Prasanth B J
/
CDMS_CODE
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Dependencies: FreescaleIAP SimpleDMA mbed-rtos mbed
Fork of
CDMS_CODE
by 
shubham c
COM_MNG_TMTC.h
- Committer:
- ee12b079
- Date:
- 2016-06-29
- Revision:
- 193:f76b475d7807
- Parent:
- 184:d75cea6f5d49
- Child:
- 197:1369ef45b49e
File content as of revision 193:f76b475d7807:
// 8 Jul
// did flowchart of states
// handle sd card with cdms team
// Jun 6
// WHAT IS TC exec code in L1 ack ?
//Jan 7
//added RLY_TMTC function
//added included related files
uint8_t received = 0;
uint16_t mid1;
uint16_t mid2;
uint16_t Nbytes;
uint32_t Data[2];
uint16_t nbytes;
uint8_t flash_counter = 0;
uint16_t crc16;
uint16_t mid;
uint32_t block;
#define delete_TC(tc_ptr) {\
if(tc_ptr == gHEAD_NODE_TCL){\
gHEAD_NODE_TCL = tc_ptr->next_TC;\
}\
delete tc_ptr;\
}
// typeof tm_ptr: Base_tm
// typeof tc_ptr: Base_tc
// typeof temp_xxxx: uint8_t
#define detect_ack(tm_ptr, temp_ack, tc_psc) {\
if( tm_ptr != NULL ){\
int length = TM_SHORT_SIZE;\
if( GETshort_or_long_tm(tm_ptr) == SHORT_TM_CODE ){\
length = TM_SHORT_SIZE;\
}\
else{\
length = TM_LONG_SIZE;\
}\
uint16_t crc = crc16_gen(tm_ptr->TM_string, length-2);\
if( (((crc & 0xFF00) >> 8) == tm_ptr->TM_string[length-2]) && ( (crc & 0x00FF) == tm_ptr->TM_string[length-1] ) ){\
uint8_t temp8;\
temp8 = tm_ptr->TM_string[TM_ACK_CODE_INDEX];\
temp8 = temp8 & 0xE0;\
if( (temp8 == 0xC0) || (temp8 == 0xA0) )\
temp_ack = 0x01;\
else{\
temp_ack = 0x00;\
/*CHECK FOR NACK CODE: CRC FAIL NACK*/\
temp8 = tm_ptr->TM_string[TM_ACK_CODE_INDEX];\
temp8 = temp8 & 0x0F;\
if( temp8 == CRC_FAIL_NACK_CODE ){\
tm_ptr->TM_string[2] = tc_psc;\
}\
}\
}\
else\
temp_ack = 0x00;\
}\
else{\
temp_ack = 0x00;\
}\
}
#define isit_obosc(tc_ptr, temp_obosc) {\
temp_obosc = 0x00;\
if( GETapid(tc_ptr) == APID_COM ){\
if( ((tc_ptr->TC_string[2]) >> 4) == SERVICE_OBOSC ){\
temp_obosc = 0x01;\
}\
}\
}
#define isit_sdcard(tc_ptr, temp_sdcard) {\
temp_sdcard = 0x00;\
if( GETapid(tc_ptr) == APID_COM ){\
if( ( (tc_ptr->TC_string[2]) >> 4) == SERVICE_OBSRS ){\
temp_sdcard = 0x01;\
}\
}\
}
void after_cooling_pa(){
gCOM_MNG_TMTC_THREAD->signal_set(COM_MNG_TMTC_SIGNAL_UART_INT);
}
/*
@brief: check for missing tc, also check crc, i.e.
if true execution can be started else have to wait
decide the next state
@param: none
@return: bool indicating whether there are missing tc
*/
// PENDING: LAST FRAME BIT
/*
for loop: check for missing tc
if: check for incorrect sized tc
if: check for last frame bit
*/
#define continueToExecute(returnHere) {\
uint8_t tempReturn = 0x00;\
/*search for missing psc*/\
for(uint8_t p = 0x00 ; p < (gTOTAL_VALID_TC) ; ++p){\
bool flag = false;\
Base_tc *node_ptr = gHEAD_NODE_TCL;\
while(node_ptr != NULL){\
if( (GETpacket_seq_count(node_ptr) == p) && (GETcrc_pass(node_ptr) == 1) ){\
flag = true;\
break;\
}\
else{\
node_ptr = node_ptr->next_TC;\
}\
}\
if(flag == false){\
tempReturn = 0x02;\
break;\
}\
}\
/*search for last packet bit*/\
tempReturn = tempReturn + 0x01;\
Base_tc *tcp = gHEAD_NODE_TCL;\
while(tcp != NULL){\
if(GETpacket_seq_count(tcp) == (gTOTAL_VALID_TC - 1)){\
if( ( (tcp->TC_string[1]) & 0x20 ) == 0x20 ){\
tempReturn = tempReturn - 0x01;\
}\
break;\
}\
tcp = tcp->next_TC;\
}\
returnHere = tempReturn;\
/*UPDATE gMASTER STATE*/\
if( (returnHere == 0x00) ){\
if( (gMASTER_STATE == TCL_STATE_INCOMPLETE) || (gMASTER_STATE == TCL_STATE_COMPLETED) || (gMASTER_STATE == TCL_STATE_ABORTED) ){\
gMASTER_STATE = TCL_STATE_EXECUTING;\
}\
}\
else{\
if( (gMASTER_STATE == TCL_STATE_INCOMPLETE) || (gMASTER_STATE == TCL_STATE_COMPLETED) ){\
gMASTER_STATE = TCL_STATE_INCOMPLETE;\
}\
}\
}
/*
return 1 if code match
return 0 if code mismatch
*/
#define GScodeVerification(returnHere){\
Base_tc *testTC = gHEAD_NODE_TCL;\
uint16_t overflowCount = 0;\
returnHere = 0xFF;\
while( (overflowCount < TCL_OVERFLOW_CONSTANT) && (testTC != NULL) ){\
if( (GETpacket_seq_count(testTC) == PSC_CALLSIGN) && (GETapid(testTC) == APID_CALLSIGN) ){\
/*uint8_t temp8 = testTC->TC_string[1];*/\
if( true ){\
for( int i = 2 ; i <= 8 ; ++i ){\
if( testTC->TC_string[i] != gGSCODE[i-2] ){\
returnHere = 0;\
break;\
}\
}\
}\
break;\
}\
testTC = testTC->next_TC;\
++overflowCount;\
}\
if(returnHere == 0xFF)\
{\
uint16_t temp = TC_STATE_SUCCESSFULLY_EXECUTED;\
PUTexec_status(testTC,temp);\
}\
}
/*
@brief: DELETE THE CRC FAILED TC FROM THE LIST TO FREE-UP MEMORY AND UPDATE
THE TOTAL VALID TC AND GENERATE L1_ACK_TM
@param: none
@return: none
*/
/*tm_ptr is the next_TM of a linked list, and should have the value NULL, i.e. tm_ptr should be the next_TM pointer of thte last node */
/*tm_ptr is the next_TM of a linked list, and should have the value NULL, i.e. tm_ptr should be the next_TM pointer of thte last node */
// CDMS TEAM CODE START
inline Base_tm* FCTN_CDMS_RLY_TMTC(Base_tc *tc_ptr){
uint8_t ACKCODE = 0xB0;
//printf("\rTC execution in progress\r\n");
Base_tm *tm_pointer = new Long_tm;
Base_tm *tm_ptr = tm_pointer;
received = 0;
switch(GETapid(tc_ptr))
{
case 1: //apid=01 implies it corresponds to bae
{
gPC.printf("Telecommand is for BAE\r\n");
//printf("Sending TC to BAE...\r\n"); //interrupt to be sent to the bae
FCTN_I2C_WRITE((char*)tc_ptr->TC_string,TC_SHORT_SIZE);
while(1)
{
wait(1); //TimeOut instead of wait
if(BAE_I2C_GPIO == 1)
{
//printf("receiving...\r\n");
FCTN_I2C_READ((char*)tm_pointer->TM_string,135);
//printf("%s", tm_pointer->TM_string);
received+=1;
break; //only for testing purpose
}
else
{
break;
}
}
if(received < 1 )
{
//printf("Telemetry is not received from BAE\r\n");
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = 0x00;
tm_pointer->TM_string[3] = 0x00; //ackcode to be decided
tm_pointer->TM_string[4] = 0x00;
for(uint8_t i=0;i<6;i++)
{
tm_pointer->TM_string[i+5] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
}
else
{
tm_pointer->next_TM = NULL; return tm_ptr;
}
}
case 2:
{
//gPC.printf("Telecommand is for CDMS\r\n"); //apid = 10 corresponds to cdms
switch(GETservice_type(tc_ptr))
{
case 0x60:
{
//gPC.printf("service:MMS\r\n");
switch(GETservice_subtype(tc_ptr))
{
case 0x1:
{
//printf("sub_service:Read from RAM_Memory\r\n");
mid=(uint16_t)(tc_ptr->TC_string[3]<<4)+(uint16_t)(tc_ptr->TC_string[4]);
//Data[0] = FCTN_CDMS_RD_FLASH(0);
//Data[1] = FCTN_CDMS_RD_FLASH(1);
//tm_pointer = new Long_tm;
tm_pointer->TM_string[0] = 0x30;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = (uint8_t)(flash_counter);
for(uint8_t i=0;i<4;i++)
{
tm_pointer->TM_string[3+i] = (uint8_t)((Data[0]>>(8*i))&0x00FF);
}
for(uint8_t i=4;i<8;i++)
{
tm_pointer->TM_string[3+i] = (uint8_t)((Data[1]>>(8*i))&0x00FF);
}
crc16 = crc16_gen(tm_ptr->TM_string,9);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
}
case 0x2:
{
gPC.printf("sub_service:Read from Flash_Memory\r\n");
mid=(uint16_t)(tc_ptr->TC_string[3]<<4)+(uint16_t)(tc_ptr->TC_string[4]);
//Data[0] = FCTN_CDMS_RD_FLASH(0);
//Data[1] = FCTN_CDMS_RD_FLASH(1);
//tm_pointer = new Long_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=0;i<4;i++)
{
tm_pointer->TM_string[3+i] = (uint8_t)((Data[0]>>(8*i))&0x00FF);
}
for(uint8_t i=4;i<8;i++)
{
tm_pointer->TM_string[3+i] = (uint8_t)((Data[1]>>(8*i))&0x00FF);
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
}
case 0x5:
{
//printf("WRITE ON FLASH_MEMORY\r\n");
mid=(uint16_t)(tc_ptr->TC_string[3]<<4)+(uint16_t)(tc_ptr->TC_string[4]);
block = (((uint32_t)(tc_ptr->TC_string[5])<<24)|((uint32_t)(tc_ptr->TC_string[5])<<16)|((uint32_t)(tc_ptr->TC_string[5])<<8)|((uint32_t)(tc_ptr->TC_string[5])));
//FCTN_CDMS_WR_FLASH(mid,block);
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = 0x01;
tm_pointer->TM_string[3] = ACKCODE; //ackcode to be decided
tm_pointer->TM_string[4] = 0x01;
for(uint8_t i=0;i<6;i++)
{
tm_pointer->TM_string[i+5] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
default:
{
//printf("INVALID TC\r\n"); //Send Invalid TC Telemetry
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = 0x01;
tm_pointer->TM_string[3] = ACKCODE; //ackcode to be decided
tm_pointer->TM_string[4] = 0x01;
for(uint8_t i=0;i<6;i++)
{
tm_pointer->TM_string[i+5] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
}
break;
}
}
case 0x8:
{
//printf("service:FUNCTION MANAGEMENT SERVICE\r\n");
if(GETservice_subtype(tc_ptr)==0x1)
{
if(GETpid(tc_ptr)==0x01)
{
//printf("TC_PL_INIT\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x02)
{
//printf("TC_PL_MAIN\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x03)
{
//printf("TC_COM_INIT\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x04)
{
//printf("TC_CDMS_HK_MAIN\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x11)
{
//printf("TC_SW_ON_SD\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x12)
{
//printf("TC_SW_ON_RTC\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x13)
{
//printf("TC_SW_ON_BAE\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x14)
{
//printf("TC_SW_ON_PL_DL\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x15)
{
//printf("TC_SW_ON_PL_AG_HV\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x16)
{
//printf("TC_SW_ON_V_A_EN\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x21)
{
//printf("TC_SW_OFF_SD\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x22)
{
//printf("TC_SW_OFF_RTC\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x23)
{
//printf("TC_SW_OFF_BAE\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x24)
{
//printf("TC_SW_OFF_PL_DL\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x25)
{
//printf("TC_SW_OFF_PL_AG_HV\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x26)
{
//printf("TC_SW_OFF_V_A_EN\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x31)
{
//printf("TC_RST_SD\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x32)
{
//printf("TC_RST_RTC\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x33)
{
//printf("TC_RST_BAE\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0x34)
{
//printf("TC_RST_PL_DL\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
break;
}
else if(GETpid(tc_ptr)==0xC1)
{
//printf("RESET_HK_COUNTER\r\n"); // call PWR_SWCH_ON function
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = ACKCODE;
for(uint8_t i=3;i<11;i++)
{
tm_pointer->TM_string[i] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
else if(GETpid(tc_ptr)==0xF1)
{
//printf("RD_RTC\r\n"); //call RD_RTC
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xD0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = 0x01;
uint64_t time = FCTN_CDMS_RD_RTC();
tm_pointer->TM_string[3] = (uint8_t)((time&0xFF00000000000000)>>56);
tm_pointer->TM_string[4] = (uint8_t)((time&0x00FF000000000000)>>48);
tm_pointer->TM_string[5] = (uint8_t)((time&0x0000FF0000000000)>>40);
tm_pointer->TM_string[6] = (uint8_t)((time&0x000000FF00000000)>>32);
tm_pointer->TM_string[7] = (uint8_t)((time&0x00000000FF000000)>>24);
tm_pointer->TM_string[8] = (uint8_t)((time&0x0000000000FF0000)>>16);
tm_pointer->TM_string[9] = (uint8_t)((time&0x000000000000FF00)>>8);
tm_pointer->TM_string[10] = (uint8_t)(time&0x00000000000000FF);
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
}
else
{
//printf("INVALID TC\r\n");
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = 0x01;
tm_pointer->TM_string[3] = ACKCODE; //ackcode to be decided
tm_pointer->TM_string[4] = 0x01;
for(uint8_t i=0;i<6;i++)
{
tm_pointer->TM_string[i+5] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
}
}
}
default:
{
//printf("INVALID TC"); //send invalid TC TM
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = 0x01;
tm_pointer->TM_string[3] = ACKCODE; //ackcode to be decided
tm_pointer->TM_string[4] = 0x01;
for(uint8_t i=0;i<6;i++)
{
tm_pointer->TM_string[i+5] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
}
}
case 3:
{
#if DEBUG
printf("Telecommand is for PL\r\n");
#endif
received = 0;
if(GETservice_subtype(tc_ptr) == 0xD0 || GETservice_subtype(tc_ptr) == 0xD2 || GETservice_subtype(tc_ptr) == 0xD3)
{
PL_TM_SIZE = TM_LONG_SIZE;
}
else
{
PL_TM_SIZE = TM_LONG_SIZE;
}
if(GETshort_or_long_tc(tc_ptr) == LONG_TC_CODE)
FCTN_I2C_WRITE_PL((char*)tc_ptr->TC_string,TC_LONG_SIZE);
else
{
FCTN_I2C_WRITE_PL((char*)tc_ptr->TC_string,TC_SHORT_SIZE);
}
while(1)
{
if(PYLD_I2C_Int == 1)
{
//printf("receiving...\r\n");
FCTN_I2C_READ_PL((char*)tm_pointer->TM_string,134);
gPC.printf("%s", tm_pointer->TM_string);
received+=1;
break; //only for testing purpose
}
}
if(received < 1 )
{
printf("Telemetry is not received from BAE\r\n");
tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = 0x00;
tm_pointer->TM_string[3] = 0x00; //ackcode to be decided
tm_pointer->TM_string[4] = 0x00;
for(uint8_t i=0;i<6;i++)
{
tm_pointer->TM_string[i+5] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
}
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
default: //invalid TC
{
//printf("INVALID TC\r\n");
//tm_pointer = new Short_tm;
tm_pointer->TM_string[0] = 0xB0;
tm_pointer->TM_string[1] = GETpacket_seq_count(tc_ptr);
tm_pointer->TM_string[2] = 0x01;
tm_pointer->TM_string[3] = ACKCODE; //ackcode to be decided
tm_pointer->TM_string[4] = 0x01;
for(uint8_t i=0;i<6;i++)
{
tm_pointer->TM_string[i+5] = 0;
}
crc16 = crc16_gen(tm_ptr->TM_string,11);
tm_pointer->TM_string[11] = (uint8_t)((crc16&0xFF00)>>8);
tm_pointer->TM_string[12] = (uint8_t)(crc16&0x00FF);
tm_pointer->next_TM = NULL; return tm_ptr;
break;
}
}
}
// CDMS TEAM CODE END
// EXECUTE OBOSC
#define execute_obosc_core(tc_ptr, tm_ptr, reset_flag) {\
uint8_t service_subtype = (tc_ptr->TC_string[2]) & 0x0F;\
uint8_t temp8 = 0x00;\
Base_tc *modify_this = gHEAD_NODE_TCL;\
int modify_overflow = 0x00;\
switch( service_subtype ){\
case OBOSC_SUB_DISABLE:\
/*gPC.puts("target psc are ");*/\
for(int i = 3 ; i < 9 ; ++i){\
/*gPC.printf("%u ", tc_ptr->TC_string[i]);*/\
}\
/*gPC.puts("\r\n");*/\
/*gPC.puts("disable type obosc\r\n");*/\
while( modify_this != NULL ){\
if( modify_overflow < TCL_OVERFLOW_CONSTANT ){\
uint8_t modify_psc = GETpacket_seq_count(modify_this);\
/*gPC.printf("mosify_psc = %u\r\n", modify_psc);*/\
for( int i = 3 ; i < 9 ; ++i ){\
uint8_t target_psc = tc_ptr->TC_string[i];\
if( (target_psc == modify_psc) && (target_psc != 0) ){\
uint16_t tempExec = TC_STATE_DISABLED;\
PUTexec_status( modify_this, tempExec );\
break;\
}\
}\
modify_this = modify_this->next_TC;\
++modify_overflow;\
}\
else{\
/*PENDING: RESET CDMS*/\
break;\
}\
}\
break;\
case OBOSC_SUB_RETRY:\
/*gPC.puts("retry type obosc\r\n");*/\
while( modify_this != NULL ){\
if( modify_overflow < TCL_OVERFLOW_CONSTANT ){\
uint8_t modify_psc = GETpacket_seq_count(modify_this);\
for( int i = 3 ; i < 9 ; ++i ){\
uint8_t target_psc = tc_ptr->TC_string[i];\
if( (target_psc == modify_psc) && (target_psc != 0) ){\
uint16_t tempExec = TC_STATE_MARKED_RETRY;\
PUTexec_status( modify_this, tempExec );\
/*gPC.puts("reqquired tc found: disable\r\n");*/\
break;\
}\
}\
modify_this = modify_this->next_TC;\
++modify_overflow;\
}\
else{\
/*PENDING: RESET CDMS*/\
break;\
}\
}\
break;\
}\
Base_tm *ackl234new = new Short_tm;\
ackl234new->next_TM = NULL;\
/*return telemetry pointer here*/\
tm_ptr = ackl234new;\
ackl234new->TM_string[0] = TMID_ACK_L234 << 4;\
ackl234new->TM_string[1] = GETpacket_seq_count(tc_ptr);\
ackl234new->TM_string[2] = 0xA0;\
for(int i = 3; i < 11; ++i){\
ackl234new->TM_string[i] = 0x00;\
}\
uint16_t crc = crc16_gen(ackl234new->TM_string, TM_SHORT_SIZE-2);\
ackl234new->TM_string[11] = (crc & 0xFF00) >> 8;\
ackl234new->TM_string[12] = crc & 0x00FF;\
/*ack l234 old*/\
if( service_subtype == OBOSC_SUB_REP_LE ){\
if( gLAST_TM_SHORT_OR_LONG == SHORT_TM_CODE ){\
Base_tm *ackl234old = new Short_tm;\
ackl234old->next_TM = NULL;\
/*APPEND TO ACK L234 NEW HERE*/\
ackl234new->next_TM = ackl234old;\
for( int i = 0 ; i < TM_SHORT_SIZE ; ++i ){\
ackl234old->TM_string[i] = gLAST_TM[i];\
}\
}\
else{\
Base_tm *tempLongTM = new Long_tm;\
tempLongTM->next_TM = NULL;\
/*APPEND TO ACK L234 NEW HERE*/\
ackl234new->next_TM = tempLongTM;\
for( int i = 0 ; i < TM_LONG_SIZE ; ++i ){\
tempLongTM->TM_string[i] = gLAST_TM[i];\
}\
}\
}\
else if( service_subtype == OBOSC_SUB_REP_TCLD ){\
get_tc_list(ackl234new->next_TM, GETpacket_seq_count(tc_ptr));\
}\
else if( service_subtype == OBOSC_SUB_RESET ){\
/*reset_all;*/\
reset_flag = 1;\
/*PENDING: VERIFY reset_all, RESET CDMS*/\
}\
else if( (service_subtype != OBOSC_SUB_DISABLE) && (service_subtype != OBOSC_SUB_RETRY) ){\
/*CHANGE THE ACK CODE TO INVALID TC*/\
ackl234new->TM_string[2] = 0xA2;\
}\
/*gPC.puts("completed obosc\r\n");*/\
}
/*tm_ptr is the next_TM of a linked list, and should have the value NULL, i.e. tm_ptr should be the next_TM pointer of thte last node */
#define EXECUTE_OBOSC_ONLY {\
int reset_flag = 0;\
for(uint8_t execute_psc = PSC_START_VALUE ; execute_psc < gTOTAL_VALID_TC ; ++execute_psc){\
Base_tc* current_TC = gHEAD_NODE_TCL;\
int overCount = 0;\
while( current_TC != NULL ){\
if( overCount < TCL_OVERFLOW_CONSTANT ){\
if( (GETcrc_pass(current_TC) == 1) && (GETpacket_seq_count(current_TC) == execute_psc) ){\
/*CHECK FOR OBOSC*/\
uint8_t temp82 = 0x00;\
isit_obosc(current_TC, temp82);\
if(temp82 == 0x01){\
uint16_t current_exec_status = GETexec_status(current_TC);\
if( (current_exec_status == TC_STATE_SUCCESSFULLY_EXECUTED) || (current_exec_status == TC_STATE_DISABLED) )\
break;\
else if( (current_exec_status == TC_STATE_UNEXECUTED) || (current_exec_status == TC_STATE_MARKED_RETRY) ){\
/*gPC.printf("It is obosc: %u\r\n", execute_psc);*/\
/*EXECUTION OF OBOSC TC*/\
/*WARNING: LARGE MEMORY UTILIZATION FOR TC-LIST-REPORT */\
Base_tm *obosc_tm_head = NULL;\
get_call_sign(obosc_tm_head);\
Base_tm *obosc_tm_core = NULL;\
execute_obosc_core(current_TC, obosc_tm_core, reset_flag);\
uint16_t temp16 = TC_STATE_SUCCESSFULLY_EXECUTED;\
PUTexec_status(current_TC, temp16);\
Base_tm *obosc_tm_current = obosc_tm_head;\
get_ack_l1(obosc_tm_current->next_TM);\
int overflowCountOBONLY = 0;\
while( obosc_tm_current->next_TM != NULL ){\
if( overflowCountOBONLY < TM_OVERFLOW_CONSTANT ){\
obosc_tm_current = obosc_tm_current->next_TM;\
++overflowCountOBONLY;\
}\
else{\
/*PENDING: RESET CDMS*/\
break;\
}\
}\
obosc_tm_current->next_TM = obosc_tm_core;\
obosc_tm_current = obosc_tm_head;\
while( obosc_tm_current != NULL ){\
int length = TM_SHORT_SIZE;\
if( GETshort_or_long_tm(obosc_tm_current) == SHORT_TM_CODE ){\
length = TM_SHORT_SIZE;\
}\
else{\
length = TM_LONG_SIZE;\
}\
for(int i = 0 ; i < length ; ++i){\
/*gPC.putc(obosc_tm_current->TM_string[i]);*/\
}\
obosc_tm_current = obosc_tm_current->next_TM;\
}\
/*Sending OBOSC TM to GS*/\
/*snd_tm.head_pointer(obosc_tm_head);*/\
/*transmit_adf;*/\
/*DELETE THE TM AFTER USE*/\
obosc_tm_current = obosc_tm_head;\
int overCount = 0;\
while( obosc_tm_current != NULL ){\
if( (overCount < TM_OVERFLOW_CONSTANT) ){\
Base_tm *temp = obosc_tm_current->next_TM;\
delete obosc_tm_current;\
obosc_tm_current = temp;\
++overCount;\
}\
else{\
/*PENDING: RESET CDMS: MEMORY LEAK FOUND*/\
break;\
}\
}\
if ( reset_flag ==1 ){\
reset_all;\
}\
}\
}\
}\
current_TC = current_TC->next_TC;\
++overCount;\
}\
else{\
/*PENDING: REST CDMS: MEMORY LEAK FOUND*/\
break;\
}\
}\
}\
}
#define EXECUTE_TC {\
gMASTER_STATE = TCL_STATE_EXECUTING;\
/*gPC.printf("%u\r\n", gTOTAL_VALID_TC);*/\
for(uint8_t execute_psc = PSC_START_VALUE ; execute_psc < gTOTAL_VALID_TC ; ++execute_psc ){\
/*gPC.printf("executing normal %u\r\n", execute_psc);*/\
/*gLEDG = !gLEDG;*/\
/*gLEDR = !gLEDR;*/\
Base_tc* current_TC = gHEAD_NODE_TCL;\
int overflowCount = 0;\
while(current_TC != NULL){\
if( overflowCount < TCL_OVERFLOW_CONSTANT ){\
if( (GETcrc_pass(current_TC) == 1) && (GETpacket_seq_count(current_TC) == execute_psc) ){\
uint8_t current_exec_status = GETexec_status(current_TC);\
if( (current_exec_status == TC_STATE_SUCCESSFULLY_EXECUTED) || (current_exec_status == TC_STATE_DISABLED) ){\
/*gPC.printf("disabled or completed at %u\n", execute_psc);*/\
break;\
}\
else if( (current_exec_status == TC_STATE_EXECUTION_FAILED) && (GETabort_on_nack(current_TC) == 1) ){\
/*gPC.printf("abort on nack at %u psc\r\n", execute_psc);*/\
gMASTER_STATE = TCL_STATE_ABORTED;\
Base_tm *tm_ptr_head = NULL;\
get_call_sign(tm_ptr_head);\
Base_tm *tm_ptr = tm_ptr_head;\
get_ack_l1(tm_ptr->next_TM);\
tm_ptr = tm_ptr_head;\
while( tm_ptr != NULL ){\
int length = TM_SHORT_SIZE;\
if( GETshort_or_long_tm(tm_ptr) == SHORT_TM_CODE ){\
length = TM_SHORT_SIZE;\
}\
else{\
length = TM_LONG_SIZE;\
}\
/*gPC.puts("Printing Call Sign, ACK_L1, TM list");*/\
for(int i = 0 ; i < length ; ++i){\
/*gPC.putc(tm_ptr->TM_string[i]);*/\
}\
tm_ptr = tm_ptr->next_TM;\
}\
/*Send only call sign, ACK_L1 to GS*/\
/*snd_tm.head_pointer(tm_ptr_head);*/\
/*transmit_adf;*/\
/*DELETE THE TM AFTER USE*/\
tm_ptr = tm_ptr_head;\
int overflowCountExecute = 0;\
while(tm_ptr != NULL){\
if( overflowCountExecute < TM_OVERFLOW_CONSTANT ){\
Base_tm *temp = tm_ptr->next_TM;\
delete tm_ptr;\
tm_ptr = temp;\
++overflowCountExecute;\
}\
else{\
/*PENDING: RESET CDMS*/\
break;\
}\
}\
break;\
}\
else if( (current_exec_status == TC_STATE_UNEXECUTED) || (current_exec_status == TC_STATE_MARKED_RETRY) ){\
/*EXECUTION OF TC START*/\
uint8_t temp81 = 0x00;\
isit_sdcard(current_TC, temp81);\
if( temp81 == 0x00 ){\
/*gPC.printf("non sd card at %u\r\n", execute_psc);*/\
/*EXECUTION OF NON SD-CARD (BOTH OBOSC and CDMS functions)*/\
Base_tm *tm_ptr_head = NULL;\
get_call_sign(tm_ptr_head);\
Base_tm *put_tm_here = NULL;\
uint8_t temp82 = 0x00;\
uint8_t tempPAhot = 0x00;\
isit_obosc(current_TC, temp82);\
if(temp82 == 0x01){\
/*gPC.printf("obosc tc inside normal tc at %u\r\n", execute_psc);*/\
/*EXECUTION OF OBOSC TC*/\
/*SKIP EXECUTION OF OBOSC HERE*/\
break;\
}\
else{\
/*gPC.printf("cdms relay tmtc at %u\r\n", execute_psc);*/\
/*call CDMS_RLY_TMTC*/\
/*CDMS_RLY_TMTC(current_TC, put_tm_here);*/\
put_tm_here = FCTN_CDMS_RLY_TMTC(current_TC);\
}\
/*DETECT ACK OR NACK*/\
uint8_t temp83 = 0x00;\
uint8_t temp84 = GETpacket_seq_count(current_TC);\
detect_ack(put_tm_here, temp83, temp84);\
if( temp83 == 0x01){\
uint16_t temp16 = TC_STATE_SUCCESSFULLY_EXECUTED;\
PUTexec_status(current_TC, temp16);\
}\
else{\
/*gPC.puts("TC_STATE_EXECUTION_FAILED");*/\
uint16_t temp16 = TC_STATE_EXECUTION_FAILED;\
PUTexec_status(current_TC, temp16);\
}\
/*ABORT ON NACK AND TC LIST COMPLETED: UPDATE IN gMASTERSTATE*/\
if( (GETexec_status(current_TC) == TC_STATE_EXECUTION_FAILED) && (GETabort_on_nack(current_TC) == 1) ){\
gMASTER_STATE = TCL_STATE_ABORTED;\
}\
else if( execute_psc == (gTOTAL_VALID_TC-1) ){\
/*LAST TC IS EXECUTED*/\
gMASTER_STATE = TCL_STATE_COMPLETED;\
}\
else{\
uint8_t check1 = 1;\
for( uint8_t test_psc = execute_psc+1 ; test_psc < gTOTAL_VALID_TC ; ++test_psc ){\
Base_tc* test_TC = gHEAD_NODE_TCL;\
while(test_TC != NULL){\
if( GETpacket_seq_count(test_TC) == test_psc ){\
uint8_t checkval;\
isit_obosc(test_TC, checkval);\
if( checkval == 0 ){\
check1 = 0;\
}\
}\
test_TC = test_TC->next_TC;\
}\
}\
if( check1 == 0x01 ){\
gMASTER_STATE = TCL_STATE_COMPLETED;\
}\
}\
/*update last executed L1_ack*/\
if( put_tm_here != NULL ){\
if( GETshort_or_long_tm(put_tm_here) == SHORT_TM_CODE ){\
for(int i = 0 ; i < TM_SHORT_SIZE ; ++i){\
gLAST_TM[i] = put_tm_here->TM_string[i];\
gLAST_TM_SHORT_OR_LONG = SHORT_TM_CODE;\
}\
}\
else{\
for( int i = 0 ; i < TM_LONG_SIZE ; ++i ){\
gLAST_TM[i] = put_tm_here->TM_string[i];\
gLAST_TM_SHORT_OR_LONG = LONG_TM_CODE;\
}\
}\
}\
/*PENDING: APPEND ACK L1*/\
Base_tm *tm_ptr = tm_ptr_head;\
get_ack_l1(tm_ptr->next_TM);\
int overflowCountExecute = 0;\
while( tm_ptr->next_TM != NULL ){\
if( overflowCountExecute < TM_OVERFLOW_CONSTANT ){\
tm_ptr = tm_ptr->next_TM;\
++overflowCountExecute;\
}\
else{\
/*PENDING: RESET CDMS*/\
break;\
}\
}\
tm_ptr->next_TM = put_tm_here;\
/*CHECK FOR HOT PA*/\
isPAhot(tempPAhot);\
if( tempPAhot == 0x00 ){\
gFLAGS = gFLAGS | COM_PA_HOT_FLAG;\
}\
tm_ptr = tm_ptr_head;\
while( tm_ptr != NULL ){\
int length = TM_SHORT_SIZE;\
if( GETshort_or_long_tm(tm_ptr) == SHORT_TM_CODE ){\
length = TM_SHORT_SIZE;\
}\
else{\
length = TM_LONG_SIZE;\
}\
/*gPC.puts("Printing Call Sign, ACK_L1, TM list");*/\
for(int i = 0 ; i < length ; ++i){\
/*gPC.putc(tm_ptr->TM_string[i]);*/\
}\
tm_ptr = tm_ptr->next_TM;\
}\
/*SEND call sign, ACK_L1, NON OBSRS TM TO GS*/\
snd_tm.head_pointer(tm_ptr_head);\
gPC.puts("enter_adf\r\n");\
transmit_adf;\
gPC.puts("exit_adf\r\n");\
/*DELETE THE TM AFTER USE*/\
tm_ptr = tm_ptr_head;\
overflowCountExecute = 0;\
while(tm_ptr != NULL){\
if( overflowCountExecute < TM_OVERFLOW_CONSTANT ){\
Base_tm *temp = tm_ptr->next_TM;\
delete tm_ptr;\
tm_ptr = temp;\
++overflowCountExecute;\
}\
else{\
/*PENDING: RESET CDMS*/\
break;\
}\
}\
}\
else{\
/*gPC.printf("sd card at %u\r\n", execute_psc);*/\
/*EXECUTION OF SD-CARD DATA SENDING (OBSRS)*/\
Base_tm *tm_ptr_head = NULL;\
get_call_sign(tm_ptr_head);\
Base_tm *put_tm_here = NULL;\
/*execute_obsrs(current_TC, put_tm_here)*/\
/*read_TC(current_TC);*/\
execute_OBSRS_TC(current_TC);\
gPC.puts("enter_adf\r\n");\
transmit_adf;\
gPC.puts("exit_adf\r\n");\
uint8_t tempExec = TC_STATE_SUCCESSFULLY_EXECUTED;\
PUTexec_status(current_TC, tempExec);\
/*PENDING: ABORT ON NACK CHECK, gMASTER_STATE VERIFICATION WITH SD CARD, session timeout, last executed ack l234*/\
if( (GETexec_status(current_TC) == TC_STATE_EXECUTION_FAILED) && (GETabort_on_nack(current_TC) == 1) ){\
gMASTER_STATE = TCL_STATE_ABORTED;\
}\
else if( execute_psc == (gTOTAL_VALID_TC-1) ){\
gMASTER_STATE = TCL_STATE_COMPLETED;\
}\
else{\
uint8_t check1 = 1;\
for( uint8_t test_psc = execute_psc+1 ; test_psc < gTOTAL_VALID_TC ; ++test_psc ){\
Base_tc* test_TC = gHEAD_NODE_TCL;\
while(test_TC != NULL){\
if( GETpacket_seq_count(test_TC) == test_psc ){\
uint8_t checkval;\
isit_obosc(test_TC, checkval);\
if( checkval == 0 ){\
check1 = 0;\
}\
}\
test_TC = test_TC->next_TC;\
}\
}\
if( check1 == 0x01 ){\
gMASTER_STATE = TCL_STATE_COMPLETED;\
}\
}\
/*update last executed L1_ack*/\
if( put_tm_here != NULL ){\
if( GETshort_or_long_tm(put_tm_here) == SHORT_TM_CODE ){\
for(int i = 0 ; i < TM_SHORT_SIZE ; ++i){\
gLAST_TM[i] = put_tm_here->TM_string[i];\
gLAST_TM_SHORT_OR_LONG = SHORT_TM_CODE;\
}\
}\
else{\
for( int i = 0 ; i < TM_LONG_SIZE ; ++i ){\
gLAST_TM[i] = put_tm_here->TM_string[i];\
gLAST_TM_SHORT_OR_LONG = LONG_TM_CODE;\
}\
}\
}\
/*PENDING: APPEND ACK L1*/\
Base_tm *tm_ptr = tm_ptr_head;\
get_ack_l1(tm_ptr->next_TM);\
int overflowCountExecute = 0;\
while( tm_ptr->next_TM != NULL ){\
if( overflowCountExecute < TM_OVERFLOW_CONSTANT ){\
tm_ptr = tm_ptr->next_TM;\
++overflowCountExecute;\
}\
else{\
/*PENDING: RESET CDMS*/\
break;\
}\
}\
tm_ptr->next_TM = put_tm_here;\
/*CHECK FOR HOT PA*/\
uint8_t tempPAhot = 0x00;\
isPAhot(tempPAhot);\
if( tempPAhot == 0x00 ){\
gFLAGS = gFLAGS | COM_PA_HOT_FLAG;\
}\
tm_ptr = tm_ptr_head;\
while( tm_ptr != NULL ){\
int length = TM_SHORT_SIZE;\
if( GETshort_or_long_tm(tm_ptr) == SHORT_TM_CODE ){\
length = TM_SHORT_SIZE;\
}\
else{\
length = TM_LONG_SIZE;\
}\
/*gPC.puts("Printing Call Sign, ACK_L1, TM list");*/\
for(int i = 0 ; i < length ; ++i){\
/*gPC.putc(tm_ptr->TM_string[i]);*/\
}\
tm_ptr = tm_ptr->next_TM;\
}\
/*SEND call sign, ACK_L1, OBSRS TO GS*/\
/*snd_tm.head_pointer(tm_ptr_head);*/\
/*adf_SDcard();*/\
/*DELETE THE TM AFTER USE*/\
tm_ptr = tm_ptr_head;\
overflowCountExecute = 0;\
while(tm_ptr != NULL){\
if( overflowCountExecute < TM_OVERFLOW_CONSTANT ){\
Base_tm *temp = tm_ptr->next_TM;\
delete tm_ptr;\
tm_ptr = temp;\
++overflowCountExecute;\
}\
else{\
/*PENDING: RESET CDMS*/\
break;\
}\
}\
}\
}\
break;\
}\
current_TC = current_TC->next_TC;\
++overflowCount;\
}\
else{\
/*PENDING: RESET CDMS*/\
break;\
}\
}\
if( gFLAGS & COM_SESSION_TIMEOUT_FLAG ){\
break;\
}\
else if( gMASTER_STATE == TCL_STATE_ABORTED ){\
/*gPC.puts("ABORTING DUE TO ABORT ON NACK\r\n");*/\
/*EXITED DUE TO ABORT ON NACK:*/\
/*PENDING : POWER OFF COM TX*/\
RX1M.attach(&rx_read, Serial::RxIrq);\
gFLAGS = gFLAGS & (~COM_MNG_TMTC_RUNNING_FLAG);\
break;\
}\
else if( gFLAGS & COM_PA_HOT_FLAG ){\
/*PA HOT: WAIT FOR TIMEOUT*/\
gCOM_PA_COOLING_TIMEOUT.attach(&after_cooling_pa, COM_PA_COOLING_TIME_LIMIT);\
/*PENDING : POWER OFF COMM TX*/\
RX1M.attach(&rx_read, Serial::RxIrq);\
gFLAGS = gFLAGS & (~COM_MNG_TMTC_RUNNING_FLAG);\
break;\
}\
/*gPC.printf("successflly executed %u tc\r\n", execute_psc);*/\
}\
if( (gMASTER_STATE == TCL_STATE_COMPLETED) || (gFLAGS & COM_SESSION_TIMEOUT_FLAG) ){\
/*gPC.printf("completed or session timed out: %x\r\n", gMASTER_STATE);*/\
/*COMPLETED EXECUTION OF TC*/\
gMASTER_STATE = TCL_STATE_COMPLETED;\
COM_POWER_OFF_TX;\
reset_all;\
/*PENDING : ENABLE THREADS*/\
gSESSION_TIMEOUT.detach();\
gFLAGS = gFLAGS & (~COM_MNG_TMTC_RUNNING_FLAG);\
gFLAGS = gFLAGS & (~COM_SESSION_FLAG);\
gPC.puts("end\r\n");\
}\
}