Changes: bbram Checking Function Registers Checking Funcrtion Indivisual Register checking Functions

Dependencies:   FreescaleIAP mbed-rtos mbed

Fork of COM_MNG_TMTC_SIMPLE by Shreesha S

COM_SND_TM.h

Committer:
ee12b079
Date:
2016-01-15
Revision:
61:15a5dfe84945
Parent:
59:29a37f943ba6
Child:
63:4d13680673bc

File content as of revision 61:15a5dfe84945:

//void adf_not_SDcard();
 
#define S_FRAME_SIZE 48
#define ISR 40
#define TM_FRAME_SIZE 134           //in bytes
#define T_FRAME_SIZE 159
#define EOS_SIZE 120
#define MAX_ADF_LEN 65535
 
const unsigned char S_frame[] = {0x46,0x9D,0xFB,0xF0,0xD2,0xBA,0x89,0xE4,0x46,0x9D,0xFB,0xF0,0xD2,0xBA,0x89,0xE4,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
const unsigned char EoS[] = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x01,0x1A,0x77,0xEF,0xC3,0x4A,0xEA,0x27,0x91,0x1A,0x77,0xEF,0xC3,0x4A,0xEA,0x27,0x90,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x01,0x1A,0x77,0xEF,0xC3,0x4A,0xEA,0x27,0x91,0x1A,0x77,0xEF,0xC3,0x4A,0xEA,0x27,0x90,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
const unsigned char FCCH80[] = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
const unsigned char SCH40[] = {0x0a,0x3f,0x46,0xb4,0x00};
const unsigned char EXOR_SEQ[] = {0x55,0xF1,0x51,0x3D,0xA7,0x42,0xAE,0x2E,0x2E,0x28,0x76,0x80,0x62,0x41,0xC4,0x75,0x4D,0x87,0xDB,0xE1,0x02,0x61,0x60,0x96,0x9C,0xCB,0x8A,0xBD,0x37,0xE4,0x72,0x5D,0xF2,0x19,0x62,0x06,0x9A,0xF9,0x38,0xB0,0x49,0x75,0xD0,0x17,0x1B,0xCC,0x0B,0xEB,0x1B,0x50,0xA2,0x2A,0x8E,0xFA,0x4D,0x6F,0x1B,0xF8,0x0F,0x97,0x39,0x25,0x60,0x55,0x9A,0xDF,0x1D,0x10,0x7F,0xBD,0x3E,0xBF,0xE5,0x68,0x02,0xD1,0x99,0x0D,0xDF,0x84,0x2E,0x15,0xE3,0x08,0xD7,0x44,0x10,0x41,0xCE,0x93,0xF6,0x59,0x71,0xD2,0xF7,0x1C,0x4A,0x44,0x2D,0xA9,0x44,0x98,0x3A,0x00,0x71,0xCC,0x2A,0x35,0xC1,0x81,0xCF,0x44,0xF7,0x6A,0x0E,0xE4,0xF2,0xFC,0xD6,0x0B,0xA8,0x95,0x7B,0x86,0xB5,0xF8,0x33,0xE9,0xBF,0x6A,0x0E,0xE6,0x53,0x82};

#define print_tm(ptr) { for(int i=0 ; i<134; i++ ) gPC.putc(ptr[i]);}
 
class SND_TM{
 
    Base_tm * head_ptr;
 
//    transmit data variables
    unsigned char Tframe_c;                                      //_c represents counter, counts Tframe written in a segment
    unsigned char EOS_c;                                         //count no of bytes of eos have been weitten in the rolling buffer
    unsigned char Sframe_c;                                      //count no of bytes of Sframe have been weitten in the rolling buffer
    unsigned char SCH40_c;                                       //count no of bytes of SCH40 have been weitten in the rolling buffer
    unsigned char data_c;
    unsigned char FCCH80_c;
    unsigned char RB_c;                                          //rolling buffer counter
    unsigned char segment_c;                                    //counts the numver of segments sent
    unsigned char MAX_SEGMENT;
    bool Sframe;                                                //Sframe = 1bit of CF1
    bool SCH40_f;
    bool FCCH80_f;
    bool data_f;
    bool repeat_data_f;
    bool transmit_data_f;
    bool eos_f;
    bool junk_f;
    bool segment_r;                                    //flag checking if more sessions are required
 
 
//  type 1 frame
 
    Base_tm *T0F_pointer ;
 
    int diff_prev;
    void differential_encode(unsigned char* ptr, int length){
        for(int i=0; i<length;i++){
            unsigned char s = ptr[i] , t;
            t = s ^ (s >> 1);
            (diff_prev == 0) ? t=t^0x00 : t=t^0x80 ;
            diff_prev = int(s & 0x01);
            ptr[i] = t;
        }
    }
 
    int type0_no;                                               //number of type zero frames
    int type1_no;
    int total_frames;                                           //number of type one packe (TMP)
    int SEGMENT_NO;                                             //number of type one packe (TMP)
    int TOTAL_SEGMENT_NO;
    int LAST_SEGMENT_SIZE;
    void inline data_number(){
        int type1_frame_no;
        Base_tm*head = head_ptr;
        type0_no = 0;
        type1_no = 0;
        while(head != NULL){
            switch( GETshort_or_long_tm(head->fields) ){
                case 0:
                    type0_no++;
                    break;
                case 1:
                    type1_no++;
                    break;
            }
 
            head=head->next_TM;
        }
        type1_frame_no = ( type1_no % 10 == 0 )? (type1_no / 10) : ( (type1_no / 10) + 1);
        total_frames = type0_no + type1_frame_no ;
        TOTAL_SEGMENT_NO = (total_frames*2 % (ISR) == 0) ? ( total_frames*2/(ISR) ) : (total_frames*2/(ISR) + 1);            //subtracting 1 since the last SCH40_f is not detected
        SEGMENT_NO = TOTAL_SEGMENT_NO;
        if(SEGMENT_NO > MAX_SEGMENT)
        {
            SEGMENT_NO = MAX_SEGMENT;
        }
        if(SEGMENT_NO == 1) segment_r = 0; else segment_r = 1;
        TOTAL_SEGMENT_NO -= SEGMENT_NO;
        LAST_SEGMENT_SIZE = total_frames*2%ISR?total_frames*2%ISR:ISR;
    }
 
#define next_type_structure(ptr){\
        unsigned char temp = GETshort_or_long_tm(ptr->fields);\
        if((temp == 0) && (ptr->next_TM != NULL) ){\
            do{\
                ptr = ptr->next_TM;\
                temp =  GETshort_or_long_tm(ptr->fields);\
            }\
            while(temp == 1 && ptr->next_TM != NULL);\
            if(temp == 1){\
                ptr = NULL;\
            }\
        }\
        else if((temp == 1) && (ptr->next_TM != NULL)){\
            do{\
                ptr = ptr->next_TM;\
                temp = GETshort_or_long_tm(ptr->fields);\
            }\
            while(temp == 0 && ptr->next_TM != NULL);\
            if(temp == 0){\
                ptr = NULL;\
            }\
        }\
        else{\
            ptr = NULL;\
        }\
    }
 
    /*
        brief:      take input type 0  or  1 and return the address of the first node in the list that have that type
        parameter:  type 0 or 1
        return:     pointer of the first node having same type
    */
    #define exor(ptr) { for(int i=0 ; i<134; i++ ) ptr[i]=ptr[i]^EXOR_SEQ[i];}
    
 
 
    #define first_type_structure( type,return_ptr) {\
        Base_tm* temp_ptr = head_ptr;\
        if(type == 0){\
            while(GETshort_or_long_tm(temp_ptr->fields) == 1){\
                temp_ptr = temp_ptr->next_TM;\
                if(temp_ptr == NULL){\
                    return_ptr = NULL ;\
                }\
            }\
        }\
        else if(type == 1){\
            while(GETshort_or_long_tm(temp_ptr->fields) == 0){\
                temp_ptr = temp_ptr->next_TM;\
                if(temp_ptr == NULL){\
                    return_ptr = NULL;\
                }\
            }\
        }\
        return_ptr = temp_ptr;\
    }
 
 
 
    Base_tm *T1F_pointer ;
    int T1F_counter;
    unsigned char TMframe_type1[TM_FRAME_SIZE];
    bool type1_frame_flag;                                               //should be true for every new list
 
    #define type1_frame(ptr){\
        int i=4;\
        if(type1_frame_flag){\
            first_type_structure(1,T1F_pointer);\
            T1F_counter = 0;\
            type1_frame_flag = false;\
        }\
        for(i = 4 ; (i < 134) && (T1F_pointer != NULL) ; i++){\
             TMframe_type1[i] = T1F_pointer->TM_string[T1F_counter];\
              if(T1F_counter++ == 12){\
                T1F_counter = 0;\
                next_type_structure(T1F_pointer);\
              }\
        }\
        TMframe_type1[0] = (1<<7) + (( (i-4)/13 )<<3);\
        TMframe_type1[3] = crc16_gen(TMframe_type1,3);\
        if(T1F_pointer == NULL && i>12){\
            for( ; i < 134 ; i++){\
                TMframe_type1[i] = TMframe_type1[i-13];\
            }\
        }\
        ptr=TMframe_type1;\
    }
 
 
    bool type0_frame_flag;
 
 
 #define type0_frame(ptr){\
        if(type0_frame_flag){\
            first_type_structure(0,T0F_pointer);\
            type0_frame_flag = false;\
        }\
        else {\
            next_type_structure(T0F_pointer);\
        }\
        ptr =  T0F_pointer->TM_string;\
    }
  
    unsigned char convoluted_frame[270];
    Convolution ConvObj2;
    void convolution (unsigned char * ptr){
        ConvObj2.convolutionEncode(ptr, convoluted_frame);
        ConvObj2.convolutionEncode(ptr + 67, convoluted_frame + 135);
    }
 
 
    unsigned char interleave_data[2][144];
    unsigned char DS_index;
    bool DS_state;
    int DS_counter;
    bool DS_f;
    bool make_DataStream_f;
 
#define make_DataStream {\
    unsigned char* ptr;\
        if(make_DataStream_f == true){\
            DS_state = true;\
            DS_counter = 0;\
            DS_f = false;\
            make_DataStream_f = false;\
        }\
        if(DS_state){\
            if(DS_counter < total_frames-type0_no){\
                type1_frame(ptr); \
                DS_f = true;\
            }\
            else if(DS_counter < total_frames ){\
                type0_frame(ptr);\
                DS_f = true;\
            }\
            DS_counter++;\
        }\
        DS_state = !DS_state;\
        if (DS_f){\
            DS_f = false;\
            if(bypass_adf == 1)\
            print_tm(ptr);\
            exor(ptr);\
            convolution(ptr);\
            interleave(convoluted_frame,interleave_data[0]);\
            interleave(convoluted_frame+ 135,interleave_data[1]);}\
        DS_index = (DS_state==true)?1:0;\
    }
 
 
//
    public:
 
        bool reset_adf;
        SND_TM(){
            MAX_SEGMENT = (MAX_ADF_LEN-EOS_SIZE)/( S_FRAME_SIZE + ISR*T_FRAME_SIZE);
                            //(max length - eos size)/(sframe length + tFrameLength*ISR)
        }
 
 
 
        void head_pointer(Base_tm* ptr){
            head_ptr = ptr ;
            type1_frame_flag = true;
            type0_frame_flag = true;
            make_DataStream_f = true;
            transmit_data_f = true;
            diff_prev = 0;
            data_number();
        }
 
 
        void inline transmit_data(unsigned char * transmit , bool * last_buffer){
            if(transmit_data_f){
                RB_c = 0;
                Sframe_c = 0;
                SCH40_c = 0;
                FCCH80_c = 0;
                Tframe_c = 0;
                EOS_c = 0;
                segment_c = 0;
                data_c = 0;
 
                Sframe = true;
                SCH40_f = false;
                data_f = false;
                FCCH80_f = false;
                transmit_data_f = false;
                reset_adf = false;
                *last_buffer = false;
            }
 
            for(RB_c = 0 ; RB_c<112 ; RB_c++){
 
                if(junk_f || *last_buffer){
                    transmit[RB_c] = 0x00;
                    continue;
                }
 
                if(Sframe){
                    transmit[RB_c] = S_frame[Sframe_c++];
                    if(Sframe_c == 48){
 //                     printf("exit s frame\n");
                        Sframe_c = 0;
                        Sframe = false;
                        SCH40_f =true;
                    }
                    continue;
                }
//
                if(SCH40_f){
                    transmit[RB_c] = SCH40[SCH40_c++];
                    if(SCH40_c == 5 ){
                        SCH40_c = 0;
                        SCH40_f = false;
 
 
                        if(Tframe_c >= LAST_SEGMENT_SIZE && segment_r == 0)
                        {
                            repeat_data_f = true;
                            DS_index = !DS_index;
                        }
                        else
                        {
                            data_f = true;
                            make_DataStream;
                        }
//                      printf("exit SCH40 frame\n");
                    }
                    continue;
                }
//
                if(data_f){
                    transmit[RB_c] = interleave_data[DS_index][data_c++];
                    if(data_c == 144){
                        data_c = 0;
                        FCCH80_f = true;
                        data_f = false;
//                        printf("exit Data\n");
                    }
                    continue;
                }
                if(repeat_data_f){
                    transmit[RB_c] = interleave_data[DS_index][data_c++];
                    if(data_c == 144){
                        data_c = 0;
                        FCCH80_f = true;
                        repeat_data_f = false;
//                        printf("exit Data\n");
                    }
                    continue;
                }
 
                if(FCCH80_f){
                    transmit[RB_c] = FCCH80[FCCH80_c++];
                    if(FCCH80_c == 10){
                        FCCH80_c = 0;
                        FCCH80_f = false;
//                        printf("exit FCCH80\n");
                        if(++Tframe_c != ISR)
                            SCH40_f = true;
                        else{
                            Tframe_c = 0;
                            segment_c++;
                            if(segment_c >= SEGMENT_NO - 1 && TOTAL_SEGMENT_NO == 0) segment_r = 0; else segment_r = 1;
                            if(segment_c == SEGMENT_NO)
                                {eos_f = true;}
                            else{
                                Sframe = true;
                            }
                        }
                    }
                    continue;
                }
 
                if(eos_f){
                    transmit[RB_c] = EoS[EOS_c++];
                    if(EOS_c == EOS_SIZE){
                        EOS_c = 0;
                        eos_f = false;
                        if(segment_c == SEGMENT_NO && segment_r == 0){
                              *last_buffer = true;
                                }
                          else if(segment_c == SEGMENT_NO && segment_r != 0){
                                segment_c = 0;
                                SEGMENT_NO = TOTAL_SEGMENT_NO;
                                if(SEGMENT_NO > MAX_SEGMENT)
                                {
                                    SEGMENT_NO = MAX_SEGMENT;
                                }
                                if(SEGMENT_NO == 1) segment_r = 0; else segment_r = 1; 
                                TOTAL_SEGMENT_NO -= SEGMENT_NO;
                                reset_adf = true;//what does this do??
                                Sframe = true;
                           }
                        junk_f = true;
                    }
                    continue;
                }
            }
            differential_encode(transmit,112);
            if(reset_adf == true){
                diff_prev = 0;
                junk_f = false;
            }
 
        }
 
};
SND_TM snd_tm;