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Minor modifications to meet Logiscope requirements
paul -
r77:4928e8d9328f VHDLib206
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1 #ifndef TM_BYTE_POSITIONS_H
2 #define TM_BYTE_POSITIONS_H
3
4 #define BYTE_POS_CP_LFR_MODE 11
5
6 // TC_LFR_LOAD_COMMON_PAR
7
8 // TC_LFR_LOAD_NORMAL_PAR
9 #define BYTE_POS_SY_LFR_N_SWF_L 0
10 #define BYTE_POS_SY_LFR_N_SWF_P 2
11 #define BYTE_POS_SY_LFR_N_ASM_P 4
12 #define BYTE_POS_SY_LFR_N_BP_P0 6
13 #define BYTE_POS_SY_LFR_N_BP_P1 7
14
15 // TC_LFR_LOAD_BURST_PAR
16
17 // TC_LFR_LOAD_SBM1_PAR
18
19 // TC_LFR_LOAD_SBM2_PAR
20
21
22 #endif // TM_BYTE_POSITIONS_H
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@@ -1,248 +1,248
1 #############################################################################
1 #############################################################################
2 # Makefile for building: bin/fsw
2 # Makefile for building: bin/fsw
3 # Generated by qmake (2.01a) (Qt 4.8.5) on: Thu Nov 14 12:02:16 2013
3 # Generated by qmake (2.01a) (Qt 4.8.5) on: Fri Nov 15 07:55:16 2013
4 # Project: fsw-qt.pro
4 # Project: fsw-qt.pro
5 # Template: app
5 # Template: app
6 # Command: /usr/bin/qmake-qt4 -spec /usr/lib64/qt4/mkspecs/linux-g++ -o Makefile fsw-qt.pro
6 # Command: /usr/bin/qmake-qt4 -spec /usr/lib64/qt4/mkspecs/linux-g++ -o Makefile fsw-qt.pro
7 #############################################################################
7 #############################################################################
8
8
9 ####### Compiler, tools and options
9 ####### Compiler, tools and options
10
10
11 CC = sparc-rtems-gcc
11 CC = sparc-rtems-gcc
12 CXX = sparc-rtems-g++
12 CXX = sparc-rtems-g++
13 DEFINES = -DSW_VERSION_N1=0 -DSW_VERSION_N2=0 -DSW_VERSION_N3=0 -DSW_VERSION_N4=23 -DPRINT_MESSAGES_ON_CONSOLE
13 DEFINES = -DSW_VERSION_N1=0 -DSW_VERSION_N2=0 -DSW_VERSION_N3=0 -DSW_VERSION_N4=24 -DPRINT_MESSAGES_ON_CONSOLE
14 CFLAGS = -pipe -O3 -Wall $(DEFINES)
14 CFLAGS = -pipe -O3 -Wall $(DEFINES)
15 CXXFLAGS = -pipe -O3 -Wall $(DEFINES)
15 CXXFLAGS = -pipe -O3 -Wall $(DEFINES)
16 INCPATH = -I/usr/lib64/qt4/mkspecs/linux-g++ -I. -I../src -I../header
16 INCPATH = -I/usr/lib64/qt4/mkspecs/linux-g++ -I. -I../src -I../header
17 LINK = sparc-rtems-g++
17 LINK = sparc-rtems-g++
18 LFLAGS =
18 LFLAGS =
19 LIBS = $(SUBLIBS)
19 LIBS = $(SUBLIBS)
20 AR = sparc-rtems-ar rcs
20 AR = sparc-rtems-ar rcs
21 RANLIB =
21 RANLIB =
22 QMAKE = /usr/bin/qmake-qt4
22 QMAKE = /usr/bin/qmake-qt4
23 TAR = tar -cf
23 TAR = tar -cf
24 COMPRESS = gzip -9f
24 COMPRESS = gzip -9f
25 COPY = cp -f
25 COPY = cp -f
26 SED = sed
26 SED = sed
27 COPY_FILE = $(COPY)
27 COPY_FILE = $(COPY)
28 COPY_DIR = $(COPY) -r
28 COPY_DIR = $(COPY) -r
29 STRIP = sparc-rtems-strip
29 STRIP = sparc-rtems-strip
30 INSTALL_FILE = install -m 644 -p
30 INSTALL_FILE = install -m 644 -p
31 INSTALL_DIR = $(COPY_DIR)
31 INSTALL_DIR = $(COPY_DIR)
32 INSTALL_PROGRAM = install -m 755 -p
32 INSTALL_PROGRAM = install -m 755 -p
33 DEL_FILE = rm -f
33 DEL_FILE = rm -f
34 SYMLINK = ln -f -s
34 SYMLINK = ln -f -s
35 DEL_DIR = rmdir
35 DEL_DIR = rmdir
36 MOVE = mv -f
36 MOVE = mv -f
37 CHK_DIR_EXISTS= test -d
37 CHK_DIR_EXISTS= test -d
38 MKDIR = mkdir -p
38 MKDIR = mkdir -p
39
39
40 ####### Output directory
40 ####### Output directory
41
41
42 OBJECTS_DIR = obj/
42 OBJECTS_DIR = obj/
43
43
44 ####### Files
44 ####### Files
45
45
46 SOURCES = ../src/wf_handler.c \
46 SOURCES = ../src/wf_handler.c \
47 ../src/tc_handler.c \
47 ../src/tc_handler.c \
48 ../src/fsw_processing.c \
48 ../src/fsw_processing.c \
49 ../src/fsw_misc.c \
49 ../src/fsw_misc.c \
50 ../src/fsw_init.c \
50 ../src/fsw_init.c \
51 ../src/fsw_globals.c \
51 ../src/fsw_globals.c \
52 ../src/fsw_spacewire.c \
52 ../src/fsw_spacewire.c \
53 ../src/tc_load_dump_parameters.c \
53 ../src/tc_load_dump_parameters.c \
54 ../src/tm_lfr_tc_exe.c \
54 ../src/tm_lfr_tc_exe.c \
55 ../src/tc_acceptance.c
55 ../src/tc_acceptance.c
56 OBJECTS = obj/wf_handler.o \
56 OBJECTS = obj/wf_handler.o \
57 obj/tc_handler.o \
57 obj/tc_handler.o \
58 obj/fsw_processing.o \
58 obj/fsw_processing.o \
59 obj/fsw_misc.o \
59 obj/fsw_misc.o \
60 obj/fsw_init.o \
60 obj/fsw_init.o \
61 obj/fsw_globals.o \
61 obj/fsw_globals.o \
62 obj/fsw_spacewire.o \
62 obj/fsw_spacewire.o \
63 obj/tc_load_dump_parameters.o \
63 obj/tc_load_dump_parameters.o \
64 obj/tm_lfr_tc_exe.o \
64 obj/tm_lfr_tc_exe.o \
65 obj/tc_acceptance.o
65 obj/tc_acceptance.o
66 DIST = /usr/lib64/qt4/mkspecs/common/unix.conf \
66 DIST = /usr/lib64/qt4/mkspecs/common/unix.conf \
67 /usr/lib64/qt4/mkspecs/common/linux.conf \
67 /usr/lib64/qt4/mkspecs/common/linux.conf \
68 /usr/lib64/qt4/mkspecs/common/gcc-base.conf \
68 /usr/lib64/qt4/mkspecs/common/gcc-base.conf \
69 /usr/lib64/qt4/mkspecs/common/gcc-base-unix.conf \
69 /usr/lib64/qt4/mkspecs/common/gcc-base-unix.conf \
70 /usr/lib64/qt4/mkspecs/common/g++-base.conf \
70 /usr/lib64/qt4/mkspecs/common/g++-base.conf \
71 /usr/lib64/qt4/mkspecs/common/g++-unix.conf \
71 /usr/lib64/qt4/mkspecs/common/g++-unix.conf \
72 /usr/lib64/qt4/mkspecs/qconfig.pri \
72 /usr/lib64/qt4/mkspecs/qconfig.pri \
73 /usr/lib64/qt4/mkspecs/modules/qt_webkit.pri \
73 /usr/lib64/qt4/mkspecs/modules/qt_webkit.pri \
74 /usr/lib64/qt4/mkspecs/features/qt_functions.prf \
74 /usr/lib64/qt4/mkspecs/features/qt_functions.prf \
75 /usr/lib64/qt4/mkspecs/features/qt_config.prf \
75 /usr/lib64/qt4/mkspecs/features/qt_config.prf \
76 /usr/lib64/qt4/mkspecs/features/exclusive_builds.prf \
76 /usr/lib64/qt4/mkspecs/features/exclusive_builds.prf \
77 /usr/lib64/qt4/mkspecs/features/default_pre.prf \
77 /usr/lib64/qt4/mkspecs/features/default_pre.prf \
78 sparc.pri \
78 sparc.pri \
79 /usr/lib64/qt4/mkspecs/features/release.prf \
79 /usr/lib64/qt4/mkspecs/features/release.prf \
80 /usr/lib64/qt4/mkspecs/features/default_post.prf \
80 /usr/lib64/qt4/mkspecs/features/default_post.prf \
81 /usr/lib64/qt4/mkspecs/features/shared.prf \
81 /usr/lib64/qt4/mkspecs/features/shared.prf \
82 /usr/lib64/qt4/mkspecs/features/unix/gdb_dwarf_index.prf \
82 /usr/lib64/qt4/mkspecs/features/unix/gdb_dwarf_index.prf \
83 /usr/lib64/qt4/mkspecs/features/warn_on.prf \
83 /usr/lib64/qt4/mkspecs/features/warn_on.prf \
84 /usr/lib64/qt4/mkspecs/features/resources.prf \
84 /usr/lib64/qt4/mkspecs/features/resources.prf \
85 /usr/lib64/qt4/mkspecs/features/uic.prf \
85 /usr/lib64/qt4/mkspecs/features/uic.prf \
86 /usr/lib64/qt4/mkspecs/features/yacc.prf \
86 /usr/lib64/qt4/mkspecs/features/yacc.prf \
87 /usr/lib64/qt4/mkspecs/features/lex.prf \
87 /usr/lib64/qt4/mkspecs/features/lex.prf \
88 /usr/lib64/qt4/mkspecs/features/include_source_dir.prf \
88 /usr/lib64/qt4/mkspecs/features/include_source_dir.prf \
89 fsw-qt.pro
89 fsw-qt.pro
90 QMAKE_TARGET = fsw
90 QMAKE_TARGET = fsw
91 DESTDIR = bin/
91 DESTDIR = bin/
92 TARGET = bin/fsw
92 TARGET = bin/fsw
93
93
94 first: all
94 first: all
95 ####### Implicit rules
95 ####### Implicit rules
96
96
97 .SUFFIXES: .o .c .cpp .cc .cxx .C
97 .SUFFIXES: .o .c .cpp .cc .cxx .C
98
98
99 .cpp.o:
99 .cpp.o:
100 $(CXX) -c $(CXXFLAGS) $(INCPATH) -o "$@" "$<"
100 $(CXX) -c $(CXXFLAGS) $(INCPATH) -o "$@" "$<"
101
101
102 .cc.o:
102 .cc.o:
103 $(CXX) -c $(CXXFLAGS) $(INCPATH) -o "$@" "$<"
103 $(CXX) -c $(CXXFLAGS) $(INCPATH) -o "$@" "$<"
104
104
105 .cxx.o:
105 .cxx.o:
106 $(CXX) -c $(CXXFLAGS) $(INCPATH) -o "$@" "$<"
106 $(CXX) -c $(CXXFLAGS) $(INCPATH) -o "$@" "$<"
107
107
108 .C.o:
108 .C.o:
109 $(CXX) -c $(CXXFLAGS) $(INCPATH) -o "$@" "$<"
109 $(CXX) -c $(CXXFLAGS) $(INCPATH) -o "$@" "$<"
110
110
111 .c.o:
111 .c.o:
112 $(CC) -c $(CFLAGS) $(INCPATH) -o "$@" "$<"
112 $(CC) -c $(CFLAGS) $(INCPATH) -o "$@" "$<"
113
113
114 ####### Build rules
114 ####### Build rules
115
115
116 all: Makefile $(TARGET)
116 all: Makefile $(TARGET)
117
117
118 $(TARGET): $(OBJECTS)
118 $(TARGET): $(OBJECTS)
119 @$(CHK_DIR_EXISTS) bin/ || $(MKDIR) bin/
119 @$(CHK_DIR_EXISTS) bin/ || $(MKDIR) bin/
120 $(LINK) $(LFLAGS) -o $(TARGET) $(OBJECTS) $(OBJCOMP) $(LIBS)
120 $(LINK) $(LFLAGS) -o $(TARGET) $(OBJECTS) $(OBJCOMP) $(LIBS)
121
121
122 Makefile: fsw-qt.pro /usr/lib64/qt4/mkspecs/linux-g++/qmake.conf /usr/lib64/qt4/mkspecs/common/unix.conf \
122 Makefile: fsw-qt.pro /usr/lib64/qt4/mkspecs/linux-g++/qmake.conf /usr/lib64/qt4/mkspecs/common/unix.conf \
123 /usr/lib64/qt4/mkspecs/common/linux.conf \
123 /usr/lib64/qt4/mkspecs/common/linux.conf \
124 /usr/lib64/qt4/mkspecs/common/gcc-base.conf \
124 /usr/lib64/qt4/mkspecs/common/gcc-base.conf \
125 /usr/lib64/qt4/mkspecs/common/gcc-base-unix.conf \
125 /usr/lib64/qt4/mkspecs/common/gcc-base-unix.conf \
126 /usr/lib64/qt4/mkspecs/common/g++-base.conf \
126 /usr/lib64/qt4/mkspecs/common/g++-base.conf \
127 /usr/lib64/qt4/mkspecs/common/g++-unix.conf \
127 /usr/lib64/qt4/mkspecs/common/g++-unix.conf \
128 /usr/lib64/qt4/mkspecs/qconfig.pri \
128 /usr/lib64/qt4/mkspecs/qconfig.pri \
129 /usr/lib64/qt4/mkspecs/modules/qt_webkit.pri \
129 /usr/lib64/qt4/mkspecs/modules/qt_webkit.pri \
130 /usr/lib64/qt4/mkspecs/features/qt_functions.prf \
130 /usr/lib64/qt4/mkspecs/features/qt_functions.prf \
131 /usr/lib64/qt4/mkspecs/features/qt_config.prf \
131 /usr/lib64/qt4/mkspecs/features/qt_config.prf \
132 /usr/lib64/qt4/mkspecs/features/exclusive_builds.prf \
132 /usr/lib64/qt4/mkspecs/features/exclusive_builds.prf \
133 /usr/lib64/qt4/mkspecs/features/default_pre.prf \
133 /usr/lib64/qt4/mkspecs/features/default_pre.prf \
134 sparc.pri \
134 sparc.pri \
135 /usr/lib64/qt4/mkspecs/features/release.prf \
135 /usr/lib64/qt4/mkspecs/features/release.prf \
136 /usr/lib64/qt4/mkspecs/features/default_post.prf \
136 /usr/lib64/qt4/mkspecs/features/default_post.prf \
137 /usr/lib64/qt4/mkspecs/features/shared.prf \
137 /usr/lib64/qt4/mkspecs/features/shared.prf \
138 /usr/lib64/qt4/mkspecs/features/unix/gdb_dwarf_index.prf \
138 /usr/lib64/qt4/mkspecs/features/unix/gdb_dwarf_index.prf \
139 /usr/lib64/qt4/mkspecs/features/warn_on.prf \
139 /usr/lib64/qt4/mkspecs/features/warn_on.prf \
140 /usr/lib64/qt4/mkspecs/features/resources.prf \
140 /usr/lib64/qt4/mkspecs/features/resources.prf \
141 /usr/lib64/qt4/mkspecs/features/uic.prf \
141 /usr/lib64/qt4/mkspecs/features/uic.prf \
142 /usr/lib64/qt4/mkspecs/features/yacc.prf \
142 /usr/lib64/qt4/mkspecs/features/yacc.prf \
143 /usr/lib64/qt4/mkspecs/features/lex.prf \
143 /usr/lib64/qt4/mkspecs/features/lex.prf \
144 /usr/lib64/qt4/mkspecs/features/include_source_dir.prf
144 /usr/lib64/qt4/mkspecs/features/include_source_dir.prf
145 $(QMAKE) -spec /usr/lib64/qt4/mkspecs/linux-g++ -o Makefile fsw-qt.pro
145 $(QMAKE) -spec /usr/lib64/qt4/mkspecs/linux-g++ -o Makefile fsw-qt.pro
146 /usr/lib64/qt4/mkspecs/common/unix.conf:
146 /usr/lib64/qt4/mkspecs/common/unix.conf:
147 /usr/lib64/qt4/mkspecs/common/linux.conf:
147 /usr/lib64/qt4/mkspecs/common/linux.conf:
148 /usr/lib64/qt4/mkspecs/common/gcc-base.conf:
148 /usr/lib64/qt4/mkspecs/common/gcc-base.conf:
149 /usr/lib64/qt4/mkspecs/common/gcc-base-unix.conf:
149 /usr/lib64/qt4/mkspecs/common/gcc-base-unix.conf:
150 /usr/lib64/qt4/mkspecs/common/g++-base.conf:
150 /usr/lib64/qt4/mkspecs/common/g++-base.conf:
151 /usr/lib64/qt4/mkspecs/common/g++-unix.conf:
151 /usr/lib64/qt4/mkspecs/common/g++-unix.conf:
152 /usr/lib64/qt4/mkspecs/qconfig.pri:
152 /usr/lib64/qt4/mkspecs/qconfig.pri:
153 /usr/lib64/qt4/mkspecs/modules/qt_webkit.pri:
153 /usr/lib64/qt4/mkspecs/modules/qt_webkit.pri:
154 /usr/lib64/qt4/mkspecs/features/qt_functions.prf:
154 /usr/lib64/qt4/mkspecs/features/qt_functions.prf:
155 /usr/lib64/qt4/mkspecs/features/qt_config.prf:
155 /usr/lib64/qt4/mkspecs/features/qt_config.prf:
156 /usr/lib64/qt4/mkspecs/features/exclusive_builds.prf:
156 /usr/lib64/qt4/mkspecs/features/exclusive_builds.prf:
157 /usr/lib64/qt4/mkspecs/features/default_pre.prf:
157 /usr/lib64/qt4/mkspecs/features/default_pre.prf:
158 sparc.pri:
158 sparc.pri:
159 /usr/lib64/qt4/mkspecs/features/release.prf:
159 /usr/lib64/qt4/mkspecs/features/release.prf:
160 /usr/lib64/qt4/mkspecs/features/default_post.prf:
160 /usr/lib64/qt4/mkspecs/features/default_post.prf:
161 /usr/lib64/qt4/mkspecs/features/shared.prf:
161 /usr/lib64/qt4/mkspecs/features/shared.prf:
162 /usr/lib64/qt4/mkspecs/features/unix/gdb_dwarf_index.prf:
162 /usr/lib64/qt4/mkspecs/features/unix/gdb_dwarf_index.prf:
163 /usr/lib64/qt4/mkspecs/features/warn_on.prf:
163 /usr/lib64/qt4/mkspecs/features/warn_on.prf:
164 /usr/lib64/qt4/mkspecs/features/resources.prf:
164 /usr/lib64/qt4/mkspecs/features/resources.prf:
165 /usr/lib64/qt4/mkspecs/features/uic.prf:
165 /usr/lib64/qt4/mkspecs/features/uic.prf:
166 /usr/lib64/qt4/mkspecs/features/yacc.prf:
166 /usr/lib64/qt4/mkspecs/features/yacc.prf:
167 /usr/lib64/qt4/mkspecs/features/lex.prf:
167 /usr/lib64/qt4/mkspecs/features/lex.prf:
168 /usr/lib64/qt4/mkspecs/features/include_source_dir.prf:
168 /usr/lib64/qt4/mkspecs/features/include_source_dir.prf:
169 qmake: FORCE
169 qmake: FORCE
170 @$(QMAKE) -spec /usr/lib64/qt4/mkspecs/linux-g++ -o Makefile fsw-qt.pro
170 @$(QMAKE) -spec /usr/lib64/qt4/mkspecs/linux-g++ -o Makefile fsw-qt.pro
171
171
172 dist:
172 dist:
173 @$(CHK_DIR_EXISTS) obj/fsw1.0.0 || $(MKDIR) obj/fsw1.0.0
173 @$(CHK_DIR_EXISTS) obj/fsw1.0.0 || $(MKDIR) obj/fsw1.0.0
174 $(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
174 $(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 . && $(DEL_FILE) -r obj/fsw1.0.0
175
175
176
176
177 clean:compiler_clean
177 clean:compiler_clean
178 -$(DEL_FILE) $(OBJECTS)
178 -$(DEL_FILE) $(OBJECTS)
179 -$(DEL_FILE) *~ core *.core
179 -$(DEL_FILE) *~ core *.core
180
180
181
181
182 ####### Sub-libraries
182 ####### Sub-libraries
183
183
184 distclean: clean
184 distclean: clean
185 -$(DEL_FILE) $(TARGET)
185 -$(DEL_FILE) $(TARGET)
186 -$(DEL_FILE) Makefile
186 -$(DEL_FILE) Makefile
187
187
188
188
189 grmon:
189 grmon:
190 cd bin && C:/opt/grmon-eval-2.0.29b/win32/bin/grmon.exe -uart COM4 -u
190 cd bin && C:/opt/grmon-eval-2.0.29b/win32/bin/grmon.exe -uart COM4 -u
191
191
192 check: first
192 check: first
193
193
194 compiler_rcc_make_all:
194 compiler_rcc_make_all:
195 compiler_rcc_clean:
195 compiler_rcc_clean:
196 compiler_uic_make_all:
196 compiler_uic_make_all:
197 compiler_uic_clean:
197 compiler_uic_clean:
198 compiler_image_collection_make_all: qmake_image_collection.cpp
198 compiler_image_collection_make_all: qmake_image_collection.cpp
199 compiler_image_collection_clean:
199 compiler_image_collection_clean:
200 -$(DEL_FILE) qmake_image_collection.cpp
200 -$(DEL_FILE) qmake_image_collection.cpp
201 compiler_yacc_decl_make_all:
201 compiler_yacc_decl_make_all:
202 compiler_yacc_decl_clean:
202 compiler_yacc_decl_clean:
203 compiler_yacc_impl_make_all:
203 compiler_yacc_impl_make_all:
204 compiler_yacc_impl_clean:
204 compiler_yacc_impl_clean:
205 compiler_lex_make_all:
205 compiler_lex_make_all:
206 compiler_lex_clean:
206 compiler_lex_clean:
207 compiler_clean:
207 compiler_clean:
208
208
209 ####### Compile
209 ####### Compile
210
210
211 obj/wf_handler.o: ../src/wf_handler.c
211 obj/wf_handler.o: ../src/wf_handler.c
212 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/wf_handler.o ../src/wf_handler.c
212 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/wf_handler.o ../src/wf_handler.c
213
213
214 obj/tc_handler.o: ../src/tc_handler.c
214 obj/tc_handler.o: ../src/tc_handler.c
215 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/tc_handler.o ../src/tc_handler.c
215 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/tc_handler.o ../src/tc_handler.c
216
216
217 obj/fsw_processing.o: ../src/fsw_processing.c ../src/fsw_processing_globals.c
217 obj/fsw_processing.o: ../src/fsw_processing.c ../src/fsw_processing_globals.c
218 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_processing.o ../src/fsw_processing.c
218 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_processing.o ../src/fsw_processing.c
219
219
220 obj/fsw_misc.o: ../src/fsw_misc.c
220 obj/fsw_misc.o: ../src/fsw_misc.c
221 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_misc.o ../src/fsw_misc.c
221 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_misc.o ../src/fsw_misc.c
222
222
223 obj/fsw_init.o: ../src/fsw_init.c ../src/fsw_config.c
223 obj/fsw_init.o: ../src/fsw_init.c ../src/fsw_config.c
224 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_init.o ../src/fsw_init.c
224 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_init.o ../src/fsw_init.c
225
225
226 obj/fsw_globals.o: ../src/fsw_globals.c
226 obj/fsw_globals.o: ../src/fsw_globals.c
227 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_globals.o ../src/fsw_globals.c
227 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_globals.o ../src/fsw_globals.c
228
228
229 obj/fsw_spacewire.o: ../src/fsw_spacewire.c
229 obj/fsw_spacewire.o: ../src/fsw_spacewire.c
230 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_spacewire.o ../src/fsw_spacewire.c
230 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/fsw_spacewire.o ../src/fsw_spacewire.c
231
231
232 obj/tc_load_dump_parameters.o: ../src/tc_load_dump_parameters.c
232 obj/tc_load_dump_parameters.o: ../src/tc_load_dump_parameters.c
233 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/tc_load_dump_parameters.o ../src/tc_load_dump_parameters.c
233 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/tc_load_dump_parameters.o ../src/tc_load_dump_parameters.c
234
234
235 obj/tm_lfr_tc_exe.o: ../src/tm_lfr_tc_exe.c
235 obj/tm_lfr_tc_exe.o: ../src/tm_lfr_tc_exe.c
236 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/tm_lfr_tc_exe.o ../src/tm_lfr_tc_exe.c
236 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/tm_lfr_tc_exe.o ../src/tm_lfr_tc_exe.c
237
237
238 obj/tc_acceptance.o: ../src/tc_acceptance.c
238 obj/tc_acceptance.o: ../src/tc_acceptance.c
239 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/tc_acceptance.o ../src/tc_acceptance.c
239 $(CC) -c $(CFLAGS) $(INCPATH) -o obj/tc_acceptance.o ../src/tc_acceptance.c
240
240
241 ####### Install
241 ####### Install
242
242
243 install: FORCE
243 install: FORCE
244
244
245 uninstall: FORCE
245 uninstall: FORCE
246
246
247 FORCE:
247 FORCE:
248
248
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@@ -1,78 +1,79
1 TEMPLATE = app
1 TEMPLATE = app
2 # CONFIG += console v8 sim
2 # CONFIG += console v8 sim
3 # CONFIG options = verbose *** boot_messages *** debug_messages *** cpu_usage_report *** stack_report *** gsa
3 # CONFIG options = verbose *** boot_messages *** debug_messages *** cpu_usage_report *** stack_report *** gsa
4 CONFIG += console verbose
4 CONFIG += console verbose
5 CONFIG -= qt
5 CONFIG -= qt
6
6
7 include(./sparc.pri)
7 include(./sparc.pri)
8
8
9 # flight software version
9 # flight software version
10 SWVERSION=-0-23
10 SWVERSION=-0-24
11 DEFINES += SW_VERSION_N1=0
11 DEFINES += SW_VERSION_N1=0
12 DEFINES += SW_VERSION_N2=0
12 DEFINES += SW_VERSION_N2=0
13 DEFINES += SW_VERSION_N3=0
13 DEFINES += SW_VERSION_N3=0
14 DEFINES += SW_VERSION_N4=23
14 DEFINES += SW_VERSION_N4=24
15
15
16 contains( CONFIG, verbose ) {
16 contains( CONFIG, verbose ) {
17 DEFINES += PRINT_MESSAGES_ON_CONSOLE
17 DEFINES += PRINT_MESSAGES_ON_CONSOLE
18 }
18 }
19
19
20 contains( CONFIG, debug_messages ) {
20 contains( CONFIG, debug_messages ) {
21 DEFINES += DEBUG_MESSAGES
21 DEFINES += DEBUG_MESSAGES
22 }
22 }
23
23
24 contains( CONFIG, cpu_usage_report ) {
24 contains( CONFIG, cpu_usage_report ) {
25 DEFINES += PRINT_TASK_STATISTICS
25 DEFINES += PRINT_TASK_STATISTICS
26 }
26 }
27
27
28 contains( CONFIG, stack_report ) {
28 contains( CONFIG, stack_report ) {
29 DEFINES += PRINT_STACK_REPORT
29 DEFINES += PRINT_STACK_REPORT
30 }
30 }
31
31
32 contains( CONFIG, boot_messages ) {
32 contains( CONFIG, boot_messages ) {
33 DEFINES += BOOT_MESSAGES
33 DEFINES += BOOT_MESSAGES
34 }
34 }
35
35
36 #doxygen.target = doxygen
36 #doxygen.target = doxygen
37 #doxygen.commands = doxygen ../doc/Doxyfile
37 #doxygen.commands = doxygen ../doc/Doxyfile
38 #QMAKE_EXTRA_TARGETS += doxygen
38 #QMAKE_EXTRA_TARGETS += doxygen
39
39
40 TARGET = fsw
40 TARGET = fsw
41 contains( CONFIG, gsa ) {
41 contains( CONFIG, gsa ) {
42 DEFINES += GSA
42 DEFINES += GSA
43 TARGET = fsw-gsa
43 TARGET = fsw-gsa
44 }
44 }
45
45
46 INCLUDEPATH += \
46 INCLUDEPATH += \
47 ../src \
47 ../src \
48 ../header
48 ../header
49
49
50 SOURCES += \
50 SOURCES += \
51 ../src/wf_handler.c \
51 ../src/wf_handler.c \
52 ../src/tc_handler.c \
52 ../src/tc_handler.c \
53 ../src/fsw_processing.c \
53 ../src/fsw_processing.c \
54 ../src/fsw_misc.c \
54 ../src/fsw_misc.c \
55 ../src/fsw_init.c \
55 ../src/fsw_init.c \
56 ../src/fsw_globals.c \
56 ../src/fsw_globals.c \
57 ../src/fsw_spacewire.c \
57 ../src/fsw_spacewire.c \
58 ../src/tc_load_dump_parameters.c \
58 ../src/tc_load_dump_parameters.c \
59 ../src/tm_lfr_tc_exe.c \
59 ../src/tm_lfr_tc_exe.c \
60 ../src/tc_acceptance.c
60 ../src/tc_acceptance.c
61
61
62
62
63 HEADERS += \
63 HEADERS += \
64 ../header/wf_handler.h \
64 ../header/wf_handler.h \
65 ../header/tc_handler.h \
65 ../header/tc_handler.h \
66 ../header/grlib_regs.h \
66 ../header/grlib_regs.h \
67 ../header/fsw_processing.h \
67 ../header/fsw_processing.h \
68 ../header/fsw_params.h \
68 ../header/fsw_params.h \
69 ../header/fsw_misc.h \
69 ../header/fsw_misc.h \
70 ../header/fsw_init.h \
70 ../header/fsw_init.h \
71 ../header/ccsds_types.h \
71 ../header/ccsds_types.h \
72 ../header/fsw_params_processing.h \
72 ../header/fsw_params_processing.h \
73 ../header/fsw_spacewire.h \
73 ../header/fsw_spacewire.h \
74 ../header/tm_byte_positions.h \
74 ../header/tm_byte_positions.h \
75 ../header/tc_load_dump_parameters.h \
75 ../header/tc_load_dump_parameters.h \
76 ../header/tm_lfr_tc_exe.h \
76 ../header/tm_lfr_tc_exe.h \
77 ../header/tc_acceptance.h
77 ../header/tc_acceptance.h \
78 ../header/fsw_params_nb_bytes.h
78
79
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@@ -1,305 +1,198
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140 <value type="bool" key="Qt4ProjectManager.MakeStep.Clean">false</value>
141 <value type="QString" key="Qt4ProjectManager.MakeStep.MakeArguments">-r -w </value>
142 <value type="QString" key="Qt4ProjectManager.MakeStep.MakeCommand"></value>
143 </valuemap>
144 <value type="int" key="ProjectExplorer.BuildStepList.StepsCount">2</value>
145 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">Build</value>
146 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
147 <value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">ProjectExplorer.BuildSteps.Build</value>
148 </valuemap>
149 <valuemap type="QVariantMap" key="ProjectExplorer.BuildConfiguration.BuildStepList.1">
150 <valuemap type="QVariantMap" key="ProjectExplorer.BuildStepList.Step.0">
151 <value type="bool" key="ProjectExplorer.BuildStep.Enabled">true</value>
152 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">Make</value>
153 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
154 <value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">Qt4ProjectManager.MakeStep</value>
155 <valuelist type="QVariantList" key="Qt4ProjectManager.MakeStep.AutomaticallyAddedMakeArguments">
156 <value type="QString">-w</value>
157 <value type="QString">-r</value>
158 </valuelist>
159 <value type="bool" key="Qt4ProjectManager.MakeStep.Clean">true</value>
160 <value type="QString" key="Qt4ProjectManager.MakeStep.MakeArguments">-r -w clean</value>
161 <value type="QString" key="Qt4ProjectManager.MakeStep.MakeCommand"></value>
162 </valuemap>
163 <value type="int" key="ProjectExplorer.BuildStepList.StepsCount">1</value>
164 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">Clean</value>
165 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
166 <value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">ProjectExplorer.BuildSteps.Clean</value>
167 </valuemap>
168 <value type="int" key="ProjectExplorer.BuildConfiguration.BuildStepListCount">2</value>
169 <value type="bool" key="ProjectExplorer.BuildConfiguration.ClearSystemEnvironment">false</value>
170 <valuelist type="QVariantList" key="ProjectExplorer.BuildConfiguration.UserEnvironmentChanges"/>
171 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">Qt 4.8.2 in PATH (System) Debug</value>
172 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
173 <value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">Qt4ProjectManager.Qt4BuildConfiguration</value>
174 <value type="int" key="Qt4ProjectManager.Qt4BuildConfiguration.BuildConfiguration">2</value>
175 <value type="QString" key="Qt4ProjectManager.Qt4BuildConfiguration.BuildDirectory">/opt/DEV_PLE/FSW-qt</value>
176 <value type="bool" key="Qt4ProjectManager.Qt4BuildConfiguration.UseShadowBuild">false</value>
177 </valuemap>
178 <value type="int" key="ProjectExplorer.Target.BuildConfigurationCount">2</value>
179 <valuemap type="QVariantMap" key="ProjectExplorer.Target.DeployConfiguration.0">
120 <valuemap type="QVariantMap" key="ProjectExplorer.Target.DeployConfiguration.0">
180 <valuemap type="QVariantMap" key="ProjectExplorer.BuildConfiguration.BuildStepList.0">
121 <valuemap type="QVariantMap" key="ProjectExplorer.BuildConfiguration.BuildStepList.0">
181 <value type="int" key="ProjectExplorer.BuildStepList.StepsCount">0</value>
122 <value type="int" key="ProjectExplorer.BuildStepList.StepsCount">0</value>
182 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">Deploy</value>
123 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">Deploy</value>
183 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
124 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
184 <value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">ProjectExplorer.BuildSteps.Deploy</value>
125 <value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">ProjectExplorer.BuildSteps.Deploy</value>
185 </valuemap>
126 </valuemap>
186 <value type="int" key="ProjectExplorer.BuildConfiguration.BuildStepListCount">1</value>
127 <value type="int" key="ProjectExplorer.BuildConfiguration.BuildStepListCount">1</value>
187 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">No deployment</value>
128 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">Deploy locally</value>
188 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
129 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
189 <value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">ProjectExplorer.DefaultDeployConfiguration</value>
130 <value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">ProjectExplorer.DefaultDeployConfiguration</value>
190 </valuemap>
131 </valuemap>
191 <value type="int" key="ProjectExplorer.Target.DeployConfigurationCount">1</value>
132 <value type="int" key="ProjectExplorer.Target.DeployConfigurationCount">1</value>
192 <valuemap type="QVariantMap" key="ProjectExplorer.Target.PluginSettings"/>
133 <valuemap type="QVariantMap" key="ProjectExplorer.Target.PluginSettings"/>
193 <valuemap type="QVariantMap" key="ProjectExplorer.Target.RunConfiguration.0">
134 <valuemap type="QVariantMap" key="ProjectExplorer.Target.RunConfiguration.0">
194 <value type="bool" key="Analyzer.Project.UseGlobal">true</value>
135 <value type="bool" key="Analyzer.Project.UseGlobal">true</value>
195 <valuelist type="QVariantList" key="Analyzer.Valgrind.AddedSuppressionFiles"/>
136 <valuelist type="QVariantList" key="Analyzer.Valgrind.AddedSuppressionFiles"/>
196 <value type="bool" key="Analyzer.Valgrind.Callgrind.CollectBusEvents">false</value>
137 <value type="bool" key="Analyzer.Valgrind.Callgrind.CollectBusEvents">false</value>
197 <value type="bool" key="Analyzer.Valgrind.Callgrind.CollectSystime">false</value>
138 <value type="bool" key="Analyzer.Valgrind.Callgrind.CollectSystime">false</value>
198 <value type="bool" key="Analyzer.Valgrind.Callgrind.EnableBranchSim">false</value>
139 <value type="bool" key="Analyzer.Valgrind.Callgrind.EnableBranchSim">false</value>
199 <value type="bool" key="Analyzer.Valgrind.Callgrind.EnableCacheSim">false</value>
140 <value type="bool" key="Analyzer.Valgrind.Callgrind.EnableCacheSim">false</value>
200 <value type="bool" key="Analyzer.Valgrind.Callgrind.EnableEventToolTips">true</value>
141 <value type="bool" key="Analyzer.Valgrind.Callgrind.EnableEventToolTips">true</value>
201 <value type="double" key="Analyzer.Valgrind.Callgrind.MinimumCostRatio">0.01</value>
142 <value type="double" key="Analyzer.Valgrind.Callgrind.MinimumCostRatio">0.01</value>
202 <value type="double" key="Analyzer.Valgrind.Callgrind.VisualisationMinimumCostRatio">10</value>
143 <value type="double" key="Analyzer.Valgrind.Callgrind.VisualisationMinimumCostRatio">10</value>
203 <value type="bool" key="Analyzer.Valgrind.FilterExternalIssues">true</value>
144 <value type="bool" key="Analyzer.Valgrind.FilterExternalIssues">true</value>
204 <value type="int" key="Analyzer.Valgrind.NumCallers">25</value>
145 <value type="int" key="Analyzer.Valgrind.NumCallers">25</value>
205 <valuelist type="QVariantList" key="Analyzer.Valgrind.RemovedSuppressionFiles"/>
146 <valuelist type="QVariantList" key="Analyzer.Valgrind.RemovedSuppressionFiles"/>
206 <value type="bool" key="Analyzer.Valgrind.TrackOrigins">true</value>
147 <value type="bool" key="Analyzer.Valgrind.TrackOrigins">true</value>
207 <value type="QString" key="Analyzer.Valgrind.ValgrindExecutable">valgrind</value>
148 <value type="QString" key="Analyzer.Valgrind.ValgrindExecutable">valgrind</value>
208 <valuelist type="QVariantList" key="Analyzer.Valgrind.VisibleErrorKinds">
149 <valuelist type="QVariantList" key="Analyzer.Valgrind.VisibleErrorKinds">
209 <value type="int">0</value>
150 <value type="int">0</value>
210 <value type="int">1</value>
151 <value type="int">1</value>
211 <value type="int">2</value>
152 <value type="int">2</value>
212 <value type="int">3</value>
153 <value type="int">3</value>
213 <value type="int">4</value>
154 <value type="int">4</value>
214 <value type="int">5</value>
155 <value type="int">5</value>
215 <value type="int">6</value>
156 <value type="int">6</value>
216 <value type="int">7</value>
157 <value type="int">7</value>
217 <value type="int">8</value>
158 <value type="int">8</value>
218 <value type="int">9</value>
159 <value type="int">9</value>
219 <value type="int">10</value>
160 <value type="int">10</value>
220 <value type="int">11</value>
161 <value type="int">11</value>
221 <value type="int">12</value>
162 <value type="int">12</value>
222 <value type="int">13</value>
163 <value type="int">13</value>
223 <value type="int">14</value>
164 <value type="int">14</value>
224 </valuelist>
165 </valuelist>
225 <value type="int" key="PE.EnvironmentAspect.Base">2</value>
166 <value type="int" key="PE.EnvironmentAspect.Base">2</value>
226 <valuelist type="QVariantList" key="PE.EnvironmentAspect.Changes"/>
167 <valuelist type="QVariantList" key="PE.EnvironmentAspect.Changes"/>
227 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">fsw-qt</value>
168 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">fsw-qt</value>
228 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
169 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
229 <value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">Qt4ProjectManager.Qt4RunConfiguration:/opt/DEV_PLE/FSW-qt/fsw-qt.pro</value>
170 <value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">Qt4ProjectManager.Qt4RunConfiguration:/home/admin/opt/DEV_PLE/FSW-qt/fsw-qt.pro</value>
230 <value type="QString" key="Qt4ProjectManager.Qt4RunConfiguration.CommandLineArguments"></value>
171 <value type="QString" key="Qt4ProjectManager.Qt4RunConfiguration.CommandLineArguments"></value>
231 <value type="QString" key="Qt4ProjectManager.Qt4RunConfiguration.ProFile">fsw-qt.pro</value>
172 <value type="QString" key="Qt4ProjectManager.Qt4RunConfiguration.ProFile">fsw-qt.pro</value>
232 <value type="bool" key="Qt4ProjectManager.Qt4RunConfiguration.UseDyldImageSuffix">false</value>
173 <value type="bool" key="Qt4ProjectManager.Qt4RunConfiguration.UseDyldImageSuffix">false</value>
233 <value type="bool" key="Qt4ProjectManager.Qt4RunConfiguration.UseTerminal">true</value>
174 <value type="bool" key="Qt4ProjectManager.Qt4RunConfiguration.UseTerminal">true</value>
234 <value type="QString" key="Qt4ProjectManager.Qt4RunConfiguration.UserWorkingDirectory"></value>
175 <value type="QString" key="Qt4ProjectManager.Qt4RunConfiguration.UserWorkingDirectory"></value>
235 <value type="uint" key="RunConfiguration.QmlDebugServerPort">3768</value>
176 <value type="uint" key="RunConfiguration.QmlDebugServerPort">3768</value>
236 <value type="bool" key="RunConfiguration.UseCppDebugger">true</value>
177 <value type="bool" key="RunConfiguration.UseCppDebugger">true</value>
237 <value type="bool" key="RunConfiguration.UseCppDebuggerAuto">false</value>
178 <value type="bool" key="RunConfiguration.UseCppDebuggerAuto">false</value>
238 <value type="bool" key="RunConfiguration.UseMultiProcess">false</value>
179 <value type="bool" key="RunConfiguration.UseMultiProcess">false</value>
239 <value type="bool" key="RunConfiguration.UseQmlDebugger">false</value>
180 <value type="bool" key="RunConfiguration.UseQmlDebugger">false</value>
240 <value type="bool" key="RunConfiguration.UseQmlDebuggerAuto">false</value>
241 </valuemap>
242 <valuemap type="QVariantMap" key="ProjectExplorer.Target.RunConfiguration.1">
243 <value type="bool" key="Analyzer.Project.UseGlobal">true</value>
244 <valuelist type="QVariantList" key="Analyzer.Valgrind.AddedSuppressionFiles"/>
245 <value type="bool" key="Analyzer.Valgrind.Callgrind.CollectBusEvents">false</value>
246 <value type="bool" key="Analyzer.Valgrind.Callgrind.CollectSystime">false</value>
247 <value type="bool" key="Analyzer.Valgrind.Callgrind.EnableBranchSim">false</value>
248 <value type="bool" key="Analyzer.Valgrind.Callgrind.EnableCacheSim">false</value>
249 <value type="bool" key="Analyzer.Valgrind.Callgrind.EnableEventToolTips">true</value>
250 <value type="double" key="Analyzer.Valgrind.Callgrind.MinimumCostRatio">0.01</value>
251 <value type="double" key="Analyzer.Valgrind.Callgrind.VisualisationMinimumCostRatio">10</value>
252 <value type="bool" key="Analyzer.Valgrind.FilterExternalIssues">true</value>
253 <value type="int" key="Analyzer.Valgrind.NumCallers">25</value>
254 <valuelist type="QVariantList" key="Analyzer.Valgrind.RemovedSuppressionFiles"/>
255 <value type="bool" key="Analyzer.Valgrind.TrackOrigins">true</value>
256 <value type="QString" key="Analyzer.Valgrind.ValgrindExecutable">valgrind</value>
257 <valuelist type="QVariantList" key="Analyzer.Valgrind.VisibleErrorKinds">
258 <value type="int">0</value>
259 <value type="int">1</value>
260 <value type="int">2</value>
261 <value type="int">3</value>
262 <value type="int">4</value>
263 <value type="int">5</value>
264 <value type="int">6</value>
265 <value type="int">7</value>
266 <value type="int">8</value>
267 <value type="int">9</value>
268 <value type="int">10</value>
269 <value type="int">11</value>
270 <value type="int">12</value>
271 <value type="int">13</value>
272 <value type="int">14</value>
273 </valuelist>
274 <value type="int" key="PE.EnvironmentAspect.Base">2</value>
275 <valuelist type="QVariantList" key="PE.EnvironmentAspect.Changes"/>
276 <value type="QString" key="ProjectExplorer.CustomExecutableRunConfiguration.Arguments"></value>
277 <value type="QString" key="ProjectExplorer.CustomExecutableRunConfiguration.Executable">doxygen</value>
278 <value type="bool" key="ProjectExplorer.CustomExecutableRunConfiguration.UseTerminal">true</value>
279 <value type="QString" key="ProjectExplorer.CustomExecutableRunConfiguration.WorkingDirectory">/opt/DEV_PLE/doc</value>
280 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">Run doxygen</value>
281 <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
282 <value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">ProjectExplorer.CustomExecutableRunConfiguration</value>
283 <value type="uint" key="RunConfiguration.QmlDebugServerPort">3768</value>
284 <value type="bool" key="RunConfiguration.UseCppDebugger">true</value>
285 <value type="bool" key="RunConfiguration.UseCppDebuggerAuto">false</value>
286 <value type="bool" key="RunConfiguration.UseMultiProcess">false</value>
287 <value type="bool" key="RunConfiguration.UseQmlDebugger">false</value>
288 <value type="bool" key="RunConfiguration.UseQmlDebuggerAuto">true</value>
181 <value type="bool" key="RunConfiguration.UseQmlDebuggerAuto">true</value>
289 </valuemap>
182 </valuemap>
290 <value type="int" key="ProjectExplorer.Target.RunConfigurationCount">2</value>
183 <value type="int" key="ProjectExplorer.Target.RunConfigurationCount">1</value>
291 </valuemap>
184 </valuemap>
292 </data>
185 </data>
293 <data>
186 <data>
294 <variable>ProjectExplorer.Project.TargetCount</variable>
187 <variable>ProjectExplorer.Project.TargetCount</variable>
295 <value type="int">1</value>
188 <value type="int">1</value>
296 </data>
189 </data>
297 <data>
190 <data>
298 <variable>ProjectExplorer.Project.Updater.EnvironmentId</variable>
191 <variable>ProjectExplorer.Project.Updater.EnvironmentId</variable>
299 <value type="QByteArray">{2e58a81f-9962-4bba-ae6b-760177f0656c}</value>
192 <value type="QByteArray">{cdbf9cdc-1e84-406e-889b-c4feef49e75c}</value>
300 </data>
193 </data>
301 <data>
194 <data>
302 <variable>ProjectExplorer.Project.Updater.FileVersion</variable>
195 <variable>ProjectExplorer.Project.Updater.FileVersion</variable>
303 <value type="int">14</value>
196 <value type="int">14</value>
304 </data>
197 </data>
305 </qtcreator>
198 </qtcreator>
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@@ -1,661 +1,600
1 #ifndef CCSDS_TYPES_H_INCLUDED
1 #ifndef CCSDS_TYPES_H_INCLUDED
2 #define CCSDS_TYPES_H_INCLUDED
2 #define CCSDS_TYPES_H_INCLUDED
3
3
4 #define CCSDS_PROTOCOLE_EXTRA_BYTES 4
4 #define CCSDS_PROTOCOLE_EXTRA_BYTES 4
5 #define CCSDS_TELEMETRY_HEADER_LENGTH 16+4
5 #define CCSDS_TELEMETRY_HEADER_LENGTH 16+4
6 #define CCSDS_TM_PKT_MAX_SIZE 4412
6 #define CCSDS_TM_PKT_MAX_SIZE 4412
7 #define CCSDS_TELECOMMAND_HEADER_LENGTH 10+4
7 #define CCSDS_TELECOMMAND_HEADER_LENGTH 10+4
8 #define CCSDS_TC_PKT_MAX_SIZE 256
8 #define CCSDS_TC_PKT_MAX_SIZE 256
9 #define CCSDS_TC_PKT_MIN_SIZE 16
9 #define CCSDS_TC_PKT_MIN_SIZE 16
10 #define CCSDS_TC_TM_PACKET_OFFSET 7
10 #define CCSDS_TC_TM_PACKET_OFFSET 7
11 #define CCSDS_PROCESS_ID 76
11 #define CCSDS_PROCESS_ID 76
12 #define CCSDS_PACKET_CATEGORY 12
12 #define CCSDS_PACKET_CATEGORY 12
13 #define CCSDS_NODE_ADDRESS 0xfe
13 #define CCSDS_NODE_ADDRESS 0xfe
14 #define CCSDS_USER_APP 0x00
14 #define CCSDS_USER_APP 0x00
15
15
16 #define DEFAULT_SPARE1_PUSVERSION_SPARE2 0x10
16 #define DEFAULT_SPARE1_PUSVERSION_SPARE2 0x10
17 #define DEFAULT_RESERVED 0x00
17 #define DEFAULT_RESERVED 0x00
18 #define DEFAULT_HKBIA 0x1e // 0001 1110
18 #define DEFAULT_HKBIA 0x1e // 0001 1110
19
19
20 // PACKET ID
20 // PACKET ID
21 #define TM_PACKET_ID_TC_EXE 0x0cc1 // PID 76 CAT 1
21 #define TM_PACKET_ID_TC_EXE 0x0cc1 // PID 76 CAT 1
22 #define TM_PACKET_ID_HK 0x0cc4 // PID 76 CAT 4
22 #define TM_PACKET_ID_HK 0x0cc4 // PID 76 CAT 4
23 #define TM_PACKET_ID_PARAMETER_DUMP 0x0cc9 // PID 76 CAT 9
23 #define TM_PACKET_ID_PARAMETER_DUMP 0x0cc9 // PID 76 CAT 9
24 #define TM_PACKET_ID_SCIENCE_NORMAL_BURST 0x0ccc // PID 76 CAT 12
24 #define TM_PACKET_ID_SCIENCE_NORMAL_BURST 0x0ccc // PID 76 CAT 12
25 #define TM_PACKET_ID_SCIENCE_SBM1_SBM2 0x0cfc // PID 79 CAT 12
25 #define TM_PACKET_ID_SCIENCE_SBM1_SBM2 0x0cfc // PID 79 CAT 12
26 #define TM_PACKET_PID_DEFAULT 76
26 #define TM_PACKET_PID_DEFAULT 76
27 #define TM_PACKET_PID_BURST_SBM1_SBM2 79
27 #define TM_PACKET_PID_BURST_SBM1_SBM2 79
28 #define TM_PACKET_CAT_TC_EXE 1
28 #define TM_PACKET_CAT_TC_EXE 1
29 #define TM_PACKET_CAT_HK 4
29 #define TM_PACKET_CAT_HK 4
30 #define TM_PACKET_CAT_PARAMETER_DUMP 9
30 #define TM_PACKET_CAT_PARAMETER_DUMP 9
31 #define TM_PACKET_CAT_SCIENCE 12
31 #define TM_PACKET_CAT_SCIENCE 12
32
32
33 // PACKET SEQUENCE CONTROL
33 // PACKET SEQUENCE CONTROL
34 #define TM_PACKET_SEQ_CTRL_CONTINUATION 0x00 // [0000 0000]
34 #define TM_PACKET_SEQ_CTRL_CONTINUATION 0x00 // [0000 0000]
35 #define TM_PACKET_SEQ_CTRL_FIRST 0x40 // [0100 0000]
35 #define TM_PACKET_SEQ_CTRL_FIRST 0x40 // [0100 0000]
36 #define TM_PACKET_SEQ_CTRL_LAST 0x80 // [1000 0000]
36 #define TM_PACKET_SEQ_CTRL_LAST 0x80 // [1000 0000]
37 #define TM_PACKET_SEQ_CTRL_STANDALONE 0xc0 // [1100 0000]
37 #define TM_PACKET_SEQ_CTRL_STANDALONE 0xc0 // [1100 0000]
38 #define TM_PACKET_SEQ_CNT_DEFAULT 0x00 // [0000 0000]
38 #define TM_PACKET_SEQ_CNT_DEFAULT 0x00 // [0000 0000]
39
39
40 // DESTINATION ID
40 // DESTINATION ID
41 #define TM_DESTINATION_ID_GROUND 0
41 #define TM_DESTINATION_ID_GROUND 0
42 #define TM_DESTINATION_ID_MISSION_TIMELINE 110
42 #define TM_DESTINATION_ID_MISSION_TIMELINE 110
43 #define TM_DESTINATION_ID_TC_SEQUENCES 111
43 #define TM_DESTINATION_ID_TC_SEQUENCES 111
44 #define TM_DESTINATION_ID_RECOVERY_ACTION_COMMAND 112
44 #define TM_DESTINATION_ID_RECOVERY_ACTION_COMMAND 112
45 #define TM_DESTINATION_ID_BACKUP_MISSION_TIMELINE 113
45 #define TM_DESTINATION_ID_BACKUP_MISSION_TIMELINE 113
46 #define TM_DESTINATION_ID_DIRECT_CMD 120
46 #define TM_DESTINATION_ID_DIRECT_CMD 120
47 #define TM_DESTINATION_ID_SPARE_GRD_SRC1 121
47 #define TM_DESTINATION_ID_SPARE_GRD_SRC1 121
48 #define TM_DESTINATION_ID_SPARE_GRD_SRC2 122
48 #define TM_DESTINATION_ID_SPARE_GRD_SRC2 122
49 #define TM_DESTINATION_ID_OBCP 15
49 #define TM_DESTINATION_ID_OBCP 15
50 #define TM_DESTINATION_ID_SYSTEM_CONTROL 14
50 #define TM_DESTINATION_ID_SYSTEM_CONTROL 14
51 #define TM_DESTINATION_ID_AOCS 11
51 #define TM_DESTINATION_ID_AOCS 11
52
52
53 #define CCSDS_DESTINATION_ID 0x01
53 #define CCSDS_DESTINATION_ID 0x01
54 #define CCSDS_PROTOCOLE_ID 0x02
54 #define CCSDS_PROTOCOLE_ID 0x02
55 #define CCSDS_RESERVED 0x00
55 #define CCSDS_RESERVED 0x00
56 #define CCSDS_USER_APP 0x00
56 #define CCSDS_USER_APP 0x00
57
57
58 #define SIZE_TM_LFR_TC_EXE_NOT_IMPLEMENTED 24
58 #define SIZE_TM_LFR_TC_EXE_NOT_IMPLEMENTED 24
59 #define SIZE_TM_LFR_TC_EXE_CORRUPTED 32
59 #define SIZE_TM_LFR_TC_EXE_CORRUPTED 32
60 #define SIZE_HK_PARAMETERS 112
60 #define SIZE_HK_PARAMETERS 112
61
61
62 // TC TYPES
62 // TC TYPES
63 #define TC_TYPE_GEN 181
63 #define TC_TYPE_GEN 181
64 #define TC_TYPE_TIME 9
64 #define TC_TYPE_TIME 9
65
65
66 // TC SUBTYPES
66 // TC SUBTYPES
67 #define TC_SUBTYPE_RESET 1
67 #define TC_SUBTYPE_RESET 1
68 #define TC_SUBTYPE_LOAD_COMM 11
68 #define TC_SUBTYPE_LOAD_COMM 11
69 #define TC_SUBTYPE_LOAD_NORM 13
69 #define TC_SUBTYPE_LOAD_NORM 13
70 #define TC_SUBTYPE_LOAD_BURST 19
70 #define TC_SUBTYPE_LOAD_BURST 19
71 #define TC_SUBTYPE_LOAD_SBM1 25
71 #define TC_SUBTYPE_LOAD_SBM1 25
72 #define TC_SUBTYPE_LOAD_SBM2 27
72 #define TC_SUBTYPE_LOAD_SBM2 27
73 #define TC_SUBTYPE_DUMP 31
73 #define TC_SUBTYPE_DUMP 31
74 #define TC_SUBTYPE_ENTER 41
74 #define TC_SUBTYPE_ENTER 41
75 #define TC_SUBTYPE_UPDT_INFO 51
75 #define TC_SUBTYPE_UPDT_INFO 51
76 #define TC_SUBTYPE_EN_CAL 61
76 #define TC_SUBTYPE_EN_CAL 61
77 #define TC_SUBTYPE_DIS_CAL 63
77 #define TC_SUBTYPE_DIS_CAL 63
78 #define TC_SUBTYPE_UPDT_TIME 129
78 #define TC_SUBTYPE_UPDT_TIME 129
79
79
80 // TC LEN
80 // TC LEN
81 #define TC_LEN_RESET 12
81 #define TC_LEN_RESET 12
82 #define TC_LEN_LOAD_COMM 14
82 #define TC_LEN_LOAD_COMM 14
83 #define TC_LEN_LOAD_NORM 20
83 #define TC_LEN_LOAD_NORM 20
84 #define TC_LEN_LOAD_BURST 14
84 #define TC_LEN_LOAD_BURST 14
85 #define TC_LEN_LOAD_SBM1 14
85 #define TC_LEN_LOAD_SBM1 14
86 #define TC_LEN_LOAD_SBM2 14
86 #define TC_LEN_LOAD_SBM2 14
87 #define TC_LEN_DUMP 12
87 #define TC_LEN_DUMP 12
88 #define TC_LEN_ENTER 20
88 #define TC_LEN_ENTER 20
89 #define TC_LEN_UPDT_INFO 48
89 #define TC_LEN_UPDT_INFO 48
90 #define TC_LEN_EN_CAL 12
90 #define TC_LEN_EN_CAL 12
91 #define TC_LEN_DIS_CAL 12
91 #define TC_LEN_DIS_CAL 12
92 #define TC_LEN_UPDT_TIME 18
92 #define TC_LEN_UPDT_TIME 18
93
93
94 // TM TYPES
94 // TM TYPES
95 #define TM_TYPE_TC_EXE 1
95 #define TM_TYPE_TC_EXE 1
96 #define TM_TYPE_HK 3
96 #define TM_TYPE_HK 3
97 #define TM_TYPE_PARAMETER_DUMP 3
97 #define TM_TYPE_PARAMETER_DUMP 3
98 #define TM_TYPE_LFR_SCIENCE 21
98 #define TM_TYPE_LFR_SCIENCE 21
99
99
100 // TM SUBTYPES
100 // TM SUBTYPES
101 #define TM_SUBTYPE_EXE_OK 7
101 #define TM_SUBTYPE_EXE_OK 7
102 #define TM_SUBTYPE_EXE_NOK 8
102 #define TM_SUBTYPE_EXE_NOK 8
103 #define TM_SUBTYPE_HK 25
103 #define TM_SUBTYPE_HK 25
104 #define TM_SUBTYPE_PARAMETER_DUMP 25
104 #define TM_SUBTYPE_PARAMETER_DUMP 25
105 #define TM_SUBTYPE_SCIENCE 3
105 #define TM_SUBTYPE_SCIENCE 3
106 #define TM_SUBTYPE_LFR_SCIENCE 3
106 #define TM_SUBTYPE_LFR_SCIENCE 3
107
107
108 // FAILURE CODES
108 // FAILURE CODES
109 #define ILLEGAL_APID 0
109 #define ILLEGAL_APID 0
110 #define WRONG_LEN_PKT 1
110 #define WRONG_LEN_PKT 1
111 #define INCOR_CHECKSUM 2
111 #define INCOR_CHECKSUM 2
112 #define ILL_TYPE 3
112 #define ILL_TYPE 3
113 #define ILL_SUBTYPE 4
113 #define ILL_SUBTYPE 4
114 #define WRONG_APP_DATA 5 // 0x00 0x05
114 #define WRONG_APP_DATA 5 // 0x00 0x05
115 #define TC_NOT_EXE 42000 // 0xa4 0x10
115 #define TC_NOT_EXE 42000 // 0xa4 0x10
116 #define WRONG_SRC_ID 42001 // 0xa4 0x11
116 #define WRONG_SRC_ID 42001 // 0xa4 0x11
117 #define FUNCT_NOT_IMPL 42002 // 0xa4 0x12
117 #define FUNCT_NOT_IMPL 42002 // 0xa4 0x12
118 #define FAIL_DETECTED 42003 // 0xa4 0x13
118 #define FAIL_DETECTED 42003 // 0xa4 0x13
119 #define NOT_ALLOWED 42004 // 0xa4 0x14
119 #define NOT_ALLOWED 42004 // 0xa4 0x14
120 #define CORRUPTED 42005 // 0xa4 0x15
120 #define CORRUPTED 42005 // 0xa4 0x15
121 #define CCSDS_TM_VALID 7
121 #define CCSDS_TM_VALID 7
122
122
123 // TC SID
123 // TC SID
124 #define SID_TC_GROUND 0
124 #define SID_TC_GROUND 0
125 #define SID_TC_MISSION_TIMELINE 110
125 #define SID_TC_MISSION_TIMELINE 110
126 #define SID_TC_TC_SEQUENCES 111
126 #define SID_TC_TC_SEQUENCES 111
127 #define SID_TC_RECOVERY_ACTION_CMD 112
127 #define SID_TC_RECOVERY_ACTION_CMD 112
128 #define SID_TC_BACKUP_MISSION_TIMELINE 113
128 #define SID_TC_BACKUP_MISSION_TIMELINE 113
129 #define SID_TC_DIRECT_CMD 120
129 #define SID_TC_DIRECT_CMD 120
130 #define SID_TC_SPARE_GRD_SRC1 121
130 #define SID_TC_SPARE_GRD_SRC1 121
131 #define SID_TC_SPARE_GRD_SRC2 122
131 #define SID_TC_SPARE_GRD_SRC2 122
132 #define SID_TC_OBCP 15
132 #define SID_TC_OBCP 15
133 #define SID_TC_SYSTEM_CONTROL 14
133 #define SID_TC_SYSTEM_CONTROL 14
134 #define SID_TC_AOCS 11
134 #define SID_TC_AOCS 11
135 #define SID_TC_RPW_INTERNAL 254
135 #define SID_TC_RPW_INTERNAL 254
136
136
137 enum apid_destid{
137 enum apid_destid{
138 GROUND,
138 GROUND,
139 MISSION_TIMELINE,
139 MISSION_TIMELINE,
140 TC_SEQUENCES,
140 TC_SEQUENCES,
141 RECOVERY_ACTION_CMD,
141 RECOVERY_ACTION_CMD,
142 BACKUP_MISSION_TIMELINE,
142 BACKUP_MISSION_TIMELINE,
143 DIRECT_CMD,
143 DIRECT_CMD,
144 SPARE_GRD_SRC1,
144 SPARE_GRD_SRC1,
145 SPARE_GRD_SRC2,
145 SPARE_GRD_SRC2,
146 OBCP,
146 OBCP,
147 SYSTEM_CONTROL,
147 SYSTEM_CONTROL,
148 AOCS,
148 AOCS,
149 RPW_INTERNAL,
149 RPW_INTERNAL,
150 UNKNOWN
150 UNKNOWN
151 };
151 };
152 // SEQUENCE COUNTERS
152 // SEQUENCE COUNTERS
153 #define SEQ_CNT_MAX 16383
153 #define SEQ_CNT_MAX 16383
154 #define SEQ_CNT_NB_DEST_ID 12
154 #define SEQ_CNT_NB_DEST_ID 12
155
155
156 // TM SID
156 // TM SID
157 #define SID_HK 1
157 #define SID_HK 1
158 #define SID_PARAMETER_DUMP 10
158 #define SID_PARAMETER_DUMP 10
159
159
160 #define SID_NORM_SWF_F0 3
160 #define SID_NORM_SWF_F0 3
161 #define SID_NORM_SWF_F1 4
161 #define SID_NORM_SWF_F1 4
162 #define SID_NORM_SWF_F2 5
162 #define SID_NORM_SWF_F2 5
163 #define SID_NORM_CWF_F3 1
163 #define SID_NORM_CWF_F3 1
164 #define SID_BURST_CWF_F2 2
164 #define SID_BURST_CWF_F2 2
165 #define SID_SBM1_CWF_F1 24
165 #define SID_SBM1_CWF_F1 24
166 #define SID_SBM2_CWF_F2 25
166 #define SID_SBM2_CWF_F2 25
167 #define SID_NORM_ASM_F0 11
167 #define SID_NORM_ASM_F0 11
168 #define SID_NORM_ASM_F1 12
168 #define SID_NORM_ASM_F1 12
169 #define SID_NORM_ASM_F2 13
169 #define SID_NORM_ASM_F2 13
170 #define SID_NORM_BP1_F0 14
170 #define SID_NORM_BP1_F0 14
171 #define SID_NORM_BP1_F1 15
171 #define SID_NORM_BP1_F1 15
172 #define SID_NORM_BP1_F2 16
172 #define SID_NORM_BP1_F2 16
173 #define SID_NORM_BP2_F0 19
173 #define SID_NORM_BP2_F0 19
174 #define SID_NORM_BP2_F1 20
174 #define SID_NORM_BP2_F1 20
175 #define SID_NORM_BP2_F2 21
175 #define SID_NORM_BP2_F2 21
176 #define SID_BURST_BP1_F0 17
176 #define SID_BURST_BP1_F0 17
177 #define SID_BURST_BP2_F0 22
177 #define SID_BURST_BP2_F0 22
178 #define SID_BURST_BP1_F1 18
178 #define SID_BURST_BP1_F1 18
179 #define SID_BURST_BP2_F1 23
179 #define SID_BURST_BP2_F1 23
180 #define SID_SBM1_BP1_F0 28
180 #define SID_SBM1_BP1_F0 28
181 #define SID_SBM1_BP2_F0 31
181 #define SID_SBM1_BP2_F0 31
182 #define SID_SBM2_BP1_F0 29
182 #define SID_SBM2_BP1_F0 29
183 #define SID_SBM2_BP2_F0 32
183 #define SID_SBM2_BP2_F0 32
184 #define SID_SBM2_BP1_F1 30
184 #define SID_SBM2_BP1_F1 30
185 #define SID_SBM2_BP2_F1 33
185 #define SID_SBM2_BP2_F1 33
186
186
187 // LENGTH (BYTES)
187 // LENGTH (BYTES)
188 #define LENGTH_TM_LFR_TC_EXE_MAX 32
188 #define LENGTH_TM_LFR_TC_EXE_MAX 32
189 #define LENGTH_TM_LFR_HK 126
189 #define LENGTH_TM_LFR_HK 126
190
190
191 // HEADER_LENGTH
191 // HEADER_LENGTH
192 #define TM_HEADER_LEN 16
192 #define TM_HEADER_LEN 16
193 #define HEADER_LENGTH_TM_LFR_SCIENCE_ASM 28
193 #define HEADER_LENGTH_TM_LFR_SCIENCE_ASM 28
194 // PACKET_LENGTH
194 // PACKET_LENGTH
195 #define PACKET_LENGTH_TC_EXE_SUCCESS (20 - CCSDS_TC_TM_PACKET_OFFSET)
195 #define PACKET_LENGTH_TC_EXE_SUCCESS (20 - CCSDS_TC_TM_PACKET_OFFSET)
196 #define PACKET_LENGTH_TC_EXE_INCONSISTENT (26 - CCSDS_TC_TM_PACKET_OFFSET)
196 #define PACKET_LENGTH_TC_EXE_INCONSISTENT (26 - CCSDS_TC_TM_PACKET_OFFSET)
197 #define PACKET_LENGTH_TC_EXE_NOT_EXECUTABLE (26 - CCSDS_TC_TM_PACKET_OFFSET)
197 #define PACKET_LENGTH_TC_EXE_NOT_EXECUTABLE (26 - CCSDS_TC_TM_PACKET_OFFSET)
198 #define PACKET_LENGTH_TC_EXE_NOT_IMPLEMENTED (24 - CCSDS_TC_TM_PACKET_OFFSET)
198 #define PACKET_LENGTH_TC_EXE_NOT_IMPLEMENTED (24 - CCSDS_TC_TM_PACKET_OFFSET)
199 #define PACKET_LENGTH_TC_EXE_ERROR (24 - CCSDS_TC_TM_PACKET_OFFSET)
199 #define PACKET_LENGTH_TC_EXE_ERROR (24 - CCSDS_TC_TM_PACKET_OFFSET)
200 #define PACKET_LENGTH_TC_EXE_CORRUPTED (32 - CCSDS_TC_TM_PACKET_OFFSET)
200 #define PACKET_LENGTH_TC_EXE_CORRUPTED (32 - CCSDS_TC_TM_PACKET_OFFSET)
201 #define PACKET_LENGTH_HK (126 - CCSDS_TC_TM_PACKET_OFFSET)
201 #define PACKET_LENGTH_HK (126 - CCSDS_TC_TM_PACKET_OFFSET)
202 #define PACKET_LENGTH_PARAMETER_DUMP (34 - CCSDS_TC_TM_PACKET_OFFSET)
202 #define PACKET_LENGTH_PARAMETER_DUMP (34 - CCSDS_TC_TM_PACKET_OFFSET)
203 #define PACKET_LENGTH_TM_LFR_SCIENCE_ASM (TOTAL_SIZE_SM + HEADER_LENGTH_TM_LFR_SCIENCE_ASM - CCSDS_TC_TM_PACKET_OFFSET)
203 #define PACKET_LENGTH_TM_LFR_SCIENCE_ASM (TOTAL_SIZE_SM + HEADER_LENGTH_TM_LFR_SCIENCE_ASM - CCSDS_TC_TM_PACKET_OFFSET)
204
204
205 #define SPARE1_PUSVERSION_SPARE2 0x10
205 #define SPARE1_PUSVERSION_SPARE2 0x10
206
206
207 #define LEN_TM_LFR_HK 130 // 126 + 4
207 #define LEN_TM_LFR_HK 130 // 126 + 4
208 #define LEN_TM_LFR_TC_EXE_NOT_IMP 28 // 24 + 4
208 #define LEN_TM_LFR_TC_EXE_NOT_IMP 28 // 24 + 4
209
209
210 #define TM_LEN_SCI_SWF_340 4101 // 340 * 12 + 10 + 12 - 1
210 #define TM_LEN_SCI_SWF_340 4101 // 340 * 12 + 10 + 12 - 1
211 #define TM_LEN_SCI_SWF_8 117 // 8 * 12 + 10 + 12 - 1
211 #define TM_LEN_SCI_SWF_8 117 // 8 * 12 + 10 + 12 - 1
212 #define TM_LEN_SCI_CWF_340 4099 // 340 * 12 + 10 + 10 - 1
212 #define TM_LEN_SCI_CWF_340 4099 // 340 * 12 + 10 + 10 - 1
213 #define TM_LEN_SCI_CWF_8 115 // 8 * 12 + 10 + 10 - 1
213 #define TM_LEN_SCI_CWF_8 115 // 8 * 12 + 10 + 10 - 1
214 #define TM_LEN_SCI_CWF3_LIGHT_340 2059 // 340 * 6 + 10 + 10 - 1
214 #define TM_LEN_SCI_CWF3_LIGHT_340 2059 // 340 * 6 + 10 + 10 - 1
215 #define TM_LEN_SCI_CWF3_LIGHT_8 67 // 8 * 6 + 10 + 10 - 1
215 #define TM_LEN_SCI_CWF3_LIGHT_8 67 // 8 * 6 + 10 + 10 - 1
216 #define DEFAULT_PKTCNT 0x07
216 #define DEFAULT_PKTCNT 0x07
217 #define BLK_NR_340 0x0154
217 #define BLK_NR_340 0x0154
218 #define BLK_NR_8 0x0008
218 #define BLK_NR_8 0x0008
219
219
220 enum TM_TYPE{
220 enum TM_TYPE{
221 TM_LFR_TC_EXE_OK,
221 TM_LFR_TC_EXE_OK,
222 TM_LFR_TC_EXE_ERR,
222 TM_LFR_TC_EXE_ERR,
223 TM_LFR_HK,
223 TM_LFR_HK,
224 TM_LFR_SCI,
224 TM_LFR_SCI,
225 TM_LFR_SCI_SBM,
225 TM_LFR_SCI_SBM,
226 TM_LFR_PAR_DUMP
226 TM_LFR_PAR_DUMP
227 };
227 };
228
228
229 struct TMHeader_str
229 typedef struct {
230 {
231 unsigned char targetLogicalAddress;
232 unsigned char protocolIdentifier;
233 unsigned char reserved;
234 unsigned char userApplication;
235 unsigned char packetID[2];
236 unsigned char packetSequenceControl[2];
237 unsigned char packetLength[2];
238 // DATA FIELD HEADER
239 unsigned char spare1_pusVersion_spare2;
240 unsigned char serviceType;
241 unsigned char serviceSubType;
242 unsigned char destinationID;
243 unsigned char time[6];
244 };
245 typedef struct TMHeader_str TMHeader_t;
246
247 struct Packet_TM_LFR_TC_EXE_str
248 {
249 unsigned char targetLogicalAddress;
250 unsigned char protocolIdentifier;
251 unsigned char reserved;
252 unsigned char userApplication;
253 unsigned char packetID[2];
254 unsigned char packetSequenceControl[2];
255 unsigned char packetLength[2];
256 // DATA FIELD HEADER
257 unsigned char spare1_pusVersion_spare2;
258 unsigned char serviceType;
259 unsigned char serviceSubType;
260 unsigned char destinationID;
261 unsigned char time[6];
262 unsigned char data[LENGTH_TM_LFR_TC_EXE_MAX - 10 + 1];
263 };
264 typedef struct Packet_TM_LFR_TC_EXE_str Packet_TM_LFR_TC_EXE_t;
265
266 struct Packet_TM_LFR_TC_EXE_SUCCESS_str
267 {
268 unsigned char targetLogicalAddress;
230 unsigned char targetLogicalAddress;
269 unsigned char protocolIdentifier;
231 unsigned char protocolIdentifier;
270 unsigned char reserved;
232 unsigned char reserved;
271 unsigned char userApplication;
233 unsigned char userApplication;
272 // PACKET HEADER
234 // PACKET HEADER
273 unsigned char packetID[2];
235 unsigned char packetID[2];
274 unsigned char packetSequenceControl[2];
236 unsigned char packetSequenceControl[2];
275 unsigned char packetLength[2];
237 unsigned char packetLength[2];
276 // DATA FIELD HEADER
238 // DATA FIELD HEADER
277 unsigned char spare1_pusVersion_spare2;
239 unsigned char spare1_pusVersion_spare2;
278 unsigned char serviceType;
240 unsigned char serviceType;
279 unsigned char serviceSubType;
241 unsigned char serviceSubType;
280 unsigned char destinationID;
242 unsigned char destinationID;
281 unsigned char time[6];
243 unsigned char time[6];
282 //
244 //
283 unsigned char telecommand_pkt_id[2];
245 unsigned char telecommand_pkt_id[2];
284 unsigned char pkt_seq_control[2];
246 unsigned char pkt_seq_control[2];
285 };
247 } Packet_TM_LFR_TC_EXE_SUCCESS_t;
286 typedef struct Packet_TM_LFR_TC_EXE_SUCCESS_str Packet_TM_LFR_TC_EXE_SUCCESS_t;
287
248
288 struct Packet_TM_LFR_TC_EXE_INCONSISTENT_str
249 typedef struct {
289 {
290 unsigned char targetLogicalAddress;
250 unsigned char targetLogicalAddress;
291 unsigned char protocolIdentifier;
251 unsigned char protocolIdentifier;
292 unsigned char reserved;
252 unsigned char reserved;
293 unsigned char userApplication;
253 unsigned char userApplication;
294 // PACKET HEADER
254 // PACKET HEADER
295 unsigned char packetID[2];
255 unsigned char packetID[2];
296 unsigned char packetSequenceControl[2];
256 unsigned char packetSequenceControl[2];
297 unsigned char packetLength[2];
257 unsigned char packetLength[2];
298 // DATA FIELD HEADER
258 // DATA FIELD HEADER
299 unsigned char spare1_pusVersion_spare2;
259 unsigned char spare1_pusVersion_spare2;
300 unsigned char serviceType;
260 unsigned char serviceType;
301 unsigned char serviceSubType;
261 unsigned char serviceSubType;
302 unsigned char destinationID;
262 unsigned char destinationID;
303 unsigned char time[6];
263 unsigned char time[6];
304 //
264 //
305 unsigned char tc_failure_code[2];
265 unsigned char tc_failure_code[2];
306 unsigned char telecommand_pkt_id[2];
266 unsigned char telecommand_pkt_id[2];
307 unsigned char pkt_seq_control[2];
267 unsigned char pkt_seq_control[2];
308 unsigned char tc_service;
268 unsigned char tc_service;
309 unsigned char tc_subtype;
269 unsigned char tc_subtype;
310 unsigned char byte_position;
270 unsigned char byte_position;
311 unsigned char rcv_value;
271 unsigned char rcv_value;
312 };
272 } Packet_TM_LFR_TC_EXE_INCONSISTENT_t;
313 typedef struct Packet_TM_LFR_TC_EXE_INCONSISTENT_str Packet_TM_LFR_TC_EXE_INCONSISTENT_t;
314
273
315 struct Packet_TM_LFR_TC_EXE_NOT_EXECUTABLE_str
274 typedef struct {
316 {
317 unsigned char targetLogicalAddress;
275 unsigned char targetLogicalAddress;
318 unsigned char protocolIdentifier;
276 unsigned char protocolIdentifier;
319 unsigned char reserved;
277 unsigned char reserved;
320 unsigned char userApplication;
278 unsigned char userApplication;
321 // PACKET HEADER
279 // PACKET HEADER
322 unsigned char packetID[2];
280 unsigned char packetID[2];
323 unsigned char packetSequenceControl[2];
281 unsigned char packetSequenceControl[2];
324 unsigned char packetLength[2];
282 unsigned char packetLength[2];
325 // DATA FIELD HEADER
283 // DATA FIELD HEADER
326 unsigned char spare1_pusVersion_spare2;
284 unsigned char spare1_pusVersion_spare2;
327 unsigned char serviceType;
285 unsigned char serviceType;
328 unsigned char serviceSubType;
286 unsigned char serviceSubType;
329 unsigned char destinationID;
287 unsigned char destinationID;
330 unsigned char time[6];
288 unsigned char time[6];
331 //
289 //
332 unsigned char tc_failure_code[2];
290 unsigned char tc_failure_code[2];
333 unsigned char telecommand_pkt_id[2];
291 unsigned char telecommand_pkt_id[2];
334 unsigned char pkt_seq_control[2];
292 unsigned char pkt_seq_control[2];
335 unsigned char tc_service;
293 unsigned char tc_service;
336 unsigned char tc_subtype;
294 unsigned char tc_subtype;
337 unsigned char lfr_status_word[2];
295 unsigned char lfr_status_word[2];
338 };
296 } Packet_TM_LFR_TC_EXE_NOT_EXECUTABLE_t;
339 typedef struct Packet_TM_LFR_TC_EXE_NOT_EXECUTABLE_str Packet_TM_LFR_TC_EXE_NOT_EXECUTABLE_t;
340
297
341 struct Packet_TM_LFR_TC_EXE_NOT_IMPLEMENTED_str
298 typedef struct {
342 {
343 unsigned char targetLogicalAddress;
299 unsigned char targetLogicalAddress;
344 unsigned char protocolIdentifier;
300 unsigned char protocolIdentifier;
345 unsigned char reserved;
301 unsigned char reserved;
346 unsigned char userApplication;
302 unsigned char userApplication;
347 // PACKET HEADER
303 // PACKET HEADER
348 unsigned char packetID[2];
304 unsigned char packetID[2];
349 unsigned char packetSequenceControl[2];
305 unsigned char packetSequenceControl[2];
350 unsigned char packetLength[2];
306 unsigned char packetLength[2];
351 // DATA FIELD HEADER
307 // DATA FIELD HEADER
352 unsigned char spare1_pusVersion_spare2;
308 unsigned char spare1_pusVersion_spare2;
353 unsigned char serviceType;
309 unsigned char serviceType;
354 unsigned char serviceSubType;
310 unsigned char serviceSubType;
355 unsigned char destinationID;
311 unsigned char destinationID;
356 unsigned char time[6];
312 unsigned char time[6];
357 //
313 //
358 unsigned char tc_failure_code[2];
314 unsigned char tc_failure_code[2];
359 unsigned char telecommand_pkt_id[2];
315 unsigned char telecommand_pkt_id[2];
360 unsigned char pkt_seq_control[2];
316 unsigned char pkt_seq_control[2];
361 unsigned char tc_service;
317 unsigned char tc_service;
362 unsigned char tc_subtype;
318 unsigned char tc_subtype;
363 };
319 } Packet_TM_LFR_TC_EXE_NOT_IMPLEMENTED_t;
364 typedef struct Packet_TM_LFR_TC_EXE_NOT_IMPLEMENTED_str Packet_TM_LFR_TC_EXE_NOT_IMPLEMENTED_t;
365
320
366 struct Packet_TM_LFR_TC_EXE_ERROR_str
321 typedef struct {
367 {
368 unsigned char targetLogicalAddress;
322 unsigned char targetLogicalAddress;
369 unsigned char protocolIdentifier;
323 unsigned char protocolIdentifier;
370 unsigned char reserved;
324 unsigned char reserved;
371 unsigned char userApplication;
325 unsigned char userApplication;
372 // PACKET HEADER
326 // PACKET HEADER
373 unsigned char packetID[2];
327 unsigned char packetID[2];
374 unsigned char packetSequenceControl[2];
328 unsigned char packetSequenceControl[2];
375 unsigned char packetLength[2];
329 unsigned char packetLength[2];
376 // DATA FIELD HEADER
330 // DATA FIELD HEADER
377 unsigned char spare1_pusVersion_spare2;
331 unsigned char spare1_pusVersion_spare2;
378 unsigned char serviceType;
332 unsigned char serviceType;
379 unsigned char serviceSubType;
333 unsigned char serviceSubType;
380 unsigned char destinationID;
334 unsigned char destinationID;
381 unsigned char time[6];
335 unsigned char time[6];
382 //
336 //
383 unsigned char tc_failure_code[2];
337 unsigned char tc_failure_code[2];
384 unsigned char telecommand_pkt_id[2];
338 unsigned char telecommand_pkt_id[2];
385 unsigned char pkt_seq_control[2];
339 unsigned char pkt_seq_control[2];
386 unsigned char tc_service;
340 unsigned char tc_service;
387 unsigned char tc_subtype;
341 unsigned char tc_subtype;
388 };
342 } Packet_TM_LFR_TC_EXE_ERROR_t;
389 typedef struct Packet_TM_LFR_TC_EXE_ERROR_str Packet_TM_LFR_TC_EXE_ERROR_t;
390
343
391 struct Packet_TM_LFR_TC_EXE_CORRUPTED_str
344 typedef struct {
392 {
393 unsigned char targetLogicalAddress;
345 unsigned char targetLogicalAddress;
394 unsigned char protocolIdentifier;
346 unsigned char protocolIdentifier;
395 unsigned char reserved;
347 unsigned char reserved;
396 unsigned char userApplication;
348 unsigned char userApplication;
397 // PACKET HEADER
349 // PACKET HEADER
398 unsigned char packetID[2];
350 unsigned char packetID[2];
399 unsigned char packetSequenceControl[2];
351 unsigned char packetSequenceControl[2];
400 unsigned char packetLength[2];
352 unsigned char packetLength[2];
401 // DATA FIELD HEADER
353 // DATA FIELD HEADER
402 unsigned char spare1_pusVersion_spare2;
354 unsigned char spare1_pusVersion_spare2;
403 unsigned char serviceType;
355 unsigned char serviceType;
404 unsigned char serviceSubType;
356 unsigned char serviceSubType;
405 unsigned char destinationID;
357 unsigned char destinationID;
406 unsigned char time[6];
358 unsigned char time[6];
407 //
359 //
408 unsigned char tc_failure_code[2];
360 unsigned char tc_failure_code[2];
409 unsigned char telecommand_pkt_id[2];
361 unsigned char telecommand_pkt_id[2];
410 unsigned char pkt_seq_control[2];
362 unsigned char pkt_seq_control[2];
411 unsigned char tc_service;
363 unsigned char tc_service;
412 unsigned char tc_subtype;
364 unsigned char tc_subtype;
413 unsigned char pkt_len_rcv_value[2];
365 unsigned char pkt_len_rcv_value[2];
414 unsigned char pkt_datafieldsize_cnt[2];
366 unsigned char pkt_datafieldsize_cnt[2];
415 unsigned char rcv_crc[2];
367 unsigned char rcv_crc[2];
416 unsigned char computed_crc[2];
368 unsigned char computed_crc[2];
417 };
369 } Packet_TM_LFR_TC_EXE_CORRUPTED_t;
418 typedef struct Packet_TM_LFR_TC_EXE_CORRUPTED_str Packet_TM_LFR_TC_EXE_CORRUPTED_t;
419
370
420 struct Header_TM_LFR_SCIENCE_SWF_str
371 typedef struct {
421 {
422 unsigned char targetLogicalAddress;
372 unsigned char targetLogicalAddress;
423 unsigned char protocolIdentifier;
373 unsigned char protocolIdentifier;
424 unsigned char reserved;
374 unsigned char reserved;
425 unsigned char userApplication;
375 unsigned char userApplication;
426 unsigned char packetID[2];
376 unsigned char packetID[2];
427 unsigned char packetSequenceControl[2];
377 unsigned char packetSequenceControl[2];
428 unsigned char packetLength[2];
378 unsigned char packetLength[2];
429 // DATA FIELD HEADER
379 // DATA FIELD HEADER
430 unsigned char spare1_pusVersion_spare2;
380 unsigned char spare1_pusVersion_spare2;
431 unsigned char serviceType;
381 unsigned char serviceType;
432 unsigned char serviceSubType;
382 unsigned char serviceSubType;
433 unsigned char destinationID;
383 unsigned char destinationID;
434 unsigned char time[6];
384 unsigned char time[6];
435 // AUXILIARY HEADER
385 // AUXILIARY HEADER
436 unsigned char sid;
386 unsigned char sid;
437 unsigned char hkBIA;
387 unsigned char hkBIA;
438 unsigned char pktCnt;
388 unsigned char pktCnt;
439 unsigned char pktNr;
389 unsigned char pktNr;
440 unsigned char acquisitionTime[6];
390 unsigned char acquisitionTime[6];
441 unsigned char blkNr[2];
391 unsigned char blkNr[2];
442 };
392 } Header_TM_LFR_SCIENCE_SWF_t;
443 typedef struct Header_TM_LFR_SCIENCE_SWF_str Header_TM_LFR_SCIENCE_SWF_t;
444
393
445 struct Header_TM_LFR_SCIENCE_CWF_str
394 typedef struct {
446 {
447 unsigned char targetLogicalAddress;
395 unsigned char targetLogicalAddress;
448 unsigned char protocolIdentifier;
396 unsigned char protocolIdentifier;
449 unsigned char reserved;
397 unsigned char reserved;
450 unsigned char userApplication;
398 unsigned char userApplication;
451 unsigned char packetID[2];
399 unsigned char packetID[2];
452 unsigned char packetSequenceControl[2];
400 unsigned char packetSequenceControl[2];
453 unsigned char packetLength[2];
401 unsigned char packetLength[2];
454 // DATA FIELD HEADER
402 // DATA FIELD HEADER
455 unsigned char spare1_pusVersion_spare2;
403 unsigned char spare1_pusVersion_spare2;
456 unsigned char serviceType;
404 unsigned char serviceType;
457 unsigned char serviceSubType;
405 unsigned char serviceSubType;
458 unsigned char destinationID;
406 unsigned char destinationID;
459 unsigned char time[6];
407 unsigned char time[6];
460 // AUXILIARY DATA HEADER
408 // AUXILIARY DATA HEADER
461 unsigned char sid;
409 unsigned char sid;
462 unsigned char hkBIA;
410 unsigned char hkBIA;
463 unsigned char acquisitionTime[6];
411 unsigned char acquisitionTime[6];
464 unsigned char blkNr[2];
412 unsigned char blkNr[2];
465 };
413 } Header_TM_LFR_SCIENCE_CWF_t;
466 typedef struct Header_TM_LFR_SCIENCE_CWF_str Header_TM_LFR_SCIENCE_CWF_t;
467
414
468 struct Header_TM_LFR_SCIENCE_ASM_str
415 typedef struct {
469 {
470 unsigned char targetLogicalAddress;
416 unsigned char targetLogicalAddress;
471 unsigned char protocolIdentifier;
417 unsigned char protocolIdentifier;
472 unsigned char reserved;
418 unsigned char reserved;
473 unsigned char userApplication;
419 unsigned char userApplication;
474 unsigned char packetID[2];
420 unsigned char packetID[2];
475 unsigned char packetSequenceControl[2];
421 unsigned char packetSequenceControl[2];
476 unsigned char packetLength[2];
422 unsigned char packetLength[2];
477 // DATA FIELD HEADER
423 // DATA FIELD HEADER
478 unsigned char spare1_pusVersion_spare2;
424 unsigned char spare1_pusVersion_spare2;
479 unsigned char serviceType;
425 unsigned char serviceType;
480 unsigned char serviceSubType;
426 unsigned char serviceSubType;
481 unsigned char destinationID;
427 unsigned char destinationID;
482 unsigned char time[6];
428 unsigned char time[6];
483 // AUXILIARY HEADER
429 // AUXILIARY HEADER
484 unsigned char sid;
430 unsigned char sid;
485 unsigned char biaStatusInfo;
431 unsigned char biaStatusInfo;
486 unsigned char cntASM;
432 unsigned char cntASM;
487 unsigned char nrASM;
433 unsigned char nrASM;
488 unsigned char acquisitionTime[6];
434 unsigned char acquisitionTime[6];
489 unsigned char blkNr[2];
435 unsigned char blkNr[2];
490 };
436 } Header_TM_LFR_SCIENCE_ASM_t;
491 typedef struct Header_TM_LFR_SCIENCE_ASM_str Header_TM_LFR_SCIENCE_ASM_t;
492
437
493 struct ccsdsTelecommandPacket_str
438 typedef struct {
494 {
439 //targetLogicalAddress is removed by the grspw module
495 //unsigned char targetLogicalAddress; // removed by the grspw module
496 unsigned char protocolIdentifier;
440 unsigned char protocolIdentifier;
497 unsigned char reserved;
441 unsigned char reserved;
498 unsigned char userApplication;
442 unsigned char userApplication;
499 unsigned char packetID[2];
443 unsigned char packetID[2];
500 unsigned char packetSequenceControl[2];
444 unsigned char packetSequenceControl[2];
501 unsigned char packetLength[2];
445 unsigned char packetLength[2];
502 // DATA FIELD HEADER
446 // DATA FIELD HEADER
503 unsigned char headerFlag_pusVersion_Ack;
447 unsigned char headerFlag_pusVersion_Ack;
504 unsigned char serviceType;
448 unsigned char serviceType;
505 unsigned char serviceSubType;
449 unsigned char serviceSubType;
506 unsigned char sourceID;
450 unsigned char sourceID;
507 unsigned char dataAndCRC[CCSDS_TC_PKT_MAX_SIZE-10];
451 unsigned char dataAndCRC[CCSDS_TC_PKT_MAX_SIZE-10];
508 };
452 } ccsdsTelecommandPacket_t;
509 typedef struct ccsdsTelecommandPacket_str ccsdsTelecommandPacket_t;
510
453
511 struct Packet_TM_LFR_HK_str
454 typedef struct {
512 {
513 unsigned char targetLogicalAddress;
455 unsigned char targetLogicalAddress;
514 unsigned char protocolIdentifier;
456 unsigned char protocolIdentifier;
515 unsigned char reserved;
457 unsigned char reserved;
516 unsigned char userApplication;
458 unsigned char userApplication;
517 unsigned char packetID[2];
459 unsigned char packetID[2];
518 unsigned char packetSequenceControl[2];
460 unsigned char packetSequenceControl[2];
519 unsigned char packetLength[2];
461 unsigned char packetLength[2];
520 unsigned char spare1_pusVersion_spare2;
462 unsigned char spare1_pusVersion_spare2;
521 unsigned char serviceType;
463 unsigned char serviceType;
522 unsigned char serviceSubType;
464 unsigned char serviceSubType;
523 unsigned char destinationID;
465 unsigned char destinationID;
524 unsigned char time[6];
466 unsigned char time[6];
525 unsigned char sid;
467 unsigned char sid;
526
468
527 //**************
469 //**************
528 // HK PARAMETERS
470 // HK PARAMETERS
529 unsigned char lfr_status_word[2];
471 unsigned char lfr_status_word[2];
530 unsigned char lfr_sw_version[4];
472 unsigned char lfr_sw_version[4];
531 // tc statistics
473 // tc statistics
532 unsigned char hk_lfr_update_info_tc_cnt[2];
474 unsigned char hk_lfr_update_info_tc_cnt[2];
533 unsigned char hk_lfr_update_time_tc_cnt[2];
475 unsigned char hk_lfr_update_time_tc_cnt[2];
534 unsigned char hk_dpu_exe_tc_lfr_cnt[2];
476 unsigned char hk_dpu_exe_tc_lfr_cnt[2];
535 unsigned char hk_dpu_rej_tc_lfr_cnt[2];
477 unsigned char hk_dpu_rej_tc_lfr_cnt[2];
536 unsigned char hk_lfr_last_exe_tc_id[2];
478 unsigned char hk_lfr_last_exe_tc_id[2];
537 unsigned char hk_lfr_last_exe_tc_type[2];
479 unsigned char hk_lfr_last_exe_tc_type[2];
538 unsigned char hk_lfr_last_exe_tc_subtype[2];
480 unsigned char hk_lfr_last_exe_tc_subtype[2];
539 unsigned char hk_lfr_last_exe_tc_time[6];
481 unsigned char hk_lfr_last_exe_tc_time[6];
540 unsigned char hk_lfr_last_rej_tc_id[2];
482 unsigned char hk_lfr_last_rej_tc_id[2];
541 unsigned char hk_lfr_last_rej_tc_type[2];
483 unsigned char hk_lfr_last_rej_tc_type[2];
542 unsigned char hk_lfr_last_rej_tc_subtype[2];
484 unsigned char hk_lfr_last_rej_tc_subtype[2];
543 unsigned char hk_lfr_last_rej_tc_time[6];
485 unsigned char hk_lfr_last_rej_tc_time[6];
544 // anomaly statistics
486 // anomaly statistics
545 unsigned char hk_lfr_le_cnt[2];
487 unsigned char hk_lfr_le_cnt[2];
546 unsigned char hk_lfr_me_cnt[2];
488 unsigned char hk_lfr_me_cnt[2];
547 unsigned char hk_lfr_he_cnt[2];
489 unsigned char hk_lfr_he_cnt[2];
548 unsigned char hk_lfr_last_er_rid[2];
490 unsigned char hk_lfr_last_er_rid[2];
549 unsigned char hk_lfr_last_er_code;
491 unsigned char hk_lfr_last_er_code;
550 unsigned char hk_lfr_last_er_time[6];
492 unsigned char hk_lfr_last_er_time[6];
551 // vhdl_blk_status
493 // vhdl_blk_status
552 unsigned char hk_lfr_vhdl_aa_sm;
494 unsigned char hk_lfr_vhdl_aa_sm;
553 unsigned char hk_lfr_vhdl_fft_sr;
495 unsigned char hk_lfr_vhdl_fft_sr;
554 unsigned char hk_lfr_vhdl_cic_hk;
496 unsigned char hk_lfr_vhdl_cic_hk;
555 unsigned char hk_lfr_vhdl_iir_cal;
497 unsigned char hk_lfr_vhdl_iir_cal;
556 // spacewire_if_statistics
498 // spacewire_if_statistics
557 unsigned char hk_lfr_dpu_spw_pkt_rcv_cnt[2];
499 unsigned char hk_lfr_dpu_spw_pkt_rcv_cnt[2];
558 unsigned char hk_lfr_dpu_spw_pkt_sent_cnt[2];
500 unsigned char hk_lfr_dpu_spw_pkt_sent_cnt[2];
559 unsigned char hk_lfr_dpu_spw_tick_out_cnt;
501 unsigned char hk_lfr_dpu_spw_tick_out_cnt;
560 unsigned char hk_lfr_dpu_spw_last_time;
502 unsigned char hk_lfr_dpu_spw_last_time;
561 // ahb error statistics
503 // ahb error statistics
562 unsigned int hk_lfr_last_fail_addr;
504 unsigned int hk_lfr_last_fail_addr;
563 // temperatures
505 // temperatures
564 unsigned char hk_lfr_temp_scm[2];
506 unsigned char hk_lfr_temp_scm[2];
565 unsigned char hk_lfr_temp_pcb[2];
507 unsigned char hk_lfr_temp_pcb[2];
566 unsigned char hk_lfr_temp_fpga[2];
508 unsigned char hk_lfr_temp_fpga[2];
567 // error counters
509 // error counters
568 unsigned char hk_lfr_dpu_spw_parity;
510 unsigned char hk_lfr_dpu_spw_parity;
569 unsigned char hk_lfr_dpu_spw_disconnect;
511 unsigned char hk_lfr_dpu_spw_disconnect;
570 unsigned char hk_lfr_dpu_spw_escape;
512 unsigned char hk_lfr_dpu_spw_escape;
571 unsigned char hk_lfr_dpu_spw_credit;
513 unsigned char hk_lfr_dpu_spw_credit;
572 unsigned char hk_lfr_dpu_spw_write_sync;
514 unsigned char hk_lfr_dpu_spw_write_sync;
573 unsigned char hk_lfr_dpu_spw_rx_ahb;
515 unsigned char hk_lfr_dpu_spw_rx_ahb;
574 unsigned char hk_lfr_dpu_spw_tx_ahb;
516 unsigned char hk_lfr_dpu_spw_tx_ahb;
575 unsigned char hk_lfr_dpu_spw_header_crc;
517 unsigned char hk_lfr_dpu_spw_header_crc;
576 unsigned char hk_lfr_dpu_spw_data_crc;
518 unsigned char hk_lfr_dpu_spw_data_crc;
577 unsigned char hk_lfr_dpu_spw_early_eop;
519 unsigned char hk_lfr_dpu_spw_early_eop;
578 unsigned char hk_lfr_dpu_spw_invalid_addr;
520 unsigned char hk_lfr_dpu_spw_invalid_addr;
579 unsigned char hk_lfr_dpu_spw_eep;
521 unsigned char hk_lfr_dpu_spw_eep;
580 unsigned char hk_lfr_dpu_spw_rx_too_big;
522 unsigned char hk_lfr_dpu_spw_rx_too_big;
581 // timecode
523 // timecode
582 unsigned char hk_lfr_timecode_erroneous;
524 unsigned char hk_lfr_timecode_erroneous;
583 unsigned char hk_lfr_timecode_missing;
525 unsigned char hk_lfr_timecode_missing;
584 unsigned char hk_lfr_timecode_invalid;
526 unsigned char hk_lfr_timecode_invalid;
585 // time
527 // time
586 unsigned char hk_lfr_time_timecode_it;
528 unsigned char hk_lfr_time_timecode_it;
587 unsigned char hk_lfr_time_not_synchro;
529 unsigned char hk_lfr_time_not_synchro;
588 unsigned char hk_lfr_time_timecode_ctr;
530 unsigned char hk_lfr_time_timecode_ctr;
589 // hk_lfr_buffer_dpu_
531 // hk_lfr_buffer_dpu_
590 unsigned char hk_lfr_buffer_dpu_tc_fifo;
532 unsigned char hk_lfr_buffer_dpu_tc_fifo;
591 unsigned char hk_lfr_buffer_dpu_tm_fifo;
533 unsigned char hk_lfr_buffer_dpu_tm_fifo;
592 // hk_lfr_ahb_
534 // hk_lfr_ahb_
593 unsigned char hk_lfr_ahb_correctable;
535 unsigned char hk_lfr_ahb_correctable;
594 unsigned char hk_lfr_ahb_uncorrectable;
536 unsigned char hk_lfr_ahb_uncorrectable;
595 unsigned char hk_lfr_ahb_fails_trans;
537 unsigned char hk_lfr_ahb_fails_trans;
596 // hk_lfr_adc_
538 // hk_lfr_adc_
597 unsigned char hk_lfr_adc_failure;
539 unsigned char hk_lfr_adc_failure;
598 unsigned char hk_lfr_adc_timeout;
540 unsigned char hk_lfr_adc_timeout;
599 unsigned char hk_lfr_toomany_err;
541 unsigned char hk_lfr_toomany_err;
600 // hk_lfr_cpu_
542 // hk_lfr_cpu_
601 unsigned char hk_lfr_cpu_write_err;
543 unsigned char hk_lfr_cpu_write_err;
602 unsigned char hk_lfr_cpu_ins_access_err;
544 unsigned char hk_lfr_cpu_ins_access_err;
603 unsigned char hk_lfr_cpu_illegal_ins;
545 unsigned char hk_lfr_cpu_illegal_ins;
604 unsigned char hk_lfr_cpu_privilegied_ins;
546 unsigned char hk_lfr_cpu_privilegied_ins;
605 unsigned char hk_lfr_cpu_register_hw;
547 unsigned char hk_lfr_cpu_register_hw;
606 unsigned char hk_lfr_cpu_not_aligned;
548 unsigned char hk_lfr_cpu_not_aligned;
607 unsigned char hk_lfr_cpu_data_exception;
549 unsigned char hk_lfr_cpu_data_exception;
608 unsigned char hk_lfr_cpu_div_exception;
550 unsigned char hk_lfr_cpu_div_exception;
609 unsigned char hk_lfr_cpu_arith_overflow;
551 unsigned char hk_lfr_cpu_arith_overflow;
610 };
552 } Packet_TM_LFR_HK_t;
611 typedef struct Packet_TM_LFR_HK_str Packet_TM_LFR_HK_t;
612
553
613 struct Packet_TM_LFR_PARAMETER_DUMP_str
554 typedef struct {
614 {
615 unsigned char targetLogicalAddress;
555 unsigned char targetLogicalAddress;
616 unsigned char protocolIdentifier;
556 unsigned char protocolIdentifier;
617 unsigned char reserved;
557 unsigned char reserved;
618 unsigned char userApplication;
558 unsigned char userApplication;
619 unsigned char packetID[2];
559 unsigned char packetID[2];
620 unsigned char packetSequenceControl[2];
560 unsigned char packetSequenceControl[2];
621 unsigned char packetLength[2];
561 unsigned char packetLength[2];
622 // DATA FIELD HEADER
562 // DATA FIELD HEADER
623 unsigned char spare1_pusVersion_spare2;
563 unsigned char spare1_pusVersion_spare2;
624 unsigned char serviceType;
564 unsigned char serviceType;
625 unsigned char serviceSubType;
565 unsigned char serviceSubType;
626 unsigned char destinationID;
566 unsigned char destinationID;
627 unsigned char time[6];
567 unsigned char time[6];
628 unsigned char sid;
568 unsigned char sid;
629
569
630 //******************
570 //******************
631 // COMMON PARAMETERS
571 // COMMON PARAMETERS
632 unsigned char unused0;
572 unsigned char unused0;
633 unsigned char bw_sp0_sp1_r0_r1;
573 unsigned char bw_sp0_sp1_r0_r1;
634
574
635 //******************
575 //******************
636 // NORMAL PARAMETERS
576 // NORMAL PARAMETERS
637 unsigned char sy_lfr_n_swf_l[2];
577 unsigned char sy_lfr_n_swf_l[2];
638 unsigned char sy_lfr_n_swf_p[2];
578 unsigned char sy_lfr_n_swf_p[2];
639 unsigned char sy_lfr_n_asm_p[2];
579 unsigned char sy_lfr_n_asm_p[2];
640 unsigned char sy_lfr_n_bp_p0;
580 unsigned char sy_lfr_n_bp_p0;
641 unsigned char sy_lfr_n_bp_p1;
581 unsigned char sy_lfr_n_bp_p1;
642
582
643 //*****************
583 //*****************
644 // BURST PARAMETERS
584 // BURST PARAMETERS
645 unsigned char sy_lfr_b_bp_p0;
585 unsigned char sy_lfr_b_bp_p0;
646 unsigned char sy_lfr_b_bp_p1;
586 unsigned char sy_lfr_b_bp_p1;
647
587
648 //****************
588 //****************
649 // SBM1 PARAMETERS
589 // SBM1 PARAMETERS
650 unsigned char sy_lfr_s1_bp_p0;
590 unsigned char sy_lfr_s1_bp_p0;
651 unsigned char sy_lfr_s1_bp_p1;
591 unsigned char sy_lfr_s1_bp_p1;
652
592
653 //****************
593 //****************
654 // SBM2 PARAMETERS
594 // SBM2 PARAMETERS
655 unsigned char sy_lfr_s2_bp_p0;
595 unsigned char sy_lfr_s2_bp_p0;
656 unsigned char sy_lfr_s2_bp_p1;
596 unsigned char sy_lfr_s2_bp_p1;
657 };
597 } Packet_TM_LFR_PARAMETER_DUMP_t;
658 typedef struct Packet_TM_LFR_PARAMETER_DUMP_str Packet_TM_LFR_PARAMETER_DUMP_t;
659
598
660
599
661 #endif // CCSDS_TYPES_H_INCLUDED
600 #endif // CCSDS_TYPES_H_INCLUDED
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@@ -1,52 +1,35
1 #ifndef FSW_INIT_H_INCLUDED
1 #ifndef FSW_INIT_H_INCLUDED
2 #define FSW_INIT_H_INCLUDED
2 #define FSW_INIT_H_INCLUDED
3
3
4 #include <rtems.h>
4 #include <rtems.h>
5 #include <leon.h>
5 #include <leon.h>
6
6
7 #include "fsw_params.h"
7 #include "fsw_params.h"
8 #include "fsw_misc.h"
8 #include "fsw_misc.h"
9 #include "fsw_processing.h"
9 #include "fsw_processing.h"
10 #include "tc_handler.h"
10 #include "tc_handler.h"
11 #include "wf_handler.h"
11 #include "wf_handler.h"
12
12
13 #include "fsw_spacewire.h"
13 #include "fsw_spacewire.h"
14
14
15 extern rtems_name misc_name[5];
16 extern rtems_id misc_id[5];
17 extern rtems_name Task_name[20]; /* array of task names */
18 extern rtems_id Task_id[20]; /* array of task ids */
19 extern unsigned int maxCount;
20 extern int fdSPW; // grspw file descriptor
21 extern int fdUART; // uart file descriptor
22 extern unsigned char lfrCurrentMode;
23
24 // MODE PARAMETERS
25 extern struct param_local_str param_local;
26 extern Packet_TM_LFR_PARAMETER_DUMP_t parameter_dump_packet;
27 extern unsigned short sequenceCounters_SCIENCE_NORMAL_BURST;
28 extern unsigned short sequenceCounters_SCIENCE_SBM1_SBM2;
29 extern unsigned short sequenceCounters_TC_EXE[SEQ_CNT_NB_DEST_ID];
30
31 // RTEMS TASKS
15 // RTEMS TASKS
32 rtems_task Init( rtems_task_argument argument);
16 rtems_task Init( rtems_task_argument argument);
33
17
34 // OTHER functions
18 // OTHER functions
35 void create_names( void );
19 void create_names( void );
36 int create_all_tasks( void );
20 int create_all_tasks( void );
37 int start_all_tasks( void );
21 int start_all_tasks( void );
38 //
22 //
39 rtems_status_code create_message_queues( void );
23 rtems_status_code create_message_queues( void );
40 //
24 //
41 int start_recv_send_tasks( void );
25 int start_recv_send_tasks( void );
42 //
26 //
43 void init_local_mode_parameters( void );
27 void init_local_mode_parameters( void );
44
28
45 extern int rtems_cpu_usage_report( void );
29 extern int rtems_cpu_usage_report( void );
46 extern int rtems_cpu_usage_reset( void );
30 extern int rtems_cpu_usage_reset( void );
47 extern void rtems_stack_checker_report_usage( void );
31 extern void rtems_stack_checker_report_usage( void );
48
32
49 extern int sched_yield( void );
33 extern int sched_yield( void );
50 extern int errno;
51
34
52 #endif // FSW_INIT_H_INCLUDED
35 #endif // FSW_INIT_H_INCLUDED
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@@ -1,39 +1,39
1 #ifndef FSW_MISC_H_INCLUDED
1 #ifndef FSW_MISC_H_INCLUDED
2 #define FSW_MISC_H_INCLUDED
2 #define FSW_MISC_H_INCLUDED
3
3
4 #include <rtems.h>
4 #include <rtems.h>
5 #include <stdio.h>
5 #include <stdio.h>
6 #include <grspw.h>
6 #include <grspw.h>
7
7
8 #include "fsw_params.h"
8 #include "fsw_params.h"
9 #include "fsw_spacewire.h"
9 #include "fsw_spacewire.h"
10
10
11 rtems_name name_hk_rate_monotonic; // name of the HK rate monotonic
11 rtems_name name_hk_rate_monotonic; // name of the HK rate monotonic
12 rtems_id HK_id; // id of the HK rate monotonic period
12 rtems_id HK_id; // id of the HK rate monotonic period
13
13
14 extern rtems_name misc_name[5];
14 //extern rtems_name misc_name[5];
15 time_management_regs_t *time_management_regs;
15 //time_management_regs_t *time_management_regs;
16 extern Packet_TM_LFR_HK_t housekeeping_packet;
16 //extern Packet_TM_LFR_HK_t housekeeping_packet;
17
17
18 int configure_timer(gptimer_regs_t *gptimer_regs, unsigned char timer, unsigned int clock_divider,
18 void configure_timer(gptimer_regs_t *gptimer_regs, unsigned char timer, unsigned int clock_divider,
19 unsigned char interrupt_level, rtems_isr (*timer_isr)() );
19 unsigned char interrupt_level, rtems_isr (*timer_isr)() );
20 int timer_start( gptimer_regs_t *gptimer_regs, unsigned char timer );
20 void timer_start( gptimer_regs_t *gptimer_regs, unsigned char timer );
21 int timer_stop( gptimer_regs_t *gptimer_regs, unsigned char timer );
21 void timer_stop( gptimer_regs_t *gptimer_regs, unsigned char timer );
22 int timer_set_clock_divider(gptimer_regs_t *gptimer_regs, unsigned char timer, unsigned int clock_divider);
22 void timer_set_clock_divider(gptimer_regs_t *gptimer_regs, unsigned char timer, unsigned int clock_divider);
23
23
24 // SERIAL LINK
24 // SERIAL LINK
25 int send_console_outputs_on_apbuart_port( void );
25 int send_console_outputs_on_apbuart_port( void );
26 void set_apbuart_scaler_reload_register(unsigned int regs, unsigned int value);
26 void set_apbuart_scaler_reload_register(unsigned int regs, unsigned int value);
27
27
28 // RTEMS TASKS
28 // RTEMS TASKS
29 rtems_task stat_task( rtems_task_argument argument );
29 rtems_task stat_task( rtems_task_argument argument );
30 rtems_task hous_task( rtems_task_argument argument );
30 rtems_task hous_task( rtems_task_argument argument );
31 rtems_task dumb_task( rtems_task_argument unused );
31 rtems_task dumb_task( rtems_task_argument unused );
32
32
33 void init_housekeeping_parameters( void );
33 void init_housekeeping_parameters( void );
34
34
35 void increment_seq_counter( unsigned char *packet_sequence_control);
35 void increment_seq_counter( unsigned char *packet_sequence_control);
36
36
37 void getTime( unsigned char *time);
37 void getTime( unsigned char *time);
38
38
39 #endif // FSW_MISC_H_INCLUDED
39 #endif // FSW_MISC_H_INCLUDED
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@@ -1,29 +1,26
1 #ifndef FSW_PARAMS_PROCESSING_H
1 #ifndef FSW_PARAMS_PROCESSING_H
2 #define FSW_PARAMS_PROCESSING_H
2 #define FSW_PARAMS_PROCESSING_H
3
3
4 #define NB_BINS_PER_SM 128
4 #define NB_BINS_PER_SM 128
5 #define NB_VALUES_PER_SM 25
5 #define NB_VALUES_PER_SM 25
6 //#define TOTAL_SIZE_SM (NB_BINS_PER_SM * NB_VALUES_PER_SM)
7 //#define SM_HEADER 4
8 #define TOTAL_SIZE_SM 0
6 #define TOTAL_SIZE_SM 0
9 #define SM_HEADER 0
7 #define SM_HEADER 0
10
8
11 #define NB_BINS_COMPRESSED_SM_F0 11
9 #define NB_BINS_COMPRESSED_SM_F0 11
12 #define NB_BINS_COMPRESSED_SM_F1 13
10 #define NB_BINS_COMPRESSED_SM_F1 13
13 #define NB_BINS_COMPRESSED_SM_F2 12
11 #define NB_BINS_COMPRESSED_SM_F2 12
14 #define TOTAL_SIZE_COMPRESSED_MATRIX_f0 (NB_BINS_COMPRESSED_SM_F0 * NB_VALUES_PER_SM)
12 #define TOTAL_SIZE_COMPRESSED_MATRIX_f0 (NB_BINS_COMPRESSED_SM_F0 * NB_VALUES_PER_SM)
15 #define NB_AVERAGE_NORMAL_f0 96*4
13 #define NB_AVERAGE_NORMAL_f0 96*4
16 #define NB_SM_TO_RECEIVE_BEFORE_AVF0 8
14 #define NB_SM_TO_RECEIVE_BEFORE_AVF0 8
17
15
18 struct BP1_str{
16 typedef struct {
19 volatile unsigned char PE[2];
17 volatile unsigned char PE[2];
20 volatile unsigned char PB[2];
18 volatile unsigned char PB[2];
21 volatile unsigned char V0;
19 volatile unsigned char V0;
22 volatile unsigned char V1;
20 volatile unsigned char V1;
23 volatile unsigned char V2_ELLIP_DOP;
21 volatile unsigned char V2_ELLIP_DOP;
24 volatile unsigned char SZ;
22 volatile unsigned char SZ;
25 volatile unsigned char VPHI;
23 volatile unsigned char VPHI;
26 };
24 } BP1_t;
27 typedef struct BP1_str BP1_t;
28
25
29 #endif // FSW_PARAMS_PROCESSING_H
26 #endif // FSW_PARAMS_PROCESSING_H
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@@ -1,67 +1,66
1 #ifndef FSW_PROCESSING_H_INCLUDED
1 #ifndef FSW_PROCESSING_H_INCLUDED
2 #define FSW_PROCESSING_H_INCLUDED
2 #define FSW_PROCESSING_H_INCLUDED
3
3
4 #include <rtems.h>
4 #include <rtems.h>
5 #include <grspw.h>
5 #include <grspw.h>
6 #include <math.h>
6 #include <math.h>
7 #include <stdlib.h> // abs() is in the stdlib
7 #include <stdlib.h> // abs() is in the stdlib
8 #include <stdio.h> // printf()
8 #include <stdio.h> // printf()
9 #include <math.h>
9 #include <math.h>
10
10
11 #include "fsw_params.h"
11 #include "fsw_params.h"
12 #include "fsw_spacewire.h"
12 #include "fsw_spacewire.h"
13
13
14
15 extern volatile int spec_mat_f0_0[ ];
14 extern volatile int spec_mat_f0_0[ ];
16 extern volatile int spec_mat_f0_1[ ];
15 extern volatile int spec_mat_f0_1[ ];
17 extern volatile int spec_mat_f0_a[ ];
16 extern volatile int spec_mat_f0_a[ ];
18 extern volatile int spec_mat_f0_b[ ];
17 extern volatile int spec_mat_f0_b[ ];
19 extern volatile int spec_mat_f0_c[ ];
18 extern volatile int spec_mat_f0_c[ ];
20 extern volatile int spec_mat_f0_d[ ];
19 extern volatile int spec_mat_f0_d[ ];
21 extern volatile int spec_mat_f0_e[ ];
20 extern volatile int spec_mat_f0_e[ ];
22 extern volatile int spec_mat_f0_f[ ];
21 extern volatile int spec_mat_f0_f[ ];
23 extern volatile int spec_mat_f0_g[ ];
22 extern volatile int spec_mat_f0_g[ ];
24 extern volatile int spec_mat_f0_h[ ];
23 extern volatile int spec_mat_f0_h[ ];
25
24
26 extern volatile int spec_mat_f1[ ];
25 extern volatile int spec_mat_f1[ ];
27 extern volatile int spec_mat_f2[ ];
26 extern volatile int spec_mat_f2[ ];
28
27
29 extern volatile int spec_mat_f1_bis[ ];
28 extern volatile int spec_mat_f1_bis[ ];
30 extern volatile int spec_mat_f2_bis[ ];
29 extern volatile int spec_mat_f2_bis[ ];
31 extern volatile int spec_mat_f0_0_bis[ ];
30 extern volatile int spec_mat_f0_0_bis[ ];
32 extern volatile int spec_mat_f0_1_bis[ ];
31 extern volatile int spec_mat_f0_1_bis[ ];
33
32
34 // parameters
33 // parameters
35 extern struct param_local_str param_local;
34 extern struct param_local_str param_local;
36
35
37 // registers
36 // registers
38 extern time_management_regs_t *time_management_regs;
37 extern time_management_regs_t *time_management_regs;
39 extern spectral_matrix_regs_t *spectral_matrix_regs;
38 extern spectral_matrix_regs_t *spectral_matrix_regs;
40
39
41 extern rtems_name misc_name[5];
40 extern rtems_name misc_name[5];
42 extern rtems_id Task_id[20]; /* array of task ids */
41 extern rtems_id Task_id[20]; /* array of task ids */
43
42
44 // ISR
43 // ISR
45 rtems_isr spectral_matrices_isr( rtems_vector_number vector );
44 rtems_isr spectral_matrices_isr( rtems_vector_number vector );
46 rtems_isr spectral_matrices_isr_simu( rtems_vector_number vector );
45 rtems_isr spectral_matrices_isr_simu( rtems_vector_number vector );
47
46
48 // RTEMS TASKS
47 // RTEMS TASKS
49 rtems_task spw_bppr_task(rtems_task_argument argument);
48 rtems_task spw_bppr_task(rtems_task_argument argument);
50 rtems_task avf0_task(rtems_task_argument argument);
49 rtems_task avf0_task(rtems_task_argument argument);
51 rtems_task bpf0_task(rtems_task_argument argument);
50 rtems_task bpf0_task(rtems_task_argument argument);
52 rtems_task smiq_task(rtems_task_argument argument); // added to test the spectral matrix simulator
51 rtems_task smiq_task(rtems_task_argument argument); // added to test the spectral matrix simulator
53 rtems_task matr_task(rtems_task_argument argument);
52 rtems_task matr_task(rtems_task_argument argument);
54
53
55 void matrix_compression(volatile float *averaged_spec_mat, unsigned char fChannel, float *compressed_spec_mat);
54 void matrix_compression(volatile float *averaged_spec_mat, unsigned char fChannel, float *compressed_spec_mat);
56 void matrix_reset(volatile float *averaged_spec_mat);
55 void matrix_reset(volatile float *averaged_spec_mat);
57 void BP1_set(float * compressed_spec_mat, unsigned char nb_bins_compressed_spec_mat, unsigned char * LFR_BP1);
56 void BP1_set(float * compressed_spec_mat, unsigned char nb_bins_compressed_spec_mat, unsigned char * LFR_BP1);
58 void BP2_set(float * compressed_spec_mat, unsigned char nb_bins_compressed_spec_mat);
57 void BP2_set(float * compressed_spec_mat, unsigned char nb_bins_compressed_spec_mat);
59 //
58 //
60 void init_header_asm( Header_TM_LFR_SCIENCE_ASM_t *header);
59 void init_header_asm( Header_TM_LFR_SCIENCE_ASM_t *header);
61 void send_spectral_matrix(Header_TM_LFR_SCIENCE_ASM_t *header, char *spectral_matrix,
60 void send_spectral_matrix(Header_TM_LFR_SCIENCE_ASM_t *header, char *spectral_matrix,
62 unsigned int sid, spw_ioctl_pkt_send *spw_ioctl_send, rtems_id queue_id);
61 unsigned int sid, spw_ioctl_pkt_send *spw_ioctl_send, rtems_id queue_id);
63 void convert_averaged_spectral_matrix(volatile float *input_matrix, char *output_matrix);
62 void convert_averaged_spectral_matrix(volatile float *input_matrix, char *output_matrix);
64 void fill_averaged_spectral_matrix( void );
63 void fill_averaged_spectral_matrix( void );
65 void reset_spectral_matrix_regs();
64 void reset_spectral_matrix_regs();
66
65
67 #endif // FSW_PROCESSING_H_INCLUDED
66 #endif // FSW_PROCESSING_H_INCLUDED
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@@ -1,41 +1,39
1 #ifndef FSW_SPACEWIRE_H_INCLUDED
1 #ifndef FSW_SPACEWIRE_H_INCLUDED
2 #define FSW_SPACEWIRE_H_INCLUDED
2 #define FSW_SPACEWIRE_H_INCLUDED
3
3
4 #include <rtems.h>
4 #include <rtems.h>
5 #include <grspw.h>
5 #include <grspw.h>
6
6
7 #include <fcntl.h> // for O_RDWR
7 #include <fcntl.h> // for O_RDWR
8 #include <unistd.h> // for the read call
8 #include <unistd.h> // for the read call
9 #include <sys/ioctl.h> // for the ioctl call
9 #include <sys/ioctl.h> // for the ioctl call
10 #include <errno.h>
10 #include <errno.h>
11
11
12 #include "fsw_params.h"
12 #include "fsw_params.h"
13 #include "tc_handler.h"
13 #include "tc_handler.h"
14
14
15 extern spw_stats spacewire_stats;
15 extern spw_stats spacewire_stats;
16 extern spw_stats spacewire_stats_backup;
16 extern spw_stats spacewire_stats_backup;
17 extern Packet_TM_LFR_HK_t housekeeping_packet;
18 extern rtems_id Task_id[20]; /* array of task ids */
19
17
20 // RTEMS TASK
18 // RTEMS TASK
21 rtems_task spiq_task( rtems_task_argument argument );
19 rtems_task spiq_task( rtems_task_argument argument );
22 rtems_task recv_task( rtems_task_argument unused );
20 rtems_task recv_task( rtems_task_argument unused );
23 rtems_task send_task( rtems_task_argument argument );
21 rtems_task send_task( rtems_task_argument argument );
24 rtems_task wtdg_task( rtems_task_argument argument );
22 rtems_task wtdg_task( rtems_task_argument argument );
25
23
26 int spacewire_open_link( void );
24 int spacewire_open_link( void );
27 int spacewire_start_link( int fd );
25 int spacewire_start_link( int fd );
28 int spacewire_stop_start_link( int fd );
26 int spacewire_stop_start_link( int fd );
29 int spacewire_configure_link(int fd );
27 int spacewire_configure_link(int fd );
30 int spacewire_reset_link( void );
28 int spacewire_reset_link( void );
31 void spacewire_set_NP( unsigned char val, unsigned int regAddr ); // No Port force
29 void spacewire_set_NP( unsigned char val, unsigned int regAddr ); // No Port force
32 void spacewire_set_RE( unsigned char val, unsigned int regAddr ); // RMAP Enable
30 void spacewire_set_RE( unsigned char val, unsigned int regAddr ); // RMAP Enable
33 void spacewire_compute_stats_offsets( void );
31 void spacewire_compute_stats_offsets( void );
34 void spacewire_update_statistics( void );
32 void spacewire_update_statistics( void );
35
33
36 void timecode_irq_handler( void *pDev, void *regs, int minor, unsigned int tc );
34 void timecode_irq_handler( void *pDev, void *regs, int minor, unsigned int tc );
37 rtems_timer_service_routine user_routine( rtems_id timer_id, void *user_data );
35 rtems_timer_service_routine user_routine( rtems_id timer_id, void *user_data );
38
36
39 void (*grspw_timecode_callback) ( void *pDev, void *regs, int minor, unsigned int tc );
37 void (*grspw_timecode_callback) ( void *pDev, void *regs, int minor, unsigned int tc );
40
38
41 #endif // FSW_SPACEWIRE_H_INCLUDED
39 #endif // FSW_SPACEWIRE_H_INCLUDED
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@@ -1,93 +1,67
1 #ifndef GRLIB_REGS_H_INCLUDED
1 #ifndef GRLIB_REGS_H_INCLUDED
2 #define GRLIB_REGS_H_INCLUDED
2 #define GRLIB_REGS_H_INCLUDED
3
3
4 #define NB_GPTIMER 3
4 #define NB_GPTIMER 3
5
5
6 struct apbuart_regs_str{
6 struct apbuart_regs_str{
7 volatile unsigned int data;
7 volatile unsigned int data;
8 volatile unsigned int status;
8 volatile unsigned int status;
9 volatile unsigned int ctrl;
9 volatile unsigned int ctrl;
10 volatile unsigned int scaler;
10 volatile unsigned int scaler;
11 volatile unsigned int fifoDebug;
11 volatile unsigned int fifoDebug;
12 };
12 };
13
13
14 struct ahbuart_regs_str{
14 struct ahbuart_regs_str{
15 volatile unsigned int unused;
15 volatile unsigned int unused;
16 volatile unsigned int status;
16 volatile unsigned int status;
17 volatile unsigned int ctrl;
17 volatile unsigned int ctrl;
18 volatile unsigned int scaler;
18 volatile unsigned int scaler;
19 };
19 };
20
20
21 struct timer_regs_str
21 typedef struct {
22 {
23 volatile unsigned int counter;
22 volatile unsigned int counter;
24 volatile unsigned int reload;
23 volatile unsigned int reload;
25 volatile unsigned int ctrl;
24 volatile unsigned int ctrl;
26 volatile unsigned int unused;
25 volatile unsigned int unused;
27 };
26 } timer_regs_t;
28 typedef struct timer_regs_str timer_regs_t;
29
27
30 struct gptimer_regs_str
28 typedef struct {
31 {
32 volatile unsigned int scaler_value;
29 volatile unsigned int scaler_value;
33 volatile unsigned int scaler_reload;
30 volatile unsigned int scaler_reload;
34 volatile unsigned int conf;
31 volatile unsigned int conf;
35 volatile unsigned int unused0;
32 volatile unsigned int unused0;
36 timer_regs_t timer[NB_GPTIMER];
33 timer_regs_t timer[NB_GPTIMER];
37 };
34 } gptimer_regs_t;
38 typedef struct gptimer_regs_str gptimer_regs_t;
39
35
40 struct time_management_regs_str{
36 typedef struct {
41 volatile int ctrl; // bit 0 forces the load of the coarse_time_load value and resets the fine_time
37 volatile int ctrl; // bit 0 forces the load of the coarse_time_load value and resets the fine_time
42 volatile int coarse_time_load;
38 volatile int coarse_time_load;
43 volatile int coarse_time;
39 volatile int coarse_time;
44 volatile int fine_time;
40 volatile int fine_time;
45 };
41 } time_management_regs_t;
46 typedef struct time_management_regs_str time_management_regs_t;
47
42
48 struct waveform_picker_regs_str{
43 typedef struct {
49 volatile int data_shaping; // 0x00 00 *** R1 R0 SP1 SP0 BW
44 volatile int data_shaping; // 0x00 00 *** R1 R0 SP1 SP0 BW
50 volatile int burst_enable; // 0x04 01 *** burst f2, f1, f0 enable f3, f2, f1, f0
45 volatile int burst_enable; // 0x04 01 *** burst f2, f1, f0 enable f3, f2, f1, f0
51 volatile int addr_data_f0; // 0x08 10 ***
46 volatile int addr_data_f0; // 0x08 10 ***
52 volatile int addr_data_f1; // 0x0c 11 ***
47 volatile int addr_data_f1; // 0x0c 11 ***
53 volatile int addr_data_f2; // 0x10 100 ***
48 volatile int addr_data_f2; // 0x10 100 ***
54 volatile int addr_data_f3; // 0x14 101 ***
49 volatile int addr_data_f3; // 0x14 101 ***
55 volatile int status; // 0x18 110 ***
50 volatile int status; // 0x18 110 ***
56 volatile int delta_snapshot; // 0x1c 111 ***
51 volatile int delta_snapshot; // 0x1c 111 ***
57 volatile int delta_f2_f1; // 0x20 0000 ***
52 volatile int delta_f2_f1; // 0x20 0000 ***
58 volatile int delta_f2_f0; // 0x24 0001 ***
53 volatile int delta_f2_f0; // 0x24 0001 ***
59 volatile int nb_burst_available;// 0x28 0010 ***
54 volatile int nb_burst_available;// 0x28 0010 ***
60 volatile int nb_snapshot_param; // 0x2c 0011 ***
55 volatile int nb_snapshot_param; // 0x2c 0011 ***
61 };
56 } waveform_picker_regs_t;
62 typedef struct waveform_picker_regs_str waveform_picker_regs_t;
63
57
64 struct waveform_picker_regs_str_alt{
58 typedef struct {
65 volatile int data_shaping; // 0x00 00 *** R1 R0 SP1 SP0 BW
66 volatile int run_burst_enable; // 0x04 01 *** [run *** burst f2, f1, f0 *** enable f3, f2, f1, f0 ]
67 volatile int addr_data_f0; // 0x08
68 volatile int addr_data_f1; // 0x0c
69 volatile int addr_data_f2; // 0x10
70 volatile int addr_data_f3; // 0x14
71 volatile int status; // 0x18
72 volatile int delta_snapshot; // 0x1c
73 volatile int delta_f0; // 0x20
74 volatile int delta_f0_2;
75 volatile int delta_f1;
76 volatile int delta_f2;
77 volatile int nb_data_by_buffer;
78 volatile int snapshot_param;
79 volatile int start_date;
80 };
81 typedef struct waveform_picker_regs_str_alt waveform_picker_regs_t_alt;
82
83 struct spectral_matrix_regs_str{
84 volatile int config;
59 volatile int config;
85 volatile int status;
60 volatile int status;
86 volatile int matrixF0_Address0;
61 volatile int matrixF0_Address0;
87 volatile int matrixFO_Address1;
62 volatile int matrixFO_Address1;
88 volatile int matrixF1_Address;
63 volatile int matrixF1_Address;
89 volatile int matrixF2_Address;
64 volatile int matrixF2_Address;
90 };
65 } spectral_matrix_regs_t;
91 typedef struct spectral_matrix_regs_str spectral_matrix_regs_t;
92
66
93 #endif // GRLIB_REGS_H_INCLUDED
67 #endif // GRLIB_REGS_H_INCLUDED
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@@ -1,63 +1,54
1 #ifndef TC_HANDLER_H_INCLUDED
1 #ifndef TC_HANDLER_H_INCLUDED
2 #define TC_HANDLER_H_INCLUDED
2 #define TC_HANDLER_H_INCLUDED
3
3
4 #include <rtems.h>
4 #include <rtems.h>
5 #include <leon.h>
5 #include <leon.h>
6
6
7 #include "tc_load_dump_parameters.h"
7 #include "tc_load_dump_parameters.h"
8 #include "tc_acceptance.h"
8 #include "tc_acceptance.h"
9 #include "tm_lfr_tc_exe.h"
9 #include "tm_lfr_tc_exe.h"
10 #include "wf_handler.h"
10 #include "wf_handler.h"
11
11
12 // MODE PARAMETERS
12 // MODE PARAMETERS
13 extern struct param_sbm1_str param_sbm1;
14 extern struct param_sbm2_str param_sbm2;
15 extern time_management_regs_t *time_management_regs;
16 extern waveform_picker_regs_t *waveform_picker_regs;
17 extern gptimer_regs_t *gptimer_regs;
18 extern rtems_name misc_name[5];
19 extern rtems_id Task_id[20]; /* array of task ids */
20 extern unsigned char lfrCurrentMode;
21 extern unsigned int maxCount;
13 extern unsigned int maxCount;
22
14
23
24 //****
15 //****
25 // ISR
16 // ISR
26 rtems_isr commutation_isr1( rtems_vector_number vector );
17 rtems_isr commutation_isr1( rtems_vector_number vector );
27 rtems_isr commutation_isr2( rtems_vector_number vector );
18 rtems_isr commutation_isr2( rtems_vector_number vector );
28
19
29 //***********
20 //***********
30 // RTEMS TASK
21 // RTEMS TASK
31 rtems_task actn_task( rtems_task_argument unused );
22 rtems_task actn_task( rtems_task_argument unused );
32
23
33 //***********
24 //***********
34 // TC ACTIONS
25 // TC ACTIONS
35 int action_reset(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
26 int action_reset(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
36 int action_enter_mode(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
27 int action_enter_mode(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
37 int action_update_info(ccsdsTelecommandPacket_t *TC, rtems_id queue_id);
28 int action_update_info(ccsdsTelecommandPacket_t *TC, rtems_id queue_id);
38 int action_enable_calibration(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
29 int action_enable_calibration(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
39 int action_disable_calibration(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
30 int action_disable_calibration(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
40 int action_update_time(ccsdsTelecommandPacket_t *TC);
31 int action_update_time(ccsdsTelecommandPacket_t *TC);
41
32
42 // mode transition
33 // mode transition
43 int transition_validation(unsigned char requestedMode);
34 int transition_validation(unsigned char requestedMode);
44 int stop_current_mode();
35 int stop_current_mode();
45 int enter_mode(unsigned char mode, ccsdsTelecommandPacket_t *TC);
36 int enter_mode(unsigned char mode);
46 int enter_standby_mode();
37 int enter_standby_mode();
47 int enter_normal_mode();
38 int enter_normal_mode();
48 int enter_burst_mode();
39 int enter_burst_mode();
49 int enter_sbm1_mode();
40 int enter_sbm1_mode();
50 int enter_sbm2_mode();
41 int enter_sbm2_mode();
51 int restart_science_tasks();
42 int restart_science_tasks();
52 int suspend_science_tasks();
43 int suspend_science_tasks();
53
44
54 // other functions
45 // other functions
55 void updateLFRCurrentMode();
46 void updateLFRCurrentMode();
56 void update_last_TC_exe(ccsdsTelecommandPacket_t *TC, unsigned char *time);
47 void update_last_TC_exe(ccsdsTelecommandPacket_t *TC, unsigned char *time);
57 void update_last_TC_rej(ccsdsTelecommandPacket_t *TC, unsigned char *time);
48 void update_last_TC_rej(ccsdsTelecommandPacket_t *TC, unsigned char *time);
58 void close_action(ccsdsTelecommandPacket_t *TC, int result, rtems_id queue_id, unsigned char *time);
49 void close_action(ccsdsTelecommandPacket_t *TC, int result, rtems_id queue_id, unsigned char *time);
59
50
60 #endif // TC_HANDLER_H_INCLUDED
51 #endif // TC_HANDLER_H_INCLUDED
61
52
62
53
63
54
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@@ -1,32 +1,27
1 #ifndef TC_LOAD_DUMP_PARAMETERS_H
1 #ifndef TC_LOAD_DUMP_PARAMETERS_H
2 #define TC_LOAD_DUMP_PARAMETERS_H
2 #define TC_LOAD_DUMP_PARAMETERS_H
3
3
4 #include <rtems.h>
4 #include <rtems.h>
5 #include <stdio.h>
5 #include <stdio.h>
6
6
7 #include "fsw_params.h"
7 #include "fsw_params.h"
8 #include "wf_handler.h"
8 #include "wf_handler.h"
9 #include "tm_lfr_tc_exe.h"
9 #include "tm_lfr_tc_exe.h"
10 #include "fsw_misc.h"
10 #include "fsw_misc.h"
11
11
12 extern int fdSPW;
13 extern unsigned char lfrCurrentMode;
14 extern Packet_TM_LFR_PARAMETER_DUMP_t parameter_dump_packet;
15 extern Packet_TM_LFR_HK_t housekeeping_packet;
16
17 int action_load_common_par( ccsdsTelecommandPacket_t *TC );
12 int action_load_common_par( ccsdsTelecommandPacket_t *TC );
18 int action_load_normal_par(ccsdsTelecommandPacket_t *TC, rtems_id queue_id , unsigned char *time);
13 int action_load_normal_par(ccsdsTelecommandPacket_t *TC, rtems_id queue_id , unsigned char *time);
19 int action_load_burst_par(ccsdsTelecommandPacket_t *TC, rtems_id queue_id , unsigned char *time);
14 int action_load_burst_par(ccsdsTelecommandPacket_t *TC, rtems_id queue_id , unsigned char *time);
20 int action_load_sbm1_par(ccsdsTelecommandPacket_t *TC, rtems_id queue_id , unsigned char *time);
15 int action_load_sbm1_par(ccsdsTelecommandPacket_t *TC, rtems_id queue_id , unsigned char *time);
21 int action_load_sbm2_par(ccsdsTelecommandPacket_t *TC, rtems_id queue_id , unsigned char *time);
16 int action_load_sbm2_par(ccsdsTelecommandPacket_t *TC, rtems_id queue_id , unsigned char *time);
22 int action_dump_par(rtems_id queue_id );
17 int action_dump_par(rtems_id queue_id );
23
18
24 int set_sy_lfr_n_swf_l(ccsdsTelecommandPacket_t *TC, rtems_id queue_id , unsigned char *time);
19 int set_sy_lfr_n_swf_l(ccsdsTelecommandPacket_t *TC, rtems_id queue_id , unsigned char *time);
25 int set_sy_lfr_n_swf_p( ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time );
20 int set_sy_lfr_n_swf_p( ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time );
26 int set_sy_lfr_n_asm_p( ccsdsTelecommandPacket_t *TC, rtems_id queue_id );
21 int set_sy_lfr_n_asm_p( ccsdsTelecommandPacket_t *TC, rtems_id queue_id );
27 int set_sy_lfr_n_bp_p0( ccsdsTelecommandPacket_t *TC, rtems_id queue_id );
22 int set_sy_lfr_n_bp_p0( ccsdsTelecommandPacket_t *TC, rtems_id queue_id );
28 int set_sy_lfr_n_bp_p1( ccsdsTelecommandPacket_t *TC, rtems_id queue_id );
23 int set_sy_lfr_n_bp_p1( ccsdsTelecommandPacket_t *TC, rtems_id queue_id );
29
24
30 void init_parameter_dump( void );
25 void init_parameter_dump( void );
31
26
32 #endif // TC_LOAD_DUMP_PARAMETERS_H
27 #endif // TC_LOAD_DUMP_PARAMETERS_H
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@@ -1,28 +1,26
1 #ifndef TM_LFR_TC_EXE_H_INCLUDED
1 #ifndef TM_LFR_TC_EXE_H_INCLUDED
2 #define TM_LFR_TC_EXE_H_INCLUDED
2 #define TM_LFR_TC_EXE_H_INCLUDED
3
3
4 #include <rtems.h>
4 #include <rtems.h>
5 #include <stdio.h>
5 #include <stdio.h>
6
6
7 #include "fsw_params.h"
7 #include "fsw_params.h"
8 #include "fsw_spacewire.h"
8 #include "fsw_spacewire.h"
9
9
10 extern time_management_regs_t *time_management_regs;
11 extern Packet_TM_LFR_HK_t housekeeping_packet;
12 extern unsigned short sequenceCounters_TC_EXE[];
10 extern unsigned short sequenceCounters_TC_EXE[];
13
11
14 int send_tm_lfr_tc_exe_success(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
12 int send_tm_lfr_tc_exe_success(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
15 int send_tm_lfr_tc_exe_inconsistent(ccsdsTelecommandPacket_t *TC, rtems_id queue_id,
13 int send_tm_lfr_tc_exe_inconsistent(ccsdsTelecommandPacket_t *TC, rtems_id queue_id,
16 unsigned char byte_position, unsigned char rcv_value, unsigned char *time);
14 unsigned char byte_position, unsigned char rcv_value, unsigned char *time);
17 int send_tm_lfr_tc_exe_not_executable(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
15 int send_tm_lfr_tc_exe_not_executable(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
18 int send_tm_lfr_tc_exe_not_implemented(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
16 int send_tm_lfr_tc_exe_not_implemented(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
19 int send_tm_lfr_tc_exe_error(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
17 int send_tm_lfr_tc_exe_error(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time);
20 int send_tm_lfr_tc_exe_corrupted(ccsdsTelecommandPacket_t *TC, rtems_id queue_id,
18 int send_tm_lfr_tc_exe_corrupted(ccsdsTelecommandPacket_t *TC, rtems_id queue_id,
21 unsigned char *computed_CRC, unsigned char *currentTC_LEN_RCV, unsigned char destinationID, unsigned char *time);
19 unsigned char *computed_CRC, unsigned char *currentTC_LEN_RCV, unsigned char destinationID, unsigned char *time);
22
20
23 void increment_seq_counter_destination_id( unsigned char *packet_sequence_control, unsigned char destination_id );
21 void increment_seq_counter_destination_id( unsigned char *packet_sequence_control, unsigned char destination_id );
24
22
25 #endif // TM_LFR_TC_EXE_H_INCLUDED
23 #endif // TM_LFR_TC_EXE_H_INCLUDED
26
24
27
25
28
26
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@@ -1,88 +1,87
1 #ifndef WF_HANDLER_H_INCLUDED
1 #ifndef WF_HANDLER_H_INCLUDED
2 #define WF_HANDLER_H_INCLUDED
2 #define WF_HANDLER_H_INCLUDED
3
3
4 #include <rtems.h>
4 #include <rtems.h>
5 #include <grspw.h>
5 #include <grspw.h>
6 #include <stdio.h>
6 #include <stdio.h>
7 #include <math.h>
7 #include <math.h>
8
8
9 #include "fsw_params.h"
9 #include "fsw_params.h"
10 #include "fsw_spacewire.h"
10 #include "fsw_spacewire.h"
11 #include "fsw_misc.h"
11 #include "fsw_misc.h"
12
12
13 #define pi 3.1415
13 #define pi 3.1415
14
14
15 extern int fdSPW;
15 extern int fdSPW;
16 extern volatile int wf_snap_f0[ ];
16 extern volatile int wf_snap_f0[ ];
17 //
17 //
18 extern volatile int wf_snap_f1[ ];
18 extern volatile int wf_snap_f1[ ];
19 extern volatile int wf_snap_f1_bis[ ];
19 extern volatile int wf_snap_f1_bis[ ];
20 extern volatile int wf_snap_f1_norm[ ];
20 extern volatile int wf_snap_f1_norm[ ];
21 //
21 //
22 extern volatile int wf_snap_f2[ ];
22 extern volatile int wf_snap_f2[ ];
23 extern volatile int wf_snap_f2_bis[ ];
23 extern volatile int wf_snap_f2_bis[ ];
24 extern volatile int wf_snap_f2_norm[ ];
24 extern volatile int wf_snap_f2_norm[ ];
25 //
25 //
26 extern volatile int wf_cont_f3[ ];
26 extern volatile int wf_cont_f3[ ];
27 extern volatile int wf_cont_f3_bis[ ];
27 extern volatile int wf_cont_f3_bis[ ];
28 extern char wf_cont_f3_light[ ];
28 extern char wf_cont_f3_light[ ];
29 extern waveform_picker_regs_t *waveform_picker_regs;
29 extern waveform_picker_regs_t *waveform_picker_regs;
30 extern waveform_picker_regs_t_alt *waveform_picker_regs_alt;
31 extern time_management_regs_t *time_management_regs;
30 extern time_management_regs_t *time_management_regs;
32 extern Packet_TM_LFR_HK_t housekeeping_packet;
31 extern Packet_TM_LFR_HK_t housekeeping_packet;
33 extern Packet_TM_LFR_PARAMETER_DUMP_t parameter_dump_packet;
32 extern Packet_TM_LFR_PARAMETER_DUMP_t parameter_dump_packet;
34 extern struct param_local_str param_local;
33 extern struct param_local_str param_local;
35
34
36 extern unsigned short sequenceCounters_SCIENCE_NORMAL_BURST;
35 extern unsigned short sequenceCounters_SCIENCE_NORMAL_BURST;
37 extern unsigned short sequenceCounters_SCIENCE_SBM1_SBM2;
36 extern unsigned short sequenceCounters_SCIENCE_SBM1_SBM2;
38
37
39 extern rtems_name misc_name[5];
38 extern rtems_name misc_name[5];
40 extern rtems_name Task_name[20]; /* array of task ids */
39 extern rtems_name Task_name[20]; /* array of task ids */
41 extern rtems_id Task_id[20]; /* array of task ids */
40 extern rtems_id Task_id[20]; /* array of task ids */
42
41
43 extern unsigned char lfrCurrentMode;
42 extern unsigned char lfrCurrentMode;
44
43
45 rtems_isr waveforms_isr( rtems_vector_number vector );
44 rtems_isr waveforms_isr( rtems_vector_number vector );
46 rtems_isr waveforms_simulator_isr( rtems_vector_number vector );
45 rtems_isr waveforms_simulator_isr( rtems_vector_number vector );
47 rtems_task wfrm_task( rtems_task_argument argument );
46 rtems_task wfrm_task( rtems_task_argument argument );
48 rtems_task cwf3_task( rtems_task_argument argument );
47 rtems_task cwf3_task( rtems_task_argument argument );
49 rtems_task cwf2_task( rtems_task_argument argument );
48 rtems_task cwf2_task( rtems_task_argument argument );
50 rtems_task cwf1_task( rtems_task_argument argument );
49 rtems_task cwf1_task( rtems_task_argument argument );
51
50
52 //******************
51 //******************
53 // general functions
52 // general functions
54 void init_waveforms( void );
53 void init_waveforms( void );
55 //
54 //
56 int init_header_snapshot_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_SWF_t *headerSWF );
55 int init_header_snapshot_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_SWF_t *headerSWF );
57 int init_header_continuous_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_CWF_t *headerCWF );
56 int init_header_continuous_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_CWF_t *headerCWF );
58 int init_header_continuous_wf3_light_table( Header_TM_LFR_SCIENCE_CWF_t *headerCWF );
57 int init_header_continuous_wf3_light_table( Header_TM_LFR_SCIENCE_CWF_t *headerCWF );
59 //
58 //
60 void reset_waveforms( void );
59 void reset_waveforms( void );
61 //
60 //
62 int send_waveform_SWF( volatile int *waveform, unsigned int sid, Header_TM_LFR_SCIENCE_SWF_t *headerSWF, rtems_id queue_id );
61 int send_waveform_SWF( volatile int *waveform, unsigned int sid, Header_TM_LFR_SCIENCE_SWF_t *headerSWF, rtems_id queue_id );
63 int send_waveform_CWF( volatile int *waveform, unsigned int sid, Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id );
62 int send_waveform_CWF( volatile int *waveform, unsigned int sid, Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id );
64 int send_waveform_CWF3( volatile int *waveform, unsigned int sid, Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id );
63 int send_waveform_CWF3( volatile int *waveform, unsigned int sid, Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id );
65 int send_waveform_CWF3_light( volatile int *waveform, Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id );
64 int send_waveform_CWF3_light( volatile int *waveform, Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id );
66 //
65 //
67 rtems_id get_pkts_queue_id( void );
66 rtems_id get_pkts_queue_id( void );
68
67
69 //**************
68 //**************
70 // wfp registers
69 // wfp registers
71 void set_wfp_data_shaping();
70 void set_wfp_data_shaping();
72 char set_wfp_delta_snapshot();
71 char set_wfp_delta_snapshot();
73 void set_wfp_burst_enable_register( unsigned char mode);
72 void set_wfp_burst_enable_register( unsigned char mode);
74 void reset_wfp_burst_enable();
73 void reset_wfp_burst_enable();
75 void reset_wfp_status();
74 void reset_wfp_status();
76 void reset_waveform_picker_regs();
75 void reset_waveform_picker_regs();
77
76
78 //*****************
77 //*****************
79 // local parameters
78 // local parameters
80 void set_local_sbm1_nb_cwf_max();
79 void set_local_sbm1_nb_cwf_max( void );
81 void set_local_sbm2_nb_cwf_max();
80 void set_local_sbm2_nb_cwf_max( void );
82 void set_local_nb_interrupt_f0_MAX();
81 void set_local_nb_interrupt_f0_MAX( void );
83 void reset_local_sbm1_nb_cwf_sent();
82 void reset_local_sbm1_nb_cwf_sent( void );
84 void reset_local_sbm2_nb_cwf_sent();
83 void reset_local_sbm2_nb_cwf_sent( void );
85
84
86 void increment_seq_counter_source_id( unsigned char *packet_sequence_control, unsigned int sid );
85 void increment_seq_counter_source_id( unsigned char *packet_sequence_control, unsigned int sid );
87
86
88 #endif // WF_HANDLER_H_INCLUDED
87 #endif // WF_HANDLER_H_INCLUDED
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@@ -1,92 +1,91
1 /** Global variables of the LFR flight software.
1 /** Global variables of the LFR flight software.
2 *
2 *
3 * @file
3 * @file
4 * @author P. LEROY
4 * @author P. LEROY
5 *
5 *
6 * Among global variables, there are:
6 * Among global variables, there are:
7 * - RTEMS names and id.
7 * - RTEMS names and id.
8 * - APB configuration registers.
8 * - APB configuration registers.
9 * - waveforms global buffers, used by the waveform picker hardware module to store data.
9 * - waveforms global buffers, used by the waveform picker hardware module to store data.
10 * - spectral matrices buffesr, used by the hardware module to store data.
10 * - spectral matrices buffesr, used by the hardware module to store data.
11 * - variable related to LFR modes parameters.
11 * - variable related to LFR modes parameters.
12 * - the global HK packet buffer.
12 * - the global HK packet buffer.
13 * - the global dump parameter buffer.
13 * - the global dump parameter buffer.
14 *
14 *
15 */
15 */
16
16
17 #include <rtems.h>
17 #include <rtems.h>
18 #include <grspw.h>
18 #include <grspw.h>
19
19
20 #include "ccsds_types.h"
20 #include "ccsds_types.h"
21 #include "grlib_regs.h"
21 #include "grlib_regs.h"
22 #include "fsw_params.h"
22 #include "fsw_params.h"
23
23
24 // RTEMS GLOBAL VARIABLES
24 // RTEMS GLOBAL VARIABLES
25 rtems_name misc_name[5];
25 rtems_name misc_name[5];
26 rtems_id misc_id[5];
26 rtems_id misc_id[5];
27 rtems_name Task_name[20]; /* array of task names */
27 rtems_name Task_name[20]; /* array of task names */
28 rtems_id Task_id[20]; /* array of task ids */
28 rtems_id Task_id[20]; /* array of task ids */
29 unsigned int maxCount;
29 unsigned int maxCount;
30 int fdSPW = 0;
30 int fdSPW = 0;
31 int fdUART = 0;
31 int fdUART = 0;
32 unsigned char lfrCurrentMode;
32 unsigned char lfrCurrentMode;
33
33
34 // APB CONFIGURATION REGISTERS
34 // APB CONFIGURATION REGISTERS
35 time_management_regs_t *time_management_regs = (time_management_regs_t*) REGS_ADDR_TIME_MANAGEMENT;
35 time_management_regs_t *time_management_regs = (time_management_regs_t*) REGS_ADDR_TIME_MANAGEMENT;
36 gptimer_regs_t *gptimer_regs = (gptimer_regs_t *) REGS_ADDR_GPTIMER;
36 gptimer_regs_t *gptimer_regs = (gptimer_regs_t *) REGS_ADDR_GPTIMER;
37 #ifdef GSA
37 #ifdef GSA
38 #else
38 #else
39 waveform_picker_regs_t *waveform_picker_regs = (waveform_picker_regs_t*) REGS_ADDR_WAVEFORM_PICKER;
39 waveform_picker_regs_t *waveform_picker_regs = (waveform_picker_regs_t*) REGS_ADDR_WAVEFORM_PICKER;
40 waveform_picker_regs_t_alt *waveform_picker_regs_alt = (waveform_picker_regs_t_alt*) REGS_ADDR_WAVEFORM_PICKER;
41 #endif
40 #endif
42 spectral_matrix_regs_t *spectral_matrix_regs = (spectral_matrix_regs_t*) REGS_ADDR_SPECTRAL_MATRIX;
41 spectral_matrix_regs_t *spectral_matrix_regs = (spectral_matrix_regs_t*) REGS_ADDR_SPECTRAL_MATRIX;
43
42
44 // WAVEFORMS GLOBAL VARIABLES // 2048 * 3 * 4 + 2 * 4 = 24576 + 8 bytes
43 // WAVEFORMS GLOBAL VARIABLES // 2048 * 3 * 4 + 2 * 4 = 24576 + 8 bytes
45 volatile int wf_snap_f0[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
44 volatile int wf_snap_f0[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
46 //
45 //
47 volatile int wf_snap_f1[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
46 volatile int wf_snap_f1[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
48 volatile int wf_snap_f1_bis[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
47 volatile int wf_snap_f1_bis[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
49 volatile int wf_snap_f1_norm[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
48 volatile int wf_snap_f1_norm[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
50 //
49 //
51 volatile int wf_snap_f2[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
50 volatile int wf_snap_f2[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
52 volatile int wf_snap_f2_bis[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
51 volatile int wf_snap_f2_bis[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
53 volatile int wf_snap_f2_norm[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
52 volatile int wf_snap_f2_norm[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
54 //
53 //
55 volatile int wf_cont_f3[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
54 volatile int wf_cont_f3[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
56 volatile int wf_cont_f3_bis[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
55 volatile int wf_cont_f3_bis[ NB_SAMPLES_PER_SNAPSHOT * NB_WORDS_SWF_BLK + TIME_OFFSET ];
57 char wf_cont_f3_light[ NB_SAMPLES_PER_SNAPSHOT * NB_BYTES_CWF3_LIGHT_BLK ];
56 char wf_cont_f3_light[ NB_SAMPLES_PER_SNAPSHOT * NB_BYTES_CWF3_LIGHT_BLK ];
58
57
59 // SPECTRAL MATRICES GLOBAL VARIABLES
58 // SPECTRAL MATRICES GLOBAL VARIABLES
60 volatile int spec_mat_f0_0[ SM_HEADER + TOTAL_SIZE_SM ];
59 volatile int spec_mat_f0_0[ SM_HEADER + TOTAL_SIZE_SM ];
61 volatile int spec_mat_f0_1[ SM_HEADER + TOTAL_SIZE_SM ];
60 volatile int spec_mat_f0_1[ SM_HEADER + TOTAL_SIZE_SM ];
62 volatile int spec_mat_f0_a[ SM_HEADER + TOTAL_SIZE_SM ];
61 volatile int spec_mat_f0_a[ SM_HEADER + TOTAL_SIZE_SM ];
63 volatile int spec_mat_f0_b[ SM_HEADER + TOTAL_SIZE_SM ];
62 volatile int spec_mat_f0_b[ SM_HEADER + TOTAL_SIZE_SM ];
64 volatile int spec_mat_f0_c[ SM_HEADER + TOTAL_SIZE_SM ];
63 volatile int spec_mat_f0_c[ SM_HEADER + TOTAL_SIZE_SM ];
65 volatile int spec_mat_f0_d[ SM_HEADER + TOTAL_SIZE_SM ];
64 volatile int spec_mat_f0_d[ SM_HEADER + TOTAL_SIZE_SM ];
66 volatile int spec_mat_f0_e[ SM_HEADER + TOTAL_SIZE_SM ];
65 volatile int spec_mat_f0_e[ SM_HEADER + TOTAL_SIZE_SM ];
67 volatile int spec_mat_f0_f[ SM_HEADER + TOTAL_SIZE_SM ];
66 volatile int spec_mat_f0_f[ SM_HEADER + TOTAL_SIZE_SM ];
68 volatile int spec_mat_f0_g[ SM_HEADER + TOTAL_SIZE_SM ];
67 volatile int spec_mat_f0_g[ SM_HEADER + TOTAL_SIZE_SM ];
69 volatile int spec_mat_f0_h[ SM_HEADER + TOTAL_SIZE_SM ];
68 volatile int spec_mat_f0_h[ SM_HEADER + TOTAL_SIZE_SM ];
70 volatile int spec_mat_f0_0_bis[ SM_HEADER + TOTAL_SIZE_SM ];
69 volatile int spec_mat_f0_0_bis[ SM_HEADER + TOTAL_SIZE_SM ];
71 volatile int spec_mat_f0_1_bis[ SM_HEADER + TOTAL_SIZE_SM ];
70 volatile int spec_mat_f0_1_bis[ SM_HEADER + TOTAL_SIZE_SM ];
72 //
71 //
73 volatile int spec_mat_f1[ SM_HEADER + TOTAL_SIZE_SM ];
72 volatile int spec_mat_f1[ SM_HEADER + TOTAL_SIZE_SM ];
74 volatile int spec_mat_f1_bis[ SM_HEADER + TOTAL_SIZE_SM ];
73 volatile int spec_mat_f1_bis[ SM_HEADER + TOTAL_SIZE_SM ];
75 //
74 //
76 volatile int spec_mat_f2[ SM_HEADER + TOTAL_SIZE_SM ];
75 volatile int spec_mat_f2[ SM_HEADER + TOTAL_SIZE_SM ];
77 volatile int spec_mat_f2_bis[ SM_HEADER + TOTAL_SIZE_SM ];
76 volatile int spec_mat_f2_bis[ SM_HEADER + TOTAL_SIZE_SM ];
78
77
79 // MODE PARAMETERS
78 // MODE PARAMETERS
80 Packet_TM_LFR_PARAMETER_DUMP_t parameter_dump_packet;
79 Packet_TM_LFR_PARAMETER_DUMP_t parameter_dump_packet;
81 struct param_local_str param_local;
80 struct param_local_str param_local;
82
81
83 // HK PACKETS
82 // HK PACKETS
84 Packet_TM_LFR_HK_t housekeeping_packet;
83 Packet_TM_LFR_HK_t housekeeping_packet;
85 // sequence counters are incremented by APID (PID + CAT) and destination ID
84 // sequence counters are incremented by APID (PID + CAT) and destination ID
86 unsigned short sequenceCounters_SCIENCE_NORMAL_BURST;
85 unsigned short sequenceCounters_SCIENCE_NORMAL_BURST;
87 unsigned short sequenceCounters_SCIENCE_SBM1_SBM2;
86 unsigned short sequenceCounters_SCIENCE_SBM1_SBM2;
88 unsigned short sequenceCounters_TC_EXE[SEQ_CNT_NB_DEST_ID];
87 unsigned short sequenceCounters_TC_EXE[SEQ_CNT_NB_DEST_ID];
89 spw_stats spacewire_stats;
88 spw_stats spacewire_stats;
90 spw_stats spacewire_stats_backup;
89 spw_stats spacewire_stats_backup;
91
90
92
91
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@@ -1,333 +1,336
1 /** General usage functions and RTEMS tasks.
1 /** General usage functions and RTEMS tasks.
2 *
2 *
3 * @file
3 * @file
4 * @author P. LEROY
4 * @author P. LEROY
5 *
5 *
6 */
6 */
7
7
8 #include "fsw_misc.h"
8 #include "fsw_misc.h"
9
9
10 char *DumbMessages[7] = {"in DUMB *** default", // RTEMS_EVENT_0
10 //char *DumbMessages[7] = {"in DUMB *** default", // RTEMS_EVENT_0
11 "in DUMB *** timecode_irq_handler", // RTEMS_EVENT_1
11 // "in DUMB *** timecode_irq_handler", // RTEMS_EVENT_1
12 "in DUMB *** waveforms_isr", // RTEMS_EVENT_2
12 // "in DUMB *** waveforms_isr", // RTEMS_EVENT_2
13 "in DUMB *** in SMIQ *** Error sending event to AVF0", // RTEMS_EVENT_3
13 // "in DUMB *** in SMIQ *** Error sending event to AVF0", // RTEMS_EVENT_3
14 "in DUMB *** spectral_matrices_isr *** Error sending event to SMIQ", // RTEMS_EVENT_4
14 // "in DUMB *** spectral_matrices_isr *** Error sending event to SMIQ", // RTEMS_EVENT_4
15 "in DUMB *** waveforms_simulator_isr", // RTEMS_EVENT_5
15 // "in DUMB *** waveforms_simulator_isr", // RTEMS_EVENT_5
16 "ERR HK" // RTEMS_EVENT_6
16 // "ERR HK" // RTEMS_EVENT_6
17 };
17 //};
18
18
19 int configure_timer(gptimer_regs_t *gptimer_regs, unsigned char timer, unsigned int clock_divider,
19 void configure_timer(gptimer_regs_t *gptimer_regs, unsigned char timer, unsigned int clock_divider,
20 unsigned char interrupt_level, rtems_isr (*timer_isr)() )
20 unsigned char interrupt_level, rtems_isr (*timer_isr)() )
21 {
21 {
22 /** This function configures a GPTIMER timer instantiated in the VHDL design.
22 /** This function configures a GPTIMER timer instantiated in the VHDL design.
23 *
23 *
24 * @param gptimer_regs points to the APB registers of the GPTIMER IP core.
24 * @param gptimer_regs points to the APB registers of the GPTIMER IP core.
25 * @param timer is the number of the timer in the IP core (several timers can be instantiated).
25 * @param timer is the number of the timer in the IP core (several timers can be instantiated).
26 * @param clock_divider is the divider of the 1 MHz clock that will be configured.
26 * @param clock_divider is the divider of the 1 MHz clock that will be configured.
27 * @param interrupt_level is the interrupt level that the timer drives.
27 * @param interrupt_level is the interrupt level that the timer drives.
28 * @param timer_isr is the interrupt subroutine that will be attached to the IRQ driven by the timer.
28 * @param timer_isr is the interrupt subroutine that will be attached to the IRQ driven by the timer.
29 *
29 *
30 * @return
31 *
32 * Interrupt levels are described in the SPARC documentation sparcv8.pdf p.76
30 * Interrupt levels are described in the SPARC documentation sparcv8.pdf p.76
33 *
31 *
34 */
32 */
35
33
36 rtems_status_code status;
34 rtems_status_code status;
37 rtems_isr_entry old_isr_handler;
35 rtems_isr_entry old_isr_handler;
38
36
39 status = rtems_interrupt_catch( timer_isr, interrupt_level, &old_isr_handler) ; // see sparcv8.pdf p.76 for interrupt levels
37 status = rtems_interrupt_catch( timer_isr, interrupt_level, &old_isr_handler) ; // see sparcv8.pdf p.76 for interrupt levels
40 if (status!=RTEMS_SUCCESSFUL)
38 if (status!=RTEMS_SUCCESSFUL)
41 {
39 {
42 PRINTF("in configure_timer *** ERR rtems_interrupt_catch\n")
40 PRINTF("in configure_timer *** ERR rtems_interrupt_catch\n")
43 }
41 }
44
42
45 timer_set_clock_divider( gptimer_regs, timer, clock_divider);
43 timer_set_clock_divider( gptimer_regs, timer, clock_divider);
46
47 return 1;
48 }
44 }
49
45
50 int timer_start(gptimer_regs_t *gptimer_regs, unsigned char timer)
46 void timer_start(gptimer_regs_t *gptimer_regs, unsigned char timer)
51 {
47 {
52 /** This function starts a GPTIMER timer.
48 /** This function starts a GPTIMER timer.
53 *
49 *
54 * @param gptimer_regs points to the APB registers of the GPTIMER IP core.
50 * @param gptimer_regs points to the APB registers of the GPTIMER IP core.
55 * @param timer is the number of the timer in the IP core (several timers can be instantiated).
51 * @param timer is the number of the timer in the IP core (several timers can be instantiated).
56 *
52 *
57 * @return 1
58 *
59 */
53 */
60
54
61 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl | 0x00000010; // clear pending IRQ if any
55 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl | 0x00000010; // clear pending IRQ if any
62 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl | 0x00000004; // LD load value from the reload register
56 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl | 0x00000004; // LD load value from the reload register
63 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl | 0x00000001; // EN enable the timer
57 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl | 0x00000001; // EN enable the timer
64 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl | 0x00000002; // RS restart
58 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl | 0x00000002; // RS restart
65 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl | 0x00000008; // IE interrupt enable
59 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl | 0x00000008; // IE interrupt enable
66
67 return 1;
68 }
60 }
69
61
70 int timer_stop(gptimer_regs_t *gptimer_regs, unsigned char timer)
62 void timer_stop(gptimer_regs_t *gptimer_regs, unsigned char timer)
71 {
63 {
72 /** This function stops a GPTIMER timer.
64 /** This function stops a GPTIMER timer.
73 *
65 *
74 * @param gptimer_regs points to the APB registers of the GPTIMER IP core.
66 * @param gptimer_regs points to the APB registers of the GPTIMER IP core.
75 * @param timer is the number of the timer in the IP core (several timers can be instantiated).
67 * @param timer is the number of the timer in the IP core (several timers can be instantiated).
76 *
68 *
77 * @return 1
78 *
79 */
69 */
80
70
81 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl & 0xfffffffe; // EN enable the timer
71 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl & 0xfffffffe; // EN enable the timer
82 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl & 0xffffffef; // IE interrupt enable
72 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl & 0xffffffef; // IE interrupt enable
83 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl | 0x00000010; // clear pending IRQ if any
73 gptimer_regs->timer[timer].ctrl = gptimer_regs->timer[timer].ctrl | 0x00000010; // clear pending IRQ if any
84
85 return 1;
86 }
74 }
87
75
88 int timer_set_clock_divider(gptimer_regs_t *gptimer_regs, unsigned char timer, unsigned int clock_divider)
76 void timer_set_clock_divider(gptimer_regs_t *gptimer_regs, unsigned char timer, unsigned int clock_divider)
89 {
77 {
90 /** This function sets the clock divider of a GPTIMER timer.
78 /** This function sets the clock divider of a GPTIMER timer.
91 *
79 *
92 * @param gptimer_regs points to the APB registers of the GPTIMER IP core.
80 * @param gptimer_regs points to the APB registers of the GPTIMER IP core.
93 * @param timer is the number of the timer in the IP core (several timers can be instantiated).
81 * @param timer is the number of the timer in the IP core (several timers can be instantiated).
94 * @param clock_divider is the divider of the 1 MHz clock that will be configured.
82 * @param clock_divider is the divider of the 1 MHz clock that will be configured.
95 *
83 *
96 * @return 1
97 *
98 */
84 */
99
85
100 gptimer_regs->timer[timer].reload = clock_divider; // base clock frequency is 1 MHz
86 gptimer_regs->timer[timer].reload = clock_divider; // base clock frequency is 1 MHz
101
102 return 1;
103 }
87 }
104
88
105 int send_console_outputs_on_apbuart_port( void ) // Send the console outputs on the apbuart port
89 int send_console_outputs_on_apbuart_port( void ) // Send the console outputs on the apbuart port
106 {
90 {
107 struct apbuart_regs_str *apbuart_regs = (struct apbuart_regs_str *) REGS_ADDR_APBUART;
91 struct apbuart_regs_str *apbuart_regs = (struct apbuart_regs_str *) REGS_ADDR_APBUART;
108
92
109 apbuart_regs->ctrl = apbuart_regs->ctrl & APBUART_CTRL_REG_MASK_DB;
93 apbuart_regs->ctrl = apbuart_regs->ctrl & APBUART_CTRL_REG_MASK_DB;
110 PRINTF("\n\n\n\n\nIn INIT *** Now the console is on port COM1\n")
94 PRINTF("\n\n\n\n\nIn INIT *** Now the console is on port COM1\n")
111
95
112 return 0;
96 return 0;
113 }
97 }
114
98
115 void set_apbuart_scaler_reload_register(unsigned int regs, unsigned int value)
99 void set_apbuart_scaler_reload_register(unsigned int regs, unsigned int value)
116 {
100 {
117 /** This function sets the scaler reload register of the apbuart module
101 /** This function sets the scaler reload register of the apbuart module
118 *
102 *
119 * @param regs is the address of the apbuart registers in memory
103 * @param regs is the address of the apbuart registers in memory
120 * @param value is the value that will be stored in the scaler register
104 * @param value is the value that will be stored in the scaler register
121 *
105 *
122 * The value shall be set by the software to get data on the serial interface.
106 * The value shall be set by the software to get data on the serial interface.
123 *
107 *
124 */
108 */
125
109
126 struct apbuart_regs_str *apbuart_regs = (struct apbuart_regs_str *) regs;
110 struct apbuart_regs_str *apbuart_regs = (struct apbuart_regs_str *) regs;
127
111
128 apbuart_regs->scaler = value;
112 apbuart_regs->scaler = value;
129 BOOT_PRINTF1("OK *** apbuart port scaler reload register set to 0x%x\n", value)
113 BOOT_PRINTF1("OK *** apbuart port scaler reload register set to 0x%x\n", value)
130 }
114 }
131
115
132 //************
116 //************
133 // RTEMS TASKS
117 // RTEMS TASKS
134
118
135 rtems_task stat_task(rtems_task_argument argument)
119 rtems_task stat_task(rtems_task_argument argument)
136 {
120 {
137 int i;
121 int i;
138 int j;
122 int j;
139 i = 0;
123 i = 0;
140 j = 0;
124 j = 0;
141 BOOT_PRINTF("in STAT *** \n")
125 BOOT_PRINTF("in STAT *** \n")
142 while(1){
126 while(1){
143 rtems_task_wake_after(1000);
127 rtems_task_wake_after(1000);
144 PRINTF1("%d\n", j)
128 PRINTF1("%d\n", j)
145 if (i == CPU_USAGE_REPORT_PERIOD) {
129 if (i == CPU_USAGE_REPORT_PERIOD) {
146 // #ifdef PRINT_TASK_STATISTICS
130 // #ifdef PRINT_TASK_STATISTICS
147 // rtems_cpu_usage_report();
131 // rtems_cpu_usage_report();
148 // rtems_cpu_usage_reset();
132 // rtems_cpu_usage_reset();
149 // #endif
133 // #endif
150 i = 0;
134 i = 0;
151 }
135 }
152 else i++;
136 else i++;
153 j++;
137 j++;
154 }
138 }
155 }
139 }
156
140
157 rtems_task hous_task(rtems_task_argument argument)
141 rtems_task hous_task(rtems_task_argument argument)
158 {
142 {
159 rtems_status_code status;
143 rtems_status_code status;
160 rtems_id queue_id;
144 rtems_id queue_id;
161
145
162 status = rtems_message_queue_ident( misc_name[QUEUE_SEND], 0, &queue_id );
146 status = rtems_message_queue_ident( misc_name[QUEUE_SEND], 0, &queue_id );
163 if (status != RTEMS_SUCCESSFUL)
147 if (status != RTEMS_SUCCESSFUL)
164 {
148 {
165 PRINTF1("in HOUS *** ERR %d\n", status)
149 PRINTF1("in HOUS *** ERR %d\n", status)
166 }
150 }
167
151
168 BOOT_PRINTF("in HOUS ***\n")
152 BOOT_PRINTF("in HOUS ***\n")
169
153
170 if (rtems_rate_monotonic_ident( name_hk_rate_monotonic, &HK_id) != RTEMS_SUCCESSFUL) {
154 if (rtems_rate_monotonic_ident( name_hk_rate_monotonic, &HK_id) != RTEMS_SUCCESSFUL) {
171 status = rtems_rate_monotonic_create( name_hk_rate_monotonic, &HK_id );
155 status = rtems_rate_monotonic_create( name_hk_rate_monotonic, &HK_id );
172 if( status != RTEMS_SUCCESSFUL ) {
156 if( status != RTEMS_SUCCESSFUL ) {
173 PRINTF1( "rtems_rate_monotonic_create failed with status of %d\n", status )
157 PRINTF1( "rtems_rate_monotonic_create failed with status of %d\n", status )
174 }
158 }
175 }
159 }
176
160
177 housekeeping_packet.targetLogicalAddress = CCSDS_DESTINATION_ID;
161 housekeeping_packet.targetLogicalAddress = CCSDS_DESTINATION_ID;
178 housekeeping_packet.protocolIdentifier = CCSDS_PROTOCOLE_ID;
162 housekeeping_packet.protocolIdentifier = CCSDS_PROTOCOLE_ID;
179 housekeeping_packet.reserved = DEFAULT_RESERVED;
163 housekeeping_packet.reserved = DEFAULT_RESERVED;
180 housekeeping_packet.userApplication = CCSDS_USER_APP;
164 housekeeping_packet.userApplication = CCSDS_USER_APP;
181 housekeeping_packet.packetID[0] = (unsigned char) (TM_PACKET_ID_HK >> 8);
165 housekeeping_packet.packetID[0] = (unsigned char) (TM_PACKET_ID_HK >> 8);
182 housekeeping_packet.packetID[1] = (unsigned char) (TM_PACKET_ID_HK);
166 housekeeping_packet.packetID[1] = (unsigned char) (TM_PACKET_ID_HK);
183 housekeeping_packet.packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_STANDALONE;
167 housekeeping_packet.packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_STANDALONE;
184 housekeeping_packet.packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
168 housekeeping_packet.packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
185 housekeeping_packet.packetLength[0] = (unsigned char) (PACKET_LENGTH_HK >> 8);
169 housekeeping_packet.packetLength[0] = (unsigned char) (PACKET_LENGTH_HK >> 8);
186 housekeeping_packet.packetLength[1] = (unsigned char) (PACKET_LENGTH_HK );
170 housekeeping_packet.packetLength[1] = (unsigned char) (PACKET_LENGTH_HK );
187 housekeeping_packet.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
171 housekeeping_packet.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
188 housekeeping_packet.serviceType = TM_TYPE_HK;
172 housekeeping_packet.serviceType = TM_TYPE_HK;
189 housekeeping_packet.serviceSubType = TM_SUBTYPE_HK;
173 housekeeping_packet.serviceSubType = TM_SUBTYPE_HK;
190 housekeeping_packet.destinationID = TM_DESTINATION_ID_GROUND;
174 housekeeping_packet.destinationID = TM_DESTINATION_ID_GROUND;
191
175
192 status = rtems_rate_monotonic_cancel(HK_id);
176 status = rtems_rate_monotonic_cancel(HK_id);
193 if( status != RTEMS_SUCCESSFUL ) {
177 if( status != RTEMS_SUCCESSFUL ) {
194 PRINTF1( "ERR *** in HOUS *** rtems_rate_monotonic_cancel(HK_id) ***code: %d\n", status )
178 PRINTF1( "ERR *** in HOUS *** rtems_rate_monotonic_cancel(HK_id) ***code: %d\n", status )
195 }
179 }
196 else {
180 else {
197 DEBUG_PRINTF("OK *** in HOUS *** rtems_rate_monotonic_cancel(HK_id)\n")
181 DEBUG_PRINTF("OK *** in HOUS *** rtems_rate_monotonic_cancel(HK_id)\n")
198 }
182 }
199
183
200 while(1){ // launch the rate monotonic task
184 while(1){ // launch the rate monotonic task
201 status = rtems_rate_monotonic_period( HK_id, HK_PERIOD );
185 status = rtems_rate_monotonic_period( HK_id, HK_PERIOD );
202 if ( status != RTEMS_SUCCESSFUL ) {
186 if ( status != RTEMS_SUCCESSFUL ) {
203 PRINTF1( "in HOUS *** ERR period: %d\n", status);
187 PRINTF1( "in HOUS *** ERR period: %d\n", status);
204 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_6 );
188 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_6 );
205 }
189 }
206 else {
190 else {
207 increment_seq_counter( housekeeping_packet.packetSequenceControl );
191 increment_seq_counter( housekeeping_packet.packetSequenceControl );
208 housekeeping_packet.time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
192 housekeeping_packet.time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
209 housekeeping_packet.time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
193 housekeeping_packet.time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
210 housekeeping_packet.time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
194 housekeeping_packet.time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
211 housekeeping_packet.time[3] = (unsigned char) (time_management_regs->coarse_time);
195 housekeeping_packet.time[3] = (unsigned char) (time_management_regs->coarse_time);
212 housekeeping_packet.time[4] = (unsigned char) (time_management_regs->fine_time>>8);
196 housekeeping_packet.time[4] = (unsigned char) (time_management_regs->fine_time>>8);
213 housekeeping_packet.time[5] = (unsigned char) (time_management_regs->fine_time);
197 housekeeping_packet.time[5] = (unsigned char) (time_management_regs->fine_time);
214 housekeeping_packet.sid = SID_HK;
198 housekeeping_packet.sid = SID_HK;
215
199
216 spacewire_update_statistics();
200 spacewire_update_statistics();
217
201
218 // SEND PACKET
202 // SEND PACKET
219 status = rtems_message_queue_send( queue_id, &housekeeping_packet,
203 status = rtems_message_queue_send( queue_id, &housekeeping_packet,
220 PACKET_LENGTH_HK + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES);
204 PACKET_LENGTH_HK + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES);
221 if (status != RTEMS_SUCCESSFUL) {
205 if (status != RTEMS_SUCCESSFUL) {
222 PRINTF1("in HOUS *** ERR send: %d\n", status)
206 PRINTF1("in HOUS *** ERR send: %d\n", status)
223 }
207 }
224 }
208 }
225 }
209 }
226
210
227 PRINTF("in HOUS *** deleting task\n")
211 PRINTF("in HOUS *** deleting task\n")
228
212
229 status = rtems_task_delete( RTEMS_SELF ); // should not return
213 status = rtems_task_delete( RTEMS_SELF ); // should not return
230 printf( "rtems_task_delete returned with status of %d.\n", status );
214 printf( "rtems_task_delete returned with status of %d.\n", status );
231 return;
215 return;
232 }
216 }
233
217
234 rtems_task dumb_task( rtems_task_argument unused )
218 rtems_task dumb_task( rtems_task_argument unused )
235 {
219 {
236 /** This RTEMS taks is used to print messages without affecting the general behaviour of the software.
220 /** This RTEMS taks is used to print messages without affecting the general behaviour of the software.
237 *
221 *
238 * @param unused is the starting argument of the RTEMS task
222 * @param unused is the starting argument of the RTEMS task
239 *
223 *
240 * The DUMB taks waits for RTEMS events and print messages depending on the incoming events.
224 * The DUMB taks waits for RTEMS events and print messages depending on the incoming events.
241 *
225 *
242 */
226 */
243
227
244 unsigned int i;
228 unsigned int i;
245 unsigned int intEventOut;
229 unsigned int intEventOut;
246 unsigned int coarse_time = 0;
230 unsigned int coarse_time = 0;
247 unsigned int fine_time = 0;
231 unsigned int fine_time = 0;
248 rtems_event_set event_out;
232 rtems_event_set event_out;
249
233
234 char *DumbMessages[7] = {"in DUMB *** default", // RTEMS_EVENT_0
235 "in DUMB *** timecode_irq_handler", // RTEMS_EVENT_1
236 "in DUMB *** waveforms_isr", // RTEMS_EVENT_2
237 "in DUMB *** in SMIQ *** Error sending event to AVF0", // RTEMS_EVENT_3
238 "in DUMB *** spectral_matrices_isr *** Error sending event to SMIQ", // RTEMS_EVENT_4
239 "in DUMB *** waveforms_simulator_isr", // RTEMS_EVENT_5
240 "ERR HK" // RTEMS_EVENT_6
241 };
242
250 BOOT_PRINTF("in DUMB *** \n")
243 BOOT_PRINTF("in DUMB *** \n")
251
244
252 while(1){
245 while(1){
253 rtems_event_receive(RTEMS_EVENT_0 | RTEMS_EVENT_1 | RTEMS_EVENT_2 | RTEMS_EVENT_3
246 rtems_event_receive(RTEMS_EVENT_0 | RTEMS_EVENT_1 | RTEMS_EVENT_2 | RTEMS_EVENT_3
254 | RTEMS_EVENT_4 | RTEMS_EVENT_5 | RTEMS_EVENT_6,
247 | RTEMS_EVENT_4 | RTEMS_EVENT_5 | RTEMS_EVENT_6,
255 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out); // wait for an RTEMS_EVENT
248 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out); // wait for an RTEMS_EVENT
256 intEventOut = (unsigned int) event_out;
249 intEventOut = (unsigned int) event_out;
257 for ( i=0; i<32; i++)
250 for ( i=0; i<32; i++)
258 {
251 {
259 if ( ((intEventOut >> i) & 0x0001) != 0)
252 if ( ((intEventOut >> i) & 0x0001) != 0)
260 {
253 {
261 coarse_time = time_management_regs->coarse_time;
254 coarse_time = time_management_regs->coarse_time;
262 fine_time = time_management_regs->fine_time;
255 fine_time = time_management_regs->fine_time;
263 printf("in DUMB *** coarse: %x, fine: %x, %s\n", coarse_time, fine_time, DumbMessages[i]);
256 printf("in DUMB *** coarse: %x, fine: %x, %s\n", coarse_time, fine_time, DumbMessages[i]);
264 }
257 }
265 }
258 }
266 }
259 }
267 }
260 }
268
261
269 //*****************************
262 //*****************************
270 // init housekeeping parameters
263 // init housekeeping parameters
271
264
272 void init_housekeeping_parameters( void )
265 void init_housekeeping_parameters( void )
273 {
266 {
274 /** This function initialize the housekeeping_packet global variable with default values.
267 /** This function initialize the housekeeping_packet global variable with default values.
275 *
268 *
276 */
269 */
277
270
278 unsigned int i = 0;
271 unsigned int i = 0;
279 char *parameters;
272 char *parameters;
280
273
281 parameters = (char*) &housekeeping_packet.lfr_status_word;
274 parameters = (char*) &housekeeping_packet.lfr_status_word;
282 for(i = 0; i< SIZE_HK_PARAMETERS; i++)
275 for(i = 0; i< SIZE_HK_PARAMETERS; i++)
283 {
276 {
284 parameters[i] = 0x00;
277 parameters[i] = 0x00;
285 }
278 }
286 // init status word
279 // init status word
287 housekeeping_packet.lfr_status_word[0] = DEFAULT_STATUS_WORD_BYTE0;
280 housekeeping_packet.lfr_status_word[0] = DEFAULT_STATUS_WORD_BYTE0;
288 housekeeping_packet.lfr_status_word[1] = DEFAULT_STATUS_WORD_BYTE1;
281 housekeeping_packet.lfr_status_word[1] = DEFAULT_STATUS_WORD_BYTE1;
289 // init software version
282 // init software version
290 housekeeping_packet.lfr_sw_version[0] = SW_VERSION_N1;
283 housekeeping_packet.lfr_sw_version[0] = SW_VERSION_N1;
291 housekeeping_packet.lfr_sw_version[1] = SW_VERSION_N2;
284 housekeeping_packet.lfr_sw_version[1] = SW_VERSION_N2;
292 housekeeping_packet.lfr_sw_version[2] = SW_VERSION_N3;
285 housekeeping_packet.lfr_sw_version[2] = SW_VERSION_N3;
293 housekeeping_packet.lfr_sw_version[3] = SW_VERSION_N4;
286 housekeeping_packet.lfr_sw_version[3] = SW_VERSION_N4;
294
287
295 }
288 }
296
289
297 void increment_seq_counter( unsigned char *packet_sequence_control)
290 void increment_seq_counter( unsigned char *packet_sequence_control)
298 {
291 {
292 /** This function increment the sequence counter psased in argument.
293 *
294 * The increment does not affect the grouping flag. In case of an overflow, the counter is reset to 0.
295 *
296 */
297
299 unsigned short sequence_cnt;
298 unsigned short sequence_cnt;
300 unsigned short segmentation_grouping_flag;
299 unsigned short segmentation_grouping_flag;
301 unsigned short new_packet_sequence_control;
300 unsigned short new_packet_sequence_control;
302
301
303 segmentation_grouping_flag = (unsigned short) ( (packet_sequence_control[0] & 0xc0) << 8 ); // keep bits 7 downto 6
302 segmentation_grouping_flag = (unsigned short) ( (packet_sequence_control[0] & 0xc0) << 8 ); // keep bits 7 downto 6
304 sequence_cnt = (unsigned short) (
303 sequence_cnt = (unsigned short) (
305 ( (packet_sequence_control[0] & 0x3f) << 8 ) // keep bits 5 downto 0
304 ( (packet_sequence_control[0] & 0x3f) << 8 ) // keep bits 5 downto 0
306 + packet_sequence_control[1]
305 + packet_sequence_control[1]
307 );
306 );
308
307
309 if ( sequence_cnt < SEQ_CNT_MAX)
308 if ( sequence_cnt < SEQ_CNT_MAX)
310 {
309 {
311 sequence_cnt = sequence_cnt + 1;
310 sequence_cnt = sequence_cnt + 1;
312 }
311 }
313 else
312 else
314 {
313 {
315 sequence_cnt = 0;
314 sequence_cnt = 0;
316 }
315 }
317
316
318 new_packet_sequence_control = segmentation_grouping_flag | sequence_cnt ;
317 new_packet_sequence_control = segmentation_grouping_flag | sequence_cnt ;
319
318
320 packet_sequence_control[0] = (unsigned char) (new_packet_sequence_control >> 8);
319 packet_sequence_control[0] = (unsigned char) (new_packet_sequence_control >> 8);
321 packet_sequence_control[1] = (unsigned char) (new_packet_sequence_control );
320 packet_sequence_control[1] = (unsigned char) (new_packet_sequence_control );
322 }
321 }
323
322
324 void getTime( unsigned char *time)
323 void getTime( unsigned char *time)
325 {
324 {
325 /** This function write the current local time in the time buffer passed in argument.
326 *
327 */
328
326 time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
329 time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
327 time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
330 time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
328 time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
331 time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
329 time[3] = (unsigned char) (time_management_regs->coarse_time);
332 time[3] = (unsigned char) (time_management_regs->coarse_time);
330 time[4] = (unsigned char) (time_management_regs->fine_time>>8);
333 time[4] = (unsigned char) (time_management_regs->fine_time>>8);
331 time[5] = (unsigned char) (time_management_regs->fine_time);
334 time[5] = (unsigned char) (time_management_regs->fine_time);
332 }
335 }
333
336
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@@ -1,677 +1,656
1 /** Functions related to data processing.
1 /** Functions related to data processing.
2 *
2 *
3 * @file
3 * @file
4 * @author P. LEROY
4 * @author P. LEROY
5 *
5 *
6 * These function are related to data processing, i.e. spectral matrices averaging and basic parameters computation.
6 * These function are related to data processing, i.e. spectral matrices averaging and basic parameters computation.
7 *
7 *
8 */
8 */
9
9
10 #include <fsw_processing.h>
10 #include <fsw_processing.h>
11
11
12 #include "fsw_processing_globals.c"
12 #include "fsw_processing_globals.c"
13
13
14 unsigned char LFR_BP1_F0[ NB_BINS_COMPRESSED_SM_F0 * 9 ];
15 BP1_t data_BP1[ NB_BINS_COMPRESSED_SM_F0 ];
14 BP1_t data_BP1[ NB_BINS_COMPRESSED_SM_F0 ];
16 float averaged_spec_mat_f0[ TOTAL_SIZE_SM ];
15 float averaged_spec_mat_f0[ TOTAL_SIZE_SM ];
17 char averaged_spec_mat_f0_char[ TOTAL_SIZE_SM * 2 ];
16 char averaged_spec_mat_f0_char[ TOTAL_SIZE_SM * 2 ];
18 float compressed_spec_mat_f0[ TOTAL_SIZE_COMPRESSED_MATRIX_f0 ];
17 float compressed_spec_mat_f0[ TOTAL_SIZE_COMPRESSED_MATRIX_f0 ];
19
18
20 //***********************************************************
19 //***********************************************************
21 // Interrupt Service Routine for spectral matrices processing
20 // Interrupt Service Routine for spectral matrices processing
22 rtems_isr spectral_matrices_isr( rtems_vector_number vector )
21 rtems_isr spectral_matrices_isr( rtems_vector_number vector )
23 {
22 {
24 unsigned char status;
23 unsigned char status;
25 unsigned char i;
24 unsigned char i;
26
25
27 status = spectral_matrix_regs->status; //[f2 f1 f0_1 f0_0]
26 status = spectral_matrix_regs->status; //[f2 f1 f0_1 f0_0]
28 for (i=0; i<4; i++)
27 for (i=0; i<4; i++)
29 {
28 {
30 if ( ( (status >> i) & 0x01) == 1) // (1) buffer rotation
29 if ( ( (status >> i) & 0x01) == 1) // (1) buffer rotation
31 {
30 {
32 switch(i)
31 switch(i)
33 {
32 {
34 case 0:
33 case 0:
35 if (spectral_matrix_regs->matrixF0_Address0 == (int) spec_mat_f0_0)
34 if (spectral_matrix_regs->matrixF0_Address0 == (int) spec_mat_f0_0)
36 {
35 {
37 spectral_matrix_regs->matrixF0_Address0 = (int) spec_mat_f0_0_bis;
36 spectral_matrix_regs->matrixF0_Address0 = (int) spec_mat_f0_0_bis;
38 }
37 }
39 else
38 else
40 {
39 {
41 spectral_matrix_regs->matrixF0_Address0 = (int) spec_mat_f0_0;
40 spectral_matrix_regs->matrixF0_Address0 = (int) spec_mat_f0_0;
42 }
41 }
43 spectral_matrix_regs->status = spectral_matrix_regs->status & 0xfffffffe;
42 spectral_matrix_regs->status = spectral_matrix_regs->status & 0xfffffffe;
44 break;
43 break;
45 case 1:
44 case 1:
46 if (spectral_matrix_regs->matrixFO_Address1 == (int) spec_mat_f0_1)
45 if (spectral_matrix_regs->matrixFO_Address1 == (int) spec_mat_f0_1)
47 {
46 {
48 spectral_matrix_regs->matrixFO_Address1 = (int) spec_mat_f0_1_bis;
47 spectral_matrix_regs->matrixFO_Address1 = (int) spec_mat_f0_1_bis;
49 }
48 }
50 else
49 else
51 {
50 {
52 spectral_matrix_regs->matrixFO_Address1 = (int) spec_mat_f0_1;
51 spectral_matrix_regs->matrixFO_Address1 = (int) spec_mat_f0_1;
53 }
52 }
54 spectral_matrix_regs->status = spectral_matrix_regs->status & 0xfffffffd;
53 spectral_matrix_regs->status = spectral_matrix_regs->status & 0xfffffffd;
55 break;
54 break;
56 case 2:
55 case 2:
57 if (spectral_matrix_regs->matrixF1_Address == (int) spec_mat_f1)
56 if (spectral_matrix_regs->matrixF1_Address == (int) spec_mat_f1)
58 {
57 {
59 spectral_matrix_regs->matrixF1_Address = (int) spec_mat_f1_bis;
58 spectral_matrix_regs->matrixF1_Address = (int) spec_mat_f1_bis;
60 }
59 }
61 else
60 else
62 {
61 {
63 spectral_matrix_regs->matrixF1_Address = (int) spec_mat_f1;
62 spectral_matrix_regs->matrixF1_Address = (int) spec_mat_f1;
64 }
63 }
65 spectral_matrix_regs->status = spectral_matrix_regs->status & 0xfffffffb;
64 spectral_matrix_regs->status = spectral_matrix_regs->status & 0xfffffffb;
66 break;
65 break;
67 case 3:
66 case 3:
68 if (spectral_matrix_regs->matrixF2_Address == (int) spec_mat_f2)
67 if (spectral_matrix_regs->matrixF2_Address == (int) spec_mat_f2)
69 {
68 {
70 spectral_matrix_regs->matrixF2_Address = (int) spec_mat_f2_bis;
69 spectral_matrix_regs->matrixF2_Address = (int) spec_mat_f2_bis;
71 }
70 }
72 else
71 else
73 {
72 {
74 spectral_matrix_regs->matrixF2_Address = (int) spec_mat_f2;
73 spectral_matrix_regs->matrixF2_Address = (int) spec_mat_f2;
75 }
74 }
76 spectral_matrix_regs->status = spectral_matrix_regs->status & 0xfffffff7;
75 spectral_matrix_regs->status = spectral_matrix_regs->status & 0xfffffff7;
77 break;
76 break;
78 default:
77 default:
79 break;
78 break;
80 }
79 }
81 }
80 }
82 }
81 }
83
82
84 // reset error codes to 0
83 // reset error codes to 0
85 spectral_matrix_regs->status = spectral_matrix_regs->status & 0xffffffcf; // [1100 1111]
84 spectral_matrix_regs->status = spectral_matrix_regs->status & 0xffffffcf; // [1100 1111]
86
85
87 if (rtems_event_send( Task_id[TASKID_SMIQ], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) {
86 if (rtems_event_send( Task_id[TASKID_SMIQ], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) {
88 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_4 );
87 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_4 );
89 }
88 }
90 }
89 }
91
90
92 rtems_isr spectral_matrices_isr_simu( rtems_vector_number vector )
91 rtems_isr spectral_matrices_isr_simu( rtems_vector_number vector )
93 {
92 {
94 if (rtems_event_send( Task_id[TASKID_SMIQ], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) {
93 if (rtems_event_send( Task_id[TASKID_SMIQ], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) {
95 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_4 );
94 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_4 );
96 }
95 }
97 }
96 }
98
97
99 //************
98 //************
100 // RTEMS TASKS
99 // RTEMS TASKS
101
100
102 rtems_task smiq_task(rtems_task_argument argument) // process the Spectral Matrices IRQ
101 rtems_task smiq_task(rtems_task_argument argument) // process the Spectral Matrices IRQ
103 {
102 {
104 rtems_event_set event_out;
103 rtems_event_set event_out;
105 unsigned int nb_interrupt_f0 = 0;
104 unsigned int nb_interrupt_f0 = 0;
106
105
107 BOOT_PRINTF("in SMIQ *** \n")
106 BOOT_PRINTF("in SMIQ *** \n")
108
107
109 while(1){
108 while(1){
110 rtems_event_receive(RTEMS_EVENT_0, RTEMS_WAIT, RTEMS_NO_TIMEOUT, &event_out); // wait for an RTEMS_EVENT0
109 rtems_event_receive(RTEMS_EVENT_0, RTEMS_WAIT, RTEMS_NO_TIMEOUT, &event_out); // wait for an RTEMS_EVENT0
111 nb_interrupt_f0 = nb_interrupt_f0 + 1;
110 nb_interrupt_f0 = nb_interrupt_f0 + 1;
112 if (nb_interrupt_f0 == NB_SM_TO_RECEIVE_BEFORE_AVF0 ){
111 if (nb_interrupt_f0 == NB_SM_TO_RECEIVE_BEFORE_AVF0 ){
113 if (rtems_event_send( Task_id[TASKID_AVF0], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL)
112 if (rtems_event_send( Task_id[TASKID_AVF0], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL)
114 {
113 {
115 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_3 );
114 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_3 );
116 }
115 }
117 nb_interrupt_f0 = 0;
116 nb_interrupt_f0 = 0;
118 }
117 }
119 }
118 }
120 }
119 }
121
120
122 //rtems_task smiq_task(rtems_task_argument argument) // process the Spectral Matrices IRQ
123 //{
124 // rtems_event_set event_out;
125 // unsigned int nb_interrupt_f0 = 0;
126
127 // PRINTF("in SMIQ *** \n")
128
129 // while(1){
130 // rtems_event_receive(RTEMS_EVENT_0, RTEMS_WAIT, RTEMS_NO_TIMEOUT, &event_out); // wait for an RTEMS_EVENT0
131 // nb_interrupt_f0 = nb_interrupt_f0 + 1;
132 // if (nb_interrupt_f0 == param_local.local_nb_interrupt_f0_MAX ){
133 // if (rtems_event_send( Task_id[TASKID_MATR], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL)
134 // {
135 // rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_3 );
136 // }
137 // nb_interrupt_f0 = 0;
138 // }
139 // }
140 //}
141
142 rtems_task spw_bppr_task(rtems_task_argument argument)
121 rtems_task spw_bppr_task(rtems_task_argument argument)
143 {
122 {
144 rtems_status_code status;
123 rtems_status_code status;
145 rtems_event_set event_out;
124 rtems_event_set event_out;
146
125
147 BOOT_PRINTF("in BPPR ***\n");
126 BOOT_PRINTF("in BPPR ***\n");
148
127
149 while( true ){ // wait for an event to begin with the processing
128 while( true ){ // wait for an event to begin with the processing
150 status = rtems_event_receive(RTEMS_EVENT_0, RTEMS_WAIT, RTEMS_NO_TIMEOUT, &event_out);
129 status = rtems_event_receive(RTEMS_EVENT_0, RTEMS_WAIT, RTEMS_NO_TIMEOUT, &event_out);
151 }
130 }
152 }
131 }
153
132
154 rtems_task avf0_task(rtems_task_argument argument)
133 rtems_task avf0_task(rtems_task_argument argument)
155 {
134 {
156 int i;
135 int i;
157 static int nb_average;
136 static int nb_average;
158 rtems_event_set event_out;
137 rtems_event_set event_out;
159 rtems_status_code status;
138 rtems_status_code status;
160
139
161 nb_average = 0;
140 nb_average = 0;
162
141
163 BOOT_PRINTF("in AVFO *** \n")
142 BOOT_PRINTF("in AVFO *** \n")
164
143
165 while(1){
144 while(1){
166 rtems_event_receive(RTEMS_EVENT_0, RTEMS_WAIT, RTEMS_NO_TIMEOUT, &event_out); // wait for an RTEMS_EVENT0
145 rtems_event_receive(RTEMS_EVENT_0, RTEMS_WAIT, RTEMS_NO_TIMEOUT, &event_out); // wait for an RTEMS_EVENT0
167 for(i=0; i<TOTAL_SIZE_SM; i++){
146 for(i=0; i<TOTAL_SIZE_SM; i++){
168 averaged_spec_mat_f0[i] = averaged_spec_mat_f0[i] + spec_mat_f0_a[i]
147 averaged_spec_mat_f0[i] = averaged_spec_mat_f0[i] + spec_mat_f0_a[i]
169 + spec_mat_f0_b[i]
148 + spec_mat_f0_b[i]
170 + spec_mat_f0_c[i]
149 + spec_mat_f0_c[i]
171 + spec_mat_f0_d[i]
150 + spec_mat_f0_d[i]
172 + spec_mat_f0_e[i]
151 + spec_mat_f0_e[i]
173 + spec_mat_f0_f[i]
152 + spec_mat_f0_f[i]
174 + spec_mat_f0_g[i]
153 + spec_mat_f0_g[i]
175 + spec_mat_f0_h[i];
154 + spec_mat_f0_h[i];
176 }
155 }
177 nb_average = nb_average + NB_SM_TO_RECEIVE_BEFORE_AVF0;
156 nb_average = nb_average + NB_SM_TO_RECEIVE_BEFORE_AVF0;
178 if (nb_average == NB_AVERAGE_NORMAL_f0) {
157 if (nb_average == NB_AVERAGE_NORMAL_f0) {
179 nb_average = 0;
158 nb_average = 0;
180 status = rtems_event_send( Task_id[TASKID_MATR], RTEMS_EVENT_0 ); // sending an event to the task 7, BPF0
159 status = rtems_event_send( Task_id[TASKID_MATR], RTEMS_EVENT_0 ); // sending an event to the task 7, BPF0
181 if (status != RTEMS_SUCCESSFUL) {
160 if (status != RTEMS_SUCCESSFUL) {
182 printf("in AVF0 *** Error sending RTEMS_EVENT_0, code %d\n", status);
161 printf("in AVF0 *** Error sending RTEMS_EVENT_0, code %d\n", status);
183 }
162 }
184 }
163 }
185 }
164 }
186 }
165 }
187
166
188 rtems_task bpf0_task(rtems_task_argument argument)
167 rtems_task bpf0_task(rtems_task_argument argument)
189 {
168 {
190 rtems_event_set event_out;
169 rtems_event_set event_out;
170 static unsigned char LFR_BP1_F0[ NB_BINS_COMPRESSED_SM_F0 * 9 ];
191
171
192 BOOT_PRINTF("in BPFO *** \n")
172 BOOT_PRINTF("in BPFO *** \n")
193
173
194 while(1){
174 while(1){
195 rtems_event_receive(RTEMS_EVENT_0, RTEMS_WAIT, RTEMS_NO_TIMEOUT, &event_out); // wait for an RTEMS_EVENT0
175 rtems_event_receive(RTEMS_EVENT_0, RTEMS_WAIT, RTEMS_NO_TIMEOUT, &event_out); // wait for an RTEMS_EVENT0
196 matrix_compression(averaged_spec_mat_f0, 0, compressed_spec_mat_f0);
176 matrix_compression(averaged_spec_mat_f0, 0, compressed_spec_mat_f0);
197 BP1_set(compressed_spec_mat_f0, NB_BINS_COMPRESSED_SM_F0, LFR_BP1_F0);
177 BP1_set(compressed_spec_mat_f0, NB_BINS_COMPRESSED_SM_F0, LFR_BP1_F0);
198 //PRINTF("IN TASK BPF0 *** Matrix compressed, parameters calculated\n")
199 }
178 }
200 }
179 }
201
180
202 rtems_task matr_task(rtems_task_argument argument)
181 rtems_task matr_task(rtems_task_argument argument)
203 {
182 {
204 spw_ioctl_pkt_send spw_ioctl_send_ASM;
183 spw_ioctl_pkt_send spw_ioctl_send_ASM;
205 rtems_event_set event_out;
184 rtems_event_set event_out;
206 rtems_status_code status;
185 rtems_status_code status;
207 rtems_id queue_id;
186 rtems_id queue_id;
208 Header_TM_LFR_SCIENCE_ASM_t headerASM;
187 Header_TM_LFR_SCIENCE_ASM_t headerASM;
209
188
210 init_header_asm( &headerASM );
189 init_header_asm( &headerASM );
211
190
212 status = rtems_message_queue_ident( misc_name[QUEUE_SEND], 0, &queue_id );
191 status = rtems_message_queue_ident( misc_name[QUEUE_SEND], 0, &queue_id );
213 if (status != RTEMS_SUCCESSFUL)
192 if (status != RTEMS_SUCCESSFUL)
214 {
193 {
215 PRINTF1("in MATR *** ERR getting queue id, %d\n", status)
194 PRINTF1("in MATR *** ERR getting queue id, %d\n", status)
216 }
195 }
217
196
218 BOOT_PRINTF("in MATR *** \n")
197 BOOT_PRINTF("in MATR *** \n")
219
198
220 fill_averaged_spectral_matrix( );
199 fill_averaged_spectral_matrix( );
221
200
222 while(1){
201 while(1){
223 rtems_event_receive(RTEMS_EVENT_0, RTEMS_WAIT, RTEMS_NO_TIMEOUT, &event_out); // wait for an RTEMS_EVENT0
202 rtems_event_receive(RTEMS_EVENT_0, RTEMS_WAIT, RTEMS_NO_TIMEOUT, &event_out); // wait for an RTEMS_EVENT0
224
203
225 #ifdef GSA
204 #ifdef GSA
226 #else
205 #else
227 fill_averaged_spectral_matrix( );
206 fill_averaged_spectral_matrix( );
228 #endif
207 #endif
229 convert_averaged_spectral_matrix( averaged_spec_mat_f0, averaged_spec_mat_f0_char);
208 convert_averaged_spectral_matrix( averaged_spec_mat_f0, averaged_spec_mat_f0_char);
230
209
231 send_spectral_matrix( &headerASM, averaged_spec_mat_f0_char, SID_NORM_ASM_F0, &spw_ioctl_send_ASM, queue_id);
210 send_spectral_matrix( &headerASM, averaged_spec_mat_f0_char, SID_NORM_ASM_F0, &spw_ioctl_send_ASM, queue_id);
232 }
211 }
233 }
212 }
234
213
235 //*****************************
214 //*****************************
236 // Spectral matrices processing
215 // Spectral matrices processing
237
216
238 void matrix_reset(volatile float *averaged_spec_mat)
217 void matrix_reset(volatile float *averaged_spec_mat)
239 {
218 {
240 // int i;
219 int i;
241 // for(i=0; i<TOTAL_SIZE_SM; i++){
220 for(i=0; i<TOTAL_SIZE_SM; i++){
242 // averaged_spec_mat_f0[i] = 0;
221 averaged_spec_mat[i] = 0;
243 // }
222 }
244 }
223 }
245
224
246 void matrix_compression(volatile float *averaged_spec_mat, unsigned char fChannel, float *compressed_spec_mat)
225 void matrix_compression(volatile float *averaged_spec_mat, unsigned char fChannel, float *compressed_spec_mat)
247 {
226 {
248 int i;
227 int i;
249 int j;
228 int j;
250 switch (fChannel){
229 switch (fChannel){
251 case 0:
230 case 0:
252 for(i=0;i<NB_BINS_COMPRESSED_SM_F0;i++){
231 for(i=0;i<NB_BINS_COMPRESSED_SM_F0;i++){
253 j = 17 + (i * 8);
232 j = 17 + (i * 8);
254 compressed_spec_mat[i] = (averaged_spec_mat[j]
233 compressed_spec_mat[i] = (averaged_spec_mat[j]
255 + averaged_spec_mat[j+1]
234 + averaged_spec_mat[j+1]
256 + averaged_spec_mat[j+2]
235 + averaged_spec_mat[j+2]
257 + averaged_spec_mat[j+3]
236 + averaged_spec_mat[j+3]
258 + averaged_spec_mat[j+4]
237 + averaged_spec_mat[j+4]
259 + averaged_spec_mat[j+5]
238 + averaged_spec_mat[j+5]
260 + averaged_spec_mat[j+6]
239 + averaged_spec_mat[j+6]
261 + averaged_spec_mat[j+7])/(8*NB_AVERAGE_NORMAL_f0);
240 + averaged_spec_mat[j+7])/(8*NB_AVERAGE_NORMAL_f0);
262 }
241 }
263 break;
242 break;
264 case 1:
243 case 1:
265 // case fChannel = f1 to be completed later
244 // case fChannel = f1 to be completed later
266 break;
245 break;
267 case 2:
246 case 2:
268 // case fChannel = f1 to be completed later
247 // case fChannel = f1 to be completed later
269 break;
248 break;
270 default:
249 default:
271 break;
250 break;
272 }
251 }
273 }
252 }
274
253
275 void BP1_set(float * compressed_spec_mat, unsigned char nb_bins_compressed_spec_mat, unsigned char * LFR_BP1){
254 void BP1_set(float * compressed_spec_mat, unsigned char nb_bins_compressed_spec_mat, unsigned char * LFR_BP1){
276 int i;
255 int i;
277 int j;
256 int j;
278 unsigned char tmp_u_char;
257 unsigned char tmp_u_char;
279 unsigned char * pt_char = NULL;
258 unsigned char * pt_char = NULL;
280 float PSDB, PSDE;
259 float PSDB, PSDE;
281 float NVEC_V0;
260 float NVEC_V0;
282 float NVEC_V1;
261 float NVEC_V1;
283 float NVEC_V2;
262 float NVEC_V2;
284 //float significand;
263 //float significand;
285 //int exponent;
264 //int exponent;
286 float aux;
265 float aux;
287 float tr_SB_SB;
266 float tr_SB_SB;
288 float tmp;
267 float tmp;
289 float sx_re;
268 float sx_re;
290 float sx_im;
269 float sx_im;
291 float nebx_re = 0;
270 float nebx_re = 0;
292 float nebx_im = 0;
271 float nebx_im = 0;
293 float ny = 0;
272 float ny = 0;
294 float nz = 0;
273 float nz = 0;
295 float bx_bx_star = 0;
274 float bx_bx_star = 0;
296 for(i=0; i<nb_bins_compressed_spec_mat; i++){
275 for(i=0; i<nb_bins_compressed_spec_mat; i++){
297 //==============================================
276 //==============================================
298 // BP1 PSD == B PAR_LFR_SC_BP1_PE_FL0 == 16 bits
277 // BP1 PSD == B PAR_LFR_SC_BP1_PE_FL0 == 16 bits
299 PSDB = compressed_spec_mat[i*30] // S11
278 PSDB = compressed_spec_mat[i*30] // S11
300 + compressed_spec_mat[(i*30) + 10] // S22
279 + compressed_spec_mat[(i*30) + 10] // S22
301 + compressed_spec_mat[(i*30) + 18]; // S33
280 + compressed_spec_mat[(i*30) + 18]; // S33
302 //significand = frexp(PSDB, &exponent);
281 //significand = frexp(PSDB, &exponent);
303 pt_char = (unsigned char*) &PSDB;
282 pt_char = (unsigned char*) &PSDB;
304 LFR_BP1[(i*9) + 2] = pt_char[0]; // bits 31 downto 24 of the float
283 LFR_BP1[(i*9) + 2] = pt_char[0]; // bits 31 downto 24 of the float
305 LFR_BP1[(i*9) + 3] = pt_char[1]; // bits 23 downto 16 of the float
284 LFR_BP1[(i*9) + 3] = pt_char[1]; // bits 23 downto 16 of the float
306 //==============================================
285 //==============================================
307 // BP1 PSD == E PAR_LFR_SC_BP1_PB_FL0 == 16 bits
286 // BP1 PSD == E PAR_LFR_SC_BP1_PB_FL0 == 16 bits
308 PSDE = compressed_spec_mat[(i*30) + 24] * K44_pe // S44
287 PSDE = compressed_spec_mat[(i*30) + 24] * K44_pe // S44
309 + compressed_spec_mat[(i*30) + 28] * K55_pe // S55
288 + compressed_spec_mat[(i*30) + 28] * K55_pe // S55
310 + compressed_spec_mat[(i*30) + 26] * K45_pe_re // S45
289 + compressed_spec_mat[(i*30) + 26] * K45_pe_re // S45
311 - compressed_spec_mat[(i*30) + 27] * K45_pe_im; // S45
290 - compressed_spec_mat[(i*30) + 27] * K45_pe_im; // S45
312 pt_char = (unsigned char*) &PSDE;
291 pt_char = (unsigned char*) &PSDE;
313 LFR_BP1[(i*9) + 0] = pt_char[0]; // bits 31 downto 24 of the float
292 LFR_BP1[(i*9) + 0] = pt_char[0]; // bits 31 downto 24 of the float
314 LFR_BP1[(i*9) + 1] = pt_char[1]; // bits 23 downto 16 of the float
293 LFR_BP1[(i*9) + 1] = pt_char[1]; // bits 23 downto 16 of the float
315 //==============================================================================
294 //==============================================================================
316 // BP1 normal wave vector == PAR_LFR_SC_BP1_NVEC_V0_F0 == 8 bits
295 // BP1 normal wave vector == PAR_LFR_SC_BP1_NVEC_V0_F0 == 8 bits
317 // == PAR_LFR_SC_BP1_NVEC_V1_F0 == 8 bits
296 // == PAR_LFR_SC_BP1_NVEC_V1_F0 == 8 bits
318 // == PAR_LFR_SC_BP1_NVEC_V2_F0 == 1 bits
297 // == PAR_LFR_SC_BP1_NVEC_V2_F0 == 1 bits
319 tmp = sqrt(
298 tmp = sqrt(
320 compressed_spec_mat[(i*30) + 3]*compressed_spec_mat[(i*30) + 3] //Im S12
299 compressed_spec_mat[(i*30) + 3]*compressed_spec_mat[(i*30) + 3] //Im S12
321 +compressed_spec_mat[(i*30) + 5]*compressed_spec_mat[(i*30) + 5] //Im S13
300 +compressed_spec_mat[(i*30) + 5]*compressed_spec_mat[(i*30) + 5] //Im S13
322 +compressed_spec_mat[(i*30) + 13]*compressed_spec_mat[(i*30) + 13] //Im S23
301 +compressed_spec_mat[(i*30) + 13]*compressed_spec_mat[(i*30) + 13] //Im S23
323 );
302 );
324 NVEC_V0 = compressed_spec_mat[(i*30) + 13] / tmp; // Im S23
303 NVEC_V0 = compressed_spec_mat[(i*30) + 13] / tmp; // Im S23
325 NVEC_V1 = -compressed_spec_mat[(i*30) + 5] / tmp; // Im S13
304 NVEC_V1 = -compressed_spec_mat[(i*30) + 5] / tmp; // Im S13
326 NVEC_V2 = compressed_spec_mat[(i*30) + 3] / tmp; // Im S12
305 NVEC_V2 = compressed_spec_mat[(i*30) + 3] / tmp; // Im S12
327 LFR_BP1[(i*9) + 4] = (char) (NVEC_V0*127);
306 LFR_BP1[(i*9) + 4] = (char) (NVEC_V0*127);
328 LFR_BP1[(i*9) + 5] = (char) (NVEC_V1*127);
307 LFR_BP1[(i*9) + 5] = (char) (NVEC_V1*127);
329 pt_char = (unsigned char*) &NVEC_V2;
308 pt_char = (unsigned char*) &NVEC_V2;
330 LFR_BP1[(i*9) + 6] = pt_char[0] & 0x80; // extract the sign of NVEC_V2
309 LFR_BP1[(i*9) + 6] = pt_char[0] & 0x80; // extract the sign of NVEC_V2
331 //=======================================================
310 //=======================================================
332 // BP1 ellipticity == PAR_LFR_SC_BP1_ELLIP_F0 == 4 bits
311 // BP1 ellipticity == PAR_LFR_SC_BP1_ELLIP_F0 == 4 bits
333 aux = 2*tmp / PSDB; // compute the ellipticity
312 aux = 2*tmp / PSDB; // compute the ellipticity
334 tmp_u_char = (unsigned char) (aux*(16-1)); // convert the ellipticity
313 tmp_u_char = (unsigned char) (aux*(16-1)); // convert the ellipticity
335 LFR_BP1[i*9+6] = LFR_BP1[i*9+6] | ((tmp_u_char&0x0f)<<3); // keeps 4 bits of the resulting unsigned char
314 LFR_BP1[i*9+6] = LFR_BP1[i*9+6] | ((tmp_u_char&0x0f)<<3); // keeps 4 bits of the resulting unsigned char
336 //==============================================================
315 //==============================================================
337 // BP1 degree of polarization == PAR_LFR_SC_BP1_DOP_F0 == 3 bits
316 // BP1 degree of polarization == PAR_LFR_SC_BP1_DOP_F0 == 3 bits
338 for(j = 0; j<NB_VALUES_PER_SM;j++){
317 for(j = 0; j<NB_VALUES_PER_SM;j++){
339 tr_SB_SB = compressed_spec_mat[i*30] * compressed_spec_mat[i*30]
318 tr_SB_SB = compressed_spec_mat[i*30] * compressed_spec_mat[i*30]
340 + compressed_spec_mat[(i*30) + 10] * compressed_spec_mat[(i*30) + 10]
319 + compressed_spec_mat[(i*30) + 10] * compressed_spec_mat[(i*30) + 10]
341 + compressed_spec_mat[(i*30) + 18] * compressed_spec_mat[(i*30) + 18]
320 + compressed_spec_mat[(i*30) + 18] * compressed_spec_mat[(i*30) + 18]
342 + 2 * compressed_spec_mat[(i*30) + 2] * compressed_spec_mat[(i*30) + 2]
321 + 2 * compressed_spec_mat[(i*30) + 2] * compressed_spec_mat[(i*30) + 2]
343 + 2 * compressed_spec_mat[(i*30) + 3] * compressed_spec_mat[(i*30) + 3]
322 + 2 * compressed_spec_mat[(i*30) + 3] * compressed_spec_mat[(i*30) + 3]
344 + 2 * compressed_spec_mat[(i*30) + 4] * compressed_spec_mat[(i*30) + 4]
323 + 2 * compressed_spec_mat[(i*30) + 4] * compressed_spec_mat[(i*30) + 4]
345 + 2 * compressed_spec_mat[(i*30) + 5] * compressed_spec_mat[(i*30) + 5]
324 + 2 * compressed_spec_mat[(i*30) + 5] * compressed_spec_mat[(i*30) + 5]
346 + 2 * compressed_spec_mat[(i*30) + 12] * compressed_spec_mat[(i*30) + 12]
325 + 2 * compressed_spec_mat[(i*30) + 12] * compressed_spec_mat[(i*30) + 12]
347 + 2 * compressed_spec_mat[(i*30) + 13] * compressed_spec_mat[(i*30) + 13];
326 + 2 * compressed_spec_mat[(i*30) + 13] * compressed_spec_mat[(i*30) + 13];
348 }
327 }
349 aux = PSDB*PSDB;
328 aux = PSDB*PSDB;
350 tmp = sqrt( abs( ( 3*tr_SB_SB - aux ) / ( 2 * aux ) ) );
329 tmp = sqrt( abs( ( 3*tr_SB_SB - aux ) / ( 2 * aux ) ) );
351 tmp_u_char = (unsigned char) (NVEC_V0*(8-1));
330 tmp_u_char = (unsigned char) (NVEC_V0*(8-1));
352 LFR_BP1[(i*9) + 6] = LFR_BP1[(i*9) + 6] | (tmp_u_char & 0x07); // keeps 3 bits of the resulting unsigned char
331 LFR_BP1[(i*9) + 6] = LFR_BP1[(i*9) + 6] | (tmp_u_char & 0x07); // keeps 3 bits of the resulting unsigned char
353 //=======================================================================================
332 //=======================================================================================
354 // BP1 x-component of the normalized Poynting flux == PAR_LFR_SC_BP1_SZ_F0 == 8 bits (7+1)
333 // BP1 x-component of the normalized Poynting flux == PAR_LFR_SC_BP1_SZ_F0 == 8 bits (7+1)
355 sx_re = compressed_spec_mat[(i*30) + 20] * K34_sx_re
334 sx_re = compressed_spec_mat[(i*30) + 20] * K34_sx_re
356 + compressed_spec_mat[(i*30) + 6] * K14_sx_re
335 + compressed_spec_mat[(i*30) + 6] * K14_sx_re
357 + compressed_spec_mat[(i*30) + 8] * K15_sx_re
336 + compressed_spec_mat[(i*30) + 8] * K15_sx_re
358 + compressed_spec_mat[(i*30) + 14] * K24_sx_re
337 + compressed_spec_mat[(i*30) + 14] * K24_sx_re
359 + compressed_spec_mat[(i*30) + 16] * K25_sx_re
338 + compressed_spec_mat[(i*30) + 16] * K25_sx_re
360 + compressed_spec_mat[(i*30) + 22] * K35_sx_re;
339 + compressed_spec_mat[(i*30) + 22] * K35_sx_re;
361 sx_im = compressed_spec_mat[(i*30) + 21] * K34_sx_im
340 sx_im = compressed_spec_mat[(i*30) + 21] * K34_sx_im
362 + compressed_spec_mat[(i*30) + 7] * K14_sx_im
341 + compressed_spec_mat[(i*30) + 7] * K14_sx_im
363 + compressed_spec_mat[(i*30) + 9] * K15_sx_im
342 + compressed_spec_mat[(i*30) + 9] * K15_sx_im
364 + compressed_spec_mat[(i*30) + 15] * K24_sx_im
343 + compressed_spec_mat[(i*30) + 15] * K24_sx_im
365 + compressed_spec_mat[(i*30) + 17] * K25_sx_im
344 + compressed_spec_mat[(i*30) + 17] * K25_sx_im
366 + compressed_spec_mat[(i*30) + 23] * K35_sx_im;
345 + compressed_spec_mat[(i*30) + 23] * K35_sx_im;
367 LFR_BP1[(i*9) + 7] = ((unsigned char) (sx_re * 128)) & 0x7f; // cf DOC for the compression
346 LFR_BP1[(i*9) + 7] = ((unsigned char) (sx_re * 128)) & 0x7f; // cf DOC for the compression
368 if ( abs(sx_re) > abs(sx_im) ) {
347 if ( abs(sx_re) > abs(sx_im) ) {
369 LFR_BP1[(i*9) + 7] = LFR_BP1[(i*9) + 1] | (0x80); // extract the sector of sx
348 LFR_BP1[(i*9) + 7] = LFR_BP1[(i*9) + 1] | (0x80); // extract the sector of sx
370 }
349 }
371 else {
350 else {
372 LFR_BP1[(i*9) + 7] = LFR_BP1[(i*9) + 1] & (0x7f); // extract the sector of sx
351 LFR_BP1[(i*9) + 7] = LFR_BP1[(i*9) + 1] & (0x7f); // extract the sector of sx
373 }
352 }
374 //======================================================================
353 //======================================================================
375 // BP1 phase velocity estimator == PAR_LFR_SC_BP1_VPHI_F0 == 8 bits (7+1)
354 // BP1 phase velocity estimator == PAR_LFR_SC_BP1_VPHI_F0 == 8 bits (7+1)
376 ny = sin(Alpha_M)*NVEC_V1 + cos(Alpha_M)*NVEC_V2;
355 ny = sin(Alpha_M)*NVEC_V1 + cos(Alpha_M)*NVEC_V2;
377 nz = NVEC_V0;
356 nz = NVEC_V0;
378 bx_bx_star = cos(Alpha_M) * cos(Alpha_M) * compressed_spec_mat[i*30+10] // re S22
357 bx_bx_star = cos(Alpha_M) * cos(Alpha_M) * compressed_spec_mat[i*30+10] // re S22
379 + sin(Alpha_M) * sin(Alpha_M) * compressed_spec_mat[i*30+18] // re S33
358 + sin(Alpha_M) * sin(Alpha_M) * compressed_spec_mat[i*30+18] // re S33
380 - 2 * sin(Alpha_M) * cos(Alpha_M) * compressed_spec_mat[i*30+12]; // re S23
359 - 2 * sin(Alpha_M) * cos(Alpha_M) * compressed_spec_mat[i*30+12]; // re S23
381 nebx_re = ny * (compressed_spec_mat[(i*30) + 14] * K24_ny_re
360 nebx_re = ny * (compressed_spec_mat[(i*30) + 14] * K24_ny_re
382 +compressed_spec_mat[(i*30) + 16] * K25_ny_re
361 +compressed_spec_mat[(i*30) + 16] * K25_ny_re
383 +compressed_spec_mat[(i*30) + 20] * K34_ny_re
362 +compressed_spec_mat[(i*30) + 20] * K34_ny_re
384 +compressed_spec_mat[(i*30) + 22] * K35_ny_re)
363 +compressed_spec_mat[(i*30) + 22] * K35_ny_re)
385 + nz * (compressed_spec_mat[(i*30) + 14] * K24_nz_re
364 + nz * (compressed_spec_mat[(i*30) + 14] * K24_nz_re
386 +compressed_spec_mat[(i*30) + 16] * K25_nz_re
365 +compressed_spec_mat[(i*30) + 16] * K25_nz_re
387 +compressed_spec_mat[(i*30) + 20] * K34_nz_re
366 +compressed_spec_mat[(i*30) + 20] * K34_nz_re
388 +compressed_spec_mat[(i*30) + 22] * K35_nz_re);
367 +compressed_spec_mat[(i*30) + 22] * K35_nz_re);
389 nebx_im = ny * (compressed_spec_mat[(i*30) + 15]*K24_ny_re
368 nebx_im = ny * (compressed_spec_mat[(i*30) + 15]*K24_ny_re
390 +compressed_spec_mat[(i*30) + 17] * K25_ny_re
369 +compressed_spec_mat[(i*30) + 17] * K25_ny_re
391 +compressed_spec_mat[(i*30) + 21] * K34_ny_re
370 +compressed_spec_mat[(i*30) + 21] * K34_ny_re
392 +compressed_spec_mat[(i*30) + 23] * K35_ny_re)
371 +compressed_spec_mat[(i*30) + 23] * K35_ny_re)
393 + nz * (compressed_spec_mat[(i*30) + 15] * K24_nz_im
372 + nz * (compressed_spec_mat[(i*30) + 15] * K24_nz_im
394 +compressed_spec_mat[(i*30) + 17] * K25_nz_im
373 +compressed_spec_mat[(i*30) + 17] * K25_nz_im
395 +compressed_spec_mat[(i*30) + 21] * K34_nz_im
374 +compressed_spec_mat[(i*30) + 21] * K34_nz_im
396 +compressed_spec_mat[(i*30) + 23] * K35_nz_im);
375 +compressed_spec_mat[(i*30) + 23] * K35_nz_im);
397 tmp = nebx_re / bx_bx_star;
376 tmp = nebx_re / bx_bx_star;
398 LFR_BP1[(i*9) + 8] = ((unsigned char) (tmp * 128)) & 0x7f; // cf DOC for the compression
377 LFR_BP1[(i*9) + 8] = ((unsigned char) (tmp * 128)) & 0x7f; // cf DOC for the compression
399 if ( abs(nebx_re) > abs(nebx_im) ) {
378 if ( abs(nebx_re) > abs(nebx_im) ) {
400 LFR_BP1[(i*9) + 8] = LFR_BP1[(i*9) + 8] | (0x80); // extract the sector of nebx
379 LFR_BP1[(i*9) + 8] = LFR_BP1[(i*9) + 8] | (0x80); // extract the sector of nebx
401 }
380 }
402 else {
381 else {
403 LFR_BP1[(i*9) + 8] = LFR_BP1[(i*9) + 8] & (0x7f); // extract the sector of nebx
382 LFR_BP1[(i*9) + 8] = LFR_BP1[(i*9) + 8] & (0x7f); // extract the sector of nebx
404 }
383 }
405 }
384 }
406
385
407 }
386 }
408
387
409 void BP2_set(float * compressed_spec_mat, unsigned char nb_bins_compressed_spec_mat){
388 void BP2_set(float * compressed_spec_mat, unsigned char nb_bins_compressed_spec_mat){
410 // BP2 autocorrelation
389 // BP2 autocorrelation
411 int i;
390 int i;
412 int aux = 0;
391 int aux = 0;
413
392
414 for(i = 0; i<nb_bins_compressed_spec_mat; i++){
393 for(i = 0; i<nb_bins_compressed_spec_mat; i++){
415 // S12
394 // S12
416 aux = sqrt(compressed_spec_mat[i*30]*compressed_spec_mat[(i*30) + 10]);
395 aux = sqrt(compressed_spec_mat[i*30]*compressed_spec_mat[(i*30) + 10]);
417 compressed_spec_mat[(i*30) + 2] = compressed_spec_mat[(i*30) + 2] / aux;
396 compressed_spec_mat[(i*30) + 2] = compressed_spec_mat[(i*30) + 2] / aux;
418 compressed_spec_mat[(i*30) + 3] = compressed_spec_mat[(i*30) + 3] / aux;
397 compressed_spec_mat[(i*30) + 3] = compressed_spec_mat[(i*30) + 3] / aux;
419 // S13
398 // S13
420 aux = sqrt(compressed_spec_mat[i*30]*compressed_spec_mat[(i*30) + 18]);
399 aux = sqrt(compressed_spec_mat[i*30]*compressed_spec_mat[(i*30) + 18]);
421 compressed_spec_mat[(i*30) + 4] = compressed_spec_mat[(i*30) + 4] / aux;
400 compressed_spec_mat[(i*30) + 4] = compressed_spec_mat[(i*30) + 4] / aux;
422 compressed_spec_mat[(i*30) + 5] = compressed_spec_mat[(i*30) + 5] / aux;
401 compressed_spec_mat[(i*30) + 5] = compressed_spec_mat[(i*30) + 5] / aux;
423 // S23
402 // S23
424 aux = sqrt(compressed_spec_mat[i*30+12]*compressed_spec_mat[(i*30) + 18]);
403 aux = sqrt(compressed_spec_mat[i*30+12]*compressed_spec_mat[(i*30) + 18]);
425 compressed_spec_mat[(i*30) + 12] = compressed_spec_mat[(i*30) + 12] / aux;
404 compressed_spec_mat[(i*30) + 12] = compressed_spec_mat[(i*30) + 12] / aux;
426 compressed_spec_mat[(i*30) + 13] = compressed_spec_mat[(i*30) + 13] / aux;
405 compressed_spec_mat[(i*30) + 13] = compressed_spec_mat[(i*30) + 13] / aux;
427 // S45
406 // S45
428 aux = sqrt(compressed_spec_mat[i*30+24]*compressed_spec_mat[(i*30) + 28]);
407 aux = sqrt(compressed_spec_mat[i*30+24]*compressed_spec_mat[(i*30) + 28]);
429 compressed_spec_mat[(i*30) + 26] = compressed_spec_mat[(i*30) + 26] / aux;
408 compressed_spec_mat[(i*30) + 26] = compressed_spec_mat[(i*30) + 26] / aux;
430 compressed_spec_mat[(i*30) + 27] = compressed_spec_mat[(i*30) + 27] / aux;
409 compressed_spec_mat[(i*30) + 27] = compressed_spec_mat[(i*30) + 27] / aux;
431 // S14
410 // S14
432 aux = sqrt(compressed_spec_mat[i*30]*compressed_spec_mat[(i*30) +24]);
411 aux = sqrt(compressed_spec_mat[i*30]*compressed_spec_mat[(i*30) +24]);
433 compressed_spec_mat[(i*30) + 6] = compressed_spec_mat[(i*30) + 6] / aux;
412 compressed_spec_mat[(i*30) + 6] = compressed_spec_mat[(i*30) + 6] / aux;
434 compressed_spec_mat[(i*30) + 7] = compressed_spec_mat[(i*30) + 7] / aux;
413 compressed_spec_mat[(i*30) + 7] = compressed_spec_mat[(i*30) + 7] / aux;
435 // S15
414 // S15
436 aux = sqrt(compressed_spec_mat[i*30]*compressed_spec_mat[(i*30) + 28]);
415 aux = sqrt(compressed_spec_mat[i*30]*compressed_spec_mat[(i*30) + 28]);
437 compressed_spec_mat[(i*30) + 8] = compressed_spec_mat[(i*30) + 8] / aux;
416 compressed_spec_mat[(i*30) + 8] = compressed_spec_mat[(i*30) + 8] / aux;
438 compressed_spec_mat[(i*30) + 9] = compressed_spec_mat[(i*30) + 9] / aux;
417 compressed_spec_mat[(i*30) + 9] = compressed_spec_mat[(i*30) + 9] / aux;
439 // S24
418 // S24
440 aux = sqrt(compressed_spec_mat[i*10]*compressed_spec_mat[(i*30) + 24]);
419 aux = sqrt(compressed_spec_mat[i*10]*compressed_spec_mat[(i*30) + 24]);
441 compressed_spec_mat[(i*30) + 14] = compressed_spec_mat[(i*30) + 14] / aux;
420 compressed_spec_mat[(i*30) + 14] = compressed_spec_mat[(i*30) + 14] / aux;
442 compressed_spec_mat[(i*30) + 15] = compressed_spec_mat[(i*30) + 15] / aux;
421 compressed_spec_mat[(i*30) + 15] = compressed_spec_mat[(i*30) + 15] / aux;
443 // S25
422 // S25
444 aux = sqrt(compressed_spec_mat[i*10]*compressed_spec_mat[(i*30) + 28]);
423 aux = sqrt(compressed_spec_mat[i*10]*compressed_spec_mat[(i*30) + 28]);
445 compressed_spec_mat[(i*30) + 16] = compressed_spec_mat[(i*30) + 16] / aux;
424 compressed_spec_mat[(i*30) + 16] = compressed_spec_mat[(i*30) + 16] / aux;
446 compressed_spec_mat[(i*30) + 17] = compressed_spec_mat[(i*30) + 17] / aux;
425 compressed_spec_mat[(i*30) + 17] = compressed_spec_mat[(i*30) + 17] / aux;
447 // S34
426 // S34
448 aux = sqrt(compressed_spec_mat[i*18]*compressed_spec_mat[(i*30) + 24]);
427 aux = sqrt(compressed_spec_mat[i*18]*compressed_spec_mat[(i*30) + 24]);
449 compressed_spec_mat[(i*30) + 20] = compressed_spec_mat[(i*30) + 20] / aux;
428 compressed_spec_mat[(i*30) + 20] = compressed_spec_mat[(i*30) + 20] / aux;
450 compressed_spec_mat[(i*30) + 21] = compressed_spec_mat[(i*30) + 21] / aux;
429 compressed_spec_mat[(i*30) + 21] = compressed_spec_mat[(i*30) + 21] / aux;
451 // S35
430 // S35
452 aux = sqrt(compressed_spec_mat[i*18]*compressed_spec_mat[(i*30) + 28]);
431 aux = sqrt(compressed_spec_mat[i*18]*compressed_spec_mat[(i*30) + 28]);
453 compressed_spec_mat[(i*30) + 22] = compressed_spec_mat[(i*30) + 22] / aux;
432 compressed_spec_mat[(i*30) + 22] = compressed_spec_mat[(i*30) + 22] / aux;
454 compressed_spec_mat[(i*30) + 23] = compressed_spec_mat[(i*30) + 23] / aux;
433 compressed_spec_mat[(i*30) + 23] = compressed_spec_mat[(i*30) + 23] / aux;
455 }
434 }
456 }
435 }
457
436
458 void init_header_asm( Header_TM_LFR_SCIENCE_ASM_t *header)
437 void init_header_asm( Header_TM_LFR_SCIENCE_ASM_t *header)
459 {
438 {
460 header->targetLogicalAddress = CCSDS_DESTINATION_ID;
439 header->targetLogicalAddress = CCSDS_DESTINATION_ID;
461 header->protocolIdentifier = CCSDS_PROTOCOLE_ID;
440 header->protocolIdentifier = CCSDS_PROTOCOLE_ID;
462 header->reserved = 0x00;
441 header->reserved = 0x00;
463 header->userApplication = CCSDS_USER_APP;
442 header->userApplication = CCSDS_USER_APP;
464 header->packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
443 header->packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
465 header->packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
444 header->packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
466 header->packetSequenceControl[0] = 0xc0;
445 header->packetSequenceControl[0] = 0xc0;
467 header->packetSequenceControl[1] = 0x00;
446 header->packetSequenceControl[1] = 0x00;
468 header->packetLength[0] = 0x00;
447 header->packetLength[0] = 0x00;
469 header->packetLength[1] = 0x00;
448 header->packetLength[1] = 0x00;
470 // DATA FIELD HEADER
449 // DATA FIELD HEADER
471 header->spare1_pusVersion_spare2 = 0x10;
450 header->spare1_pusVersion_spare2 = 0x10;
472 header->serviceType = TM_TYPE_LFR_SCIENCE; // service type
451 header->serviceType = TM_TYPE_LFR_SCIENCE; // service type
473 header->serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
452 header->serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
474 header->destinationID = TM_DESTINATION_ID_GROUND;
453 header->destinationID = TM_DESTINATION_ID_GROUND;
475 // AUXILIARY DATA HEADER
454 // AUXILIARY DATA HEADER
476 header->sid = 0x00;
455 header->sid = 0x00;
477 header->biaStatusInfo = 0x00;
456 header->biaStatusInfo = 0x00;
478 header->cntASM = 0x00;
457 header->cntASM = 0x00;
479 header->nrASM = 0x00;
458 header->nrASM = 0x00;
480 header->time[0] = 0x00;
459 header->time[0] = 0x00;
481 header->time[0] = 0x00;
460 header->time[0] = 0x00;
482 header->time[0] = 0x00;
461 header->time[0] = 0x00;
483 header->time[0] = 0x00;
462 header->time[0] = 0x00;
484 header->time[0] = 0x00;
463 header->time[0] = 0x00;
485 header->time[0] = 0x00;
464 header->time[0] = 0x00;
486 header->blkNr[0] = 0x00; // BLK_NR MSB
465 header->blkNr[0] = 0x00; // BLK_NR MSB
487 header->blkNr[1] = 0x00; // BLK_NR LSB
466 header->blkNr[1] = 0x00; // BLK_NR LSB
488 }
467 }
489
468
490 void send_spectral_matrix(Header_TM_LFR_SCIENCE_ASM_t *header, char *spectral_matrix,
469 void send_spectral_matrix(Header_TM_LFR_SCIENCE_ASM_t *header, char *spectral_matrix,
491 unsigned int sid, spw_ioctl_pkt_send *spw_ioctl_send, rtems_id queue_id)
470 unsigned int sid, spw_ioctl_pkt_send *spw_ioctl_send, rtems_id queue_id)
492 {
471 {
493 unsigned int i;
472 unsigned int i;
494 unsigned int length = 0;
473 unsigned int length = 0;
495 rtems_status_code status;
474 rtems_status_code status;
496
475
497 header->sid = (unsigned char) sid;
476 header->sid = (unsigned char) sid;
498
477
499 for (i=0; i<2; i++)
478 for (i=0; i<2; i++)
500 {
479 {
501 // BUILD THE DATA
480 // BUILD THE DATA
502 spw_ioctl_send->dlen = TOTAL_SIZE_SM;
481 spw_ioctl_send->dlen = TOTAL_SIZE_SM;
503 spw_ioctl_send->data = &spectral_matrix[ i * TOTAL_SIZE_SM];
482 spw_ioctl_send->data = &spectral_matrix[ i * TOTAL_SIZE_SM];
504 spw_ioctl_send->hlen = HEADER_LENGTH_TM_LFR_SCIENCE_ASM + CCSDS_PROTOCOLE_EXTRA_BYTES;
483 spw_ioctl_send->hlen = HEADER_LENGTH_TM_LFR_SCIENCE_ASM + CCSDS_PROTOCOLE_EXTRA_BYTES;
505 spw_ioctl_send->hdr = (char *) header;
484 spw_ioctl_send->hdr = (char *) header;
506 spw_ioctl_send->options = 0;
485 spw_ioctl_send->options = 0;
507
486
508 // BUILD THE HEADER
487 // BUILD THE HEADER
509 length = PACKET_LENGTH_TM_LFR_SCIENCE_ASM;
488 length = PACKET_LENGTH_TM_LFR_SCIENCE_ASM;
510 header->packetLength[0] = (unsigned char) (length>>8);
489 header->packetLength[0] = (unsigned char) (length>>8);
511 header->packetLength[1] = (unsigned char) (length);
490 header->packetLength[1] = (unsigned char) (length);
512 header->sid = (unsigned char) sid; // SID
491 header->sid = (unsigned char) sid; // SID
513 header->cntASM = 2;
492 header->cntASM = 2;
514 header->nrASM = (unsigned char) (i+1);
493 header->nrASM = (unsigned char) (i+1);
515 header->blkNr[0] =(unsigned char) ( (NB_BINS_PER_SM/2) >> 8 ); // BLK_NR MSB
494 header->blkNr[0] =(unsigned char) ( (NB_BINS_PER_SM/2) >> 8 ); // BLK_NR MSB
516 header->blkNr[1] = (unsigned char) (NB_BINS_PER_SM/2); // BLK_NR LSB
495 header->blkNr[1] = (unsigned char) (NB_BINS_PER_SM/2); // BLK_NR LSB
517 // SET PACKET TIME
496 // SET PACKET TIME
518 header->time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
497 header->time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
519 header->time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
498 header->time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
520 header->time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
499 header->time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
521 header->time[3] = (unsigned char) (time_management_regs->coarse_time);
500 header->time[3] = (unsigned char) (time_management_regs->coarse_time);
522 header->time[4] = (unsigned char) (time_management_regs->fine_time>>8);
501 header->time[4] = (unsigned char) (time_management_regs->fine_time>>8);
523 header->time[5] = (unsigned char) (time_management_regs->fine_time);
502 header->time[5] = (unsigned char) (time_management_regs->fine_time);
524 header->acquisitionTime[0] = (unsigned char) (time_management_regs->coarse_time>>24);
503 header->acquisitionTime[0] = (unsigned char) (time_management_regs->coarse_time>>24);
525 header->acquisitionTime[1] = (unsigned char) (time_management_regs->coarse_time>>16);
504 header->acquisitionTime[1] = (unsigned char) (time_management_regs->coarse_time>>16);
526 header->acquisitionTime[2] = (unsigned char) (time_management_regs->coarse_time>>8);
505 header->acquisitionTime[2] = (unsigned char) (time_management_regs->coarse_time>>8);
527 header->acquisitionTime[3] = (unsigned char) (time_management_regs->coarse_time);
506 header->acquisitionTime[3] = (unsigned char) (time_management_regs->coarse_time);
528 header->acquisitionTime[4] = (unsigned char) (time_management_regs->fine_time>>8);
507 header->acquisitionTime[4] = (unsigned char) (time_management_regs->fine_time>>8);
529 header->acquisitionTime[5] = (unsigned char) (time_management_regs->fine_time);
508 header->acquisitionTime[5] = (unsigned char) (time_management_regs->fine_time);
530 // SEND PACKET
509 // SEND PACKET
531 status = rtems_message_queue_send( queue_id, spw_ioctl_send, ACTION_MSG_SPW_IOCTL_SEND_SIZE);
510 status = rtems_message_queue_send( queue_id, spw_ioctl_send, ACTION_MSG_SPW_IOCTL_SEND_SIZE);
532 if (status != RTEMS_SUCCESSFUL) {
511 if (status != RTEMS_SUCCESSFUL) {
533 printf("in send_spectral_matrix *** ERR %d\n", (int) status);
512 printf("in send_spectral_matrix *** ERR %d\n", (int) status);
534 }
513 }
535 }
514 }
536 }
515 }
537
516
538 void convert_averaged_spectral_matrix( volatile float *input_matrix, char *output_matrix)
517 void convert_averaged_spectral_matrix( volatile float *input_matrix, char *output_matrix)
539 {
518 {
540 unsigned int i;
519 unsigned int i;
541 unsigned int j;
520 unsigned int j;
542 char * pt_char_input;
521 char * pt_char_input;
543 char * pt_char_output;
522 char * pt_char_output;
544
523
545 pt_char_input = NULL;
524 pt_char_input = NULL;
546 pt_char_output = NULL;
525 pt_char_output = NULL;
547
526
548 for( i=0; i<NB_BINS_PER_SM; i++)
527 for( i=0; i<NB_BINS_PER_SM; i++)
549 {
528 {
550 for ( j=0; j<NB_VALUES_PER_SM; j++)
529 for ( j=0; j<NB_VALUES_PER_SM; j++)
551 {
530 {
552 pt_char_input = (char*) &input_matrix[ (i*NB_VALUES_PER_SM) + j ];
531 pt_char_input = (char*) &input_matrix[ (i*NB_VALUES_PER_SM) + j ];
553 pt_char_output = (char*) &output_matrix[ 2 * ( (i*NB_VALUES_PER_SM) + j ) ];
532 pt_char_output = (char*) &output_matrix[ 2 * ( (i*NB_VALUES_PER_SM) + j ) ];
554 pt_char_output[0] = pt_char_input[0]; // bits 31 downto 24 of the float
533 pt_char_output[0] = pt_char_input[0]; // bits 31 downto 24 of the float
555 pt_char_output[1] = pt_char_input[1]; // bits 23 downto 16 of the float
534 pt_char_output[1] = pt_char_input[1]; // bits 23 downto 16 of the float
556 }
535 }
557 }
536 }
558 }
537 }
559
538
560 void fill_averaged_spectral_matrix(void)
539 void fill_averaged_spectral_matrix(void)
561 {
540 {
562 /** This function fills spectral matrices related buffers with arbitrary data.
541 /** This function fills spectral matrices related buffers with arbitrary data.
563 *
542 *
564 * This function is for testing purpose only.
543 * This function is for testing purpose only.
565 *
544 *
566 */
545 */
567
546
568 #ifdef GSA
547 #ifdef GSA
569 float offset = 10.;
548 float offset = 10.;
570 float coeff = 100000.;
549 float coeff = 100000.;
571
550
572 averaged_spec_mat_f0[ 0 + 25 * 0 ] = 0. + offset;
551 averaged_spec_mat_f0[ 0 + 25 * 0 ] = 0. + offset;
573 averaged_spec_mat_f0[ 0 + 25 * 1 ] = 1. + offset;
552 averaged_spec_mat_f0[ 0 + 25 * 1 ] = 1. + offset;
574 averaged_spec_mat_f0[ 0 + 25 * 2 ] = 2. + offset;
553 averaged_spec_mat_f0[ 0 + 25 * 2 ] = 2. + offset;
575 averaged_spec_mat_f0[ 0 + 25 * 3 ] = 3. + offset;
554 averaged_spec_mat_f0[ 0 + 25 * 3 ] = 3. + offset;
576 averaged_spec_mat_f0[ 0 + 25 * 4 ] = 4. + offset;
555 averaged_spec_mat_f0[ 0 + 25 * 4 ] = 4. + offset;
577 averaged_spec_mat_f0[ 0 + 25 * 5 ] = 5. + offset;
556 averaged_spec_mat_f0[ 0 + 25 * 5 ] = 5. + offset;
578 averaged_spec_mat_f0[ 0 + 25 * 6 ] = 6. + offset;
557 averaged_spec_mat_f0[ 0 + 25 * 6 ] = 6. + offset;
579 averaged_spec_mat_f0[ 0 + 25 * 7 ] = 7. + offset;
558 averaged_spec_mat_f0[ 0 + 25 * 7 ] = 7. + offset;
580 averaged_spec_mat_f0[ 0 + 25 * 8 ] = 8. + offset;
559 averaged_spec_mat_f0[ 0 + 25 * 8 ] = 8. + offset;
581 averaged_spec_mat_f0[ 0 + 25 * 9 ] = 9. + offset;
560 averaged_spec_mat_f0[ 0 + 25 * 9 ] = 9. + offset;
582 averaged_spec_mat_f0[ 0 + 25 * 10 ] = 10. + offset;
561 averaged_spec_mat_f0[ 0 + 25 * 10 ] = 10. + offset;
583 averaged_spec_mat_f0[ 0 + 25 * 11 ] = 11. + offset;
562 averaged_spec_mat_f0[ 0 + 25 * 11 ] = 11. + offset;
584 averaged_spec_mat_f0[ 0 + 25 * 12 ] = 12. + offset;
563 averaged_spec_mat_f0[ 0 + 25 * 12 ] = 12. + offset;
585 averaged_spec_mat_f0[ 0 + 25 * 13 ] = 13. + offset;
564 averaged_spec_mat_f0[ 0 + 25 * 13 ] = 13. + offset;
586 averaged_spec_mat_f0[ 0 + 25 * 14 ] = 14. + offset;
565 averaged_spec_mat_f0[ 0 + 25 * 14 ] = 14. + offset;
587 averaged_spec_mat_f0[ 9 + 25 * 0 ] = -(0. + offset)* coeff;
566 averaged_spec_mat_f0[ 9 + 25 * 0 ] = -(0. + offset)* coeff;
588 averaged_spec_mat_f0[ 9 + 25 * 1 ] = -(1. + offset)* coeff;
567 averaged_spec_mat_f0[ 9 + 25 * 1 ] = -(1. + offset)* coeff;
589 averaged_spec_mat_f0[ 9 + 25 * 2 ] = -(2. + offset)* coeff;
568 averaged_spec_mat_f0[ 9 + 25 * 2 ] = -(2. + offset)* coeff;
590 averaged_spec_mat_f0[ 9 + 25 * 3 ] = -(3. + offset)* coeff;
569 averaged_spec_mat_f0[ 9 + 25 * 3 ] = -(3. + offset)* coeff;
591 averaged_spec_mat_f0[ 9 + 25 * 4 ] = -(4. + offset)* coeff;
570 averaged_spec_mat_f0[ 9 + 25 * 4 ] = -(4. + offset)* coeff;
592 averaged_spec_mat_f0[ 9 + 25 * 5 ] = -(5. + offset)* coeff;
571 averaged_spec_mat_f0[ 9 + 25 * 5 ] = -(5. + offset)* coeff;
593 averaged_spec_mat_f0[ 9 + 25 * 6 ] = -(6. + offset)* coeff;
572 averaged_spec_mat_f0[ 9 + 25 * 6 ] = -(6. + offset)* coeff;
594 averaged_spec_mat_f0[ 9 + 25 * 7 ] = -(7. + offset)* coeff;
573 averaged_spec_mat_f0[ 9 + 25 * 7 ] = -(7. + offset)* coeff;
595 averaged_spec_mat_f0[ 9 + 25 * 8 ] = -(8. + offset)* coeff;
574 averaged_spec_mat_f0[ 9 + 25 * 8 ] = -(8. + offset)* coeff;
596 averaged_spec_mat_f0[ 9 + 25 * 9 ] = -(9. + offset)* coeff;
575 averaged_spec_mat_f0[ 9 + 25 * 9 ] = -(9. + offset)* coeff;
597 averaged_spec_mat_f0[ 9 + 25 * 10 ] = -(10. + offset)* coeff;
576 averaged_spec_mat_f0[ 9 + 25 * 10 ] = -(10. + offset)* coeff;
598 averaged_spec_mat_f0[ 9 + 25 * 11 ] = -(11. + offset)* coeff;
577 averaged_spec_mat_f0[ 9 + 25 * 11 ] = -(11. + offset)* coeff;
599 averaged_spec_mat_f0[ 9 + 25 * 12 ] = -(12. + offset)* coeff;
578 averaged_spec_mat_f0[ 9 + 25 * 12 ] = -(12. + offset)* coeff;
600 averaged_spec_mat_f0[ 9 + 25 * 13 ] = -(13. + offset)* coeff;
579 averaged_spec_mat_f0[ 9 + 25 * 13 ] = -(13. + offset)* coeff;
601 averaged_spec_mat_f0[ 9 + 25 * 14 ] = -(14. + offset)* coeff;
580 averaged_spec_mat_f0[ 9 + 25 * 14 ] = -(14. + offset)* coeff;
602 offset = 10000000;
581 offset = 10000000;
603 averaged_spec_mat_f0[ 16 + 25 * 0 ] = (0. + offset)* coeff;
582 averaged_spec_mat_f0[ 16 + 25 * 0 ] = (0. + offset)* coeff;
604 averaged_spec_mat_f0[ 16 + 25 * 1 ] = (1. + offset)* coeff;
583 averaged_spec_mat_f0[ 16 + 25 * 1 ] = (1. + offset)* coeff;
605 averaged_spec_mat_f0[ 16 + 25 * 2 ] = (2. + offset)* coeff;
584 averaged_spec_mat_f0[ 16 + 25 * 2 ] = (2. + offset)* coeff;
606 averaged_spec_mat_f0[ 16 + 25 * 3 ] = (3. + offset)* coeff;
585 averaged_spec_mat_f0[ 16 + 25 * 3 ] = (3. + offset)* coeff;
607 averaged_spec_mat_f0[ 16 + 25 * 4 ] = (4. + offset)* coeff;
586 averaged_spec_mat_f0[ 16 + 25 * 4 ] = (4. + offset)* coeff;
608 averaged_spec_mat_f0[ 16 + 25 * 5 ] = (5. + offset)* coeff;
587 averaged_spec_mat_f0[ 16 + 25 * 5 ] = (5. + offset)* coeff;
609 averaged_spec_mat_f0[ 16 + 25 * 6 ] = (6. + offset)* coeff;
588 averaged_spec_mat_f0[ 16 + 25 * 6 ] = (6. + offset)* coeff;
610 averaged_spec_mat_f0[ 16 + 25 * 7 ] = (7. + offset)* coeff;
589 averaged_spec_mat_f0[ 16 + 25 * 7 ] = (7. + offset)* coeff;
611 averaged_spec_mat_f0[ 16 + 25 * 8 ] = (8. + offset)* coeff;
590 averaged_spec_mat_f0[ 16 + 25 * 8 ] = (8. + offset)* coeff;
612 averaged_spec_mat_f0[ 16 + 25 * 9 ] = (9. + offset)* coeff;
591 averaged_spec_mat_f0[ 16 + 25 * 9 ] = (9. + offset)* coeff;
613 averaged_spec_mat_f0[ 16 + 25 * 10 ] = (10. + offset)* coeff;
592 averaged_spec_mat_f0[ 16 + 25 * 10 ] = (10. + offset)* coeff;
614 averaged_spec_mat_f0[ 16 + 25 * 11 ] = (11. + offset)* coeff;
593 averaged_spec_mat_f0[ 16 + 25 * 11 ] = (11. + offset)* coeff;
615 averaged_spec_mat_f0[ 16 + 25 * 12 ] = (12. + offset)* coeff;
594 averaged_spec_mat_f0[ 16 + 25 * 12 ] = (12. + offset)* coeff;
616 averaged_spec_mat_f0[ 16 + 25 * 13 ] = (13. + offset)* coeff;
595 averaged_spec_mat_f0[ 16 + 25 * 13 ] = (13. + offset)* coeff;
617 averaged_spec_mat_f0[ 16 + 25 * 14 ] = (14. + offset)* coeff;
596 averaged_spec_mat_f0[ 16 + 25 * 14 ] = (14. + offset)* coeff;
618
597
619 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 0 ] = averaged_spec_mat_f0[ 0 ];
598 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 0 ] = averaged_spec_mat_f0[ 0 ];
620 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 1 ] = averaged_spec_mat_f0[ 1 ];
599 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 1 ] = averaged_spec_mat_f0[ 1 ];
621 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 2 ] = averaged_spec_mat_f0[ 2 ];
600 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 2 ] = averaged_spec_mat_f0[ 2 ];
622 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 3 ] = averaged_spec_mat_f0[ 3 ];
601 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 3 ] = averaged_spec_mat_f0[ 3 ];
623 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 4 ] = averaged_spec_mat_f0[ 4 ];
602 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 4 ] = averaged_spec_mat_f0[ 4 ];
624 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 5 ] = averaged_spec_mat_f0[ 5 ];
603 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 5 ] = averaged_spec_mat_f0[ 5 ];
625 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 6 ] = averaged_spec_mat_f0[ 6 ];
604 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 6 ] = averaged_spec_mat_f0[ 6 ];
626 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 7 ] = averaged_spec_mat_f0[ 7 ];
605 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 7 ] = averaged_spec_mat_f0[ 7 ];
627 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 8 ] = averaged_spec_mat_f0[ 8 ];
606 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 8 ] = averaged_spec_mat_f0[ 8 ];
628 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 9 ] = averaged_spec_mat_f0[ 9 ];
607 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 9 ] = averaged_spec_mat_f0[ 9 ];
629 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 10 ] = averaged_spec_mat_f0[ 10 ];
608 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 10 ] = averaged_spec_mat_f0[ 10 ];
630 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 11 ] = averaged_spec_mat_f0[ 11 ];
609 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 11 ] = averaged_spec_mat_f0[ 11 ];
631 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 12 ] = averaged_spec_mat_f0[ 12 ];
610 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 12 ] = averaged_spec_mat_f0[ 12 ];
632 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 13 ] = averaged_spec_mat_f0[ 13 ];
611 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 13 ] = averaged_spec_mat_f0[ 13 ];
633 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 14 ] = averaged_spec_mat_f0[ 14 ];
612 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 14 ] = averaged_spec_mat_f0[ 14 ];
634 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 15 ] = averaged_spec_mat_f0[ 15 ];
613 averaged_spec_mat_f0[ (TOTAL_SIZE_SM/2) + 15 ] = averaged_spec_mat_f0[ 15 ];
635 #else
614 #else
636 unsigned int i;
615 unsigned int i;
637
616
638 for(i=0; i<TOTAL_SIZE_SM; i++)
617 for(i=0; i<TOTAL_SIZE_SM; i++)
639 {
618 {
640 if (spectral_matrix_regs->matrixF0_Address0 == (int) spec_mat_f0_0)
619 if (spectral_matrix_regs->matrixF0_Address0 == (int) spec_mat_f0_0)
641 averaged_spec_mat_f0[i] = (float) spec_mat_f0_0_bis[ SM_HEADER + i ];
620 averaged_spec_mat_f0[i] = (float) spec_mat_f0_0_bis[ SM_HEADER + i ];
642 else
621 else
643 averaged_spec_mat_f0[i] = (float) spec_mat_f0_0[ SM_HEADER + i ];
622 averaged_spec_mat_f0[i] = (float) spec_mat_f0_0[ SM_HEADER + i ];
644 }
623 }
645 #endif
624 #endif
646 }
625 }
647
626
648 void reset_spectral_matrix_regs()
627 void reset_spectral_matrix_regs()
649 {
628 {
650 /** This function resets the spectral matrices module registers.
629 /** This function resets the spectral matrices module registers.
651 *
630 *
652 * The registers affected by this function are located at the following offset addresses:
631 * The registers affected by this function are located at the following offset addresses:
653 *
632 *
654 * - 0x00 config
633 * - 0x00 config
655 * - 0x04 status
634 * - 0x04 status
656 * - 0x08 matrixF0_Address0
635 * - 0x08 matrixF0_Address0
657 * - 0x10 matrixFO_Address1
636 * - 0x10 matrixFO_Address1
658 * - 0x14 matrixF1_Address
637 * - 0x14 matrixF1_Address
659 * - 0x18 matrixF2_Address
638 * - 0x18 matrixF2_Address
660 *
639 *
661 */
640 */
662
641
663 #ifdef GSA
642 #ifdef GSA
664 #else
643 #else
665 spectral_matrix_regs->matrixF0_Address0 = (int) spec_mat_f0_0;
644 spectral_matrix_regs->matrixF0_Address0 = (int) spec_mat_f0_0;
666 spectral_matrix_regs->matrixFO_Address1 = (int) spec_mat_f0_1;
645 spectral_matrix_regs->matrixFO_Address1 = (int) spec_mat_f0_1;
667 spectral_matrix_regs->matrixF1_Address = (int) spec_mat_f1;
646 spectral_matrix_regs->matrixF1_Address = (int) spec_mat_f1;
668 spectral_matrix_regs->matrixF2_Address = (int) spec_mat_f2;
647 spectral_matrix_regs->matrixF2_Address = (int) spec_mat_f2;
669 #endif
648 #endif
670 }
649 }
671
650
672 //******************
651 //******************
673 // general functions
652 // general functions
674
653
675
654
676
655
677
656
Show file before | Show file after | Hide comments
@@ -1,626 +1,624
1 /** Functions related to the SpaceWire interface.
1 /** Functions related to the SpaceWire interface.
2 *
2 *
3 * @file
3 * @file
4 * @author P. LEROY
4 * @author P. LEROY
5 *
5 *
6 * A group of functions to handle SpaceWire transmissions:
6 * A group of functions to handle SpaceWire transmissions:
7 * - configuration of the SpaceWire link
7 * - configuration of the SpaceWire link
8 * - SpaceWire related interruption requests processing
8 * - SpaceWire related interruption requests processing
9 * - transmission of TeleMetry packets by a dedicated RTEMS task
9 * - transmission of TeleMetry packets by a dedicated RTEMS task
10 * - reception of TeleCommands by a dedicated RTEMS task
10 * - reception of TeleCommands by a dedicated RTEMS task
11 *
11 *
12 */
12 */
13
13
14 #include "fsw_spacewire.h"
14 #include "fsw_spacewire.h"
15
15
16 char *lstates[6] = {"Error-reset",
17 "Error-wait",
18 "Ready",
19 "Started",
20 "Connecting",
21 "Run"
22 };
23
24 rtems_name semq_name;
16 rtems_name semq_name;
25 rtems_id semq_id;
17 rtems_id semq_id;
26
18
27 //***********
19 //***********
28 // RTEMS TASK
20 // RTEMS TASK
29 rtems_task spiq_task(rtems_task_argument unused)
21 rtems_task spiq_task(rtems_task_argument unused)
30 {
22 {
31 /** This RTEMS task is awaken by an rtems_event sent by the interruption subroutine of the SpaceWire driver.
23 /** This RTEMS task is awaken by an rtems_event sent by the interruption subroutine of the SpaceWire driver.
32 *
24 *
33 * @param unused is the starting argument of the RTEMS task
25 * @param unused is the starting argument of the RTEMS task
34 *
26 *
35 */
27 */
36
28
37 rtems_event_set event_out;
29 rtems_event_set event_out;
38 rtems_status_code status;
30 rtems_status_code status;
39 int linkStatus;
31 int linkStatus;
40
32
41 BOOT_PRINTF("in SPIQ *** \n")
33 BOOT_PRINTF("in SPIQ *** \n")
42
34
43 while(true){
35 while(true){
44 rtems_event_receive(SPW_LINKERR_EVENT, RTEMS_WAIT, RTEMS_NO_TIMEOUT, &event_out); // wait for an SPW_LINKERR_EVENT
36 rtems_event_receive(SPW_LINKERR_EVENT, RTEMS_WAIT, RTEMS_NO_TIMEOUT, &event_out); // wait for an SPW_LINKERR_EVENT
45 PRINTF("in SPIQ *** got SPW_LINKERR_EVENT\n")
37 PRINTF("in SPIQ *** got SPW_LINKERR_EVENT\n")
46
38
47 // [0] SUSPEND RECV AND SEND TASKS
39 // [0] SUSPEND RECV AND SEND TASKS
48 rtems_task_suspend( Task_id[ TASKID_RECV ] );
40 status = rtems_task_suspend( Task_id[ TASKID_RECV ] );
49 rtems_task_suspend( Task_id[ TASKID_SEND ] );
41 if ( status != RTEMS_SUCCESSFUL ) {
42 PRINTF("in SPIQ *** ERR suspending RECV Task\n")
43 }
44 status = rtems_task_suspend( Task_id[ TASKID_SEND ] );
45 if ( status != RTEMS_SUCCESSFUL ) {
46 PRINTF("in SPIQ *** ERR suspending SEND Task\n")
47 }
50
48
51 // [1] CHECK THE LINK
49 // [1] CHECK THE LINK
52 ioctl(fdSPW, SPACEWIRE_IOCTRL_GET_LINK_STATUS, &linkStatus); // get the link status (1)
50 status = ioctl(fdSPW, SPACEWIRE_IOCTRL_GET_LINK_STATUS, &linkStatus); // get the link status (1)
53 if ( linkStatus != 5) {
51 if ( linkStatus != 5) {
54 PRINTF1("in SPIQ *** linkStatus %d, wait...\n", linkStatus)
52 PRINTF1("in SPIQ *** linkStatus %d, wait...\n", linkStatus)
55 rtems_task_wake_after( SY_LFR_DPU_CONNECT_TIMEOUT ); // wait SY_LFR_DPU_CONNECT_TIMEOUT 1000 ms
53 status = rtems_task_wake_after( SY_LFR_DPU_CONNECT_TIMEOUT ); // wait SY_LFR_DPU_CONNECT_TIMEOUT 1000 ms
56 }
54 }
57
55
58 // [2] RECHECK THE LINK AFTER SY_LFR_DPU_CONNECT_TIMEOUT
56 // [2] RECHECK THE LINK AFTER SY_LFR_DPU_CONNECT_TIMEOUT
59 ioctl(fdSPW, SPACEWIRE_IOCTRL_GET_LINK_STATUS, &linkStatus); // get the link status (2)
57 status = ioctl(fdSPW, SPACEWIRE_IOCTRL_GET_LINK_STATUS, &linkStatus); // get the link status (2)
60 if ( linkStatus != 5 ) // [2.a] not in run state, reset the link
58 if ( linkStatus != 5 ) // [2.a] not in run state, reset the link
61 {
59 {
62 spacewire_compute_stats_offsets();
60 spacewire_compute_stats_offsets();
63 status = spacewire_reset_link( );
61 status = spacewire_reset_link( );
64 }
62 }
65 else // [2.b] in run state, start the link
63 else // [2.b] in run state, start the link
66 {
64 {
67 status = spacewire_stop_start_link( fdSPW ); // start the link
65 status = spacewire_stop_start_link( fdSPW ); // start the link
68 if ( status != RTEMS_SUCCESSFUL)
66 if ( status != RTEMS_SUCCESSFUL)
69 {
67 {
70 PRINTF1("in SPIQ *** ERR spacewire_start_link %d\n", status)
68 PRINTF1("in SPIQ *** ERR spacewire_start_link %d\n", status)
71 }
69 }
72 }
70 }
73
71
74 // [3] COMPLETE RECOVERY ACTION AFTER SY_LFR_DPU_CONNECT_ATTEMPTS
72 // [3] COMPLETE RECOVERY ACTION AFTER SY_LFR_DPU_CONNECT_ATTEMPTS
75 if ( status == RTEMS_SUCCESSFUL ) // [3.a] the link is in run state and has been started successfully
73 if ( status == RTEMS_SUCCESSFUL ) // [3.a] the link is in run state and has been started successfully
76 {
74 {
77 status = rtems_task_restart( Task_id[ TASKID_SEND ], 1 );
75 status = rtems_task_restart( Task_id[ TASKID_SEND ], 1 );
78 if ( status != RTEMS_SUCCESSFUL ) {
76 if ( status != RTEMS_SUCCESSFUL ) {
79 PRINTF("in SPIQ *** ERR resuming SEND Task\n")
77 PRINTF("in SPIQ *** ERR resuming SEND Task\n")
80 }
78 }
81 status = rtems_task_restart( Task_id[ TASKID_RECV ], 1 );
79 status = rtems_task_restart( Task_id[ TASKID_RECV ], 1 );
82 if ( status != RTEMS_SUCCESSFUL ) {
80 if ( status != RTEMS_SUCCESSFUL ) {
83 PRINTF("in SPIQ *** ERR resuming RECV Task\n")
81 PRINTF("in SPIQ *** ERR resuming RECV Task\n")
84 }
82 }
85 }
83 }
86 else // [3.b] the link is not in run state, go in STANDBY mode
84 else // [3.b] the link is not in run state, go in STANDBY mode
87 {
85 {
88 status = stop_current_mode();
86 status = stop_current_mode();
89 if ( status != RTEMS_SUCCESSFUL ) {
87 if ( status != RTEMS_SUCCESSFUL ) {
90 PRINTF1("in SPIQ *** ERR stop_current_mode *** code %d\n", status)
88 PRINTF1("in SPIQ *** ERR stop_current_mode *** code %d\n", status)
91 }
89 }
92 status = enter_standby_mode();
90 status = enter_standby_mode();
93 if ( status != RTEMS_SUCCESSFUL ) {
91 if ( status != RTEMS_SUCCESSFUL ) {
94 PRINTF1("in SPIQ *** ERR enter_standby_mode *** code %d\n", status)
92 PRINTF1("in SPIQ *** ERR enter_standby_mode *** code %d\n", status)
95 }
93 }
96 // wake the WTDG task up to wait for the link recovery
94 // wake the WTDG task up to wait for the link recovery
97 status = rtems_event_send ( Task_id[TASKID_WTDG], RTEMS_EVENT_0 );
95 status = rtems_event_send ( Task_id[TASKID_WTDG], RTEMS_EVENT_0 );
98 rtems_task_suspend( RTEMS_SELF );
96 status = rtems_task_suspend( RTEMS_SELF );
99 }
97 }
100 }
98 }
101 }
99 }
102
100
103 rtems_task recv_task( rtems_task_argument unused )
101 rtems_task recv_task( rtems_task_argument unused )
104 {
102 {
105 /** This RTEMS task is dedicated to the reception of incoming TeleCommands.
103 /** This RTEMS task is dedicated to the reception of incoming TeleCommands.
106 *
104 *
107 * @param unused is the starting argument of the RTEMS task
105 * @param unused is the starting argument of the RTEMS task
108 *
106 *
109 * The RECV task blocks on a call to the read system call, waiting for incoming SpaceWire data. When unblocked:
107 * The RECV task blocks on a call to the read system call, waiting for incoming SpaceWire data. When unblocked:
110 * 1. It reads the incoming data.
108 * 1. It reads the incoming data.
111 * 2. Launches the acceptance procedure.
109 * 2. Launches the acceptance procedure.
112 * 3. If the Telecommand is valid, sends it to a dedicated RTEMS message queue.
110 * 3. If the Telecommand is valid, sends it to a dedicated RTEMS message queue.
113 *
111 *
114 */
112 */
115
113
116 int len;
114 int len;
117 ccsdsTelecommandPacket_t currentTC;
115 ccsdsTelecommandPacket_t currentTC;
118 unsigned char computed_CRC[ 2 ];
116 unsigned char computed_CRC[ 2 ];
119 unsigned char currentTC_LEN_RCV[ 2 ];
117 unsigned char currentTC_LEN_RCV[ 2 ];
120 unsigned char destinationID;
118 unsigned char destinationID;
121 unsigned int currentTC_LEN_RCV_AsUnsignedInt;
119 unsigned int currentTC_LEN_RCV_AsUnsignedInt;
122 unsigned int parserCode;
120 unsigned int parserCode;
123 unsigned char time[6];
121 unsigned char time[6];
124 rtems_status_code status;
122 rtems_status_code status;
125 rtems_id queue_recv_id;
123 rtems_id queue_recv_id;
126 rtems_id queue_send_id;
124 rtems_id queue_send_id;
127
125
128 initLookUpTableForCRC(); // the table is used to compute Cyclic Redundancy Codes
126 initLookUpTableForCRC(); // the table is used to compute Cyclic Redundancy Codes
129
127
130 status = rtems_message_queue_ident( misc_name[QUEUE_RECV], 0, &queue_recv_id );
128 status = rtems_message_queue_ident( misc_name[QUEUE_RECV], 0, &queue_recv_id );
131 if (status != RTEMS_SUCCESSFUL)
129 if (status != RTEMS_SUCCESSFUL)
132 {
130 {
133 PRINTF1("in RECV *** ERR getting QUEUE_RECV id, %d\n", status)
131 PRINTF1("in RECV *** ERR getting QUEUE_RECV id, %d\n", status)
134 }
132 }
135
133
136 status = rtems_message_queue_ident( misc_name[QUEUE_SEND], 0, &queue_send_id );
134 status = rtems_message_queue_ident( misc_name[QUEUE_SEND], 0, &queue_send_id );
137 if (status != RTEMS_SUCCESSFUL)
135 if (status != RTEMS_SUCCESSFUL)
138 {
136 {
139 PRINTF1("in RECV *** ERR getting QUEUE_SEND id, %d\n", status)
137 PRINTF1("in RECV *** ERR getting QUEUE_SEND id, %d\n", status)
140 }
138 }
141
139
142 BOOT_PRINTF("in RECV *** \n")
140 BOOT_PRINTF("in RECV *** \n")
143
141
144 while(1)
142 while(1)
145 {
143 {
146 len = read( fdSPW, (char*) &currentTC, CCSDS_TC_PKT_MAX_SIZE ); // the call to read is blocking
144 len = read( fdSPW, (char*) &currentTC, CCSDS_TC_PKT_MAX_SIZE ); // the call to read is blocking
147 if (len == -1){ // error during the read call
145 if (len == -1){ // error during the read call
148 PRINTF1("in RECV *** last read call returned -1, ERRNO %d\n", errno)
146 PRINTF1("in RECV *** last read call returned -1, ERRNO %d\n", errno)
149 }
147 }
150 else {
148 else {
151 if ( (len+1) < CCSDS_TC_PKT_MIN_SIZE ) {
149 if ( (len+1) < CCSDS_TC_PKT_MIN_SIZE ) {
152 PRINTF("in RECV *** packet lenght too short\n")
150 PRINTF("in RECV *** packet lenght too short\n")
153 }
151 }
154 else {
152 else {
155 currentTC_LEN_RCV_AsUnsignedInt = (unsigned int) (len - CCSDS_TC_TM_PACKET_OFFSET - 3); // => -3 is for Prot ID, Reserved and User App bytes
153 currentTC_LEN_RCV_AsUnsignedInt = (unsigned int) (len - CCSDS_TC_TM_PACKET_OFFSET - 3); // => -3 is for Prot ID, Reserved and User App bytes
156 currentTC_LEN_RCV[ 0 ] = (unsigned char) (currentTC_LEN_RCV_AsUnsignedInt >> 8);
154 currentTC_LEN_RCV[ 0 ] = (unsigned char) (currentTC_LEN_RCV_AsUnsignedInt >> 8);
157 currentTC_LEN_RCV[ 1 ] = (unsigned char) (currentTC_LEN_RCV_AsUnsignedInt );
155 currentTC_LEN_RCV[ 1 ] = (unsigned char) (currentTC_LEN_RCV_AsUnsignedInt );
158 // CHECK THE TC
156 // CHECK THE TC
159 parserCode = tc_parser( &currentTC, currentTC_LEN_RCV_AsUnsignedInt, computed_CRC ) ;
157 parserCode = tc_parser( &currentTC, currentTC_LEN_RCV_AsUnsignedInt, computed_CRC ) ;
160 if ( (parserCode == ILLEGAL_APID) || (parserCode == WRONG_LEN_PKT)
158 if ( (parserCode == ILLEGAL_APID) || (parserCode == WRONG_LEN_PKT)
161 || (parserCode == INCOR_CHECKSUM) || (parserCode == ILL_TYPE)
159 || (parserCode == INCOR_CHECKSUM) || (parserCode == ILL_TYPE)
162 || (parserCode == ILL_SUBTYPE) || (parserCode == WRONG_APP_DATA)
160 || (parserCode == ILL_SUBTYPE) || (parserCode == WRONG_APP_DATA)
163 || (parserCode == WRONG_SRC_ID) )
161 || (parserCode == WRONG_SRC_ID) )
164 { // send TM_LFR_TC_EXE_CORRUPTED
162 { // send TM_LFR_TC_EXE_CORRUPTED
165 if ( !( (currentTC.serviceType==TC_TYPE_TIME) && (currentTC.serviceSubType==TC_SUBTYPE_UPDT_TIME) )
163 if ( !( (currentTC.serviceType==TC_TYPE_TIME) && (currentTC.serviceSubType==TC_SUBTYPE_UPDT_TIME) )
166 &&
164 &&
167 !( (currentTC.serviceType==TC_TYPE_GEN) && (currentTC.serviceSubType==TC_SUBTYPE_UPDT_INFO))
165 !( (currentTC.serviceType==TC_TYPE_GEN) && (currentTC.serviceSubType==TC_SUBTYPE_UPDT_INFO))
168 )
166 )
169 {
167 {
170 if ( parserCode == WRONG_SRC_ID )
168 if ( parserCode == WRONG_SRC_ID )
171 {
169 {
172 destinationID = SID_TC_GROUND;
170 destinationID = SID_TC_GROUND;
173 }
171 }
174 else
172 else
175 {
173 {
176 destinationID = currentTC.sourceID;
174 destinationID = currentTC.sourceID;
177 }
175 }
178 getTime( time );
176 getTime( time );
179 close_action( &currentTC, LFR_DEFAULT, queue_send_id, time);
177 close_action( &currentTC, LFR_DEFAULT, queue_send_id, time);
180 send_tm_lfr_tc_exe_corrupted( &currentTC, queue_send_id,
178 send_tm_lfr_tc_exe_corrupted( &currentTC, queue_send_id,
181 computed_CRC, currentTC_LEN_RCV,
179 computed_CRC, currentTC_LEN_RCV,
182 destinationID, time );
180 destinationID, time );
183 }
181 }
184 }
182 }
185 else
183 else
186 { // send valid TC to the action launcher
184 { // send valid TC to the action launcher
187 status = rtems_message_queue_send( queue_recv_id, &currentTC,
185 status = rtems_message_queue_send( queue_recv_id, &currentTC,
188 currentTC_LEN_RCV_AsUnsignedInt + CCSDS_TC_TM_PACKET_OFFSET + 3);
186 currentTC_LEN_RCV_AsUnsignedInt + CCSDS_TC_TM_PACKET_OFFSET + 3);
189 }
187 }
190 }
188 }
191 }
189 }
192 }
190 }
193 }
191 }
194
192
195 rtems_task send_task( rtems_task_argument argument)
193 rtems_task send_task( rtems_task_argument argument)
196 {
194 {
197 /** This RTEMS task is dedicated to the transmission of TeleMetry packets.
195 /** This RTEMS task is dedicated to the transmission of TeleMetry packets.
198 *
196 *
199 * @param unused is the starting argument of the RTEMS task
197 * @param unused is the starting argument of the RTEMS task
200 *
198 *
201 * The SEND task waits for a message to become available in the dedicated RTEMS queue. When a message arrives:
199 * The SEND task waits for a message to become available in the dedicated RTEMS queue. When a message arrives:
202 * - if the first byte is equal to CCSDS_DESTINATION_ID, the message is sent as is using the write system call.
200 * - if the first byte is equal to CCSDS_DESTINATION_ID, the message is sent as is using the write system call.
203 * - if the first byte is not equal to CCSDS_DESTINATION_ID, the message is handled as a spw_ioctl_pkt_send. After
201 * - if the first byte is not equal to CCSDS_DESTINATION_ID, the message is handled as a spw_ioctl_pkt_send. After
204 * analyzis, the packet is sent either using the write system call or using the ioctl call SPACEWIRE_IOCTRL_SEND, depending on the
202 * analyzis, the packet is sent either using the write system call or using the ioctl call SPACEWIRE_IOCTRL_SEND, depending on the
205 * data it contains.
203 * data it contains.
206 *
204 *
207 */
205 */
208
206
209 rtems_status_code status; // RTEMS status code
207 rtems_status_code status; // RTEMS status code
210 char incomingData[ACTION_MSG_PKTS_MAX_SIZE]; // incoming data buffer
208 char incomingData[ACTION_MSG_PKTS_MAX_SIZE]; // incoming data buffer
211 spw_ioctl_pkt_send *spw_ioctl_send;
209 spw_ioctl_pkt_send *spw_ioctl_send;
212 size_t size; // size of the incoming TC packet
210 size_t size; // size of the incoming TC packet
213 u_int32_t count;
211 u_int32_t count;
214 rtems_id queue_id;
212 rtems_id queue_id;
215
213
216 status = rtems_message_queue_ident( misc_name[QUEUE_SEND], 0, &queue_id );
214 status = rtems_message_queue_ident( misc_name[QUEUE_SEND], 0, &queue_id );
217 if (status != RTEMS_SUCCESSFUL)
215 if (status != RTEMS_SUCCESSFUL)
218 {
216 {
219 PRINTF1("in SEND *** ERR getting queue id, %d\n", status)
217 PRINTF1("in SEND *** ERR getting queue id, %d\n", status)
220 }
218 }
221
219
222 BOOT_PRINTF("in SEND *** \n")
220 BOOT_PRINTF("in SEND *** \n")
223
221
224 while(1)
222 while(1)
225 {
223 {
226 status = rtems_message_queue_receive( queue_id, incomingData, &size,
224 status = rtems_message_queue_receive( queue_id, incomingData, &size,
227 RTEMS_WAIT, RTEMS_NO_TIMEOUT );
225 RTEMS_WAIT, RTEMS_NO_TIMEOUT );
228
226
229 if (status!=RTEMS_SUCCESSFUL)
227 if (status!=RTEMS_SUCCESSFUL)
230 {
228 {
231 PRINTF1("in SEND *** (1) ERR = %d\n", status)
229 PRINTF1("in SEND *** (1) ERR = %d\n", status)
232 }
230 }
233 else
231 else
234 {
232 {
235 if ( incomingData[0] == CCSDS_DESTINATION_ID) // the incoming message is a ccsds packet
233 if ( incomingData[0] == CCSDS_DESTINATION_ID) // the incoming message is a ccsds packet
236 {
234 {
237 status = write( fdSPW, incomingData, size );
235 status = write( fdSPW, incomingData, size );
238 if (status == -1){
236 if (status == -1){
239 PRINTF2("in SEND *** (2.a) ERRNO = %d, size = %d\n", errno, size)
237 PRINTF2("in SEND *** (2.a) ERRNO = %d, size = %d\n", errno, size)
240 }
238 }
241 }
239 }
242 else // the incoming message is a spw_ioctl_pkt_send structure
240 else // the incoming message is a spw_ioctl_pkt_send structure
243 {
241 {
244 spw_ioctl_send = (spw_ioctl_pkt_send*) incomingData;
242 spw_ioctl_send = (spw_ioctl_pkt_send*) incomingData;
245 status = ioctl( fdSPW, SPACEWIRE_IOCTRL_SEND, spw_ioctl_send );
243 status = ioctl( fdSPW, SPACEWIRE_IOCTRL_SEND, spw_ioctl_send );
246 if (status == -1){
244 if (status == -1){
247 PRINTF2("in SEND *** (2.b) ERRNO = %d, RTEMS = %d\n", errno, status)
245 PRINTF2("in SEND *** (2.b) ERRNO = %d, RTEMS = %d\n", errno, status)
248 }
246 }
249 }
247 }
250 }
248 }
251
249
252 status = rtems_message_queue_get_number_pending( queue_id, &count );
250 status = rtems_message_queue_get_number_pending( queue_id, &count );
253 if (status != RTEMS_SUCCESSFUL)
251 if (status != RTEMS_SUCCESSFUL)
254 {
252 {
255 PRINTF1("in SEND *** (3) ERR = %d\n", status)
253 PRINTF1("in SEND *** (3) ERR = %d\n", status)
256 }
254 }
257 else
255 else
258 {
256 {
259 if (count > maxCount)
257 if (count > maxCount)
260 {
258 {
261 maxCount = count;
259 maxCount = count;
262 }
260 }
263 }
261 }
264 }
262 }
265 }
263 }
266
264
267 rtems_task wtdg_task( rtems_task_argument argument )
265 rtems_task wtdg_task( rtems_task_argument argument )
268 {
266 {
269 rtems_event_set event_out;
267 rtems_event_set event_out;
270 rtems_status_code status;
268 rtems_status_code status;
271 int linkStatus;
269 int linkStatus;
272
270
273 BOOT_PRINTF("in WTDG ***\n")
271 BOOT_PRINTF("in WTDG ***\n")
274
272
275 while(1)
273 while(1)
276 {
274 {
277 // wait for an RTEMS_EVENT
275 // wait for an RTEMS_EVENT
278 rtems_event_receive( RTEMS_EVENT_0,
276 rtems_event_receive( RTEMS_EVENT_0,
279 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
277 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
280 PRINTF("in WTDG *** wait for the link\n")
278 PRINTF("in WTDG *** wait for the link\n")
281 ioctl(fdSPW, SPACEWIRE_IOCTRL_GET_LINK_STATUS, &linkStatus); // get the link status
279 status = ioctl(fdSPW, SPACEWIRE_IOCTRL_GET_LINK_STATUS, &linkStatus); // get the link status
282 while( linkStatus != 5) // wait for the link
280 while( linkStatus != 5) // wait for the link
283 {
281 {
284 rtems_task_wake_after( 10 );
282 rtems_task_wake_after( 10 );
285 ioctl(fdSPW, SPACEWIRE_IOCTRL_GET_LINK_STATUS, &linkStatus); // get the link status
283 status = ioctl(fdSPW, SPACEWIRE_IOCTRL_GET_LINK_STATUS, &linkStatus); // get the link status
286 }
284 }
287
285
288 status = spacewire_stop_start_link( fdSPW );
286 status = spacewire_stop_start_link( fdSPW );
289
287
290 if (status != RTEMS_SUCCESSFUL)
288 if (status != RTEMS_SUCCESSFUL)
291 {
289 {
292 PRINTF1("in WTDG *** ERR link not started %d\n", status)
290 PRINTF1("in WTDG *** ERR link not started %d\n", status)
293 }
291 }
294 else
292 else
295 {
293 {
296 PRINTF("in WTDG *** OK link started\n")
294 PRINTF("in WTDG *** OK link started\n")
297 }
295 }
298
296
299 // restart the SPIQ task
297 // restart the SPIQ task
300 status = rtems_task_restart( Task_id[TASKID_SPIQ], 1 );
298 status = rtems_task_restart( Task_id[TASKID_SPIQ], 1 );
301 if ( status != RTEMS_SUCCESSFUL ) {
299 if ( status != RTEMS_SUCCESSFUL ) {
302 PRINTF("in SPIQ *** ERR restarting SPIQ Task\n")
300 PRINTF("in SPIQ *** ERR restarting SPIQ Task\n")
303 }
301 }
304
302
305 // restart RECV and SEND
303 // restart RECV and SEND
306 status = rtems_task_restart( Task_id[ TASKID_SEND ], 1 );
304 status = rtems_task_restart( Task_id[ TASKID_SEND ], 1 );
307 if ( status != RTEMS_SUCCESSFUL ) {
305 if ( status != RTEMS_SUCCESSFUL ) {
308 PRINTF("in SPIQ *** ERR restarting SEND Task\n")
306 PRINTF("in SPIQ *** ERR restarting SEND Task\n")
309 }
307 }
310 status = rtems_task_restart( Task_id[ TASKID_RECV ], 1 );
308 status = rtems_task_restart( Task_id[ TASKID_RECV ], 1 );
311 if ( status != RTEMS_SUCCESSFUL ) {
309 if ( status != RTEMS_SUCCESSFUL ) {
312 PRINTF("in SPIQ *** ERR restarting RECV Task\n")
310 PRINTF("in SPIQ *** ERR restarting RECV Task\n")
313 }
311 }
314 }
312 }
315 }
313 }
316
314
317 //****************
315 //****************
318 // OTHER FUNCTIONS
316 // OTHER FUNCTIONS
319 int spacewire_open_link( void )
317 int spacewire_open_link( void )
320 {
318 {
321 /** This function opens the SpaceWire link.
319 /** This function opens the SpaceWire link.
322 *
320 *
323 * @return a valid file descriptor in case of success, -1 in case of a failure
321 * @return a valid file descriptor in case of success, -1 in case of a failure
324 *
322 *
325 */
323 */
326 rtems_status_code status;
324 rtems_status_code status;
327
325
328 fdSPW = open(GRSPW_DEVICE_NAME, O_RDWR); // open the device. the open call resets the hardware
326 fdSPW = open(GRSPW_DEVICE_NAME, O_RDWR); // open the device. the open call resets the hardware
329 if ( fdSPW < 0 ) {
327 if ( fdSPW < 0 ) {
330 PRINTF1("ERR *** in configure_spw_link *** error opening "GRSPW_DEVICE_NAME" with ERR %d\n", errno)
328 PRINTF1("ERR *** in configure_spw_link *** error opening "GRSPW_DEVICE_NAME" with ERR %d\n", errno)
331 }
329 }
332 else
330 else
333 {
331 {
334 status = RTEMS_SUCCESSFUL;
332 status = RTEMS_SUCCESSFUL;
335 }
333 }
336
334
337 return status;
335 return status;
338 }
336 }
339
337
340 int spacewire_start_link( int fd )
338 int spacewire_start_link( int fd )
341 {
339 {
342 rtems_status_code status;
340 rtems_status_code status;
343
341
344 status = ioctl( fdSPW, SPACEWIRE_IOCTRL_START, -1); // returns successfuly if the link is started
342 status = ioctl( fdSPW, SPACEWIRE_IOCTRL_START, -1); // returns successfuly if the link is started
345 // -1 default hardcoded driver timeout
343 // -1 default hardcoded driver timeout
346
344
347 return status;
345 return status;
348 }
346 }
349
347
350 int spacewire_stop_start_link( int fd )
348 int spacewire_stop_start_link( int fd )
351 {
349 {
352 rtems_status_code status;
350 rtems_status_code status;
353
351
354 status = ioctl( fdSPW, SPACEWIRE_IOCTRL_STOP); // start fails if link pDev->running != 0
352 status = ioctl( fdSPW, SPACEWIRE_IOCTRL_STOP); // start fails if link pDev->running != 0
355 status = ioctl( fdSPW, SPACEWIRE_IOCTRL_START, -1); // returns successfuly if the link is started
353 status = ioctl( fdSPW, SPACEWIRE_IOCTRL_START, -1); // returns successfuly if the link is started
356 // -1 default hardcoded driver timeout
354 // -1 default hardcoded driver timeout
357
355
358 return status;
356 return status;
359 }
357 }
360
358
361 int spacewire_configure_link( int fd )
359 int spacewire_configure_link( int fd )
362 {
360 {
363 /** This function configures the SpaceWire link.
361 /** This function configures the SpaceWire link.
364 *
362 *
365 * @return GR-RTEMS-DRIVER directive status codes:
363 * @return GR-RTEMS-DRIVER directive status codes:
366 * - 22 EINVAL - Null pointer or an out of range value was given as the argument.
364 * - 22 EINVAL - Null pointer or an out of range value was given as the argument.
367 * - 16 EBUSY - Only used for SEND. Returned when no descriptors are avialble in non-blocking mode.
365 * - 16 EBUSY - Only used for SEND. Returned when no descriptors are avialble in non-blocking mode.
368 * - 88 ENOSYS - Returned for SET_DESTKEY if RMAP command handler is not available or if a non-implemented call is used.
366 * - 88 ENOSYS - Returned for SET_DESTKEY if RMAP command handler is not available or if a non-implemented call is used.
369 * - 116 ETIMEDOUT - REturned for SET_PACKET_SIZE and START if the link could not be brought up.
367 * - 116 ETIMEDOUT - REturned for SET_PACKET_SIZE and START if the link could not be brought up.
370 * - 12 ENOMEM - Returned for SET_PACKETSIZE if it was unable to allocate the new buffers.
368 * - 12 ENOMEM - Returned for SET_PACKETSIZE if it was unable to allocate the new buffers.
371 * - 5 EIO - Error when writing to grswp hardware registers.
369 * - 5 EIO - Error when writing to grswp hardware registers.
372 * - 2 ENOENT - No such file or directory
370 * - 2 ENOENT - No such file or directory
373 */
371 */
374
372
375 rtems_status_code status;
373 rtems_status_code status;
376
374
377 spacewire_set_NP(1, REGS_ADDR_GRSPW); // [N]o [P]ort force
375 spacewire_set_NP(1, REGS_ADDR_GRSPW); // [N]o [P]ort force
378 spacewire_set_RE(1, REGS_ADDR_GRSPW); // [R]MAP [E]nable, the dedicated call seems to break the no port force configuration
376 spacewire_set_RE(1, REGS_ADDR_GRSPW); // [R]MAP [E]nable, the dedicated call seems to break the no port force configuration
379
377
380 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_RXBLOCK, 1); // sets the blocking mode for reception
378 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_RXBLOCK, 1); // sets the blocking mode for reception
381 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_RXBLOCK\n")
379 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_RXBLOCK\n")
382 //
380 //
383 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_EVENT_ID, Task_id[TASKID_SPIQ]); // sets the task ID to which an event is sent when a
381 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_EVENT_ID, Task_id[TASKID_SPIQ]); // sets the task ID to which an event is sent when a
384 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_EVENT_ID\n") // link-error interrupt occurs
382 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_EVENT_ID\n") // link-error interrupt occurs
385 //
383 //
386 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_DISABLE_ERR, 0); // automatic link-disabling due to link-error interrupts
384 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_DISABLE_ERR, 0); // automatic link-disabling due to link-error interrupts
387 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_DISABLE_ERR\n")
385 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_DISABLE_ERR\n")
388 //
386 //
389 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_LINK_ERR_IRQ, 1); // sets the link-error interrupt bit
387 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_LINK_ERR_IRQ, 1); // sets the link-error interrupt bit
390 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_LINK_ERR_IRQ\n")
388 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_LINK_ERR_IRQ\n")
391 //
389 //
392 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_TXBLOCK, 0); // transmission blocks
390 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_TXBLOCK, 0); // transmission blocks
393 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_TXBLOCK\n")
391 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_TXBLOCK\n")
394 //
392 //
395 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_TXBLOCK_ON_FULL, 1); // transmission blocks when no transmission descriptor is available
393 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_TXBLOCK_ON_FULL, 1); // transmission blocks when no transmission descriptor is available
396 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_TXBLOCK_ON_FULL\n")
394 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_TXBLOCK_ON_FULL\n")
397 //
395 //
398 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_TCODE_CTRL, 0x0909); // [Time Rx : Time Tx : Link error : Tick-out IRQ]
396 status = ioctl(fd, SPACEWIRE_IOCTRL_SET_TCODE_CTRL, 0x0909); // [Time Rx : Time Tx : Link error : Tick-out IRQ]
399 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_TCODE_CTRL,\n")
397 if (status!=RTEMS_SUCCESSFUL) PRINTF("in SPIQ *** Error SPACEWIRE_IOCTRL_SET_TCODE_CTRL,\n")
400
398
401 return status;
399 return status;
402 }
400 }
403
401
404 int spacewire_reset_link( void )
402 int spacewire_reset_link( void )
405 {
403 {
406 /** This function is executed by the SPIQ rtems_task wehn it has been awaken by an interruption raised by the SpaceWire driver.
404 /** This function is executed by the SPIQ rtems_task wehn it has been awaken by an interruption raised by the SpaceWire driver.
407 *
405 *
408 * @return RTEMS directive status code:
406 * @return RTEMS directive status code:
409 * - RTEMS_UNSATISFIED is returned is the link is not in the running state after 10 s.
407 * - RTEMS_UNSATISFIED is returned is the link is not in the running state after 10 s.
410 * - RTEMS_SUCCESSFUL is returned if the link is up before the timeout.
408 * - RTEMS_SUCCESSFUL is returned if the link is up before the timeout.
411 *
409 *
412 */
410 */
413
411
414 rtems_status_code status_spw;
412 rtems_status_code status_spw;
415 int i;
413 int i;
416
414
417 for ( i=0; i<SY_LFR_DPU_CONNECT_ATTEMPT; i++ )
415 for ( i=0; i<SY_LFR_DPU_CONNECT_ATTEMPT; i++ )
418 {
416 {
419 PRINTF1("in spacewire_reset_link *** link recovery, try %d\n", i);
417 PRINTF1("in spacewire_reset_link *** link recovery, try %d\n", i);
420
418
421 // CLOSING THE DRIVER AT THIS POINT WILL MAKE THE SEND TASK BLOCK THE SYSTEM
419 // CLOSING THE DRIVER AT THIS POINT WILL MAKE THE SEND TASK BLOCK THE SYSTEM
422
420
423 status_spw = spacewire_stop_start_link( fdSPW );
421 status_spw = spacewire_stop_start_link( fdSPW );
424 if ( status_spw != RTEMS_SUCCESSFUL )
422 if ( status_spw != RTEMS_SUCCESSFUL )
425 {
423 {
426 PRINTF1("in spacewire_reset_link *** ERR spacewire_start_link code %d\n", status_spw)
424 PRINTF1("in spacewire_reset_link *** ERR spacewire_start_link code %d\n", status_spw)
427 }
425 }
428
426
429 if ( status_spw == RTEMS_SUCCESSFUL)
427 if ( status_spw == RTEMS_SUCCESSFUL)
430 {
428 {
431 break;
429 break;
432 }
430 }
433 }
431 }
434
432
435 return status_spw;
433 return status_spw;
436 }
434 }
437
435
438 void spacewire_set_NP( unsigned char val, unsigned int regAddr ) // [N]o [P]ort force
436 void spacewire_set_NP( unsigned char val, unsigned int regAddr ) // [N]o [P]ort force
439 {
437 {
440 /** This function sets the [N]o [P]ort force bit of the GRSPW control register.
438 /** This function sets the [N]o [P]ort force bit of the GRSPW control register.
441 *
439 *
442 * @param val is the value, 0 or 1, used to set the value of the NP bit.
440 * @param val is the value, 0 or 1, used to set the value of the NP bit.
443 * @param regAddr is the address of the GRSPW control register.
441 * @param regAddr is the address of the GRSPW control register.
444 *
442 *
445 * NP is the bit 20 of the GRSPW control register.
443 * NP is the bit 20 of the GRSPW control register.
446 *
444 *
447 */
445 */
448
446
449 unsigned int *spwptr = (unsigned int*) regAddr;
447 unsigned int *spwptr = (unsigned int*) regAddr;
450
448
451 if (val == 1) {
449 if (val == 1) {
452 *spwptr = *spwptr | 0x00100000; // [NP] set the No port force bit
450 *spwptr = *spwptr | 0x00100000; // [NP] set the No port force bit
453 }
451 }
454 if (val== 0) {
452 if (val== 0) {
455 *spwptr = *spwptr & 0xffdfffff;
453 *spwptr = *spwptr & 0xffdfffff;
456 }
454 }
457 }
455 }
458
456
459 void spacewire_set_RE( unsigned char val, unsigned int regAddr ) // [R]MAP [E]nable
457 void spacewire_set_RE( unsigned char val, unsigned int regAddr ) // [R]MAP [E]nable
460 {
458 {
461 /** This function sets the [R]MAP [E]nable bit of the GRSPW control register.
459 /** This function sets the [R]MAP [E]nable bit of the GRSPW control register.
462 *
460 *
463 * @param val is the value, 0 or 1, used to set the value of the RE bit.
461 * @param val is the value, 0 or 1, used to set the value of the RE bit.
464 * @param regAddr is the address of the GRSPW control register.
462 * @param regAddr is the address of the GRSPW control register.
465 *
463 *
466 * RE is the bit 16 of the GRSPW control register.
464 * RE is the bit 16 of the GRSPW control register.
467 *
465 *
468 */
466 */
469
467
470 unsigned int *spwptr = (unsigned int*) regAddr;
468 unsigned int *spwptr = (unsigned int*) regAddr;
471
469
472 if (val == 1)
470 if (val == 1)
473 {
471 {
474 *spwptr = *spwptr | 0x00010000; // [RE] set the RMAP Enable bit
472 *spwptr = *spwptr | 0x00010000; // [RE] set the RMAP Enable bit
475 }
473 }
476 if (val== 0)
474 if (val== 0)
477 {
475 {
478 *spwptr = *spwptr & 0xfffdffff;
476 *spwptr = *spwptr & 0xfffdffff;
479 }
477 }
480 }
478 }
481
479
482 void spacewire_compute_stats_offsets( void )
480 void spacewire_compute_stats_offsets( void )
483 {
481 {
484 /** This function computes the SpaceWire statistics offsets in case of a SpaceWire related interruption raising.
482 /** This function computes the SpaceWire statistics offsets in case of a SpaceWire related interruption raising.
485 *
483 *
486 * The offsets keep a record of the statistics in case of a reset of the statistics. They are added to the current statistics
484 * The offsets keep a record of the statistics in case of a reset of the statistics. They are added to the current statistics
487 * to keep the counters consistent even after a reset of the SpaceWire driver (the counter are set to zero by the driver when it
485 * to keep the counters consistent even after a reset of the SpaceWire driver (the counter are set to zero by the driver when it
488 * during the open systel call).
486 * during the open systel call).
489 *
487 *
490 */
488 */
491
489
492 spw_stats spacewire_stats_grspw;
490 spw_stats spacewire_stats_grspw;
493 rtems_status_code status;
491 rtems_status_code status;
494
492
495 status = ioctl( fdSPW, SPACEWIRE_IOCTRL_GET_STATISTICS, &spacewire_stats_grspw );
493 status = ioctl( fdSPW, SPACEWIRE_IOCTRL_GET_STATISTICS, &spacewire_stats_grspw );
496
494
497 spacewire_stats_backup.packets_received = spacewire_stats_grspw.packets_received
495 spacewire_stats_backup.packets_received = spacewire_stats_grspw.packets_received
498 + spacewire_stats.packets_received;
496 + spacewire_stats.packets_received;
499 spacewire_stats_backup.packets_sent = spacewire_stats_grspw.packets_sent
497 spacewire_stats_backup.packets_sent = spacewire_stats_grspw.packets_sent
500 + spacewire_stats.packets_sent;
498 + spacewire_stats.packets_sent;
501 spacewire_stats_backup.parity_err = spacewire_stats_grspw.parity_err
499 spacewire_stats_backup.parity_err = spacewire_stats_grspw.parity_err
502 + spacewire_stats.parity_err;
500 + spacewire_stats.parity_err;
503 spacewire_stats_backup.disconnect_err = spacewire_stats_grspw.disconnect_err
501 spacewire_stats_backup.disconnect_err = spacewire_stats_grspw.disconnect_err
504 + spacewire_stats.disconnect_err;
502 + spacewire_stats.disconnect_err;
505 spacewire_stats_backup.escape_err = spacewire_stats_grspw.escape_err
503 spacewire_stats_backup.escape_err = spacewire_stats_grspw.escape_err
506 + spacewire_stats.escape_err;
504 + spacewire_stats.escape_err;
507 spacewire_stats_backup.credit_err = spacewire_stats_grspw.credit_err
505 spacewire_stats_backup.credit_err = spacewire_stats_grspw.credit_err
508 + spacewire_stats.credit_err;
506 + spacewire_stats.credit_err;
509 spacewire_stats_backup.write_sync_err = spacewire_stats_grspw.write_sync_err
507 spacewire_stats_backup.write_sync_err = spacewire_stats_grspw.write_sync_err
510 + spacewire_stats.write_sync_err;
508 + spacewire_stats.write_sync_err;
511 spacewire_stats_backup.rx_rmap_header_crc_err = spacewire_stats_grspw.rx_rmap_header_crc_err
509 spacewire_stats_backup.rx_rmap_header_crc_err = spacewire_stats_grspw.rx_rmap_header_crc_err
512 + spacewire_stats.rx_rmap_header_crc_err;
510 + spacewire_stats.rx_rmap_header_crc_err;
513 spacewire_stats_backup.rx_rmap_data_crc_err = spacewire_stats_grspw.rx_rmap_data_crc_err
511 spacewire_stats_backup.rx_rmap_data_crc_err = spacewire_stats_grspw.rx_rmap_data_crc_err
514 + spacewire_stats.rx_rmap_data_crc_err;
512 + spacewire_stats.rx_rmap_data_crc_err;
515 spacewire_stats_backup.early_ep = spacewire_stats_grspw.early_ep
513 spacewire_stats_backup.early_ep = spacewire_stats_grspw.early_ep
516 + spacewire_stats.early_ep;
514 + spacewire_stats.early_ep;
517 spacewire_stats_backup.invalid_address = spacewire_stats_grspw.invalid_address
515 spacewire_stats_backup.invalid_address = spacewire_stats_grspw.invalid_address
518 + spacewire_stats.invalid_address;
516 + spacewire_stats.invalid_address;
519 spacewire_stats_backup.rx_eep_err = spacewire_stats_grspw.rx_eep_err
517 spacewire_stats_backup.rx_eep_err = spacewire_stats_grspw.rx_eep_err
520 + spacewire_stats.rx_eep_err;
518 + spacewire_stats.rx_eep_err;
521 spacewire_stats_backup.rx_truncated = spacewire_stats_grspw.rx_truncated
519 spacewire_stats_backup.rx_truncated = spacewire_stats_grspw.rx_truncated
522 + spacewire_stats.rx_truncated;
520 + spacewire_stats.rx_truncated;
523 }
521 }
524
522
525 void spacewire_update_statistics( void )
523 void spacewire_update_statistics( void )
526 {
524 {
527 rtems_status_code status;
525 rtems_status_code status;
528 spw_stats spacewire_stats_grspw;
526 spw_stats spacewire_stats_grspw;
529
527
530 status = ioctl( fdSPW, SPACEWIRE_IOCTRL_GET_STATISTICS, &spacewire_stats_grspw );
528 status = ioctl( fdSPW, SPACEWIRE_IOCTRL_GET_STATISTICS, &spacewire_stats_grspw );
531
529
532 spacewire_stats.packets_received = spacewire_stats_backup.packets_received
530 spacewire_stats.packets_received = spacewire_stats_backup.packets_received
533 + spacewire_stats_grspw.packets_received;
531 + spacewire_stats_grspw.packets_received;
534 spacewire_stats.packets_sent = spacewire_stats_backup.packets_sent
532 spacewire_stats.packets_sent = spacewire_stats_backup.packets_sent
535 + spacewire_stats_grspw.packets_sent;
533 + spacewire_stats_grspw.packets_sent;
536 spacewire_stats.parity_err = spacewire_stats_backup.parity_err
534 spacewire_stats.parity_err = spacewire_stats_backup.parity_err
537 + spacewire_stats_grspw.parity_err;
535 + spacewire_stats_grspw.parity_err;
538 spacewire_stats.disconnect_err = spacewire_stats_backup.disconnect_err
536 spacewire_stats.disconnect_err = spacewire_stats_backup.disconnect_err
539 + spacewire_stats_grspw.disconnect_err;
537 + spacewire_stats_grspw.disconnect_err;
540 spacewire_stats.escape_err = spacewire_stats_backup.escape_err
538 spacewire_stats.escape_err = spacewire_stats_backup.escape_err
541 + spacewire_stats_grspw.escape_err;
539 + spacewire_stats_grspw.escape_err;
542 spacewire_stats.credit_err = spacewire_stats_backup.credit_err
540 spacewire_stats.credit_err = spacewire_stats_backup.credit_err
543 + spacewire_stats_grspw.credit_err;
541 + spacewire_stats_grspw.credit_err;
544 spacewire_stats.write_sync_err = spacewire_stats_backup.write_sync_err
542 spacewire_stats.write_sync_err = spacewire_stats_backup.write_sync_err
545 + spacewire_stats_grspw.write_sync_err;
543 + spacewire_stats_grspw.write_sync_err;
546 spacewire_stats.rx_rmap_header_crc_err = spacewire_stats_backup.rx_rmap_header_crc_err
544 spacewire_stats.rx_rmap_header_crc_err = spacewire_stats_backup.rx_rmap_header_crc_err
547 + spacewire_stats_grspw.rx_rmap_header_crc_err;
545 + spacewire_stats_grspw.rx_rmap_header_crc_err;
548 spacewire_stats.rx_rmap_data_crc_err = spacewire_stats_backup.rx_rmap_data_crc_err
546 spacewire_stats.rx_rmap_data_crc_err = spacewire_stats_backup.rx_rmap_data_crc_err
549 + spacewire_stats_grspw.rx_rmap_data_crc_err;
547 + spacewire_stats_grspw.rx_rmap_data_crc_err;
550 spacewire_stats.early_ep = spacewire_stats_backup.early_ep
548 spacewire_stats.early_ep = spacewire_stats_backup.early_ep
551 + spacewire_stats_grspw.early_ep;
549 + spacewire_stats_grspw.early_ep;
552 spacewire_stats.invalid_address = spacewire_stats_backup.invalid_address
550 spacewire_stats.invalid_address = spacewire_stats_backup.invalid_address
553 + spacewire_stats_grspw.invalid_address;
551 + spacewire_stats_grspw.invalid_address;
554 spacewire_stats.rx_eep_err = spacewire_stats_backup.rx_eep_err
552 spacewire_stats.rx_eep_err = spacewire_stats_backup.rx_eep_err
555 + spacewire_stats_grspw.rx_eep_err;
553 + spacewire_stats_grspw.rx_eep_err;
556 spacewire_stats.rx_truncated = spacewire_stats_backup.rx_truncated
554 spacewire_stats.rx_truncated = spacewire_stats_backup.rx_truncated
557 + spacewire_stats_grspw.rx_truncated;
555 + spacewire_stats_grspw.rx_truncated;
558 //spacewire_stats.tx_link_err;
556 //spacewire_stats.tx_link_err;
559
557
560 //****************************
558 //****************************
561 // DPU_SPACEWIRE_IF_STATISTICS
559 // DPU_SPACEWIRE_IF_STATISTICS
562 housekeeping_packet.hk_lfr_dpu_spw_pkt_rcv_cnt[0] = (unsigned char) (spacewire_stats.packets_received >> 8);
560 housekeeping_packet.hk_lfr_dpu_spw_pkt_rcv_cnt[0] = (unsigned char) (spacewire_stats.packets_received >> 8);
563 housekeeping_packet.hk_lfr_dpu_spw_pkt_rcv_cnt[1] = (unsigned char) (spacewire_stats.packets_received);
561 housekeeping_packet.hk_lfr_dpu_spw_pkt_rcv_cnt[1] = (unsigned char) (spacewire_stats.packets_received);
564 housekeeping_packet.hk_lfr_dpu_spw_pkt_sent_cnt[0] = (unsigned char) (spacewire_stats.packets_sent >> 8);
562 housekeeping_packet.hk_lfr_dpu_spw_pkt_sent_cnt[0] = (unsigned char) (spacewire_stats.packets_sent >> 8);
565 housekeeping_packet.hk_lfr_dpu_spw_pkt_sent_cnt[1] = (unsigned char) (spacewire_stats.packets_sent);
563 housekeeping_packet.hk_lfr_dpu_spw_pkt_sent_cnt[1] = (unsigned char) (spacewire_stats.packets_sent);
566 //housekeeping_packet.hk_lfr_dpu_spw_tick_out_cnt;
564 //housekeeping_packet.hk_lfr_dpu_spw_tick_out_cnt;
567 //housekeeping_packet.hk_lfr_dpu_spw_last_timc;
565 //housekeeping_packet.hk_lfr_dpu_spw_last_timc;
568
566
569 //******************************************
567 //******************************************
570 // ERROR COUNTERS / SPACEWIRE / LOW SEVERITY
568 // ERROR COUNTERS / SPACEWIRE / LOW SEVERITY
571 housekeeping_packet.hk_lfr_dpu_spw_parity = (unsigned char) spacewire_stats.parity_err;
569 housekeeping_packet.hk_lfr_dpu_spw_parity = (unsigned char) spacewire_stats.parity_err;
572 housekeeping_packet.hk_lfr_dpu_spw_disconnect = (unsigned char) spacewire_stats.disconnect_err;
570 housekeeping_packet.hk_lfr_dpu_spw_disconnect = (unsigned char) spacewire_stats.disconnect_err;
573 housekeeping_packet.hk_lfr_dpu_spw_escape = (unsigned char) spacewire_stats.escape_err;
571 housekeeping_packet.hk_lfr_dpu_spw_escape = (unsigned char) spacewire_stats.escape_err;
574 housekeeping_packet.hk_lfr_dpu_spw_credit = (unsigned char) spacewire_stats.credit_err;
572 housekeeping_packet.hk_lfr_dpu_spw_credit = (unsigned char) spacewire_stats.credit_err;
575 housekeeping_packet.hk_lfr_dpu_spw_write_sync = (unsigned char) spacewire_stats.write_sync_err;
573 housekeeping_packet.hk_lfr_dpu_spw_write_sync = (unsigned char) spacewire_stats.write_sync_err;
576 // housekeeping_packet.hk_lfr_dpu_spw_rx_ahb;
574 // housekeeping_packet.hk_lfr_dpu_spw_rx_ahb;
577 // housekeeping_packet.hk_lfr_dpu_spw_tx_ahb;
575 // housekeeping_packet.hk_lfr_dpu_spw_tx_ahb;
578 housekeeping_packet.hk_lfr_dpu_spw_header_crc = (unsigned char) spacewire_stats.rx_rmap_header_crc_err;
576 housekeeping_packet.hk_lfr_dpu_spw_header_crc = (unsigned char) spacewire_stats.rx_rmap_header_crc_err;
579 housekeeping_packet.hk_lfr_dpu_spw_data_crc = (unsigned char) spacewire_stats.rx_rmap_data_crc_err;
577 housekeeping_packet.hk_lfr_dpu_spw_data_crc = (unsigned char) spacewire_stats.rx_rmap_data_crc_err;
580
578
581 //*********************************************
579 //*********************************************
582 // ERROR COUNTERS / SPACEWIRE / MEDIUM SEVERITY
580 // ERROR COUNTERS / SPACEWIRE / MEDIUM SEVERITY
583 housekeeping_packet.hk_lfr_dpu_spw_early_eop = (unsigned char) spacewire_stats.early_ep;
581 housekeeping_packet.hk_lfr_dpu_spw_early_eop = (unsigned char) spacewire_stats.early_ep;
584 housekeeping_packet.hk_lfr_dpu_spw_invalid_addr = (unsigned char) spacewire_stats.invalid_address;
582 housekeeping_packet.hk_lfr_dpu_spw_invalid_addr = (unsigned char) spacewire_stats.invalid_address;
585 housekeeping_packet.hk_lfr_dpu_spw_eep = (unsigned char) spacewire_stats.rx_eep_err;
583 housekeeping_packet.hk_lfr_dpu_spw_eep = (unsigned char) spacewire_stats.rx_eep_err;
586 housekeeping_packet.hk_lfr_dpu_spw_rx_too_big = (unsigned char) spacewire_stats.rx_truncated;
584 housekeeping_packet.hk_lfr_dpu_spw_rx_too_big = (unsigned char) spacewire_stats.rx_truncated;
587
585
588 }
586 }
589
587
590 void timecode_irq_handler( void *pDev, void *regs, int minor, unsigned int tc )
588 void timecode_irq_handler( void *pDev, void *regs, int minor, unsigned int tc )
591 {
589 {
592 //if (rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_1 ) != RTEMS_SUCCESSFUL) {
590 //if (rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_1 ) != RTEMS_SUCCESSFUL) {
593 // printf("In timecode_irq_handler *** Error sending event to DUMB\n");
591 // printf("In timecode_irq_handler *** Error sending event to DUMB\n");
594 //}
592 //}
595 }
593 }
596
594
597 rtems_timer_service_routine user_routine( rtems_id timer_id, void *user_data )
595 rtems_timer_service_routine user_routine( rtems_id timer_id, void *user_data )
598 {
596 {
599 int linkStatus;
597 int linkStatus;
600 rtems_status_code status;
598 rtems_status_code status;
601
599
602 ioctl(fdSPW, SPACEWIRE_IOCTRL_GET_LINK_STATUS, &linkStatus); // get the link status
600 status = ioctl(fdSPW, SPACEWIRE_IOCTRL_GET_LINK_STATUS, &linkStatus); // get the link status
603
601
604 if ( linkStatus == 5) {
602 if ( linkStatus == 5) {
605 PRINTF("in spacewire_reset_link *** link is running\n")
603 PRINTF("in spacewire_reset_link *** link is running\n")
606 status = RTEMS_SUCCESSFUL;
604 status = RTEMS_SUCCESSFUL;
607 }
605 }
608 }
606 }
609
607
610 rtems_status_code rtems_message_queue_send_lfr( rtems_id id, const void *buffer, size_t size )
608 rtems_status_code rtems_message_queue_send_lfr( rtems_id id, const void *buffer, size_t size )
611 {
609 {
612 rtems_status_code status;
610 rtems_status_code status;
613 rtems_mode previous_mode_set;
611 rtems_mode previous_mode_set;
614
612
615 // set the preemption OFF
613 // set the preemption OFF
616 status = rtems_task_mode( RTEMS_NO_PREEMPT, RTEMS_PREEMPT_MASK, &previous_mode_set );
614 status = rtems_task_mode( RTEMS_NO_PREEMPT, RTEMS_PREEMPT_MASK, &previous_mode_set );
617
615
618 // use the message queue
616 // use the message queue
619 status = rtems_message_queue_send_lfr( id, buffer, size );
617 status = rtems_message_queue_send_lfr( id, buffer, size );
620
618
621 // set the preemption ON
619 // set the preemption ON
622 status = rtems_task_mode( RTEMS_PREEMPT , RTEMS_PREEMPT_MASK, &previous_mode_set );
620 status = rtems_task_mode( RTEMS_PREEMPT , RTEMS_PREEMPT_MASK, &previous_mode_set );
623
621
624 return status;
622 return status;
625 }
623 }
626
624
Show file before | Show file after | Hide comments
@@ -1,771 +1,862
1 /** Functions and tasks related to TeleCommand handling.
1 /** Functions and tasks related to TeleCommand handling.
2 *
2 *
3 * @file
3 * @file
4 * @author P. LEROY
4 * @author P. LEROY
5 *
5 *
6 * A group of functions to handle TeleCommands:\n
6 * A group of functions to handle TeleCommands:\n
7 * action launching\n
7 * action launching\n
8 * TC parsing\n
8 * TC parsing\n
9 * ...
9 * ...
10 *
10 *
11 */
11 */
12
12
13 #include "tc_handler.h"
13 #include "tc_handler.h"
14
14
15 //***********
15 //***********
16 // RTEMS TASK
16 // RTEMS TASK
17
17
18 rtems_task actn_task( rtems_task_argument unused )
18 rtems_task actn_task( rtems_task_argument unused )
19 {
19 {
20 /** This RTEMS task is responsible for launching actions upton the reception of valid TeleCommands.
20 /** This RTEMS task is responsible for launching actions upton the reception of valid TeleCommands.
21 *
21 *
22 * @param unused is the starting argument of the RTEMS task
22 * @param unused is the starting argument of the RTEMS task
23 *
23 *
24 * The ACTN task waits for data coming from an RTEMS msesage queue. When data arrives, it launches specific actions depending
24 * The ACTN task waits for data coming from an RTEMS msesage queue. When data arrives, it launches specific actions depending
25 * on the incoming TeleCommand.
25 * on the incoming TeleCommand.
26 *
26 *
27 */
27 */
28
28
29 int result;
29 int result;
30 rtems_status_code status; // RTEMS status code
30 rtems_status_code status; // RTEMS status code
31 ccsdsTelecommandPacket_t TC; // TC sent to the ACTN task
31 ccsdsTelecommandPacket_t TC; // TC sent to the ACTN task
32 size_t size; // size of the incoming TC packet
32 size_t size; // size of the incoming TC packet
33 unsigned char subtype; // subtype of the current TC packet
33 unsigned char subtype; // subtype of the current TC packet
34 unsigned char time[6];
34 unsigned char time[6];
35 rtems_id queue_rcv_id;
35 rtems_id queue_rcv_id;
36 rtems_id queue_snd_id;
36 rtems_id queue_snd_id;
37
37
38 status = rtems_message_queue_ident( misc_name[QUEUE_RECV], 0, &queue_rcv_id );
38 status = rtems_message_queue_ident( misc_name[QUEUE_RECV], 0, &queue_rcv_id );
39 if (status != RTEMS_SUCCESSFUL)
39 if (status != RTEMS_SUCCESSFUL)
40 {
40 {
41 PRINTF1("in ACTN *** ERR getting queue_rcv_id %d\n", status)
41 PRINTF1("in ACTN *** ERR getting queue_rcv_id %d\n", status)
42 }
42 }
43
43
44 status = rtems_message_queue_ident( misc_name[QUEUE_SEND], 0, &queue_snd_id );
44 status = rtems_message_queue_ident( misc_name[QUEUE_SEND], 0, &queue_snd_id );
45 if (status != RTEMS_SUCCESSFUL)
45 if (status != RTEMS_SUCCESSFUL)
46 {
46 {
47 PRINTF1("in ACTN *** ERR getting queue_snd_id %d\n", status)
47 PRINTF1("in ACTN *** ERR getting queue_snd_id %d\n", status)
48 }
48 }
49
49
50 result = LFR_SUCCESSFUL;
50 result = LFR_SUCCESSFUL;
51 subtype = 0; // subtype of the current TC packet
51 subtype = 0; // subtype of the current TC packet
52
52
53 BOOT_PRINTF("in ACTN *** \n")
53 BOOT_PRINTF("in ACTN *** \n")
54
54
55 while(1)
55 while(1)
56 {
56 {
57 status = rtems_message_queue_receive( queue_rcv_id, (char*) &TC, &size,
57 status = rtems_message_queue_receive( queue_rcv_id, (char*) &TC, &size,
58 RTEMS_WAIT, RTEMS_NO_TIMEOUT);
58 RTEMS_WAIT, RTEMS_NO_TIMEOUT);
59 getTime( time ); // set time to the current time
59 getTime( time ); // set time to the current time
60 if (status!=RTEMS_SUCCESSFUL) PRINTF1("ERR *** in task ACTN *** error receiving a message, code %d \n", status)
60 if (status!=RTEMS_SUCCESSFUL)
61 {
62 PRINTF1("ERR *** in task ACTN *** error receiving a message, code %d \n", status)
63 }
61 else
64 else
62 {
65 {
63 subtype = TC.serviceSubType;
66 subtype = TC.serviceSubType;
64 switch(subtype)
67 switch(subtype)
65 {
68 {
66 case TC_SUBTYPE_RESET:
69 case TC_SUBTYPE_RESET:
67 result = action_reset( &TC, queue_snd_id, time );
70 result = action_reset( &TC, queue_snd_id, time );
68 close_action( &TC, result, queue_snd_id, time );
71 close_action( &TC, result, queue_snd_id, time );
69 break;
72 break;
70 //
73 //
71 case TC_SUBTYPE_LOAD_COMM:
74 case TC_SUBTYPE_LOAD_COMM:
72 result = action_load_common_par( &TC );
75 result = action_load_common_par( &TC );
73 close_action( &TC, result, queue_snd_id, time );
76 close_action( &TC, result, queue_snd_id, time );
74 break;
77 break;
75 //
78 //
76 case TC_SUBTYPE_LOAD_NORM:
79 case TC_SUBTYPE_LOAD_NORM:
77 result = action_load_normal_par( &TC, queue_snd_id, time );
80 result = action_load_normal_par( &TC, queue_snd_id, time );
78 close_action( &TC, result, queue_snd_id, time );
81 close_action( &TC, result, queue_snd_id, time );
79 break;
82 break;
80 //
83 //
81 case TC_SUBTYPE_LOAD_BURST:
84 case TC_SUBTYPE_LOAD_BURST:
82 result = action_load_burst_par( &TC, queue_snd_id, time );
85 result = action_load_burst_par( &TC, queue_snd_id, time );
83 close_action( &TC, result, queue_snd_id, time );
86 close_action( &TC, result, queue_snd_id, time );
84 break;
87 break;
85 //
88 //
86 case TC_SUBTYPE_LOAD_SBM1:
89 case TC_SUBTYPE_LOAD_SBM1:
87 result = action_load_sbm1_par( &TC, queue_snd_id, time );
90 result = action_load_sbm1_par( &TC, queue_snd_id, time );
88 close_action( &TC, result, queue_snd_id, time );
91 close_action( &TC, result, queue_snd_id, time );
89 break;
92 break;
90 //
93 //
91 case TC_SUBTYPE_LOAD_SBM2:
94 case TC_SUBTYPE_LOAD_SBM2:
92 result = action_load_sbm2_par( &TC, queue_snd_id, time );
95 result = action_load_sbm2_par( &TC, queue_snd_id, time );
93 close_action( &TC, result, queue_snd_id, time );
96 close_action( &TC, result, queue_snd_id, time );
94 break;
97 break;
95 //
98 //
96 case TC_SUBTYPE_DUMP:
99 case TC_SUBTYPE_DUMP:
97 result = action_dump_par( queue_snd_id );
100 result = action_dump_par( queue_snd_id );
98 close_action( &TC, result, queue_snd_id, time );
101 close_action( &TC, result, queue_snd_id, time );
99 break;
102 break;
100 //
103 //
101 case TC_SUBTYPE_ENTER:
104 case TC_SUBTYPE_ENTER:
102 result = action_enter_mode( &TC, queue_snd_id, time );
105 result = action_enter_mode( &TC, queue_snd_id, time );
103 close_action( &TC, result, queue_snd_id, time );
106 close_action( &TC, result, queue_snd_id, time );
104 break;
107 break;
105 //
108 //
106 case TC_SUBTYPE_UPDT_INFO:
109 case TC_SUBTYPE_UPDT_INFO:
107 result = action_update_info( &TC, queue_snd_id );
110 result = action_update_info( &TC, queue_snd_id );
108 close_action( &TC, result, queue_snd_id, time );
111 close_action( &TC, result, queue_snd_id, time );
109 break;
112 break;
110 //
113 //
111 case TC_SUBTYPE_EN_CAL:
114 case TC_SUBTYPE_EN_CAL:
112 result = action_enable_calibration( &TC, queue_snd_id, time );
115 result = action_enable_calibration( &TC, queue_snd_id, time );
113 close_action( &TC, result, queue_snd_id, time );
116 close_action( &TC, result, queue_snd_id, time );
114 break;
117 break;
115 //
118 //
116 case TC_SUBTYPE_DIS_CAL:
119 case TC_SUBTYPE_DIS_CAL:
117 result = action_disable_calibration( &TC, queue_snd_id, time );
120 result = action_disable_calibration( &TC, queue_snd_id, time );
118 close_action( &TC, result, queue_snd_id, time );
121 close_action( &TC, result, queue_snd_id, time );
119 break;
122 break;
120 //
123 //
121 case TC_SUBTYPE_UPDT_TIME:
124 case TC_SUBTYPE_UPDT_TIME:
122 result = action_update_time( &TC );
125 result = action_update_time( &TC );
123 close_action( &TC, result, queue_snd_id, time );
126 close_action( &TC, result, queue_snd_id, time );
124 break;
127 break;
125 //
128 //
126 default:
129 default:
127 break;
130 break;
128 }
131 }
129 }
132 }
130 }
133 }
131 }
134 }
132
135
133 //***********
136 //***********
134 // TC ACTIONS
137 // TC ACTIONS
135
138
136 int action_reset(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time)
139 int action_reset(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time)
137 {
140 {
138 /** This function executes specific actions when a TC_LFR_RESET TeleCommand has been received.
141 /** This function executes specific actions when a TC_LFR_RESET TeleCommand has been received.
139 *
142 *
140 * @param TC points to the TeleCommand packet that is being processed
143 * @param TC points to the TeleCommand packet that is being processed
141 * @param queue_id is the id of the queue which handles TM transmission by the SpaceWire driver
144 * @param queue_id is the id of the queue which handles TM transmission by the SpaceWire driver
142 *
145 *
143 */
146 */
144
147
145 send_tm_lfr_tc_exe_not_implemented( TC, queue_id, time );
148 send_tm_lfr_tc_exe_not_implemented( TC, queue_id, time );
146 return LFR_DEFAULT;
149 return LFR_DEFAULT;
147 }
150 }
148
151
149 int action_enter_mode(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time)
152 int action_enter_mode(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time)
150 {
153 {
151 /** This function executes specific actions when a TC_LFR_ENTER_MODE TeleCommand has been received.
154 /** This function executes specific actions when a TC_LFR_ENTER_MODE TeleCommand has been received.
152 *
155 *
153 * @param TC points to the TeleCommand packet that is being processed
156 * @param TC points to the TeleCommand packet that is being processed
154 * @param queue_id is the id of the queue which handles TM transmission by the SpaceWire driver
157 * @param queue_id is the id of the queue which handles TM transmission by the SpaceWire driver
155 *
158 *
156 */
159 */
157
160
158 rtems_status_code status;
161 rtems_status_code status;
159 unsigned char requestedMode;
162 unsigned char requestedMode;
160
163
161 requestedMode = TC->dataAndCRC[1];
164 requestedMode = TC->dataAndCRC[1];
162
165
163 if ( (requestedMode != LFR_MODE_STANDBY)
166 if ( (requestedMode != LFR_MODE_STANDBY)
164 && (requestedMode != LFR_MODE_NORMAL) && (requestedMode != LFR_MODE_BURST)
167 && (requestedMode != LFR_MODE_NORMAL) && (requestedMode != LFR_MODE_BURST)
165 && (requestedMode != LFR_MODE_SBM1) && (requestedMode != LFR_MODE_SBM2) )
168 && (requestedMode != LFR_MODE_SBM1) && (requestedMode != LFR_MODE_SBM2) )
166 {
169 {
167 status = RTEMS_UNSATISFIED;
170 status = RTEMS_UNSATISFIED;
168 send_tm_lfr_tc_exe_inconsistent( TC, queue_id, BYTE_POS_CP_LFR_MODE, requestedMode, time );
171 send_tm_lfr_tc_exe_inconsistent( TC, queue_id, BYTE_POS_CP_LFR_MODE, requestedMode, time );
169 }
172 }
170 else
173 else
171 {
174 {
172 printf("try to enter mode %d\n", requestedMode);
175 printf("try to enter mode %d\n", requestedMode);
173
176
174 #ifdef PRINT_TASK_STATISTICS
177 #ifdef PRINT_TASK_STATISTICS
175 if (requestedMode != LFR_MODE_STANDBY)
178 if (requestedMode != LFR_MODE_STANDBY)
176 {
179 {
177 rtems_cpu_usage_reset();
180 rtems_cpu_usage_reset();
178 maxCount = 0;
181 maxCount = 0;
179 }
182 }
180 #endif
183 #endif
181
184
182 status = transition_validation(requestedMode);
185 status = transition_validation(requestedMode);
183
186
184 if ( status == LFR_SUCCESSFUL ) {
187 if ( status == LFR_SUCCESSFUL ) {
185 if ( lfrCurrentMode != LFR_MODE_STANDBY)
188 if ( lfrCurrentMode != LFR_MODE_STANDBY)
186 {
189 {
187 status = stop_current_mode();
190 status = stop_current_mode();
188 }
191 }
189 if (status != RTEMS_SUCCESSFUL)
192 if (status != RTEMS_SUCCESSFUL)
190 {
193 {
191 PRINTF("ERR *** in action_enter *** stop_current_mode\n")
194 PRINTF("ERR *** in action_enter *** stop_current_mode\n")
192 }
195 }
193 status = enter_mode(requestedMode, TC);
196 status = enter_mode( requestedMode );
194 }
197 }
195 else
198 else
196 {
199 {
197 PRINTF("ERR *** in action_enter *** transition rejected\n")
200 PRINTF("ERR *** in action_enter *** transition rejected\n")
198 send_tm_lfr_tc_exe_not_executable( TC, queue_id, time );
201 send_tm_lfr_tc_exe_not_executable( TC, queue_id, time );
199 }
202 }
200 }
203 }
201
204
202 return status;
205 return status;
203 }
206 }
204
207
205 int action_update_info(ccsdsTelecommandPacket_t *TC, rtems_id queue_id)
208 int action_update_info(ccsdsTelecommandPacket_t *TC, rtems_id queue_id)
206 {
209 {
207 /** This function executes specific actions when a TC_LFR_UPDATE_INFO TeleCommand has been received.
210 /** This function executes specific actions when a TC_LFR_UPDATE_INFO TeleCommand has been received.
208 *
211 *
209 * @param TC points to the TeleCommand packet that is being processed
212 * @param TC points to the TeleCommand packet that is being processed
210 * @param queue_id is the id of the queue which handles TM transmission by the SpaceWire driver
213 * @param queue_id is the id of the queue which handles TM transmission by the SpaceWire driver
211 *
214 *
212 * @return LFR directive status code:
215 * @return LFR directive status code:
213 * - LFR_DEFAULT
216 * - LFR_DEFAULT
214 * - LFR_SUCCESSFUL
217 * - LFR_SUCCESSFUL
215 *
218 *
216 */
219 */
217
220
218 unsigned int val;
221 unsigned int val;
219 int result;
222 int result;
220
223
221 result = LFR_SUCCESSFUL;
224 result = LFR_SUCCESSFUL;
222
225
223 val = housekeeping_packet.hk_lfr_update_info_tc_cnt[0] * 256
226 val = housekeeping_packet.hk_lfr_update_info_tc_cnt[0] * 256
224 + housekeeping_packet.hk_lfr_update_info_tc_cnt[1];
227 + housekeeping_packet.hk_lfr_update_info_tc_cnt[1];
225 val++;
228 val++;
226 housekeeping_packet.hk_lfr_update_info_tc_cnt[0] = (unsigned char) (val >> 8);
229 housekeeping_packet.hk_lfr_update_info_tc_cnt[0] = (unsigned char) (val >> 8);
227 housekeeping_packet.hk_lfr_update_info_tc_cnt[1] = (unsigned char) (val);
230 housekeeping_packet.hk_lfr_update_info_tc_cnt[1] = (unsigned char) (val);
228
231
229 return result;
232 return result;
230 }
233 }
231
234
232 int action_enable_calibration(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time)
235 int action_enable_calibration(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time)
233 {
236 {
234 /** This function executes specific actions when a TC_LFR_ENABLE_CALIBRATION TeleCommand has been received.
237 /** This function executes specific actions when a TC_LFR_ENABLE_CALIBRATION TeleCommand has been received.
235 *
238 *
236 * @param TC points to the TeleCommand packet that is being processed
239 * @param TC points to the TeleCommand packet that is being processed
237 * @param queue_id is the id of the queue which handles TM transmission by the SpaceWire driver
240 * @param queue_id is the id of the queue which handles TM transmission by the SpaceWire driver
238 *
241 *
239 */
242 */
240
243
241 int result;
244 int result;
242 unsigned char lfrMode;
245 unsigned char lfrMode;
243
246
244 result = LFR_DEFAULT;
247 result = LFR_DEFAULT;
245 lfrMode = (housekeeping_packet.lfr_status_word[0] & 0xf0) >> 4;
248 lfrMode = (housekeeping_packet.lfr_status_word[0] & 0xf0) >> 4;
246
249
247 if ( (lfrMode == LFR_MODE_STANDBY) || (lfrMode == LFR_MODE_BURST) || (lfrMode == LFR_MODE_SBM2) ) {
250 if ( (lfrMode == LFR_MODE_STANDBY) || (lfrMode == LFR_MODE_BURST) || (lfrMode == LFR_MODE_SBM2) ) {
248 send_tm_lfr_tc_exe_not_executable( TC, queue_id, time );
251 send_tm_lfr_tc_exe_not_executable( TC, queue_id, time );
249 result = LFR_DEFAULT;
252 result = LFR_DEFAULT;
250 }
253 }
251 else {
254 else {
252 send_tm_lfr_tc_exe_not_implemented( TC, queue_id, time );
255 send_tm_lfr_tc_exe_not_implemented( TC, queue_id, time );
253 result = LFR_DEFAULT;
256 result = LFR_DEFAULT;
254 }
257 }
255 return result;
258 return result;
256 }
259 }
257
260
258 int action_disable_calibration(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time)
261 int action_disable_calibration(ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time)
259 {
262 {
260 /** This function executes specific actions when a TC_LFR_DISABLE_CALIBRATION TeleCommand has been received.
263 /** This function executes specific actions when a TC_LFR_DISABLE_CALIBRATION TeleCommand has been received.
261 *
264 *
262 * @param TC points to the TeleCommand packet that is being processed
265 * @param TC points to the TeleCommand packet that is being processed
263 * @param queue_id is the id of the queue which handles TM transmission by the SpaceWire driver
266 * @param queue_id is the id of the queue which handles TM transmission by the SpaceWire driver
264 *
267 *
265 */
268 */
266
269
267 int result;
270 int result;
268 unsigned char lfrMode;
271 unsigned char lfrMode;
269
272
270 result = LFR_DEFAULT;
273 result = LFR_DEFAULT;
271 lfrMode = (housekeeping_packet.lfr_status_word[0] & 0xf0) >> 4;
274 lfrMode = (housekeeping_packet.lfr_status_word[0] & 0xf0) >> 4;
272
275
273 if ( (lfrMode == LFR_MODE_STANDBY) || (lfrMode == LFR_MODE_BURST) || (lfrMode == LFR_MODE_SBM2) ) {
276 if ( (lfrMode == LFR_MODE_STANDBY) || (lfrMode == LFR_MODE_BURST) || (lfrMode == LFR_MODE_SBM2) ) {
274 send_tm_lfr_tc_exe_not_executable( TC, queue_id, time );
277 send_tm_lfr_tc_exe_not_executable( TC, queue_id, time );
275 result = LFR_DEFAULT;
278 result = LFR_DEFAULT;
276 }
279 }
277 else {
280 else {
278 send_tm_lfr_tc_exe_not_implemented( TC, queue_id, time );
281 send_tm_lfr_tc_exe_not_implemented( TC, queue_id, time );
279 result = LFR_DEFAULT;
282 result = LFR_DEFAULT;
280 }
283 }
281 return result;
284 return result;
282 }
285 }
283
286
284 int action_update_time(ccsdsTelecommandPacket_t *TC)
287 int action_update_time(ccsdsTelecommandPacket_t *TC)
285 {
288 {
286 /** This function executes specific actions when a TC_LFR_UPDATE_TIME TeleCommand has been received.
289 /** This function executes specific actions when a TC_LFR_UPDATE_TIME TeleCommand has been received.
287 *
290 *
288 * @param TC points to the TeleCommand packet that is being processed
291 * @param TC points to the TeleCommand packet that is being processed
289 * @param queue_id is the id of the queue which handles TM transmission by the SpaceWire driver
292 * @param queue_id is the id of the queue which handles TM transmission by the SpaceWire driver
290 *
293 *
291 * @return LFR_SUCCESSFUL
294 * @return LFR_SUCCESSFUL
292 *
295 *
293 */
296 */
294
297
295 unsigned int val;
298 unsigned int val;
296
299
297 time_management_regs->coarse_time_load = (TC->dataAndCRC[0] << 24)
300 time_management_regs->coarse_time_load = (TC->dataAndCRC[0] << 24)
298 + (TC->dataAndCRC[1] << 16)
301 + (TC->dataAndCRC[1] << 16)
299 + (TC->dataAndCRC[2] << 8)
302 + (TC->dataAndCRC[2] << 8)
300 + TC->dataAndCRC[3];
303 + TC->dataAndCRC[3];
301 val = housekeeping_packet.hk_lfr_update_time_tc_cnt[0] * 256
304 val = housekeeping_packet.hk_lfr_update_time_tc_cnt[0] * 256
302 + housekeeping_packet.hk_lfr_update_time_tc_cnt[1];
305 + housekeeping_packet.hk_lfr_update_time_tc_cnt[1];
303 val++;
306 val++;
304 housekeeping_packet.hk_lfr_update_time_tc_cnt[0] = (unsigned char) (val >> 8);
307 housekeeping_packet.hk_lfr_update_time_tc_cnt[0] = (unsigned char) (val >> 8);
305 housekeeping_packet.hk_lfr_update_time_tc_cnt[1] = (unsigned char) (val);
308 housekeeping_packet.hk_lfr_update_time_tc_cnt[1] = (unsigned char) (val);
306 time_management_regs->ctrl = time_management_regs->ctrl | 1;
309 time_management_regs->ctrl = time_management_regs->ctrl | 1;
307
310
308 return LFR_SUCCESSFUL;
311 return LFR_SUCCESSFUL;
309 }
312 }
310
313
311 //*******************
314 //*******************
312 // ENTERING THE MODES
315 // ENTERING THE MODES
313
316
314 int transition_validation(unsigned char requestedMode)
317 int transition_validation(unsigned char requestedMode)
315 {
318 {
319 /** This function checks the validity of the transition requested by the TC_LFR_ENTER_MODE.
320 *
321 * @param requestedMode is the mode requested by the TC_LFR_ENTER_MODE
322 *
323 * @return LFR directive status codes:
324 * - LFR_SUCCESSFUL - the transition is authorized
325 * - LFR_DEFAULT - the transition is not authorized
326 *
327 */
328
316 int status;
329 int status;
317
330
318 switch (requestedMode)
331 switch (requestedMode)
319 {
332 {
320 case LFR_MODE_STANDBY:
333 case LFR_MODE_STANDBY:
321 if ( lfrCurrentMode == LFR_MODE_STANDBY ) {
334 if ( lfrCurrentMode == LFR_MODE_STANDBY ) {
322 status = LFR_DEFAULT;
335 status = LFR_DEFAULT;
323 }
336 }
324 else
337 else
325 {
338 {
326 status = LFR_SUCCESSFUL;
339 status = LFR_SUCCESSFUL;
327 }
340 }
328 break;
341 break;
329 case LFR_MODE_NORMAL:
342 case LFR_MODE_NORMAL:
330 if ( lfrCurrentMode == LFR_MODE_NORMAL ) {
343 if ( lfrCurrentMode == LFR_MODE_NORMAL ) {
331 status = LFR_DEFAULT;
344 status = LFR_DEFAULT;
332 }
345 }
333 else {
346 else {
334 status = LFR_SUCCESSFUL;
347 status = LFR_SUCCESSFUL;
335 }
348 }
336 break;
349 break;
337 case LFR_MODE_BURST:
350 case LFR_MODE_BURST:
338 if ( lfrCurrentMode == LFR_MODE_BURST ) {
351 if ( lfrCurrentMode == LFR_MODE_BURST ) {
339 status = LFR_DEFAULT;
352 status = LFR_DEFAULT;
340 }
353 }
341 else {
354 else {
342 status = LFR_SUCCESSFUL;
355 status = LFR_SUCCESSFUL;
343 }
356 }
344 break;
357 break;
345 case LFR_MODE_SBM1:
358 case LFR_MODE_SBM1:
346 if ( lfrCurrentMode == LFR_MODE_SBM1 ) {
359 if ( lfrCurrentMode == LFR_MODE_SBM1 ) {
347 status = LFR_DEFAULT;
360 status = LFR_DEFAULT;
348 }
361 }
349 else {
362 else {
350 status = LFR_SUCCESSFUL;
363 status = LFR_SUCCESSFUL;
351 }
364 }
352 break;
365 break;
353 case LFR_MODE_SBM2:
366 case LFR_MODE_SBM2:
354 if ( lfrCurrentMode == LFR_MODE_SBM2 ) {
367 if ( lfrCurrentMode == LFR_MODE_SBM2 ) {
355 status = LFR_DEFAULT;
368 status = LFR_DEFAULT;
356 }
369 }
357 else {
370 else {
358 status = LFR_SUCCESSFUL;
371 status = LFR_SUCCESSFUL;
359 }
372 }
360 break;
373 break;
361 default:
374 default:
362 status = LFR_DEFAULT;
375 status = LFR_DEFAULT;
363 break;
376 break;
364 }
377 }
365
378
366 return status;
379 return status;
367 }
380 }
368
381
369 int stop_current_mode()
382 int stop_current_mode()
370 {
383 {
371 /** This function stops the current mode by masking interrupt lines and suspending science tasks.
384 /** This function stops the current mode by masking interrupt lines and suspending science tasks.
372 *
385 *
373 * @return RTEMS directive status codes:
386 * @return RTEMS directive status codes:
374 * - RTEMS_SUCCESSFUL - task restarted successfully
387 * - RTEMS_SUCCESSFUL - task restarted successfully
375 * - RTEMS_INVALID_ID - task id invalid
388 * - RTEMS_INVALID_ID - task id invalid
376 * - RTEMS_ALREADY_SUSPENDED - task already suspended
389 * - RTEMS_ALREADY_SUSPENDED - task already suspended
377 *
390 *
378 */
391 */
379
392
380 rtems_status_code status;
393 rtems_status_code status;
381
394
382 status = RTEMS_SUCCESSFUL;
395 status = RTEMS_SUCCESSFUL;
383
396
384 #ifdef GSA
397 #ifdef GSA
385 LEON_Mask_interrupt( IRQ_WF ); // mask waveform interrupt (coming from the timer VHDL IP)
398 LEON_Mask_interrupt( IRQ_WF ); // mask waveform interrupt (coming from the timer VHDL IP)
386 LEON_Clear_interrupt( IRQ_WF ); // clear waveform interrupt (coming from the timer VHDL IP)
399 LEON_Clear_interrupt( IRQ_WF ); // clear waveform interrupt (coming from the timer VHDL IP)
387 timer_stop( (gptimer_regs_t*) REGS_ADDR_GPTIMER, TIMER_WF_SIMULATOR );
400 timer_stop( (gptimer_regs_t*) REGS_ADDR_GPTIMER, TIMER_WF_SIMULATOR );
388 #else
401 #else
389 // mask interruptions
402 // mask interruptions
390 LEON_Mask_interrupt( IRQ_WAVEFORM_PICKER ); // mask waveform picker interrupt
403 LEON_Mask_interrupt( IRQ_WAVEFORM_PICKER ); // mask waveform picker interrupt
391 LEON_Mask_interrupt( IRQ_SPECTRAL_MATRIX ); // mask spectral matrix interrupt
404 LEON_Mask_interrupt( IRQ_SPECTRAL_MATRIX ); // mask spectral matrix interrupt
392 // reset registers
405 // reset registers
393 reset_wfp_burst_enable(); // reset burst and enable bits
406 reset_wfp_burst_enable(); // reset burst and enable bits
394 reset_wfp_status(); // reset all the status bits
407 reset_wfp_status(); // reset all the status bits
395 // creal interruptions
408 // creal interruptions
396 LEON_Clear_interrupt( IRQ_WAVEFORM_PICKER ); // clear waveform picker interrupt
409 LEON_Clear_interrupt( IRQ_WAVEFORM_PICKER ); // clear waveform picker interrupt
397 LEON_Clear_interrupt( IRQ_SPECTRAL_MATRIX ); // clear spectarl matrix interrupt
410 LEON_Clear_interrupt( IRQ_SPECTRAL_MATRIX ); // clear spectarl matrix interrupt
398 #endif
411 #endif
399 //**********************
412 //**********************
400 // suspend several tasks
413 // suspend several tasks
401 if (lfrCurrentMode != LFR_MODE_STANDBY) {
414 if (lfrCurrentMode != LFR_MODE_STANDBY) {
402 status = suspend_science_tasks();
415 status = suspend_science_tasks();
403 }
416 }
404
417
405 if (status != RTEMS_SUCCESSFUL)
418 if (status != RTEMS_SUCCESSFUL)
406 {
419 {
407 PRINTF1("in stop_current_mode *** in suspend_science_tasks *** ERR code: %d\n", status)
420 PRINTF1("in stop_current_mode *** in suspend_science_tasks *** ERR code: %d\n", status)
408 }
421 }
409
422
410 return status;
423 return status;
411 }
424 }
412
425
413 int enter_mode(unsigned char mode, ccsdsTelecommandPacket_t *TC )
426 int enter_mode(unsigned char mode )
414 {
427 {
428 /** This function is launched after a mode transition validation.
429 *
430 * @param mode is the mode in which LFR will be put.
431 *
432 * @return RTEMS directive status codes:
433 * - RTEMS_SUCCESSFUL - the mode has been entered successfully
434 * - RTEMS_NOT_SATISFIED - the mode has not been entered successfully
435 *
436 */
437
415 rtems_status_code status;
438 rtems_status_code status;
416
439
417 status = RTEMS_UNSATISFIED;
440 status = RTEMS_UNSATISFIED;
418
441
419 housekeeping_packet.lfr_status_word[0] = (unsigned char) ((mode << 4) + 0x0d);
442 housekeeping_packet.lfr_status_word[0] = (unsigned char) ((mode << 4) + 0x0d);
420 updateLFRCurrentMode();
443 updateLFRCurrentMode();
421
444
422 switch(mode){
445 switch(mode){
423 case LFR_MODE_STANDBY:
446 case LFR_MODE_STANDBY:
424 status = enter_standby_mode( );
447 status = enter_standby_mode( );
425 break;
448 break;
426 case LFR_MODE_NORMAL:
449 case LFR_MODE_NORMAL:
427 status = enter_normal_mode( );
450 status = enter_normal_mode( );
428 break;
451 break;
429 case LFR_MODE_BURST:
452 case LFR_MODE_BURST:
430 status = enter_burst_mode( );
453 status = enter_burst_mode( );
431 break;
454 break;
432 case LFR_MODE_SBM1:
455 case LFR_MODE_SBM1:
433 status = enter_sbm1_mode( );
456 status = enter_sbm1_mode( );
434 break;
457 break;
435 case LFR_MODE_SBM2:
458 case LFR_MODE_SBM2:
436 status = enter_sbm2_mode( );
459 status = enter_sbm2_mode( );
437 break;
460 break;
438 default:
461 default:
439 status = RTEMS_UNSATISFIED;
462 status = RTEMS_UNSATISFIED;
440 }
463 }
441
464
442 if (status != RTEMS_SUCCESSFUL)
465 if (status != RTEMS_SUCCESSFUL)
443 {
466 {
444 PRINTF("in enter_mode *** ERR\n")
467 PRINTF("in enter_mode *** ERR\n")
445 status = RTEMS_UNSATISFIED;
468 status = RTEMS_UNSATISFIED;
446 }
469 }
447
470
448 return status;
471 return status;
449 }
472 }
450
473
451 int enter_standby_mode()
474 int enter_standby_mode()
452 {
475 {
476 /** This function is used to enter the STANDBY mode.
477 *
478 * @return RTEMS directive status codes:
479 * - RTEMS_SUCCESSFUL - the mode has been entered successfully
480 *
481 */
482
453 PRINTF1("maxCount = %d\n", maxCount)
483 PRINTF1("maxCount = %d\n", maxCount)
454
484
455 #ifdef PRINT_TASK_STATISTICS
485 #ifdef PRINT_TASK_STATISTICS
456 rtems_cpu_usage_report();
486 rtems_cpu_usage_report();
457 #endif
487 #endif
458
488
459 #ifdef PRINT_STACK_REPORT
489 #ifdef PRINT_STACK_REPORT
460 rtems_stack_checker_report_usage();
490 rtems_stack_checker_report_usage();
461 #endif
491 #endif
462
492
463 return LFR_SUCCESSFUL;
493 return LFR_SUCCESSFUL;
464 }
494 }
465
495
466 int enter_normal_mode()
496 int enter_normal_mode()
467 {
497 {
468 rtems_status_code status;
498 rtems_status_code status;
469
499
470 status = restart_science_tasks();
500 status = restart_science_tasks();
471
501
472 #ifdef GSA
502 #ifdef GSA
473 timer_start( (gptimer_regs_t*) REGS_ADDR_GPTIMER, TIMER_WF_SIMULATOR );
503 timer_start( (gptimer_regs_t*) REGS_ADDR_GPTIMER, TIMER_WF_SIMULATOR );
474 timer_start( (gptimer_regs_t*) REGS_ADDR_GPTIMER, TIMER_SM_SIMULATOR );
504 timer_start( (gptimer_regs_t*) REGS_ADDR_GPTIMER, TIMER_SM_SIMULATOR );
475 LEON_Clear_interrupt( IRQ_WF );
505 LEON_Clear_interrupt( IRQ_WF );
476 LEON_Unmask_interrupt( IRQ_WF );
506 LEON_Unmask_interrupt( IRQ_WF );
477 //
507 //
478 set_local_nb_interrupt_f0_MAX();
508 set_local_nb_interrupt_f0_MAX();
479 LEON_Clear_interrupt( IRQ_SM ); // the IRQ_SM seems to be incompatible with the IRQ_WF on the xilinx board
509 LEON_Clear_interrupt( IRQ_SM ); // the IRQ_SM seems to be incompatible with the IRQ_WF on the xilinx board
480 LEON_Unmask_interrupt( IRQ_SM );
510 LEON_Unmask_interrupt( IRQ_SM );
481 #else
511 #else
482 //****************
512 //****************
483 // waveform picker
513 // waveform picker
484 reset_waveform_picker_regs();
514 reset_waveform_picker_regs();
485 set_wfp_burst_enable_register(LFR_MODE_NORMAL);
515 set_wfp_burst_enable_register(LFR_MODE_NORMAL);
486 LEON_Clear_interrupt( IRQ_WAVEFORM_PICKER );
516 LEON_Clear_interrupt( IRQ_WAVEFORM_PICKER );
487 LEON_Unmask_interrupt( IRQ_WAVEFORM_PICKER );
517 LEON_Unmask_interrupt( IRQ_WAVEFORM_PICKER );
488 //****************
518 //****************
489 // spectral matrix
519 // spectral matrix
490 #endif
520 #endif
491
521
492 return status;
522 return status;
493 }
523 }
494
524
495 int enter_burst_mode()
525 int enter_burst_mode()
496 {
526 {
527 /** This function is used to enter the STANDBY mode.
528 *
529 * @return RTEMS directive status codes:
530 * - RTEMS_SUCCESSFUL - the mode has been entered successfully
531 * - RTEMS_INVALID_ID - task id invalid
532 * - RTEMS_INCORRECT_STATE - task never started
533 * - RTEMS_ILLEGAL_ON_REMOTE_OBJECT - cannot restart remote task
534 *
535 */
536
497 rtems_status_code status;
537 rtems_status_code status;
498
538
499 status = restart_science_tasks();
539 status = restart_science_tasks();
500
540
501 #ifdef GSA
541 #ifdef GSA
502 LEON_Unmask_interrupt( IRQ_SM );
542 LEON_Unmask_interrupt( IRQ_SM );
503 #else
543 #else
504 reset_waveform_picker_regs();
544 reset_waveform_picker_regs();
505 set_wfp_burst_enable_register(LFR_MODE_BURST);
545 set_wfp_burst_enable_register(LFR_MODE_BURST);
506 LEON_Clear_interrupt( IRQ_WAVEFORM_PICKER );
546 LEON_Clear_interrupt( IRQ_WAVEFORM_PICKER );
507 LEON_Unmask_interrupt( IRQ_WAVEFORM_PICKER );
547 LEON_Unmask_interrupt( IRQ_WAVEFORM_PICKER );
508 #endif
548 #endif
509
549
510 return status;
550 return status;
511 }
551 }
512
552
513 int enter_sbm1_mode()
553 int enter_sbm1_mode()
514 {
554 {
555 /** This function is used to enter the SBM1 mode.
556 *
557 * @return RTEMS directive status codes:
558 * - RTEMS_SUCCESSFUL - the mode has been entered successfully
559 * - RTEMS_INVALID_ID - task id invalid
560 * - RTEMS_INCORRECT_STATE - task never started
561 * - RTEMS_ILLEGAL_ON_REMOTE_OBJECT - cannot restart remote task
562 *
563 */
564
515 rtems_status_code status;
565 rtems_status_code status;
516
566
517 status = restart_science_tasks();
567 status = restart_science_tasks();
518
568
519 set_local_sbm1_nb_cwf_max();
569 set_local_sbm1_nb_cwf_max();
520
570
521 reset_local_sbm1_nb_cwf_sent();
571 reset_local_sbm1_nb_cwf_sent();
522
572
523 #ifdef GSA
573 #ifdef GSA
524 LEON_Unmask_interrupt( IRQ_SM );
574 LEON_Unmask_interrupt( IRQ_SM );
525 #else
575 #else
526 reset_waveform_picker_regs();
576 reset_waveform_picker_regs();
527 set_wfp_burst_enable_register(LFR_MODE_SBM1);
577 set_wfp_burst_enable_register(LFR_MODE_SBM1);
528 LEON_Clear_interrupt( IRQ_WAVEFORM_PICKER );
578 LEON_Clear_interrupt( IRQ_WAVEFORM_PICKER );
529 LEON_Unmask_interrupt( IRQ_WAVEFORM_PICKER );
579 LEON_Unmask_interrupt( IRQ_WAVEFORM_PICKER );
530 // SM simulation
531 // timer_start( (gptimer_regs_t*) REGS_ADDR_GPTIMER, TIMER_SM_SIMULATOR );
532 // LEON_Clear_interrupt( IRQ_SM ); // the IRQ_SM seems to be incompatible with the IRQ_WF on the xilinx board
533 // LEON_Unmask_interrupt( IRQ_SM );
534 #endif
580 #endif
535
581
536 return status;
582 return status;
537 }
583 }
538
584
539 int enter_sbm2_mode()
585 int enter_sbm2_mode()
540 {
586 {
587 /** This function is used to enter the SBM2 mode.
588 *
589 * @return RTEMS directive status codes:
590 * - RTEMS_SUCCESSFUL - the mode has been entered successfully
591 * - RTEMS_INVALID_ID - task id invalid
592 * - RTEMS_INCORRECT_STATE - task never started
593 * - RTEMS_ILLEGAL_ON_REMOTE_OBJECT - cannot restart remote task
594 *
595 */
596
541 rtems_status_code status;
597 rtems_status_code status;
542
598
543 status = restart_science_tasks();
599 status = restart_science_tasks();
544
600
545 set_local_sbm2_nb_cwf_max();
601 set_local_sbm2_nb_cwf_max();
546
602
547 reset_local_sbm2_nb_cwf_sent();
603 reset_local_sbm2_nb_cwf_sent();
548
604
549 #ifdef GSA
605 #ifdef GSA
550 LEON_Unmask_interrupt( IRQ_SM );
606 LEON_Unmask_interrupt( IRQ_SM );
551 #else
607 #else
552 reset_waveform_picker_regs();
608 reset_waveform_picker_regs();
553 set_wfp_burst_enable_register(LFR_MODE_SBM2);
609 set_wfp_burst_enable_register(LFR_MODE_SBM2);
554 LEON_Clear_interrupt( IRQ_WAVEFORM_PICKER );
610 LEON_Clear_interrupt( IRQ_WAVEFORM_PICKER );
555 LEON_Unmask_interrupt( IRQ_WAVEFORM_PICKER );
611 LEON_Unmask_interrupt( IRQ_WAVEFORM_PICKER );
556 #endif
612 #endif
557
613
558 return status;
614 return status;
559 }
615 }
560
616
561 int restart_science_tasks()
617 int restart_science_tasks()
562 {
618 {
619 /** This function is used to restart all science tasks.
620 *
621 * @return RTEMS directive status codes:
622 * - RTEMS_SUCCESSFUL - task restarted successfully
623 * - RTEMS_INVALID_ID - task id invalid
624 * - RTEMS_INCORRECT_STATE - task never started
625 * - RTEMS_ILLEGAL_ON_REMOTE_OBJECT - cannot restart remote task
626 *
627 * Science tasks are AVF0, BPF0, WFRM, CWF3, CW2, CWF1
628 *
629 */
630
563 rtems_status_code status[6];
631 rtems_status_code status[6];
564 rtems_status_code ret;
632 rtems_status_code ret;
565
633
566 ret = RTEMS_SUCCESSFUL;
634 ret = RTEMS_SUCCESSFUL;
567
635
568 status[0] = rtems_task_restart( Task_id[TASKID_AVF0], 1 );
636 status[0] = rtems_task_restart( Task_id[TASKID_AVF0], 1 );
569 if (status[0] != RTEMS_SUCCESSFUL)
637 if (status[0] != RTEMS_SUCCESSFUL)
570 {
638 {
571 PRINTF1("in restart_science_task *** 0 ERR %d\n", status[0])
639 PRINTF1("in restart_science_task *** 0 ERR %d\n", status[0])
572 }
640 }
573
641
574 status[1] = rtems_task_restart( Task_id[TASKID_BPF0],1 );
642 status[1] = rtems_task_restart( Task_id[TASKID_BPF0],1 );
575 if (status[1] != RTEMS_SUCCESSFUL)
643 if (status[1] != RTEMS_SUCCESSFUL)
576 {
644 {
577 PRINTF1("in restart_science_task *** 1 ERR %d\n", status[1])
645 PRINTF1("in restart_science_task *** 1 ERR %d\n", status[1])
578 }
646 }
579
647
580 status[2] = rtems_task_restart( Task_id[TASKID_WFRM],1 );
648 status[2] = rtems_task_restart( Task_id[TASKID_WFRM],1 );
581 if (status[2] != RTEMS_SUCCESSFUL)
649 if (status[2] != RTEMS_SUCCESSFUL)
582 {
650 {
583 PRINTF1("in restart_science_task *** 2 ERR %d\n", status[2])
651 PRINTF1("in restart_science_task *** 2 ERR %d\n", status[2])
584 }
652 }
585
653
586 status[3] = rtems_task_restart( Task_id[TASKID_CWF3],1 );
654 status[3] = rtems_task_restart( Task_id[TASKID_CWF3],1 );
587 if (status[3] != RTEMS_SUCCESSFUL)
655 if (status[3] != RTEMS_SUCCESSFUL)
588 {
656 {
589 PRINTF1("in restart_science_task *** 3 ERR %d\n", status[3])
657 PRINTF1("in restart_science_task *** 3 ERR %d\n", status[3])
590 }
658 }
591
659
592 status[4] = rtems_task_restart( Task_id[TASKID_CWF2],1 );
660 status[4] = rtems_task_restart( Task_id[TASKID_CWF2],1 );
593 if (status[4] != RTEMS_SUCCESSFUL)
661 if (status[4] != RTEMS_SUCCESSFUL)
594 {
662 {
595 PRINTF1("in restart_science_task *** 4 ERR %d\n", status[4])
663 PRINTF1("in restart_science_task *** 4 ERR %d\n", status[4])
596 }
664 }
597
665
598 status[5] = rtems_task_restart( Task_id[TASKID_CWF1],1 );
666 status[5] = rtems_task_restart( Task_id[TASKID_CWF1],1 );
599 if (status[5] != RTEMS_SUCCESSFUL)
667 if (status[5] != RTEMS_SUCCESSFUL)
600 {
668 {
601 PRINTF1("in restart_science_task *** 5 ERR %d\n", status[5])
669 PRINTF1("in restart_science_task *** 5 ERR %d\n", status[5])
602 }
670 }
603
671
604 if ( (status[0] != RTEMS_SUCCESSFUL) || (status[1] != RTEMS_SUCCESSFUL) || (status[2] != RTEMS_SUCCESSFUL) ||
672 if ( (status[0] != RTEMS_SUCCESSFUL) || (status[1] != RTEMS_SUCCESSFUL) || (status[2] != RTEMS_SUCCESSFUL) ||
605 (status[3] != RTEMS_SUCCESSFUL) || (status[4] != RTEMS_SUCCESSFUL) || (status[5] != RTEMS_SUCCESSFUL) )
673 (status[3] != RTEMS_SUCCESSFUL) || (status[4] != RTEMS_SUCCESSFUL) || (status[5] != RTEMS_SUCCESSFUL) )
606 {
674 {
607 ret = RTEMS_UNSATISFIED;
675 ret = RTEMS_UNSATISFIED;
608 }
676 }
609
677
610 return ret;
678 return ret;
611 }
679 }
612
680
613 int suspend_science_tasks()
681 int suspend_science_tasks()
614 {
682 {
615 /** This function suspends the science tasks.
683 /** This function suspends the science tasks.
616 *
684 *
617 * @return RTEMS directive status codes:
685 * @return RTEMS directive status codes:
618 * - RTEMS_SUCCESSFUL - task restarted successfully
686 * - RTEMS_SUCCESSFUL - task restarted successfully
619 * - RTEMS_INVALID_ID - task id invalid
687 * - RTEMS_INVALID_ID - task id invalid
620 * - RTEMS_ALREADY_SUSPENDED - task already suspended
688 * - RTEMS_ALREADY_SUSPENDED - task already suspended
621 *
689 *
622 */
690 */
623
691
624 rtems_status_code status;
692 rtems_status_code status;
625
693
626 status = rtems_task_suspend( Task_id[TASKID_AVF0] );
694 status = rtems_task_suspend( Task_id[TASKID_AVF0] );
627 if (status != RTEMS_SUCCESSFUL)
695 if (status != RTEMS_SUCCESSFUL)
628 {
696 {
629 PRINTF1("in suspend_science_task *** AVF0 ERR %d\n", status)
697 PRINTF1("in suspend_science_task *** AVF0 ERR %d\n", status)
630 }
698 }
631
699
632 if (status == RTEMS_SUCCESSFUL) // suspend BPF0
700 if (status == RTEMS_SUCCESSFUL) // suspend BPF0
633 {
701 {
634 status = rtems_task_suspend( Task_id[TASKID_BPF0] );
702 status = rtems_task_suspend( Task_id[TASKID_BPF0] );
635 if (status != RTEMS_SUCCESSFUL)
703 if (status != RTEMS_SUCCESSFUL)
636 {
704 {
637 PRINTF1("in suspend_science_task *** BPF0 ERR %d\n", status)
705 PRINTF1("in suspend_science_task *** BPF0 ERR %d\n", status)
638 }
706 }
639 }
707 }
640
708
641 if (status == RTEMS_SUCCESSFUL) // suspend WFRM
709 if (status == RTEMS_SUCCESSFUL) // suspend WFRM
642 {
710 {
643 status = rtems_task_suspend( Task_id[TASKID_WFRM] );
711 status = rtems_task_suspend( Task_id[TASKID_WFRM] );
644 if (status != RTEMS_SUCCESSFUL)
712 if (status != RTEMS_SUCCESSFUL)
645 {
713 {
646 PRINTF1("in suspend_science_task *** WFRM ERR %d\n", status)
714 PRINTF1("in suspend_science_task *** WFRM ERR %d\n", status)
647 }
715 }
648 }
716 }
649
717
650 if (status == RTEMS_SUCCESSFUL) // suspend CWF3
718 if (status == RTEMS_SUCCESSFUL) // suspend CWF3
651 {
719 {
652 status = rtems_task_suspend( Task_id[TASKID_CWF3] );
720 status = rtems_task_suspend( Task_id[TASKID_CWF3] );
653 if (status != RTEMS_SUCCESSFUL)
721 if (status != RTEMS_SUCCESSFUL)
654 {
722 {
655 PRINTF1("in suspend_science_task *** CWF3 ERR %d\n", status)
723 PRINTF1("in suspend_science_task *** CWF3 ERR %d\n", status)
656 }
724 }
657 }
725 }
658
726
659 if (status == RTEMS_SUCCESSFUL) // suspend CWF2
727 if (status == RTEMS_SUCCESSFUL) // suspend CWF2
660 {
728 {
661 status = rtems_task_suspend( Task_id[TASKID_CWF2] );
729 status = rtems_task_suspend( Task_id[TASKID_CWF2] );
662 if (status != RTEMS_SUCCESSFUL)
730 if (status != RTEMS_SUCCESSFUL)
663 {
731 {
664 PRINTF1("in suspend_science_task *** CWF2 ERR %d\n", status)
732 PRINTF1("in suspend_science_task *** CWF2 ERR %d\n", status)
665 }
733 }
666 }
734 }
667
735
668 if (status == RTEMS_SUCCESSFUL) // suspend CWF1
736 if (status == RTEMS_SUCCESSFUL) // suspend CWF1
669 {
737 {
670 status = rtems_task_suspend( Task_id[TASKID_CWF1] );
738 status = rtems_task_suspend( Task_id[TASKID_CWF1] );
671 if (status != RTEMS_SUCCESSFUL)
739 if (status != RTEMS_SUCCESSFUL)
672 {
740 {
673 PRINTF1("in suspend_science_task *** CWF1 ERR %d\n", status)
741 PRINTF1("in suspend_science_task *** CWF1 ERR %d\n", status)
674 }
742 }
675 }
743 }
676
744
677 return status;
745 return status;
678 }
746 }
679
747
680 //****************
748 //****************
681 // CLOSING ACTIONS
749 // CLOSING ACTIONS
682 void update_last_TC_exe(ccsdsTelecommandPacket_t *TC, unsigned char *time)
750 void update_last_TC_exe(ccsdsTelecommandPacket_t *TC, unsigned char *time)
683 {
751 {
752 /** This function is used to update the HK packets statistics after a successful TC execution.
753 *
754 * @param TC points to the TC being processed
755 * @param time is the time used to date the TC execution
756 *
757 */
758
684 housekeeping_packet.hk_lfr_last_exe_tc_id[0] = TC->packetID[0];
759 housekeeping_packet.hk_lfr_last_exe_tc_id[0] = TC->packetID[0];
685 housekeeping_packet.hk_lfr_last_exe_tc_id[1] = TC->packetID[1];
760 housekeeping_packet.hk_lfr_last_exe_tc_id[1] = TC->packetID[1];
686 housekeeping_packet.hk_lfr_last_exe_tc_type[0] = 0x00;
761 housekeeping_packet.hk_lfr_last_exe_tc_type[0] = 0x00;
687 housekeeping_packet.hk_lfr_last_exe_tc_type[1] = TC->serviceType;
762 housekeeping_packet.hk_lfr_last_exe_tc_type[1] = TC->serviceType;
688 housekeeping_packet.hk_lfr_last_exe_tc_subtype[0] = 0x00;
763 housekeeping_packet.hk_lfr_last_exe_tc_subtype[0] = 0x00;
689 housekeeping_packet.hk_lfr_last_exe_tc_subtype[1] = TC->serviceSubType;
764 housekeeping_packet.hk_lfr_last_exe_tc_subtype[1] = TC->serviceSubType;
690 housekeeping_packet.hk_lfr_last_exe_tc_time[0] = time[0];
765 housekeeping_packet.hk_lfr_last_exe_tc_time[0] = time[0];
691 housekeeping_packet.hk_lfr_last_exe_tc_time[1] = time[1];
766 housekeeping_packet.hk_lfr_last_exe_tc_time[1] = time[1];
692 housekeeping_packet.hk_lfr_last_exe_tc_time[2] = time[2];
767 housekeeping_packet.hk_lfr_last_exe_tc_time[2] = time[2];
693 housekeeping_packet.hk_lfr_last_exe_tc_time[3] = time[3];
768 housekeeping_packet.hk_lfr_last_exe_tc_time[3] = time[3];
694 housekeeping_packet.hk_lfr_last_exe_tc_time[4] = time[4];
769 housekeeping_packet.hk_lfr_last_exe_tc_time[4] = time[4];
695 housekeeping_packet.hk_lfr_last_exe_tc_time[5] = time[5];
770 housekeeping_packet.hk_lfr_last_exe_tc_time[5] = time[5];
696 }
771 }
697
772
698 void update_last_TC_rej(ccsdsTelecommandPacket_t *TC, unsigned char *time)
773 void update_last_TC_rej(ccsdsTelecommandPacket_t *TC, unsigned char *time)
699 {
774 {
775 /** This function is used to update the HK packets statistics after a TC rejection.
776 *
777 * @param TC points to the TC being processed
778 * @param time is the time used to date the TC rejection
779 *
780 */
781
700 housekeeping_packet.hk_lfr_last_rej_tc_id[0] = TC->packetID[0];
782 housekeeping_packet.hk_lfr_last_rej_tc_id[0] = TC->packetID[0];
701 housekeeping_packet.hk_lfr_last_rej_tc_id[1] = TC->packetID[1];
783 housekeeping_packet.hk_lfr_last_rej_tc_id[1] = TC->packetID[1];
702 housekeeping_packet.hk_lfr_last_rej_tc_type[0] = 0x00;
784 housekeeping_packet.hk_lfr_last_rej_tc_type[0] = 0x00;
703 housekeeping_packet.hk_lfr_last_rej_tc_type[1] = TC->serviceType;
785 housekeeping_packet.hk_lfr_last_rej_tc_type[1] = TC->serviceType;
704 housekeeping_packet.hk_lfr_last_rej_tc_subtype[0] = 0x00;
786 housekeeping_packet.hk_lfr_last_rej_tc_subtype[0] = 0x00;
705 housekeeping_packet.hk_lfr_last_rej_tc_subtype[1] = TC->serviceSubType;
787 housekeeping_packet.hk_lfr_last_rej_tc_subtype[1] = TC->serviceSubType;
706 housekeeping_packet.hk_lfr_last_rej_tc_time[0] = time[0];
788 housekeeping_packet.hk_lfr_last_rej_tc_time[0] = time[0];
707 housekeeping_packet.hk_lfr_last_rej_tc_time[1] = time[1];
789 housekeeping_packet.hk_lfr_last_rej_tc_time[1] = time[1];
708 housekeeping_packet.hk_lfr_last_rej_tc_time[2] = time[2];
790 housekeeping_packet.hk_lfr_last_rej_tc_time[2] = time[2];
709 housekeeping_packet.hk_lfr_last_rej_tc_time[3] = time[3];
791 housekeeping_packet.hk_lfr_last_rej_tc_time[3] = time[3];
710 housekeeping_packet.hk_lfr_last_rej_tc_time[4] = time[4];
792 housekeeping_packet.hk_lfr_last_rej_tc_time[4] = time[4];
711 housekeeping_packet.hk_lfr_last_rej_tc_time[5] = time[5];
793 housekeeping_packet.hk_lfr_last_rej_tc_time[5] = time[5];
712 }
794 }
713
795
714 void close_action(ccsdsTelecommandPacket_t *TC, int result, rtems_id queue_id, unsigned char *time)
796 void close_action(ccsdsTelecommandPacket_t *TC, int result, rtems_id queue_id, unsigned char *time)
715 {
797 {
798 /** This function is the last step of the TC execution workflow.
799 *
800 * @param TC points to the TC being processed
801 * @param result is the result of the TC execution (LFR_SUCCESSFUL / LFR_DEFAULT)
802 * @param queue_id is the id of the RTEMS message queue used to send TM packets
803 * @param time is the time used to date the TC execution
804 *
805 */
806
716 unsigned int val = 0;
807 unsigned int val = 0;
717
808
718 if (result == LFR_SUCCESSFUL)
809 if (result == LFR_SUCCESSFUL)
719 {
810 {
720 if ( !( (TC->serviceType==TC_TYPE_TIME) && (TC->serviceSubType==TC_SUBTYPE_UPDT_TIME) )
811 if ( !( (TC->serviceType==TC_TYPE_TIME) && (TC->serviceSubType==TC_SUBTYPE_UPDT_TIME) )
721 &&
812 &&
722 !( (TC->serviceType==TC_TYPE_GEN) && (TC->serviceSubType==TC_SUBTYPE_UPDT_INFO))
813 !( (TC->serviceType==TC_TYPE_GEN) && (TC->serviceSubType==TC_SUBTYPE_UPDT_INFO))
723 )
814 )
724 {
815 {
725 send_tm_lfr_tc_exe_success( TC, queue_id, time );
816 send_tm_lfr_tc_exe_success( TC, queue_id, time );
726 }
817 }
727 update_last_TC_exe( TC, time );
818 update_last_TC_exe( TC, time );
728 val = housekeeping_packet.hk_dpu_exe_tc_lfr_cnt[0] * 256 + housekeeping_packet.hk_dpu_exe_tc_lfr_cnt[1];
819 val = housekeeping_packet.hk_dpu_exe_tc_lfr_cnt[0] * 256 + housekeeping_packet.hk_dpu_exe_tc_lfr_cnt[1];
729 val++;
820 val++;
730 housekeeping_packet.hk_dpu_exe_tc_lfr_cnt[0] = (unsigned char) (val >> 8);
821 housekeeping_packet.hk_dpu_exe_tc_lfr_cnt[0] = (unsigned char) (val >> 8);
731 housekeeping_packet.hk_dpu_exe_tc_lfr_cnt[1] = (unsigned char) (val);
822 housekeeping_packet.hk_dpu_exe_tc_lfr_cnt[1] = (unsigned char) (val);
732 }
823 }
733 else
824 else
734 {
825 {
735 update_last_TC_rej( TC, time );
826 update_last_TC_rej( TC, time );
736 val = housekeeping_packet.hk_dpu_rej_tc_lfr_cnt[0] * 256 + housekeeping_packet.hk_dpu_rej_tc_lfr_cnt[1];
827 val = housekeeping_packet.hk_dpu_rej_tc_lfr_cnt[0] * 256 + housekeeping_packet.hk_dpu_rej_tc_lfr_cnt[1];
737 val++;
828 val++;
738 housekeeping_packet.hk_dpu_rej_tc_lfr_cnt[0] = (unsigned char) (val >> 8);
829 housekeeping_packet.hk_dpu_rej_tc_lfr_cnt[0] = (unsigned char) (val >> 8);
739 housekeeping_packet.hk_dpu_rej_tc_lfr_cnt[1] = (unsigned char) (val);
830 housekeeping_packet.hk_dpu_rej_tc_lfr_cnt[1] = (unsigned char) (val);
740 }
831 }
741 }
832 }
742
833
743 //***************************
834 //***************************
744 // Interrupt Service Routines
835 // Interrupt Service Routines
745 rtems_isr commutation_isr1( rtems_vector_number vector )
836 rtems_isr commutation_isr1( rtems_vector_number vector )
746 {
837 {
747 if (rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) {
838 if (rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) {
748 printf("In commutation_isr1 *** Error sending event to DUMB\n");
839 printf("In commutation_isr1 *** Error sending event to DUMB\n");
749 }
840 }
750 }
841 }
751
842
752 rtems_isr commutation_isr2( rtems_vector_number vector )
843 rtems_isr commutation_isr2( rtems_vector_number vector )
753 {
844 {
754 if (rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) {
845 if (rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) {
755 printf("In commutation_isr2 *** Error sending event to DUMB\n");
846 printf("In commutation_isr2 *** Error sending event to DUMB\n");
756 }
847 }
757 }
848 }
758
849
759 //****************
850 //****************
760 // OTHER FUNCTIONS
851 // OTHER FUNCTIONS
761 void updateLFRCurrentMode()
852 void updateLFRCurrentMode()
762 {
853 {
763 /** This function updates the value of the global variable lfrCurrentMode.
854 /** This function updates the value of the global variable lfrCurrentMode.
764 *
855 *
765 * lfrCurrentMode is a parameter used by several functions to know in which mode LFR is running.
856 * lfrCurrentMode is a parameter used by several functions to know in which mode LFR is running.
766 *
857 *
767 */
858 */
768 // update the local value of lfrCurrentMode with the value contained in the housekeeping_packet structure
859 // update the local value of lfrCurrentMode with the value contained in the housekeeping_packet structure
769 lfrCurrentMode = (housekeeping_packet.lfr_status_word[0] & 0xf0) >> 4;
860 lfrCurrentMode = (housekeeping_packet.lfr_status_word[0] & 0xf0) >> 4;
770 }
861 }
771
862
Show file before | Show file after | Hide comments
@@ -1,492 +1,501
1 /** Functions to send TM packets related to TC parsing and execution.
1 /** Functions to send TM packets related to TC parsing and execution.
2 *
2 *
3 * @file
3 * @file
4 * @author P. LEROY
4 * @author P. LEROY
5 *
5 *
6 * A group of functions to send appropriate TM packets after parsing and execution:
6 * A group of functions to send appropriate TM packets after parsing and execution:
7 * - TM_LFR_TC_EXE_SUCCESS
7 * - TM_LFR_TC_EXE_SUCCESS
8 * - TM_LFR_TC_EXE_INCONSISTENT
8 * - TM_LFR_TC_EXE_INCONSISTENT
9 * - TM_LFR_TC_EXE_NOT_EXECUTABLE
9 * - TM_LFR_TC_EXE_NOT_EXECUTABLE
10 * - TM_LFR_TC_EXE_NOT_IMPLEMENTED
10 * - TM_LFR_TC_EXE_NOT_IMPLEMENTED
11 * - TM_LFR_TC_EXE_ERROR
11 * - TM_LFR_TC_EXE_ERROR
12 * - TM_LFR_TC_EXE_CORRUPTED
12 * - TM_LFR_TC_EXE_CORRUPTED
13 *
13 *
14 */
14 */
15
15
16 #include "tm_lfr_tc_exe.h"
16 #include "tm_lfr_tc_exe.h"
17
17
18 int send_tm_lfr_tc_exe_success( ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time )
18 int send_tm_lfr_tc_exe_success( ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time )
19 {
19 {
20 /** This function sends a TM_LFR_TC_EXE_SUCCESS packet in the dedicated RTEMS message queue.
20 /** This function sends a TM_LFR_TC_EXE_SUCCESS packet in the dedicated RTEMS message queue.
21 *
21 *
22 * @param TC points to the TeleCommand packet that is being processed
22 * @param TC points to the TeleCommand packet that is being processed
23 * @param queue_id is the id of the queue which handles TM
23 * @param queue_id is the id of the queue which handles TM
24 *
24 *
25 * @return RTEMS directive status code:
25 * @return RTEMS directive status code:
26 * - RTEMS_SUCCESSFUL - message sent successfully
26 * - RTEMS_SUCCESSFUL - message sent successfully
27 * - RTEMS_INVALID_ID - invalid queue id
27 * - RTEMS_INVALID_ID - invalid queue id
28 * - RTEMS_INVALID_SIZE - invalid message size
28 * - RTEMS_INVALID_SIZE - invalid message size
29 * - RTEMS_INVALID_ADDRESS - buffer is NULL
29 * - RTEMS_INVALID_ADDRESS - buffer is NULL
30 * - RTEMS_UNSATISFIED - out of message buffers
30 * - RTEMS_UNSATISFIED - out of message buffers
31 * - RTEMS_TOO_MANY - queue s limit has been reached
31 * - RTEMS_TOO_MANY - queue s limit has been reached
32 *
32 *
33 */
33 */
34
34
35 rtems_status_code status;
35 rtems_status_code status;
36 Packet_TM_LFR_TC_EXE_SUCCESS_t TM;
36 Packet_TM_LFR_TC_EXE_SUCCESS_t TM;
37 unsigned char messageSize;
37 unsigned char messageSize;
38
38
39 TM.targetLogicalAddress = CCSDS_DESTINATION_ID;
39 TM.targetLogicalAddress = CCSDS_DESTINATION_ID;
40 TM.protocolIdentifier = CCSDS_PROTOCOLE_ID;
40 TM.protocolIdentifier = CCSDS_PROTOCOLE_ID;
41 TM.reserved = DEFAULT_RESERVED;
41 TM.reserved = DEFAULT_RESERVED;
42 TM.userApplication = CCSDS_USER_APP;
42 TM.userApplication = CCSDS_USER_APP;
43 // PACKET HEADER
43 // PACKET HEADER
44 TM.packetID[0] = (unsigned char) (TM_PACKET_ID_TC_EXE >> 8);
44 TM.packetID[0] = (unsigned char) (TM_PACKET_ID_TC_EXE >> 8);
45 TM.packetID[1] = (unsigned char) (TM_PACKET_ID_TC_EXE );
45 TM.packetID[1] = (unsigned char) (TM_PACKET_ID_TC_EXE );
46 increment_seq_counter_destination_id( TM.packetSequenceControl, TC->sourceID );
46 increment_seq_counter_destination_id( TM.packetSequenceControl, TC->sourceID );
47 TM.packetLength[0] = (unsigned char) (PACKET_LENGTH_TC_EXE_SUCCESS >> 8);
47 TM.packetLength[0] = (unsigned char) (PACKET_LENGTH_TC_EXE_SUCCESS >> 8);
48 TM.packetLength[1] = (unsigned char) (PACKET_LENGTH_TC_EXE_SUCCESS );
48 TM.packetLength[1] = (unsigned char) (PACKET_LENGTH_TC_EXE_SUCCESS );
49 // DATA FIELD HEADER
49 // DATA FIELD HEADER
50 TM.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
50 TM.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
51 TM.serviceType = TM_TYPE_TC_EXE;
51 TM.serviceType = TM_TYPE_TC_EXE;
52 TM.serviceSubType = TM_SUBTYPE_EXE_OK;
52 TM.serviceSubType = TM_SUBTYPE_EXE_OK;
53 TM.destinationID = TC->sourceID;
53 TM.destinationID = TC->sourceID;
54 TM.time[0] = time[0];
54 TM.time[0] = time[0];
55 TM.time[1] = time[1];
55 TM.time[1] = time[1];
56 TM.time[2] = time[2];
56 TM.time[2] = time[2];
57 TM.time[3] = time[3];
57 TM.time[3] = time[3];
58 TM.time[4] = time[4];
58 TM.time[4] = time[4];
59 TM.time[5] = time[5];
59 TM.time[5] = time[5];
60 //
60 //
61 TM.telecommand_pkt_id[0] = TC->packetID[0];
61 TM.telecommand_pkt_id[0] = TC->packetID[0];
62 TM.telecommand_pkt_id[1] = TC->packetID[1];
62 TM.telecommand_pkt_id[1] = TC->packetID[1];
63 TM.pkt_seq_control[0] = TC->packetSequenceControl[0];
63 TM.pkt_seq_control[0] = TC->packetSequenceControl[0];
64 TM.pkt_seq_control[1] = TC->packetSequenceControl[1];
64 TM.pkt_seq_control[1] = TC->packetSequenceControl[1];
65
65
66 messageSize = PACKET_LENGTH_TC_EXE_SUCCESS + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES;
66 messageSize = PACKET_LENGTH_TC_EXE_SUCCESS + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES;
67
67
68 // SEND DATA
68 // SEND DATA
69 status = rtems_message_queue_send( queue_id, &TM, messageSize);
69 status = rtems_message_queue_send( queue_id, &TM, messageSize);
70 if (status != RTEMS_SUCCESSFUL) {
70 if (status != RTEMS_SUCCESSFUL) {
71 PRINTF("in send_tm_lfr_tc_exe_success *** ERR\n")
71 PRINTF("in send_tm_lfr_tc_exe_success *** ERR\n")
72 }
72 }
73
73
74 return status;
74 return status;
75 }
75 }
76
76
77 int send_tm_lfr_tc_exe_inconsistent( ccsdsTelecommandPacket_t *TC, rtems_id queue_id,
77 int send_tm_lfr_tc_exe_inconsistent( ccsdsTelecommandPacket_t *TC, rtems_id queue_id,
78 unsigned char byte_position, unsigned char rcv_value,
78 unsigned char byte_position, unsigned char rcv_value,
79 unsigned char *time)
79 unsigned char *time)
80 {
80 {
81 /** This function sends a TM_LFR_TC_EXE_INCONSISTENT packet in the dedicated RTEMS message queue.
81 /** This function sends a TM_LFR_TC_EXE_INCONSISTENT packet in the dedicated RTEMS message queue.
82 *
82 *
83 * @param TC points to the TeleCommand packet that is being processed
83 * @param TC points to the TeleCommand packet that is being processed
84 * @param queue_id is the id of the queue which handles TM
84 * @param queue_id is the id of the queue which handles TM
85 * @param byte_position is the byte position of the MSB of the parameter that has been seen as inconsistent
85 * @param byte_position is the byte position of the MSB of the parameter that has been seen as inconsistent
86 * @param rcv_value is the value of the LSB of the parameter that has been deteced as inconsistent
86 * @param rcv_value is the value of the LSB of the parameter that has been deteced as inconsistent
87 *
87 *
88 * @return RTEMS directive status code:
88 * @return RTEMS directive status code:
89 * - RTEMS_SUCCESSFUL - message sent successfully
89 * - RTEMS_SUCCESSFUL - message sent successfully
90 * - RTEMS_INVALID_ID - invalid queue id
90 * - RTEMS_INVALID_ID - invalid queue id
91 * - RTEMS_INVALID_SIZE - invalid message size
91 * - RTEMS_INVALID_SIZE - invalid message size
92 * - RTEMS_INVALID_ADDRESS - buffer is NULL
92 * - RTEMS_INVALID_ADDRESS - buffer is NULL
93 * - RTEMS_UNSATISFIED - out of message buffers
93 * - RTEMS_UNSATISFIED - out of message buffers
94 * - RTEMS_TOO_MANY - queue s limit has been reached
94 * - RTEMS_TOO_MANY - queue s limit has been reached
95 *
95 *
96 */
96 */
97
97
98 rtems_status_code status;
98 rtems_status_code status;
99 Packet_TM_LFR_TC_EXE_INCONSISTENT_t TM;
99 Packet_TM_LFR_TC_EXE_INCONSISTENT_t TM;
100 unsigned char messageSize;
100 unsigned char messageSize;
101
101
102 TM.targetLogicalAddress = CCSDS_DESTINATION_ID;
102 TM.targetLogicalAddress = CCSDS_DESTINATION_ID;
103 TM.protocolIdentifier = CCSDS_PROTOCOLE_ID;
103 TM.protocolIdentifier = CCSDS_PROTOCOLE_ID;
104 TM.reserved = DEFAULT_RESERVED;
104 TM.reserved = DEFAULT_RESERVED;
105 TM.userApplication = CCSDS_USER_APP;
105 TM.userApplication = CCSDS_USER_APP;
106 // PACKET HEADER
106 // PACKET HEADER
107 TM.packetID[0] = (unsigned char) (TM_PACKET_ID_TC_EXE >> 8);
107 TM.packetID[0] = (unsigned char) (TM_PACKET_ID_TC_EXE >> 8);
108 TM.packetID[1] = (unsigned char) (TM_PACKET_ID_TC_EXE );
108 TM.packetID[1] = (unsigned char) (TM_PACKET_ID_TC_EXE );
109 increment_seq_counter_destination_id( TM.packetSequenceControl, TC->sourceID );
109 increment_seq_counter_destination_id( TM.packetSequenceControl, TC->sourceID );
110 TM.packetLength[0] = (unsigned char) (PACKET_LENGTH_TC_EXE_INCONSISTENT >> 8);
110 TM.packetLength[0] = (unsigned char) (PACKET_LENGTH_TC_EXE_INCONSISTENT >> 8);
111 TM.packetLength[1] = (unsigned char) (PACKET_LENGTH_TC_EXE_INCONSISTENT );
111 TM.packetLength[1] = (unsigned char) (PACKET_LENGTH_TC_EXE_INCONSISTENT );
112 // DATA FIELD HEADER
112 // DATA FIELD HEADER
113 TM.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
113 TM.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
114 TM.serviceType = TM_TYPE_TC_EXE;
114 TM.serviceType = TM_TYPE_TC_EXE;
115 TM.serviceSubType = TM_SUBTYPE_EXE_NOK;
115 TM.serviceSubType = TM_SUBTYPE_EXE_NOK;
116 TM.destinationID = TC->sourceID;
116 TM.destinationID = TC->sourceID;
117 TM.time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
117 TM.time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
118 TM.time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
118 TM.time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
119 TM.time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
119 TM.time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
120 TM.time[3] = (unsigned char) (time_management_regs->coarse_time);
120 TM.time[3] = (unsigned char) (time_management_regs->coarse_time);
121 TM.time[4] = (unsigned char) (time_management_regs->fine_time>>8);
121 TM.time[4] = (unsigned char) (time_management_regs->fine_time>>8);
122 TM.time[5] = (unsigned char) (time_management_regs->fine_time);
122 TM.time[5] = (unsigned char) (time_management_regs->fine_time);
123 //
123 //
124 TM.tc_failure_code[0] = (char) (WRONG_APP_DATA >> 8);
124 TM.tc_failure_code[0] = (char) (WRONG_APP_DATA >> 8);
125 TM.tc_failure_code[1] = (char) (WRONG_APP_DATA );
125 TM.tc_failure_code[1] = (char) (WRONG_APP_DATA );
126 TM.telecommand_pkt_id[0] = TC->packetID[0];
126 TM.telecommand_pkt_id[0] = TC->packetID[0];
127 TM.telecommand_pkt_id[1] = TC->packetID[1];
127 TM.telecommand_pkt_id[1] = TC->packetID[1];
128 TM.pkt_seq_control[0] = TC->packetSequenceControl[0];
128 TM.pkt_seq_control[0] = TC->packetSequenceControl[0];
129 TM.pkt_seq_control[1] = TC->packetSequenceControl[1];
129 TM.pkt_seq_control[1] = TC->packetSequenceControl[1];
130 TM.tc_service = TC->serviceType; // type of the rejected TC
130 TM.tc_service = TC->serviceType; // type of the rejected TC
131 TM.tc_subtype = TC->serviceSubType; // subtype of the rejected TC
131 TM.tc_subtype = TC->serviceSubType; // subtype of the rejected TC
132 TM.byte_position = byte_position;
132 TM.byte_position = byte_position;
133 TM.rcv_value = rcv_value;
133 TM.rcv_value = rcv_value;
134
134
135 messageSize = PACKET_LENGTH_TC_EXE_INCONSISTENT + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES;
135 messageSize = PACKET_LENGTH_TC_EXE_INCONSISTENT + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES;
136
136
137 // SEND DATA
137 // SEND DATA
138 status = rtems_message_queue_send( queue_id, &TM, messageSize);
138 status = rtems_message_queue_send( queue_id, &TM, messageSize);
139 if (status != RTEMS_SUCCESSFUL) {
139 if (status != RTEMS_SUCCESSFUL) {
140 PRINTF("in send_tm_lfr_tc_exe_inconsistent *** ERR\n")
140 PRINTF("in send_tm_lfr_tc_exe_inconsistent *** ERR\n")
141 }
141 }
142
142
143 return status;
143 return status;
144 }
144 }
145
145
146 int send_tm_lfr_tc_exe_not_executable( ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time )
146 int send_tm_lfr_tc_exe_not_executable( ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time )
147 {
147 {
148 /** This function sends a TM_LFR_TC_EXE_NOT_EXECUTABLE packet in the dedicated RTEMS message queue.
148 /** This function sends a TM_LFR_TC_EXE_NOT_EXECUTABLE packet in the dedicated RTEMS message queue.
149 *
149 *
150 * @param TC points to the TeleCommand packet that is being processed
150 * @param TC points to the TeleCommand packet that is being processed
151 * @param queue_id is the id of the queue which handles TM
151 * @param queue_id is the id of the queue which handles TM
152 *
152 *
153 * @return RTEMS directive status code:
153 * @return RTEMS directive status code:
154 * - RTEMS_SUCCESSFUL - message sent successfully
154 * - RTEMS_SUCCESSFUL - message sent successfully
155 * - RTEMS_INVALID_ID - invalid queue id
155 * - RTEMS_INVALID_ID - invalid queue id
156 * - RTEMS_INVALID_SIZE - invalid message size
156 * - RTEMS_INVALID_SIZE - invalid message size
157 * - RTEMS_INVALID_ADDRESS - buffer is NULL
157 * - RTEMS_INVALID_ADDRESS - buffer is NULL
158 * - RTEMS_UNSATISFIED - out of message buffers
158 * - RTEMS_UNSATISFIED - out of message buffers
159 * - RTEMS_TOO_MANY - queue s limit has been reached
159 * - RTEMS_TOO_MANY - queue s limit has been reached
160 *
160 *
161 */
161 */
162
162
163 rtems_status_code status;
163 rtems_status_code status;
164 Packet_TM_LFR_TC_EXE_NOT_EXECUTABLE_t TM;
164 Packet_TM_LFR_TC_EXE_NOT_EXECUTABLE_t TM;
165 unsigned char messageSize;
165 unsigned char messageSize;
166
166
167 TM.targetLogicalAddress = CCSDS_DESTINATION_ID;
167 TM.targetLogicalAddress = CCSDS_DESTINATION_ID;
168 TM.protocolIdentifier = CCSDS_PROTOCOLE_ID;
168 TM.protocolIdentifier = CCSDS_PROTOCOLE_ID;
169 TM.reserved = DEFAULT_RESERVED;
169 TM.reserved = DEFAULT_RESERVED;
170 TM.userApplication = CCSDS_USER_APP;
170 TM.userApplication = CCSDS_USER_APP;
171 // PACKET HEADER
171 // PACKET HEADER
172 TM.packetID[0] = (unsigned char) (TM_PACKET_ID_TC_EXE >> 8);
172 TM.packetID[0] = (unsigned char) (TM_PACKET_ID_TC_EXE >> 8);
173 TM.packetID[1] = (unsigned char) (TM_PACKET_ID_TC_EXE );
173 TM.packetID[1] = (unsigned char) (TM_PACKET_ID_TC_EXE );
174 increment_seq_counter_destination_id( TM.packetSequenceControl, TC->sourceID );
174 increment_seq_counter_destination_id( TM.packetSequenceControl, TC->sourceID );
175 TM.packetLength[0] = (unsigned char) (PACKET_LENGTH_TC_EXE_NOT_EXECUTABLE >> 8);
175 TM.packetLength[0] = (unsigned char) (PACKET_LENGTH_TC_EXE_NOT_EXECUTABLE >> 8);
176 TM.packetLength[1] = (unsigned char) (PACKET_LENGTH_TC_EXE_NOT_EXECUTABLE );
176 TM.packetLength[1] = (unsigned char) (PACKET_LENGTH_TC_EXE_NOT_EXECUTABLE );
177 // DATA FIELD HEADER
177 // DATA FIELD HEADER
178 TM.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
178 TM.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
179 TM.serviceType = TM_TYPE_TC_EXE;
179 TM.serviceType = TM_TYPE_TC_EXE;
180 TM.serviceSubType = TM_SUBTYPE_EXE_NOK;
180 TM.serviceSubType = TM_SUBTYPE_EXE_NOK;
181 TM.destinationID = TC->sourceID; // default destination id
181 TM.destinationID = TC->sourceID; // default destination id
182 TM.time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
182 TM.time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
183 TM.time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
183 TM.time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
184 TM.time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
184 TM.time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
185 TM.time[3] = (unsigned char) (time_management_regs->coarse_time);
185 TM.time[3] = (unsigned char) (time_management_regs->coarse_time);
186 TM.time[4] = (unsigned char) (time_management_regs->fine_time>>8);
186 TM.time[4] = (unsigned char) (time_management_regs->fine_time>>8);
187 TM.time[5] = (unsigned char) (time_management_regs->fine_time);
187 TM.time[5] = (unsigned char) (time_management_regs->fine_time);
188 //
188 //
189 TM.tc_failure_code[0] = (char) (TC_NOT_EXE >> 8);
189 TM.tc_failure_code[0] = (char) (TC_NOT_EXE >> 8);
190 TM.tc_failure_code[1] = (char) (TC_NOT_EXE );
190 TM.tc_failure_code[1] = (char) (TC_NOT_EXE );
191 TM.telecommand_pkt_id[0] = TC->packetID[0];
191 TM.telecommand_pkt_id[0] = TC->packetID[0];
192 TM.telecommand_pkt_id[1] = TC->packetID[1];
192 TM.telecommand_pkt_id[1] = TC->packetID[1];
193 TM.pkt_seq_control[0] = TC->packetSequenceControl[0];
193 TM.pkt_seq_control[0] = TC->packetSequenceControl[0];
194 TM.pkt_seq_control[1] = TC->packetSequenceControl[1];
194 TM.pkt_seq_control[1] = TC->packetSequenceControl[1];
195 TM.tc_service = TC->serviceType; // type of the rejected TC
195 TM.tc_service = TC->serviceType; // type of the rejected TC
196 TM.tc_subtype = TC->serviceSubType; // subtype of the rejected TC
196 TM.tc_subtype = TC->serviceSubType; // subtype of the rejected TC
197 TM.lfr_status_word[0] = housekeeping_packet.lfr_status_word[0];
197 TM.lfr_status_word[0] = housekeeping_packet.lfr_status_word[0];
198 TM.lfr_status_word[1] = housekeeping_packet.lfr_status_word[1];
198 TM.lfr_status_word[1] = housekeeping_packet.lfr_status_word[1];
199
199
200 messageSize = PACKET_LENGTH_TC_EXE_NOT_EXECUTABLE + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES;
200 messageSize = PACKET_LENGTH_TC_EXE_NOT_EXECUTABLE + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES;
201
201
202 // SEND DATA
202 // SEND DATA
203 status = rtems_message_queue_send( queue_id, &TM, messageSize);
203 status = rtems_message_queue_send( queue_id, &TM, messageSize);
204 if (status != RTEMS_SUCCESSFUL) {
204 if (status != RTEMS_SUCCESSFUL) {
205 PRINTF("in send_tm_lfr_tc_exe_not_executable *** ERR\n")
205 PRINTF("in send_tm_lfr_tc_exe_not_executable *** ERR\n")
206 }
206 }
207
207
208 return status;
208 return status;
209 }
209 }
210
210
211 int send_tm_lfr_tc_exe_not_implemented( ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time )
211 int send_tm_lfr_tc_exe_not_implemented( ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time )
212 {
212 {
213 /** This function sends a TM_LFR_TC_EXE_NOT_IMPLEMENTED packet in the dedicated RTEMS message queue.
213 /** This function sends a TM_LFR_TC_EXE_NOT_IMPLEMENTED packet in the dedicated RTEMS message queue.
214 *
214 *
215 * @param TC points to the TeleCommand packet that is being processed
215 * @param TC points to the TeleCommand packet that is being processed
216 * @param queue_id is the id of the queue which handles TM
216 * @param queue_id is the id of the queue which handles TM
217 *
217 *
218 * @return RTEMS directive status code:
218 * @return RTEMS directive status code:
219 * - RTEMS_SUCCESSFUL - message sent successfully
219 * - RTEMS_SUCCESSFUL - message sent successfully
220 * - RTEMS_INVALID_ID - invalid queue id
220 * - RTEMS_INVALID_ID - invalid queue id
221 * - RTEMS_INVALID_SIZE - invalid message size
221 * - RTEMS_INVALID_SIZE - invalid message size
222 * - RTEMS_INVALID_ADDRESS - buffer is NULL
222 * - RTEMS_INVALID_ADDRESS - buffer is NULL
223 * - RTEMS_UNSATISFIED - out of message buffers
223 * - RTEMS_UNSATISFIED - out of message buffers
224 * - RTEMS_TOO_MANY - queue s limit has been reached
224 * - RTEMS_TOO_MANY - queue s limit has been reached
225 *
225 *
226 */
226 */
227
227
228 rtems_status_code status;
228 rtems_status_code status;
229 Packet_TM_LFR_TC_EXE_NOT_IMPLEMENTED_t TM;
229 Packet_TM_LFR_TC_EXE_NOT_IMPLEMENTED_t TM;
230 unsigned char messageSize;
230 unsigned char messageSize;
231
231
232 TM.targetLogicalAddress = CCSDS_DESTINATION_ID;
232 TM.targetLogicalAddress = CCSDS_DESTINATION_ID;
233 TM.protocolIdentifier = CCSDS_PROTOCOLE_ID;
233 TM.protocolIdentifier = CCSDS_PROTOCOLE_ID;
234 TM.reserved = DEFAULT_RESERVED;
234 TM.reserved = DEFAULT_RESERVED;
235 TM.userApplication = CCSDS_USER_APP;
235 TM.userApplication = CCSDS_USER_APP;
236 // PACKET HEADER
236 // PACKET HEADER
237 TM.packetID[0] = (unsigned char) (TM_PACKET_ID_TC_EXE >> 8);
237 TM.packetID[0] = (unsigned char) (TM_PACKET_ID_TC_EXE >> 8);
238 TM.packetID[1] = (unsigned char) (TM_PACKET_ID_TC_EXE );
238 TM.packetID[1] = (unsigned char) (TM_PACKET_ID_TC_EXE );
239 increment_seq_counter_destination_id( TM.packetSequenceControl, TC->sourceID );
239 increment_seq_counter_destination_id( TM.packetSequenceControl, TC->sourceID );
240 TM.packetLength[0] = (unsigned char) (PACKET_LENGTH_TC_EXE_NOT_IMPLEMENTED >> 8);
240 TM.packetLength[0] = (unsigned char) (PACKET_LENGTH_TC_EXE_NOT_IMPLEMENTED >> 8);
241 TM.packetLength[1] = (unsigned char) (PACKET_LENGTH_TC_EXE_NOT_IMPLEMENTED );
241 TM.packetLength[1] = (unsigned char) (PACKET_LENGTH_TC_EXE_NOT_IMPLEMENTED );
242 // DATA FIELD HEADER
242 // DATA FIELD HEADER
243 TM.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
243 TM.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
244 TM.serviceType = TM_TYPE_TC_EXE;
244 TM.serviceType = TM_TYPE_TC_EXE;
245 TM.serviceSubType = TM_SUBTYPE_EXE_NOK;
245 TM.serviceSubType = TM_SUBTYPE_EXE_NOK;
246 TM.destinationID = TC->sourceID; // default destination id
246 TM.destinationID = TC->sourceID; // default destination id
247 TM.time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
247 TM.time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
248 TM.time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
248 TM.time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
249 TM.time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
249 TM.time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
250 TM.time[3] = (unsigned char) (time_management_regs->coarse_time);
250 TM.time[3] = (unsigned char) (time_management_regs->coarse_time);
251 TM.time[4] = (unsigned char) (time_management_regs->fine_time>>8);
251 TM.time[4] = (unsigned char) (time_management_regs->fine_time>>8);
252 TM.time[5] = (unsigned char) (time_management_regs->fine_time);
252 TM.time[5] = (unsigned char) (time_management_regs->fine_time);
253 //
253 //
254 TM.tc_failure_code[0] = (char) (FUNCT_NOT_IMPL >> 8);
254 TM.tc_failure_code[0] = (char) (FUNCT_NOT_IMPL >> 8);
255 TM.tc_failure_code[1] = (char) (FUNCT_NOT_IMPL );
255 TM.tc_failure_code[1] = (char) (FUNCT_NOT_IMPL );
256 TM.telecommand_pkt_id[0] = TC->packetID[0];
256 TM.telecommand_pkt_id[0] = TC->packetID[0];
257 TM.telecommand_pkt_id[1] = TC->packetID[1];
257 TM.telecommand_pkt_id[1] = TC->packetID[1];
258 TM.pkt_seq_control[0] = TC->packetSequenceControl[0];
258 TM.pkt_seq_control[0] = TC->packetSequenceControl[0];
259 TM.pkt_seq_control[1] = TC->packetSequenceControl[1];
259 TM.pkt_seq_control[1] = TC->packetSequenceControl[1];
260 TM.tc_service = TC->serviceType; // type of the rejected TC
260 TM.tc_service = TC->serviceType; // type of the rejected TC
261 TM.tc_subtype = TC->serviceSubType; // subtype of the rejected TC
261 TM.tc_subtype = TC->serviceSubType; // subtype of the rejected TC
262
262
263 messageSize = PACKET_LENGTH_TC_EXE_NOT_IMPLEMENTED + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES;
263 messageSize = PACKET_LENGTH_TC_EXE_NOT_IMPLEMENTED + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES;
264
264
265 // SEND DATA
265 // SEND DATA
266 status = rtems_message_queue_send( queue_id, &TM, messageSize);
266 status = rtems_message_queue_send( queue_id, &TM, messageSize);
267 if (status != RTEMS_SUCCESSFUL) {
267 if (status != RTEMS_SUCCESSFUL) {
268 PRINTF("in send_tm_lfr_tc_exe_not_implemented *** ERR\n")
268 PRINTF("in send_tm_lfr_tc_exe_not_implemented *** ERR\n")
269 }
269 }
270
270
271 return status;
271 return status;
272 }
272 }
273
273
274 int send_tm_lfr_tc_exe_error( ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time )
274 int send_tm_lfr_tc_exe_error( ccsdsTelecommandPacket_t *TC, rtems_id queue_id, unsigned char *time )
275 {
275 {
276 /** This function sends a TM_LFR_TC_EXE_ERROR packet in the dedicated RTEMS message queue.
276 /** This function sends a TM_LFR_TC_EXE_ERROR packet in the dedicated RTEMS message queue.
277 *
277 *
278 * @param TC points to the TeleCommand packet that is being processed
278 * @param TC points to the TeleCommand packet that is being processed
279 * @param queue_id is the id of the queue which handles TM
279 * @param queue_id is the id of the queue which handles TM
280 *
280 *
281 * @return RTEMS directive status code:
281 * @return RTEMS directive status code:
282 * - RTEMS_SUCCESSFUL - message sent successfully
282 * - RTEMS_SUCCESSFUL - message sent successfully
283 * - RTEMS_INVALID_ID - invalid queue id
283 * - RTEMS_INVALID_ID - invalid queue id
284 * - RTEMS_INVALID_SIZE - invalid message size
284 * - RTEMS_INVALID_SIZE - invalid message size
285 * - RTEMS_INVALID_ADDRESS - buffer is NULL
285 * - RTEMS_INVALID_ADDRESS - buffer is NULL
286 * - RTEMS_UNSATISFIED - out of message buffers
286 * - RTEMS_UNSATISFIED - out of message buffers
287 * - RTEMS_TOO_MANY - queue s limit has been reached
287 * - RTEMS_TOO_MANY - queue s limit has been reached
288 *
288 *
289 */
289 */
290
290
291 rtems_status_code status;
291 rtems_status_code status;
292 Packet_TM_LFR_TC_EXE_ERROR_t TM;
292 Packet_TM_LFR_TC_EXE_ERROR_t TM;
293 unsigned char messageSize;
293 unsigned char messageSize;
294
294
295 TM.targetLogicalAddress = CCSDS_DESTINATION_ID;
295 TM.targetLogicalAddress = CCSDS_DESTINATION_ID;
296 TM.protocolIdentifier = CCSDS_PROTOCOLE_ID;
296 TM.protocolIdentifier = CCSDS_PROTOCOLE_ID;
297 TM.reserved = DEFAULT_RESERVED;
297 TM.reserved = DEFAULT_RESERVED;
298 TM.userApplication = CCSDS_USER_APP;
298 TM.userApplication = CCSDS_USER_APP;
299 // PACKET HEADER
299 // PACKET HEADER
300 TM.packetID[0] = (unsigned char) (TM_PACKET_ID_TC_EXE >> 8);
300 TM.packetID[0] = (unsigned char) (TM_PACKET_ID_TC_EXE >> 8);
301 TM.packetID[1] = (unsigned char) (TM_PACKET_ID_TC_EXE );
301 TM.packetID[1] = (unsigned char) (TM_PACKET_ID_TC_EXE );
302 increment_seq_counter_destination_id( TM.packetSequenceControl, TC->sourceID );
302 increment_seq_counter_destination_id( TM.packetSequenceControl, TC->sourceID );
303 TM.packetLength[0] = (unsigned char) (PACKET_LENGTH_TC_EXE_ERROR >> 8);
303 TM.packetLength[0] = (unsigned char) (PACKET_LENGTH_TC_EXE_ERROR >> 8);
304 TM.packetLength[1] = (unsigned char) (PACKET_LENGTH_TC_EXE_ERROR );
304 TM.packetLength[1] = (unsigned char) (PACKET_LENGTH_TC_EXE_ERROR );
305 // DATA FIELD HEADER
305 // DATA FIELD HEADER
306 TM.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
306 TM.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
307 TM.serviceType = TM_TYPE_TC_EXE;
307 TM.serviceType = TM_TYPE_TC_EXE;
308 TM.serviceSubType = TM_SUBTYPE_EXE_NOK;
308 TM.serviceSubType = TM_SUBTYPE_EXE_NOK;
309 TM.destinationID = TC->sourceID; // default destination id
309 TM.destinationID = TC->sourceID; // default destination id
310 TM.time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
310 TM.time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
311 TM.time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
311 TM.time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
312 TM.time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
312 TM.time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
313 TM.time[3] = (unsigned char) (time_management_regs->coarse_time);
313 TM.time[3] = (unsigned char) (time_management_regs->coarse_time);
314 TM.time[4] = (unsigned char) (time_management_regs->fine_time>>8);
314 TM.time[4] = (unsigned char) (time_management_regs->fine_time>>8);
315 TM.time[5] = (unsigned char) (time_management_regs->fine_time);
315 TM.time[5] = (unsigned char) (time_management_regs->fine_time);
316 //
316 //
317 TM.tc_failure_code[0] = (char) (FAIL_DETECTED >> 8);
317 TM.tc_failure_code[0] = (char) (FAIL_DETECTED >> 8);
318 TM.tc_failure_code[1] = (char) (FAIL_DETECTED );
318 TM.tc_failure_code[1] = (char) (FAIL_DETECTED );
319 TM.telecommand_pkt_id[0] = TC->packetID[0];
319 TM.telecommand_pkt_id[0] = TC->packetID[0];
320 TM.telecommand_pkt_id[1] = TC->packetID[1];
320 TM.telecommand_pkt_id[1] = TC->packetID[1];
321 TM.pkt_seq_control[0] = TC->packetSequenceControl[0];
321 TM.pkt_seq_control[0] = TC->packetSequenceControl[0];
322 TM.pkt_seq_control[1] = TC->packetSequenceControl[1];
322 TM.pkt_seq_control[1] = TC->packetSequenceControl[1];
323 TM.tc_service = TC->serviceType; // type of the rejected TC
323 TM.tc_service = TC->serviceType; // type of the rejected TC
324 TM.tc_subtype = TC->serviceSubType; // subtype of the rejected TC
324 TM.tc_subtype = TC->serviceSubType; // subtype of the rejected TC
325
325
326 messageSize = PACKET_LENGTH_TC_EXE_ERROR + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES;
326 messageSize = PACKET_LENGTH_TC_EXE_ERROR + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES;
327
327
328 // SEND DATA
328 // SEND DATA
329 status = rtems_message_queue_send( queue_id, &TM, messageSize);
329 status = rtems_message_queue_send( queue_id, &TM, messageSize);
330 if (status != RTEMS_SUCCESSFUL) {
330 if (status != RTEMS_SUCCESSFUL) {
331 PRINTF("in send_tm_lfr_tc_exe_error *** ERR\n")
331 PRINTF("in send_tm_lfr_tc_exe_error *** ERR\n")
332 }
332 }
333
333
334 return status;
334 return status;
335 }
335 }
336
336
337 int send_tm_lfr_tc_exe_corrupted(ccsdsTelecommandPacket_t *TC, rtems_id queue_id,
337 int send_tm_lfr_tc_exe_corrupted(ccsdsTelecommandPacket_t *TC, rtems_id queue_id,
338 unsigned char *computed_CRC, unsigned char *currentTC_LEN_RCV,
338 unsigned char *computed_CRC, unsigned char *currentTC_LEN_RCV,
339 unsigned char destinationID, unsigned char *time)
339 unsigned char destinationID, unsigned char *time)
340 {
340 {
341 /** This function sends a TM_LFR_TC_EXE_CORRUPTED packet in the dedicated RTEMS message queue.
341 /** This function sends a TM_LFR_TC_EXE_CORRUPTED packet in the dedicated RTEMS message queue.
342 *
342 *
343 * @param TC points to the TeleCommand packet that is being processed
343 * @param TC points to the TeleCommand packet that is being processed
344 * @param queue_id is the id of the queue which handles TM
344 * @param queue_id is the id of the queue which handles TM
345 * @param computed_CRC points to a buffer of two bytes containing the CRC computed during the parsing of the TeleCommand
345 * @param computed_CRC points to a buffer of two bytes containing the CRC computed during the parsing of the TeleCommand
346 * @param currentTC_LEN_RCV points to a buffer of two bytes containing a packet size field computed on the received data
346 * @param currentTC_LEN_RCV points to a buffer of two bytes containing a packet size field computed on the received data
347 *
347 *
348 * @return RTEMS directive status code:
348 * @return RTEMS directive status code:
349 * - RTEMS_SUCCESSFUL - message sent successfully
349 * - RTEMS_SUCCESSFUL - message sent successfully
350 * - RTEMS_INVALID_ID - invalid queue id
350 * - RTEMS_INVALID_ID - invalid queue id
351 * - RTEMS_INVALID_SIZE - invalid message size
351 * - RTEMS_INVALID_SIZE - invalid message size
352 * - RTEMS_INVALID_ADDRESS - buffer is NULL
352 * - RTEMS_INVALID_ADDRESS - buffer is NULL
353 * - RTEMS_UNSATISFIED - out of message buffers
353 * - RTEMS_UNSATISFIED - out of message buffers
354 * - RTEMS_TOO_MANY - queue s limit has been reached
354 * - RTEMS_TOO_MANY - queue s limit has been reached
355 *
355 *
356 */
356 */
357
357
358 rtems_status_code status;
358 rtems_status_code status;
359 Packet_TM_LFR_TC_EXE_CORRUPTED_t TM;
359 Packet_TM_LFR_TC_EXE_CORRUPTED_t TM;
360 unsigned char messageSize;
360 unsigned char messageSize;
361 unsigned int packetLength;
361 unsigned int packetLength;
362 unsigned char *packetDataField;
362 unsigned char *packetDataField;
363
363
364 packetLength = (TC->packetLength[0] * 256) + TC->packetLength[1]; // compute the packet length parameter
364 packetLength = (TC->packetLength[0] * 256) + TC->packetLength[1]; // compute the packet length parameter
365 packetDataField = (unsigned char *) &TC->headerFlag_pusVersion_Ack; // get the beginning of the data field
365 packetDataField = (unsigned char *) &TC->headerFlag_pusVersion_Ack; // get the beginning of the data field
366
366
367 TM.targetLogicalAddress = CCSDS_DESTINATION_ID;
367 TM.targetLogicalAddress = CCSDS_DESTINATION_ID;
368 TM.protocolIdentifier = CCSDS_PROTOCOLE_ID;
368 TM.protocolIdentifier = CCSDS_PROTOCOLE_ID;
369 TM.reserved = DEFAULT_RESERVED;
369 TM.reserved = DEFAULT_RESERVED;
370 TM.userApplication = CCSDS_USER_APP;
370 TM.userApplication = CCSDS_USER_APP;
371 // PACKET HEADER
371 // PACKET HEADER
372 TM.packetID[0] = (unsigned char) (TM_PACKET_ID_TC_EXE >> 8);
372 TM.packetID[0] = (unsigned char) (TM_PACKET_ID_TC_EXE >> 8);
373 TM.packetID[1] = (unsigned char) (TM_PACKET_ID_TC_EXE );
373 TM.packetID[1] = (unsigned char) (TM_PACKET_ID_TC_EXE );
374 increment_seq_counter_destination_id( TM.packetSequenceControl, TC->sourceID );
374 increment_seq_counter_destination_id( TM.packetSequenceControl, TC->sourceID );
375 TM.packetLength[0] = (unsigned char) (PACKET_LENGTH_TC_EXE_CORRUPTED >> 8);
375 TM.packetLength[0] = (unsigned char) (PACKET_LENGTH_TC_EXE_CORRUPTED >> 8);
376 TM.packetLength[1] = (unsigned char) (PACKET_LENGTH_TC_EXE_CORRUPTED );
376 TM.packetLength[1] = (unsigned char) (PACKET_LENGTH_TC_EXE_CORRUPTED );
377 // DATA FIELD HEADER
377 // DATA FIELD HEADER
378 TM.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
378 TM.spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
379 TM.serviceType = TM_TYPE_TC_EXE;
379 TM.serviceType = TM_TYPE_TC_EXE;
380 TM.serviceSubType = TM_SUBTYPE_EXE_NOK;
380 TM.serviceSubType = TM_SUBTYPE_EXE_NOK;
381 TM.destinationID = destinationID;
381 TM.destinationID = destinationID;
382 TM.time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
382 TM.time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
383 TM.time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
383 TM.time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
384 TM.time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
384 TM.time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
385 TM.time[3] = (unsigned char) (time_management_regs->coarse_time);
385 TM.time[3] = (unsigned char) (time_management_regs->coarse_time);
386 TM.time[4] = (unsigned char) (time_management_regs->fine_time>>8);
386 TM.time[4] = (unsigned char) (time_management_regs->fine_time>>8);
387 TM.time[5] = (unsigned char) (time_management_regs->fine_time);
387 TM.time[5] = (unsigned char) (time_management_regs->fine_time);
388 //
388 //
389 TM.tc_failure_code[0] = (unsigned char) (CORRUPTED >> 8);
389 TM.tc_failure_code[0] = (unsigned char) (CORRUPTED >> 8);
390 TM.tc_failure_code[1] = (unsigned char) (CORRUPTED );
390 TM.tc_failure_code[1] = (unsigned char) (CORRUPTED );
391 TM.telecommand_pkt_id[0] = TC->packetID[0];
391 TM.telecommand_pkt_id[0] = TC->packetID[0];
392 TM.telecommand_pkt_id[1] = TC->packetID[1];
392 TM.telecommand_pkt_id[1] = TC->packetID[1];
393 TM.pkt_seq_control[0] = TC->packetSequenceControl[0];
393 TM.pkt_seq_control[0] = TC->packetSequenceControl[0];
394 TM.pkt_seq_control[1] = TC->packetSequenceControl[1];
394 TM.pkt_seq_control[1] = TC->packetSequenceControl[1];
395 TM.tc_service = TC->serviceType; // type of the rejected TC
395 TM.tc_service = TC->serviceType; // type of the rejected TC
396 TM.tc_subtype = TC->serviceSubType; // subtype of the rejected TC
396 TM.tc_subtype = TC->serviceSubType; // subtype of the rejected TC
397 TM.pkt_len_rcv_value[0] = TC->packetLength[0];
397 TM.pkt_len_rcv_value[0] = TC->packetLength[0];
398 TM.pkt_len_rcv_value[1] = TC->packetLength[1];
398 TM.pkt_len_rcv_value[1] = TC->packetLength[1];
399 TM.pkt_datafieldsize_cnt[0] = currentTC_LEN_RCV[0];
399 TM.pkt_datafieldsize_cnt[0] = currentTC_LEN_RCV[0];
400 TM.pkt_datafieldsize_cnt[1] = currentTC_LEN_RCV[1];
400 TM.pkt_datafieldsize_cnt[1] = currentTC_LEN_RCV[1];
401 TM.rcv_crc[0] = packetDataField[ packetLength - 1 ];
401 TM.rcv_crc[0] = packetDataField[ packetLength - 1 ];
402 TM.rcv_crc[1] = packetDataField[ packetLength ];
402 TM.rcv_crc[1] = packetDataField[ packetLength ];
403 TM.computed_crc[0] = computed_CRC[0];
403 TM.computed_crc[0] = computed_CRC[0];
404 TM.computed_crc[1] = computed_CRC[1];
404 TM.computed_crc[1] = computed_CRC[1];
405
405
406 messageSize = PACKET_LENGTH_TC_EXE_CORRUPTED + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES;
406 messageSize = PACKET_LENGTH_TC_EXE_CORRUPTED + CCSDS_TC_TM_PACKET_OFFSET + CCSDS_PROTOCOLE_EXTRA_BYTES;
407
407
408 // SEND DATA
408 // SEND DATA
409 status = rtems_message_queue_send( queue_id, &TM, messageSize);
409 status = rtems_message_queue_send( queue_id, &TM, messageSize);
410 if (status != RTEMS_SUCCESSFUL) {
410 if (status != RTEMS_SUCCESSFUL) {
411 PRINTF("in send_tm_lfr_tc_exe_error *** ERR\n")
411 PRINTF("in send_tm_lfr_tc_exe_error *** ERR\n")
412 }
412 }
413
413
414 return status;
414 return status;
415 }
415 }
416
416
417 void increment_seq_counter_destination_id( unsigned char *packet_sequence_control, unsigned char destination_id )
417 void increment_seq_counter_destination_id( unsigned char *packet_sequence_control, unsigned char destination_id )
418 {
418 {
419 /** This function increment the packet sequence control parameter of a TC, depending on its destination ID.
420 *
421 * @param packet_sequence_control points to the packet sequence control which will be incremented
422 * @param destination_id is the destination ID of the TM, there is one counter by destination ID
423 *
424 * If the destination ID is not known, a dedicated counter is incremented.
425 *
426 */
427
419 unsigned short sequence_cnt;
428 unsigned short sequence_cnt;
420 unsigned short segmentation_grouping_flag;
429 unsigned short segmentation_grouping_flag;
421 unsigned short new_packet_sequence_control;
430 unsigned short new_packet_sequence_control;
422 unsigned char i;
431 unsigned char i;
423
432
424 switch (destination_id)
433 switch (destination_id)
425 {
434 {
426 case SID_TC_GROUND:
435 case SID_TC_GROUND:
427 i = GROUND;
436 i = GROUND;
428 break;
437 break;
429 case SID_TC_MISSION_TIMELINE:
438 case SID_TC_MISSION_TIMELINE:
430 i = MISSION_TIMELINE;
439 i = MISSION_TIMELINE;
431 break;
440 break;
432 case SID_TC_TC_SEQUENCES:
441 case SID_TC_TC_SEQUENCES:
433 i = TC_SEQUENCES;
442 i = TC_SEQUENCES;
434 break;
443 break;
435 case SID_TC_RECOVERY_ACTION_CMD:
444 case SID_TC_RECOVERY_ACTION_CMD:
436 i = RECOVERY_ACTION_CMD;
445 i = RECOVERY_ACTION_CMD;
437 break;
446 break;
438 case SID_TC_BACKUP_MISSION_TIMELINE:
447 case SID_TC_BACKUP_MISSION_TIMELINE:
439 i = BACKUP_MISSION_TIMELINE;
448 i = BACKUP_MISSION_TIMELINE;
440 break;
449 break;
441 case SID_TC_DIRECT_CMD:
450 case SID_TC_DIRECT_CMD:
442 i = DIRECT_CMD;
451 i = DIRECT_CMD;
443 break;
452 break;
444 case SID_TC_SPARE_GRD_SRC1:
453 case SID_TC_SPARE_GRD_SRC1:
445 i = SPARE_GRD_SRC1;
454 i = SPARE_GRD_SRC1;
446 break;
455 break;
447 case SID_TC_SPARE_GRD_SRC2:
456 case SID_TC_SPARE_GRD_SRC2:
448 i = SPARE_GRD_SRC2;
457 i = SPARE_GRD_SRC2;
449 break;
458 break;
450 case SID_TC_OBCP:
459 case SID_TC_OBCP:
451 i = OBCP;
460 i = OBCP;
452 break;
461 break;
453 case SID_TC_SYSTEM_CONTROL:
462 case SID_TC_SYSTEM_CONTROL:
454 i = SYSTEM_CONTROL;
463 i = SYSTEM_CONTROL;
455 break;
464 break;
456 case SID_TC_AOCS:
465 case SID_TC_AOCS:
457 i = AOCS;
466 i = AOCS;
458 break;
467 break;
459 case SID_TC_RPW_INTERNAL:
468 case SID_TC_RPW_INTERNAL:
460 i = RPW_INTERNAL;
469 i = RPW_INTERNAL;
461 break;
470 break;
462 default:
471 default:
463 i = UNKNOWN;
472 i = UNKNOWN;
464 break;
473 break;
465 }
474 }
466
475
467 if (i != UNKNOWN)
476 if (i != UNKNOWN)
468 {
477 {
469 segmentation_grouping_flag = TM_PACKET_SEQ_CTRL_STANDALONE << 8;
478 segmentation_grouping_flag = TM_PACKET_SEQ_CTRL_STANDALONE << 8;
470 sequence_cnt = sequenceCounters_TC_EXE[ i ] & 0x3fff;
479 sequence_cnt = sequenceCounters_TC_EXE[ i ] & 0x3fff;
471
480
472 new_packet_sequence_control = segmentation_grouping_flag | sequence_cnt ;
481 new_packet_sequence_control = segmentation_grouping_flag | sequence_cnt ;
473
482
474 packet_sequence_control[0] = (unsigned char) (new_packet_sequence_control >> 8);
483 packet_sequence_control[0] = (unsigned char) (new_packet_sequence_control >> 8);
475 packet_sequence_control[1] = (unsigned char) (new_packet_sequence_control );
484 packet_sequence_control[1] = (unsigned char) (new_packet_sequence_control );
476
485
477 // increment the sequence counter for the next packet
486 // increment the sequence counter for the next packet
478 if ( sequenceCounters_TC_EXE[ i ] < SEQ_CNT_MAX)
487 if ( sequenceCounters_TC_EXE[ i ] < SEQ_CNT_MAX)
479 {
488 {
480 sequenceCounters_TC_EXE[ i ] = sequenceCounters_TC_EXE[ i ] + 1;
489 sequenceCounters_TC_EXE[ i ] = sequenceCounters_TC_EXE[ i ] + 1;
481 }
490 }
482 else
491 else
483 {
492 {
484 sequenceCounters_TC_EXE[ i ] = 0;
493 sequenceCounters_TC_EXE[ i ] = 0;
485 }
494 }
486 }
495 }
487 else
496 else
488 {
497 {
489 DEBUG_PRINTF1("in increment_seq_counter_destination_id *** ERR destination ID %d not known\n", destination_id)
498 DEBUG_PRINTF1("in increment_seq_counter_destination_id *** ERR destination ID %d not known\n", destination_id)
490 }
499 }
491
500
492 }
501 }
Show file before | Show file after | Hide comments
@@ -1,1219 +1,1219
1 /** Functions and tasks related to waveform packet generation.
1 /** Functions and tasks related to waveform packet generation.
2 *
2 *
3 * @file
3 * @file
4 * @author P. LEROY
4 * @author P. LEROY
5 *
5 *
6 * A group of functions to handle waveforms, in snapshot or continuous format.\n
6 * A group of functions to handle waveforms, in snapshot or continuous format.\n
7 *
7 *
8 */
8 */
9
9
10 #include "wf_handler.h"
10 #include "wf_handler.h"
11
11
12 // SWF
12 // SWF
13 Header_TM_LFR_SCIENCE_SWF_t headerSWF_F0[7];
13 Header_TM_LFR_SCIENCE_SWF_t headerSWF_F0[7];
14 Header_TM_LFR_SCIENCE_SWF_t headerSWF_F1[7];
14 Header_TM_LFR_SCIENCE_SWF_t headerSWF_F1[7];
15 Header_TM_LFR_SCIENCE_SWF_t headerSWF_F2[7];
15 Header_TM_LFR_SCIENCE_SWF_t headerSWF_F2[7];
16 // CWF
16 // CWF
17 Header_TM_LFR_SCIENCE_CWF_t headerCWF_F1[7];
17 Header_TM_LFR_SCIENCE_CWF_t headerCWF_F1[7];
18 Header_TM_LFR_SCIENCE_CWF_t headerCWF_F2_BURST[7];
18 Header_TM_LFR_SCIENCE_CWF_t headerCWF_F2_BURST[7];
19 Header_TM_LFR_SCIENCE_CWF_t headerCWF_F2_SBM2[7];
19 Header_TM_LFR_SCIENCE_CWF_t headerCWF_F2_SBM2[7];
20 Header_TM_LFR_SCIENCE_CWF_t headerCWF_F3[7];
20 Header_TM_LFR_SCIENCE_CWF_t headerCWF_F3[7];
21 Header_TM_LFR_SCIENCE_CWF_t headerCWF_F3_light[7];
21 Header_TM_LFR_SCIENCE_CWF_t headerCWF_F3_light[7];
22
22
23 unsigned char doubleSendCWF1 = 0;
23 unsigned char doubleSendCWF1 = 0;
24 unsigned char doubleSendCWF2 = 0;
24 unsigned char doubleSendCWF2 = 0;
25
25
26 rtems_isr waveforms_isr( rtems_vector_number vector )
26 rtems_isr waveforms_isr( rtems_vector_number vector )
27 {
27 {
28 /** This is the interrupt sub routine called by the waveform picker core.
28 /** This is the interrupt sub routine called by the waveform picker core.
29 *
29 *
30 * This ISR launch different actions depending mainly on two pieces of information:
30 * This ISR launch different actions depending mainly on two pieces of information:
31 * 1. the values read in the registers of the waveform picker.
31 * 1. the values read in the registers of the waveform picker.
32 * 2. the current LFR mode.
32 * 2. the current LFR mode.
33 *
33 *
34 */
34 */
35
35
36 #ifdef GSA
36 #ifdef GSA
37 #else
37 #else
38 if ( (lfrCurrentMode == LFR_MODE_NORMAL)
38 if ( (lfrCurrentMode == LFR_MODE_NORMAL)
39 || (lfrCurrentMode == LFR_MODE_SBM1) || (lfrCurrentMode == LFR_MODE_SBM2) )
39 || (lfrCurrentMode == LFR_MODE_SBM1) || (lfrCurrentMode == LFR_MODE_SBM2) )
40 { // in modes other than STANDBY and BURST, send the CWF_F3 data
40 { // in modes other than STANDBY and BURST, send the CWF_F3 data
41 if ((waveform_picker_regs->status & 0x08) == 0x08){ // [1000] f3 is full
41 if ((waveform_picker_regs->status & 0x08) == 0x08){ // [1000] f3 is full
42 // (1) change the receiving buffer for the waveform picker
42 // (1) change the receiving buffer for the waveform picker
43 if (waveform_picker_regs->addr_data_f3 == (int) wf_cont_f3) {
43 if (waveform_picker_regs->addr_data_f3 == (int) wf_cont_f3) {
44 waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3_bis);
44 waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3_bis);
45 }
45 }
46 else {
46 else {
47 waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3);
47 waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3);
48 }
48 }
49 // (2) send an event for the waveforms transmission
49 // (2) send an event for the waveforms transmission
50 if (rtems_event_send( Task_id[TASKID_CWF3], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) {
50 if (rtems_event_send( Task_id[TASKID_CWF3], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) {
51 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
51 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
52 }
52 }
53 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffff777; // reset f3 bits to 0, [1111 0111 0111 0111]
53 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffff777; // reset f3 bits to 0, [1111 0111 0111 0111]
54 }
54 }
55 }
55 }
56 #endif
56 #endif
57
57
58 switch(lfrCurrentMode)
58 switch(lfrCurrentMode)
59 {
59 {
60 //********
60 //********
61 // STANDBY
61 // STANDBY
62 case(LFR_MODE_STANDBY):
62 case(LFR_MODE_STANDBY):
63 break;
63 break;
64
64
65 //******
65 //******
66 // NORMAL
66 // NORMAL
67 case(LFR_MODE_NORMAL):
67 case(LFR_MODE_NORMAL):
68 #ifdef GSA
68 #ifdef GSA
69 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
69 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
70 #else
70 #else
71 if ( (waveform_picker_regs->burst_enable & 0x7) == 0x0 ){ // if no channel is enable
71 if ( (waveform_picker_regs->burst_enable & 0x7) == 0x0 ){ // if no channel is enable
72 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
72 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
73 }
73 }
74 else {
74 else {
75 if ( (waveform_picker_regs->status & 0x7) == 0x7 ){ // f2 f1 and f0 are full
75 if ( (waveform_picker_regs->status & 0x7) == 0x7 ){ // f2 f1 and f0 are full
76 waveform_picker_regs->burst_enable = waveform_picker_regs->burst_enable & 0x08;
76 waveform_picker_regs->burst_enable = waveform_picker_regs->burst_enable & 0x08;
77 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
77 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
78 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
78 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
79 }
79 }
80 // waveform_picker_regs->status = waveform_picker_regs->status & 0x00;
80 // waveform_picker_regs->status = waveform_picker_regs->status & 0x00;
81 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffff888;
81 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffff888;
82 waveform_picker_regs->burst_enable = waveform_picker_regs->burst_enable | 0x07; // [0111] enable f2 f1 f0
82 waveform_picker_regs->burst_enable = waveform_picker_regs->burst_enable | 0x07; // [0111] enable f2 f1 f0
83 }
83 }
84 }
84 }
85 #endif
85 #endif
86 break;
86 break;
87
87
88 //******
88 //******
89 // BURST
89 // BURST
90 case(LFR_MODE_BURST):
90 case(LFR_MODE_BURST):
91 #ifdef GSA
91 #ifdef GSA
92 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
92 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
93 #else
93 #else
94 if ((waveform_picker_regs->status & 0x04) == 0x04){ // [0100] check the f2 full bit
94 if ((waveform_picker_regs->status & 0x04) == 0x04){ // [0100] check the f2 full bit
95 // (1) change the receiving buffer for the waveform picker
95 // (1) change the receiving buffer for the waveform picker
96 if (waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
96 if (waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
97 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_bis);
97 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_bis);
98 }
98 }
99 else {
99 else {
100 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
100 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
101 }
101 }
102 // (2) send an event for the waveforms transmission
102 // (2) send an event for the waveforms transmission
103 if (rtems_event_send( Task_id[TASKID_CWF2], RTEMS_EVENT_MODE_BURST ) != RTEMS_SUCCESSFUL) {
103 if (rtems_event_send( Task_id[TASKID_CWF2], RTEMS_EVENT_MODE_BURST ) != RTEMS_SUCCESSFUL) {
104 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
104 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
105 }
105 }
106 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffbbb; // [1111 1011 1011 1011] f2 bits = 0
106 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffbbb; // [1111 1011 1011 1011] f2 bits = 0
107 }
107 }
108 #endif
108 #endif
109 break;
109 break;
110
110
111 //*****
111 //*****
112 // SBM1
112 // SBM1
113 case(LFR_MODE_SBM1):
113 case(LFR_MODE_SBM1):
114 #ifdef GSA
114 #ifdef GSA
115 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
115 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
116 #else
116 #else
117 if ((waveform_picker_regs->status & 0x02) == 0x02){ // [0010] check the f1 full bit
117 if ((waveform_picker_regs->status & 0x02) == 0x02){ // [0010] check the f1 full bit
118 // (1) change the receiving buffer for the waveform picker
118 // (1) change the receiving buffer for the waveform picker
119 if ( param_local.local_sbm1_nb_cwf_sent == (param_local.local_sbm1_nb_cwf_max-1) )
119 if ( param_local.local_sbm1_nb_cwf_sent == (param_local.local_sbm1_nb_cwf_max-1) )
120 {
120 {
121 waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_norm);
121 waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_norm);
122 }
122 }
123 else if ( waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1_norm )
123 else if ( waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1_norm )
124 {
124 {
125 doubleSendCWF1 = 1;
125 doubleSendCWF1 = 1;
126 waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1);
126 waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1);
127 }
127 }
128 else if ( waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1 ) {
128 else if ( waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1 ) {
129 waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_bis);
129 waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_bis);
130 }
130 }
131 else {
131 else {
132 waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1);
132 waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1);
133 }
133 }
134 // (2) send an event for the waveforms transmission
134 // (2) send an event for the waveforms transmission
135 if (rtems_event_send( Task_id[TASKID_CWF1], RTEMS_EVENT_MODE_SBM1 ) != RTEMS_SUCCESSFUL) {
135 if (rtems_event_send( Task_id[TASKID_CWF1], RTEMS_EVENT_MODE_SBM1 ) != RTEMS_SUCCESSFUL) {
136 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
136 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
137 }
137 }
138 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffddd; // [1111 1101 1101 1101] f1 bit = 0
138 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffddd; // [1111 1101 1101 1101] f1 bit = 0
139 }
139 }
140 if ( ( (waveform_picker_regs->status & 0x05) == 0x05 ) ) { // [0101] check the f2 and f0 full bit
140 if ( ( (waveform_picker_regs->status & 0x05) == 0x05 ) ) { // [0101] check the f2 and f0 full bit
141 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
141 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
142 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
142 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
143 }
143 }
144 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffaaa; // [1111 1010 1010 1010] f2 and f0 bits = 0
144 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffaaa; // [1111 1010 1010 1010] f2 and f0 bits = 0
145 reset_local_sbm1_nb_cwf_sent();
145 reset_local_sbm1_nb_cwf_sent();
146 }
146 }
147
147
148 #endif
148 #endif
149 break;
149 break;
150
150
151 //*****
151 //*****
152 // SBM2
152 // SBM2
153 case(LFR_MODE_SBM2):
153 case(LFR_MODE_SBM2):
154 #ifdef GSA
154 #ifdef GSA
155 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
155 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
156 #else
156 #else
157 if ((waveform_picker_regs->status & 0x04) == 0x04){ // [0100] check the f2 full bit
157 if ((waveform_picker_regs->status & 0x04) == 0x04){ // [0100] check the f2 full bit
158 // (1) change the receiving buffer for the waveform picker
158 // (1) change the receiving buffer for the waveform picker
159 if ( param_local.local_sbm2_nb_cwf_sent == (param_local.local_sbm2_nb_cwf_max-1) )
159 if ( param_local.local_sbm2_nb_cwf_sent == (param_local.local_sbm2_nb_cwf_max-1) )
160 {
160 {
161 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_norm);
161 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_norm);
162 }
162 }
163 else if ( waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2_norm ) {
163 else if ( waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2_norm ) {
164 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
164 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
165 doubleSendCWF2 = 1;
165 doubleSendCWF2 = 1;
166 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_SBM2_WFRM ) != RTEMS_SUCCESSFUL) {
166 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_SBM2_WFRM ) != RTEMS_SUCCESSFUL) {
167 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
167 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
168 }
168 }
169 reset_local_sbm2_nb_cwf_sent();
169 reset_local_sbm2_nb_cwf_sent();
170 }
170 }
171 else if ( waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2 ) {
171 else if ( waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2 ) {
172 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_bis);
172 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_bis);
173 }
173 }
174 else {
174 else {
175 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
175 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
176 }
176 }
177 // (2) send an event for the waveforms transmission
177 // (2) send an event for the waveforms transmission
178 if (rtems_event_send( Task_id[TASKID_CWF2], RTEMS_EVENT_MODE_SBM2 ) != RTEMS_SUCCESSFUL) {
178 if (rtems_event_send( Task_id[TASKID_CWF2], RTEMS_EVENT_MODE_SBM2 ) != RTEMS_SUCCESSFUL) {
179 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
179 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
180 }
180 }
181 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffbbb; // [1111 1011 1011 1011] f2 bit = 0
181 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffbbb; // [1111 1011 1011 1011] f2 bit = 0
182 }
182 }
183 if ( ( (waveform_picker_regs->status & 0x03) == 0x03 ) ) { // [0011] f3 f2 f1 f0, f1 and f0 are full
183 if ( ( (waveform_picker_regs->status & 0x03) == 0x03 ) ) { // [0011] f3 f2 f1 f0, f1 and f0 are full
184 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_SBM2 ) != RTEMS_SUCCESSFUL) {
184 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_SBM2 ) != RTEMS_SUCCESSFUL) {
185 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
185 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
186 }
186 }
187 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffccc; // [1111 1100 1100 1100] f1, f0 bits = 0
187 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffccc; // [1111 1100 1100 1100] f1, f0 bits = 0
188 }
188 }
189 #endif
189 #endif
190 break;
190 break;
191
191
192 //********
192 //********
193 // DEFAULT
193 // DEFAULT
194 default:
194 default:
195 break;
195 break;
196 }
196 }
197 }
197 }
198
198
199 rtems_isr waveforms_simulator_isr( rtems_vector_number vector )
199 rtems_isr waveforms_simulator_isr( rtems_vector_number vector )
200 {
200 {
201 /** This is the interrupt sub routine called by the waveform picker simulator.
201 /** This is the interrupt sub routine called by the waveform picker simulator.
202 *
202 *
203 * This ISR is for debug purpose only.
203 * This ISR is for debug purpose only.
204 *
204 *
205 */
205 */
206
206
207 unsigned char lfrMode;
207 unsigned char lfrMode;
208 lfrMode = (housekeeping_packet.lfr_status_word[0] & 0xf0) >> 4;
208 lfrMode = (housekeeping_packet.lfr_status_word[0] & 0xf0) >> 4;
209
209
210 switch(lfrMode) {
210 switch(lfrMode) {
211 case (LFR_MODE_STANDBY):
211 case (LFR_MODE_STANDBY):
212 break;
212 break;
213 case (LFR_MODE_NORMAL):
213 case (LFR_MODE_NORMAL):
214 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
214 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
215 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_5 );
215 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_5 );
216 }
216 }
217 break;
217 break;
218 case (LFR_MODE_BURST):
218 case (LFR_MODE_BURST):
219 break;
219 break;
220 case (LFR_MODE_SBM1):
220 case (LFR_MODE_SBM1):
221 break;
221 break;
222 case (LFR_MODE_SBM2):
222 case (LFR_MODE_SBM2):
223 break;
223 break;
224 }
224 }
225 }
225 }
226
226
227 rtems_task wfrm_task(rtems_task_argument argument) //used with the waveform picker VHDL IP
227 rtems_task wfrm_task(rtems_task_argument argument) //used with the waveform picker VHDL IP
228 {
228 {
229 /** This RTEMS task is dedicated to the transmission of snapshots of the NORMAL mode.
229 /** This RTEMS task is dedicated to the transmission of snapshots of the NORMAL mode.
230 *
230 *
231 * @param unused is the starting argument of the RTEMS task
231 * @param unused is the starting argument of the RTEMS task
232 *
232 *
233 * The following data packets are sent by this task:
233 * The following data packets are sent by this task:
234 * - TM_LFR_SCIENCE_NORMAL_SWF_F0
234 * - TM_LFR_SCIENCE_NORMAL_SWF_F0
235 * - TM_LFR_SCIENCE_NORMAL_SWF_F1
235 * - TM_LFR_SCIENCE_NORMAL_SWF_F1
236 * - TM_LFR_SCIENCE_NORMAL_SWF_F2
236 * - TM_LFR_SCIENCE_NORMAL_SWF_F2
237 *
237 *
238 */
238 */
239
239
240 rtems_event_set event_out;
240 rtems_event_set event_out;
241 rtems_id queue_id;
241 rtems_id queue_id;
242
242
243 init_header_snapshot_wf_table( SID_NORM_SWF_F0, headerSWF_F0 );
243 init_header_snapshot_wf_table( SID_NORM_SWF_F0, headerSWF_F0 );
244 init_header_snapshot_wf_table( SID_NORM_SWF_F1, headerSWF_F1 );
244 init_header_snapshot_wf_table( SID_NORM_SWF_F1, headerSWF_F1 );
245 init_header_snapshot_wf_table( SID_NORM_SWF_F2, headerSWF_F2 );
245 init_header_snapshot_wf_table( SID_NORM_SWF_F2, headerSWF_F2 );
246
246
247 init_waveforms();
247 init_waveforms();
248
248
249 queue_id = get_pkts_queue_id();
249 queue_id = get_pkts_queue_id();
250
250
251 BOOT_PRINTF("in WFRM ***\n")
251 BOOT_PRINTF("in WFRM ***\n")
252
252
253 while(1){
253 while(1){
254 // wait for an RTEMS_EVENT
254 // wait for an RTEMS_EVENT
255 rtems_event_receive(RTEMS_EVENT_MODE_NORMAL | RTEMS_EVENT_MODE_SBM1
255 rtems_event_receive(RTEMS_EVENT_MODE_NORMAL | RTEMS_EVENT_MODE_SBM1
256 | RTEMS_EVENT_MODE_SBM2 | RTEMS_EVENT_MODE_SBM2_WFRM,
256 | RTEMS_EVENT_MODE_SBM2 | RTEMS_EVENT_MODE_SBM2_WFRM,
257 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
257 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
258
258
259 if (event_out == RTEMS_EVENT_MODE_NORMAL)
259 if (event_out == RTEMS_EVENT_MODE_NORMAL)
260 {
260 {
261 send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
261 send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
262 send_waveform_SWF(wf_snap_f1, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
262 send_waveform_SWF(wf_snap_f1, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
263 send_waveform_SWF(wf_snap_f2, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
263 send_waveform_SWF(wf_snap_f2, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
264 #ifdef GSA
264 #ifdef GSA
265 waveform_picker_regs->status = waveform_picker_regs->status & 0xf888; // [1111 1000 1000 1000] f2, f1, f0 bits =0
265 waveform_picker_regs->status = waveform_picker_regs->status & 0xf888; // [1111 1000 1000 1000] f2, f1, f0 bits =0
266 #endif
266 #endif
267 }
267 }
268 else if (event_out == RTEMS_EVENT_MODE_SBM1)
268 else if (event_out == RTEMS_EVENT_MODE_SBM1)
269 {
269 {
270 send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
270 send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
271 send_waveform_SWF(wf_snap_f1_norm, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
271 send_waveform_SWF(wf_snap_f1_norm, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
272 send_waveform_SWF(wf_snap_f2, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
272 send_waveform_SWF(wf_snap_f2, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
273 #ifdef GSA
273 #ifdef GSA
274 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffaaa; // [1111 1010 1010 1010] f2, f0 bits = 0
274 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffaaa; // [1111 1010 1010 1010] f2, f0 bits = 0
275 #endif
275 #endif
276 }
276 }
277 else if (event_out == RTEMS_EVENT_MODE_SBM2)
277 else if (event_out == RTEMS_EVENT_MODE_SBM2)
278 {
278 {
279 send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
279 send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
280 send_waveform_SWF(wf_snap_f1, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
280 send_waveform_SWF(wf_snap_f1, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
281 #ifdef GSA
281 #ifdef GSA
282 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffccc; // [1111 1100 1100 1100] f1, f0 bits = 0
282 waveform_picker_regs->status = waveform_picker_regs->status & 0xfffffccc; // [1111 1100 1100 1100] f1, f0 bits = 0
283 #endif
283 #endif
284 }
284 }
285 else if (event_out == RTEMS_EVENT_MODE_SBM2_WFRM)
285 else if (event_out == RTEMS_EVENT_MODE_SBM2_WFRM)
286 {
286 {
287 send_waveform_SWF(wf_snap_f2_norm, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
287 send_waveform_SWF(wf_snap_f2_norm, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
288 }
288 }
289 else
289 else
290 {
290 {
291 PRINTF("in WFRM *** unexpected event")
291 PRINTF("in WFRM *** unexpected event")
292 }
292 }
293
293
294
294
295 #ifdef GSA
295 #ifdef GSA
296 // irq processed, reset the related register of the timer unit
296 // irq processed, reset the related register of the timer unit
297 gptimer_regs->timer[TIMER_WF_SIMULATOR].ctrl = gptimer_regs->timer[TIMER_WF_SIMULATOR].ctrl | 0x00000010;
297 gptimer_regs->timer[TIMER_WF_SIMULATOR].ctrl = gptimer_regs->timer[TIMER_WF_SIMULATOR].ctrl | 0x00000010;
298 // clear the interruption
298 // clear the interruption
299 LEON_Unmask_interrupt( IRQ_WF );
299 LEON_Unmask_interrupt( IRQ_WF );
300 #endif
300 #endif
301 }
301 }
302 }
302 }
303
303
304 rtems_task cwf3_task(rtems_task_argument argument) //used with the waveform picker VHDL IP
304 rtems_task cwf3_task(rtems_task_argument argument) //used with the waveform picker VHDL IP
305 {
305 {
306 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f3.
306 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f3.
307 *
307 *
308 * @param unused is the starting argument of the RTEMS task
308 * @param unused is the starting argument of the RTEMS task
309 *
309 *
310 * The following data packet is sent by this task:
310 * The following data packet is sent by this task:
311 * - TM_LFR_SCIENCE_NORMAL_CWF_F3
311 * - TM_LFR_SCIENCE_NORMAL_CWF_F3
312 *
312 *
313 */
313 */
314
314
315 rtems_event_set event_out;
315 rtems_event_set event_out;
316 rtems_id queue_id;
316 rtems_id queue_id;
317
317
318 init_header_continuous_wf_table( SID_NORM_CWF_F3, headerCWF_F3 );
318 init_header_continuous_wf_table( SID_NORM_CWF_F3, headerCWF_F3 );
319 init_header_continuous_wf3_light_table( headerCWF_F3_light );
319 init_header_continuous_wf3_light_table( headerCWF_F3_light );
320
320
321 queue_id = get_pkts_queue_id();
321 queue_id = get_pkts_queue_id();
322
322
323 BOOT_PRINTF("in CWF3 ***\n")
323 BOOT_PRINTF("in CWF3 ***\n")
324
324
325 while(1){
325 while(1){
326 // wait for an RTEMS_EVENT
326 // wait for an RTEMS_EVENT
327 rtems_event_receive( RTEMS_EVENT_0,
327 rtems_event_receive( RTEMS_EVENT_0,
328 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
328 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
329 PRINTF("send CWF F3 \n")
329 PRINTF("send CWF F3 \n")
330 #ifdef GSA
330 #ifdef GSA
331 #else
331 #else
332 if (waveform_picker_regs->addr_data_f3 == (int) wf_cont_f3) {
332 if (waveform_picker_regs->addr_data_f3 == (int) wf_cont_f3) {
333 send_waveform_CWF3_light( wf_cont_f3_bis, headerCWF_F3_light, queue_id );
333 send_waveform_CWF3_light( wf_cont_f3_bis, headerCWF_F3_light, queue_id );
334 }
334 }
335 else {
335 else {
336 send_waveform_CWF3_light( wf_cont_f3, headerCWF_F3_light, queue_id );
336 send_waveform_CWF3_light( wf_cont_f3, headerCWF_F3_light, queue_id );
337 }
337 }
338 #endif
338 #endif
339 }
339 }
340 }
340 }
341
341
342 rtems_task cwf2_task(rtems_task_argument argument) // ONLY USED IN BURST AND SBM2
342 rtems_task cwf2_task(rtems_task_argument argument) // ONLY USED IN BURST AND SBM2
343 {
343 {
344 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f2.
344 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f2.
345 *
345 *
346 * @param unused is the starting argument of the RTEMS task
346 * @param unused is the starting argument of the RTEMS task
347 *
347 *
348 * The following data packet is sent by this function:
348 * The following data packet is sent by this function:
349 * - TM_LFR_SCIENCE_BURST_CWF_F2
349 * - TM_LFR_SCIENCE_BURST_CWF_F2
350 * - TM_LFR_SCIENCE_SBM2_CWF_F2
350 * - TM_LFR_SCIENCE_SBM2_CWF_F2
351 *
351 *
352 */
352 */
353
353
354 rtems_event_set event_out;
354 rtems_event_set event_out;
355 rtems_id queue_id;
355 rtems_id queue_id;
356
356
357 init_header_continuous_wf_table( SID_BURST_CWF_F2, headerCWF_F2_BURST );
357 init_header_continuous_wf_table( SID_BURST_CWF_F2, headerCWF_F2_BURST );
358 init_header_continuous_wf_table( SID_SBM2_CWF_F2, headerCWF_F2_SBM2 );
358 init_header_continuous_wf_table( SID_SBM2_CWF_F2, headerCWF_F2_SBM2 );
359
359
360 queue_id = get_pkts_queue_id();
360 queue_id = get_pkts_queue_id();
361
361
362 BOOT_PRINTF("in CWF2 ***\n")
362 BOOT_PRINTF("in CWF2 ***\n")
363
363
364 while(1){
364 while(1){
365 // wait for an RTEMS_EVENT
365 // wait for an RTEMS_EVENT
366 rtems_event_receive( RTEMS_EVENT_MODE_BURST | RTEMS_EVENT_MODE_SBM2,
366 rtems_event_receive( RTEMS_EVENT_MODE_BURST | RTEMS_EVENT_MODE_SBM2,
367 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
367 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
368
368
369 if (event_out == RTEMS_EVENT_MODE_BURST)
369 if (event_out == RTEMS_EVENT_MODE_BURST)
370 {
370 {
371 // F2
371 // F2
372 #ifdef GSA
372 #ifdef GSA
373 #else
373 #else
374 if (waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
374 if (waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
375 send_waveform_CWF( wf_snap_f2_bis, SID_BURST_CWF_F2, headerCWF_F2_BURST, queue_id );
375 send_waveform_CWF( wf_snap_f2_bis, SID_BURST_CWF_F2, headerCWF_F2_BURST, queue_id );
376 }
376 }
377 else {
377 else {
378 send_waveform_CWF( wf_snap_f2, SID_BURST_CWF_F2, headerCWF_F2_BURST, queue_id );
378 send_waveform_CWF( wf_snap_f2, SID_BURST_CWF_F2, headerCWF_F2_BURST, queue_id );
379 }
379 }
380 #endif
380 #endif
381 }
381 }
382
382
383 else if (event_out == RTEMS_EVENT_MODE_SBM2)
383 else if (event_out == RTEMS_EVENT_MODE_SBM2)
384 {
384 {
385 #ifdef GSA
385 #ifdef GSA
386 #else
386 #else
387 if (doubleSendCWF2 == 1)
387 if (doubleSendCWF2 == 1)
388 {
388 {
389 doubleSendCWF2 = 0;
389 doubleSendCWF2 = 0;
390 send_waveform_CWF( wf_snap_f2_norm, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
390 send_waveform_CWF( wf_snap_f2_norm, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
391 }
391 }
392 else if (waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
392 else if (waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
393 send_waveform_CWF( wf_snap_f2_bis, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
393 send_waveform_CWF( wf_snap_f2_bis, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
394 }
394 }
395 else {
395 else {
396 send_waveform_CWF( wf_snap_f2, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
396 send_waveform_CWF( wf_snap_f2, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
397 }
397 }
398 param_local.local_sbm2_nb_cwf_sent ++;
398 param_local.local_sbm2_nb_cwf_sent ++;
399 #endif
399 #endif
400 }
400 }
401 else
401 else
402 {
402 {
403 PRINTF1("in CWF2 *** ERR mode = %d\n", lfrCurrentMode)
403 PRINTF1("in CWF2 *** ERR mode = %d\n", lfrCurrentMode)
404 }
404 }
405 }
405 }
406 }
406 }
407
407
408 rtems_task cwf1_task(rtems_task_argument argument) // ONLY USED IN SBM1
408 rtems_task cwf1_task(rtems_task_argument argument) // ONLY USED IN SBM1
409 {
409 {
410 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f1.
410 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f1.
411 *
411 *
412 * @param unused is the starting argument of the RTEMS task
412 * @param unused is the starting argument of the RTEMS task
413 *
413 *
414 * The following data packet is sent by this function:
414 * The following data packet is sent by this function:
415 * - TM_LFR_SCIENCE_SBM1_CWF_F1
415 * - TM_LFR_SCIENCE_SBM1_CWF_F1
416 *
416 *
417 */
417 */
418
418
419 rtems_event_set event_out;
419 rtems_event_set event_out;
420 rtems_id queue_id;
420 rtems_id queue_id;
421
421
422 init_header_continuous_wf_table( SID_SBM1_CWF_F1, headerCWF_F1 );
422 init_header_continuous_wf_table( SID_SBM1_CWF_F1, headerCWF_F1 );
423
423
424 queue_id = get_pkts_queue_id();
424 queue_id = get_pkts_queue_id();
425
425
426 BOOT_PRINTF("in CWF1 ***\n")
426 BOOT_PRINTF("in CWF1 ***\n")
427
427
428 while(1){
428 while(1){
429 // wait for an RTEMS_EVENT
429 // wait for an RTEMS_EVENT
430 rtems_event_receive( RTEMS_EVENT_MODE_SBM1,
430 rtems_event_receive( RTEMS_EVENT_MODE_SBM1,
431 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
431 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
432 if (event_out == RTEMS_EVENT_MODE_SBM1)
432 if (event_out == RTEMS_EVENT_MODE_SBM1)
433 {
433 {
434 #ifdef GSA
434 #ifdef GSA
435 #else
435 #else
436 if (doubleSendCWF1 == 1)
436 if (doubleSendCWF1 == 1)
437 {
437 {
438 doubleSendCWF1 = 0;
438 doubleSendCWF1 = 0;
439 send_waveform_CWF( wf_snap_f1_norm, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
439 send_waveform_CWF( wf_snap_f1_norm, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
440 }
440 }
441 else if (waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1) {
441 else if (waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1) {
442 send_waveform_CWF( wf_snap_f1_bis, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
442 send_waveform_CWF( wf_snap_f1_bis, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
443 }
443 }
444 else {
444 else {
445 send_waveform_CWF( wf_snap_f1, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
445 send_waveform_CWF( wf_snap_f1, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
446 }
446 }
447 param_local.local_sbm1_nb_cwf_sent ++;
447 param_local.local_sbm1_nb_cwf_sent ++;
448 #endif
448 #endif
449 }
449 }
450 else
450 else
451 {
451 {
452 PRINTF1("in CWF1 *** ERR mode = %d\n", lfrCurrentMode)
452 PRINTF1("in CWF1 *** ERR mode = %d\n", lfrCurrentMode)
453 }
453 }
454 }
454 }
455 }
455 }
456
456
457 //******************
457 //******************
458 // general functions
458 // general functions
459 void init_waveforms( void )
459 void init_waveforms( void )
460 {
460 {
461 int i = 0;
461 int i = 0;
462
462
463 for (i=0; i< NB_SAMPLES_PER_SNAPSHOT; i++)
463 for (i=0; i< NB_SAMPLES_PER_SNAPSHOT; i++)
464 {
464 {
465 //***
465 //***
466 // F0
466 // F0
467 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x88887777; //
467 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x88887777; //
468 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x22221111; //
468 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x22221111; //
469 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0x44443333; //
469 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0x44443333; //
470
470
471 //***
471 //***
472 // F1
472 // F1
473 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x22221111;
473 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x22221111;
474 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x44443333;
474 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x44443333;
475 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0xaaaa0000;
475 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0xaaaa0000;
476
476
477 //***
477 //***
478 // F2
478 // F2
479 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x44443333;
479 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x44443333;
480 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x22221111;
480 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x22221111;
481 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0xaaaa0000;
481 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0xaaaa0000;
482
482
483 //***
483 //***
484 // F3
484 // F3
485 //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 0 ] = val1;
485 //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 0 ] = val1;
486 //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 1 ] = val2;
486 //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 1 ] = val2;
487 //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 2 ] = 0xaaaa0000;
487 //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 2 ] = 0xaaaa0000;
488 }
488 }
489 }
489 }
490
490
491 int init_header_snapshot_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_SWF_t *headerSWF)
491 int init_header_snapshot_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_SWF_t *headerSWF)
492 {
492 {
493 unsigned char i;
493 unsigned char i;
494
494
495 for (i=0; i<7; i++)
495 for (i=0; i<7; i++)
496 {
496 {
497 headerSWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
497 headerSWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
498 headerSWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
498 headerSWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
499 headerSWF[ i ].reserved = DEFAULT_RESERVED;
499 headerSWF[ i ].reserved = DEFAULT_RESERVED;
500 headerSWF[ i ].userApplication = CCSDS_USER_APP;
500 headerSWF[ i ].userApplication = CCSDS_USER_APP;
501 headerSWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
501 headerSWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
502 headerSWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
502 headerSWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
503 if (i == 0)
503 if (i == 0)
504 {
504 {
505 headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
505 headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
506 headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_340 >> 8);
506 headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_340 >> 8);
507 headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_340 );
507 headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_340 );
508 headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
508 headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
509 headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
509 headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
510 }
510 }
511 else if (i == 6)
511 else if (i == 6)
512 {
512 {
513 headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
513 headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
514 headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_8 >> 8);
514 headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_8 >> 8);
515 headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_8 );
515 headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_8 );
516 headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
516 headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
517 headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8 );
517 headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8 );
518 }
518 }
519 else
519 else
520 {
520 {
521 headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
521 headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
522 headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_340 >> 8);
522 headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_340 >> 8);
523 headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_340 );
523 headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_340 );
524 headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
524 headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
525 headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
525 headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
526 }
526 }
527 headerSWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
527 headerSWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
528 headerSWF[ i ].pktCnt = DEFAULT_PKTCNT; // PKT_CNT
528 headerSWF[ i ].pktCnt = DEFAULT_PKTCNT; // PKT_CNT
529 headerSWF[ i ].pktNr = i+1; // PKT_NR
529 headerSWF[ i ].pktNr = i+1; // PKT_NR
530 // DATA FIELD HEADER
530 // DATA FIELD HEADER
531 headerSWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
531 headerSWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
532 headerSWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
532 headerSWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
533 headerSWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
533 headerSWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
534 headerSWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
534 headerSWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
535 // AUXILIARY DATA HEADER
535 // AUXILIARY DATA HEADER
536 headerSWF[ i ].time[0] = 0x00;
536 headerSWF[ i ].time[0] = 0x00;
537 headerSWF[ i ].time[0] = 0x00;
537 headerSWF[ i ].time[0] = 0x00;
538 headerSWF[ i ].time[0] = 0x00;
538 headerSWF[ i ].time[0] = 0x00;
539 headerSWF[ i ].time[0] = 0x00;
539 headerSWF[ i ].time[0] = 0x00;
540 headerSWF[ i ].time[0] = 0x00;
540 headerSWF[ i ].time[0] = 0x00;
541 headerSWF[ i ].time[0] = 0x00;
541 headerSWF[ i ].time[0] = 0x00;
542 headerSWF[ i ].sid = sid;
542 headerSWF[ i ].sid = sid;
543 headerSWF[ i ].hkBIA = DEFAULT_HKBIA;
543 headerSWF[ i ].hkBIA = DEFAULT_HKBIA;
544 }
544 }
545 return LFR_SUCCESSFUL;
545 return LFR_SUCCESSFUL;
546 }
546 }
547
547
548 int init_header_continuous_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_CWF_t *headerCWF )
548 int init_header_continuous_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_CWF_t *headerCWF )
549 {
549 {
550 unsigned int i;
550 unsigned int i;
551
551
552 for (i=0; i<7; i++)
552 for (i=0; i<7; i++)
553 {
553 {
554 headerCWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
554 headerCWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
555 headerCWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
555 headerCWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
556 headerCWF[ i ].reserved = DEFAULT_RESERVED;
556 headerCWF[ i ].reserved = DEFAULT_RESERVED;
557 headerCWF[ i ].userApplication = CCSDS_USER_APP;
557 headerCWF[ i ].userApplication = CCSDS_USER_APP;
558 if ( (sid == SID_SBM1_CWF_F1) || (sid == SID_SBM2_CWF_F2) )
558 if ( (sid == SID_SBM1_CWF_F1) || (sid == SID_SBM2_CWF_F2) )
559 {
559 {
560 headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_SBM1_SBM2 >> 8);
560 headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_SBM1_SBM2 >> 8);
561 headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_SBM1_SBM2);
561 headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_SBM1_SBM2);
562 }
562 }
563 else
563 else
564 {
564 {
565 headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
565 headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
566 headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
566 headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
567 }
567 }
568 if (i == 0)
568 if (i == 0)
569 {
569 {
570 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
570 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
571 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_340 >> 8);
571 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_340 >> 8);
572 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_340 );
572 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_340 );
573 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
573 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
574 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
574 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
575 }
575 }
576 else if (i == 6)
576 else if (i == 6)
577 {
577 {
578 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
578 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
579 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_8 >> 8);
579 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_8 >> 8);
580 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_8 );
580 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_8 );
581 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
581 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
582 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8 );
582 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8 );
583 }
583 }
584 else
584 else
585 {
585 {
586 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
586 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
587 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_340 >> 8);
587 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_340 >> 8);
588 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_340 );
588 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_340 );
589 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
589 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
590 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
590 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
591 }
591 }
592 headerCWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
592 headerCWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
593 // PKT_CNT
593 // PKT_CNT
594 // PKT_NR
594 // PKT_NR
595 // DATA FIELD HEADER
595 // DATA FIELD HEADER
596 headerCWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
596 headerCWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
597 headerCWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
597 headerCWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
598 headerCWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
598 headerCWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
599 headerCWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
599 headerCWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
600 // AUXILIARY DATA HEADER
600 // AUXILIARY DATA HEADER
601 headerCWF[ i ].sid = sid;
601 headerCWF[ i ].sid = sid;
602 headerCWF[ i ].hkBIA = DEFAULT_HKBIA;
602 headerCWF[ i ].hkBIA = DEFAULT_HKBIA;
603 headerCWF[ i ].time[0] = 0x00;
603 headerCWF[ i ].time[0] = 0x00;
604 headerCWF[ i ].time[0] = 0x00;
604 headerCWF[ i ].time[0] = 0x00;
605 headerCWF[ i ].time[0] = 0x00;
605 headerCWF[ i ].time[0] = 0x00;
606 headerCWF[ i ].time[0] = 0x00;
606 headerCWF[ i ].time[0] = 0x00;
607 headerCWF[ i ].time[0] = 0x00;
607 headerCWF[ i ].time[0] = 0x00;
608 headerCWF[ i ].time[0] = 0x00;
608 headerCWF[ i ].time[0] = 0x00;
609 }
609 }
610 return LFR_SUCCESSFUL;
610 return LFR_SUCCESSFUL;
611 }
611 }
612
612
613 int init_header_continuous_wf3_light_table( Header_TM_LFR_SCIENCE_CWF_t *headerCWF )
613 int init_header_continuous_wf3_light_table( Header_TM_LFR_SCIENCE_CWF_t *headerCWF )
614 {
614 {
615 unsigned int i;
615 unsigned int i;
616
616
617 for (i=0; i<7; i++)
617 for (i=0; i<7; i++)
618 {
618 {
619 headerCWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
619 headerCWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
620 headerCWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
620 headerCWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
621 headerCWF[ i ].reserved = DEFAULT_RESERVED;
621 headerCWF[ i ].reserved = DEFAULT_RESERVED;
622 headerCWF[ i ].userApplication = CCSDS_USER_APP;
622 headerCWF[ i ].userApplication = CCSDS_USER_APP;
623
623
624 headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
624 headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
625 headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
625 headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
626 if (i == 0)
626 if (i == 0)
627 {
627 {
628 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
628 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
629 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 >> 8);
629 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 >> 8);
630 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 );
630 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 );
631 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
631 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
632 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
632 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
633 }
633 }
634 else if (i == 6)
634 else if (i == 6)
635 {
635 {
636 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
636 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
637 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_8 >> 8);
637 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_8 >> 8);
638 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_8 );
638 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_8 );
639 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
639 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
640 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8 );
640 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8 );
641 }
641 }
642 else
642 else
643 {
643 {
644 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
644 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
645 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 >> 8);
645 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 >> 8);
646 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 );
646 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 );
647 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
647 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
648 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
648 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
649 }
649 }
650 headerCWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
650 headerCWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
651 // DATA FIELD HEADER
651 // DATA FIELD HEADER
652 headerCWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
652 headerCWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
653 headerCWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
653 headerCWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
654 headerCWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
654 headerCWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
655 headerCWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
655 headerCWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
656 // AUXILIARY DATA HEADER
656 // AUXILIARY DATA HEADER
657 headerCWF[ i ].sid = SID_NORM_CWF_F3;
657 headerCWF[ i ].sid = SID_NORM_CWF_F3;
658 headerCWF[ i ].hkBIA = DEFAULT_HKBIA;
658 headerCWF[ i ].hkBIA = DEFAULT_HKBIA;
659 headerCWF[ i ].time[0] = 0x00;
659 headerCWF[ i ].time[0] = 0x00;
660 headerCWF[ i ].time[0] = 0x00;
660 headerCWF[ i ].time[0] = 0x00;
661 headerCWF[ i ].time[0] = 0x00;
661 headerCWF[ i ].time[0] = 0x00;
662 headerCWF[ i ].time[0] = 0x00;
662 headerCWF[ i ].time[0] = 0x00;
663 headerCWF[ i ].time[0] = 0x00;
663 headerCWF[ i ].time[0] = 0x00;
664 headerCWF[ i ].time[0] = 0x00;
664 headerCWF[ i ].time[0] = 0x00;
665 }
665 }
666 return LFR_SUCCESSFUL;
666 return LFR_SUCCESSFUL;
667 }
667 }
668
668
669 void reset_waveforms( void )
669 void reset_waveforms( void )
670 {
670 {
671 int i = 0;
671 int i = 0;
672
672
673 for (i=0; i< NB_SAMPLES_PER_SNAPSHOT; i++)
673 for (i=0; i< NB_SAMPLES_PER_SNAPSHOT; i++)
674 {
674 {
675 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x10002000;
675 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x10002000;
676 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0x20001000;
676 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0x20001000;
677 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x40008000;
677 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x40008000;
678
678
679 //***
679 //***
680 // F1
680 // F1
681 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x1000f000;
681 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x1000f000;
682 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0xf0001000;
682 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0xf0001000;
683 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x40008000;
683 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x40008000;
684
684
685 //***
685 //***
686 // F2
686 // F2
687 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x40008000;
687 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x40008000;
688 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0x20001000;
688 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0x20001000;
689 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x10002000;
689 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x10002000;
690
690
691 //***
691 //***
692 // F3
692 // F3
693 /*wf_cont_f3[ i* NB_WORDS_SWF_BLK + 0 ] = build_value( i, i ); // v and 1
693 /*wf_cont_f3[ i* NB_WORDS_SWF_BLK + 0 ] = build_value( i, i ); // v and 1
694 wf_cont_f3[ i* NB_WORDS_SWF_BLK + 1 ] = build_value( i, i ); // e2 and b1
694 wf_cont_f3[ i* NB_WORDS_SWF_BLK + 1 ] = build_value( i, i ); // e2 and b1
695 wf_cont_f3[ i* NB_WORDS_SWF_BLK + 2 ] = build_value( i, i ); // b2 and b3*/
695 wf_cont_f3[ i* NB_WORDS_SWF_BLK + 2 ] = build_value( i, i ); // b2 and b3*/
696 }
696 }
697 }
697 }
698
698
699 int send_waveform_SWF( volatile int *waveform, unsigned int sid,
699 int send_waveform_SWF( volatile int *waveform, unsigned int sid,
700 Header_TM_LFR_SCIENCE_SWF_t *headerSWF, rtems_id queue_id )
700 Header_TM_LFR_SCIENCE_SWF_t *headerSWF, rtems_id queue_id )
701 {
701 {
702 /** This function sends SWF CCSDS packets (F2, F1 or F0).
702 /** This function sends SWF CCSDS packets (F2, F1 or F0).
703 *
703 *
704 * @param waveform points to the buffer containing the data that will be send.
704 * @param waveform points to the buffer containing the data that will be send.
705 * @param sid is the source identifier of the data that will be sent.
705 * @param sid is the source identifier of the data that will be sent.
706 * @param headerSWF points to a table of headers that have been prepared for the data transmission.
706 * @param headerSWF points to a table of headers that have been prepared for the data transmission.
707 * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
707 * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
708 * contain information to setup the transmission of the data packets.
708 * contain information to setup the transmission of the data packets.
709 *
709 *
710 * One group of 2048 samples is sent as 7 consecutive packets, 6 packets containing 340 blocks and 8 packets containing 8 blocks.
710 * One group of 2048 samples is sent as 7 consecutive packets, 6 packets containing 340 blocks and 8 packets containing 8 blocks.
711 *
711 *
712 */
712 */
713
713
714 unsigned int i;
714 unsigned int i;
715 int ret;
715 int ret;
716 rtems_status_code status;
716 rtems_status_code status;
717 spw_ioctl_pkt_send spw_ioctl_send_SWF;
717 spw_ioctl_pkt_send spw_ioctl_send_SWF;
718
718
719 spw_ioctl_send_SWF.hlen = TM_HEADER_LEN + 4 + 12; // + 4 is for the protocole extra header, + 12 is for the auxiliary header
719 spw_ioctl_send_SWF.hlen = TM_HEADER_LEN + 4 + 12; // + 4 is for the protocole extra header, + 12 is for the auxiliary header
720 spw_ioctl_send_SWF.options = 0;
720 spw_ioctl_send_SWF.options = 0;
721
721
722 ret = LFR_DEFAULT;
722 ret = LFR_DEFAULT;
723
723
724 for (i=0; i<7; i++) // send waveform
724 for (i=0; i<7; i++) // send waveform
725 {
725 {
726 spw_ioctl_send_SWF.data = (char*) &waveform[ (i * 340 * NB_WORDS_SWF_BLK) ];
726 spw_ioctl_send_SWF.data = (char*) &waveform[ (i * 340 * NB_WORDS_SWF_BLK) ];
727 spw_ioctl_send_SWF.hdr = (char*) &headerSWF[ i ];
727 spw_ioctl_send_SWF.hdr = (char*) &headerSWF[ i ];
728 // BUILD THE DATA
728 // BUILD THE DATA
729 if (i==6) {
729 if (i==6) {
730 spw_ioctl_send_SWF.dlen = 8 * NB_BYTES_SWF_BLK;
730 spw_ioctl_send_SWF.dlen = 8 * NB_BYTES_SWF_BLK;
731 }
731 }
732 else {
732 else {
733 spw_ioctl_send_SWF.dlen = 340 * NB_BYTES_SWF_BLK;
733 spw_ioctl_send_SWF.dlen = 340 * NB_BYTES_SWF_BLK;
734 }
734 }
735 // SET PACKET SEQUENCE COUNTER
735 // SET PACKET SEQUENCE COUNTER
736 increment_seq_counter_source_id( headerSWF[ i ].packetSequenceControl, sid );
736 increment_seq_counter_source_id( headerSWF[ i ].packetSequenceControl, sid );
737 // SET PACKET TIME
737 // SET PACKET TIME
738 headerSWF[ i ].acquisitionTime[0] = (unsigned char) (time_management_regs->coarse_time>>24);
738 headerSWF[ i ].acquisitionTime[0] = (unsigned char) (time_management_regs->coarse_time>>24);
739 headerSWF[ i ].acquisitionTime[1] = (unsigned char) (time_management_regs->coarse_time>>16);
739 headerSWF[ i ].acquisitionTime[1] = (unsigned char) (time_management_regs->coarse_time>>16);
740 headerSWF[ i ].acquisitionTime[2] = (unsigned char) (time_management_regs->coarse_time>>8);
740 headerSWF[ i ].acquisitionTime[2] = (unsigned char) (time_management_regs->coarse_time>>8);
741 headerSWF[ i ].acquisitionTime[3] = (unsigned char) (time_management_regs->coarse_time);
741 headerSWF[ i ].acquisitionTime[3] = (unsigned char) (time_management_regs->coarse_time);
742 headerSWF[ i ].acquisitionTime[4] = (unsigned char) (time_management_regs->fine_time>>8);
742 headerSWF[ i ].acquisitionTime[4] = (unsigned char) (time_management_regs->fine_time>>8);
743 headerSWF[ i ].acquisitionTime[5] = (unsigned char) (time_management_regs->fine_time);
743 headerSWF[ i ].acquisitionTime[5] = (unsigned char) (time_management_regs->fine_time);
744 headerSWF[ i ].time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
744 headerSWF[ i ].time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
745 headerSWF[ i ].time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
745 headerSWF[ i ].time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
746 headerSWF[ i ].time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
746 headerSWF[ i ].time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
747 headerSWF[ i ].time[3] = (unsigned char) (time_management_regs->coarse_time);
747 headerSWF[ i ].time[3] = (unsigned char) (time_management_regs->coarse_time);
748 headerSWF[ i ].time[4] = (unsigned char) (time_management_regs->fine_time>>8);
748 headerSWF[ i ].time[4] = (unsigned char) (time_management_regs->fine_time>>8);
749 headerSWF[ i ].time[5] = (unsigned char) (time_management_regs->fine_time);
749 headerSWF[ i ].time[5] = (unsigned char) (time_management_regs->fine_time);
750 // SEND PACKET
750 // SEND PACKET
751 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_SWF, ACTION_MSG_SPW_IOCTL_SEND_SIZE);
751 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_SWF, ACTION_MSG_SPW_IOCTL_SEND_SIZE);
752 if (status != RTEMS_SUCCESSFUL) {
752 if (status != RTEMS_SUCCESSFUL) {
753 printf("%d-%d, ERR %d\n", sid, i, (int) status);
753 printf("%d-%d, ERR %d\n", sid, i, (int) status);
754 ret = LFR_DEFAULT;
754 ret = LFR_DEFAULT;
755 }
755 }
756 rtems_task_wake_after(TIME_BETWEEN_TWO_SWF_PACKETS); // 300 ms between each packet => 7 * 3 = 21 packets => 6.3 seconds
756 rtems_task_wake_after(TIME_BETWEEN_TWO_SWF_PACKETS); // 300 ms between each packet => 7 * 3 = 21 packets => 6.3 seconds
757 }
757 }
758
758
759 return ret;
759 return ret;
760 }
760 }
761
761
762 int send_waveform_CWF(volatile int *waveform, unsigned int sid,
762 int send_waveform_CWF(volatile int *waveform, unsigned int sid,
763 Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id)
763 Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id)
764 {
764 {
765 /** This function sends CWF CCSDS packets (F2, F1 or F0).
765 /** This function sends CWF CCSDS packets (F2, F1 or F0).
766 *
766 *
767 * @param waveform points to the buffer containing the data that will be send.
767 * @param waveform points to the buffer containing the data that will be send.
768 * @param sid is the source identifier of the data that will be sent.
768 * @param sid is the source identifier of the data that will be sent.
769 * @param headerCWF points to a table of headers that have been prepared for the data transmission.
769 * @param headerCWF points to a table of headers that have been prepared for the data transmission.
770 * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
770 * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
771 * contain information to setup the transmission of the data packets.
771 * contain information to setup the transmission of the data packets.
772 *
772 *
773 * One group of 2048 samples is sent as 7 consecutive packets, 6 packets containing 340 blocks and 8 packets containing 8 blocks.
773 * One group of 2048 samples is sent as 7 consecutive packets, 6 packets containing 340 blocks and 8 packets containing 8 blocks.
774 *
774 *
775 */
775 */
776
776
777 unsigned int i;
777 unsigned int i;
778 int ret;
778 int ret;
779 rtems_status_code status;
779 rtems_status_code status;
780 spw_ioctl_pkt_send spw_ioctl_send_CWF;
780 spw_ioctl_pkt_send spw_ioctl_send_CWF;
781
781
782 spw_ioctl_send_CWF.hlen = TM_HEADER_LEN + 4 + 10; // + 4 is for the protocole extra header, + 10 is for the auxiliary header
782 spw_ioctl_send_CWF.hlen = TM_HEADER_LEN + 4 + 10; // + 4 is for the protocole extra header, + 10 is for the auxiliary header
783 spw_ioctl_send_CWF.options = 0;
783 spw_ioctl_send_CWF.options = 0;
784
784
785 ret = LFR_DEFAULT;
785 ret = LFR_DEFAULT;
786
786
787 for (i=0; i<7; i++) // send waveform
787 for (i=0; i<7; i++) // send waveform
788 {
788 {
789 int coarseTime = 0x00;
789 int coarseTime = 0x00;
790 int fineTime = 0x00;
790 int fineTime = 0x00;
791 spw_ioctl_send_CWF.data = (char*) &waveform[ (i * 340 * NB_WORDS_SWF_BLK) ];
791 spw_ioctl_send_CWF.data = (char*) &waveform[ (i * 340 * NB_WORDS_SWF_BLK) ];
792 spw_ioctl_send_CWF.hdr = (char*) &headerCWF[ i ];
792 spw_ioctl_send_CWF.hdr = (char*) &headerCWF[ i ];
793 // BUILD THE DATA
793 // BUILD THE DATA
794 if (i==6) {
794 if (i==6) {
795 spw_ioctl_send_CWF.dlen = 8 * NB_BYTES_SWF_BLK;
795 spw_ioctl_send_CWF.dlen = 8 * NB_BYTES_SWF_BLK;
796 }
796 }
797 else {
797 else {
798 spw_ioctl_send_CWF.dlen = 340 * NB_BYTES_SWF_BLK;
798 spw_ioctl_send_CWF.dlen = 340 * NB_BYTES_SWF_BLK;
799 }
799 }
800 // SET PACKET SEQUENCE COUNTER
800 // SET PACKET SEQUENCE COUNTER
801 increment_seq_counter_source_id( headerCWF[ i ].packetSequenceControl, sid );
801 increment_seq_counter_source_id( headerCWF[ i ].packetSequenceControl, sid );
802 // SET PACKET TIME
802 // SET PACKET TIME
803 coarseTime = time_management_regs->coarse_time;
803 coarseTime = time_management_regs->coarse_time;
804 fineTime = time_management_regs->fine_time;
804 fineTime = time_management_regs->fine_time;
805 headerCWF[ i ].acquisitionTime[0] = (unsigned char) (coarseTime>>24);
805 headerCWF[ i ].acquisitionTime[0] = (unsigned char) (coarseTime>>24);
806 headerCWF[ i ].acquisitionTime[1] = (unsigned char) (coarseTime>>16);
806 headerCWF[ i ].acquisitionTime[1] = (unsigned char) (coarseTime>>16);
807 headerCWF[ i ].acquisitionTime[2] = (unsigned char) (coarseTime>>8);
807 headerCWF[ i ].acquisitionTime[2] = (unsigned char) (coarseTime>>8);
808 headerCWF[ i ].acquisitionTime[3] = (unsigned char) (coarseTime);
808 headerCWF[ i ].acquisitionTime[3] = (unsigned char) (coarseTime);
809 headerCWF[ i ].acquisitionTime[4] = (unsigned char) (fineTime>>8);
809 headerCWF[ i ].acquisitionTime[4] = (unsigned char) (fineTime>>8);
810 headerCWF[ i ].acquisitionTime[5] = (unsigned char) (fineTime);
810 headerCWF[ i ].acquisitionTime[5] = (unsigned char) (fineTime);
811 headerCWF[ i ].time[0] = (unsigned char) (coarseTime>>24);
811 headerCWF[ i ].time[0] = (unsigned char) (coarseTime>>24);
812 headerCWF[ i ].time[1] = (unsigned char) (coarseTime>>16);
812 headerCWF[ i ].time[1] = (unsigned char) (coarseTime>>16);
813 headerCWF[ i ].time[2] = (unsigned char) (coarseTime>>8);
813 headerCWF[ i ].time[2] = (unsigned char) (coarseTime>>8);
814 headerCWF[ i ].time[3] = (unsigned char) (coarseTime);
814 headerCWF[ i ].time[3] = (unsigned char) (coarseTime);
815 headerCWF[ i ].time[4] = (unsigned char) (fineTime>>8);
815 headerCWF[ i ].time[4] = (unsigned char) (fineTime>>8);
816 headerCWF[ i ].time[5] = (unsigned char) (fineTime);
816 headerCWF[ i ].time[5] = (unsigned char) (fineTime);
817 // SEND PACKET
817 // SEND PACKET
818 if (sid == SID_NORM_CWF_F3)
818 if (sid == SID_NORM_CWF_F3)
819 {
819 {
820 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
820 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
821 if (status != RTEMS_SUCCESSFUL) {
821 if (status != RTEMS_SUCCESSFUL) {
822 printf("%d-%d, ERR %d\n", sid, i, (int) status);
822 printf("%d-%d, ERR %d\n", sid, i, (int) status);
823 ret = LFR_DEFAULT;
823 ret = LFR_DEFAULT;
824 }
824 }
825 rtems_task_wake_after(TIME_BETWEEN_TWO_CWF3_PACKETS);
825 rtems_task_wake_after(TIME_BETWEEN_TWO_CWF3_PACKETS);
826 }
826 }
827 else
827 else
828 {
828 {
829 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
829 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
830 if (status != RTEMS_SUCCESSFUL) {
830 if (status != RTEMS_SUCCESSFUL) {
831 printf("%d-%d, ERR %d\n", sid, i, (int) status);
831 printf("%d-%d, ERR %d\n", sid, i, (int) status);
832 ret = LFR_DEFAULT;
832 ret = LFR_DEFAULT;
833 }
833 }
834 }
834 }
835 }
835 }
836
836
837 return ret;
837 return ret;
838 }
838 }
839
839
840 int send_waveform_CWF3_light(volatile int *waveform, Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id)
840 int send_waveform_CWF3_light(volatile int *waveform, Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id)
841 {
841 {
842 /** This function sends CWF_F3 CCSDS packets without the b1, b2 and b3 data.
842 /** This function sends CWF_F3 CCSDS packets without the b1, b2 and b3 data.
843 *
843 *
844 * @param waveform points to the buffer containing the data that will be send.
844 * @param waveform points to the buffer containing the data that will be send.
845 * @param headerCWF points to a table of headers that have been prepared for the data transmission.
845 * @param headerCWF points to a table of headers that have been prepared for the data transmission.
846 * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
846 * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
847 * contain information to setup the transmission of the data packets.
847 * contain information to setup the transmission of the data packets.
848 *
848 *
849 * By default, CWF_F3 packet are send without the b1, b2 and b3 data. This function rebuilds a data buffer
849 * By default, CWF_F3 packet are send without the b1, b2 and b3 data. This function rebuilds a data buffer
850 * from the incoming data and sends it in 7 packets, 6 containing 340 blocks and 1 one containing 8 blocks.
850 * from the incoming data and sends it in 7 packets, 6 containing 340 blocks and 1 one containing 8 blocks.
851 *
851 *
852 */
852 */
853
853
854 unsigned int i;
854 unsigned int i;
855 int ret;
855 int ret;
856 rtems_status_code status;
856 rtems_status_code status;
857 spw_ioctl_pkt_send spw_ioctl_send_CWF;
857 spw_ioctl_pkt_send spw_ioctl_send_CWF;
858 char *sample;
858 char *sample;
859
859
860 spw_ioctl_send_CWF.hlen = TM_HEADER_LEN + 4 + 10; // + 4 is for the protocole extra header, + 10 is for the auxiliary header
860 spw_ioctl_send_CWF.hlen = TM_HEADER_LEN + 4 + 10; // + 4 is for the protocole extra header, + 10 is for the auxiliary header
861 spw_ioctl_send_CWF.options = 0;
861 spw_ioctl_send_CWF.options = 0;
862
862
863 ret = LFR_DEFAULT;
863 ret = LFR_DEFAULT;
864
864
865 //**********************
865 //**********************
866 // BUILD CWF3_light DATA
866 // BUILD CWF3_light DATA
867 for ( i=0; i< 2048; i++)
867 for ( i=0; i< 2048; i++)
868 {
868 {
869 sample = (char*) &waveform[ i * NB_WORDS_SWF_BLK ];
869 sample = (char*) &waveform[ i * NB_WORDS_SWF_BLK ];
870 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) ] = sample[ 0 ];
870 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) ] = sample[ 0 ];
871 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 1 ] = sample[ 1 ];
871 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 1 ] = sample[ 1 ];
872 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 2 ] = sample[ 2 ];
872 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 2 ] = sample[ 2 ];
873 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 3 ] = sample[ 3 ];
873 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 3 ] = sample[ 3 ];
874 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 4 ] = sample[ 4 ];
874 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 4 ] = sample[ 4 ];
875 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 5 ] = sample[ 5 ];
875 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 5 ] = sample[ 5 ];
876 }
876 }
877
877
878 //*********************
878 //*********************
879 // SEND CWF3_light DATA
879 // SEND CWF3_light DATA
880
880
881 for (i=0; i<7; i++) // send waveform
881 for (i=0; i<7; i++) // send waveform
882 {
882 {
883 int coarseTime = 0x00;
883 int coarseTime = 0x00;
884 int fineTime = 0x00;
884 int fineTime = 0x00;
885 spw_ioctl_send_CWF.data = (char*) &wf_cont_f3_light[ (i * 340 * NB_BYTES_CWF3_LIGHT_BLK) ];
885 spw_ioctl_send_CWF.data = (char*) &wf_cont_f3_light[ (i * 340 * NB_BYTES_CWF3_LIGHT_BLK) ];
886 spw_ioctl_send_CWF.hdr = (char*) &headerCWF[ i ];
886 spw_ioctl_send_CWF.hdr = (char*) &headerCWF[ i ];
887 // BUILD THE DATA
887 // BUILD THE DATA
888 if ( i == WFRM_INDEX_OF_LAST_PACKET ) {
888 if ( i == WFRM_INDEX_OF_LAST_PACKET ) {
889 spw_ioctl_send_CWF.dlen = 8 * NB_BYTES_CWF3_LIGHT_BLK;
889 spw_ioctl_send_CWF.dlen = 8 * NB_BYTES_CWF3_LIGHT_BLK;
890 }
890 }
891 else {
891 else {
892 spw_ioctl_send_CWF.dlen = 340 * NB_BYTES_CWF3_LIGHT_BLK;
892 spw_ioctl_send_CWF.dlen = 340 * NB_BYTES_CWF3_LIGHT_BLK;
893 }
893 }
894 // SET PACKET SEQUENCE COUNTER
894 // SET PACKET SEQUENCE COUNTER
895 increment_seq_counter_source_id( headerCWF[ i ].packetSequenceControl, SID_NORM_CWF_F3 );
895 increment_seq_counter_source_id( headerCWF[ i ].packetSequenceControl, SID_NORM_CWF_F3 );
896 // SET PACKET TIME
896 // SET PACKET TIME
897 coarseTime = time_management_regs->coarse_time;
897 coarseTime = time_management_regs->coarse_time;
898 fineTime = time_management_regs->fine_time;
898 fineTime = time_management_regs->fine_time;
899 headerCWF[ i ].acquisitionTime[0] = (unsigned char) (coarseTime>>24);
899 headerCWF[ i ].acquisitionTime[0] = (unsigned char) (coarseTime>>24);
900 headerCWF[ i ].acquisitionTime[1] = (unsigned char) (coarseTime>>16);
900 headerCWF[ i ].acquisitionTime[1] = (unsigned char) (coarseTime>>16);
901 headerCWF[ i ].acquisitionTime[2] = (unsigned char) (coarseTime>>8);
901 headerCWF[ i ].acquisitionTime[2] = (unsigned char) (coarseTime>>8);
902 headerCWF[ i ].acquisitionTime[3] = (unsigned char) (coarseTime);
902 headerCWF[ i ].acquisitionTime[3] = (unsigned char) (coarseTime);
903 headerCWF[ i ].acquisitionTime[4] = (unsigned char) (fineTime>>8);
903 headerCWF[ i ].acquisitionTime[4] = (unsigned char) (fineTime>>8);
904 headerCWF[ i ].acquisitionTime[5] = (unsigned char) (fineTime);
904 headerCWF[ i ].acquisitionTime[5] = (unsigned char) (fineTime);
905 headerCWF[ i ].time[0] = (unsigned char) (coarseTime>>24);
905 headerCWF[ i ].time[0] = (unsigned char) (coarseTime>>24);
906 headerCWF[ i ].time[1] = (unsigned char) (coarseTime>>16);
906 headerCWF[ i ].time[1] = (unsigned char) (coarseTime>>16);
907 headerCWF[ i ].time[2] = (unsigned char) (coarseTime>>8);
907 headerCWF[ i ].time[2] = (unsigned char) (coarseTime>>8);
908 headerCWF[ i ].time[3] = (unsigned char) (coarseTime);
908 headerCWF[ i ].time[3] = (unsigned char) (coarseTime);
909 headerCWF[ i ].time[4] = (unsigned char) (fineTime>>8);
909 headerCWF[ i ].time[4] = (unsigned char) (fineTime>>8);
910 headerCWF[ i ].time[5] = (unsigned char) (fineTime);
910 headerCWF[ i ].time[5] = (unsigned char) (fineTime);
911 // SEND PACKET
911 // SEND PACKET
912 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
912 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
913 if (status != RTEMS_SUCCESSFUL) {
913 if (status != RTEMS_SUCCESSFUL) {
914 printf("%d-%d, ERR %d\n", SID_NORM_CWF_F3, i, (int) status);
914 printf("%d-%d, ERR %d\n", SID_NORM_CWF_F3, i, (int) status);
915 ret = LFR_DEFAULT;
915 ret = LFR_DEFAULT;
916 }
916 }
917 rtems_task_wake_after(TIME_BETWEEN_TWO_CWF3_PACKETS);
917 rtems_task_wake_after(TIME_BETWEEN_TWO_CWF3_PACKETS);
918 }
918 }
919
919
920 return ret;
920 return ret;
921 }
921 }
922
922
923
923
924 //**************
924 //**************
925 // wfp registers
925 // wfp registers
926 void set_wfp_data_shaping()
926 void set_wfp_data_shaping()
927 {
927 {
928 /** This function sets the data_shaping register of the waveform picker module.
928 /** This function sets the data_shaping register of the waveform picker module.
929 *
929 *
930 * The value is read from one field of the parameter_dump_packet structure:\n
930 * The value is read from one field of the parameter_dump_packet structure:\n
931 * bw_sp0_sp1_r0_r1
931 * bw_sp0_sp1_r0_r1
932 *
932 *
933 */
933 */
934
934
935 unsigned char data_shaping;
935 unsigned char data_shaping;
936
936
937 // get the parameters for the data shaping [BW SP0 SP1 R0 R1] in sy_lfr_common1 and configure the register
937 // get the parameters for the data shaping [BW SP0 SP1 R0 R1] in sy_lfr_common1 and configure the register
938 // waveform picker : [R1 R0 SP1 SP0 BW]
938 // waveform picker : [R1 R0 SP1 SP0 BW]
939
939
940 data_shaping = parameter_dump_packet.bw_sp0_sp1_r0_r1;
940 data_shaping = parameter_dump_packet.bw_sp0_sp1_r0_r1;
941
941
942 #ifdef GSA
942 #ifdef GSA
943 #else
943 #else
944 waveform_picker_regs->data_shaping =
944 waveform_picker_regs->data_shaping =
945 ( (data_shaping & 0x10) >> 4 ) // BW
945 ( (data_shaping & 0x10) >> 4 ) // BW
946 + ( (data_shaping & 0x08) >> 2 ) // SP0
946 + ( (data_shaping & 0x08) >> 2 ) // SP0
947 + ( (data_shaping & 0x04) ) // SP1
947 + ( (data_shaping & 0x04) ) // SP1
948 + ( (data_shaping & 0x02) << 2 ) // R0
948 + ( (data_shaping & 0x02) << 2 ) // R0
949 + ( (data_shaping & 0x01) << 4 ); // R1
949 + ( (data_shaping & 0x01) << 4 ); // R1
950 #endif
950 #endif
951 }
951 }
952
952
953 char set_wfp_delta_snapshot()
953 char set_wfp_delta_snapshot()
954 {
954 {
955 /** This function sets the delta_snapshot register of the waveform picker module.
955 /** This function sets the delta_snapshot register of the waveform picker module.
956 *
956 *
957 * The value is read from two (unsigned char) of the parameter_dump_packet structure:
957 * The value is read from two (unsigned char) of the parameter_dump_packet structure:
958 * - sy_lfr_n_swf_p[0]
958 * - sy_lfr_n_swf_p[0]
959 * - sy_lfr_n_swf_p[1]
959 * - sy_lfr_n_swf_p[1]
960 *
960 *
961 */
961 */
962
962
963 char ret;
963 char ret;
964 unsigned int delta_snapshot;
964 unsigned int delta_snapshot;
965 unsigned int aux;
965 unsigned int aux;
966
966
967 aux = 0;
967 aux = 0;
968 ret = LFR_DEFAULT;
968 ret = LFR_DEFAULT;
969
969
970 delta_snapshot = parameter_dump_packet.sy_lfr_n_swf_p[0]*256
970 delta_snapshot = parameter_dump_packet.sy_lfr_n_swf_p[0]*256
971 + parameter_dump_packet.sy_lfr_n_swf_p[1];
971 + parameter_dump_packet.sy_lfr_n_swf_p[1];
972
972
973 #ifdef GSA
973 #ifdef GSA
974 #else
974 #else
975 if ( delta_snapshot < MIN_DELTA_SNAPSHOT )
975 if ( delta_snapshot < MIN_DELTA_SNAPSHOT )
976 {
976 {
977 aux = MIN_DELTA_SNAPSHOT;
977 aux = MIN_DELTA_SNAPSHOT;
978 ret = LFR_DEFAULT;
978 ret = LFR_DEFAULT;
979 }
979 }
980 else
980 else
981 {
981 {
982 aux = delta_snapshot ;
982 aux = delta_snapshot ;
983 ret = LFR_SUCCESSFUL;
983 ret = LFR_SUCCESSFUL;
984 }
984 }
985 waveform_picker_regs->delta_snapshot = aux - 1; // max 2 bytes
985 waveform_picker_regs->delta_snapshot = aux - 1; // max 2 bytes
986 #endif
986 #endif
987
987
988 return ret;
988 return ret;
989 }
989 }
990
990
991 void set_wfp_burst_enable_register( unsigned char mode)
991 void set_wfp_burst_enable_register( unsigned char mode)
992 {
992 {
993 /** This function sets the waveform picker burst_enable register depending on the mode.
993 /** This function sets the waveform picker burst_enable register depending on the mode.
994 *
994 *
995 * @param mode is the LFR mode to launch.
995 * @param mode is the LFR mode to launch.
996 *
996 *
997 * The burst bits shall be before the enable bits.
997 * The burst bits shall be before the enable bits.
998 *
998 *
999 */
999 */
1000
1000
1001 #ifdef GSA
1001 #ifdef GSA
1002 #else
1002 #else
1003 // [0000 0000] burst f2, f1, f0 enable f3 f2 f1 f0
1003 // [0000 0000] burst f2, f1, f0 enable f3 f2 f1 f0
1004 // the burst bits shall be set first, before the enable bits
1004 // the burst bits shall be set first, before the enable bits
1005 switch(mode) {
1005 switch(mode) {
1006 case(LFR_MODE_NORMAL):
1006 case(LFR_MODE_NORMAL):
1007 waveform_picker_regs->burst_enable = 0x00; // [0000 0000] no burst enable
1007 waveform_picker_regs->burst_enable = 0x00; // [0000 0000] no burst enable
1008 waveform_picker_regs->burst_enable = 0x0f; // [0000 1111] enable f3 f2 f1 f0
1008 waveform_picker_regs->burst_enable = 0x0f; // [0000 1111] enable f3 f2 f1 f0
1009 break;
1009 break;
1010 case(LFR_MODE_BURST):
1010 case(LFR_MODE_BURST):
1011 waveform_picker_regs->burst_enable = 0x40; // [0100 0000] f2 burst enabled
1011 waveform_picker_regs->burst_enable = 0x40; // [0100 0000] f2 burst enabled
1012 waveform_picker_regs->burst_enable = waveform_picker_regs->burst_enable | 0x04; // [0100] enable f2
1012 waveform_picker_regs->burst_enable = waveform_picker_regs->burst_enable | 0x04; // [0100] enable f2
1013 break;
1013 break;
1014 case(LFR_MODE_SBM1):
1014 case(LFR_MODE_SBM1):
1015 waveform_picker_regs->burst_enable = 0x20; // [0010 0000] f1 burst enabled
1015 waveform_picker_regs->burst_enable = 0x20; // [0010 0000] f1 burst enabled
1016 waveform_picker_regs->burst_enable = waveform_picker_regs->burst_enable | 0x0f; // [1111] enable f3 f2 f1 f0
1016 waveform_picker_regs->burst_enable = waveform_picker_regs->burst_enable | 0x0f; // [1111] enable f3 f2 f1 f0
1017 break;
1017 break;
1018 case(LFR_MODE_SBM2):
1018 case(LFR_MODE_SBM2):
1019 waveform_picker_regs->burst_enable = 0x40; // [0100 0000] f2 burst enabled
1019 waveform_picker_regs->burst_enable = 0x40; // [0100 0000] f2 burst enabled
1020 waveform_picker_regs->burst_enable = waveform_picker_regs->burst_enable | 0x0f; // [1111] enable f3 f2 f1 f0
1020 waveform_picker_regs->burst_enable = waveform_picker_regs->burst_enable | 0x0f; // [1111] enable f3 f2 f1 f0
1021 break;
1021 break;
1022 default:
1022 default:
1023 waveform_picker_regs->burst_enable = 0x00; // [0000 0000] no burst enabled, no waveform enabled
1023 waveform_picker_regs->burst_enable = 0x00; // [0000 0000] no burst enabled, no waveform enabled
1024 break;
1024 break;
1025 }
1025 }
1026 #endif
1026 #endif
1027 }
1027 }
1028
1028
1029 void reset_wfp_burst_enable()
1029 void reset_wfp_burst_enable()
1030 {
1030 {
1031 /** This function resets the waveform picker burst_enable register.
1031 /** This function resets the waveform picker burst_enable register.
1032 *
1032 *
1033 * The burst bits [f2 f1 f0] and the enable bits [f3 f2 f1 f0] are set to 0.
1033 * The burst bits [f2 f1 f0] and the enable bits [f3 f2 f1 f0] are set to 0.
1034 *
1034 *
1035 */
1035 */
1036
1036
1037 #ifdef GSA
1037 #ifdef GSA
1038 #else
1038 #else
1039 waveform_picker_regs->burst_enable = 0x00; // burst f2, f1, f0 enable f3, f2, f1, f0
1039 waveform_picker_regs->burst_enable = 0x00; // burst f2, f1, f0 enable f3, f2, f1, f0
1040 #endif
1040 #endif
1041 }
1041 }
1042
1042
1043 void reset_wfp_status()
1043 void reset_wfp_status()
1044 {
1044 {
1045 /** This function resets the waveform picker status register.
1045 /** This function resets the waveform picker status register.
1046 *
1046 *
1047 * All status bits are set to 0 [new_err full_err full].
1047 * All status bits are set to 0 [new_err full_err full].
1048 *
1048 *
1049 */
1049 */
1050
1050
1051 #ifdef GSA
1051 #ifdef GSA
1052 #else
1052 #else
1053 waveform_picker_regs->status = 0x00; // burst f2, f1, f0 enable f3, f2, f1, f0
1053 waveform_picker_regs->status = 0x00; // burst f2, f1, f0 enable f3, f2, f1, f0
1054 #endif
1054 #endif
1055 }
1055 }
1056
1056
1057 void reset_waveform_picker_regs()
1057 void reset_waveform_picker_regs()
1058 {
1058 {
1059 /** This function resets the waveform picker module registers.
1059 /** This function resets the waveform picker module registers.
1060 *
1060 *
1061 * The registers affected by this function are located at the following offset addresses:
1061 * The registers affected by this function are located at the following offset addresses:
1062 * - 0x00 data_shaping
1062 * - 0x00 data_shaping
1063 * - 0x04 burst_enable
1063 * - 0x04 burst_enable
1064 * - 0x08 addr_data_f0
1064 * - 0x08 addr_data_f0
1065 * - 0x0C addr_data_f1
1065 * - 0x0C addr_data_f1
1066 * - 0x10 addr_data_f2
1066 * - 0x10 addr_data_f2
1067 * - 0x14 addr_data_f3
1067 * - 0x14 addr_data_f3
1068 * - 0x18 status
1068 * - 0x18 status
1069 * - 0x1C delta_snapshot
1069 * - 0x1C delta_snapshot
1070 * - 0x20 delta_f2_f1
1070 * - 0x20 delta_f2_f1
1071 * - 0x24 delta_f2_f0
1071 * - 0x24 delta_f2_f0
1072 * - 0x28 nb_burst
1072 * - 0x28 nb_burst
1073 * - 0x2C nb_snapshot
1073 * - 0x2C nb_snapshot
1074 *
1074 *
1075 */
1075 */
1076
1076
1077 #ifdef GSA
1077 #ifdef GSA
1078 #else
1078 #else
1079 reset_wfp_burst_enable();
1079 reset_wfp_burst_enable();
1080 reset_wfp_status();
1080 reset_wfp_status();
1081 // set buffer addresses
1081 // set buffer addresses
1082 waveform_picker_regs->addr_data_f0 = (int) (wf_snap_f0); //
1082 waveform_picker_regs->addr_data_f0 = (int) (wf_snap_f0); //
1083 waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1); //
1083 waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1); //
1084 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2); //
1084 waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2); //
1085 waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3); //
1085 waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3); //
1086 // set other parameters
1086 // set other parameters
1087 set_wfp_data_shaping();
1087 set_wfp_data_shaping();
1088 set_wfp_delta_snapshot(); // time in seconds between two snapshots
1088 set_wfp_delta_snapshot(); // time in seconds between two snapshots
1089 waveform_picker_regs->delta_f2_f1 = 0xffff; // 0x16800 => 92160 (max 4 bytes)
1089 waveform_picker_regs->delta_f2_f1 = 0xffff; // 0x16800 => 92160 (max 4 bytes)
1090 waveform_picker_regs->delta_f2_f0 = 0x17c00; // 97 280 (max 5 bytes)
1090 waveform_picker_regs->delta_f2_f0 = 0x17c00; // 97 280 (max 5 bytes)
1091 waveform_picker_regs->nb_burst_available = 0x180; // max 3 bytes, size of the buffer in burst (1 burst = 16 x 4 octets)
1091 waveform_picker_regs->nb_burst_available = 0x180; // max 3 bytes, size of the buffer in burst (1 burst = 16 x 4 octets)
1092 waveform_picker_regs->nb_snapshot_param = 0x7ff; // max 3 octets, 2048 - 1
1092 waveform_picker_regs->nb_snapshot_param = 0x7ff; // max 3 octets, 2048 - 1
1093 #endif
1093 #endif
1094 }
1094 }
1095
1095
1096 //*****************
1096 //*****************
1097 // local parameters
1097 // local parameters
1098 void set_local_sbm1_nb_cwf_max()
1098 void set_local_sbm1_nb_cwf_max( void )
1099 {
1099 {
1100 /** This function sets the value of the sbm1_nb_cwf_max local parameter.
1100 /** This function sets the value of the sbm1_nb_cwf_max local parameter.
1101 *
1101 *
1102 * The sbm1_nb_cwf_max parameter counts the number of CWF_F1 records that have been sent.\n
1102 * The sbm1_nb_cwf_max parameter counts the number of CWF_F1 records that have been sent.\n
1103 * This parameter is used to send CWF_F1 data as normal data when the SBM1 is active.\n\n
1103 * This parameter is used to send CWF_F1 data as normal data when the SBM1 is active.\n\n
1104 * (2 snapshots of 2048 points per seconds) * (period of the NORM snashots) - 8 s (duration of the f2 snapshot)
1104 * (2 snapshots of 2048 points per seconds) * (period of the NORM snashots) - 8 s (duration of the f2 snapshot)
1105 *
1105 *
1106 */
1106 */
1107 param_local.local_sbm1_nb_cwf_max = 2 *
1107 param_local.local_sbm1_nb_cwf_max = 2 *
1108 (parameter_dump_packet.sy_lfr_n_swf_p[0] * 256
1108 (parameter_dump_packet.sy_lfr_n_swf_p[0] * 256
1109 + parameter_dump_packet.sy_lfr_n_swf_p[1]) - 8; // 16 CWF1 parts during 1 SWF2
1109 + parameter_dump_packet.sy_lfr_n_swf_p[1]) - 8; // 16 CWF1 parts during 1 SWF2
1110 }
1110 }
1111
1111
1112 void set_local_sbm2_nb_cwf_max()
1112 void set_local_sbm2_nb_cwf_max(void)
1113 {
1113 {
1114 /** This function sets the value of the sbm1_nb_cwf_max local parameter.
1114 /** This function sets the value of the sbm1_nb_cwf_max local parameter.
1115 *
1115 *
1116 * The sbm1_nb_cwf_max parameter counts the number of CWF_F1 records that have been sent.\n
1116 * The sbm1_nb_cwf_max parameter counts the number of CWF_F1 records that have been sent.\n
1117 * This parameter is used to send CWF_F2 data as normal data when the SBM2 is active.\n\n
1117 * This parameter is used to send CWF_F2 data as normal data when the SBM2 is active.\n\n
1118 * (period of the NORM snashots) / (8 seconds per snapshot at f2 = 256 Hz)
1118 * (period of the NORM snashots) / (8 seconds per snapshot at f2 = 256 Hz)
1119 *
1119 *
1120 */
1120 */
1121
1121
1122 param_local.local_sbm2_nb_cwf_max = (parameter_dump_packet.sy_lfr_n_swf_p[0] * 256
1122 param_local.local_sbm2_nb_cwf_max = (parameter_dump_packet.sy_lfr_n_swf_p[0] * 256
1123 + parameter_dump_packet.sy_lfr_n_swf_p[1]) / 8;
1123 + parameter_dump_packet.sy_lfr_n_swf_p[1]) / 8;
1124 }
1124 }
1125
1125
1126 void set_local_nb_interrupt_f0_MAX()
1126 void set_local_nb_interrupt_f0_MAX( void )
1127 {
1127 {
1128 /** This function sets the value of the nb_interrupt_f0_MAX local parameter.
1128 /** This function sets the value of the nb_interrupt_f0_MAX local parameter.
1129 *
1129 *
1130 * This parameter is used for the SM validation only.\n
1130 * This parameter is used for the SM validation only.\n
1131 * The software waits param_local.local_nb_interrupt_f0_MAX interruptions from the spectral matrices
1131 * The software waits param_local.local_nb_interrupt_f0_MAX interruptions from the spectral matrices
1132 * module before launching a basic processing.
1132 * module before launching a basic processing.
1133 *
1133 *
1134 */
1134 */
1135
1135
1136 param_local.local_nb_interrupt_f0_MAX = ( (parameter_dump_packet.sy_lfr_n_asm_p[0]) * 256
1136 param_local.local_nb_interrupt_f0_MAX = ( (parameter_dump_packet.sy_lfr_n_asm_p[0]) * 256
1137 + parameter_dump_packet.sy_lfr_n_asm_p[1] ) * 100;
1137 + parameter_dump_packet.sy_lfr_n_asm_p[1] ) * 100;
1138 }
1138 }
1139
1139
1140 void reset_local_sbm1_nb_cwf_sent()
1140 void reset_local_sbm1_nb_cwf_sent( void )
1141 {
1141 {
1142 /** This function resets the value of the sbm1_nb_cwf_sent local parameter.
1142 /** This function resets the value of the sbm1_nb_cwf_sent local parameter.
1143 *
1143 *
1144 * The sbm1_nb_cwf_sent parameter counts the number of CWF_F1 records that have been sent.\n
1144 * The sbm1_nb_cwf_sent parameter counts the number of CWF_F1 records that have been sent.\n
1145 * This parameter is used to send CWF_F1 data as normal data when the SBM1 is active.
1145 * This parameter is used to send CWF_F1 data as normal data when the SBM1 is active.
1146 *
1146 *
1147 */
1147 */
1148
1148
1149 param_local.local_sbm1_nb_cwf_sent = 0;
1149 param_local.local_sbm1_nb_cwf_sent = 0;
1150 }
1150 }
1151
1151
1152 void reset_local_sbm2_nb_cwf_sent()
1152 void reset_local_sbm2_nb_cwf_sent( void )
1153 {
1153 {
1154 /** This function resets the value of the sbm2_nb_cwf_sent local parameter.
1154 /** This function resets the value of the sbm2_nb_cwf_sent local parameter.
1155 *
1155 *
1156 * The sbm2_nb_cwf_sent parameter counts the number of CWF_F2 records that have been sent.\n
1156 * The sbm2_nb_cwf_sent parameter counts the number of CWF_F2 records that have been sent.\n
1157 * This parameter is used to send CWF_F2 data as normal data when the SBM2 mode is active.
1157 * This parameter is used to send CWF_F2 data as normal data when the SBM2 mode is active.
1158 *
1158 *
1159 */
1159 */
1160
1160
1161 param_local.local_sbm2_nb_cwf_sent = 0;
1161 param_local.local_sbm2_nb_cwf_sent = 0;
1162 }
1162 }
1163
1163
1164 rtems_id get_pkts_queue_id( void )
1164 rtems_id get_pkts_queue_id( void )
1165 {
1165 {
1166 rtems_id queue_id;
1166 rtems_id queue_id;
1167 rtems_status_code status;
1167 rtems_status_code status;
1168 rtems_name queue_send_name;
1168 rtems_name queue_send_name;
1169
1169
1170 queue_send_name = rtems_build_name( 'Q', '_', 'S', 'D' );
1170 queue_send_name = rtems_build_name( 'Q', '_', 'S', 'D' );
1171
1171
1172 status = rtems_message_queue_ident( queue_send_name, 0, &queue_id );
1172 status = rtems_message_queue_ident( queue_send_name, 0, &queue_id );
1173 if (status != RTEMS_SUCCESSFUL)
1173 if (status != RTEMS_SUCCESSFUL)
1174 {
1174 {
1175 PRINTF1("in get_pkts_queue_id *** ERR %d\n", status)
1175 PRINTF1("in get_pkts_queue_id *** ERR %d\n", status)
1176 }
1176 }
1177 return queue_id;
1177 return queue_id;
1178 }
1178 }
1179
1179
1180 void increment_seq_counter_source_id( unsigned char *packet_sequence_control, unsigned int sid )
1180 void increment_seq_counter_source_id( unsigned char *packet_sequence_control, unsigned int sid )
1181 {
1181 {
1182 unsigned short *sequence_cnt;
1182 unsigned short *sequence_cnt;
1183 unsigned short segmentation_grouping_flag;
1183 unsigned short segmentation_grouping_flag;
1184 unsigned short new_packet_sequence_control;
1184 unsigned short new_packet_sequence_control;
1185
1185
1186 if ( (sid ==SID_NORM_SWF_F0) || (sid ==SID_NORM_SWF_F1) || (sid ==SID_NORM_SWF_F2)
1186 if ( (sid ==SID_NORM_SWF_F0) || (sid ==SID_NORM_SWF_F1) || (sid ==SID_NORM_SWF_F2)
1187 || (sid ==SID_NORM_CWF_F3) || (sid ==SID_BURST_CWF_F2) )
1187 || (sid ==SID_NORM_CWF_F3) || (sid ==SID_BURST_CWF_F2) )
1188 {
1188 {
1189 sequence_cnt = &sequenceCounters_SCIENCE_NORMAL_BURST;
1189 sequence_cnt = &sequenceCounters_SCIENCE_NORMAL_BURST;
1190 }
1190 }
1191 else if ( (sid ==SID_SBM1_CWF_F1) || (sid ==SID_SBM2_CWF_F2) )
1191 else if ( (sid ==SID_SBM1_CWF_F1) || (sid ==SID_SBM2_CWF_F2) )
1192 {
1192 {
1193 sequence_cnt = &sequenceCounters_SCIENCE_SBM1_SBM2;
1193 sequence_cnt = &sequenceCounters_SCIENCE_SBM1_SBM2;
1194 }
1194 }
1195 else
1195 else
1196 {
1196 {
1197 sequence_cnt = &sequenceCounters_TC_EXE[ UNKNOWN ];
1197 sequence_cnt = &sequenceCounters_TC_EXE[ UNKNOWN ];
1198 PRINTF1("in increment_seq_counter_source_id *** ERR apid_destid %d not known\n", sid)
1198 PRINTF1("in increment_seq_counter_source_id *** ERR apid_destid %d not known\n", sid)
1199 }
1199 }
1200
1200
1201 segmentation_grouping_flag = (packet_sequence_control[ 0 ] & 0xc0) << 8;
1201 segmentation_grouping_flag = (packet_sequence_control[ 0 ] & 0xc0) << 8;
1202 *sequence_cnt = (*sequence_cnt) & 0x3fff;
1202 *sequence_cnt = (*sequence_cnt) & 0x3fff;
1203
1203
1204 new_packet_sequence_control = segmentation_grouping_flag | *sequence_cnt ;
1204 new_packet_sequence_control = segmentation_grouping_flag | *sequence_cnt ;
1205
1205
1206 packet_sequence_control[0] = (unsigned char) (new_packet_sequence_control >> 8);
1206 packet_sequence_control[0] = (unsigned char) (new_packet_sequence_control >> 8);
1207 packet_sequence_control[1] = (unsigned char) (new_packet_sequence_control );
1207 packet_sequence_control[1] = (unsigned char) (new_packet_sequence_control );
1208
1208
1209 // increment the seuqence counter for the next packet
1209 // increment the seuqence counter for the next packet
1210 if ( *sequence_cnt < SEQ_CNT_MAX)
1210 if ( *sequence_cnt < SEQ_CNT_MAX)
1211 {
1211 {
1212 *sequence_cnt = *sequence_cnt + 1;
1212 *sequence_cnt = *sequence_cnt + 1;
1213 }
1213 }
1214 else
1214 else
1215 {
1215 {
1216 *sequence_cnt = 0;
1216 *sequence_cnt = 0;
1217 }
1217 }
1218
1218
1219 }
1219 }
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