#ifndef BRPAQU_H_SEEN #define BRPAQU_H_SEEN /* ---------------------------------------- Projet BAORadio --- LAL Juin 2008 , M.Taurigna , R. Ansari ------------------------------------------- */ #include #include #include #include "brtypes.h" using namespace std; // On definit une classe TwoByteComplex() pour manipuler une paire de byte // representant partie relle et imaginaire d'un nombre complexe // Remarque Byte = unsigned char // Remarque SByte = char = signed char class TwoByteComplex { public: explicit TwoByteComplex() { val_[0] = val_[1] = 0; } // explicit TwoByteComplex(TwoByteComplex const & a) { val_[0] = a.val_[0]; val_[1] = 0; } explicit TwoByteComplex(Byte re, Byte im) { val_[0] = re; val_[1] = im; } explicit TwoByteComplex(SByte re, SByte im) { val_[0] = re; val_[1] = im; } explicit TwoByteComplex(int re, int im) { val_[0] = re; val_[1] = im; } explicit TwoByteComplex(float re, float im) { val_[0] = re; val_[1] = im; } explicit TwoByteComplex(double re, double im) { val_[0] = re; val_[1] = im; } inline Byte& realB() { return val_[0]; } inline Byte& imagB() { return val_[1]; } inline SByte realSB() { return ((SByte*)val_)[0]; } inline SByte imagSB() { return ((SByte*)val_)[1]; } inline int realI() { return ((SByte*)val_)[0]; } inline int imagI() { return ((SByte*)val_)[1]; } inline double realD() { return ((SByte*)val_)[0]; } inline double imagD() { return ((SByte*)val_)[1]; } Byte val_[2]; }; // Actuellement apres test Nancay un mot de 4octects est mis avant le header #define OFFSET 0 // Taille entete/trailer en octets #define BRHDRSIZE 24 // Actuellement le trailer est vire ... // Reza, 28 Jan 2009 le trailer fait 16 octets #define BRTRLSIZE 16 /* REZA passe a 16 octets #define BRTRLSIZE 40 */ //Offset Mode Acq #define BRMODACQOFF 20 /*RezaMOD #define BRMODACQOFF 24 */ // Offset ChanId #define BRCHANIDOFF 20 /*RezaMOD #define BRCHANIDOFF 24 */ // Offset du time-tag #define BRTMTAGOFF 12 /*RezaMOD #define BRTMTAGOFF 16 */ // offset FrameCounter #define BRFRCPTOFF 16 /*RezaMOD#define BRFRCPTOFF 20 */ // offset Paquet Id #define BRPKTIDOFF 20 /*RezaMOD #define BRPKTIDOFF 24 */ // offset paquet lenght = FrameDataLength #define BRPKTLENOFF 8 /*RezaMOD #define BRPKTLENOFF 12 */ // offset position chariot ??? //#define BRPCOFF 16 enum ChannelID { None=0, Ch1, Ch2, Ch1_2, Ch3, Ch4, Ch3_4 }; enum ModeAcq { RawData=1, FFT }; // Definition des actions sur la conversion de format (swap...) des donnees arrivant enum BRDataFmtConv { BR_DoNothing, BR_Copy, BR_SwapAll, BR_SwapHDR, BR_FFTOneChan, BR_FFTTwoChan, BR_Swap32, BR_FFTOneChan32, BR_FFTTwoChan32, BR_FFTOneChanNoSwap, BR_FFTTwoChanNoSwap }; // Structure correspondant a HEADER-DATA-TRAILER class BRPaquet { public: BRPaquet(Byte* src, Byte* dst, int paqsz=4096, BRDataFmtConv fgswap=BR_SwapAll); BRPaquet(Byte* srcdst, int paqsz=4096); // ~BRPaquet(); // Acces diverses tailles inline int PaquetSize() { return sz_; } inline int DataSize() { return sz_-(BRHDRSIZE+BRTRLSIZE); } inline int HeaderSize() { return BRHDRSIZE; } inline int TrailerSize() { return BRTRLSIZE; } // Acces differentes zone memoire inline Byte* Data() { return dst_+BRHDRSIZE+OFFSET; } inline Byte* Data1() { return dst_+BRHDRSIZE+OFFSET; } inline Byte* Data2() { return dst_+BRHDRSIZE+(DataSize()/2)+OFFSET; } inline Byte* Header() { return dst_+OFFSET; } inline Byte* Trailer() { return (dst_+sz_-BRTRLSIZE+OFFSET); } // Valeurs differentes zones HDR/TRL inline UInt32 HDRMarker() {return *((UInt32*)(dst_+OFFSET));} inline UInt32 TRLMarker() {return *((UInt32*)(dst_+(sz_-BRTRLSIZE+OFFSET)));} inline UInt16 ModeAcq() {return *((UInt16*)(dst_+(BRMODACQOFF+OFFSET)));} inline UInt16 ChanId() {return (( *((UInt16*)(dst_+(BRCHANIDOFF+OFFSET))) & 0x1800)>> 12) ;} inline UInt16 ChipId() {return (( *((UInt16*)(dst_+(BRCHANIDOFF+OFFSET))) & 0xC00)>> 10) ;} inline UInt32 TimeTag1() {return *((UInt32*)(dst_+(BRTMTAGOFF+OFFSET)));} inline UInt32 FrameCounter() {return ((*((UInt32*)(dst_+(BRFRCPTOFF+OFFSET))) &0xFFFF0000) >> 16);} inline UInt32 TimeTag2() {return (*((UInt32*)(dst_+(BRFRCPTOFF+OFFSET))) &0xFFFF);} inline UInt32 PaqId() {return *((UInt32*)(dst_+(BRPKTIDOFF+OFFSET)));} inline UInt16 PaqLen() {return *((UInt16*)(dst_+(BRPKTLENOFF+OFFSET)));} // inline unsigned short PositionChariot() {return *((unsigned short*)(dst_+BRPCOFF+OFFSET));} // pour faire un print de la structure void Print(ostream & os, int nelt=8, bool prht=true); UInt16 ChannelID(); UInt16 ModeAcquisition(); // fonction appelee par le constructeur pour reordonner les donnees FFT static void ReorderFFTData(Byte* src, Byte* dst, int sz); static void ReorderFFTData32(Byte* src, Byte* dst, int sz); static void ReorderFFTDataNoSwap(Byte* src, Byte* dst, int sz); static const char* FmtConvToString(BRDataFmtConv fgswap); // protected: // donnees membres int sz_; //taille du paquet Byte* dst_; }; // -------------------------------------------------------------------------- // Classe pour effectuer des verifications d'integrite sur les paquets/frames // -------------------------------------------------------------------------- class BRPaqChecker { public: BRPaqChecker(); ~BRPaqChecker(); // Verifie le paquet, renvoie true si OK bool Check(BRPaquet& paq); // Imprime le compte de paquets ... ostream & Print(ostream& os); unsigned long long totnframes; // Nombre totale de frames/paquets traites unsigned long long nframeok; // Nombre totale de frames/paquets avec HDR/TRL OK unsigned long long lostframes; // Nombre totale de frames/paquets perdus unsigned int frclst; // derniere valeur du frame-counter }; #endif