fsw_processing.c
459 lines
| 16.9 KiB
| text/x-c
|
CLexer
paul
|
r126 | /** Functions related to data processing. | ||
* | ||||
* @file | ||||
* @author P. LEROY | ||||
* | ||||
* These function are related to data processing, i.e. spectral matrices averaging and basic parameters computation. | ||||
* | ||||
*/ | ||||
#include "fsw_processing.h" | ||||
#include "fsw_processing_globals.c" | ||||
unsigned int nb_sm_f0; | ||||
unsigned int nb_sm_f0_aux_f1; | ||||
unsigned int nb_sm_f1; | ||||
unsigned int nb_sm_f0_aux_f2; | ||||
//************************ | ||||
// spectral matrices rings | ||||
ring_node_sm sm_ring_f0[ NB_RING_NODES_SM_F0 ]; | ||||
ring_node_sm sm_ring_f1[ NB_RING_NODES_SM_F1 ]; | ||||
ring_node_sm sm_ring_f2[ NB_RING_NODES_SM_F2 ]; | ||||
ring_node_sm *current_ring_node_sm_f0; | ||||
ring_node_sm *current_ring_node_sm_f1; | ||||
ring_node_sm *current_ring_node_sm_f2; | ||||
ring_node_sm *ring_node_for_averaging_sm_f0; | ||||
ring_node_sm *ring_node_for_averaging_sm_f1; | ||||
ring_node_sm *ring_node_for_averaging_sm_f2; | ||||
//*********************************************************** | ||||
// Interrupt Service Routine for spectral matrices processing | ||||
rtems_isr spectral_matrices_isr( rtems_vector_number vector ) | ||||
{ | ||||
// ring_node_sm *previous_ring_node_sm_f0; | ||||
//// rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_8 ); | ||||
// previous_ring_node_sm_f0 = current_ring_node_sm_f0; | ||||
// if ( (spectral_matrix_regs->status & 0x2) == 0x02) // check ready matrix bit f0_1 | ||||
// { | ||||
// current_ring_node_sm_f0 = current_ring_node_sm_f0->next; | ||||
// spectral_matrix_regs->matrixF0_Address0 = current_ring_node_sm_f0->buffer_address; | ||||
// spectral_matrix_regs->status = spectral_matrix_regs->status & 0xfffffffd; // 1101 | ||||
// nb_sm_f0 = nb_sm_f0 + 1; | ||||
// } | ||||
// //************************ | ||||
// // reset status error bits | ||||
// if ( (spectral_matrix_regs->status & 0x30) != 0x00) | ||||
// { | ||||
// rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_8 ); | ||||
// spectral_matrix_regs->status = spectral_matrix_regs->status & 0xffffffcf; // 1100 1111 | ||||
// } | ||||
// //************************************** | ||||
// // reset ready matrix bits for f0_0, f1 and f2 | ||||
// spectral_matrix_regs->status = spectral_matrix_regs->status & 0xfffffff2; // 0010 | ||||
// if (nb_sm_f0 == NB_SM_BEFORE_AVF0) | ||||
// { | ||||
// ring_node_for_averaging_sm_f0 = previous_ring_node_sm_f0; | ||||
// if (rtems_event_send( Task_id[TASKID_AVF0], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) | ||||
// { | ||||
// rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_3 ); | ||||
// } | ||||
// nb_sm_f0 = 0; | ||||
// } | ||||
} | ||||
rtems_isr spectral_matrices_isr_simu( rtems_vector_number vector ) | ||||
{ | ||||
//*** | ||||
// F0 | ||||
nb_sm_f0 = nb_sm_f0 + 1; | ||||
if (nb_sm_f0 == NB_SM_BEFORE_AVF0 ) | ||||
{ | ||||
ring_node_for_averaging_sm_f0 = current_ring_node_sm_f0; | ||||
if (rtems_event_send( Task_id[TASKID_AVF0], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) | ||||
{ | ||||
rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_3 ); | ||||
} | ||||
nb_sm_f0 = 0; | ||||
} | ||||
//*** | ||||
// F1 | ||||
nb_sm_f0_aux_f1 = nb_sm_f0_aux_f1 + 1; | ||||
if (nb_sm_f0_aux_f1 == 6) | ||||
{ | ||||
nb_sm_f0_aux_f1 = 0; | ||||
nb_sm_f1 = nb_sm_f1 + 1; | ||||
} | ||||
if (nb_sm_f1 == NB_SM_BEFORE_AVF1 ) | ||||
{ | ||||
ring_node_for_averaging_sm_f1 = current_ring_node_sm_f1; | ||||
if (rtems_event_send( Task_id[TASKID_AVF1], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) | ||||
{ | ||||
rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_3 ); | ||||
} | ||||
nb_sm_f1 = 0; | ||||
} | ||||
//*** | ||||
// F2 | ||||
nb_sm_f0_aux_f2 = nb_sm_f0_aux_f2 + 1; | ||||
if (nb_sm_f0_aux_f2 == 96) | ||||
{ | ||||
nb_sm_f0_aux_f2 = 0; | ||||
ring_node_for_averaging_sm_f2 = current_ring_node_sm_f2; | ||||
if (rtems_event_send( Task_id[TASKID_AVF2], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) | ||||
{ | ||||
rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_3 ); | ||||
} | ||||
} | ||||
} | ||||
//****************** | ||||
// Spectral Matrices | ||||
void reset_nb_sm( void ) | ||||
{ | ||||
nb_sm_f0 = 0; | ||||
nb_sm_f0_aux_f1 = 0; | ||||
nb_sm_f0_aux_f2 = 0; | ||||
nb_sm_f1 = 0; | ||||
} | ||||
void SM_init_rings( void ) | ||||
{ | ||||
unsigned char i; | ||||
// F0 RING | ||||
sm_ring_f0[0].next = (ring_node_sm*) &sm_ring_f0[1]; | ||||
sm_ring_f0[0].previous = (ring_node_sm*) &sm_ring_f0[NB_RING_NODES_SM_F0-1]; | ||||
sm_ring_f0[0].buffer_address = | ||||
(int) &sm_f0[ 0 ]; | ||||
sm_ring_f0[NB_RING_NODES_SM_F0-1].next = (ring_node_sm*) &sm_ring_f0[0]; | ||||
sm_ring_f0[NB_RING_NODES_SM_F0-1].previous = (ring_node_sm*) &sm_ring_f0[NB_RING_NODES_SM_F0-2]; | ||||
sm_ring_f0[NB_RING_NODES_SM_F0-1].buffer_address = | ||||
(int) &sm_f0[ (NB_RING_NODES_SM_F0-1) * TOTAL_SIZE_SM ]; | ||||
for(i=1; i<NB_RING_NODES_SM_F0-1; i++) | ||||
{ | ||||
sm_ring_f0[i].next = (ring_node_sm*) &sm_ring_f0[i+1]; | ||||
sm_ring_f0[i].previous = (ring_node_sm*) &sm_ring_f0[i-1]; | ||||
sm_ring_f0[i].buffer_address = | ||||
(int) &sm_f0[ i * TOTAL_SIZE_SM ]; | ||||
} | ||||
// F1 RING | ||||
sm_ring_f1[0].next = (ring_node_sm*) &sm_ring_f1[1]; | ||||
sm_ring_f1[0].previous = (ring_node_sm*) &sm_ring_f1[NB_RING_NODES_SM_F1-1]; | ||||
sm_ring_f1[0].buffer_address = | ||||
(int) &sm_f1[ 0 ]; | ||||
sm_ring_f1[NB_RING_NODES_SM_F1-1].next = (ring_node_sm*) &sm_ring_f1[0]; | ||||
sm_ring_f1[NB_RING_NODES_SM_F1-1].previous = (ring_node_sm*) &sm_ring_f1[NB_RING_NODES_SM_F1-2]; | ||||
sm_ring_f1[NB_RING_NODES_SM_F1-1].buffer_address = | ||||
(int) &sm_f1[ (NB_RING_NODES_SM_F1-1) * TOTAL_SIZE_SM ]; | ||||
for(i=1; i<NB_RING_NODES_SM_F1-1; i++) | ||||
{ | ||||
sm_ring_f1[i].next = (ring_node_sm*) &sm_ring_f1[i+1]; | ||||
sm_ring_f1[i].previous = (ring_node_sm*) &sm_ring_f1[i-1]; | ||||
sm_ring_f1[i].buffer_address = | ||||
(int) &sm_f1[ i * TOTAL_SIZE_SM ]; | ||||
} | ||||
// F2 RING | ||||
sm_ring_f2[0].next = (ring_node_sm*) &sm_ring_f2[1]; | ||||
sm_ring_f2[0].previous = (ring_node_sm*) &sm_ring_f2[NB_RING_NODES_SM_F2-1]; | ||||
sm_ring_f2[0].buffer_address = | ||||
(int) &sm_f2[ 0 ]; | ||||
sm_ring_f2[NB_RING_NODES_SM_F2-1].next = (ring_node_sm*) &sm_ring_f2[0]; | ||||
sm_ring_f2[NB_RING_NODES_SM_F2-1].previous = (ring_node_sm*) &sm_ring_f2[NB_RING_NODES_SM_F2-2]; | ||||
sm_ring_f2[NB_RING_NODES_SM_F2-1].buffer_address = | ||||
(int) &sm_f2[ (NB_RING_NODES_SM_F2-1) * TOTAL_SIZE_SM ]; | ||||
for(i=1; i<NB_RING_NODES_SM_F2-1; i++) | ||||
{ | ||||
sm_ring_f2[i].next = (ring_node_sm*) &sm_ring_f2[i+1]; | ||||
sm_ring_f2[i].previous = (ring_node_sm*) &sm_ring_f2[i-1]; | ||||
sm_ring_f2[i].buffer_address = | ||||
(int) &sm_f2[ i * TOTAL_SIZE_SM ]; | ||||
} | ||||
DEBUG_PRINTF1("asm_ring_f0 @%x\n", (unsigned int) sm_ring_f0) | ||||
DEBUG_PRINTF1("asm_ring_f1 @%x\n", (unsigned int) sm_ring_f1) | ||||
DEBUG_PRINTF1("asm_ring_f2 @%x\n", (unsigned int) sm_ring_f2) | ||||
spectral_matrix_regs->matrixF0_Address0 = sm_ring_f0[0].buffer_address; | ||||
DEBUG_PRINTF1("spectral_matrix_regs->matrixF0_Address0 @%x\n", spectral_matrix_regs->matrixF0_Address0) | ||||
} | ||||
void ASM_generic_init_ring( ring_node_asm *ring, unsigned char nbNodes ) | ||||
{ | ||||
unsigned char i; | ||||
ring[ nbNodes - 1 ].next | ||||
= (ring_node_asm*) &ring[ 0 ]; | ||||
for(i=0; i<nbNodes-1; i++) | ||||
{ | ||||
ring[ i ].next = (ring_node_asm*) &ring[ i + 1 ]; | ||||
} | ||||
} | ||||
void SM_reset_current_ring_nodes( void ) | ||||
{ | ||||
current_ring_node_sm_f0 = sm_ring_f0; | ||||
current_ring_node_sm_f1 = sm_ring_f1; | ||||
current_ring_node_sm_f2 = sm_ring_f2; | ||||
ring_node_for_averaging_sm_f0 = sm_ring_f0; | ||||
ring_node_for_averaging_sm_f1 = sm_ring_f1; | ||||
ring_node_for_averaging_sm_f2 = sm_ring_f2; | ||||
} | ||||
void ASM_init_header( Header_TM_LFR_SCIENCE_ASM_t *header) | ||||
{ | ||||
header->targetLogicalAddress = CCSDS_DESTINATION_ID; | ||||
header->protocolIdentifier = CCSDS_PROTOCOLE_ID; | ||||
header->reserved = 0x00; | ||||
header->userApplication = CCSDS_USER_APP; | ||||
header->packetID[0] = (unsigned char) (APID_TM_SCIENCE_NORMAL_BURST >> 8); | ||||
header->packetID[1] = (unsigned char) (APID_TM_SCIENCE_NORMAL_BURST); | ||||
header->packetSequenceControl[0] = 0xc0; | ||||
header->packetSequenceControl[1] = 0x00; | ||||
header->packetLength[0] = 0x00; | ||||
header->packetLength[1] = 0x00; | ||||
// DATA FIELD HEADER | ||||
header->spare1_pusVersion_spare2 = 0x10; | ||||
header->serviceType = TM_TYPE_LFR_SCIENCE; // service type | ||||
header->serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype | ||||
header->destinationID = TM_DESTINATION_ID_GROUND; | ||||
// AUXILIARY DATA HEADER | ||||
header->sid = 0x00; | ||||
header->biaStatusInfo = 0x00; | ||||
header->pa_lfr_pkt_cnt_asm = 0x00; | ||||
header->pa_lfr_pkt_nr_asm = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->pa_lfr_asm_blk_nr[0] = 0x00; // BLK_NR MSB | ||||
header->pa_lfr_asm_blk_nr[1] = 0x00; // BLK_NR LSB | ||||
} | ||||
void ASM_send(Header_TM_LFR_SCIENCE_ASM_t *header, char *spectral_matrix, | ||||
unsigned int sid, spw_ioctl_pkt_send *spw_ioctl_send, rtems_id queue_id) | ||||
{ | ||||
unsigned int i; | ||||
unsigned int length = 0; | ||||
rtems_status_code status; | ||||
for (i=0; i<2; i++) | ||||
{ | ||||
// (1) BUILD THE DATA | ||||
switch(sid) | ||||
{ | ||||
case SID_NORM_ASM_F0: | ||||
spw_ioctl_send->dlen = TOTAL_SIZE_ASM_F0_IN_BYTES / 2; // 2 packets will be sent | ||||
spw_ioctl_send->data = &spectral_matrix[ | ||||
( (ASM_F0_INDICE_START + (i*NB_BINS_PER_PKT_ASM_F0) ) * NB_VALUES_PER_SM ) * 2 | ||||
]; | ||||
length = PACKET_LENGTH_TM_LFR_SCIENCE_ASM_F0; | ||||
header->pa_lfr_asm_blk_nr[0] = (unsigned char) ( (NB_BINS_PER_PKT_ASM_F0) >> 8 ); // BLK_NR MSB | ||||
header->pa_lfr_asm_blk_nr[1] = (unsigned char) (NB_BINS_PER_PKT_ASM_F0); // BLK_NR LSB | ||||
break; | ||||
case SID_NORM_ASM_F1: | ||||
spw_ioctl_send->dlen = TOTAL_SIZE_ASM_F1_IN_BYTES / 2; // 2 packets will be sent | ||||
spw_ioctl_send->data = &spectral_matrix[ | ||||
( (ASM_F1_INDICE_START + (i*NB_BINS_PER_PKT_ASM_F1) ) * NB_VALUES_PER_SM ) * 2 | ||||
]; | ||||
length = PACKET_LENGTH_TM_LFR_SCIENCE_ASM_F1; | ||||
header->pa_lfr_asm_blk_nr[0] = (unsigned char) ( (NB_BINS_PER_PKT_ASM_F1) >> 8 ); // BLK_NR MSB | ||||
header->pa_lfr_asm_blk_nr[1] = (unsigned char) (NB_BINS_PER_PKT_ASM_F1); // BLK_NR LSB | ||||
break; | ||||
case SID_NORM_ASM_F2: | ||||
spw_ioctl_send->dlen = TOTAL_SIZE_ASM_F2_IN_BYTES / 2; // 2 packets will be sent | ||||
spw_ioctl_send->data = &spectral_matrix[ | ||||
( (ASM_F2_INDICE_START + (i*NB_BINS_PER_PKT_ASM_F2) ) * NB_VALUES_PER_SM ) * 2 | ||||
]; | ||||
length = PACKET_LENGTH_TM_LFR_SCIENCE_ASM_F2; | ||||
header->pa_lfr_asm_blk_nr[0] = (unsigned char) ( (NB_BINS_PER_PKT_ASM_F2) >> 8 ); // BLK_NR MSB | ||||
header->pa_lfr_asm_blk_nr[1] = (unsigned char) (NB_BINS_PER_PKT_ASM_F2); // BLK_NR LSB | ||||
break; | ||||
default: | ||||
PRINTF1("ERR *** in ASM_send *** unexpected sid %d\n", sid) | ||||
break; | ||||
} | ||||
spw_ioctl_send->hlen = HEADER_LENGTH_TM_LFR_SCIENCE_ASM + CCSDS_PROTOCOLE_EXTRA_BYTES; | ||||
spw_ioctl_send->hdr = (char *) header; | ||||
spw_ioctl_send->options = 0; | ||||
// (2) BUILD THE HEADER | ||||
paul
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r133 | increment_seq_counter_source_id( header->packetSequenceControl, sid ); | ||
paul
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r126 | header->packetLength[0] = (unsigned char) (length>>8); | ||
header->packetLength[1] = (unsigned char) (length); | ||||
header->sid = (unsigned char) sid; // SID | ||||
header->pa_lfr_pkt_cnt_asm = 2; | ||||
header->pa_lfr_pkt_nr_asm = (unsigned char) (i+1); | ||||
// (3) SET PACKET TIME | ||||
header->time[0] = (unsigned char) (time_management_regs->coarse_time>>24); | ||||
header->time[1] = (unsigned char) (time_management_regs->coarse_time>>16); | ||||
header->time[2] = (unsigned char) (time_management_regs->coarse_time>>8); | ||||
header->time[3] = (unsigned char) (time_management_regs->coarse_time); | ||||
header->time[4] = (unsigned char) (time_management_regs->fine_time>>8); | ||||
header->time[5] = (unsigned char) (time_management_regs->fine_time); | ||||
// | ||||
paul
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r134 | header->acquisitionTime[0] = header->time[0]; | ||
header->acquisitionTime[1] = header->time[1]; | ||||
header->acquisitionTime[2] = header->time[2]; | ||||
header->acquisitionTime[3] = header->time[3]; | ||||
header->acquisitionTime[4] = header->time[4]; | ||||
header->acquisitionTime[5] = header->time[5]; | ||||
paul
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r126 | |||
// (4) SEND PACKET | ||||
status = rtems_message_queue_send( queue_id, spw_ioctl_send, ACTION_MSG_SPW_IOCTL_SEND_SIZE); | ||||
if (status != RTEMS_SUCCESSFUL) { | ||||
printf("in ASM_send *** ERR %d\n", (int) status); | ||||
} | ||||
} | ||||
} | ||||
//***************** | ||||
// Basic Parameters | ||||
void BP_init_header( Header_TM_LFR_SCIENCE_BP_t *header, | ||||
unsigned int apid, unsigned char sid, | ||||
unsigned int packetLength, unsigned char blkNr ) | ||||
{ | ||||
header->targetLogicalAddress = CCSDS_DESTINATION_ID; | ||||
header->protocolIdentifier = CCSDS_PROTOCOLE_ID; | ||||
header->reserved = 0x00; | ||||
header->userApplication = CCSDS_USER_APP; | ||||
header->packetID[0] = (unsigned char) (apid >> 8); | ||||
header->packetID[1] = (unsigned char) (apid); | ||||
header->packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_STANDALONE; | ||||
header->packetSequenceControl[1] = 0x00; | ||||
header->packetLength[0] = (unsigned char) (packetLength >> 8); | ||||
header->packetLength[1] = (unsigned char) (packetLength); | ||||
// DATA FIELD HEADER | ||||
header->spare1_pusVersion_spare2 = 0x10; | ||||
header->serviceType = TM_TYPE_LFR_SCIENCE; // service type | ||||
header->serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype | ||||
header->destinationID = TM_DESTINATION_ID_GROUND; | ||||
// AUXILIARY DATA HEADER | ||||
header->sid = sid; | ||||
header->biaStatusInfo = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->pa_lfr_bp_blk_nr[0] = 0x00; // BLK_NR MSB | ||||
header->pa_lfr_bp_blk_nr[1] = blkNr; // BLK_NR LSB | ||||
} | ||||
void BP_init_header_with_spare(Header_TM_LFR_SCIENCE_BP_with_spare_t *header, | ||||
unsigned int apid, unsigned char sid, | ||||
unsigned int packetLength , unsigned char blkNr) | ||||
{ | ||||
header->targetLogicalAddress = CCSDS_DESTINATION_ID; | ||||
header->protocolIdentifier = CCSDS_PROTOCOLE_ID; | ||||
header->reserved = 0x00; | ||||
header->userApplication = CCSDS_USER_APP; | ||||
header->packetID[0] = (unsigned char) (apid >> 8); | ||||
header->packetID[1] = (unsigned char) (apid); | ||||
header->packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_STANDALONE; | ||||
header->packetSequenceControl[1] = 0x00; | ||||
header->packetLength[0] = (unsigned char) (packetLength >> 8); | ||||
header->packetLength[1] = (unsigned char) (packetLength); | ||||
// DATA FIELD HEADER | ||||
header->spare1_pusVersion_spare2 = 0x10; | ||||
header->serviceType = TM_TYPE_LFR_SCIENCE; // service type | ||||
header->serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype | ||||
header->destinationID = TM_DESTINATION_ID_GROUND; | ||||
// AUXILIARY DATA HEADER | ||||
header->sid = sid; | ||||
header->biaStatusInfo = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
header->time[0] = 0x00; | ||||
paul
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r134 | header->source_data_spare = 0x00; | ||
paul
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r126 | header->pa_lfr_bp_blk_nr[0] = 0x00; // BLK_NR MSB | ||
header->pa_lfr_bp_blk_nr[1] = blkNr; // BLK_NR LSB | ||||
} | ||||
paul
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r133 | void BP_send(char *data, rtems_id queue_id, unsigned int nbBytesToSend, unsigned int sid ) | ||
paul
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r126 | { | ||
rtems_status_code status; | ||||
paul
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r133 | // SET THE SEQUENCE_CNT PARAMETER | ||
increment_seq_counter_source_id( (unsigned char*) &data[ PACKET_POS_SEQUENCE_CNT ], sid ); | ||||
paul
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r126 | // SEND PACKET | ||
status = rtems_message_queue_send( queue_id, data, nbBytesToSend); | ||||
if (status != RTEMS_SUCCESSFUL) | ||||
{ | ||||
printf("ERR *** in BP_send *** ERR %d\n", (int) status); | ||||
} | ||||
} | ||||
//****************** | ||||
// general functions | ||||
void reset_spectral_matrix_regs( void ) | ||||
{ | ||||
/** This function resets the spectral matrices module registers. | ||||
* | ||||
* The registers affected by this function are located at the following offset addresses: | ||||
* | ||||
* - 0x00 config | ||||
* - 0x04 status | ||||
* - 0x08 matrixF0_Address0 | ||||
* - 0x10 matrixFO_Address1 | ||||
* - 0x14 matrixF1_Address | ||||
* - 0x18 matrixF2_Address | ||||
* | ||||
*/ | ||||
spectral_matrix_regs->config = 0x00; | ||||
spectral_matrix_regs->status = 0x00; | ||||
spectral_matrix_regs->matrixF0_Address0 = current_ring_node_sm_f0->buffer_address; | ||||
spectral_matrix_regs->matrixFO_Address1 = current_ring_node_sm_f0->buffer_address; | ||||
spectral_matrix_regs->matrixF1_Address = current_ring_node_sm_f1->buffer_address; | ||||
spectral_matrix_regs->matrixF2_Address = current_ring_node_sm_f2->buffer_address; | ||||
} | ||||
void set_time( unsigned char *time, unsigned char * timeInBuffer ) | ||||
{ | ||||
// time[0] = timeInBuffer[2]; | ||||
// time[1] = timeInBuffer[3]; | ||||
// time[2] = timeInBuffer[0]; | ||||
// time[3] = timeInBuffer[1]; | ||||
// time[4] = timeInBuffer[6]; | ||||
// time[5] = timeInBuffer[7]; | ||||
time[0] = timeInBuffer[0]; | ||||
time[1] = timeInBuffer[1]; | ||||
time[2] = timeInBuffer[2]; | ||||
time[3] = timeInBuffer[3]; | ||||
time[4] = timeInBuffer[6]; | ||||
time[5] = timeInBuffer[7]; | ||||
} | ||||