#include "rsnxsitems.h" #include "rsbaseserial.h" /*** * #define RSSERIAL_DEBUG 1 ***/ const uint8_t RsNxsSyncGrpItem::FLAG_REQUEST = 0x001; const uint8_t RsNxsSyncGrpItem::FLAG_RESPONSE = 0x002; const uint8_t RsNxsSyncMsgItem::FLAG_REQUEST = 0x001; const uint8_t RsNxsSyncMsgItem::FLAG_RESPONSE = 0x002; const uint8_t RsNxsSyncGrp::FLAG_USE_SYNC_HASH = 0x001; const uint8_t RsNxsSyncMsg::FLAG_USE_SYNC_HASH = 0x001; /** transaction state **/ const uint16_t RsNxsTransac::FLAG_BEGIN_P1 = 0x0001; const uint16_t RsNxsTransac::FLAG_BEGIN_P2 = 0x0002; const uint16_t RsNxsTransac::FLAG_END_SUCCESS = 0x0004; const uint16_t RsNxsTransac::FLAG_CANCEL = 0x0008; const uint16_t RsNxsTransac::FLAG_END_FAIL_NUM = 0x0010; const uint16_t RsNxsTransac::FLAG_END_FAIL_TIMEOUT = 0x0020; const uint16_t RsNxsTransac::FLAG_END_FAIL_FULL = 0x0040; /** transaction type **/ const uint16_t RsNxsTransac::FLAG_TYPE_GRP_LIST_RESP = 0x0100; const uint16_t RsNxsTransac::FLAG_TYPE_MSG_LIST_RESP = 0x0200; const uint16_t RsNxsTransac::FLAG_TYPE_GRP_LIST_REQ = 0x0400; const uint16_t RsNxsTransac::FLAG_TYPE_MSG_LIST_REQ = 0x0800; const uint16_t RsNxsTransac::FLAG_TYPE_GRPS = 0x1000; const uint16_t RsNxsTransac::FLAG_TYPE_MSGS = 0x2000; uint32_t RsNxsSerialiser::size(RsItem *item) { RsNxsGrp* ngp; RsNxsMsg* nmg; RsNxsSyncGrp* sg; RsNxsSyncGrpItem* sgl; RsNxsSyncMsg* sgm; RsNxsSyncMsgItem* sgml; RsNxsTransac* ntx; if((sg = dynamic_cast(item)) != NULL) { return sizeNxsSyncGrp(sg); }else if(( ntx = dynamic_cast(item)) != NULL){ return sizeNxsTrans(ntx); } else if ((sgl = dynamic_cast(item)) != NULL) { return sizeNxsSyncGrpItem(sgl); }else if ((sgm = dynamic_cast(item)) != NULL) { return sizeNxsSyncMsg(sgm); }else if ((sgml = dynamic_cast(item)) != NULL) { return sizeNxsSyncMsgItem(sgml); }else if((ngp = dynamic_cast(item)) != NULL) { return sizeNxsGrp(ngp); }else if((nmg = dynamic_cast(item)) != NULL) { return sizeNxsMsg(nmg); }else{ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::size(): Could not find appropriate size function" << std::endl; #endif return 0; } } 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_NXS_SYNC_GRP: return deserialNxsSyncGrp(data, size); case RS_PKT_SUBTYPE_NXS_SYNC_GRP_ITEM: return deserialNxsSyncGrpItem(data, size); case RS_PKT_SUBTYPE_NXS_SYNC_MSG: return deserialNxsSyncMsg(data, size); case RS_PKT_SUBTYPE_NXS_SYNC_MSG_ITEM: return deserialNxsSyncMsgItem(data, size); case RS_PKT_SUBTYPE_NXS_GRP: return deserialNxsGrp(data, size); case RS_PKT_SUBTYPE_NXS_MSG: return deserialNxsMsg(data, size); case RS_PKT_SUBTYPE_NXS_TRANS: return deserialNxsTrans(data, size); case RS_PKT_SUBTYPE_NXS_EXTENDED: return deserialNxsExtended(data, size); default: { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialise() : data has no type" << std::endl; #endif return NULL; } } } bool RsNxsSerialiser::serialise(RsItem *item, void *data, uint32_t *size){ RsNxsGrp* ngp; RsNxsMsg* nmg; RsNxsSyncGrp* sg; RsNxsSyncGrpItem* sgl; RsNxsSyncMsg* sgm; RsNxsSyncMsgItem* sgml; RsNxsExtended* nxt; RsNxsTransac* ntx; if((sg = dynamic_cast(item)) != NULL) { return serialiseNxsSyncGrp(sg, data, size); }else if ((ntx = dynamic_cast(item)) != NULL) { return serialiseNxsTrans(ntx, data, size); }else if ((sgl = dynamic_cast(item)) != NULL) { return serialiseNxsSyncGrpItem(sgl, data, size); }else if ((sgm = dynamic_cast(item)) != NULL) { return serialiseNxsSyncMsg(sgm, data, size); }else if ((sgml = dynamic_cast(item)) != NULL) { return serialiseNxsSynMsgItem(sgml, data, size); }else if((ngp = dynamic_cast(item)) != NULL) { return serialiseNxsGrp(ngp, data, size); }else if((nmg = dynamic_cast(item)) != NULL) { return serialiseNxsMsg(nmg, data, size); }else if((nxt = dynamic_cast(item)) != NULL){ return serialiseNxsExtended(nxt, data, size); } #ifdef NXS_DEBUG std::cerr << "RsNxsSerialiser::serialise() item does not caste to know type" << std::endl; #endif return NULL; } bool RsNxsSerialiser::serialiseNxsSynMsgItem(RsNxsSyncMsgItem *item, void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsSynMsgItem()" << std::endl; #endif uint32_t tlvsize = sizeNxsSyncMsgItem(item); uint32_t offset = 0; if(*size < tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsSynMsgItem()" << std::endl; #endif return false; } *size = tlvsize; bool ok = true; ok &= setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize); /* skip the header */ offset += 8; /* RsNxsSyncMsgItem */ ok &= setRawUInt32(data, *size, &offset, item->transactionNumber); ok &= setRawUInt8(data, *size, &offset, item->flag); ok &= SetTlvString(data, *size, &offset, TLV_TYPE_STR_GROUPID, item->grpId); ok &= SetTlvString(data, *size, &offset, TLV_TYPE_STR_MSGID, item->msgId); ok &= SetTlvString(data, *size, &offset, TLV_TYPE_STR_NAME, item->authorId); if(offset != tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsSynMsgItem() FAIL Size Error! " << std::endl; #endif ok = false; } #ifdef RSSERIAL_DEBUG if (!ok) { std::cerr << "RsNxsSerialiser::serialiseNxsSynMsgItem() NOK" << std::endl; } #endif return ok; } bool RsNxsSerialiser::serialiseNxsMsg(RsNxsMsg *item, void *data, uint32_t *size) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsMsg()" << std::endl; #endif uint32_t tlvsize = sizeNxsMsg(item); uint32_t offset = 0; if(*size < tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsMsg()" << std::endl; #endif return false; } *size = tlvsize; bool ok = true; ok &= setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize); /* skip the header */ offset += 8; ok &= setRawUInt32(data, *size, &offset, item->transactionNumber); ok &= setRawUInt8(data, *size, &offset, item->pos); ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_MSGID, item->msgId); ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_GROUPID, item->grpId); ok &= item->msg.SetTlv(data, tlvsize, &offset); ok &= item->meta.SetTlv(data, *size, &offset); if(offset != tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsMsg() FAIL Size Error! " << std::endl; #endif ok = false; } #ifdef RSSERIAL_DEBUG if (!ok) { std::cerr << "RsNxsSerialiser::serialiseNxsMsg() NOK" << std::endl; } #endif return ok; } bool RsNxsSerialiser::serialiseNxsGrp(RsNxsGrp *item, void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsGrp()" << std::endl; #endif uint32_t tlvsize = sizeNxsGrp(item); uint32_t offset = 0; if(*size < tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsGrp()" << std::endl; #endif return false; } *size = tlvsize; bool ok = true; ok &= setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize); /* skip the header */ offset += 8; // grp id ok &= setRawUInt32(data, *size, &offset, item->transactionNumber); ok &= setRawUInt8(data, *size, &offset, item->pos); ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_GROUPID, item->grpId); ok &= item->grp.SetTlv(data, tlvsize, &offset); ok &= item->meta.SetTlv(data, *size, &offset); if(offset != tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsGrp() FAIL Size Error! " << std::endl; #endif ok = false; } #ifdef RSSERIAL_DEBUG if (!ok) { std::cerr << "RsNxsSerialiser::serialiseNxsGrp() NOK" << std::endl; } #endif return ok; } bool RsNxsSerialiser::serialiseNxsSyncGrp(RsNxsSyncGrp *item, void *data, uint32_t *size) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsSyncGrp()" << std::endl; #endif uint32_t tlvsize = sizeNxsSyncGrp(item); uint32_t offset = 0; if(*size < tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsSyncGrp()" << std::endl; #endif return false; } *size = tlvsize; bool ok = true; ok &= setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize); /* skip the header */ offset += 8; ok &= setRawUInt32(data, *size, &offset, item->transactionNumber); 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::serialiseNxsTrans(RsNxsTransac *item, void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsTrans()" << std::endl; #endif uint32_t tlvsize = sizeNxsTrans(item); uint32_t offset = 0; if(*size < tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsTrans() 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; ok &= setRawUInt32(data, *size, &offset, item->transactionNumber); ok &= setRawUInt16(data, *size, &offset, item->transactFlag); ok &= setRawUInt32(data, *size, &offset, item->nItems); ok &= setRawUInt32(data, *size, &offset, item->timestamp); if(offset != tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsTrans() FAIL Size Error! " << std::endl; #endif ok = false; } #ifdef RSSERIAL_DEBUG if (!ok) { std::cerr << "RsNxsSerialiser::serialiseNxsTrans() NOK" << std::endl; } #endif return ok; } bool RsNxsSerialiser::serialiseNxsSyncGrpItem(RsNxsSyncGrpItem *item, void *data, uint32_t *size) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsSyncGrpItem()" << std::endl; #endif uint32_t tlvsize = sizeNxsSyncGrpItem(item); uint32_t offset = 0; if(*size < tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsSyncm() 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; /* RsNxsSyncm */ ok &= setRawUInt32(data, *size, &offset, item->transactionNumber); ok &= setRawUInt8(data, *size, &offset, item->flag); ok &= SetTlvString(data, *size, &offset, TLV_TYPE_STR_GROUPID, item->grpId); ok &= setRawUInt32(data, *size, &offset, item->publishTs); ok &= SetTlvString(data, *size, &offset, TLV_TYPE_STR_NAME, item->authorId); if(offset != tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsSyncm( FAIL Size Error! " << std::endl; #endif ok = false; } #ifdef RSSERIAL_DEBUG if (!ok) { std::cerr << "RsNxsSerialiser::serialiseNxsSyncm() NOK" << std::endl; } #endif return ok; } bool RsNxsSerialiser::serialiseNxsSyncMsg(RsNxsSyncMsg *item, void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsSyncMsg()" << std::endl; #endif uint32_t tlvsize = sizeNxsSyncMsg(item); uint32_t offset = 0; if(*size < tlvsize){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::serialiseNxsSyncMsg()" << std::endl; #endif return false; } *size = tlvsize; bool ok = true; ok &= setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize); /* skip the header */ offset += 8; ok &= setRawUInt32(data, *size, &offset, item->transactionNumber); 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::serialiseNxsSyncMsg() FAIL Size Error! " << std::endl; #endif ok = false; } #ifdef RSSERIAL_DEBUG if (!ok) { std::cerr << "RsNxsSerialiser::serialiseNxsSyncMsg( NOK" << std::endl; } #endif return ok; } bool RsNxsSerialiser::serialiseNxsExtended(RsNxsExtended *item, void *data, uint32_t *size){ return false; } /*** deserialisation ***/ RsNxsGrp* RsNxsSerialiser::deserialNxsGrp(void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsGrp()" << 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_NXS_GRP != getRsItemSubType(rstype))) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsGrp() FAIL wrong type" << std::endl; #endif return NULL; /* wrong type */ } if (*size < rssize) /* check size */ { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsGrp() FAIL wrong size" << std::endl; #endif return NULL; /* not enough data */ } /* set the packet length */ *size = rssize; bool ok = true; RsNxsGrp* item = new RsNxsGrp(SERVICE_TYPE); /* skip the header */ offset += 8; ok &= getRawUInt32(data, *size, &offset, &(item->transactionNumber)); ok &= getRawUInt8(data, *size, &offset, &(item->pos)); ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_GROUPID, item->grpId); ok &= item->grp.GetTlv(data, *size, &offset); ok &= item->meta.GetTlv(data, *size, &offset); if (offset != rssize) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsGrp() FAIL size mismatch" << std::endl; #endif /* error */ delete item; return NULL; } if (!ok) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsGrp() NOK" << std::endl; #endif delete item; return NULL; } return item; } RsNxsMsg* RsNxsSerialiser::deserialNxsMsg(void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsMsg()" << 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_NXS_MSG != getRsItemSubType(rstype))) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsMsg() FAIL wrong type" << std::endl; #endif return NULL; /* wrong type */ } if (*size < rssize) /* check size */ { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsMsg() FAIL wrong size" << std::endl; #endif return NULL; /* not enough data */ } /* set the packet length */ *size = rssize; bool ok = true; RsNxsMsg* item = new RsNxsMsg(getRsItemService(rstype)); /* skip the header */ offset += 8; ok &= getRawUInt32(data, *size, &offset, &(item->transactionNumber)); ok &= getRawUInt8(data, *size, &offset, &(item->pos)); ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_MSGID, item->msgId); ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_GROUPID, item->grpId); ok &= item->msg.GetTlv(data, *size, &offset); ok &= item->meta.GetTlv(data, *size, &offset); if (offset != rssize) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsMsg() FAIL size mismatch" << std::endl; #endif /* error */ delete item; return NULL; } if (!ok) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsMsg() NOK" << std::endl; #endif delete item; return NULL; } return item; } RsNxsSyncGrp* RsNxsSerialiser::deserialNxsSyncGrp(void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncGrp()" << 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_NXS_SYNC_GRP != getRsItemSubType(rstype))) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncGrp() FAIL wrong type" << std::endl; #endif return NULL; /* wrong type */ } if (*size < rssize) /* check size */ { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncGrp() FAIL wrong size" << std::endl; #endif return NULL; /* not enough data */ } /* set the packet length */ *size = rssize; bool ok = true; RsNxsSyncGrp* item = new RsNxsSyncGrp(getRsItemService(rstype)); /* skip the header */ offset += 8; ok &= getRawUInt32(data, *size, &offset, &(item->transactionNumber)); 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::deserialNxsSyncGrp() FAIL size mismatch" << std::endl; #endif /* error */ delete item; return NULL; } if (!ok) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncGrp() NOK" << std::endl; #endif delete item; return NULL; } return item; } RsNxsSyncGrpItem* RsNxsSerialiser::deserialNxsSyncGrpItem(void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncGrpItem()" << 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_NXS_SYNC_GRP_ITEM != getRsItemSubType(rstype))) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncGrpItem() FAIL wrong type" << std::endl; #endif return NULL; /* wrong type */ } if (*size < rssize) /* check size */ { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncGrpItem() FAIL wrong size" << std::endl; #endif return NULL; /* not enough data */ } /* set the packet length */ *size = rssize; bool ok = true; RsNxsSyncGrpItem* item = new RsNxsSyncGrpItem(SERVICE_TYPE); /* skip the header */ offset += 8; ok &= getRawUInt32(data, *size, &offset, &(item->transactionNumber)); ok &= getRawUInt8(data, *size, &offset, &(item->flag)); ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_GROUPID, item->grpId); ok &= getRawUInt32(data, *size, &offset, &(item->publishTs)); ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_NAME, item->authorId); if (offset != rssize) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncGrpItem() FAIL size mismatch" << std::endl; #endif /* error */ delete item; return NULL; } if (!ok) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncGrpItem() NOK" << std::endl; #endif delete item; return NULL; } return item; } RsNxsTransac* RsNxsSerialiser::deserialNxsTrans(void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsTrans()" << 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_NXS_TRANS != getRsItemSubType(rstype))) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsTrans() FAIL wrong type" << std::endl; #endif return NULL; /* wrong type */ } if (*size < rssize) /* check size */ { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncMsgItem( FAIL wrong size" << std::endl; #endif return NULL; /* not enough data */ } /* set the packet length */ *size = rssize; /* skip the header */ offset += 8; bool ok = true; RsNxsTransac* item = new RsNxsTransac(SERVICE_TYPE); ok &= getRawUInt32(data, *size, &offset, &(item->transactionNumber)); ok &= getRawUInt16(data, *size, &offset, &(item->transactFlag)); ok &= getRawUInt32(data, *size, &offset, &(item->nItems)); ok &= getRawUInt32(data, *size, &offset, &(item->timestamp)); if (offset != rssize) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsTrans() FAIL size mismatch" << std::endl; #endif /* error */ delete item; return NULL; } if (!ok) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsTrans() NOK" << std::endl; #endif delete item; return NULL; } return item; } RsNxsSyncMsgItem* RsNxsSerialiser::deserialNxsSyncMsgItem(void *data, uint32_t *size){ #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncMsgItem()" << 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_NXS_SYNC_MSG_ITEM != getRsItemSubType(rstype))) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncMsgItem() FAIL wrong type" << std::endl; #endif return NULL; /* wrong type */ } if (*size < rssize) /* check size */ { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncMsgItem( FAIL wrong size" << std::endl; #endif return NULL; /* not enough data */ } /* set the packet length */ *size = rssize; bool ok = true; RsNxsSyncMsgItem* item = new RsNxsSyncMsgItem(getRsItemService(rstype)); /* skip the header */ offset += 8; ok &= getRawUInt32(data, *size, &offset, &(item->transactionNumber)); ok &= getRawUInt8(data, *size, &offset, &(item->flag)); ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_GROUPID, item->grpId); ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_MSGID, item->msgId); ok &= GetTlvString(data, *size, &offset, TLV_TYPE_STR_NAME, item->authorId); if (offset != rssize) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncMsgItem() FAIL size mismatch" << std::endl; #endif /* error */ delete item; return NULL; } if (!ok) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncMsgItem() NOK" << std::endl; #endif delete item; return NULL; } return item; } RsNxsSyncMsg* RsNxsSerialiser::deserialNxsSyncMsg(void *data, uint32_t *size) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncGrp()" << 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_NXS_SYNC_MSG != getRsItemSubType(rstype))) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncMsg() FAIL wrong type" << std::endl; #endif return NULL; /* wrong type */ } if (*size < rssize) /* check size */ { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncMsg() FAIL wrong size" << std::endl; #endif return NULL; /* not enough data */ } /* set the packet length */ *size = rssize; bool ok = true; RsNxsSyncMsg* item = new RsNxsSyncMsg(getRsItemService(rstype)); /* skip the header */ offset += 8; ok &= getRawUInt32(data, *size, &offset, &(item->transactionNumber)); 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::deserialNxsSyncMsg() FAIL size mismatch" << std::endl; #endif /* error */ delete item; return NULL; } if (!ok) { #ifdef RSSERIAL_DEBUG std::cerr << "RsNxsSerialiser::deserialNxsSyncMsg() NOK" << std::endl; #endif delete item; return NULL; } return item; } RsNxsExtended* RsNxsSerialiser::deserialNxsExtended(void *data, uint32_t *size){ return NULL; } /*** size functions ***/ uint32_t RsNxsSerialiser::sizeNxsMsg(RsNxsMsg *item) { uint32_t s = 8; //header size s += 4; // transaction number s += 1; // pos s += GetTlvStringSize(item->grpId); s += GetTlvStringSize(item->msgId); s += item->msg.TlvSize(); s += item->meta.TlvSize(); return s; } uint32_t RsNxsSerialiser::sizeNxsGrp(RsNxsGrp *item) { uint32_t s = 8; // header size s += 4; // transaction number s += 1; // pos s += GetTlvStringSize(item->grpId); s += item->grp.TlvSize(); s += item->meta.TlvSize(); return s; } uint32_t RsNxsSerialiser::sizeNxsSyncGrp(RsNxsSyncGrp *item) { uint32_t s = 8; // header size s += 4; // transaction number s += 1; // flag s += 4; // sync age s += GetTlvStringSize(item->syncHash); return s; } uint32_t RsNxsSerialiser::sizeNxsSyncGrpItem(RsNxsSyncGrpItem *item) { uint32_t s = 8; // header size s += 4; // transaction number s += 4; // publishTs s += 1; // flag s += GetTlvStringSize(item->grpId); s += GetTlvStringSize(item->authorId); return s; } uint32_t RsNxsSerialiser::sizeNxsSyncMsg(RsNxsSyncMsg *item) { uint32_t s = 8; s += 4; // transaction number s += 1; // flag s += 4; // age s += GetTlvStringSize(item->grpId); s += GetTlvStringSize(item->syncHash); return s; } uint32_t RsNxsSerialiser::sizeNxsSyncMsgItem(RsNxsSyncMsgItem *item) { uint32_t s = 8; // header size s += 4; // transaction number s += 1; // flag s += GetTlvStringSize(item->grpId); s += GetTlvStringSize(item->msgId); s += GetTlvStringSize(item->authorId); return s; } uint32_t RsNxsSerialiser::sizeNxsTrans(RsNxsTransac *item){ uint32_t s = 8; // header size s += 4; // transaction number s += 2; // flag s += 4; // nMsgs s += 4; // timeout return s; } uint32_t RsNxsSerialiser::sizeNxsExtended(RsNxsExtended *item){ return 0; } int RsNxsGrp::refcount = 0; /** print and clear functions **/ int RsNxsMsg::refcount = 0; void RsNxsMsg::clear() { msg.TlvClear(); meta.TlvClear(); } void RsNxsGrp::clear() { grpId.clear(); grp.TlvClear(); meta.TlvClear(); } void RsNxsSyncGrp::clear() { flag = 0; syncAge = 0; syncHash.clear(); } void RsNxsSyncMsg::clear() { grpId.clear(); flag = 0; syncAge = 0; syncHash.clear(); } void RsNxsSyncGrpItem::clear() { flag = 0; publishTs = 0; grpId.clear(); authorId.clear(); } void RsNxsSyncMsgItem::clear() { flag = 0; msgId.clear(); grpId.clear(); authorId.clear(); } void RsNxsTransac::clear(){ transactFlag = 0; nItems = 0; timestamp = 0; transactionNumber = 0; } std::ostream& RsNxsSyncGrp::print(std::ostream &out, uint16_t indent) { printRsItemBase(out, "RsNxsSyncGrp", 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 ,"RsNxsSyncGrp", indent); return out; } std::ostream& RsNxsExtended::print(std::ostream &out, uint16_t indent){ printRsItemBase(out, "RsNxsExtended", indent); uint16_t int_Indent = indent + 2; printIndent(out , int_Indent); out << "type: " << type << std::endl; printIndent(out , int_Indent); extData.print(out, int_Indent); printRsItemEnd(out ,"RsNxsExtended", indent); return out; } std::ostream& RsNxsSyncMsg::print(std::ostream &out, uint16_t indent) { printRsItemBase(out, "RsNxsSyncMsg", 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, "RsNxsSyncMsg", indent); return out; } std::ostream& RsNxsSyncGrpItem::print(std::ostream &out, uint16_t indent) { printRsItemBase(out, "RsNxsSyncGrpItem", 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; printIndent(out , int_Indent); out << "publishTs: " << publishTs << std::endl; printIndent(out , int_Indent); out << "authorId: " << authorId << std::endl; printRsItemEnd(out , "RsNxsSyncGrpItem", indent); return out; } std::ostream& RsNxsSyncMsgItem::print(std::ostream &out, uint16_t indent) { printRsItemBase(out, "RsNxsSyncMsgItem", 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; printIndent(out , int_Indent); out << "msgId: " << msgId << std::endl; printIndent(out , int_Indent); out << "authorId: " << authorId << std::endl; printIndent(out , int_Indent); printRsItemEnd(out ,"RsNxsSyncMsgItem", indent); return out; } std::ostream& RsNxsGrp::print(std::ostream &out, uint16_t indent){ printRsItemBase(out, "RsNxsGrp", indent); uint16_t int_Indent = indent + 2; out << "grpId: " << grpId << std::endl; printIndent(out , int_Indent); out << "grp: " << std::endl; printIndent(out , int_Indent); out << "pos: " << pos << std::endl; grp.print(out, int_Indent); out << "meta: " << std::endl; meta.print(out, int_Indent); printRsItemEnd(out, "RsNxsGrp", indent); return out; } std::ostream& RsNxsMsg::print(std::ostream &out, uint16_t indent){ printRsItemBase(out, "RsNxsMsg", indent); uint16_t int_Indent = indent + 2; out << "msgId: " << msgId << std::endl; printIndent(out , int_Indent); out << "grpId: " << grpId << std::endl; printIndent(out , int_Indent); out << "pos: " << pos << std::endl; printIndent(out , int_Indent); out << "msg: " << std::endl; msg.print(out, indent); out << "meta: " << std::endl; meta.print(out, int_Indent); printRsItemEnd(out ,"RsNxsMsg", indent); return out; } std::ostream& RsNxsTransac::print(std::ostream &out, uint16_t indent){ printRsItemBase(out, "RsNxsTransac", indent); uint16_t int_Indent = indent + 2; out << "transactFlag: " << transactFlag << std::endl; printIndent(out , int_Indent); out << "nItems: " << nItems << std::endl; printIndent(out , int_Indent); out << "timeout: " << timestamp << std::endl; printIndent(out , int_Indent); out << "transactionNumber: " << transactionNumber << std::endl; printIndent(out , int_Indent); printRsItemEnd(out ,"RsNxsTransac", indent); return out; }