/*-------------------------------------------------------------------------*/ SLPError AsyncProcessSrvDeReg(PSLPHandleInfo handle) /*-------------------------------------------------------------------------*/ { SLPError result = ProcessSrvDeReg(handle); free((void*)handle->params.dereg.scopelist); free((void*)handle->params.dereg.url); handle->inUse = SLP_FALSE; return result; }
/*=========================================================================*/ SLPError SLPDereg(SLPHandle hSLP, const char *srvUrl, SLPRegReport callback, void *cookie) /* */ /* See slplib.h for detailed documentation */ /*=========================================================================*/ { PSLPHandleInfo handle = 0; SLPError result = SLP_OK; SLPSrvURL* parsedurl = 0; /*------------------------------*/ /* check for invalid parameters */ /*------------------------------*/ if( hSLP == 0 || *(unsigned long*)hSLP != SLP_HANDLE_SIG || srvUrl == 0 || *srvUrl == 0 || /* url can't be empty string */ callback == 0) { return SLP_PARAMETER_BAD; } /*-----------------------------------------*/ /* cast the SLPHandle into a SLPHandleInfo */ /*-----------------------------------------*/ handle = (PSLPHandleInfo)hSLP; /*-----------------------------------------*/ /* Check to see if the handle is in use */ /*-----------------------------------------*/ if(handle->inUse == SLP_TRUE) { return SLP_HANDLE_IN_USE; } handle->inUse = SLP_TRUE; /*---------------------------------------------*/ /* Check to see if we can talk to a slpd */ /*---------------------------------------------*/ if(handle->slpdsock < 0) { /* slpd is not running locally and no DA's are configured */ handle->inUse = SLP_FALSE; return SLP_NETWORK_INIT_FAILED; } /*------------------*/ /* Parse the srvurl */ /*------------------*/ result = SLPParseSrvURL(srvUrl,&parsedurl); if(result) { if(result == SLP_PARSE_ERROR) { result = SLP_INVALID_REGISTRATION; } if(parsedurl) SLPFree(parsedurl); handle->inUse = SLP_FALSE; return result; } /*-------------------------------------------*/ /* Set the handle up to reference parameters */ /*-------------------------------------------*/ handle->params.dereg.scopelist = SLPGetProperty("net.slp.useScopes"); if(handle->params.dereg.scopelist) { handle->params.dereg.scopelistlen = strlen(handle->params.dereg.scopelist); } handle->params.dereg.urllen = strlen(srvUrl); handle->params.dereg.url = srvUrl; handle->params.dereg.callback = callback; handle->params.dereg.cookie = cookie; /*----------------------------------------------*/ /* Check to see if we should be async or sync */ /*----------------------------------------------*/ if(handle->isAsync) { /* COPY all the parameters */ handle->params.dereg.scopelist = strdup(handle->params.dereg.scopelist); handle->params.dereg.url = strdup(handle->params.dereg.url); /* make sure the strdups did not fail */ if(handle->params.dereg.scopelist && handle->params.dereg.url ) { result = ThreadCreate((ThreadStartProc)AsyncProcessSrvDeReg,handle); } else { result = SLP_MEMORY_ALLOC_FAILED; } if(result) { if(handle->params.dereg.scopelist) free((void*)handle->params.dereg.scopelist); if(handle->params.dereg.url) free((void*)handle->params.dereg.url); handle->inUse = SLP_FALSE; } } else { /* REFERENCE all the parameters */ result = ProcessSrvDeReg(handle); handle->inUse = SLP_FALSE; } if(parsedurl) SLPFree(parsedurl); return result; }
/** Processes the recvbuf and places the results in sendbuf * * @param[in] peerinfo - The remote address the message was received from. * @param[in] localaddr - The local address the message was received on. * @param[in] recvbuf - The message to process. * @param[out] sendbuf - The address of storage for the results of the * processed message. * @param[out] sendlist - if non-0, this function will prune the message * with the processed xid from the sendlist. * * @return Zero on success if @p sendbuf contains a response to send, * or a non-zero value if @p sendbuf does not contain a response * to send. */ int SLPDProcessMessage(struct sockaddr_storage * peerinfo, struct sockaddr_storage * localaddr, SLPBuffer recvbuf, SLPBuffer * sendbuf, SLPList * psendlist) { SLPHeader header; SLPMessage * message = 0; int errorcode = 0; #ifdef DEBUG char addr_str[INET6_ADDRSTRLEN]; #endif SLPDLogMessage(SLPDLOG_TRACEMSG_IN, peerinfo, localaddr, recvbuf); /* set the sendbuf empty */ if (*sendbuf) (*sendbuf)->end = (*sendbuf)->start; /* zero out the header before parsing it */ memset(&header, 0, sizeof(header)); /* Parse just the message header */ recvbuf->curpos = recvbuf->start; errorcode = SLPMessageParseHeader(recvbuf, &header); /* Reset the buffer "curpos" pointer so that full message can be parsed later */ recvbuf->curpos = recvbuf->start; #if defined(ENABLE_SLPv1) /* if version == 1 and the header was correct then parse message as a version 1 message */ if ((errorcode == 0) && (header.version == 1)) errorcode = SLPDv1ProcessMessage(peerinfo, recvbuf, sendbuf); else #endif if (errorcode == 0) { /* TRICKY: Duplicate SRVREG recvbufs *before* parsing them * we do this because we are going to keep track of in the * registration database. */ if (header.functionid == SLP_FUNCT_SRVREG || header.functionid == SLP_FUNCT_DAADVERT) { recvbuf = SLPBufferDup(recvbuf); if (recvbuf == 0) return SLP_ERROR_INTERNAL_ERROR; } /* Allocate the message descriptor */ message = SLPMessageAlloc(); if (message) { /* Parse the message and fill out the message descriptor */ errorcode = SLPMessageParseBuffer(peerinfo, localaddr, recvbuf, message); if (errorcode == 0) { /* Process messages based on type */ switch (message->header.functionid) { case SLP_FUNCT_SRVRQST: errorcode = ProcessSrvRqst(message, sendbuf, errorcode); break; case SLP_FUNCT_SRVREG: errorcode = ProcessSrvReg(message, recvbuf, sendbuf, errorcode); if (errorcode == 0) SLPDKnownDAEcho(message, recvbuf); break; case SLP_FUNCT_SRVDEREG: errorcode = ProcessSrvDeReg(message, sendbuf, errorcode); if (errorcode == 0) SLPDKnownDAEcho(message, recvbuf); break; case SLP_FUNCT_SRVACK: errorcode = ProcessSrvAck(message, sendbuf, errorcode); break; case SLP_FUNCT_ATTRRQST: errorcode = ProcessAttrRqst(message, sendbuf, errorcode); break; case SLP_FUNCT_DAADVERT: errorcode = ProcessDAAdvert(message, recvbuf, sendbuf, errorcode); break; case SLP_FUNCT_SRVTYPERQST: errorcode = ProcessSrvTypeRqst(message, sendbuf, errorcode); break; case SLP_FUNCT_SAADVERT: errorcode = ProcessSAAdvert(message, sendbuf, errorcode); break; default: /* Should never happen... but we're paranoid */ errorcode = SLP_ERROR_PARSE_ERROR; break; } } else SLPDLogParseWarning(peerinfo, recvbuf); /*If there was a send list, prune the xid, since the request has been processed*/ if(psendlist) { SLPHeader bufhead; SLPBuffer pnext; SLPBuffer pbuf = (SLPBuffer) psendlist->head; while(pbuf) { pnext = (SLPBuffer) pbuf->listitem.next; if((0 == SLPMessageParseHeader(pbuf, &bufhead)) && (bufhead.xid == header.xid)) SLPBufferFree((SLPBuffer)SLPListUnlink(psendlist, (SLPListItem*)pbuf)); else pbuf->curpos = pbuf->start; /*We parsed the buffer enough to attempt the xid check, we need to reset it for the next parse*/ pbuf = pnext; } } if (header.functionid == SLP_FUNCT_SRVREG || header.functionid == SLP_FUNCT_DAADVERT) { /* TRICKY: If this is a reg or daadvert message we do not free * the message descriptor or duplicated recvbuf because they are * being kept in the database! */ if (errorcode == 0) goto FINISHED; /* TRICKY: If there is an error we need to free the * duplicated recvbuf */ SLPBufferFree(recvbuf); } SLPMessageFree(message); } else errorcode = SLP_ERROR_INTERNAL_ERROR; /* out of memory */ } else SLPDLogParseWarning(peerinfo,recvbuf); FINISHED: #ifdef DEBUG if (errorcode) SLPDLog("\n*** DEBUG *** errorcode %i during processing " "of message from %s\n", errorcode, SLPNetSockAddrStorageToString( peerinfo, addr_str, sizeof(addr_str))); #endif /* Log message silently ignored because of an error */ if (errorcode) if (*sendbuf == 0 || (*sendbuf)->end == (*sendbuf)->start) SLPDLogMessage(SLPDLOG_TRACEDROP,peerinfo,localaddr,recvbuf); /* Log trace message */ SLPDLogMessage(SLPDLOG_TRACEMSG_OUT, peerinfo, localaddr, *sendbuf); return errorcode; }
/*=========================================================================*/ int SLPDProcessMessage(SLPDPeerInfo* peerinfo, SLPBuffer recvbuf, SLPBuffer sendbuf) /* Processes the recvbuf and places the results in sendbuf */ /* */ /* recvfd - the socket the message was received on */ /* */ /* recvbuf - message to process */ /* */ /* sendbuf - results of the processed message */ /* */ /* Returns - zero on success SLP_ERROR_PARSE_ERROR or */ /* SLP_ERROR_INTERNAL_ERROR on ENOMEM. */ /*=========================================================================*/ { SLPMessage message = 0; int result = 0; message = SLPMessageAlloc(); if(message == 0) { return SLP_ERROR_INTERNAL_ERROR; } result = SLPMessageParseBuffer(recvbuf, message); if(result == 0) { switch(message->header.functionid) { case SLP_FUNCT_SRVRQST: ProcessSrvRqst(peerinfo,message,sendbuf); break; case SLP_FUNCT_SRVREG: ProcessSrvReg(peerinfo,message,sendbuf); break; case SLP_FUNCT_SRVDEREG: ProcessSrvDeReg(peerinfo,message,sendbuf); break; case SLP_FUNCT_SRVACK: ProcessSrvAck(peerinfo,message,sendbuf); break; case SLP_FUNCT_ATTRRQST: ProcessAttrRqst(peerinfo,message,sendbuf); break; case SLP_FUNCT_DAADVERT: ProcessDAAdvert(peerinfo,message,sendbuf); break; case SLP_FUNCT_SRVTYPERQST: ProcessSrvTypeRqst(peerinfo,message,sendbuf); break; case SLP_FUNCT_SAADVERT: ProcessSAAdvert(peerinfo,message,sendbuf); break; default: /* this will NEVER happen */ break; } /* Log traceMsg of message was received and the one that will be sent */ if(G_SlpdProperty.traceMsg) { SLPDLogTraceMsg(peerinfo,recvbuf,sendbuf); } } else { /* TODO: Log here? */ } SLPMessageFree(message); return result; }
/*=========================================================================*/ int SLPDProcessMessage(struct sockaddr_in* peerinfo, SLPBuffer recvbuf, SLPBuffer* sendbuf) /* Processes the recvbuf and places the results in sendbuf */ /* */ /* recvfd - the socket the message was received on */ /* */ /* recvbuf - message to process */ /* */ /* sendbuf - results of the processed message */ /* */ /* Returns - zero on success SLP_ERROR_PARSE_ERROR or */ /* SLP_ERROR_INTERNAL_ERROR on ENOMEM. */ /*=========================================================================*/ { SLPMessage message = 0; int errorcode = 0; message = SLPMessageAlloc(); if(message == 0) { return SLP_ERROR_INTERNAL_ERROR; } errorcode = SLPMessageParseBuffer(recvbuf, message); #if defined(ENABLE_SLPv1) if(message->header.version == 1) return SLPDv1ProcessMessage(peerinfo, recvbuf, sendbuf, message, errorcode); #endif /* Log trace message */ SLPDLogTraceMsg("IN",peerinfo,recvbuf); switch(message->header.functionid) { case SLP_FUNCT_SRVRQST: errorcode = ProcessSrvRqst(peerinfo, message, sendbuf, errorcode); break; case SLP_FUNCT_SRVREG: errorcode = ProcessSrvReg(peerinfo, message,sendbuf, errorcode); if(errorcode == 0) { SLPDKnownDAEcho(peerinfo, message, recvbuf); } break; case SLP_FUNCT_SRVDEREG: errorcode = ProcessSrvDeReg(peerinfo, message,sendbuf, errorcode); if(errorcode == 0) { SLPDKnownDAEcho(peerinfo, message, recvbuf); } break; case SLP_FUNCT_SRVACK: errorcode = ProcessSrvAck(peerinfo, message,sendbuf, errorcode); break; case SLP_FUNCT_ATTRRQST: errorcode = ProcessAttrRqst(peerinfo, message,sendbuf, errorcode); break; case SLP_FUNCT_DAADVERT: errorcode = ProcessDAAdvert(peerinfo, message, sendbuf, errorcode); /* If necessary log that we received a DAAdvert */ SLPDLogDATrafficMsg("IN", peerinfo, message); break; case SLP_FUNCT_SRVTYPERQST: errorcode = ProcessSrvTypeRqst(peerinfo, message, sendbuf, errorcode); break; case SLP_FUNCT_SAADVERT: errorcode = ProcessSAAdvert(peerinfo, message, sendbuf, errorcode); break; default: /* This may happen on a really early parse error or version not */ /* supported error */ /* TODO log errorcode here */ break; } /* Log traceMsg of message was received and the one that will be sent */ SLPDLogTraceMsg("OUT",peerinfo,*sendbuf); SLPMessageFree(message); /* Log reception of important errors */ switch(errorcode) { case SLP_ERROR_DA_BUSY_NOW: SLPLog("DA_BUSY from %s\n", inet_ntoa(peerinfo->sin_addr)); break; case SLP_ERROR_INTERNAL_ERROR: SLPLog("INTERNAL_ERROR from %s\n", inet_ntoa(peerinfo->sin_addr)); break; case SLP_ERROR_PARSE_ERROR: SLPLog("PARSE_ERROR from %s\n", inet_ntoa(peerinfo->sin_addr)); break; case SLP_ERROR_VER_NOT_SUPPORTED: SLPLog("VER_NOT_SUPPORTED from %s\n", inet_ntoa(peerinfo->sin_addr)); break; } return errorcode; }