/* 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 agents import ( "fmt" "net/http" "github.com/cgrates/cgrates/config" "github.com/cgrates/cgrates/engine" "github.com/cgrates/cgrates/sessions" "github.com/cgrates/cgrates/utils" "github.com/cgrates/rpcclient" ) // NewHttpAgent will construct a HTTPAgent func NewHTTPAgent(sessionS rpcclient.RpcClientConnection, filterS *engine.FilterS, dfltTenant, reqPayload, rplyPayload string, reqProcessors []*config.HttpAgntProcCfg) *HTTPAgent { return &HTTPAgent{sessionS: sessionS, filterS: filterS, dfltTenant: dfltTenant, reqPayload: reqPayload, rplyPayload: rplyPayload, reqProcessors: reqProcessors} } // HTTPAgent is a handler for HTTP requests type HTTPAgent struct { sessionS rpcclient.RpcClientConnection filterS *engine.FilterS dfltTenant, reqPayload, rplyPayload string reqProcessors []*config.HttpAgntProcCfg } // ServeHTTP implements http.Handler interface func (ha *HTTPAgent) ServeHTTP(w http.ResponseWriter, req *http.Request) { dcdr, err := newHADataProvider(ha.reqPayload, req) // dcdr will provide information from request if err != nil { utils.Logger.Warning( fmt.Sprintf("<%s> error creating decoder: %s", utils.HTTPAgent, err.Error())) return } for _, reqProcessor := range ha.reqProcessors { agReq := newAgentRequest(dcdr, nil, nil, reqProcessor.Tenant, ha.dfltTenant, utils.FirstNonEmpty(reqProcessor.Timezone, config.CgrConfig().GeneralCfg().DefaultTimezone), ha.filterS) lclProcessed, err := ha.processRequest(reqProcessor, agReq) if err != nil { utils.Logger.Warning( fmt.Sprintf("<%s> error: %s processing request: %s", utils.HTTPAgent, err.Error(), utils.ToJSON(agReq))) return // FixMe with returning some error on HTTP level } if !lclProcessed { continue } encdr, err := newHAReplyEncoder(ha.rplyPayload, w) if err != nil { utils.Logger.Warning( fmt.Sprintf("<%s> error creating reply encoder: %s", utils.HTTPAgent, err.Error())) return } if err = encdr.Encode(agReq.Reply); err != nil { utils.Logger.Warning( fmt.Sprintf("<%s> error: %s encoding out %s", utils.HTTPAgent, err.Error(), utils.ToJSON(agReq.Reply))) return } if lclProcessed && !reqProcessor.ContinueOnSuccess { break } } } // processRequest represents one processor processing the request func (ha *HTTPAgent) processRequest(reqProcessor *config.HttpAgntProcCfg, agReq *AgentRequest) (processed bool, err error) { if pass, err := ha.filterS.Pass(agReq.tenant, reqProcessor.Filters, agReq); err != nil || !pass { return pass, err } if agReq.CGRRequest, err = agReq.AsNavigableMap(reqProcessor.RequestFields); err != nil { return } cgrEv := agReq.CGRRequest.AsCGREvent(agReq.tenant, utils.NestingSep) argDisp := cgrEv.ConsumeArgDispatcher() var reqType string for _, typ := range []string{ utils.MetaDryRun, utils.MetaAuth, utils.MetaInitiate, utils.MetaUpdate, utils.MetaTerminate, utils.MetaEvent, utils.MetaCDRs} { if reqProcessor.Flags.HasKey(typ) { // request type is identified through flags reqType = typ break } } if reqProcessor.Flags.HasKey(utils.MetaLog) { utils.Logger.Info( fmt.Sprintf("<%s> LOG, processorID: %s, http message: %s", utils.HTTPAgent, reqProcessor.Id, agReq.Request.String())) } switch reqType { default: return false, fmt.Errorf("unknown request type: <%s>", reqType) case utils.MetaDryRun: utils.Logger.Info( fmt.Sprintf("<%s> DRY_RUN, processorID: %s, CGREvent: %s", utils.HTTPAgent, reqProcessor.Id, utils.ToJSON(cgrEv))) case utils.MetaAuth: authArgs := sessions.NewV1AuthorizeArgs( reqProcessor.Flags.HasKey(utils.MetaAttributes), reqProcessor.Flags.HasKey(utils.MetaResources), reqProcessor.Flags.HasKey(utils.MetaAccounts), reqProcessor.Flags.HasKey(utils.MetaThresholds), reqProcessor.Flags.HasKey(utils.MetaStats), reqProcessor.Flags.HasKey(utils.MetaSuppliers), reqProcessor.Flags.HasKey(utils.MetaSuppliersIgnoreErrors), reqProcessor.Flags.HasKey(utils.MetaSuppliersEventCost), *cgrEv, argDisp) var authReply sessions.V1AuthorizeReply err = ha.sessionS.Call(utils.SessionSv1AuthorizeEvent, authArgs, &authReply) if agReq.CGRReply, err = NewCGRReply(&authReply, err); err != nil { return } case utils.MetaInitiate: initArgs := sessions.NewV1InitSessionArgs( reqProcessor.Flags.HasKey(utils.MetaAttributes), reqProcessor.Flags.HasKey(utils.MetaResources), reqProcessor.Flags.HasKey(utils.MetaAccounts), reqProcessor.Flags.HasKey(utils.MetaThresholds), reqProcessor.Flags.HasKey(utils.MetaStats), *cgrEv, argDisp) var initReply sessions.V1InitSessionReply err = ha.sessionS.Call(utils.SessionSv1InitiateSession, initArgs, &initReply) if agReq.CGRReply, err = NewCGRReply(&initReply, err); err != nil { return } case utils.MetaUpdate: updateArgs := sessions.NewV1UpdateSessionArgs( reqProcessor.Flags.HasKey(utils.MetaAttributes), reqProcessor.Flags.HasKey(utils.MetaAccounts), *cgrEv, argDisp) var updateReply sessions.V1UpdateSessionReply err = ha.sessionS.Call(utils.SessionSv1UpdateSession, updateArgs, &updateReply) if agReq.CGRReply, err = NewCGRReply(&updateReply, err); err != nil { return } case utils.MetaTerminate: terminateArgs := sessions.NewV1TerminateSessionArgs( reqProcessor.Flags.HasKey(utils.MetaAccounts), reqProcessor.Flags.HasKey(utils.MetaResources), reqProcessor.Flags.HasKey(utils.MetaThresholds), reqProcessor.Flags.HasKey(utils.MetaStats), *cgrEv, argDisp) var tRply string err = ha.sessionS.Call(utils.SessionSv1TerminateSession, terminateArgs, &tRply) if agReq.CGRReply, err = NewCGRReply(nil, err); err != nil { return } case utils.MetaEvent: evArgs := sessions.NewV1ProcessEventArgs( reqProcessor.Flags.HasKey(utils.MetaResources), reqProcessor.Flags.HasKey(utils.MetaAccounts), reqProcessor.Flags.HasKey(utils.MetaAttributes), reqProcessor.Flags.HasKey(utils.MetaThresholds), reqProcessor.Flags.HasKey(utils.MetaStats), *cgrEv, argDisp) var eventRply sessions.V1ProcessEventReply err = ha.sessionS.Call(utils.SessionSv1ProcessEvent, evArgs, &eventRply) if utils.ErrHasPrefix(err, utils.RalsErrorPrfx) { cgrEv.Event[utils.Usage] = 0 // avoid further debits } else if eventRply.MaxUsage != nil { cgrEv.Event[utils.Usage] = *eventRply.MaxUsage // make sure the CDR reflects the debit } if agReq.CGRReply, err = NewCGRReply(&eventRply, err); err != nil { return } case utils.MetaCDRs: // allow CDR processing } // separate request so we can capture the Terminate/Event also here if reqProcessor.Flags.HasKey(utils.MetaCDRs) && !reqProcessor.Flags.HasKey(utils.MetaDryRun) { var rplyCDRs string if err = ha.sessionS.Call(utils.SessionSv1ProcessCDR, &utils.CGREventWithArgDispatcher{CGREvent: cgrEv, ArgDispatcher: argDisp}, &rplyCDRs); err != nil { agReq.CGRReply.Set([]string{utils.Error}, err.Error(), false, false) } } if nM, err := agReq.AsNavigableMap(reqProcessor.ReplyFields); err != nil { return false, err } else { agReq.Reply.Merge(nM) } if reqProcessor.Flags.HasKey(utils.MetaLog) { utils.Logger.Info( fmt.Sprintf("<%s> LOG, HTTP reply: %s", utils.HTTPAgent, agReq.Reply)) } if reqType == utils.MetaDryRun { utils.Logger.Info( fmt.Sprintf("<%s> DRY_RUN, HTTP reply: %s", utils.HTTPAgent, agReq.Reply)) } return true, nil }