#include "rsnxsitems.h" #include "rsbaseserial.h" const uint8_t RsSyncGrpList::FLAG_REQUEST = 0x001; const uint8_t RsSyncGrpList::FLAG_RESPONSE = 0x002; const uint8_t RsSyncGrpMsgList::FLAG_REQUEST = 0x001; const uint8_t RsSyncGrpMsgList::FLAG_RESPONSE = 0x002; const uint8_t RsSyncGrp::FLAG_USE_SYNC_HASH = 0x001; const uint8_t RsSyncGrpMsg::FLAG_USE_SYNC_HASH = 0x001; uint32_t RsNxsSerialiser::size(RsItem *item) { RsGrpResp* grp; RsGrpMsgResp* gmp; RsSyncGrp* sg; RsSyncGrpList* sgl; RsSyncGrpMsg* sgm; RsSyncGrpMsgList* sgml; if((sg = dynamic_cast(item)) != NULL) { sizeSyncGrp(sg); }else if ((sgl = dynamic_cast(item)) != NULL) { sizeSyncGrpList(sgl); }else if ((sgm = dynamic_cast(item)) != NULL) { sizeSyncGrpMsg(sgm); }else if ((sgml = dynamic_cast(item)) != NULL) { sizeSyncGrpMsgList(sgml); }else if((grp = dynamic_cast(item)) != NULL) { sizeGrpResp(grp); }else if((gmp = dynamic_cast(item)) != NULL) { sizeGrpMsgResp(gmp); } } RsItem* RsNxsSerialiser::deserialise(void *data, uint32_t *size) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialise()" << std::endl; #endif /* get the type and size */ uint32_t rstype = getRsItemId(data); if ((RS_PKT_VERSION_SERVICE != getRsItemVersion(rstype)) || (SERVICE_TYPE != getRsItemService(rstype))) { return NULL; /* wrong type */ } switch(getRsItemSubType(rstype)) { case RS_PKT_SUBTYPE_SYNC_GRP: return deserialSyncGrp(data, size); case RS_PKT_SUBTYPE_SYNC_GRP_LIST: return deserialSyncGrpList(data, size); case RS_PKT_SUBTYPE_SYNC_MSG: return deserialSyncGrpMsg(data, size); case RS_PKT_SUBTYPE_SYNC_MSG_LIST: return deserialSyncGrpMsgList(data, size); case RS_PKT_SUBTYPE_GRPS_RESP: return deserialGrpResp(data, size); case RS_PKT_SUBTYPE_MSG_RESP: return deserialGrpMsgResp(data, size); case RS_PKT_SUBTYPE_SEARCH_REQ: return deserialNxsSearchReq(data, size); case RS_PKT_SUBTYPE_SEARCH_RESP: return deserialNxsSearchResp(data, size); default: { #ifdef NXS_DEBUG std::cerr << "RsNxsSerialiser::deserialise() : data has not type" << std::endl; #endif return NULL; } } } bool RsNxsSerialiser::serialise(RsItem *item, void *data, uint32_t *size){ RsGrpResp* grp; RsGrpMsgResp* gmp; RsSyncGrp* sg; RsSyncGrpList* sgl; RsSyncGrpMsg* sgm; RsSyncGrpMsgList* sgml; if((sg = dynamic_cast(item)) != NULL) { return serialiseSyncGrp(sg, data, size); }else if ((sgl = dynamic_cast(item)) != NULL) { return serialiseSyncGrpList(sgl, data, size); }else if ((sgm = dynamic_cast(item)) != NULL) { return serialiseSyncGrpMsg(sgm, data, size); }else if ((sgml = dynamic_cast(item)) != NULL) { return serialiseSynGrpMsgList(sgml, data, size); }else if((grp = dynamic_cast(item)) != NULL) { return serialiseGrpResp(grp, data, size); }else if((gmp = dynamic_cast(item)) != NULL) { return serialiseGrpMsgResp(gmp, data, size); } #ifdef NXS_DEBUG std::cerr << "RsNxsSerialiser::serialise() item does not caste to know type" << std::endl; #endif return NULL; } bool RsNxsSerialiser::serialiseSynGrpMsgList(RsSyncGrpMsgList *item, void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseSynGrpMsgList()" << std::endl; #endif uint32_t tlvsize = sizeSyncGrpMsgList(item); uint32_t offset = 0; if(*size < tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseSynGrpMsgList()" << std::endl; #endif return false; } *size = tlvsize; bool ok = true; ok = setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize); /* skip the header */ offset += 8; /* RsSyncGrpMsgList */ ok &= setRawUInt8(data, *size, &offset, item->flag); ok &= SetTlvString(data, *size, &offset, TLV_TYPE_STR_GROUPID, item->grpId); std::map >::iterator mit = item->msgs.begin(); for(; mit != item->msgs.end(); mit++){ // if not version contains then this // entry is invalid ok &= SetTlvString(data, *size, &offset, TLV_TYPE_STR_MSGID, mit->first); uint32_t nVersions = mit->second.size(); ok &= setRawUInt32(data, *size, &offset, nVersions); std::list::iterator lit = mit->second.begin(); for(; lit != mit->second.end(); lit++) { ok &= SetTlvUInt32(data, *size, &offset, TLV_TYPE_UINT32_AGE, *lit); } } if(offset != tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseSynGrpMsgList() FAIL Size Error! " << std::endl; #endif ok = false; } #ifdef RSSERIAL_DEBUG if (!ok) { std::cerr << "RsNxsSerialiser::serialiseSynGrpMsgList() NOK" << std::endl; } #endif return ok; } bool RsNxsSerialiser::serialiseGrpMsgResp(RsGrpMsgResp *item, void *data, uint32_t *size) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseGrpMsgResp()" << std::endl; #endif uint32_t tlvsize = sizeGrpMsgResp(item); uint32_t offset = 0; if(*size < tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseGrpMsgResp()" << std::endl; #endif return false; } *size = tlvsize; bool ok = true; ok = setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize); /* skip the header */ offset += 8; /* RsSyncGrpMsgList */ std::list::iterator lit = item->msgs.begin(); for(; lit != item->msgs.end(); lit++){ RsTlvBinaryData*& b = *lit; b->SetTlv(data, *size, &offset); } if(offset != tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseGrpMsgResp() FAIL Size Error! " << std::endl; #endif ok = false; } #ifdef RSSERIAL_DEBUG if (!ok) { std::cerr << "RsNxsSerialiser::serialiseGrpMsgResp() NOK" << std::endl; } #endif return ok; } bool RsNxsSerialiser::serialiseGrpResp(RsGrpResp *item, void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseGrpResp()" << std::endl; #endif uint32_t tlvsize = sizeGrpResp(item); uint32_t offset = 0; if(*size < tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseGrpResp()" << std::endl; #endif return false; } *size = tlvsize; bool ok = true; ok = setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize); /* skip the header */ offset += 8; std::list::iterator lit = item->grps.begin(); for(; lit != item->grps.end(); lit++){ RsTlvBinaryData*& b = *lit; b->SetTlv(data, *size, &offset); } if(offset != tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseGrpResp() FAIL Size Error! " << std::endl; #endif ok = false; } #ifdef RSSERIAL_DEBUG if (!ok) { std::cerr << "RsNxsSerialiser::serialiseGrpResp() NOK" << std::endl; } #endif return ok; } bool RsNxsSerialiser::serialiseSyncGrp(RsSyncGrp *item, void *data, uint32_t *size) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseSyncGrp()" << std::endl; #endif uint32_t tlvsize = sizeSyncGrp(item); uint32_t offset = 0; if(*size < tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseSyncGrp()" << std::endl; #endif return false; } *size = tlvsize; bool ok = true; ok = setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize); /* skip the header */ offset += 8; ok &= setRawUInt8(data, *size, &offset, item->flag); ok &= setRawUInt32(data, *size, &offset, item->syncAge); ok &= SetTlvString(data, *size, &offset, TLV_TYPE_STR_HASH_SHA1, item->syncHash); if(offset != tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseSyncGrp() FAIL Size Error! " << std::endl; #endif ok = false; } #ifdef RSSERIAL_DEBUG if (!ok) { std::cerr << "RsNxsSerialiser::serialiseSyncGrp() NOK" << std::endl; } #endif return ok; } bool RsNxsSerialiser::serialiseSyncGrpList(RsSyncGrpList *item, void *data, uint32_t *size) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseSyncGrpList()" << std::endl; #endif uint32_t tlvsize = sizeSyncGrpList(item); uint32_t offset = 0; if(*size < tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseSyncGrpList() size do not match" << std::endl; #endif return false; } *size = tlvsize; bool ok = true; ok = setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize); /* skip the header */ offset += 8; /* RsSyncGrpList */ std::map >::iterator mit = item->grps.begin(); ok &= setRawUInt8(data, *size, &offset, item->flag); for(; mit != item->grps.end(); mit++){ // if not version contains then this // entry is invalid ok &= SetTlvString(data, *size, &offset, TLV_TYPE_STR_GROUPID, mit->first); uint32_t nVersions = mit->second.size(); ok &= setRawUInt32(data, *size, &offset, nVersions); std::list::iterator lit = mit->second.begin(); for(; lit != mit->second.end(); lit++) { ok &= SetTlvUInt32(data, *size, &offset, TLV_TYPE_UINT32_AGE, *lit); } } if(offset != tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseSyncGrpList( FAIL Size Error! " << std::endl; #endif ok = false; } #ifdef RSSERIAL_DEBUG if (!ok) { std::cerr << "RsNxsSerialiser::serialiseSyncGrpList() NOK" << std::endl; } #endif return ok; } bool RsNxsSerialiser::serialiseSyncGrpMsg(RsSyncGrpMsg *item, void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseSyncGrpMsg()" << std::endl; #endif uint32_t tlvsize = sizeSyncGrpMsg(item); uint32_t offset = 0; if(*size < tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseSyncGrpMsg()" << std::endl; #endif return false; } *size = tlvsize; bool ok = true; ok = setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize); /* skip the header */ offset += 8; ok &= setRawUInt8(data, *size, &offset, item->flag); ok &= setRawUInt32(data, *size, &offset, item->syncAge); ok &= SetTlvString(data, *size, &offset, TLV_TYPE_STR_HASH_SHA1, item->syncHash); ok &= SetTlvString(data, *size, &offset, TLV_TYPE_STR_GROUPID, item->grpId); if(offset != tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseSyncGrpMsg() FAIL Size Error! " << std::endl; #endif ok = false; } #ifdef RSSERIAL_DEBUG if (!ok) { std::cerr << "RsNxsSerialiser::serialiseSyncGrpMsg( NOK" << std::endl; } #endif return ok; } // TODO: need to finalise search term members bool RsNxsSerialiser::serialiseNxsSearchReq(RsNxsSearchReq *item, void *data, uint32_t *size){ return false; } bool RsNxsSerialiser::serialiseNxsSearchResp(RsNxsSearchResp *item, void *data, uint32_t *size){ return false; } /*** deserialisation ***/ RsGrpResp* RsNxsSerialiser::deserialGrpResp(void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialGrpResp()" << std::endl; #endif /* get the type and size */ uint32_t rstype = getRsItemId(data); uint32_t rssize = getRsItemSize(data); uint32_t offset = 0; if ((RS_PKT_VERSION_SERVICE != getRsItemVersion(rstype)) || (SERVICE_TYPE != getRsItemService(rstype)) || (RS_PKT_SUBTYPE_GRPS_RESP != getRsItemSubType(rstype))) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialGrpResp() FAIL wrong type" << std::endl; #endif return NULL; /* wrong type */ } if (*size < rssize) /* check size */ { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialGrpResp() FAIL wrong size" << std::endl; #endif return NULL; /* not enough data */ } /* set the packet length */ *size = rssize; bool ok = true; RsGrpResp* item = new RsGrpResp(SERVICE_TYPE); /* skip the header */ offset += 8; while(offset < *size && ok){ RsTlvBinaryData *b = new RsTlvBinaryData(SERVICE_TYPE); ok &= b->GetTlv(data, *size, &offset); if(ok) item->grps.push_back(b); else{ delete b; #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialGrpResp(): Failure to deserialise binary group!" << std::endl; #endif } } if (offset != rssize) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialGrpResp() FAIL size mismatch" << std::endl; #endif /* error */ delete item; return NULL; } if (!ok) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialGrpResp() NOK" << std::endl; #endif delete item; return NULL; } return item; } RsGrpMsgResp* RsNxsSerialiser::deserialGrpMsgResp(void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialGrpResp()" << std::endl; #endif /* get the type and size */ uint32_t rstype = getRsItemId(data); uint32_t rssize = getRsItemSize(data); uint32_t offset = 0; if ((RS_PKT_VERSION_SERVICE != getRsItemVersion(rstype)) || (SERVICE_TYPE != getRsItemService(rstype)) || (RS_PKT_SUBTYPE_MSG_RESP != getRsItemSubType(rstype))) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialGrpMsgResp() FAIL wrong type" << std::endl; #endif return NULL; /* wrong type */ } if (*size < rssize) /* check size */ { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialGrpMsgResp() FAIL wrong size" << std::endl; #endif return NULL; /* not enough data */ } /* set the packet length */ *size = rssize; bool ok = true; RsGrpMsgResp* item = new RsGrpMsgResp(getRsItemService(rstype)); /* skip the header */ offset += 8; while(offset < *size){ RsTlvBinaryData *b = new RsTlvBinaryData(SERVICE_TYPE); ok &= b->GetTlv(data, *size, &offset); if(ok) item->msgs.push_back(b); else { delete b; #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialGrpMsgResp(): Failure to deserialise binary message!" << std::endl; #endif } } if (offset != rssize) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialGrpMsgResp() FAIL size mismatch" << std::endl; #endif /* error */ delete item; return NULL; } if (!ok) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialGrpMsgResp() NOK" << std::endl; #endif delete item; return NULL; } return item; } RsSyncGrp* RsNxsSerialiser::deserialSyncGrp(void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrp()" << std::endl; #endif /* get the type and size */ uint32_t rstype = getRsItemId(data); uint32_t rssize = getRsItemSize(data); uint32_t offset = 0; if ((RS_PKT_VERSION_SERVICE != getRsItemVersion(rstype)) || (SERVICE_TYPE != getRsItemService(rstype)) || (RS_PKT_SUBTYPE_SYNC_GRP != getRsItemSubType(rstype))) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrp() FAIL wrong type" << std::endl; #endif return NULL; /* wrong type */ } if (*size < rssize) /* check size */ { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrp() FAIL wrong size" << std::endl; #endif return NULL; /* not enough data */ } /* set the packet length */ *size = rssize; bool ok = true; RsSyncGrp* item = new RsSyncGrp(getRsItemService(rstype)); /* skip the header */ offset += 8; ok &= getRawUInt8(data, *size, &offset, &(item->flag)); ok &= getRawUInt32(data, *size, &offset, &(item->syncAge)); ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_HASH_SHA1, item->syncHash); if (offset != rssize) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrp() FAIL size mismatch" << std::endl; #endif /* error */ delete item; return NULL; } if (!ok) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrp() NOK" << std::endl; #endif delete item; return NULL; } return item; } RsSyncGrpList* RsNxsSerialiser::deserialSyncGrpList(void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpList()" << std::endl; #endif /* get the type and size */ uint32_t rstype = getRsItemId(data); uint32_t rssize = getRsItemSize(data); uint32_t offset = 0; if ((RS_PKT_VERSION_SERVICE != getRsItemVersion(rstype)) || (SERVICE_TYPE != getRsItemService(rstype)) || (RS_PKT_SUBTYPE_SYNC_GRP_LIST != getRsItemSubType(rstype))) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpList() FAIL wrong type" << std::endl; #endif return NULL; /* wrong type */ } if (*size < rssize) /* check size */ { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpList() FAIL wrong size" << std::endl; #endif return NULL; /* not enough data */ } /* set the packet length */ *size = rssize; bool ok = true; RsSyncGrpList* item = new RsSyncGrpList(SERVICE_TYPE); /* skip the header */ offset += 8; ok &= getRawUInt8(data, *size, &offset, &(item->flag)); while((offset < rssize) && ok) { std::string grpId; ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_GROUPID, grpId); uint32_t nVersions; ok &= getRawUInt32(data, *size, &offset, &nVersions); std::list verL; uint32_t verCount = 0; while((offset < rssize) && ok && (verCount < nVersions)) { uint32_t version; ok &= GetTlvUInt32(data, *size, &offset, TLV_TYPE_UINT32_AGE, &version); verL.push_back(version); verCount++; } item->grps[grpId] = verL; } if (offset != rssize) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpList() FAIL size mismatch" << std::endl; #endif /* error */ delete item; return NULL; } if (!ok) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpList() NOK" << std::endl; #endif delete item; return NULL; } return item; } RsSyncGrpMsgList* RsNxsSerialiser::deserialSyncGrpMsgList(void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpMsgList()" << std::endl; #endif /* get the type and size */ uint32_t rstype = getRsItemId(data); uint32_t rssize = getRsItemSize(data); uint32_t offset = 0; if ((RS_PKT_VERSION_SERVICE != getRsItemVersion(rstype)) || (SERVICE_TYPE != getRsItemService(rstype)) || (RS_PKT_SUBTYPE_SYNC_MSG_LIST != getRsItemSubType(rstype))) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpMsgList() FAIL wrong type" << std::endl; #endif return NULL; /* wrong type */ } if (*size < rssize) /* check size */ { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpMsgList( FAIL wrong size" << std::endl; #endif return NULL; /* not enough data */ } /* set the packet length */ *size = rssize; bool ok = true; RsSyncGrpMsgList* item = new RsSyncGrpMsgList(getRsItemService(rstype)); /* skip the header */ offset += 8; ok &= getRawUInt8(data, *size, &offset, &(item->flag)); ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_GROUPID, item->grpId); // now get number of msgs while((offset < rssize) && ok) { std::string msgId; ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_MSGID, msgId); uint32_t nVersions; ok &= getRawUInt32(data, *size, &offset, &nVersions); std::list verL; uint32_t verCount = 0; while((offset < rssize) && ok && (verCount < nVersions)) { uint32_t version; ok &= GetTlvUInt32(data, *size, &offset, TLV_TYPE_UINT32_AGE, &version); verL.push_back(version); verCount++; } item->msgs[msgId] = verL; } if (offset != rssize) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpMsgList() FAIL size mismatch" << std::endl; #endif /* error */ delete item; return NULL; } if (!ok) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpMsgList() NOK" << std::endl; #endif delete item; return NULL; } return item; } RsSyncGrpMsg* RsNxsSerialiser::deserialSyncGrpMsg(void *data, uint32_t *size) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrp()" << std::endl; #endif /* get the type and size */ uint32_t rstype = getRsItemId(data); uint32_t rssize = getRsItemSize(data); uint32_t offset = 0; if ((RS_PKT_VERSION_SERVICE != getRsItemVersion(rstype)) || (SERVICE_TYPE != getRsItemService(rstype)) || (RS_PKT_SUBTYPE_SYNC_MSG != getRsItemSubType(rstype))) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpMsg() FAIL wrong type" << std::endl; #endif return NULL; /* wrong type */ } if (*size < rssize) /* check size */ { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpMsg() FAIL wrong size" << std::endl; #endif return NULL; /* not enough data */ } /* set the packet length */ *size = rssize; bool ok = true; RsSyncGrpMsg* item = new RsSyncGrpMsg(getRsItemService(rstype)); /* skip the header */ offset += 8; ok &= getRawUInt8(data, *size, &offset, &(item->flag)); ok &= getRawUInt32(data, *size, &offset, &(item->syncAge)); ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_HASH_SHA1, item->syncHash); ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_GROUPID, item->grpId); if (offset != rssize) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpMsg() FAIL size mismatch" << std::endl; #endif /* error */ delete item; return NULL; } if (!ok) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialSyncGrpMsg() NOK" << std::endl; #endif delete item; return NULL; } return item; } RsNxsSearchReq* RsNxsSerialiser::deserialNxsSearchReq(void *data, uint32_t *size) { return NULL; } RsNxsSearchResp* RsNxsSerialiser::deserialNxsSearchResp(void *data, uint32_t *size) { return NULL; } /*** size functions ***/ uint32_t RsNxsSerialiser::sizeGrpMsgResp(RsGrpMsgResp *item) { uint32_t s = 8; //header size std::list::iterator it = item->msgs.begin(); for(; it != item->msgs.end(); it++) s += (*it)->TlvSize(); return s; } uint32_t RsNxsSerialiser::sizeGrpResp(RsGrpResp *item) { uint32_t s = 8; // header size std::list::iterator it = item->grps.begin(); for(; it != item->grps.end(); it++) s += (*it)->TlvSize(); return s; } uint32_t RsNxsSerialiser::sizeSyncGrp(RsSyncGrp *item) { uint32_t s = 8; // header size s += 1; // flag s += 4; // sync age s += GetTlvStringSize(item->syncHash); return s; } uint32_t RsNxsSerialiser::sizeSyncGrpList(RsSyncGrpList *item) { uint32_t s = 8; // header size s += 1; // flag std::map >::iterator mit = item->grps.begin(); for(; mit != item->grps.end(); mit++){ s += 4; // number of versions s += GetTlvStringSize(mit->first); const std::list& verL = mit->second; std::list::const_iterator lit = verL.begin(); for(; lit != verL.end(); lit++){ s += GetTlvUInt32Size(); // version } } return s; } uint32_t RsNxsSerialiser::sizeSyncGrpMsg(RsSyncGrpMsg *item) { uint32_t s = 8; s += 1; // flag s += 4; // age s += GetTlvStringSize(item->grpId); s += GetTlvStringSize(item->syncHash); return s; } uint32_t RsNxsSerialiser::sizeSyncGrpMsgList(RsSyncGrpMsgList *item) { uint32_t s = 8; // header size s += 1; // flag s += GetTlvStringSize(item->grpId); std::map >::iterator mit = item->msgs.begin(); for(; mit != item->msgs.end(); mit++){ s += 4; // number of versions s += GetTlvStringSize(mit->first); const std::list& verL = mit->second; std::list::const_iterator lit = verL.begin(); for(; lit != verL.end(); lit++){ s += GetTlvUInt32Size(); // version } } return s; } uint32_t RsNxsSerialiser::sizeNxsSearchReq(RsNxsSearchReq *item) { return 0; } uint32_t RsNxsSerialiser::sizeNxsSearchResp(RsNxsSearchResp *item) { return 0; } /** print and clear functions **/ void RsGrpMsgResp::clear() { std::list::iterator it = msgs.begin(); for(; it != msgs.end(); it++) (*it)->TlvClear(); msgs.clear(); } void RsGrpResp::clear() { std::list::iterator it = grps.begin(); for(; it != grps.end(); it++) (*it)->TlvClear(); grps.clear(); } void RsSyncGrp::clear() { flag = 0; syncAge = 0; syncHash.clear(); } void RsSyncGrpMsg::clear() { grpId.clear(); flag = 0; syncAge = 0; syncHash.clear(); } void RsSyncGrpList::clear() { flag = 0; grps.clear(); } void RsSyncGrpMsgList::clear() { flag = 0; msgs.clear(); } std::ostream& RsSyncGrp::print(std::ostream &out, uint16_t indent) { printRsItemBase(out, "RsSyncGrp", indent); uint16_t int_Indent = indent + 2; printIndent(out , int_Indent); out << "Hash: " << syncHash << std::endl; printIndent(out , int_Indent); out << "Sync Age: " << syncAge << std::endl; printIndent(out , int_Indent); out << "flag" << flag << std::endl; printRsItemEnd(out ,"RsSyncGrp", indent); return out; } std::ostream& RsSyncGrpMsg::print(std::ostream &out, uint16_t indent) { printRsItemBase(out, "RsSyncGrpMsg", indent); uint16_t int_Indent = indent + 2; printIndent(out , int_Indent); out << "GrpId: " << grpId << std::endl; printIndent(out , int_Indent); out << "syncAge: " << syncAge << std::endl; printIndent(out , int_Indent); out << "syncHash: " << syncHash << std::endl; printIndent(out , int_Indent); out << "flag: " << flag << std::endl; printRsItemEnd(out, "RsSyncGrpMsg", indent); return out; } std::ostream& RsSyncGrpList::print(std::ostream &out, uint16_t indent) { printRsItemBase(out, "RsSyncGrpList", indent); uint16_t int_Indent = indent + 2; printIndent(out , int_Indent); out << "flag: " << flag << std::endl; printIndent(out , int_Indent); std::map >::iterator mit = grps.begin(); for(; mit != grps.end(); mit++){ out << "grpId: " << mit->first; printIndent(out , int_Indent); const std::list& verL = mit->second; std::list::const_iterator lit = verL.begin(); for(; lit != verL.end(); lit++){ out << "version: " << *lit << std::endl; printIndent(out , int_Indent); } } printRsItemEnd(out , "RsSyncGrpList", indent); return out; } std::ostream& RsSyncGrpMsgList::print(std::ostream &out, uint16_t indent) { printRsItemBase(out, "RsSyncGrpMsgList", indent); uint16_t int_Indent = indent + 2; printIndent(out , int_Indent); out << "flag: " << flag << std::endl; printIndent(out , int_Indent); out << "grpId: " << grpId << std::endl; std::map >::iterator mit = msgs.begin(); for(; mit != msgs.end(); mit++){ out << "msgId: " << mit->first; printIndent(out , int_Indent); const std::list& verL = mit->second; std::list::const_iterator lit = verL.begin(); for(; lit != verL.end(); lit++){ out << "version: " << *lit << std::endl; printIndent(out , int_Indent); } } printRsItemEnd(out ,"RsSyncGrpMsgList", indent); return out; } std::ostream& RsGrpMsgResp::print(std::ostream &out, uint16_t indent){ printRsItemBase(out, "RsGrpMsgResp", indent); std::list::iterator it = msgs.begin(); for(; it != msgs.end(); it++) (*it)->print(out, indent); printRsItemEnd(out, "RsGrpMsgResp", indent); return out; } std::ostream& RsGrpResp::print(std::ostream &out, uint16_t indent){ printRsItemBase(out, "RsGrpResp", indent); std::list::iterator it = grps.begin(); for(; it != grps.end(); it++) (*it)->print(out, indent); printRsItemEnd(out ,"RsGrpMsgResp", indent); return out; }