCfg.DataDbCfg().DataDbUser,
ldrCfg.DataDbCfg().DataDbPass, ldrCfg.GeneralCfg().DBDataEncoding,
config.CgrConfig().CacheCfg(), ldrCfg.DataDbCfg().DataDbSentinelName); err != nil {
log.Fatalf("Coud not open dataDB connection: %s", err.Error())
}
defer dm.DataDB().Close()
}
if *fromStorDB || *toStorDB {
if storDb, err = engine.ConfigureLoadStorage(ldrCfg.StorDbCfg().StorDBType,
ldrCfg.StorDbCfg().StorDBHost, ldrCfg.StorDbCfg().StorDBPort,
ldrCfg.StorDbCfg().StorDBName, ldrCfg.StorDbCfg().StorDBUser,
ldrCfg.StorDbCfg().StorDBPass, ldrCfg.GeneralCfg().DBDataEncoding,
config.CgrConfig().StorDbCfg().StorDBMaxOpenConns,
config.CgrConfig().StorDbCfg().StorDBMaxIdleConns,
config.CgrConfig().StorDbCfg().StorDBConnMaxLifetime,
config.CgrConfig().StorDbCfg().StorDBCDRSIndexes); err != nil {
log.Fatalf("Coud not open storDB connection: %s", err.Error())
}
defer storDb.Close()
}
if !*dryRun {
//tpid_remove
if *toStorDB { // Import files from a directory into storDb
if ldrCfg.LoaderCgrConfig.TpID == "" {
log.Fatal("TPid required.")
}
if *flushStorDB {
if err = storDb.RemTpData("", ldrCfg.LoaderCgrConfig.TpID, map[string]string{}); err != nil {
log.Fatal(err)
}
}
csvImporter := engine.TPCSVImporter{
TPid: ldrCfg.LoaderCgrConfig.TpID,
StorDb: storDb,
DirPath: *dataPath,
Sep: ',',
Verbose: *verbose,
ImportId: *importID,
}
if errImport := csvImporter.Run(); errImport != nil {
log.Fatal(errImport)
}
return
}
}
if *fromStorDB { // Load Tariff Plan from storDb into dataDb
loader = storDb
} else { // Default load from csv files to dataDb
loader = engine.NewFileCSVStorage(',',
path.Join(*dataPath, utils.DESTINATIONS_CSV),
path.Join(*dataPath, utils.TIMINGS_CSV),
path.Join(*dataPath, utils.RATES_CSV),
path.Join(*dataPath, utils.DESTINATION_RATES_CSV),
path.Join(*dataPath, utils.RATING_PLANS_CSV),
path.Join(*dataPath, utils.RATING_PROFILES_CSV),
path.Join(*dataPath, utils.SHARED_GROUPS_CSV),
path.Join(*dataPath, utils.LCRS_CSV),
path.Join(*dataPath, utils.ACTIONS_CSV),
path.Join(*dataPath, utils.ACTION_PLANS_CSV),
path.Join(*dataPath, utils.ACTION_TRIGGERS_CSV),
path.Join(*dataPath, utils.ACCOUNT_ACTIONS_CSV),
path.Join(*dataPath, utils.DERIVED_CHARGERS_CSV),
path.Join(*dataPath, utils.CDR_STATS_CSV),
path.Join(*dataPath, utils.USERS_CSV),
path.Join(*dataPath, utils.ALIASES_CSV),
path.Join(*dataPath, utils.ResourcesCsv),
path.Join(*dataPath, utils.StatsCsv),
path.Join(*dataPath, utils.ThresholdsCsv),
path.Join(*dataPath, utils.FiltersCsv),
path.Join(*dataPath, utils.SuppliersCsv),
path.Join(*dataPath, utils.AttributesCsv),
path.Join(*dataPath, utils.ChargersCsv),
)
}
tpReader := engine.NewTpReader(dm.DataDB(), loader,
ldrCfg.LoaderCgrConfig.TpID, ldrCfg.GeneralCfg().DefaultTimezone)
if err = tpReader.LoadAll(); err != nil {
log.Fatal(err)
}
if *dryRun { // We were just asked to parse the data, not saving it
return
}
if len(ldrCfg.LoaderCgrConfig.CachesConns) != 0 { // Init connection to CacheS so we can reload it's data
if cacheS, err = rpcclient.NewRpcClient("tcp",
ldrCfg.LoaderCgrConfig.CachesConns[0].Address,
ldrCfg.TLSClientKey, ldrCfg.TLSClientCerificate, 3, 3,
time.Duration(1*time.Second), time.Duration(5*time.Minute),
strings.TrimPrefix(ldrCfg.LoaderCgrConfig.CachesConns[0].Transport, utils.Meta),
nil, false); err != nil {
log.Fatalf("Could not connect to CacheS: %s", err.Error())
return
}
} else {
log.Print("WARNING: automatic cache reloading is disabled!")
}
// FixMe: remove users reloading as soon as not longer supported
if *usersAddress != "" { // Init connection to rater so we can reload it's data
if len(ldrCfg.LoaderCgrConfig.CachesConns) != 0 &&
*usersAddress == ldrCfg.LoaderCgrConfig.CachesConns[0].Address {
userS = cacheS
} else {
if userS, err = rpcclient.NewRpcClient("tcp", *usersAddress,
ldrCfg.TLSClientKey, ldrCfg.TLSClientCerificate, 3, 3,
time.Duration(1*time.Second), time.Duration(5*time.Minute),
strings.TrimPrefix(*rpcEncoding, utils.Meta), nil, false); err != nil {
log.Fatalf("Could not connect to UserS API: %s", err.Error())
return
}
}
} else {
log.Print("WARNING: Users automatic data reload is disabled!")
}
if !*remove {
// write maps to database
if err := tpReader.WriteToDatabase(*flush, *verbose, *disableReverse); err != nil {
log.Fatal("Could not write to database: ", err)
}
var dstIds, revDstIDs, rplIds, rpfIds, actIds, aapIDs, shgIds, alsIds, lcrIds, dcsIds, rspIDs, resIDs, aatIDs, ralsIDs, stqIDs, stqpIDs, trsIDs, trspfIDs, flrIDs, spfIDs, apfIDs, chargerIDs []string
if cacheS != nil {
dstIds, _ = tpReader.GetLoadedIds(utils.DESTINATION_PREFIX)
revDstIDs, _ = tpReader.GetLoadedIds(utils.REVERSE_DESTINATION_PREFIX)
rplIds, _ = tpReader.GetLoadedIds(utils.RATING_PLAN_PREFIX)
rpfIds, _ = tpReader.GetLoadedIds(utils.RATING_PROFILE_PREFIX)
actIds, _ = tpReader.GetLoadedIds(utils.ACTION_PREFIX)
aapIDs, _ = tpReader.GetLoadedIds(utils.AccountActionPlansPrefix)
shgIds, _ = tpReader.GetLoadedIds(utils.SHARED_GROUP_PREFIX)
alsIds, _ = tpReader.GetLoadedIds(utils.ALIASES_PREFIX)
lcrIds, _ = tpReader.GetLoadedIds(utils.LCR_PREFIX)
dcsIds, _ = tpReader.GetLoadedIds(utils.DERIVEDCHARGERS_PREFIX)
rspIDs, _ = tpReader.GetLoadedIds(utils.ResourceProfilesPrefix)
resIDs, _ = tpReader.GetLoadedIds(utils.ResourcesPrefix)
aatIDs, _ = tpReader.GetLoadedIds(utils.ACTION_TRIGGER_PREFIX)
ralsIDs, _ = tpReader.GetLoadedIds(utils.REVERSE_ALIASES_PREFIX)
stqIDs, _ = tpReader.GetLoadedIds(utils.StatQueuePrefix)
stqpIDs, _ = tpReader.GetLoadedIds(utils.StatQueueProfilePrefix)
trsIDs, _ = tpReader.GetLoadedIds(utils.ThresholdPrefix)
trspfIDs, _ = tpReader.GetLoadedIds(utils.ThresholdProfilePrefix)
flrIDs, _ = tpReader.GetLoadedIds(utils.FilterPrefix)
spfIDs, _ = tpReader.GetLoadedIds(utils.SupplierProfilePrefix)
apfIDs, _ = tpReader.GetLoadedIds(utils.AttributeProfilePrefix)
chargerIDs, _ = tpReader.GetLoadedIds(utils.ChargerProfilePrefix)
}
aps, _ := tpReader.GetLoadedIds(utils.ACTION_PLAN_PREFIX)
// for users reloading
var userIds []string
if userS != nil {
userIds, _ = tpReader.GetLoadedIds(utils.USERS_PREFIX)
}
// release the reader with it's structures
tpReader.Init()
// Reload scheduler and cache
if cacheS != nil {
var reply string
// Reload cache first since actions could be calling info from within
if *verbose {
log.Print("Reloading cache")
}
if err = cacheS.Call(utils.ApierV1ReloadCache,
utils.AttrReloadCache{ArgsCache: utils.ArgsCache{
DestinationIDs: &dstIds,
ReverseDestinationIDs: &revDstIDs,
RatingPlanIDs: &rplIds,
RatingProfileIDs: &rpfIds,
ActionIDs: &actIds,
ActionPlanIDs: &aps,
AccountActionPlanIDs: &aapIDs,
SharedGroupIDs: &shgIds,
AliasIDs: &alsIds,
LCRids: &lcrIds,
DerivedChargerIDs: &dcsIds,
ResourceProfileIDs: &rspIDs,
ResourceIDs: &resIDs,
ActionTriggerIDs: &aatIDs,
ReverseAliasIDs: &ralsIDs,
StatsQueueIDs: &stqIDs,
StatsQueueProfileIDs: &stqpIDs,
ThresholdIDs: &trsIDs,
ThresholdProfileIDs: &trspfIDs,
FilterIDs: &flrIDs,
SupplierProfileIDs: &spfIDs,
AttributeProfileIDs: &apfIDs,
ChargerProfileIDs: &chargerIDs},
FlushAll: *flush,
}, &reply); err != nil {
log.Printf("WARNING: Got error on cache reload: %s\n", err.Error())
}
if *verbose {
log.Print("Clearing cached indexes")
}
var cacheIDs []string
if len(apfIDs) != 0 {
cacheIDs = append(cacheIDs, utils.CacheAttributeFilterIndexes)
}
if len(spfIDs) != 0 {
cacheIDs = append(cacheIDs, utils.CacheSupplierFilterIndexes)
}
if len(trspfIDs) != 0 {
cacheIDs = append(cacheIDs, utils.CacheThresholdFilterIndexes)
}
if len(stqpIDs) != 0 {
cacheIDs = append(cacheIDs, utils.CacheStatFilterIndexes)
}
if len(rspIDs) != 0 {
cacheIDs = append(cacheIDs, utils.CacheResourceFilterIndexes)
}
if len(chargerIDs) != 0 {
cacheIDs = append(cacheIDs, utils.CacheChargerFilterIndexes)
}
if err = cacheS.Call(utils.CacheSv1Clear, cacheIDs, &reply); err != nil {
log.Printf("WARNING: Got error on cache clear: %s\n", err.Error())
}
if len(aps) != 0 {
if *verbose {
log.Print("Reloading scheduler")
}
if err = cacheS.Call(utils.ApierV1ReloadScheduler, "", &reply); err != nil {
log.Printf("WARNING: Got error on scheduler reload: %s\n", err.Error())
}
}
if userS != nil && len(userIds) > 0 {
if *verbose {
log.Print("Reloading Users data")
}
var reply string
if err := userS.Call(utils.UsersV1ReloadUsers, "", &reply); err != nil {
log.Printf("WARNING: Failed reloading users data, error: %s\n", err.Error())
}
}
}
} else {
if err := tpReader.RemoveFromDatabase(*verbose, *disableReverse); err != nil {
log.Fatal("Could not delete from database: ", err)
}
}
}