HG_REPOSITORIES/LPP/INSTRUMENTATION/USERS/JEANDET/LFR_FSW Commit - r71:1b03ba925ab6

added nb_word_in_buffer to the waveform picker registers

paul -

r71:1b03ba925ab6 nov2013

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r71:1b03ba925ab6

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FSW-qt/Makefile +1 -1

             #############################################################################
             # Makefile for building: bin/fsw
-            # Generated by qmake (2.01a) (Qt 4.8.5) on: Wed Nov 13 08:18:19 2013
+            # Generated by qmake (2.01a) (Qt 4.8.5) on: Wed Nov 13 13:54:37 2013
             # Project:  fsw-qt.pro
             # Template: app
             # Command: /usr/bin/qmake-qt4 -spec /usr/lib64/qt4/mkspecs/linux-g++ -o Makefile fsw-qt.pro
             #############################################################################
             ####### Compiler, tools and options
             CC            = sparc-rtems-gcc
             CXX           = sparc-rtems-g++
             DEFINES       = -DSW_VERSION_N1=0 -DSW_VERSION_N2=0 -DSW_VERSION_N3=0 -DSW_VERSION_N4=22 -DPRINT_MESSAGES_ON_CONSOLE
             CFLAGS        = -pipe -O3 -Wall $(DEFINES)
             CXXFLAGS      = -pipe -O3 -Wall $(DEFINES)
             INCPATH       = -I/usr/lib64/qt4/mkspecs/linux-g++ -I. -I../src -I../header
             LINK          = sparc-rtems-g++
             LFLAGS        =
             LIBS          = $(SUBLIBS)
             AR            = sparc-rtems-ar rcs
             RANLIB        =
             QMAKE         = /usr/bin/qmake-qt4
             TAR           = tar -cf
             COMPRESS      = gzip -9f
             COPY          = cp -f
             SED           = sed
             COPY_FILE     = $(COPY)
             COPY_DIR      = $(COPY) -r
             STRIP         = sparc-rtems-strip
             INSTALL_FILE  = install -m 644 -p
             INSTALL_DIR   = $(COPY_DIR)
             INSTALL_PROGRAM = install -m 755 -p
             DEL_FILE      = rm -f
             SYMLINK       = ln -f -s
             DEL_DIR       = rmdir
             MOVE          = mv -f
             CHK_DIR_EXISTS= test -d
             MKDIR         = mkdir -p
             ####### Output directory
             OBJECTS_DIR   = obj/
             ####### Files
             SOURCES       = ../src/wf_handler.c \
             		../src/tc_handler.c \
             		../src/fsw_processing.c \
             		../src/fsw_misc.c \
             		../src/fsw_init.c \
             		../src/fsw_globals.c \
             		../src/fsw_spacewire.c \
             		../src/tc_load_dump_parameters.c \
             		../src/tm_lfr_tc_exe.c \
             		../src/tc_acceptance.c
             OBJECTS       = obj/wf_handler.o \
             		obj/tc_handler.o \
             		obj/fsw_processing.o \
             		obj/fsw_misc.o \
             		obj/fsw_init.o \
             		obj/fsw_globals.o \
             		obj/fsw_spacewire.o \
             		obj/tc_load_dump_parameters.o \
             		obj/tm_lfr_tc_exe.o \
             		obj/tc_acceptance.o
             DIST          = /usr/lib64/qt4/mkspecs/common/unix.conf \
             		/usr/lib64/qt4/mkspecs/common/linux.conf \
             		/usr/lib64/qt4/mkspecs/common/gcc-base.conf \
             		/usr/lib64/qt4/mkspecs/common/gcc-base-unix.conf \
             		/usr/lib64/qt4/mkspecs/common/g++-base.conf \
             		/usr/lib64/qt4/mkspecs/common/g++-unix.conf \
             		/usr/lib64/qt4/mkspecs/qconfig.pri \
             		/usr/lib64/qt4/mkspecs/modules/qt_webkit.pri \
             		/usr/lib64/qt4/mkspecs/features/qt_functions.prf \
             		/usr/lib64/qt4/mkspecs/features/qt_config.prf \
             		/usr/lib64/qt4/mkspecs/features/exclusive_builds.prf \
             		/usr/lib64/qt4/mkspecs/features/default_pre.prf \
             		sparc.pri \
             		/usr/lib64/qt4/mkspecs/features/release.prf \
             		/usr/lib64/qt4/mkspecs/features/default_post.prf \
             		/usr/lib64/qt4/mkspecs/features/shared.prf \
             		/usr/lib64/qt4/mkspecs/features/unix/gdb_dwarf_index.prf \
             		/usr/lib64/qt4/mkspecs/features/warn_on.prf \
             		/usr/lib64/qt4/mkspecs/features/resources.prf \
             		/usr/lib64/qt4/mkspecs/features/uic.prf \
             		/usr/lib64/qt4/mkspecs/features/yacc.prf \
             		/usr/lib64/qt4/mkspecs/features/lex.prf \
             		/usr/lib64/qt4/mkspecs/features/include_source_dir.prf \
             		fsw-qt.pro
             QMAKE_TARGET  = fsw
             DESTDIR       = bin/
             TARGET        = bin/fsw
             first: all
             ####### Implicit rules
             .SUFFIXES: .o .c .cpp .cc .cxx .C
             .cpp.o:
             	$(CXX) -c $(CXXFLAGS) $(INCPATH) -o "$@" "$<"
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             	$(CXX) -c $(CXXFLAGS) $(INCPATH) -o "$@" "$<"
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             	$(CXX) -c $(CXXFLAGS) $(INCPATH) -o "$@" "$<"
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             	$(CXX) -c $(CXXFLAGS) $(INCPATH) -o "$@" "$<"
             .c.o:
             	$(CC) -c $(CFLAGS) $(INCPATH) -o "$@" "$<"
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             $(TARGET):  $(OBJECTS)
             	@$(CHK_DIR_EXISTS) bin/ || $(MKDIR) bin/
             	$(LINK) $(LFLAGS) -o $(TARGET) $(OBJECTS) $(OBJCOMP) $(LIBS)
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             		/usr/lib64/qt4/mkspecs/common/linux.conf \
             		/usr/lib64/qt4/mkspecs/common/gcc-base.conf \
             		/usr/lib64/qt4/mkspecs/common/gcc-base-unix.conf \
             		/usr/lib64/qt4/mkspecs/common/g++-base.conf \
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             		/usr/lib64/qt4/mkspecs/features/lex.prf \
             		/usr/lib64/qt4/mkspecs/features/include_source_dir.prf
             	$(QMAKE) -spec /usr/lib64/qt4/mkspecs/linux-g++ -o Makefile fsw-qt.pro
             /usr/lib64/qt4/mkspecs/common/unix.conf:
             /usr/lib64/qt4/mkspecs/common/linux.conf:
             /usr/lib64/qt4/mkspecs/common/gcc-base.conf:
             /usr/lib64/qt4/mkspecs/common/gcc-base-unix.conf:
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             /usr/lib64/qt4/mkspecs/features/qt_functions.prf:
             /usr/lib64/qt4/mkspecs/features/qt_config.prf:
             /usr/lib64/qt4/mkspecs/features/exclusive_builds.prf:
             /usr/lib64/qt4/mkspecs/features/default_pre.prf:
             sparc.pri:
             /usr/lib64/qt4/mkspecs/features/release.prf:
             /usr/lib64/qt4/mkspecs/features/default_post.prf:
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             /usr/lib64/qt4/mkspecs/features/lex.prf:
             /usr/lib64/qt4/mkspecs/features/include_source_dir.prf:
             qmake:  FORCE
             	@$(QMAKE) -spec /usr/lib64/qt4/mkspecs/linux-g++ -o Makefile fsw-qt.pro
             dist:
             	@$(CHK_DIR_EXISTS) obj/fsw1.0.0 || $(MKDIR) obj/fsw1.0.0
             	$(COPY_FILE) --parents $(SOURCES) $(DIST) obj/fsw1.0.0/ && (cd `dirname obj/fsw1.0.0` && $(TAR) fsw1.0.0.tar fsw1.0.0 && $(COMPRESS) fsw1.0.0.tar) && $(MOVE) `dirname obj/fsw1.0.0`/fsw1.0.0.tar.gz . && $(DEL_FILE) -r obj/fsw1.0.0
             clean:compiler_clean
             	-$(DEL_FILE) $(OBJECTS)
             	-$(DEL_FILE) *~ core *.core
             ####### Sub-libraries
             distclean: clean
             	-$(DEL_FILE) $(TARGET)
             	-$(DEL_FILE) Makefile
             grmon:
             	cd bin && C:/opt/grmon-eval-2.0.29b/win32/bin/grmon.exe -uart COM4 -u
             check: first
             compiler_rcc_make_all:
             compiler_rcc_clean:
             compiler_uic_make_all:
             compiler_uic_clean:
             compiler_image_collection_make_all: qmake_image_collection.cpp
             compiler_image_collection_clean:
             	-$(DEL_FILE) qmake_image_collection.cpp
             compiler_yacc_decl_make_all:
             compiler_yacc_decl_clean:
             compiler_yacc_impl_make_all:
             compiler_yacc_impl_clean:
             compiler_lex_make_all:
             compiler_lex_clean:
             compiler_clean:
             ####### Compile
             obj/wf_handler.o: ../src/wf_handler.c
             	$(CC) -c $(CFLAGS) $(INCPATH) -o obj/wf_handler.o ../src/wf_handler.c
             obj/tc_handler.o: ../src/tc_handler.c
             	$(CC) -c $(CFLAGS) $(INCPATH) -o obj/tc_handler.o ../src/tc_handler.c
             obj/fsw_processing.o: ../src/fsw_processing.c ../src/fsw_processing_globals.c
             	$(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_processing.o ../src/fsw_processing.c
             obj/fsw_misc.o: ../src/fsw_misc.c
             	$(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_misc.o ../src/fsw_misc.c
             obj/fsw_init.o: ../src/fsw_init.c ../src/fsw_config.c
             	$(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_init.o ../src/fsw_init.c
             obj/fsw_globals.o: ../src/fsw_globals.c
             	$(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_globals.o ../src/fsw_globals.c
             obj/fsw_spacewire.o: ../src/fsw_spacewire.c
             	$(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_spacewire.o ../src/fsw_spacewire.c
             obj/tc_load_dump_parameters.o: ../src/tc_load_dump_parameters.c
             	$(CC) -c $(CFLAGS) $(INCPATH) -o obj/tc_load_dump_parameters.o ../src/tc_load_dump_parameters.c
             obj/tm_lfr_tc_exe.o: ../src/tm_lfr_tc_exe.c
             	$(CC) -c $(CFLAGS) $(INCPATH) -o obj/tm_lfr_tc_exe.o ../src/tm_lfr_tc_exe.c
             obj/tc_acceptance.o: ../src/tc_acceptance.c
             	$(CC) -c $(CFLAGS) $(INCPATH) -o obj/tc_acceptance.o ../src/tc_acceptance.c
             ####### Install
             install:   FORCE
             uninstall:   FORCE
             FORCE:

FSW-qt/fsw-qt.pro.user +1 -1

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header/grlib_regs.h +16 -15

             #ifndef GRLIB_REGS_H_INCLUDED
             #define GRLIB_REGS_H_INCLUDED
             #define NB_GPTIMER 3
             struct apbuart_regs_str{
                 volatile unsigned int data;
                 volatile unsigned int status;
                 volatile unsigned int ctrl;
                 volatile unsigned int scaler;
                 volatile unsigned int fifoDebug;
             };
             struct ahbuart_regs_str{
                 volatile unsigned int unused;
                 volatile unsigned int status;
                 volatile unsigned int ctrl;
                 volatile unsigned int scaler;
             };
             struct timer_regs_str
             {
                 volatile unsigned int counter;
                 volatile unsigned int reload;
                 volatile unsigned int ctrl;
                 volatile unsigned int unused;
             };
             typedef struct timer_regs_str timer_regs_t;
             struct gptimer_regs_str
             {
                 volatile unsigned int scaler_value;
                 volatile unsigned int scaler_reload;
                 volatile unsigned int conf;
                 volatile unsigned int unused0;
                 timer_regs_t timer[NB_GPTIMER];
             };
             typedef struct gptimer_regs_str gptimer_regs_t;
             struct time_management_regs_str{
                 volatile int ctrl; // bit 0 forces the load of the coarse_time_load value and resets the fine_time
                 volatile int coarse_time_load;
                 volatile int coarse_time;
                 volatile int fine_time;
             };
             typedef struct time_management_regs_str time_management_regs_t;
             struct new_waveform_picker_regs_str{
-                volatile int data_shaping;      // 0x00 00      *** R1 R0 SP1 SP0 BW
+                int data_shaping;       // 0x00 00      *** R1 R0 SP1 SP0 BW
-                volatile int run_burst_enable;  // 0x04 01      *** [run *** burst f2, f1, f0 *** enable f3, f2, f1, f0 ]
+                int run_burst_enable;   // 0x04 01      *** [run *** burst f2, f1, f0 *** enable f3, f2, f1, f0 ]
-                volatile int addr_data_f0;      // 0x08
+                int addr_data_f0;       // 0x08
-                volatile int addr_data_f1;      // 0x0c
+                int addr_data_f1;       // 0x0c
-                volatile int addr_data_f2;      // 0x10
+                int addr_data_f2;       // 0x10
-                volatile int addr_data_f3;      // 0x14
+                int addr_data_f3;       // 0x14
-                volatile int status;            // 0x18
+                volatile int status;    // 0x18
-                volatile int delta_snapshot;    // 0x1c
+                int delta_snapshot;     // 0x1c
-                volatile int delta_f0;          // 0x20
+                int delta_f0;           // 0x20
-                volatile int delta_f0_2;
+                int delta_f0_2;         // 0x24
-                volatile int delta_f1;
+                int delta_f1;           // 0x28
-                volatile int delta_f2;
+                int delta_f2;           // 0x2c
-                volatile int nb_data_by_buffer;
+                int nb_data_by_buffer;  // 0x30
-                volatile int snapshot_param;
+                int snapshot_param;     // 0x34
-                volatile int start_date;
+                int start_date;         // 0x38
+                int nb_word_in_buffer;  // 0x3c
             };
             typedef struct new_waveform_picker_regs_str new_waveform_picker_regs_t;
             struct spectral_matrix_regs_str{
                 volatile int config;
                 volatile int status;
                 volatile int matrixF0_Address0;
                 volatile int matrixFO_Address1;
                 volatile int matrixF1_Address;
                 volatile int matrixF2_Address;
             };
             typedef struct spectral_matrix_regs_str spectral_matrix_regs_t;
             #endif // GRLIB_REGS_H_INCLUDED

src/wf_handler.c +4 -2

             /** Functions and tasks related to waveform packet generation.
              *
              * @file
              * @author P. LEROY
              *
              * A group of functions to handle waveforms, in snapshot or continuous format.\n
              *
              */
             #include "wf_handler.h"
             // SWF
             Header_TM_LFR_SCIENCE_SWF_t headerSWF_F0[7];
             Header_TM_LFR_SCIENCE_SWF_t headerSWF_F1[7];
             Header_TM_LFR_SCIENCE_SWF_t headerSWF_F2[7];
             // CWF
             Header_TM_LFR_SCIENCE_CWF_t headerCWF_F1[7];
             Header_TM_LFR_SCIENCE_CWF_t headerCWF_F2_BURST[7];
             Header_TM_LFR_SCIENCE_CWF_t headerCWF_F2_SBM2[7];
             Header_TM_LFR_SCIENCE_CWF_t headerCWF_F3[7];
             Header_TM_LFR_SCIENCE_CWF_t headerCWF_F3_light[7];
             unsigned char doubleSendCWF1 = 0;
             unsigned char doubleSendCWF2 = 0;
             rtems_isr waveforms_isr( rtems_vector_number vector )
             {
                 /** This is the interrupt sub routine called by the waveform picker core.
                  *
                  * This ISR launch different actions depending mainly on two pieces of information:
                  * 1. the values read in the registers of the waveform picker.
                  * 2. the current LFR mode.
                  *
                  */
                 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
                 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff00f;   // clear new_err and full_err
             #ifdef GSA
             #else
                 if ( (lfrCurrentMode == LFR_MODE_NORMAL)
                      || (lfrCurrentMode == LFR_MODE_SBM1) || (lfrCurrentMode == LFR_MODE_SBM2) )
                 { // in modes other than STANDBY and BURST, send the CWF_F3 data
                     if ((new_waveform_picker_regs->status & 0x08) == 0x08){     // [1000] f3 is full
                         // (1) change the receiving buffer for the waveform picker
                         if (new_waveform_picker_regs->addr_data_f3 == (int) wf_cont_f3) {
                             new_waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3_bis);
                         }
                         else {
                             new_waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3);
                         }
                         // (2) send an event for the waveforms transmission
                         if (rtems_event_send( Task_id[TASKID_CWF3], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) {
                             rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
                         }
                         new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff777; // reset f3 bits to 0, [1111 0111 0111 0111]
                     }
                 }
             #endif
                 switch(lfrCurrentMode)
                 {
                     //********
                     // STANDBY
                     case(LFR_MODE_STANDBY):
                     break;
                     //******
                     // NORMAL
                     case(LFR_MODE_NORMAL):
             #ifdef GSA
                     PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
             #else
                     if ( (new_waveform_picker_regs->run_burst_enable & 0x7) == 0x0 ){ // if no channel is enable
                         rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
                     }
                     else {
                         if ( (new_waveform_picker_regs->status & 0x7) == 0x7 ){ // f2 f1 and f0 are full
                             new_waveform_picker_regs->run_burst_enable = new_waveform_picker_regs->run_burst_enable & 0x08;
                             if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
                                 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
                             }
             //                new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0x00;
                             new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff888;
                             new_waveform_picker_regs->run_burst_enable = new_waveform_picker_regs->run_burst_enable | 0x07; // [0111] enable f2 f1 f0
                         }
                    }
             #endif
                     break;
                     //******
                     // BURST
                     case(LFR_MODE_BURST):
             #ifdef GSA
                     PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
             #else
                     if ((new_waveform_picker_regs->status & 0x04) == 0x04){ // [0100] check the f2 full bit
                         // (1) change the receiving buffer for the waveform picker
                         if (new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
                             new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_bis);
                         }
                         else {
                             new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
                         }
                         // (2) send an event for the waveforms transmission
                         if (rtems_event_send( Task_id[TASKID_CWF2], RTEMS_EVENT_MODE_BURST ) != RTEMS_SUCCESSFUL) {
                             rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
                         }
                         new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffbbb; // [1111 1011 1011 1011] f2 bits = 0
                     }
             #endif
                     break;
                     //*****
                     // SBM1
                     case(LFR_MODE_SBM1):
             #ifdef GSA
                     PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
             #else
                     if ((new_waveform_picker_regs->status & 0x02) == 0x02){ // [0010] check the f1 full bit
                         // (1) change the receiving buffer for the waveform picker
                         if ( param_local.local_sbm1_nb_cwf_sent == (param_local.local_sbm1_nb_cwf_max-1) )
                         {
                             new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_norm);
                         }
                         else if ( new_waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1_norm )
                         {
                             doubleSendCWF1 = 1;
                             new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1);
                         }
                         else if ( new_waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1 ) {
                             new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_bis);
                         }
                         else {
                             new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1);
                         }
                         // (2) send an event for the waveforms transmission
                         if (rtems_event_send( Task_id[TASKID_CWF1], RTEMS_EVENT_MODE_SBM1 ) != RTEMS_SUCCESSFUL) {
                             rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
                         }
                         new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffddd; // [1111 1101 1101 1101] f1 bit = 0
                     }
                     if ( ( (new_waveform_picker_regs->status & 0x05) == 0x05 ) ) { // [0101] check the f2 and f0 full bit
                         if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
                             rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
                         }
                         new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffaaa; // [1111 1010 1010 1010] f2 and f0 bits = 0
                         reset_local_sbm1_nb_cwf_sent();
                     }
             #endif
                     break;
                     //*****
                     // SBM2
                     case(LFR_MODE_SBM2):
             #ifdef GSA
                     PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
             #else
                     if ((new_waveform_picker_regs->status & 0x04) == 0x04){ // [0100] check the f2 full bit
                         // (1) change the receiving buffer for the waveform picker
                         if ( param_local.local_sbm2_nb_cwf_sent == (param_local.local_sbm2_nb_cwf_max-1) )
                         {
                             new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_norm);
                         }
                         else if ( new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2_norm ) {
                             new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
                             doubleSendCWF2 = 1;
                             if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_SBM2_WFRM ) != RTEMS_SUCCESSFUL) {
                                 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
                             }
                             reset_local_sbm2_nb_cwf_sent();
                         }
                         else if ( new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2 ) {
                             new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_bis);
                         }
                         else {
                             new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
                         }
                         // (2) send an event for the waveforms transmission
                         if (rtems_event_send( Task_id[TASKID_CWF2], RTEMS_EVENT_MODE_SBM2 ) != RTEMS_SUCCESSFUL) {
                             rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
                         }
                         new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffbbb; // [1111 1011 1011 1011] f2 bit = 0
                     }
                     if ( ( (new_waveform_picker_regs->status & 0x03) == 0x03 ) ) { // [0011] f3 f2 f1 f0, f1 and f0 are full
                         if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_SBM2 ) != RTEMS_SUCCESSFUL) {
                             rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
                         }
                         new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffccc; // [1111 1100 1100 1100] f1, f0 bits = 0
                     }
             #endif
                     break;
                     //********
                     // DEFAULT
                     default:
                     break;
                 }
             }
             rtems_isr waveforms_simulator_isr( rtems_vector_number vector )
             {
                 /** This is the interrupt sub routine called by the waveform picker simulator.
                  *
                  * This ISR is for debug purpose only.
                  *
                  */
                 unsigned char lfrMode;
                 lfrMode = (housekeeping_packet.lfr_status_word[0] & 0xf0) >> 4;
                 switch(lfrMode) {
                 case (LFR_MODE_STANDBY):
                     break;
                 case (LFR_MODE_NORMAL):
                     if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
                         rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_5 );
                     }
                     break;
                 case (LFR_MODE_BURST):
                     break;
                 case (LFR_MODE_SBM1):
                     break;
                 case (LFR_MODE_SBM2):
                     break;
                 }
             }
             rtems_task wfrm_task(rtems_task_argument argument) //used with the waveform picker VHDL IP
             {
                 /** This RTEMS task is dedicated to the transmission of snapshots of the NORMAL mode.
                  *
                  * @param unused is the starting argument of the RTEMS task
                  *
                  * The following data packets are sent by this task:
                  * - TM_LFR_SCIENCE_NORMAL_SWF_F0
                  * - TM_LFR_SCIENCE_NORMAL_SWF_F1
                  * - TM_LFR_SCIENCE_NORMAL_SWF_F2
                  *
                  */
                 rtems_event_set event_out;
                 rtems_id queue_id;
                 init_header_snapshot_wf_table( SID_NORM_SWF_F0, headerSWF_F0 );
                 init_header_snapshot_wf_table( SID_NORM_SWF_F1, headerSWF_F1 );
                 init_header_snapshot_wf_table( SID_NORM_SWF_F2, headerSWF_F2 );
                 init_waveforms();
                 queue_id = get_pkts_queue_id();
                 BOOT_PRINTF("in WFRM ***\n")
                 while(1){
                     // wait for an RTEMS_EVENT
                     rtems_event_receive(RTEMS_EVENT_MODE_NORMAL | RTEMS_EVENT_MODE_SBM1
                                         | RTEMS_EVENT_MODE_SBM2 | RTEMS_EVENT_MODE_SBM2_WFRM,
                                         RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
                     if (event_out == RTEMS_EVENT_MODE_NORMAL)
                     {
                         send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
                         send_waveform_SWF(wf_snap_f1, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
                         send_waveform_SWF(wf_snap_f2, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
             #ifdef GSA
                         new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xf888; // [1111 1000 1000 1000] f2, f1, f0 bits =0
             #endif
                     }
                     else if (event_out == RTEMS_EVENT_MODE_SBM1)
                     {
                         send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
                         send_waveform_SWF(wf_snap_f1_norm, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
                         send_waveform_SWF(wf_snap_f2, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
             #ifdef GSA
                         new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffaaa; // [1111 1010 1010 1010] f2, f0 bits = 0
             #endif
                     }
                     else if (event_out == RTEMS_EVENT_MODE_SBM2)
                     {
                         send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
                         send_waveform_SWF(wf_snap_f1, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
             #ifdef GSA
                         new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffccc; // [1111 1100 1100 1100] f1, f0 bits = 0
             #endif
                     }
                     else if (event_out == RTEMS_EVENT_MODE_SBM2_WFRM)
                     {
                         send_waveform_SWF(wf_snap_f2_norm, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
                     }
                     else
                     {
                         PRINTF("in WFRM *** unexpected event")
                     }
             #ifdef GSA
                     // irq processed, reset the related register of the timer unit
                     gptimer_regs->timer[TIMER_WF_SIMULATOR].ctrl = gptimer_regs->timer[TIMER_WF_SIMULATOR].ctrl | 0x00000010;
                     // clear the interruption
                     LEON_Unmask_interrupt( IRQ_WF );
             #endif
                 }
             }
             rtems_task cwf3_task(rtems_task_argument argument) //used with the waveform picker VHDL IP
             {
                 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f3.
                  *
                  * @param unused is the starting argument of the RTEMS task
                  *
                  * The following data packet is sent by this task:
                  * - TM_LFR_SCIENCE_NORMAL_CWF_F3
                  *
                  */
                 rtems_event_set event_out;
                 rtems_id queue_id;
                 init_header_continuous_wf_table( SID_NORM_CWF_F3, headerCWF_F3 );
                 init_header_continuous_wf3_light_table( headerCWF_F3_light );
                 queue_id = get_pkts_queue_id();
                 BOOT_PRINTF("in CWF3 ***\n")
                 while(1){
                     // wait for an RTEMS_EVENT
                     rtems_event_receive( RTEMS_EVENT_0,
                                         RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
                     PRINTF("send CWF F3 \n")
             #ifdef GSA
             #else
                     if (new_waveform_picker_regs->addr_data_f3 == (int) wf_cont_f3) {
                         send_waveform_CWF3_light( wf_cont_f3_bis, headerCWF_F3_light, queue_id );
                     }
                     else {
                         send_waveform_CWF3_light( wf_cont_f3, headerCWF_F3_light, queue_id );
                     }
             #endif
                 }
             }
             rtems_task cwf2_task(rtems_task_argument argument)  // ONLY USED IN BURST AND SBM2
             {
                 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f2.
                  *
                  * @param unused is the starting argument of the RTEMS task
                  *
                  * The following data packet is sent by this function:
                  * - TM_LFR_SCIENCE_BURST_CWF_F2
                  * - TM_LFR_SCIENCE_SBM2_CWF_F2
                  *
                  */
                 rtems_event_set event_out;
                 rtems_id queue_id;
                 init_header_continuous_wf_table( SID_BURST_CWF_F2, headerCWF_F2_BURST );
                 init_header_continuous_wf_table( SID_SBM2_CWF_F2, headerCWF_F2_SBM2 );
                 queue_id = get_pkts_queue_id();
                 BOOT_PRINTF("in CWF2 ***\n")
                 while(1){
                     // wait for an RTEMS_EVENT
                     rtems_event_receive( RTEMS_EVENT_MODE_BURST | RTEMS_EVENT_MODE_SBM2,
                                         RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
                     if (event_out == RTEMS_EVENT_MODE_BURST)
                     {
                         // F2
             #ifdef GSA
             #else
                         if (new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
                             send_waveform_CWF( wf_snap_f2_bis, SID_BURST_CWF_F2, headerCWF_F2_BURST, queue_id );
                         }
                         else {
                             send_waveform_CWF( wf_snap_f2, SID_BURST_CWF_F2, headerCWF_F2_BURST, queue_id );
                         }
                     #endif
                     }
                     else if (event_out == RTEMS_EVENT_MODE_SBM2)
                     {
             #ifdef GSA
             #else
                         if (doubleSendCWF2 == 1)
                         {
                             doubleSendCWF2 = 0;
                             send_waveform_CWF( wf_snap_f2_norm, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
                         }
                         else if (new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
                             send_waveform_CWF( wf_snap_f2_bis, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
                         }
                         else {
                             send_waveform_CWF( wf_snap_f2, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
                         }
                         param_local.local_sbm2_nb_cwf_sent ++;
             #endif
                     }
                     else
                     {
                         PRINTF1("in CWF2 *** ERR mode = %d\n", lfrCurrentMode)
                     }
                 }
             }
             rtems_task cwf1_task(rtems_task_argument argument)  // ONLY USED IN SBM1
             {
                 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f1.
                  *
                  * @param unused is the starting argument of the RTEMS task
                  *
                  * The following data packet is sent by this function:
                  * - TM_LFR_SCIENCE_SBM1_CWF_F1
                  *
                  */
                 rtems_event_set event_out;
                 rtems_id queue_id;
                 init_header_continuous_wf_table( SID_SBM1_CWF_F1, headerCWF_F1 );
                 queue_id = get_pkts_queue_id();
                 BOOT_PRINTF("in CWF1 ***\n")
                 while(1){
                     // wait for an RTEMS_EVENT
                     rtems_event_receive( RTEMS_EVENT_MODE_SBM1,
                                         RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
                     if (event_out == RTEMS_EVENT_MODE_SBM1)
                     {
             #ifdef GSA
             #else
                         if (doubleSendCWF1 == 1)
                         {
                             doubleSendCWF1 = 0;
                             send_waveform_CWF( wf_snap_f1_norm, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
                         }
                         else if (new_waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1) {
                            send_waveform_CWF( wf_snap_f1_bis, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
                         }
                         else {
                             send_waveform_CWF( wf_snap_f1, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
                         }
                         param_local.local_sbm1_nb_cwf_sent ++;
             #endif
                     }
                     else
                     {
                         PRINTF1("in CWF1 *** ERR mode = %d\n", lfrCurrentMode)
                     }
                 }
             }
             //******************
             // general functions
             void init_waveforms( void )
             {
                 int i = 0;
                 for (i=0; i< NB_SAMPLES_PER_SNAPSHOT; i++)
                 {
                     //***
                     // F0
                     wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x88887777;     //
                     wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET  ] = 0x22221111;    //
                     wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET  ] = 0x44443333;    //
                     //***
                     // F1
                     wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET  ] = 0x22221111;
                     wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET  ] = 0x44443333;
                     wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET  ] = 0xaaaa0000;
                     //***
                     // F2
                     wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET  ] = 0x44443333;
                     wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET  ] = 0x22221111;
                     wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET  ] = 0xaaaa0000;
                     //***
                     // F3
                     //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 0 ] = val1;
                     //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 1 ] = val2;
                     //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 2 ] = 0xaaaa0000;
                 }
             }
             int init_header_snapshot_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_SWF_t *headerSWF)
             {
                 unsigned char i;
                 for (i=0; i<7; i++)
                 {
                     headerSWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
                     headerSWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
                     headerSWF[ i ].reserved = DEFAULT_RESERVED;
                     headerSWF[ i ].userApplication = CCSDS_USER_APP;
                     headerSWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
                     headerSWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
                     if (i == 0)
                     {
                         headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
                         headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_340 >> 8);
                         headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_340     );
                         headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
                         headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340     );
                     }
                     else if (i == 6)
                     {
                         headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
                         headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_8 >> 8);
                         headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_8     );
                         headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
                         headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8     );
                     }
                     else
                     {
                         headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
                         headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_340 >> 8);
                         headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_340     );
                         headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
                         headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340     );
                     }
                     headerSWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
                     headerSWF[ i ].pktCnt = DEFAULT_PKTCNT;  // PKT_CNT
                     headerSWF[ i ].pktNr = i+1;    // PKT_NR
                     // DATA FIELD HEADER
                     headerSWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
                     headerSWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
                     headerSWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
                     headerSWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
                     // AUXILIARY DATA HEADER
                     headerSWF[ i ].sid = sid;
                     headerSWF[ i ].hkBIA = DEFAULT_HKBIA;
                     headerSWF[ i ].time[0] = 0x00;
                     headerSWF[ i ].time[0] = 0x00;
                     headerSWF[ i ].time[0] = 0x00;
                     headerSWF[ i ].time[0] = 0x00;
                     headerSWF[ i ].time[0] = 0x00;
                     headerSWF[ i ].time[0] = 0x00;
                 }
                 return LFR_SUCCESSFUL;
             }
             int init_header_continuous_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_CWF_t *headerCWF )
             {
                 unsigned int i;
                 for (i=0; i<7; i++)
                 {
                     headerCWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
                     headerCWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
                     headerCWF[ i ].reserved = DEFAULT_RESERVED;
                     headerCWF[ i ].userApplication = CCSDS_USER_APP;
                     if ( (sid == SID_SBM1_CWF_F1) || (sid == SID_SBM2_CWF_F2) )
                     {
                         headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_SBM1_SBM2 >> 8);
                         headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_SBM1_SBM2);
                     }
                     else
                     {
                         headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
                         headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
                     }
                     if (i == 0)
                     {
                         headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
                         headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_340 >> 8);
                         headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_340     );
                         headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
                         headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340     );
                     }
                     else if (i == 6)
                     {
                         headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
                         headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_8 >> 8);
                         headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_8     );
                         headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
                         headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8     );
                     }
                     else
                     {
                         headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
                         headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_340 >> 8);
                         headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_340     );
                         headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
                         headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340     );
                     }
                     headerCWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
                     // PKT_CNT
                     // PKT_NR
                     // DATA FIELD HEADER
                     headerCWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
                     headerCWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
                     headerCWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
                     headerCWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
                     // AUXILIARY DATA HEADER
                     headerCWF[ i ].sid = sid;
                     headerCWF[ i ].hkBIA = DEFAULT_HKBIA;
                     headerCWF[ i ].time[0] = 0x00;
                     headerCWF[ i ].time[0] = 0x00;
                     headerCWF[ i ].time[0] = 0x00;
                     headerCWF[ i ].time[0] = 0x00;
                     headerCWF[ i ].time[0] = 0x00;
                     headerCWF[ i ].time[0] = 0x00;
                 }
                 return LFR_SUCCESSFUL;
             }
             int init_header_continuous_wf3_light_table( Header_TM_LFR_SCIENCE_CWF_t *headerCWF )
             {
                 unsigned int i;
                 for (i=0; i<7; i++)
                 {
                     headerCWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
                     headerCWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
                     headerCWF[ i ].reserved = DEFAULT_RESERVED;
                     headerCWF[ i ].userApplication = CCSDS_USER_APP;
                     headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
                     headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
                     if (i == 0)
                     {
                         headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
                         headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 >> 8);
                         headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340     );
                         headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
                         headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340     );
                     }
                     else if (i == 6)
                     {
                         headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
                         headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_8 >> 8);
                         headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_8     );
                         headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
                         headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8     );
                     }
                     else
                     {
                         headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
                         headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 >> 8);
                         headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340     );
                         headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
                         headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340     );
                     }
                     headerCWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
                     // DATA FIELD HEADER
                     headerCWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
                     headerCWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
                     headerCWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
                     headerCWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
                     // AUXILIARY DATA HEADER
                     headerCWF[ i ].sid = SID_NORM_CWF_F3;
                     headerCWF[ i ].hkBIA = DEFAULT_HKBIA;
                     headerCWF[ i ].time[0] = 0x00;
                     headerCWF[ i ].time[0] = 0x00;
                     headerCWF[ i ].time[0] = 0x00;
                     headerCWF[ i ].time[0] = 0x00;
                     headerCWF[ i ].time[0] = 0x00;
                     headerCWF[ i ].time[0] = 0x00;
                 }
                 return LFR_SUCCESSFUL;
             }
             void reset_waveforms( void )
             {
                 int i = 0;
                 for (i=0; i< NB_SAMPLES_PER_SNAPSHOT; i++)
                 {
                     wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x10002000;
                     wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0x20001000;
                     wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x40008000;
                     //***
                     // F1
                     wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x1000f000;
                     wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0xf0001000;
                     wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x40008000;
                     //***
                     // F2
                     wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x40008000;
                     wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0x20001000;
                     wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x10002000;
                     //***
                     // F3
                     /*wf_cont_f3[ i* NB_WORDS_SWF_BLK + 0 ] = build_value(   i, i );   // v  and 1
                     wf_cont_f3[ i* NB_WORDS_SWF_BLK + 1 ] = build_value(   i, i );   // e2 and b1
                     wf_cont_f3[ i* NB_WORDS_SWF_BLK + 2 ] = build_value(   i, i );   // b2 and b3*/
                 }
             }
             int send_waveform_SWF( volatile int *waveform, unsigned int sid,
                                    Header_TM_LFR_SCIENCE_SWF_t *headerSWF, rtems_id queue_id )
             {
                 /** This function sends SWF CCSDS packets (F2, F1 or F0).
                  *
                  * @param waveform points to the buffer containing the data that will be send.
                  * @param sid is the source identifier of the data that will be sent.
                  * @param headerSWF points to a table of headers that have been prepared for the data transmission.
                  * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
                  * contain information to setup the transmission of the data packets.
                  *
                  * One group of 2048 samples is sent as 7 consecutive packets, 6 packets containing 340 blocks and 8 packets containing 8 blocks.
                  *
                  */
                 unsigned int i;
                 int ret;
                 rtems_status_code status;
                 spw_ioctl_pkt_send spw_ioctl_send_SWF;
                 spw_ioctl_send_SWF.hlen = TM_HEADER_LEN + 4 + 12; // + 4 is for the protocole extra header, + 12 is for the auxiliary header
                 spw_ioctl_send_SWF.options = 0;
                 ret = LFR_DEFAULT;
                 for (i=0; i<7; i++) // send waveform
                 {
                     spw_ioctl_send_SWF.data = (char*) &waveform[ (i * 340 * NB_WORDS_SWF_BLK) ];
                     spw_ioctl_send_SWF.hdr = (char*) &headerSWF[ i ];
                     // BUILD THE DATA
                     if (i==6) {
                         spw_ioctl_send_SWF.dlen = 8 * NB_BYTES_SWF_BLK;
                     }
                     else {
                         spw_ioctl_send_SWF.dlen = 340 * NB_BYTES_SWF_BLK;
                     }
                     // SET PACKET SEQUENCE COUNTER
                     increment_seq_counter_source_id( headerSWF[ i ].packetSequenceControl, sid );
                     // SET PACKET TIME
                     headerSWF[ i ].acquisitionTime[0] = (unsigned char) (time_management_regs->coarse_time>>24);
                     headerSWF[ i ].acquisitionTime[1] = (unsigned char) (time_management_regs->coarse_time>>16);
                     headerSWF[ i ].acquisitionTime[2] = (unsigned char) (time_management_regs->coarse_time>>8);
                     headerSWF[ i ].acquisitionTime[3] = (unsigned char) (time_management_regs->coarse_time);
                     headerSWF[ i ].acquisitionTime[4] = (unsigned char) (time_management_regs->fine_time>>8);
                     headerSWF[ i ].acquisitionTime[5] = (unsigned char) (time_management_regs->fine_time);
                     headerSWF[ i ].time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
                     headerSWF[ i ].time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
                     headerSWF[ i ].time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
                     headerSWF[ i ].time[3] = (unsigned char) (time_management_regs->coarse_time);
                     headerSWF[ i ].time[4] = (unsigned char) (time_management_regs->fine_time>>8);
                     headerSWF[ i ].time[5] = (unsigned char) (time_management_regs->fine_time);
                     // SEND PACKET
                     status =  rtems_message_queue_send( queue_id, &spw_ioctl_send_SWF, ACTION_MSG_SPW_IOCTL_SEND_SIZE);
                     if (status != RTEMS_SUCCESSFUL) {
                         printf("%d-%d, ERR %d\n", sid, i, (int) status);
                         ret = LFR_DEFAULT;
                     }
                     rtems_task_wake_after(TIME_BETWEEN_TWO_SWF_PACKETS);  // 300 ms between each packet => 7 * 3 = 21 packets => 6.3 seconds
                 }
                 return ret;
             }
             int send_waveform_CWF(volatile int *waveform, unsigned int sid,
                                   Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id)
             {
                 /** This function sends CWF CCSDS packets (F2, F1 or F0).
                  *
                  * @param waveform points to the buffer containing the data that will be send.
                  * @param sid is the source identifier of the data that will be sent.
                  * @param headerCWF points to a table of headers that have been prepared for the data transmission.
                  * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
                  * contain information to setup the transmission of the data packets.
                  *
                  * One group of 2048 samples is sent as 7 consecutive packets, 6 packets containing 340 blocks and 8 packets containing 8 blocks.
                  *
                  */
                 unsigned int i;
                 int ret;
                 rtems_status_code status;
                 spw_ioctl_pkt_send spw_ioctl_send_CWF;
                 spw_ioctl_send_CWF.hlen = TM_HEADER_LEN + 4 + 10; // + 4 is for the protocole extra header, + 10 is for the auxiliary header
                 spw_ioctl_send_CWF.options = 0;
                 ret = LFR_DEFAULT;
                 for (i=0; i<7; i++) // send waveform
                 {
                     int coarseTime = 0x00;
                     int fineTime = 0x00;
                     spw_ioctl_send_CWF.data = (char*) &waveform[ (i * 340 * NB_WORDS_SWF_BLK) ];
                     spw_ioctl_send_CWF.hdr = (char*) &headerCWF[ i ];
                     // BUILD THE DATA
                     if (i==6) {
                         spw_ioctl_send_CWF.dlen = 8 * NB_BYTES_SWF_BLK;
                     }
                     else {
                         spw_ioctl_send_CWF.dlen = 340 * NB_BYTES_SWF_BLK;
                     }
                     // SET PACKET SEQUENCE COUNTER
                     increment_seq_counter_source_id( headerCWF[ i ].packetSequenceControl, sid );
                     // SET PACKET TIME
                     coarseTime = time_management_regs->coarse_time;
                     fineTime = time_management_regs->fine_time;
                     headerCWF[ i ].acquisitionTime[0] = (unsigned char) (coarseTime>>24);
                     headerCWF[ i ].acquisitionTime[1] = (unsigned char) (coarseTime>>16);
                     headerCWF[ i ].acquisitionTime[2] = (unsigned char) (coarseTime>>8);
                     headerCWF[ i ].acquisitionTime[3] = (unsigned char) (coarseTime);
                     headerCWF[ i ].acquisitionTime[4] = (unsigned char) (fineTime>>8);
                     headerCWF[ i ].acquisitionTime[5] = (unsigned char) (fineTime);
                     headerCWF[ i ].time[0] = (unsigned char) (coarseTime>>24);
                     headerCWF[ i ].time[1] = (unsigned char) (coarseTime>>16);
                     headerCWF[ i ].time[2] = (unsigned char) (coarseTime>>8);
                     headerCWF[ i ].time[3] = (unsigned char) (coarseTime);
                     headerCWF[ i ].time[4] = (unsigned char) (fineTime>>8);
                     headerCWF[ i ].time[5] = (unsigned char) (fineTime);
                     // SEND PACKET
                     if (sid == SID_NORM_CWF_F3)
                     {
                         status =  rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
                         if (status != RTEMS_SUCCESSFUL) {
                             printf("%d-%d, ERR %d\n", sid, i, (int) status);
                             ret = LFR_DEFAULT;
                         }
                         rtems_task_wake_after(TIME_BETWEEN_TWO_CWF3_PACKETS);
                     }
                     else
                     {
                         status =  rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
                         if (status != RTEMS_SUCCESSFUL) {
                             printf("%d-%d, ERR %d\n", sid, i, (int) status);
                             ret = LFR_DEFAULT;
                         }
                     }
                 }
                 return ret;
             }
             int send_waveform_CWF3_light(volatile int *waveform, Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id)
             {
                 /** This function sends CWF_F3 CCSDS packets without the b1, b2 and b3 data.
                  *
                  * @param waveform points to the buffer containing the data that will be send.
                  * @param headerCWF points to a table of headers that have been prepared for the data transmission.
                  * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
                  * contain information to setup the transmission of the data packets.
                  *
                  * By default, CWF_F3 packet are send without the b1, b2 and b3 data. This function rebuilds a data buffer
                  * from the incoming data and sends it in 7 packets, 6 containing 340 blocks and 1 one containing 8 blocks.
                  *
                  */
                 unsigned int i;
                 int ret;
                 rtems_status_code status;
                 spw_ioctl_pkt_send spw_ioctl_send_CWF;
                 char *sample;
                 spw_ioctl_send_CWF.hlen = TM_HEADER_LEN + 4 + 10; // + 4 is for the protocole extra header, + 10 is for the auxiliary header
                 spw_ioctl_send_CWF.options = 0;
                 ret = LFR_DEFAULT;
                 //**********************
                 // BUILD CWF3_light DATA
                 for ( i=0; i< 2048; i++)
                 {
                     sample = (char*) &waveform[ i * NB_WORDS_SWF_BLK ];
                     wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK)     ] = sample[ 0 ];
                     wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 1 ] = sample[ 1 ];
                     wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 2 ] = sample[ 2 ];
                     wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 3 ] = sample[ 3 ];
                     wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 4 ] = sample[ 4 ];
                     wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 5 ] = sample[ 5 ];
                 }
                 //*********************
                 // SEND CWF3_light DATA
                 for (i=0; i<7; i++) // send waveform
                 {
                     int coarseTime = 0x00;
                     int fineTime = 0x00;
                     spw_ioctl_send_CWF.data = (char*) &wf_cont_f3_light[ (i * 340 * NB_BYTES_CWF3_LIGHT_BLK) ];
                     spw_ioctl_send_CWF.hdr = (char*) &headerCWF[ i ];
                     // BUILD THE DATA
                     if ( i == WFRM_INDEX_OF_LAST_PACKET ) {
                         spw_ioctl_send_CWF.dlen = 8 * NB_BYTES_CWF3_LIGHT_BLK;
                     }
                     else {
                         spw_ioctl_send_CWF.dlen = 340 * NB_BYTES_CWF3_LIGHT_BLK;
                     }
                     // SET PACKET SEQUENCE COUNTER
                     increment_seq_counter_source_id( headerCWF[ i ].packetSequenceControl, SID_NORM_CWF_F3 );
                     // SET PACKET TIME
                     coarseTime = time_management_regs->coarse_time;
                     fineTime = time_management_regs->fine_time;
                     headerCWF[ i ].acquisitionTime[0] = (unsigned char) (coarseTime>>24);
                     headerCWF[ i ].acquisitionTime[1] = (unsigned char) (coarseTime>>16);
                     headerCWF[ i ].acquisitionTime[2] = (unsigned char) (coarseTime>>8);
                     headerCWF[ i ].acquisitionTime[3] = (unsigned char) (coarseTime);
                     headerCWF[ i ].acquisitionTime[4] = (unsigned char) (fineTime>>8);
                     headerCWF[ i ].acquisitionTime[5] = (unsigned char) (fineTime);
                     headerCWF[ i ].time[0] = (unsigned char) (coarseTime>>24);
                     headerCWF[ i ].time[1] = (unsigned char) (coarseTime>>16);
                     headerCWF[ i ].time[2] = (unsigned char) (coarseTime>>8);
                     headerCWF[ i ].time[3] = (unsigned char) (coarseTime);
                     headerCWF[ i ].time[4] = (unsigned char) (fineTime>>8);
                     headerCWF[ i ].time[5] = (unsigned char) (fineTime);
                     // SEND PACKET
                     status =  rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
                     if (status != RTEMS_SUCCESSFUL) {
                         printf("%d-%d, ERR %d\n", SID_NORM_CWF_F3, i, (int) status);
                         ret = LFR_DEFAULT;
                     }
                     rtems_task_wake_after(TIME_BETWEEN_TWO_CWF3_PACKETS);
                 }
                 return ret;
             }
             //**************
             // wfp registers
             void set_wfp_data_shaping()
             {
                 /** This function sets the data_shaping register of the waveform picker module.
                  *
                  * The value is read from one field of the parameter_dump_packet structure:\n
                  * bw_sp0_sp1_r0_r1
                  *
                  */
                 unsigned char data_shaping;
                 // get the parameters for the data shaping [BW SP0 SP1 R0 R1] in sy_lfr_common1 and configure the register
                 // waveform picker : [R1 R0 SP1 SP0 BW]
                 data_shaping = parameter_dump_packet.bw_sp0_sp1_r0_r1;
             #ifdef GSA
             #else
                 new_waveform_picker_regs->data_shaping =
                           ( (data_shaping & 0x10) >> 4 )     // BW
                         + ( (data_shaping & 0x08) >> 2 )     // SP0
                         + ( (data_shaping & 0x04)      )     // SP1
                         + ( (data_shaping & 0x02) << 2 )     // R0
                         + ( (data_shaping & 0x01) << 4 );    // R1
             #endif
             }
             char set_wfp_delta_snapshot()
             {
                 /** This function sets the delta_snapshot register of the waveform picker module.
                  *
                  * The value is read from two (unsigned char) of the parameter_dump_packet structure:
                  * - sy_lfr_n_swf_p[0]
                  * - sy_lfr_n_swf_p[1]
                  *
                  */
                 char ret;
                 unsigned int delta_snapshot;
                 unsigned int aux;
                 aux = 0;
                 ret = LFR_DEFAULT;
                 delta_snapshot = parameter_dump_packet.sy_lfr_n_swf_p[0]*256
                         + parameter_dump_packet.sy_lfr_n_swf_p[1];
             #ifdef GSA
             #else
                 if ( delta_snapshot < MIN_DELTA_SNAPSHOT )
                 {
                     aux = MIN_DELTA_SNAPSHOT;
                     ret = LFR_DEFAULT;
                 }
                 else
                 {
                     aux = delta_snapshot ;
                     ret = LFR_SUCCESSFUL;
                 }
                 new_waveform_picker_regs->delta_snapshot = aux - 1;             // max 2 bytes
             #endif
                 return ret;
             }
             void set_wfp_burst_enable_register( unsigned char mode)
             {
                 /** This function sets the waveform picker burst_enable register depending on the mode.
                  *
                  * @param mode is the LFR mode to launch.
                  *
                  * The burst bits shall be before the enable bits.
                  *
                  */
             #ifdef GSA
             #else
                 // [0000 0000] burst f2, f1, f0 enable f3 f2 f1 f0
                 // the burst bits shall be set first, before the enable bits
                 switch(mode) {
                 case(LFR_MODE_NORMAL):
                     new_waveform_picker_regs->run_burst_enable = 0x00;  // [0000 0000] no burst enable
             //        new_waveform_picker_regs->run_burst_enable = 0x0f; // [0000 1111] enable f3 f2 f1 f0
                     new_waveform_picker_regs->run_burst_enable = 0x07; // [0000 0111] enable f2 f1 f0
                     break;
                 case(LFR_MODE_BURST):
                     new_waveform_picker_regs->run_burst_enable = 0x40;  // [0100 0000] f2 burst enabled
                     new_waveform_picker_regs->run_burst_enable =  new_waveform_picker_regs->run_burst_enable | 0x04; // [0100] enable f2
                     break;
                 case(LFR_MODE_SBM1):
                     new_waveform_picker_regs->run_burst_enable = 0x20;  // [0010 0000] f1 burst enabled
                     new_waveform_picker_regs->run_burst_enable =  new_waveform_picker_regs->run_burst_enable | 0x0f; // [1111] enable f3 f2 f1 f0
                     break;
                 case(LFR_MODE_SBM2):
                     new_waveform_picker_regs->run_burst_enable = 0x40;  // [0100 0000] f2 burst enabled
                     new_waveform_picker_regs->run_burst_enable =  new_waveform_picker_regs->run_burst_enable | 0x0f; // [1111] enable f3 f2 f1 f0
                     break;
                 default:
                     new_waveform_picker_regs->run_burst_enable = 0x00;  // [0000 0000] no burst enabled, no waveform enabled
                     break;
                 }
             #endif
             }
             void reset_wfp_run_burst_enable()
             {
                 /** This function resets the waveform picker burst_enable register.
                  *
                  * The burst bits [f2 f1 f0] and the enable bits [f3 f2 f1 f0] are set to 0.
                  *
                  */
             #ifdef GSA
             #else
                 new_waveform_picker_regs->run_burst_enable = 0x00;              // burst f2, f1, f0     enable f3, f2, f1, f0
             #endif
             }
             void reset_wfp_status()
             {
                 /** This function resets the waveform picker status register.
                  *
                  * All status bits are set to 0 [new_err full_err full].
                  *
                  */
             #ifdef GSA
             #else
                 new_waveform_picker_regs->status = 0x00;              // burst f2, f1, f0     enable f3, f2, f1, f0
             #endif
             }
             void reset_new_waveform_picker_regs()
             {
                 /** This function resets the waveform picker module registers.
                *
                * The registers affected by this function are located at the following offset addresses:
                * - 0x00 data_shaping
                * - 0x04 run_burst_enable
                * - 0x08 addr_data_f0
                * - 0x0C addr_data_f1
                * - 0x10 addr_data_f2
                * - 0x14 addr_data_f3
                * - 0x18 status
                * - 0x1C delta_snapshot
                * - 0x20 delta_f0
                * - 0x24 delta_f0_2
                * - 0x28 delta_f1
                * - 0x2c delta_f2
                * - 0x30 nb_data_by_buffer
                * - 0x34 nb_snapshot_param
                * - 0x38 start_date
+               * - 0x3c nb_word_in_buffer
                *
                */
                 new_waveform_picker_regs->data_shaping = 0x01;      // 0x00 *** R1 R0 SP1 SP0 BW
                 new_waveform_picker_regs->run_burst_enable = 0x00;  // 0x04 *** [run *** burst f2, f1, f0 *** enable f3, f2, f1, f0 ]
                 new_waveform_picker_regs->addr_data_f0 = (int) (wf_snap_f0);    // 0x08
                 new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1);    // 0x0c
                 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);    // 0x10
                 new_waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3);    // 0x14
                 new_waveform_picker_regs->status = 0x00;                // 0x18
             //    new_waveform_picker_regs->delta_snapshot = 0x12800;     // 0x1c 296 * 256 = 75776
                 new_waveform_picker_regs->delta_snapshot = 0x1000;      // 0x1c 16 * 256 = 4096
                 new_waveform_picker_regs->delta_f0 = 0x3f5;             // 0x20 *** 1013
                 new_waveform_picker_regs->delta_f0_2 = 0x7;             // 0x24 *** 7
                 new_waveform_picker_regs->delta_f1 = 0x3c0;             // 0x28 *** 960
             //    new_waveform_picker_regs->delta_f2 = 0x12200;         // 0x2c *** 74240
                 new_waveform_picker_regs->delta_f2 = 0xc00;             // 0x2c *** 12 * 256 = 2048
-                new_waveform_picker_regs->nb_data_by_buffer = 0x1802;   // 0x30 *** 2048 * 3 + 2
+                new_waveform_picker_regs->nb_data_by_buffer = 0x7ff;    // 0x30 *** 2048 -1
-                new_waveform_picker_regs->snapshot_param = 0x7ff;       // 0x34 *** 2048 -1
+                new_waveform_picker_regs->snapshot_param = 0x800;       // 0x34 *** 2048
                 new_waveform_picker_regs->start_date = 0x00;            // 0x38
+                new_waveform_picker_regs->nb_word_in_buffer = 0x1802;   // 0x3c *** 2048 * 3 + 2 = 6146
             }
             //*****************
             // local parameters
             void set_local_sbm1_nb_cwf_max()
             {
                 /** This function sets the value of the sbm1_nb_cwf_max local parameter.
                  *
                  * The sbm1_nb_cwf_max parameter counts the number of CWF_F1 records that have been sent.\n
                  * This parameter is used to send CWF_F1 data as normal data when the SBM1 is active.\n\n
                  * (2 snapshots of 2048 points per seconds) * (period of the NORM snashots) - 8 s (duration of the f2 snapshot)
                  *
                  */
                 param_local.local_sbm1_nb_cwf_max = 2 *
                         (parameter_dump_packet.sy_lfr_n_swf_p[0] * 256
                         + parameter_dump_packet.sy_lfr_n_swf_p[1]) - 8; // 16 CWF1 parts during 1 SWF2
             }
             void set_local_sbm2_nb_cwf_max()
             {
                 /** This function sets the value of the sbm1_nb_cwf_max local parameter.
                  *
                  * The sbm1_nb_cwf_max parameter counts the number of CWF_F1 records that have been sent.\n
                  * This parameter is used to send CWF_F2 data as normal data when the SBM2 is active.\n\n
                  * (period of the NORM snashots) / (8 seconds per snapshot at f2 = 256 Hz)
                  *
                  */
                 param_local.local_sbm2_nb_cwf_max = (parameter_dump_packet.sy_lfr_n_swf_p[0] * 256
                         + parameter_dump_packet.sy_lfr_n_swf_p[1]) / 8;
             }
             void set_local_nb_interrupt_f0_MAX()
             {
                 /** This function sets the value of the nb_interrupt_f0_MAX local parameter.
                  *
                  * This parameter is used for the SM validation only.\n
                  * The software waits param_local.local_nb_interrupt_f0_MAX interruptions from the spectral matrices
                  * module before launching a basic processing.
                  *
                  */
                 param_local.local_nb_interrupt_f0_MAX = ( (parameter_dump_packet.sy_lfr_n_asm_p[0]) * 256
                         + parameter_dump_packet.sy_lfr_n_asm_p[1] ) * 100;
             }
             void reset_local_sbm1_nb_cwf_sent()
             {
                 /** This function resets the value of the sbm1_nb_cwf_sent local parameter.
                  *
                  * The sbm1_nb_cwf_sent parameter counts the number of CWF_F1 records that have been sent.\n
                  * This parameter is used to send CWF_F1 data as normal data when the SBM1 is active.
                  *
                  */
                 param_local.local_sbm1_nb_cwf_sent = 0;
             }
             void reset_local_sbm2_nb_cwf_sent()
             {
                 /** This function resets the value of the sbm2_nb_cwf_sent local parameter.
                  *
                  * The sbm2_nb_cwf_sent parameter counts the number of CWF_F2 records that have been sent.\n
                  * This parameter is used to send CWF_F2 data as normal data when the SBM2 mode is active.
                  *
                  */
                 param_local.local_sbm2_nb_cwf_sent = 0;
             }
             rtems_id get_pkts_queue_id( void )
             {
                 rtems_id queue_id;
                 rtems_status_code status;
                 rtems_name queue_send_name;
                 queue_send_name = rtems_build_name( 'Q', '_', 'S', 'D' );
                 status =  rtems_message_queue_ident( queue_send_name, 0, &queue_id );
                 if (status != RTEMS_SUCCESSFUL)
                 {
                     PRINTF1("in get_pkts_queue_id *** ERR %d\n", status)
                 }
                 return queue_id;
             }
             void increment_seq_counter_source_id( unsigned char *packet_sequence_control, unsigned int sid )
             {
                 unsigned short *sequence_cnt;
                 unsigned short segmentation_grouping_flag;
                 unsigned short new_packet_sequence_control;
                 if ( (sid ==SID_NORM_SWF_F0) || (sid ==SID_NORM_SWF_F1) || (sid ==SID_NORM_SWF_F2)
                   || (sid ==SID_NORM_CWF_F3) || (sid ==SID_BURST_CWF_F2) )
                 {
                     sequence_cnt = &sequenceCounters_SCIENCE_NORMAL_BURST;
                 }
                 else if ( (sid ==SID_SBM1_CWF_F1) || (sid ==SID_SBM2_CWF_F2) )
                 {
                     sequence_cnt = &sequenceCounters_SCIENCE_SBM1_SBM2;
                 }
                 else
                 {
                     sequence_cnt = &sequenceCounters_TC_EXE[ UNKNOWN ];
                     PRINTF1("in increment_seq_counter_source_id *** ERR apid_destid %d not known\n", sid)
                 }
                 segmentation_grouping_flag = (packet_sequence_control[ 0 ] & 0xc0) << 8;
                 *sequence_cnt = (*sequence_cnt) & 0x3fff;
                 new_packet_sequence_control = segmentation_grouping_flag | *sequence_cnt ;
                 packet_sequence_control[0] = (unsigned char) (new_packet_sequence_control >> 8);
                 packet_sequence_control[1] = (unsigned char) (new_packet_sequence_control );
                 // increment the sequence counter for the next packet
                 if ( *sequence_cnt < SEQ_CNT_MAX)
                 {
                     *sequence_cnt = *sequence_cnt + 1;
                 }
                 else
                 {
                     *sequence_cnt = 0;
                 }
             }

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