#pragma once #include "serialiser/rsserial.h" #include "serialiser/rstlvbase.h" #include "serialiser/rsbaseserial.h" #include "rsiface/rsturtle.h" #include "rsiface/rsexpr.h" #include "serialiser/rsserviceids.h" #include "turtle/turtletypes.h" const uint8_t RS_TURTLE_SUBTYPE_STRING_SEARCH_REQUEST = 0x01 ; const uint8_t RS_TURTLE_SUBTYPE_SEARCH_RESULT = 0x02 ; const uint8_t RS_TURTLE_SUBTYPE_OPEN_TUNNEL = 0x03 ; const uint8_t RS_TURTLE_SUBTYPE_TUNNEL_OK = 0x04 ; const uint8_t RS_TURTLE_SUBTYPE_CLOSE_TUNNEL = 0x05 ; const uint8_t RS_TURTLE_SUBTYPE_TUNNEL_CLOSED = 0x06 ; const uint8_t RS_TURTLE_SUBTYPE_FILE_REQUEST = 0x07 ; const uint8_t RS_TURTLE_SUBTYPE_FILE_DATA = 0x08 ; const uint8_t RS_TURTLE_SUBTYPE_REGEXP_SEARCH_REQUEST = 0x09 ; /***********************************************************************************/ /* Basic Turtle Item Class */ /***********************************************************************************/ class RsTurtleItem: public RsItem { public: RsTurtleItem(uint8_t turtle_subtype) : RsItem(RS_PKT_VERSION_SERVICE,RS_SERVICE_TYPE_TURTLE,turtle_subtype) {} virtual bool serialize(void *data,uint32_t& size) = 0 ; // Isn't it better that items can serialize themselves ? virtual uint32_t serial_size() = 0 ; // deserialise is handled using a constructor virtual void clear() {} }; /***********************************************************************************/ /* Turtle Search Item classes */ /***********************************************************************************/ class RsTurtleSearchResultItem: public RsTurtleItem { public: RsTurtleSearchResultItem() : RsTurtleItem(RS_TURTLE_SUBTYPE_SEARCH_RESULT) {} RsTurtleSearchResultItem(void *data,uint32_t size) ; // deserialization TurtleSearchRequestId request_id ; // Randomly generated request id. uint16_t depth ; // The depth of a search result is obfuscated in this way: // If the actual depth is 1, this field will be 1. // If the actual depth is > 1, this field is a larger arbitrary integer. std::list result ; virtual std::ostream& print(std::ostream& o, uint16_t) ; protected: virtual bool serialize(void *data,uint32_t& size) ; virtual uint32_t serial_size() ; }; class RsTurtleSearchRequestItem: public RsTurtleItem { public: RsTurtleSearchRequestItem(uint32_t subtype) : RsTurtleItem(subtype) {} virtual RsTurtleSearchRequestItem *clone() const = 0 ; // used for cloning in routing methods virtual void performLocalSearch(std::list&) const = 0 ; // abstracts the search method uint32_t request_id ; // randomly generated request id. uint16_t depth ; // Used for limiting search depth. }; class RsTurtleStringSearchRequestItem: public RsTurtleSearchRequestItem { public: RsTurtleStringSearchRequestItem() : RsTurtleSearchRequestItem(RS_TURTLE_SUBTYPE_STRING_SEARCH_REQUEST) {} RsTurtleStringSearchRequestItem(void *data,uint32_t size) ; std::string match_string ; // string to match virtual RsTurtleSearchRequestItem *clone() const { return new RsTurtleStringSearchRequestItem(*this) ; } virtual void performLocalSearch(std::list&) const ; virtual std::ostream& print(std::ostream& o, uint16_t) ; protected: virtual bool serialize(void *data,uint32_t& size) ; virtual uint32_t serial_size() ; }; class RsTurtleRegExpSearchRequestItem: public RsTurtleSearchRequestItem { public: RsTurtleRegExpSearchRequestItem() : RsTurtleSearchRequestItem(RS_TURTLE_SUBTYPE_REGEXP_SEARCH_REQUEST) {} RsTurtleRegExpSearchRequestItem(void *data,uint32_t size) ; LinearizedExpression expr ; // Reg Exp in linearised mode virtual RsTurtleSearchRequestItem *clone() const { return new RsTurtleRegExpSearchRequestItem(*this) ; } virtual void performLocalSearch(std::list&) const ; virtual std::ostream& print(std::ostream& o, uint16_t) ; protected: virtual bool serialize(void *data,uint32_t& size) ; virtual uint32_t serial_size() ; }; /***********************************************************************************/ /* Turtle Tunnel Item classes */ /***********************************************************************************/ class RsTurtleOpenTunnelItem: public RsTurtleItem { public: RsTurtleOpenTunnelItem() : RsTurtleItem(RS_TURTLE_SUBTYPE_OPEN_TUNNEL) {} RsTurtleOpenTunnelItem(void *data,uint32_t size) ; // deserialization TurtleFileHash file_hash ; // hash to match uint32_t request_id ; // randomly generated request id. uint32_t partial_tunnel_id ; // uncomplete tunnel id. Will be completed at destination. uint16_t depth ; // Used for limiting search depth. virtual std::ostream& print(std::ostream& o, uint16_t) ; protected: virtual bool serialize(void *data,uint32_t& size) ; virtual uint32_t serial_size() ; }; class RsTurtleTunnelOkItem: public RsTurtleItem { public: RsTurtleTunnelOkItem() : RsTurtleItem(RS_TURTLE_SUBTYPE_TUNNEL_OK) {} RsTurtleTunnelOkItem(void *data,uint32_t size) ; // deserialization uint32_t tunnel_id ; // id of the tunnel. Should be identical for a tunnel between two same peers for the same hash. uint32_t request_id ; // randomly generated request id corresponding to the intial request. virtual std::ostream& print(std::ostream& o, uint16_t) ; protected: virtual bool serialize(void *data,uint32_t& size) ; virtual uint32_t serial_size() ; }; #ifdef A_VIRER class RsTurtleCloseTunnelItem: public RsTurtleItem { public: RsTurtleCloseTunnelItem() : RsTurtleItem(RS_TURTLE_SUBTYPE_CLOSE_TUNNEL) {} RsTurtleCloseTunnelItem(void *data,uint32_t size) ; // deserialization uint32_t tunnel_id ; // id of the tunnel to close. virtual std::ostream& print(std::ostream& o, uint16_t) ; protected: virtual bool serialize(void *data,uint32_t& size) ; virtual uint32_t serial_size() ; }; class RsTurtleTunnelClosedItem: public RsTurtleItem { public: RsTurtleTunnelClosedItem() : RsTurtleItem(RS_TURTLE_SUBTYPE_TUNNEL_CLOSED) {} RsTurtleTunnelClosedItem(void *data,uint32_t size) ; // deserialization uint32_t tunnel_id ; // id of the tunnel to close. virtual std::ostream& print(std::ostream& o, uint16_t) ; protected: virtual bool serialize(void *data,uint32_t& size) ; virtual uint32_t serial_size() ; }; #endif /***********************************************************************************/ /* Turtle File Transfer item classes */ /***********************************************************************************/ class RsTurtleFileRequestItem: public RsTurtleItem { public: RsTurtleFileRequestItem() : RsTurtleItem(RS_TURTLE_SUBTYPE_FILE_REQUEST) {} RsTurtleFileRequestItem(void *data,uint32_t size) ; // deserialization uint32_t tunnel_id ; // id of the tunnel to travel through uint64_t chunk_offset ; uint32_t chunk_size ; virtual std::ostream& print(std::ostream& o, uint16_t) ; protected: virtual bool serialize(void *data,uint32_t& size) ; virtual uint32_t serial_size() ; }; class RsTurtleFileDataItem: public RsTurtleItem { public: RsTurtleFileDataItem() : RsTurtleItem(RS_TURTLE_SUBTYPE_FILE_DATA) {} ~RsTurtleFileDataItem() ; RsTurtleFileDataItem(void *data,uint32_t size) ; // deserialization uint32_t tunnel_id ; // id of the tunnel to travel through uint64_t chunk_offset ; // offset in the file uint32_t chunk_size ; // size of the file chunk void *chunk_data ; // actual data. virtual std::ostream& print(std::ostream& o, uint16_t) ; protected: virtual bool serialize(void *data,uint32_t& size) ; virtual uint32_t serial_size() ; }; /***********************************************************************************/ /* Turtle Serialiser class */ /***********************************************************************************/ class RsTurtleSerialiser: public RsSerialType { public: RsTurtleSerialiser() : RsSerialType(RS_PKT_VERSION_SERVICE, RS_SERVICE_TYPE_TURTLE) {} virtual uint32_t size (RsItem *item) { return static_cast(item)->serial_size() ; } virtual bool serialise(RsItem *item, void *data, uint32_t *size) { return static_cast(item)->serialize(data,*size) ; } virtual RsItem *deserialise (void *data, uint32_t *size) ; };