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A few minor changes to waveforms initialization
paul -
r85:f6eb33574b1e nov2013
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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: Tue Nov 19 13:58:57 2013
3 # Generated by qmake (2.01a) (Qt 4.8.5) on: Fri Nov 22 16:34:14 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=22 -DPRINT_MESSAGES_ON_CONSOLE
13 DEFINES = -DSW_VERSION_N1=0 -DSW_VERSION_N2=0 -DSW_VERSION_N3=0 -DSW_VERSION_N4=22 -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
Show file before | Show file after | Hide comments
@@ -1,305 +1,305
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Show file before | Show file after | Hide comments
@@ -1,1351 +1,1351
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 unsigned char fullRecord;
25 unsigned char fullRecord;
26
26
27 rtems_isr waveforms_isr( rtems_vector_number vector )
27 rtems_isr waveforms_isr( rtems_vector_number vector )
28 {
28 {
29 unsigned int statusReg;
29 unsigned int statusReg;
30
30
31 /** This is the interrupt sub routine called by the waveform picker core.
31 /** This is the interrupt sub routine called by the waveform picker core.
32 *
32 *
33 * This ISR launch different actions depending mainly on two pieces of information:
33 * This ISR launch different actions depending mainly on two pieces of information:
34 * 1. the values read in the registers of the waveform picker.
34 * 1. the values read in the registers of the waveform picker.
35 * 2. the current LFR mode.
35 * 2. the current LFR mode.
36 *
36 *
37 */
37 */
38
38
39 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff00f; // clear new_err and full_err
39 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff00f; // clear new_err and full_err
40
40
41 #ifdef GSA
41 #ifdef GSA
42 #else
42 #else
43 if ( (lfrCurrentMode == LFR_MODE_NORMAL)
43 if ( (lfrCurrentMode == LFR_MODE_NORMAL)
44 || (lfrCurrentMode == LFR_MODE_SBM1) || (lfrCurrentMode == LFR_MODE_SBM2) )
44 || (lfrCurrentMode == LFR_MODE_SBM1) || (lfrCurrentMode == LFR_MODE_SBM2) )
45 { // in modes other than STANDBY and BURST, send the CWF_F3 data
45 { // in modes other than STANDBY and BURST, send the CWF_F3 data
46 if ((new_waveform_picker_regs->status & 0x08) == 0x08){ // [1000] f3 is full
46 if ((new_waveform_picker_regs->status & 0x08) == 0x08){ // [1000] f3 is full
47 // (1) change the receiving buffer for the waveform picker
47 // (1) change the receiving buffer for the waveform picker
48 if (new_waveform_picker_regs->addr_data_f3 == (int) wf_cont_f3) {
48 if (new_waveform_picker_regs->addr_data_f3 == (int) wf_cont_f3) {
49 new_waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3_bis);
49 new_waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3_bis);
50 }
50 }
51 else {
51 else {
52 new_waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3);
52 new_waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3);
53 }
53 }
54 // (2) send an event for the waveforms transmission
54 // (2) send an event for the waveforms transmission
55 if (rtems_event_send( Task_id[TASKID_CWF3], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) {
55 if (rtems_event_send( Task_id[TASKID_CWF3], RTEMS_EVENT_0 ) != RTEMS_SUCCESSFUL) {
56 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
56 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
57 }
57 }
58 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff777; // reset f3 bits to 0, [1111 0111 0111 0111]
58 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff777; // reset f3 bits to 0, [1111 0111 0111 0111]
59 }
59 }
60 }
60 }
61 #endif
61 #endif
62
62
63 switch(lfrCurrentMode)
63 switch(lfrCurrentMode)
64 {
64 {
65 //********
65 //********
66 // STANDBY
66 // STANDBY
67 case(LFR_MODE_STANDBY):
67 case(LFR_MODE_STANDBY):
68 break;
68 break;
69
69
70 //******
70 //******
71 // NORMAL
71 // NORMAL
72 case(LFR_MODE_NORMAL):
72 case(LFR_MODE_NORMAL):
73 #ifdef GSA
73 #ifdef GSA
74 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
74 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
75 #else
75 #else
76 statusReg = new_waveform_picker_regs->status;
76 statusReg = new_waveform_picker_regs->status;
77 fullRecord = fullRecord | ( statusReg & 0x7 );
77 fullRecord = fullRecord | ( statusReg & 0x7 );
78 // if ( (new_waveform_picker_regs->status & 0x7) == 0x7 ){ // f2 f1 and f0 are full
78 // if ( (new_waveform_picker_regs->status & 0x7) == 0x7 ){ // f2 f1 and f0 are full
79 // if ( (new_waveform_picker_regs->status & 0x1) == 0x1 ) // f0 is full
79 // if ( (new_waveform_picker_regs->status & 0x1) == 0x1 ) // f0 is full
80 if ( (new_waveform_picker_regs->status & 0x4) == 0x4 ) // f2 is full
80 if ( (new_waveform_picker_regs->status & 0x4) == 0x4 ) // f2 is full
81 {
81 {
82 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
82 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
83 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
83 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
84 }
84 }
85 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff888;
85 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff888;
86 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff888;
86 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff888;
87 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff888;
87 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff888;
88 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff888;
88 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff888;
89 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff888;
89 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffff888;
90 // if ( (new_waveform_picker_regs->status & 0x1) == 0x1 )
90 // if ( (new_waveform_picker_regs->status & 0x1) == 0x1 )
91 if ( (new_waveform_picker_regs->status & 0x4) == 0x4 ) // f2 is full
91 if ( (new_waveform_picker_regs->status & 0x4) == 0x4 ) // f2 is full
92 {
92 {
93 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_8 );
93 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_8 );
94 }
94 }
95 // if ( (new_waveform_picker_regs->status & 0x1) == 0x0 )
95 // if ( (new_waveform_picker_regs->status & 0x1) == 0x0 )
96 if ( (new_waveform_picker_regs->status & 0x4) == 0x0 )
96 if ( (new_waveform_picker_regs->status & 0x4) == 0x0 )
97 {
97 {
98 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_7 );
98 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_7 );
99 }
99 }
100 }
100 }
101 #endif
101 #endif
102 break;
102 break;
103
103
104 //******
104 //******
105 // BURST
105 // BURST
106 case(LFR_MODE_BURST):
106 case(LFR_MODE_BURST):
107 #ifdef GSA
107 #ifdef GSA
108 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
108 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
109 #else
109 #else
110 if ((new_waveform_picker_regs->status & 0x04) == 0x04){ // [0100] check the f2 full bit
110 if ((new_waveform_picker_regs->status & 0x04) == 0x04){ // [0100] check the f2 full bit
111 // (1) change the receiving buffer for the waveform picker
111 // (1) change the receiving buffer for the waveform picker
112 if (new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
112 if (new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
113 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_bis);
113 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_bis);
114 }
114 }
115 else {
115 else {
116 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
116 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
117 }
117 }
118 // (2) send an event for the waveforms transmission
118 // (2) send an event for the waveforms transmission
119 if (rtems_event_send( Task_id[TASKID_CWF2], RTEMS_EVENT_MODE_BURST ) != RTEMS_SUCCESSFUL) {
119 if (rtems_event_send( Task_id[TASKID_CWF2], RTEMS_EVENT_MODE_BURST ) != RTEMS_SUCCESSFUL) {
120 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
120 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
121 }
121 }
122 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffbbb; // [1111 1011 1011 1011] f2 bits = 0
122 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffbbb; // [1111 1011 1011 1011] f2 bits = 0
123 }
123 }
124 #endif
124 #endif
125 break;
125 break;
126
126
127 //*****
127 //*****
128 // SBM1
128 // SBM1
129 case(LFR_MODE_SBM1):
129 case(LFR_MODE_SBM1):
130 #ifdef GSA
130 #ifdef GSA
131 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
131 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
132 #else
132 #else
133 if ((new_waveform_picker_regs->status & 0x02) == 0x02){ // [0010] check the f1 full bit
133 if ((new_waveform_picker_regs->status & 0x02) == 0x02){ // [0010] check the f1 full bit
134 // (1) change the receiving buffer for the waveform picker
134 // (1) change the receiving buffer for the waveform picker
135 if ( param_local.local_sbm1_nb_cwf_sent == (param_local.local_sbm1_nb_cwf_max-1) )
135 if ( param_local.local_sbm1_nb_cwf_sent == (param_local.local_sbm1_nb_cwf_max-1) )
136 {
136 {
137 new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_norm);
137 new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_norm);
138 }
138 }
139 else if ( new_waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1_norm )
139 else if ( new_waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1_norm )
140 {
140 {
141 doubleSendCWF1 = 1;
141 doubleSendCWF1 = 1;
142 new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1);
142 new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1);
143 }
143 }
144 else if ( new_waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1 ) {
144 else if ( new_waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1 ) {
145 new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_bis);
145 new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_bis);
146 }
146 }
147 else {
147 else {
148 new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1);
148 new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1);
149 }
149 }
150 // (2) send an event for the waveforms transmission
150 // (2) send an event for the waveforms transmission
151 if (rtems_event_send( Task_id[TASKID_CWF1], RTEMS_EVENT_MODE_SBM1 ) != RTEMS_SUCCESSFUL) {
151 if (rtems_event_send( Task_id[TASKID_CWF1], RTEMS_EVENT_MODE_SBM1 ) != RTEMS_SUCCESSFUL) {
152 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
152 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
153 }
153 }
154 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffddd; // [1111 1101 1101 1101] f1 bit = 0
154 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffddd; // [1111 1101 1101 1101] f1 bit = 0
155 }
155 }
156 if ( ( (new_waveform_picker_regs->status & 0x05) == 0x05 ) ) { // [0101] check the f2 and f0 full bit
156 if ( ( (new_waveform_picker_regs->status & 0x05) == 0x05 ) ) { // [0101] check the f2 and f0 full bit
157 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
157 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
158 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
158 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
159 }
159 }
160 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffaaa; // [1111 1010 1010 1010] f2 and f0 bits = 0
160 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffaaa; // [1111 1010 1010 1010] f2 and f0 bits = 0
161 reset_local_sbm1_nb_cwf_sent();
161 reset_local_sbm1_nb_cwf_sent();
162 }
162 }
163
163
164 #endif
164 #endif
165 break;
165 break;
166
166
167 //*****
167 //*****
168 // SBM2
168 // SBM2
169 case(LFR_MODE_SBM2):
169 case(LFR_MODE_SBM2):
170 #ifdef GSA
170 #ifdef GSA
171 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
171 PRINTF("in waveform_isr *** unexpected waveform picker interruption\n")
172 #else
172 #else
173 if ((new_waveform_picker_regs->status & 0x04) == 0x04){ // [0100] check the f2 full bit
173 if ((new_waveform_picker_regs->status & 0x04) == 0x04){ // [0100] check the f2 full bit
174 // (1) change the receiving buffer for the waveform picker
174 // (1) change the receiving buffer for the waveform picker
175 if ( param_local.local_sbm2_nb_cwf_sent == (param_local.local_sbm2_nb_cwf_max-1) )
175 if ( param_local.local_sbm2_nb_cwf_sent == (param_local.local_sbm2_nb_cwf_max-1) )
176 {
176 {
177 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_norm);
177 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_norm);
178 }
178 }
179 else if ( new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2_norm ) {
179 else if ( new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2_norm ) {
180 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
180 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
181 doubleSendCWF2 = 1;
181 doubleSendCWF2 = 1;
182 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_SBM2_WFRM ) != RTEMS_SUCCESSFUL) {
182 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_SBM2_WFRM ) != RTEMS_SUCCESSFUL) {
183 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
183 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
184 }
184 }
185 reset_local_sbm2_nb_cwf_sent();
185 reset_local_sbm2_nb_cwf_sent();
186 }
186 }
187 else if ( new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2 ) {
187 else if ( new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2 ) {
188 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_bis);
188 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_bis);
189 }
189 }
190 else {
190 else {
191 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
191 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2);
192 }
192 }
193 // (2) send an event for the waveforms transmission
193 // (2) send an event for the waveforms transmission
194 if (rtems_event_send( Task_id[TASKID_CWF2], RTEMS_EVENT_MODE_SBM2 ) != RTEMS_SUCCESSFUL) {
194 if (rtems_event_send( Task_id[TASKID_CWF2], RTEMS_EVENT_MODE_SBM2 ) != RTEMS_SUCCESSFUL) {
195 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
195 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
196 }
196 }
197 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffbbb; // [1111 1011 1011 1011] f2 bit = 0
197 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffbbb; // [1111 1011 1011 1011] f2 bit = 0
198 }
198 }
199 if ( ( (new_waveform_picker_regs->status & 0x03) == 0x03 ) ) { // [0011] f3 f2 f1 f0, f1 and f0 are full
199 if ( ( (new_waveform_picker_regs->status & 0x03) == 0x03 ) ) { // [0011] f3 f2 f1 f0, f1 and f0 are full
200 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_SBM2 ) != RTEMS_SUCCESSFUL) {
200 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_SBM2 ) != RTEMS_SUCCESSFUL) {
201 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
201 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_2 );
202 }
202 }
203 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffccc; // [1111 1100 1100 1100] f1, f0 bits = 0
203 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffccc; // [1111 1100 1100 1100] f1, f0 bits = 0
204 }
204 }
205 #endif
205 #endif
206 break;
206 break;
207
207
208 //********
208 //********
209 // DEFAULT
209 // DEFAULT
210 default:
210 default:
211 break;
211 break;
212 }
212 }
213 }
213 }
214
214
215 rtems_isr waveforms_simulator_isr( rtems_vector_number vector )
215 rtems_isr waveforms_simulator_isr( rtems_vector_number vector )
216 {
216 {
217 /** This is the interrupt sub routine called by the waveform picker simulator.
217 /** This is the interrupt sub routine called by the waveform picker simulator.
218 *
218 *
219 * This ISR is for debug purpose only.
219 * This ISR is for debug purpose only.
220 *
220 *
221 */
221 */
222
222
223 unsigned char lfrMode;
223 unsigned char lfrMode;
224 lfrMode = (housekeeping_packet.lfr_status_word[0] & 0xf0) >> 4;
224 lfrMode = (housekeeping_packet.lfr_status_word[0] & 0xf0) >> 4;
225
225
226 switch(lfrMode) {
226 switch(lfrMode) {
227 case (LFR_MODE_STANDBY):
227 case (LFR_MODE_STANDBY):
228 break;
228 break;
229 case (LFR_MODE_NORMAL):
229 case (LFR_MODE_NORMAL):
230 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
230 if (rtems_event_send( Task_id[TASKID_WFRM], RTEMS_EVENT_MODE_NORMAL ) != RTEMS_SUCCESSFUL) {
231 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_5 );
231 rtems_event_send( Task_id[TASKID_DUMB], RTEMS_EVENT_5 );
232 }
232 }
233 break;
233 break;
234 case (LFR_MODE_BURST):
234 case (LFR_MODE_BURST):
235 break;
235 break;
236 case (LFR_MODE_SBM1):
236 case (LFR_MODE_SBM1):
237 break;
237 break;
238 case (LFR_MODE_SBM2):
238 case (LFR_MODE_SBM2):
239 break;
239 break;
240 }
240 }
241 }
241 }
242
242
243 rtems_task wfrm_task(rtems_task_argument argument) //used with the waveform picker VHDL IP
243 rtems_task wfrm_task(rtems_task_argument argument) //used with the waveform picker VHDL IP
244 {
244 {
245 /** This RTEMS task is dedicated to the transmission of snapshots of the NORMAL mode.
245 /** This RTEMS task is dedicated to the transmission of snapshots of the NORMAL mode.
246 *
246 *
247 * @param unused is the starting argument of the RTEMS task
247 * @param unused is the starting argument of the RTEMS task
248 *
248 *
249 * The following data packets are sent by this task:
249 * The following data packets are sent by this task:
250 * - TM_LFR_SCIENCE_NORMAL_SWF_F0
250 * - TM_LFR_SCIENCE_NORMAL_SWF_F0
251 * - TM_LFR_SCIENCE_NORMAL_SWF_F1
251 * - TM_LFR_SCIENCE_NORMAL_SWF_F1
252 * - TM_LFR_SCIENCE_NORMAL_SWF_F2
252 * - TM_LFR_SCIENCE_NORMAL_SWF_F2
253 *
253 *
254 */
254 */
255
255
256 rtems_event_set event_out;
256 rtems_event_set event_out;
257 rtems_id queue_id;
257 rtems_id queue_id;
258
258
259 init_header_snapshot_wf_table( SID_NORM_SWF_F0, headerSWF_F0 );
259 init_header_snapshot_wf_table( SID_NORM_SWF_F0, headerSWF_F0 );
260 init_header_snapshot_wf_table( SID_NORM_SWF_F1, headerSWF_F1 );
260 init_header_snapshot_wf_table( SID_NORM_SWF_F1, headerSWF_F1 );
261 init_header_snapshot_wf_table( SID_NORM_SWF_F2, headerSWF_F2 );
261 init_header_snapshot_wf_table( SID_NORM_SWF_F2, headerSWF_F2 );
262
262
263 init_waveforms();
263 init_waveforms();
264
264
265 queue_id = get_pkts_queue_id();
265 queue_id = get_pkts_queue_id();
266
266
267 BOOT_PRINTF("in WFRM ***\n")
267 BOOT_PRINTF("in WFRM ***\n")
268
268
269 while(1){
269 while(1){
270 // wait for an RTEMS_EVENT
270 // wait for an RTEMS_EVENT
271 rtems_event_receive(RTEMS_EVENT_MODE_NORMAL | RTEMS_EVENT_MODE_SBM1
271 rtems_event_receive(RTEMS_EVENT_MODE_NORMAL | RTEMS_EVENT_MODE_SBM1
272 | RTEMS_EVENT_MODE_SBM2 | RTEMS_EVENT_MODE_SBM2_WFRM,
272 | RTEMS_EVENT_MODE_SBM2 | RTEMS_EVENT_MODE_SBM2_WFRM,
273 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
273 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
274
274
275 if (event_out == RTEMS_EVENT_MODE_NORMAL)
275 if (event_out == RTEMS_EVENT_MODE_NORMAL)
276 {
276 {
277 //send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
277 //send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
278 //send_waveform_SWF(wf_snap_f1, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
278 //send_waveform_SWF(wf_snap_f1, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
279 send_waveform_SWF(wf_snap_f2, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
279 send_waveform_SWF(wf_snap_f2, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
280 #ifdef GSA
280 #ifdef GSA
281 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xf888; // [1111 1000 1000 1000] f2, f1, f0 bits =0
281 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xf888; // [1111 1000 1000 1000] f2, f1, f0 bits =0
282 #endif
282 #endif
283 }
283 }
284 else if (event_out == RTEMS_EVENT_MODE_SBM1)
284 else if (event_out == RTEMS_EVENT_MODE_SBM1)
285 {
285 {
286 send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
286 send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
287 send_waveform_SWF(wf_snap_f1_norm, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
287 send_waveform_SWF(wf_snap_f1_norm, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
288 send_waveform_SWF(wf_snap_f2, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
288 send_waveform_SWF(wf_snap_f2, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
289 #ifdef GSA
289 #ifdef GSA
290 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffaaa; // [1111 1010 1010 1010] f2, f0 bits = 0
290 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffaaa; // [1111 1010 1010 1010] f2, f0 bits = 0
291 #endif
291 #endif
292 }
292 }
293 else if (event_out == RTEMS_EVENT_MODE_SBM2)
293 else if (event_out == RTEMS_EVENT_MODE_SBM2)
294 {
294 {
295 send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
295 send_waveform_SWF(wf_snap_f0, SID_NORM_SWF_F0, headerSWF_F0, queue_id);
296 send_waveform_SWF(wf_snap_f1, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
296 send_waveform_SWF(wf_snap_f1, SID_NORM_SWF_F1, headerSWF_F1, queue_id);
297 #ifdef GSA
297 #ifdef GSA
298 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffccc; // [1111 1100 1100 1100] f1, f0 bits = 0
298 new_waveform_picker_regs->status = new_waveform_picker_regs->status & 0xfffffccc; // [1111 1100 1100 1100] f1, f0 bits = 0
299 #endif
299 #endif
300 }
300 }
301 else if (event_out == RTEMS_EVENT_MODE_SBM2_WFRM)
301 else if (event_out == RTEMS_EVENT_MODE_SBM2_WFRM)
302 {
302 {
303 send_waveform_SWF(wf_snap_f2_norm, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
303 send_waveform_SWF(wf_snap_f2_norm, SID_NORM_SWF_F2, headerSWF_F2, queue_id);
304 }
304 }
305 else
305 else
306 {
306 {
307 PRINTF("in WFRM *** unexpected event")
307 PRINTF("in WFRM *** unexpected event")
308 }
308 }
309
309
310
310
311 #ifdef GSA
311 #ifdef GSA
312 // irq processed, reset the related register of the timer unit
312 // irq processed, reset the related register of the timer unit
313 gptimer_regs->timer[TIMER_WF_SIMULATOR].ctrl = gptimer_regs->timer[TIMER_WF_SIMULATOR].ctrl | 0x00000010;
313 gptimer_regs->timer[TIMER_WF_SIMULATOR].ctrl = gptimer_regs->timer[TIMER_WF_SIMULATOR].ctrl | 0x00000010;
314 // clear the interruption
314 // clear the interruption
315 LEON_Unmask_interrupt( IRQ_WF );
315 LEON_Unmask_interrupt( IRQ_WF );
316 #endif
316 #endif
317 }
317 }
318 }
318 }
319
319
320 rtems_task cwf3_task(rtems_task_argument argument) //used with the waveform picker VHDL IP
320 rtems_task cwf3_task(rtems_task_argument argument) //used with the waveform picker VHDL IP
321 {
321 {
322 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f3.
322 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f3.
323 *
323 *
324 * @param unused is the starting argument of the RTEMS task
324 * @param unused is the starting argument of the RTEMS task
325 *
325 *
326 * The following data packet is sent by this task:
326 * The following data packet is sent by this task:
327 * - TM_LFR_SCIENCE_NORMAL_CWF_F3
327 * - TM_LFR_SCIENCE_NORMAL_CWF_F3
328 *
328 *
329 */
329 */
330
330
331 rtems_event_set event_out;
331 rtems_event_set event_out;
332 rtems_id queue_id;
332 rtems_id queue_id;
333
333
334 init_header_continuous_wf_table( SID_NORM_CWF_F3, headerCWF_F3 );
334 init_header_continuous_wf_table( SID_NORM_CWF_F3, headerCWF_F3 );
335 init_header_continuous_wf3_light_table( headerCWF_F3_light );
335 init_header_continuous_wf3_light_table( headerCWF_F3_light );
336
336
337 queue_id = get_pkts_queue_id();
337 queue_id = get_pkts_queue_id();
338
338
339 BOOT_PRINTF("in CWF3 ***\n")
339 BOOT_PRINTF("in CWF3 ***\n")
340
340
341 while(1){
341 while(1){
342 // wait for an RTEMS_EVENT
342 // wait for an RTEMS_EVENT
343 rtems_event_receive( RTEMS_EVENT_0,
343 rtems_event_receive( RTEMS_EVENT_0,
344 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
344 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
345 PRINTF("send CWF F3 \n")
345 PRINTF("send CWF F3 \n")
346 #ifdef GSA
346 #ifdef GSA
347 #else
347 #else
348 if (new_waveform_picker_regs->addr_data_f3 == (int) wf_cont_f3) {
348 if (new_waveform_picker_regs->addr_data_f3 == (int) wf_cont_f3) {
349 send_waveform_CWF3_light( wf_cont_f3_bis, headerCWF_F3_light, queue_id );
349 send_waveform_CWF3_light( wf_cont_f3_bis, headerCWF_F3_light, queue_id );
350 }
350 }
351 else {
351 else {
352 send_waveform_CWF3_light( wf_cont_f3, headerCWF_F3_light, queue_id );
352 send_waveform_CWF3_light( wf_cont_f3, headerCWF_F3_light, queue_id );
353 }
353 }
354 #endif
354 #endif
355 }
355 }
356 }
356 }
357
357
358 rtems_task cwf2_task(rtems_task_argument argument) // ONLY USED IN BURST AND SBM2
358 rtems_task cwf2_task(rtems_task_argument argument) // ONLY USED IN BURST AND SBM2
359 {
359 {
360 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f2.
360 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f2.
361 *
361 *
362 * @param unused is the starting argument of the RTEMS task
362 * @param unused is the starting argument of the RTEMS task
363 *
363 *
364 * The following data packet is sent by this function:
364 * The following data packet is sent by this function:
365 * - TM_LFR_SCIENCE_BURST_CWF_F2
365 * - TM_LFR_SCIENCE_BURST_CWF_F2
366 * - TM_LFR_SCIENCE_SBM2_CWF_F2
366 * - TM_LFR_SCIENCE_SBM2_CWF_F2
367 *
367 *
368 */
368 */
369
369
370 rtems_event_set event_out;
370 rtems_event_set event_out;
371 rtems_id queue_id;
371 rtems_id queue_id;
372
372
373 init_header_continuous_wf_table( SID_BURST_CWF_F2, headerCWF_F2_BURST );
373 init_header_continuous_wf_table( SID_BURST_CWF_F2, headerCWF_F2_BURST );
374 init_header_continuous_wf_table( SID_SBM2_CWF_F2, headerCWF_F2_SBM2 );
374 init_header_continuous_wf_table( SID_SBM2_CWF_F2, headerCWF_F2_SBM2 );
375
375
376 queue_id = get_pkts_queue_id();
376 queue_id = get_pkts_queue_id();
377
377
378 BOOT_PRINTF("in CWF2 ***\n")
378 BOOT_PRINTF("in CWF2 ***\n")
379
379
380 while(1){
380 while(1){
381 // wait for an RTEMS_EVENT
381 // wait for an RTEMS_EVENT
382 rtems_event_receive( RTEMS_EVENT_MODE_BURST | RTEMS_EVENT_MODE_SBM2,
382 rtems_event_receive( RTEMS_EVENT_MODE_BURST | RTEMS_EVENT_MODE_SBM2,
383 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
383 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
384
384
385 if (event_out == RTEMS_EVENT_MODE_BURST)
385 if (event_out == RTEMS_EVENT_MODE_BURST)
386 {
386 {
387 // F2
387 // F2
388 #ifdef GSA
388 #ifdef GSA
389 #else
389 #else
390 if (new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
390 if (new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
391 send_waveform_CWF( wf_snap_f2_bis, SID_BURST_CWF_F2, headerCWF_F2_BURST, queue_id );
391 send_waveform_CWF( wf_snap_f2_bis, SID_BURST_CWF_F2, headerCWF_F2_BURST, queue_id );
392 }
392 }
393 else {
393 else {
394 send_waveform_CWF( wf_snap_f2, SID_BURST_CWF_F2, headerCWF_F2_BURST, queue_id );
394 send_waveform_CWF( wf_snap_f2, SID_BURST_CWF_F2, headerCWF_F2_BURST, queue_id );
395 }
395 }
396 #endif
396 #endif
397 }
397 }
398
398
399 else if (event_out == RTEMS_EVENT_MODE_SBM2)
399 else if (event_out == RTEMS_EVENT_MODE_SBM2)
400 {
400 {
401 #ifdef GSA
401 #ifdef GSA
402 #else
402 #else
403 if (doubleSendCWF2 == 1)
403 if (doubleSendCWF2 == 1)
404 {
404 {
405 doubleSendCWF2 = 0;
405 doubleSendCWF2 = 0;
406 send_waveform_CWF( wf_snap_f2_norm, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
406 send_waveform_CWF( wf_snap_f2_norm, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
407 }
407 }
408 else if (new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
408 else if (new_waveform_picker_regs->addr_data_f2 == (int) wf_snap_f2) {
409 send_waveform_CWF( wf_snap_f2_bis, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
409 send_waveform_CWF( wf_snap_f2_bis, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
410 }
410 }
411 else {
411 else {
412 send_waveform_CWF( wf_snap_f2, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
412 send_waveform_CWF( wf_snap_f2, SID_SBM2_CWF_F2, headerCWF_F2_SBM2, queue_id );
413 }
413 }
414 param_local.local_sbm2_nb_cwf_sent ++;
414 param_local.local_sbm2_nb_cwf_sent ++;
415 #endif
415 #endif
416 }
416 }
417 else
417 else
418 {
418 {
419 PRINTF1("in CWF2 *** ERR mode = %d\n", lfrCurrentMode)
419 PRINTF1("in CWF2 *** ERR mode = %d\n", lfrCurrentMode)
420 }
420 }
421 }
421 }
422 }
422 }
423
423
424 rtems_task cwf1_task(rtems_task_argument argument) // ONLY USED IN SBM1
424 rtems_task cwf1_task(rtems_task_argument argument) // ONLY USED IN SBM1
425 {
425 {
426 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f1.
426 /** This RTEMS task is dedicated to the transmission of continuous waveforms at f1.
427 *
427 *
428 * @param unused is the starting argument of the RTEMS task
428 * @param unused is the starting argument of the RTEMS task
429 *
429 *
430 * The following data packet is sent by this function:
430 * The following data packet is sent by this function:
431 * - TM_LFR_SCIENCE_SBM1_CWF_F1
431 * - TM_LFR_SCIENCE_SBM1_CWF_F1
432 *
432 *
433 */
433 */
434
434
435 rtems_event_set event_out;
435 rtems_event_set event_out;
436 rtems_id queue_id;
436 rtems_id queue_id;
437
437
438 init_header_continuous_wf_table( SID_SBM1_CWF_F1, headerCWF_F1 );
438 init_header_continuous_wf_table( SID_SBM1_CWF_F1, headerCWF_F1 );
439
439
440 queue_id = get_pkts_queue_id();
440 queue_id = get_pkts_queue_id();
441
441
442 BOOT_PRINTF("in CWF1 ***\n")
442 BOOT_PRINTF("in CWF1 ***\n")
443
443
444 while(1){
444 while(1){
445 // wait for an RTEMS_EVENT
445 // wait for an RTEMS_EVENT
446 rtems_event_receive( RTEMS_EVENT_MODE_SBM1,
446 rtems_event_receive( RTEMS_EVENT_MODE_SBM1,
447 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
447 RTEMS_WAIT | RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &event_out);
448 if (event_out == RTEMS_EVENT_MODE_SBM1)
448 if (event_out == RTEMS_EVENT_MODE_SBM1)
449 {
449 {
450 #ifdef GSA
450 #ifdef GSA
451 #else
451 #else
452 if (doubleSendCWF1 == 1)
452 if (doubleSendCWF1 == 1)
453 {
453 {
454 doubleSendCWF1 = 0;
454 doubleSendCWF1 = 0;
455 send_waveform_CWF( wf_snap_f1_norm, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
455 send_waveform_CWF( wf_snap_f1_norm, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
456 }
456 }
457 else if (new_waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1) {
457 else if (new_waveform_picker_regs->addr_data_f1 == (int) wf_snap_f1) {
458 send_waveform_CWF( wf_snap_f1_bis, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
458 send_waveform_CWF( wf_snap_f1_bis, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
459 }
459 }
460 else {
460 else {
461 send_waveform_CWF( wf_snap_f1, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
461 send_waveform_CWF( wf_snap_f1, SID_SBM1_CWF_F1, headerCWF_F1, queue_id );
462 }
462 }
463 param_local.local_sbm1_nb_cwf_sent ++;
463 param_local.local_sbm1_nb_cwf_sent ++;
464 #endif
464 #endif
465 }
465 }
466 else
466 else
467 {
467 {
468 PRINTF1("in CWF1 *** ERR mode = %d\n", lfrCurrentMode)
468 PRINTF1("in CWF1 *** ERR mode = %d\n", lfrCurrentMode)
469 }
469 }
470 }
470 }
471 }
471 }
472
472
473 //******************
473 //******************
474 // general functions
474 // general functions
475 void init_waveforms( void )
475 void init_waveforms( void )
476 {
476 {
477 int i = 0;
477 int i = 0;
478
478
479 for (i=0; i< NB_SAMPLES_PER_SNAPSHOT; i++)
479 for (i=0; i< NB_SAMPLES_PER_SNAPSHOT; i++)
480 {
480 {
481 // //***
481 // //***
482 // // F0
482 // // F0
483 // wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x88887777; //
483 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x88887777; //
484 // wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x22221111; //
484 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x22221111; //
485 // wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0x44443333; //
485 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0x44443333; //
486
487 //***
488 // F1
489 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x22221111;
490 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x44443333;
491 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0xaaaa0000;
492
493 //***
494 // F2
495 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0xffffffff;
496 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0xffffffff;
497 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0xffffffff;
498
499 //***
500 // F0
501 // wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x0; //
502 // wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x0; //
503 // wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0x0; //
486
504
487 // //***
505 // //***
488 // // F1
506 // // F1
489 // wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x22221111;
507 // wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x0;
490 // wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x44443333;
508 // wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x0;
491 // wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0xaaaa0000;
509 // wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0x0;
492
510
493 // //***
511 // //***
494 // // F2
512 // // F2
495 // wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x44443333;
513 // wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x0;
496 // wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x22221111;
514 // wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x0;
497 // wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0xaaaa0000;
515 // wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0x0;
498
499 //***
500 // F0
501 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x0; //
502 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x0; //
503 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0x0; //
504
505 //***
506 // F1
507 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x0;
508 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x0;
509 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0x0;
510
511 //***
512 // F2
513 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET ] = 0x0;
514 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET ] = 0x0;
515 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET ] = 0x0;
516
516
517 //***
517 //***
518 // F3
518 // F3
519 //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 0 ] = val1;
519 //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 0 ] = val1;
520 //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 1 ] = val2;
520 //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 1 ] = val2;
521 //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 2 ] = 0xaaaa0000;
521 //wf_cont_f3[ (i* NB_WORDS_SWF_BLK) + 2 ] = 0xaaaa0000;
522 }
522 }
523 }
523 }
524
524
525 int init_header_snapshot_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_SWF_t *headerSWF)
525 int init_header_snapshot_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_SWF_t *headerSWF)
526 {
526 {
527 unsigned char i;
527 unsigned char i;
528
528
529 for (i=0; i<7; i++)
529 for (i=0; i<7; i++)
530 {
530 {
531 headerSWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
531 headerSWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
532 headerSWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
532 headerSWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
533 headerSWF[ i ].reserved = DEFAULT_RESERVED;
533 headerSWF[ i ].reserved = DEFAULT_RESERVED;
534 headerSWF[ i ].userApplication = CCSDS_USER_APP;
534 headerSWF[ i ].userApplication = CCSDS_USER_APP;
535 headerSWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
535 headerSWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
536 headerSWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
536 headerSWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
537 if (i == 0)
537 if (i == 0)
538 {
538 {
539 headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
539 headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
540 headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_340 >> 8);
540 headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_340 >> 8);
541 headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_340 );
541 headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_340 );
542 headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
542 headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
543 headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
543 headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
544 }
544 }
545 else if (i == 6)
545 else if (i == 6)
546 {
546 {
547 headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
547 headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
548 headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_8 >> 8);
548 headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_8 >> 8);
549 headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_8 );
549 headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_8 );
550 headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
550 headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
551 headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8 );
551 headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8 );
552 }
552 }
553 else
553 else
554 {
554 {
555 headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
555 headerSWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
556 headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_340 >> 8);
556 headerSWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_SWF_340 >> 8);
557 headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_340 );
557 headerSWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_SWF_340 );
558 headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
558 headerSWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
559 headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
559 headerSWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
560 }
560 }
561 headerSWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
561 headerSWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
562 headerSWF[ i ].pktCnt = DEFAULT_PKTCNT; // PKT_CNT
562 headerSWF[ i ].pktCnt = DEFAULT_PKTCNT; // PKT_CNT
563 headerSWF[ i ].pktNr = i+1; // PKT_NR
563 headerSWF[ i ].pktNr = i+1; // PKT_NR
564 // DATA FIELD HEADER
564 // DATA FIELD HEADER
565 headerSWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
565 headerSWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
566 headerSWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
566 headerSWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
567 headerSWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
567 headerSWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
568 headerSWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
568 headerSWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
569 // AUXILIARY DATA HEADER
569 // AUXILIARY DATA HEADER
570 headerSWF[ i ].sid = sid;
570 headerSWF[ i ].sid = sid;
571 headerSWF[ i ].hkBIA = DEFAULT_HKBIA;
571 headerSWF[ i ].hkBIA = DEFAULT_HKBIA;
572 headerSWF[ i ].time[0] = 0x00;
572 headerSWF[ i ].time[0] = 0x00;
573 headerSWF[ i ].time[0] = 0x00;
573 headerSWF[ i ].time[0] = 0x00;
574 headerSWF[ i ].time[0] = 0x00;
574 headerSWF[ i ].time[0] = 0x00;
575 headerSWF[ i ].time[0] = 0x00;
575 headerSWF[ i ].time[0] = 0x00;
576 headerSWF[ i ].time[0] = 0x00;
576 headerSWF[ i ].time[0] = 0x00;
577 headerSWF[ i ].time[0] = 0x00;
577 headerSWF[ i ].time[0] = 0x00;
578 }
578 }
579 return LFR_SUCCESSFUL;
579 return LFR_SUCCESSFUL;
580 }
580 }
581
581
582 int init_header_continuous_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_CWF_t *headerCWF )
582 int init_header_continuous_wf_table( unsigned int sid, Header_TM_LFR_SCIENCE_CWF_t *headerCWF )
583 {
583 {
584 unsigned int i;
584 unsigned int i;
585
585
586 for (i=0; i<7; i++)
586 for (i=0; i<7; i++)
587 {
587 {
588 headerCWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
588 headerCWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
589 headerCWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
589 headerCWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
590 headerCWF[ i ].reserved = DEFAULT_RESERVED;
590 headerCWF[ i ].reserved = DEFAULT_RESERVED;
591 headerCWF[ i ].userApplication = CCSDS_USER_APP;
591 headerCWF[ i ].userApplication = CCSDS_USER_APP;
592 if ( (sid == SID_SBM1_CWF_F1) || (sid == SID_SBM2_CWF_F2) )
592 if ( (sid == SID_SBM1_CWF_F1) || (sid == SID_SBM2_CWF_F2) )
593 {
593 {
594 headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_SBM1_SBM2 >> 8);
594 headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_SBM1_SBM2 >> 8);
595 headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_SBM1_SBM2);
595 headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_SBM1_SBM2);
596 }
596 }
597 else
597 else
598 {
598 {
599 headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
599 headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
600 headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
600 headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
601 }
601 }
602 if (i == 0)
602 if (i == 0)
603 {
603 {
604 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
604 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
605 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_340 >> 8);
605 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_340 >> 8);
606 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_340 );
606 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_340 );
607 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
607 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
608 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
608 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
609 }
609 }
610 else if (i == 6)
610 else if (i == 6)
611 {
611 {
612 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
612 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
613 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_8 >> 8);
613 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_8 >> 8);
614 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_8 );
614 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_8 );
615 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
615 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
616 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8 );
616 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8 );
617 }
617 }
618 else
618 else
619 {
619 {
620 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
620 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
621 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_340 >> 8);
621 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF_340 >> 8);
622 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_340 );
622 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF_340 );
623 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
623 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
624 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
624 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
625 }
625 }
626 headerCWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
626 headerCWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
627 // PKT_CNT
627 // PKT_CNT
628 // PKT_NR
628 // PKT_NR
629 // DATA FIELD HEADER
629 // DATA FIELD HEADER
630 headerCWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
630 headerCWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
631 headerCWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
631 headerCWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
632 headerCWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
632 headerCWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
633 headerCWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
633 headerCWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
634 // AUXILIARY DATA HEADER
634 // AUXILIARY DATA HEADER
635 headerCWF[ i ].sid = sid;
635 headerCWF[ i ].sid = sid;
636 headerCWF[ i ].hkBIA = DEFAULT_HKBIA;
636 headerCWF[ i ].hkBIA = DEFAULT_HKBIA;
637 headerCWF[ i ].time[0] = 0x00;
637 headerCWF[ i ].time[0] = 0x00;
638 headerCWF[ i ].time[0] = 0x00;
638 headerCWF[ i ].time[0] = 0x00;
639 headerCWF[ i ].time[0] = 0x00;
639 headerCWF[ i ].time[0] = 0x00;
640 headerCWF[ i ].time[0] = 0x00;
640 headerCWF[ i ].time[0] = 0x00;
641 headerCWF[ i ].time[0] = 0x00;
641 headerCWF[ i ].time[0] = 0x00;
642 headerCWF[ i ].time[0] = 0x00;
642 headerCWF[ i ].time[0] = 0x00;
643 }
643 }
644 return LFR_SUCCESSFUL;
644 return LFR_SUCCESSFUL;
645 }
645 }
646
646
647 int init_header_continuous_wf3_light_table( Header_TM_LFR_SCIENCE_CWF_t *headerCWF )
647 int init_header_continuous_wf3_light_table( Header_TM_LFR_SCIENCE_CWF_t *headerCWF )
648 {
648 {
649 unsigned int i;
649 unsigned int i;
650
650
651 for (i=0; i<7; i++)
651 for (i=0; i<7; i++)
652 {
652 {
653 headerCWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
653 headerCWF[ i ].targetLogicalAddress = CCSDS_DESTINATION_ID;
654 headerCWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
654 headerCWF[ i ].protocolIdentifier = CCSDS_PROTOCOLE_ID;
655 headerCWF[ i ].reserved = DEFAULT_RESERVED;
655 headerCWF[ i ].reserved = DEFAULT_RESERVED;
656 headerCWF[ i ].userApplication = CCSDS_USER_APP;
656 headerCWF[ i ].userApplication = CCSDS_USER_APP;
657
657
658 headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
658 headerCWF[ i ].packetID[0] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST >> 8);
659 headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
659 headerCWF[ i ].packetID[1] = (unsigned char) (TM_PACKET_ID_SCIENCE_NORMAL_BURST);
660 if (i == 0)
660 if (i == 0)
661 {
661 {
662 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
662 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_FIRST;
663 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 >> 8);
663 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 >> 8);
664 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 );
664 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 );
665 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
665 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
666 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
666 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
667 }
667 }
668 else if (i == 6)
668 else if (i == 6)
669 {
669 {
670 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
670 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_LAST;
671 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_8 >> 8);
671 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_8 >> 8);
672 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_8 );
672 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_8 );
673 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
673 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_8 >> 8);
674 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8 );
674 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_8 );
675 }
675 }
676 else
676 else
677 {
677 {
678 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
678 headerCWF[ i ].packetSequenceControl[0] = TM_PACKET_SEQ_CTRL_CONTINUATION;
679 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 >> 8);
679 headerCWF[ i ].packetLength[0] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 >> 8);
680 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 );
680 headerCWF[ i ].packetLength[1] = (unsigned char) (TM_LEN_SCI_CWF3_LIGHT_340 );
681 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
681 headerCWF[ i ].blkNr[0] = (unsigned char) (BLK_NR_340 >> 8);
682 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
682 headerCWF[ i ].blkNr[1] = (unsigned char) (BLK_NR_340 );
683 }
683 }
684 headerCWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
684 headerCWF[ i ].packetSequenceControl[1] = TM_PACKET_SEQ_CNT_DEFAULT;
685 // DATA FIELD HEADER
685 // DATA FIELD HEADER
686 headerCWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
686 headerCWF[ i ].spare1_pusVersion_spare2 = DEFAULT_SPARE1_PUSVERSION_SPARE2;
687 headerCWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
687 headerCWF[ i ].serviceType = TM_TYPE_LFR_SCIENCE; // service type
688 headerCWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
688 headerCWF[ i ].serviceSubType = TM_SUBTYPE_LFR_SCIENCE; // service subtype
689 headerCWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
689 headerCWF[ i ].destinationID = TM_DESTINATION_ID_GROUND;
690 // AUXILIARY DATA HEADER
690 // AUXILIARY DATA HEADER
691 headerCWF[ i ].sid = SID_NORM_CWF_F3;
691 headerCWF[ i ].sid = SID_NORM_CWF_F3;
692 headerCWF[ i ].hkBIA = DEFAULT_HKBIA;
692 headerCWF[ i ].hkBIA = DEFAULT_HKBIA;
693 headerCWF[ i ].time[0] = 0x00;
693 headerCWF[ i ].time[0] = 0x00;
694 headerCWF[ i ].time[0] = 0x00;
694 headerCWF[ i ].time[0] = 0x00;
695 headerCWF[ i ].time[0] = 0x00;
695 headerCWF[ i ].time[0] = 0x00;
696 headerCWF[ i ].time[0] = 0x00;
696 headerCWF[ i ].time[0] = 0x00;
697 headerCWF[ i ].time[0] = 0x00;
697 headerCWF[ i ].time[0] = 0x00;
698 headerCWF[ i ].time[0] = 0x00;
698 headerCWF[ i ].time[0] = 0x00;
699 }
699 }
700 return LFR_SUCCESSFUL;
700 return LFR_SUCCESSFUL;
701 }
701 }
702
702
703 void reset_waveforms( void )
703 void reset_waveforms( void )
704 {
704 {
705 int i = 0;
705 int i = 0;
706
706
707 for (i=0; i< NB_SAMPLES_PER_SNAPSHOT; i++)
707 for (i=0; i< NB_SAMPLES_PER_SNAPSHOT; i++)
708 {
708 {
709 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x10002000;
709 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x10002000;
710 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0x20001000;
710 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0x20001000;
711 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x40008000;
711 wf_snap_f0[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x40008000;
712
712
713 //***
713 //***
714 // F1
714 // F1
715 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x1000f000;
715 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x1000f000;
716 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0xf0001000;
716 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0xf0001000;
717 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x40008000;
717 wf_snap_f1[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x40008000;
718
718
719 //***
719 //***
720 // F2
720 // F2
721 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x40008000;
721 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 0 + TIME_OFFSET] = 0x40008000;
722 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0x20001000;
722 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 1 + TIME_OFFSET] = 0x20001000;
723 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x10002000;
723 wf_snap_f2[ (i* NB_WORDS_SWF_BLK) + 2 + TIME_OFFSET] = 0x10002000;
724
724
725 //***
725 //***
726 // F3
726 // F3
727 /*wf_cont_f3[ i* NB_WORDS_SWF_BLK + 0 ] = build_value( i, i ); // v and 1
727 /*wf_cont_f3[ i* NB_WORDS_SWF_BLK + 0 ] = build_value( i, i ); // v and 1
728 wf_cont_f3[ i* NB_WORDS_SWF_BLK + 1 ] = build_value( i, i ); // e2 and b1
728 wf_cont_f3[ i* NB_WORDS_SWF_BLK + 1 ] = build_value( i, i ); // e2 and b1
729 wf_cont_f3[ i* NB_WORDS_SWF_BLK + 2 ] = build_value( i, i ); // b2 and b3*/
729 wf_cont_f3[ i* NB_WORDS_SWF_BLK + 2 ] = build_value( i, i ); // b2 and b3*/
730 }
730 }
731 }
731 }
732
732
733 int send_waveform_SWF( volatile int *waveform, unsigned int sid,
733 int send_waveform_SWF( volatile int *waveform, unsigned int sid,
734 Header_TM_LFR_SCIENCE_SWF_t *headerSWF, rtems_id queue_id )
734 Header_TM_LFR_SCIENCE_SWF_t *headerSWF, rtems_id queue_id )
735 {
735 {
736 /** This function sends SWF CCSDS packets (F2, F1 or F0).
736 /** This function sends SWF CCSDS packets (F2, F1 or F0).
737 *
737 *
738 * @param waveform points to the buffer containing the data that will be send.
738 * @param waveform points to the buffer containing the data that will be send.
739 * @param sid is the source identifier of the data that will be sent.
739 * @param sid is the source identifier of the data that will be sent.
740 * @param headerSWF points to a table of headers that have been prepared for the data transmission.
740 * @param headerSWF points to a table of headers that have been prepared for the data transmission.
741 * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
741 * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
742 * contain information to setup the transmission of the data packets.
742 * contain information to setup the transmission of the data packets.
743 *
743 *
744 * One group of 2048 samples is sent as 7 consecutive packets, 6 packets containing 340 blocks and 8 packets containing 8 blocks.
744 * One group of 2048 samples is sent as 7 consecutive packets, 6 packets containing 340 blocks and 8 packets containing 8 blocks.
745 *
745 *
746 */
746 */
747
747
748 unsigned int i;
748 unsigned int i;
749 int ret;
749 int ret;
750 rtems_status_code status;
750 rtems_status_code status;
751 spw_ioctl_pkt_send spw_ioctl_send_SWF;
751 spw_ioctl_pkt_send spw_ioctl_send_SWF;
752
752
753 spw_ioctl_send_SWF.hlen = TM_HEADER_LEN + 4 + 12; // + 4 is for the protocole extra header, + 12 is for the auxiliary header
753 spw_ioctl_send_SWF.hlen = TM_HEADER_LEN + 4 + 12; // + 4 is for the protocole extra header, + 12 is for the auxiliary header
754 spw_ioctl_send_SWF.options = 0;
754 spw_ioctl_send_SWF.options = 0;
755
755
756 ret = LFR_DEFAULT;
756 ret = LFR_DEFAULT;
757
757
758 for (i=0; i<7; i++) // send waveform
758 for (i=0; i<7; i++) // send waveform
759 {
759 {
760 spw_ioctl_send_SWF.data = (char*) &waveform[ (i * 340 * NB_WORDS_SWF_BLK) + TIME_OFFSET ];
760 spw_ioctl_send_SWF.data = (char*) &waveform[ (i * 340 * NB_WORDS_SWF_BLK) + TIME_OFFSET ];
761 spw_ioctl_send_SWF.hdr = (char*) &headerSWF[ i ];
761 spw_ioctl_send_SWF.hdr = (char*) &headerSWF[ i ];
762 // BUILD THE DATA
762 // BUILD THE DATA
763 if (i==6) {
763 if (i==6) {
764 spw_ioctl_send_SWF.dlen = 8 * NB_BYTES_SWF_BLK;
764 spw_ioctl_send_SWF.dlen = 8 * NB_BYTES_SWF_BLK;
765 }
765 }
766 else {
766 else {
767 spw_ioctl_send_SWF.dlen = 340 * NB_BYTES_SWF_BLK;
767 spw_ioctl_send_SWF.dlen = 340 * NB_BYTES_SWF_BLK;
768 }
768 }
769 // SET PACKET SEQUENCE COUNTER
769 // SET PACKET SEQUENCE COUNTER
770 increment_seq_counter_source_id( headerSWF[ i ].packetSequenceControl, sid );
770 increment_seq_counter_source_id( headerSWF[ i ].packetSequenceControl, sid );
771 // SET PACKET TIME
771 // SET PACKET TIME
772 headerSWF[ i ].acquisitionTime[0] = (unsigned char) (time_management_regs->coarse_time>>24);
772 headerSWF[ i ].acquisitionTime[0] = (unsigned char) (time_management_regs->coarse_time>>24);
773 headerSWF[ i ].acquisitionTime[1] = (unsigned char) (time_management_regs->coarse_time>>16);
773 headerSWF[ i ].acquisitionTime[1] = (unsigned char) (time_management_regs->coarse_time>>16);
774 headerSWF[ i ].acquisitionTime[2] = (unsigned char) (time_management_regs->coarse_time>>8);
774 headerSWF[ i ].acquisitionTime[2] = (unsigned char) (time_management_regs->coarse_time>>8);
775 headerSWF[ i ].acquisitionTime[3] = (unsigned char) (time_management_regs->coarse_time);
775 headerSWF[ i ].acquisitionTime[3] = (unsigned char) (time_management_regs->coarse_time);
776 headerSWF[ i ].acquisitionTime[4] = (unsigned char) (time_management_regs->fine_time>>8);
776 headerSWF[ i ].acquisitionTime[4] = (unsigned char) (time_management_regs->fine_time>>8);
777 headerSWF[ i ].acquisitionTime[5] = (unsigned char) (time_management_regs->fine_time);
777 headerSWF[ i ].acquisitionTime[5] = (unsigned char) (time_management_regs->fine_time);
778 headerSWF[ i ].time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
778 headerSWF[ i ].time[0] = (unsigned char) (time_management_regs->coarse_time>>24);
779 headerSWF[ i ].time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
779 headerSWF[ i ].time[1] = (unsigned char) (time_management_regs->coarse_time>>16);
780 headerSWF[ i ].time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
780 headerSWF[ i ].time[2] = (unsigned char) (time_management_regs->coarse_time>>8);
781 headerSWF[ i ].time[3] = (unsigned char) (time_management_regs->coarse_time);
781 headerSWF[ i ].time[3] = (unsigned char) (time_management_regs->coarse_time);
782 headerSWF[ i ].time[4] = (unsigned char) (time_management_regs->fine_time>>8);
782 headerSWF[ i ].time[4] = (unsigned char) (time_management_regs->fine_time>>8);
783 headerSWF[ i ].time[5] = (unsigned char) (time_management_regs->fine_time);
783 headerSWF[ i ].time[5] = (unsigned char) (time_management_regs->fine_time);
784 // SEND PACKET
784 // SEND PACKET
785 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_SWF, ACTION_MSG_SPW_IOCTL_SEND_SIZE);
785 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_SWF, ACTION_MSG_SPW_IOCTL_SEND_SIZE);
786 if (status != RTEMS_SUCCESSFUL) {
786 if (status != RTEMS_SUCCESSFUL) {
787 printf("%d-%d, ERR %d\n", sid, i, (int) status);
787 printf("%d-%d, ERR %d\n", sid, i, (int) status);
788 ret = LFR_DEFAULT;
788 ret = LFR_DEFAULT;
789 }
789 }
790 rtems_task_wake_after(TIME_BETWEEN_TWO_SWF_PACKETS); // 300 ms between each packet => 7 * 3 = 21 packets => 6.3 seconds
790 rtems_task_wake_after(TIME_BETWEEN_TWO_SWF_PACKETS); // 300 ms between each packet => 7 * 3 = 21 packets => 6.3 seconds
791 }
791 }
792
792
793 return ret;
793 return ret;
794 }
794 }
795
795
796 int send_waveform_CWF(volatile int *waveform, unsigned int sid,
796 int send_waveform_CWF(volatile int *waveform, unsigned int sid,
797 Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id)
797 Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id)
798 {
798 {
799 /** This function sends CWF CCSDS packets (F2, F1 or F0).
799 /** This function sends CWF CCSDS packets (F2, F1 or F0).
800 *
800 *
801 * @param waveform points to the buffer containing the data that will be send.
801 * @param waveform points to the buffer containing the data that will be send.
802 * @param sid is the source identifier of the data that will be sent.
802 * @param sid is the source identifier of the data that will be sent.
803 * @param headerCWF points to a table of headers that have been prepared for the data transmission.
803 * @param headerCWF points to a table of headers that have been prepared for the data transmission.
804 * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
804 * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
805 * contain information to setup the transmission of the data packets.
805 * contain information to setup the transmission of the data packets.
806 *
806 *
807 * One group of 2048 samples is sent as 7 consecutive packets, 6 packets containing 340 blocks and 8 packets containing 8 blocks.
807 * One group of 2048 samples is sent as 7 consecutive packets, 6 packets containing 340 blocks and 8 packets containing 8 blocks.
808 *
808 *
809 */
809 */
810
810
811 unsigned int i;
811 unsigned int i;
812 int ret;
812 int ret;
813 rtems_status_code status;
813 rtems_status_code status;
814 spw_ioctl_pkt_send spw_ioctl_send_CWF;
814 spw_ioctl_pkt_send spw_ioctl_send_CWF;
815
815
816 spw_ioctl_send_CWF.hlen = TM_HEADER_LEN + 4 + 10; // + 4 is for the protocole extra header, + 10 is for the auxiliary header
816 spw_ioctl_send_CWF.hlen = TM_HEADER_LEN + 4 + 10; // + 4 is for the protocole extra header, + 10 is for the auxiliary header
817 spw_ioctl_send_CWF.options = 0;
817 spw_ioctl_send_CWF.options = 0;
818
818
819 ret = LFR_DEFAULT;
819 ret = LFR_DEFAULT;
820
820
821 for (i=0; i<7; i++) // send waveform
821 for (i=0; i<7; i++) // send waveform
822 {
822 {
823 int coarseTime = 0x00;
823 int coarseTime = 0x00;
824 int fineTime = 0x00;
824 int fineTime = 0x00;
825 spw_ioctl_send_CWF.data = (char*) &waveform[ (i * 340 * NB_WORDS_SWF_BLK) ];
825 spw_ioctl_send_CWF.data = (char*) &waveform[ (i * 340 * NB_WORDS_SWF_BLK) ];
826 spw_ioctl_send_CWF.hdr = (char*) &headerCWF[ i ];
826 spw_ioctl_send_CWF.hdr = (char*) &headerCWF[ i ];
827 // BUILD THE DATA
827 // BUILD THE DATA
828 if (i==6) {
828 if (i==6) {
829 spw_ioctl_send_CWF.dlen = 8 * NB_BYTES_SWF_BLK;
829 spw_ioctl_send_CWF.dlen = 8 * NB_BYTES_SWF_BLK;
830 }
830 }
831 else {
831 else {
832 spw_ioctl_send_CWF.dlen = 340 * NB_BYTES_SWF_BLK;
832 spw_ioctl_send_CWF.dlen = 340 * NB_BYTES_SWF_BLK;
833 }
833 }
834 // SET PACKET SEQUENCE COUNTER
834 // SET PACKET SEQUENCE COUNTER
835 increment_seq_counter_source_id( headerCWF[ i ].packetSequenceControl, sid );
835 increment_seq_counter_source_id( headerCWF[ i ].packetSequenceControl, sid );
836 // SET PACKET TIME
836 // SET PACKET TIME
837 coarseTime = time_management_regs->coarse_time;
837 coarseTime = time_management_regs->coarse_time;
838 fineTime = time_management_regs->fine_time;
838 fineTime = time_management_regs->fine_time;
839 headerCWF[ i ].acquisitionTime[0] = (unsigned char) (coarseTime>>24);
839 headerCWF[ i ].acquisitionTime[0] = (unsigned char) (coarseTime>>24);
840 headerCWF[ i ].acquisitionTime[1] = (unsigned char) (coarseTime>>16);
840 headerCWF[ i ].acquisitionTime[1] = (unsigned char) (coarseTime>>16);
841 headerCWF[ i ].acquisitionTime[2] = (unsigned char) (coarseTime>>8);
841 headerCWF[ i ].acquisitionTime[2] = (unsigned char) (coarseTime>>8);
842 headerCWF[ i ].acquisitionTime[3] = (unsigned char) (coarseTime);
842 headerCWF[ i ].acquisitionTime[3] = (unsigned char) (coarseTime);
843 headerCWF[ i ].acquisitionTime[4] = (unsigned char) (fineTime>>8);
843 headerCWF[ i ].acquisitionTime[4] = (unsigned char) (fineTime>>8);
844 headerCWF[ i ].acquisitionTime[5] = (unsigned char) (fineTime);
844 headerCWF[ i ].acquisitionTime[5] = (unsigned char) (fineTime);
845 headerCWF[ i ].time[0] = (unsigned char) (coarseTime>>24);
845 headerCWF[ i ].time[0] = (unsigned char) (coarseTime>>24);
846 headerCWF[ i ].time[1] = (unsigned char) (coarseTime>>16);
846 headerCWF[ i ].time[1] = (unsigned char) (coarseTime>>16);
847 headerCWF[ i ].time[2] = (unsigned char) (coarseTime>>8);
847 headerCWF[ i ].time[2] = (unsigned char) (coarseTime>>8);
848 headerCWF[ i ].time[3] = (unsigned char) (coarseTime);
848 headerCWF[ i ].time[3] = (unsigned char) (coarseTime);
849 headerCWF[ i ].time[4] = (unsigned char) (fineTime>>8);
849 headerCWF[ i ].time[4] = (unsigned char) (fineTime>>8);
850 headerCWF[ i ].time[5] = (unsigned char) (fineTime);
850 headerCWF[ i ].time[5] = (unsigned char) (fineTime);
851 // SEND PACKET
851 // SEND PACKET
852 if (sid == SID_NORM_CWF_F3)
852 if (sid == SID_NORM_CWF_F3)
853 {
853 {
854 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
854 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
855 if (status != RTEMS_SUCCESSFUL) {
855 if (status != RTEMS_SUCCESSFUL) {
856 printf("%d-%d, ERR %d\n", sid, i, (int) status);
856 printf("%d-%d, ERR %d\n", sid, i, (int) status);
857 ret = LFR_DEFAULT;
857 ret = LFR_DEFAULT;
858 }
858 }
859 rtems_task_wake_after(TIME_BETWEEN_TWO_CWF3_PACKETS);
859 rtems_task_wake_after(TIME_BETWEEN_TWO_CWF3_PACKETS);
860 }
860 }
861 else
861 else
862 {
862 {
863 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
863 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
864 if (status != RTEMS_SUCCESSFUL) {
864 if (status != RTEMS_SUCCESSFUL) {
865 printf("%d-%d, ERR %d\n", sid, i, (int) status);
865 printf("%d-%d, ERR %d\n", sid, i, (int) status);
866 ret = LFR_DEFAULT;
866 ret = LFR_DEFAULT;
867 }
867 }
868 }
868 }
869 }
869 }
870
870
871 return ret;
871 return ret;
872 }
872 }
873
873
874 int send_waveform_CWF3_light(volatile int *waveform, Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id)
874 int send_waveform_CWF3_light(volatile int *waveform, Header_TM_LFR_SCIENCE_CWF_t *headerCWF, rtems_id queue_id)
875 {
875 {
876 /** This function sends CWF_F3 CCSDS packets without the b1, b2 and b3 data.
876 /** This function sends CWF_F3 CCSDS packets without the b1, b2 and b3 data.
877 *
877 *
878 * @param waveform points to the buffer containing the data that will be send.
878 * @param waveform points to the buffer containing the data that will be send.
879 * @param headerCWF points to a table of headers that have been prepared for the data transmission.
879 * @param headerCWF points to a table of headers that have been prepared for the data transmission.
880 * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
880 * @param queue_id is the id of the rtems queue to which spw_ioctl_pkt_send structures will be send. The structures
881 * contain information to setup the transmission of the data packets.
881 * contain information to setup the transmission of the data packets.
882 *
882 *
883 * By default, CWF_F3 packet are send without the b1, b2 and b3 data. This function rebuilds a data buffer
883 * By default, CWF_F3 packet are send without the b1, b2 and b3 data. This function rebuilds a data buffer
884 * from the incoming data and sends it in 7 packets, 6 containing 340 blocks and 1 one containing 8 blocks.
884 * from the incoming data and sends it in 7 packets, 6 containing 340 blocks and 1 one containing 8 blocks.
885 *
885 *
886 */
886 */
887
887
888 unsigned int i;
888 unsigned int i;
889 int ret;
889 int ret;
890 rtems_status_code status;
890 rtems_status_code status;
891 spw_ioctl_pkt_send spw_ioctl_send_CWF;
891 spw_ioctl_pkt_send spw_ioctl_send_CWF;
892 char *sample;
892 char *sample;
893
893
894 spw_ioctl_send_CWF.hlen = TM_HEADER_LEN + 4 + 10; // + 4 is for the protocole extra header, + 10 is for the auxiliary header
894 spw_ioctl_send_CWF.hlen = TM_HEADER_LEN + 4 + 10; // + 4 is for the protocole extra header, + 10 is for the auxiliary header
895 spw_ioctl_send_CWF.options = 0;
895 spw_ioctl_send_CWF.options = 0;
896
896
897 ret = LFR_DEFAULT;
897 ret = LFR_DEFAULT;
898
898
899 //**********************
899 //**********************
900 // BUILD CWF3_light DATA
900 // BUILD CWF3_light DATA
901 for ( i=0; i< 2048; i++)
901 for ( i=0; i< 2048; i++)
902 {
902 {
903 sample = (char*) &waveform[ i * NB_WORDS_SWF_BLK ];
903 sample = (char*) &waveform[ i * NB_WORDS_SWF_BLK ];
904 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) ] = sample[ 0 ];
904 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) ] = sample[ 0 ];
905 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 1 ] = sample[ 1 ];
905 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 1 ] = sample[ 1 ];
906 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 2 ] = sample[ 2 ];
906 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 2 ] = sample[ 2 ];
907 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 3 ] = sample[ 3 ];
907 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 3 ] = sample[ 3 ];
908 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 4 ] = sample[ 4 ];
908 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 4 ] = sample[ 4 ];
909 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 5 ] = sample[ 5 ];
909 wf_cont_f3_light[ (i * NB_BYTES_CWF3_LIGHT_BLK) + 5 ] = sample[ 5 ];
910 }
910 }
911
911
912 //*********************
912 //*********************
913 // SEND CWF3_light DATA
913 // SEND CWF3_light DATA
914
914
915 for (i=0; i<7; i++) // send waveform
915 for (i=0; i<7; i++) // send waveform
916 {
916 {
917 int coarseTime = 0x00;
917 int coarseTime = 0x00;
918 int fineTime = 0x00;
918 int fineTime = 0x00;
919 spw_ioctl_send_CWF.data = (char*) &wf_cont_f3_light[ (i * 340 * NB_BYTES_CWF3_LIGHT_BLK) ];
919 spw_ioctl_send_CWF.data = (char*) &wf_cont_f3_light[ (i * 340 * NB_BYTES_CWF3_LIGHT_BLK) ];
920 spw_ioctl_send_CWF.hdr = (char*) &headerCWF[ i ];
920 spw_ioctl_send_CWF.hdr = (char*) &headerCWF[ i ];
921 // BUILD THE DATA
921 // BUILD THE DATA
922 if ( i == WFRM_INDEX_OF_LAST_PACKET ) {
922 if ( i == WFRM_INDEX_OF_LAST_PACKET ) {
923 spw_ioctl_send_CWF.dlen = 8 * NB_BYTES_CWF3_LIGHT_BLK;
923 spw_ioctl_send_CWF.dlen = 8 * NB_BYTES_CWF3_LIGHT_BLK;
924 }
924 }
925 else {
925 else {
926 spw_ioctl_send_CWF.dlen = 340 * NB_BYTES_CWF3_LIGHT_BLK;
926 spw_ioctl_send_CWF.dlen = 340 * NB_BYTES_CWF3_LIGHT_BLK;
927 }
927 }
928 // SET PACKET SEQUENCE COUNTER
928 // SET PACKET SEQUENCE COUNTER
929 increment_seq_counter_source_id( headerCWF[ i ].packetSequenceControl, SID_NORM_CWF_F3 );
929 increment_seq_counter_source_id( headerCWF[ i ].packetSequenceControl, SID_NORM_CWF_F3 );
930 // SET PACKET TIME
930 // SET PACKET TIME
931 coarseTime = time_management_regs->coarse_time;
931 coarseTime = time_management_regs->coarse_time;
932 fineTime = time_management_regs->fine_time;
932 fineTime = time_management_regs->fine_time;
933 headerCWF[ i ].acquisitionTime[0] = (unsigned char) (coarseTime>>24);
933 headerCWF[ i ].acquisitionTime[0] = (unsigned char) (coarseTime>>24);
934 headerCWF[ i ].acquisitionTime[1] = (unsigned char) (coarseTime>>16);
934 headerCWF[ i ].acquisitionTime[1] = (unsigned char) (coarseTime>>16);
935 headerCWF[ i ].acquisitionTime[2] = (unsigned char) (coarseTime>>8);
935 headerCWF[ i ].acquisitionTime[2] = (unsigned char) (coarseTime>>8);
936 headerCWF[ i ].acquisitionTime[3] = (unsigned char) (coarseTime);
936 headerCWF[ i ].acquisitionTime[3] = (unsigned char) (coarseTime);
937 headerCWF[ i ].acquisitionTime[4] = (unsigned char) (fineTime>>8);
937 headerCWF[ i ].acquisitionTime[4] = (unsigned char) (fineTime>>8);
938 headerCWF[ i ].acquisitionTime[5] = (unsigned char) (fineTime);
938 headerCWF[ i ].acquisitionTime[5] = (unsigned char) (fineTime);
939 headerCWF[ i ].time[0] = (unsigned char) (coarseTime>>24);
939 headerCWF[ i ].time[0] = (unsigned char) (coarseTime>>24);
940 headerCWF[ i ].time[1] = (unsigned char) (coarseTime>>16);
940 headerCWF[ i ].time[1] = (unsigned char) (coarseTime>>16);
941 headerCWF[ i ].time[2] = (unsigned char) (coarseTime>>8);
941 headerCWF[ i ].time[2] = (unsigned char) (coarseTime>>8);
942 headerCWF[ i ].time[3] = (unsigned char) (coarseTime);
942 headerCWF[ i ].time[3] = (unsigned char) (coarseTime);
943 headerCWF[ i ].time[4] = (unsigned char) (fineTime>>8);
943 headerCWF[ i ].time[4] = (unsigned char) (fineTime>>8);
944 headerCWF[ i ].time[5] = (unsigned char) (fineTime);
944 headerCWF[ i ].time[5] = (unsigned char) (fineTime);
945 // SEND PACKET
945 // SEND PACKET
946 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
946 status = rtems_message_queue_send( queue_id, &spw_ioctl_send_CWF, sizeof(spw_ioctl_send_CWF));
947 if (status != RTEMS_SUCCESSFUL) {
947 if (status != RTEMS_SUCCESSFUL) {
948 printf("%d-%d, ERR %d\n", SID_NORM_CWF_F3, i, (int) status);
948 printf("%d-%d, ERR %d\n", SID_NORM_CWF_F3, i, (int) status);
949 ret = LFR_DEFAULT;
949 ret = LFR_DEFAULT;
950 }
950 }
951 rtems_task_wake_after(TIME_BETWEEN_TWO_CWF3_PACKETS);
951 rtems_task_wake_after(TIME_BETWEEN_TWO_CWF3_PACKETS);
952 }
952 }
953
953
954 return ret;
954 return ret;
955 }
955 }
956
956
957
957
958 //**************
958 //**************
959 // wfp registers
959 // wfp registers
960 void set_wfp_data_shaping()
960 void set_wfp_data_shaping()
961 {
961 {
962 /** This function sets the data_shaping register of the waveform picker module.
962 /** This function sets the data_shaping register of the waveform picker module.
963 *
963 *
964 * The value is read from one field of the parameter_dump_packet structure:\n
964 * The value is read from one field of the parameter_dump_packet structure:\n
965 * bw_sp0_sp1_r0_r1
965 * bw_sp0_sp1_r0_r1
966 *
966 *
967 */
967 */
968
968
969 unsigned char data_shaping;
969 unsigned char data_shaping;
970
970
971 // get the parameters for the data shaping [BW SP0 SP1 R0 R1] in sy_lfr_common1 and configure the register
971 // get the parameters for the data shaping [BW SP0 SP1 R0 R1] in sy_lfr_common1 and configure the register
972 // waveform picker : [R1 R0 SP1 SP0 BW]
972 // waveform picker : [R1 R0 SP1 SP0 BW]
973
973
974 data_shaping = parameter_dump_packet.bw_sp0_sp1_r0_r1;
974 data_shaping = parameter_dump_packet.bw_sp0_sp1_r0_r1;
975
975
976 #ifdef GSA
976 #ifdef GSA
977 #else
977 #else
978 new_waveform_picker_regs->data_shaping =
978 new_waveform_picker_regs->data_shaping =
979 ( (data_shaping & 0x10) >> 4 ) // BW
979 ( (data_shaping & 0x10) >> 4 ) // BW
980 + ( (data_shaping & 0x08) >> 2 ) // SP0
980 + ( (data_shaping & 0x08) >> 2 ) // SP0
981 + ( (data_shaping & 0x04) ) // SP1
981 + ( (data_shaping & 0x04) ) // SP1
982 + ( (data_shaping & 0x02) << 2 ) // R0
982 + ( (data_shaping & 0x02) << 2 ) // R0
983 + ( (data_shaping & 0x01) << 4 ); // R1
983 + ( (data_shaping & 0x01) << 4 ); // R1
984 #endif
984 #endif
985 }
985 }
986
986
987 char set_wfp_delta_snapshot()
987 char set_wfp_delta_snapshot()
988 {
988 {
989 /** This function sets the delta_snapshot register of the waveform picker module.
989 /** This function sets the delta_snapshot register of the waveform picker module.
990 *
990 *
991 * The value is read from two (unsigned char) of the parameter_dump_packet structure:
991 * The value is read from two (unsigned char) of the parameter_dump_packet structure:
992 * - sy_lfr_n_swf_p[0]
992 * - sy_lfr_n_swf_p[0]
993 * - sy_lfr_n_swf_p[1]
993 * - sy_lfr_n_swf_p[1]
994 *
994 *
995 */
995 */
996
996
997 char ret;
997 char ret;
998 unsigned int delta_snapshot;
998 unsigned int delta_snapshot;
999 unsigned int aux;
999 unsigned int aux;
1000
1000
1001 aux = 0;
1001 aux = 0;
1002 ret = LFR_DEFAULT;
1002 ret = LFR_DEFAULT;
1003
1003
1004 delta_snapshot = parameter_dump_packet.sy_lfr_n_swf_p[0]*256
1004 delta_snapshot = parameter_dump_packet.sy_lfr_n_swf_p[0]*256
1005 + parameter_dump_packet.sy_lfr_n_swf_p[1];
1005 + parameter_dump_packet.sy_lfr_n_swf_p[1];
1006
1006
1007 #ifdef GSA
1007 #ifdef GSA
1008 #else
1008 #else
1009 if ( delta_snapshot < MIN_DELTA_SNAPSHOT )
1009 if ( delta_snapshot < MIN_DELTA_SNAPSHOT )
1010 {
1010 {
1011 aux = MIN_DELTA_SNAPSHOT;
1011 aux = MIN_DELTA_SNAPSHOT;
1012 ret = LFR_DEFAULT;
1012 ret = LFR_DEFAULT;
1013 }
1013 }
1014 else
1014 else
1015 {
1015 {
1016 aux = delta_snapshot ;
1016 aux = delta_snapshot ;
1017 ret = LFR_SUCCESSFUL;
1017 ret = LFR_SUCCESSFUL;
1018 }
1018 }
1019 new_waveform_picker_regs->delta_snapshot = aux - 1; // max 2 bytes
1019 new_waveform_picker_regs->delta_snapshot = aux - 1; // max 2 bytes
1020 #endif
1020 #endif
1021
1021
1022 return ret;
1022 return ret;
1023 }
1023 }
1024
1024
1025 void set_wfp_burst_enable_register( unsigned char mode)
1025 void set_wfp_burst_enable_register( unsigned char mode)
1026 {
1026 {
1027 /** This function sets the waveform picker burst_enable register depending on the mode.
1027 /** This function sets the waveform picker burst_enable register depending on the mode.
1028 *
1028 *
1029 * @param mode is the LFR mode to launch.
1029 * @param mode is the LFR mode to launch.
1030 *
1030 *
1031 * The burst bits shall be before the enable bits.
1031 * The burst bits shall be before the enable bits.
1032 *
1032 *
1033 */
1033 */
1034
1034
1035 #ifdef GSA
1035 #ifdef GSA
1036 #else
1036 #else
1037 // [0000 0000] burst f2, f1, f0 enable f3 f2 f1 f0
1037 // [0000 0000] burst f2, f1, f0 enable f3 f2 f1 f0
1038 // the burst bits shall be set first, before the enable bits
1038 // the burst bits shall be set first, before the enable bits
1039 switch(mode) {
1039 switch(mode) {
1040 case(LFR_MODE_NORMAL):
1040 case(LFR_MODE_NORMAL):
1041 new_waveform_picker_regs->run_burst_enable = 0x00; // [0000 0000] no burst enable
1041 new_waveform_picker_regs->run_burst_enable = 0x00; // [0000 0000] no burst enable
1042 // new_waveform_picker_regs->run_burst_enable = 0x0f; // [0000 1111] enable f3 f2 f1 f0
1042 // new_waveform_picker_regs->run_burst_enable = 0x0f; // [0000 1111] enable f3 f2 f1 f0
1043 // new_waveform_picker_regs->run_burst_enable = 0x07; // [0000 0111] enable f2 f1 f0
1043 // new_waveform_picker_regs->run_burst_enable = 0x07; // [0000 0111] enable f2 f1 f0
1044 // new_waveform_picker_regs->run_burst_enable = 0x01; // [0000 0001] enable f0
1044 // new_waveform_picker_regs->run_burst_enable = 0x01; // [0000 0001] enable f0
1045 new_waveform_picker_regs->run_burst_enable = 0x04; // [0000 0100] enable f0
1045 new_waveform_picker_regs->run_burst_enable = 0x04; // [0000 0100] enable f0
1046 break;
1046 break;
1047 case(LFR_MODE_BURST):
1047 case(LFR_MODE_BURST):
1048 new_waveform_picker_regs->run_burst_enable = 0x40; // [0100 0000] f2 burst enabled
1048 new_waveform_picker_regs->run_burst_enable = 0x40; // [0100 0000] f2 burst enabled
1049 new_waveform_picker_regs->run_burst_enable = new_waveform_picker_regs->run_burst_enable | 0x04; // [0100] enable f2
1049 new_waveform_picker_regs->run_burst_enable = new_waveform_picker_regs->run_burst_enable | 0x04; // [0100] enable f2
1050 break;
1050 break;
1051 case(LFR_MODE_SBM1):
1051 case(LFR_MODE_SBM1):
1052 new_waveform_picker_regs->run_burst_enable = 0x20; // [0010 0000] f1 burst enabled
1052 new_waveform_picker_regs->run_burst_enable = 0x20; // [0010 0000] f1 burst enabled
1053 new_waveform_picker_regs->run_burst_enable = new_waveform_picker_regs->run_burst_enable | 0x0f; // [1111] enable f3 f2 f1 f0
1053 new_waveform_picker_regs->run_burst_enable = new_waveform_picker_regs->run_burst_enable | 0x0f; // [1111] enable f3 f2 f1 f0
1054 break;
1054 break;
1055 case(LFR_MODE_SBM2):
1055 case(LFR_MODE_SBM2):
1056 new_waveform_picker_regs->run_burst_enable = 0x40; // [0100 0000] f2 burst enabled
1056 new_waveform_picker_regs->run_burst_enable = 0x40; // [0100 0000] f2 burst enabled
1057 new_waveform_picker_regs->run_burst_enable = new_waveform_picker_regs->run_burst_enable | 0x0f; // [1111] enable f3 f2 f1 f0
1057 new_waveform_picker_regs->run_burst_enable = new_waveform_picker_regs->run_burst_enable | 0x0f; // [1111] enable f3 f2 f1 f0
1058 break;
1058 break;
1059 default:
1059 default:
1060 new_waveform_picker_regs->run_burst_enable = 0x00; // [0000 0000] no burst enabled, no waveform enabled
1060 new_waveform_picker_regs->run_burst_enable = 0x00; // [0000 0000] no burst enabled, no waveform enabled
1061 break;
1061 break;
1062 }
1062 }
1063 #endif
1063 #endif
1064 }
1064 }
1065
1065
1066 void reset_wfp_run_burst_enable()
1066 void reset_wfp_run_burst_enable()
1067 {
1067 {
1068 /** This function resets the waveform picker burst_enable register.
1068 /** This function resets the waveform picker burst_enable register.
1069 *
1069 *
1070 * The burst bits [f2 f1 f0] and the enable bits [f3 f2 f1 f0] are set to 0.
1070 * The burst bits [f2 f1 f0] and the enable bits [f3 f2 f1 f0] are set to 0.
1071 *
1071 *
1072 */
1072 */
1073
1073
1074 #ifdef GSA
1074 #ifdef GSA
1075 #else
1075 #else
1076 new_waveform_picker_regs->run_burst_enable = 0x00; // burst f2, f1, f0 enable f3, f2, f1, f0
1076 new_waveform_picker_regs->run_burst_enable = 0x00; // burst f2, f1, f0 enable f3, f2, f1, f0
1077 #endif
1077 #endif
1078 }
1078 }
1079
1079
1080 void reset_wfp_status()
1080 void reset_wfp_status()
1081 {
1081 {
1082 /** This function resets the waveform picker status register.
1082 /** This function resets the waveform picker status register.
1083 *
1083 *
1084 * All status bits are set to 0 [new_err full_err full].
1084 * All status bits are set to 0 [new_err full_err full].
1085 *
1085 *
1086 */
1086 */
1087
1087
1088 #ifdef GSA
1088 #ifdef GSA
1089 #else
1089 #else
1090 new_waveform_picker_regs->status = 0x00; // burst f2, f1, f0 enable f3, f2, f1, f0
1090 new_waveform_picker_regs->status = 0x00; // burst f2, f1, f0 enable f3, f2, f1, f0
1091 #endif
1091 #endif
1092 }
1092 }
1093
1093
1094 void reset_new_waveform_picker_regs()
1094 void reset_new_waveform_picker_regs()
1095 {
1095 {
1096 /** This function resets the waveform picker module registers.
1096 /** This function resets the waveform picker module registers.
1097 *
1097 *
1098 * The registers affected by this function are located at the following offset addresses:
1098 * The registers affected by this function are located at the following offset addresses:
1099 * - 0x00 data_shaping
1099 * - 0x00 data_shaping
1100 * - 0x04 run_burst_enable
1100 * - 0x04 run_burst_enable
1101 * - 0x08 addr_data_f0
1101 * - 0x08 addr_data_f0
1102 * - 0x0C addr_data_f1
1102 * - 0x0C addr_data_f1
1103 * - 0x10 addr_data_f2
1103 * - 0x10 addr_data_f2
1104 * - 0x14 addr_data_f3
1104 * - 0x14 addr_data_f3
1105 * - 0x18 status
1105 * - 0x18 status
1106 * - 0x1C delta_snapshot
1106 * - 0x1C delta_snapshot
1107 * - 0x20 delta_f0
1107 * - 0x20 delta_f0
1108 * - 0x24 delta_f0_2
1108 * - 0x24 delta_f0_2
1109 * - 0x28 delta_f1
1109 * - 0x28 delta_f1
1110 * - 0x2c delta_f2
1110 * - 0x2c delta_f2
1111 * - 0x30 nb_data_by_buffer
1111 * - 0x30 nb_data_by_buffer
1112 * - 0x34 nb_snapshot_param
1112 * - 0x34 nb_snapshot_param
1113 * - 0x38 start_date
1113 * - 0x38 start_date
1114 * - 0x3c nb_word_in_buffer
1114 * - 0x3c nb_word_in_buffer
1115 *
1115 *
1116 */
1116 */
1117
1117
1118 unsigned int wf_snap_f0_aligned;
1118 unsigned int wf_snap_f0_aligned;
1119 unsigned int wf_snap_f1_aligned;
1119 unsigned int wf_snap_f1_aligned;
1120 unsigned int wf_snap_f2_aligned;
1120 unsigned int wf_snap_f2_aligned;
1121 unsigned int wf_cont_f3_aligned;
1121 unsigned int wf_cont_f3_aligned;
1122
1122
1123 new_waveform_picker_regs->data_shaping = 0x01; // 0x00 *** R1 R0 SP1 SP0 BW
1123 new_waveform_picker_regs->data_shaping = 0x01; // 0x00 *** R1 R0 SP1 SP0 BW
1124 new_waveform_picker_regs->run_burst_enable = 0x00; // 0x04 *** [run *** burst f2, f1, f0 *** enable f3, f2, f1, f0 ]
1124 new_waveform_picker_regs->run_burst_enable = 0x00; // 0x04 *** [run *** burst f2, f1, f0 *** enable f3, f2, f1, f0 ]
1125 wf_snap_f0_aligned = address_alignment( wf_snap_f0 );
1125 wf_snap_f0_aligned = address_alignment( wf_snap_f0 );
1126 wf_snap_f1_aligned = address_alignment( wf_snap_f1 );
1126 wf_snap_f1_aligned = address_alignment( wf_snap_f1 );
1127 wf_snap_f2_aligned = address_alignment( wf_snap_f2 );
1127 wf_snap_f2_aligned = address_alignment( wf_snap_f2 );
1128 wf_cont_f3_aligned = address_alignment( wf_cont_f3 );
1128 wf_cont_f3_aligned = address_alignment( wf_cont_f3 );
1129 new_waveform_picker_regs->addr_data_f0 = (int) (wf_snap_f0_aligned); // 0x08
1129 new_waveform_picker_regs->addr_data_f0 = (int) (wf_snap_f0_aligned); // 0x08
1130 new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_aligned); // 0x0c
1130 new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_aligned); // 0x0c
1131 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_aligned); // 0x10
1131 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_aligned); // 0x10
1132 new_waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3_aligned); // 0x14
1132 new_waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3_aligned); // 0x14
1133 new_waveform_picker_regs->status = 0x00; // 0x18
1133 new_waveform_picker_regs->status = 0x00; // 0x18
1134 // new_waveform_picker_regs->delta_snapshot = 0x12800; // 0x1c 296 * 256 = 75776
1134 // new_waveform_picker_regs->delta_snapshot = 0x12800; // 0x1c 296 * 256 = 75776
1135 // new_waveform_picker_regs->delta_snapshot = 0x1000; // 0x1c 16 * 256 = 4096
1135 // new_waveform_picker_regs->delta_snapshot = 0x1000; // 0x1c 16 * 256 = 4096
1136 new_waveform_picker_regs->delta_snapshot = 0x2000; // 0x1c 32 * 256 = 8192
1136 new_waveform_picker_regs->delta_snapshot = 0x2000; // 0x1c 32 * 256 = 8192
1137 new_waveform_picker_regs->delta_f0 = 0xbf5; // 0x20 *** 1013
1137 new_waveform_picker_regs->delta_f0 = 0xbf5; // 0x20 *** 1013
1138 new_waveform_picker_regs->delta_f0_2 = 0x7; // 0x24 *** 7 [7 bits]
1138 new_waveform_picker_regs->delta_f0_2 = 0x7; // 0x24 *** 7 [7 bits]
1139 new_waveform_picker_regs->delta_f1 = 0xbc0; // 0x28 *** 960
1139 new_waveform_picker_regs->delta_f1 = 0xbc0; // 0x28 *** 960
1140 // new_waveform_picker_regs->delta_f2 = 0x12200; // 0x2c *** 74240
1140 // new_waveform_picker_regs->delta_f2 = 0x12200; // 0x2c *** 74240
1141 new_waveform_picker_regs->delta_f2 = 0xc00; // 0x2c *** 12 * 256 = 3072
1141 new_waveform_picker_regs->delta_f2 = 0xc00; // 0x2c *** 12 * 256 = 3072
1142 new_waveform_picker_regs->nb_data_by_buffer = 0x7ff; // 0x30 *** 2048 -1 => nb samples -1
1142 new_waveform_picker_regs->nb_data_by_buffer = 0x7ff; // 0x30 *** 2048 -1 => nb samples -1
1143 new_waveform_picker_regs->snapshot_param = 0x800; // 0x34 *** 2048 => nb samples
1143 new_waveform_picker_regs->snapshot_param = 0x800; // 0x34 *** 2048 => nb samples
1144 new_waveform_picker_regs->start_date = 0x00; // 0x38
1144 new_waveform_picker_regs->start_date = 0x00; // 0x38
1145 new_waveform_picker_regs->nb_word_in_buffer = 0x1802; // 0x3c *** 2048 * 3 + 2 = 6146
1145 new_waveform_picker_regs->nb_word_in_buffer = 0x1802; // 0x3c *** 2048 * 3 + 2 = 6146
1146 }
1146 }
1147
1147
1148 void reset_new_waveform_picker_regs_alt()
1148 void reset_new_waveform_picker_regs_alt()
1149 {
1149 {
1150 /** This function resets the waveform picker module registers.
1150 /** This function resets the waveform picker module registers.
1151 *
1151 *
1152 * The registers affected by this function are located at the following offset addresses:
1152 * The registers affected by this function are located at the following offset addresses:
1153 * - 0x00 data_shaping
1153 * - 0x00 data_shaping
1154 * - 0x04 run_burst_enable
1154 * - 0x04 run_burst_enable
1155 * - 0x08 addr_data_f0
1155 * - 0x08 addr_data_f0
1156 * - 0x0C addr_data_f1
1156 * - 0x0C addr_data_f1
1157 * - 0x10 addr_data_f2
1157 * - 0x10 addr_data_f2
1158 * - 0x14 addr_data_f3
1158 * - 0x14 addr_data_f3
1159 * - 0x18 status
1159 * - 0x18 status
1160 * - 0x1C delta_snapshot
1160 * - 0x1C delta_snapshot
1161 * - 0x20 delta_f0
1161 * - 0x20 delta_f0
1162 * - 0x24 delta_f0_2
1162 * - 0x24 delta_f0_2
1163 * - 0x28 delta_f1
1163 * - 0x28 delta_f1
1164 * - 0x2c delta_f2
1164 * - 0x2c delta_f2
1165 * - 0x30 nb_data_by_buffer
1165 * - 0x30 nb_data_by_buffer
1166 * - 0x34 nb_snapshot_param
1166 * - 0x34 nb_snapshot_param
1167 * - 0x38 start_date
1167 * - 0x38 start_date
1168 * - 0x3c nb_word_in_buffer
1168 * - 0x3c nb_word_in_buffer
1169 *
1169 *
1170 */
1170 */
1171
1171
1172 unsigned int wf_snap_f0_aligned;
1172 unsigned int wf_snap_f0_aligned;
1173 unsigned int wf_snap_f1_aligned;
1173 unsigned int wf_snap_f1_aligned;
1174 unsigned int wf_snap_f2_aligned;
1174 unsigned int wf_snap_f2_aligned;
1175 unsigned int wf_cont_f3_aligned;
1175 unsigned int wf_cont_f3_aligned;
1176
1176
1177 new_waveform_picker_regs->data_shaping = 0x01; // 0x00 *** R1 R0 SP1 SP0 BW
1177 new_waveform_picker_regs->data_shaping = 0x01; // 0x00 *** R1 R0 SP1 SP0 BW
1178 new_waveform_picker_regs->run_burst_enable = 0x00; // 0x04 *** [run *** burst f2, f1, f0 *** enable f3, f2, f1, f0 ]
1178 new_waveform_picker_regs->run_burst_enable = 0x00; // 0x04 *** [run *** burst f2, f1, f0 *** enable f3, f2, f1, f0 ]
1179 wf_snap_f0_aligned = address_alignment( wf_snap_f0 );
1179 wf_snap_f0_aligned = address_alignment( wf_snap_f0 );
1180 wf_snap_f1_aligned = address_alignment( wf_snap_f1 );
1180 wf_snap_f1_aligned = address_alignment( wf_snap_f1 );
1181 wf_snap_f2_aligned = address_alignment( wf_snap_f2 );
1181 wf_snap_f2_aligned = address_alignment( wf_snap_f2 );
1182 wf_cont_f3_aligned = address_alignment( wf_cont_f3 );
1182 wf_cont_f3_aligned = address_alignment( wf_cont_f3 );
1183 new_waveform_picker_regs->addr_data_f0 = (int) (wf_snap_f0_aligned); // 0x08
1183 new_waveform_picker_regs->addr_data_f0 = (int) (wf_snap_f0_aligned); // 0x08
1184 new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_aligned); // 0x0c
1184 new_waveform_picker_regs->addr_data_f1 = (int) (wf_snap_f1_aligned); // 0x0c
1185 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_aligned); // 0x10
1185 new_waveform_picker_regs->addr_data_f2 = (int) (wf_snap_f2_aligned); // 0x10
1186 new_waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3_aligned); // 0x14
1186 new_waveform_picker_regs->addr_data_f3 = (int) (wf_cont_f3_aligned); // 0x14
1187 new_waveform_picker_regs->status = 0x00; // 0x18
1187 new_waveform_picker_regs->status = 0x00; // 0x18
1188 // new_waveform_picker_regs->delta_snapshot = 0x12800; // 0x1c 296 * 256 = 75776
1188 // new_waveform_picker_regs->delta_snapshot = 0x12800; // 0x1c 296 * 256 = 75776
1189 new_waveform_picker_regs->delta_snapshot = 0x1000; // 0x1c 16 * 256 = 4096
1189 new_waveform_picker_regs->delta_snapshot = 0x1000; // 0x1c 16 * 256 = 4096
1190 new_waveform_picker_regs->delta_f0 = 0xbf5; // 0x20 *** 1013
1190 new_waveform_picker_regs->delta_f0 = 0xbf5; // 0x20 *** 1013
1191 new_waveform_picker_regs->delta_f0_2 = 0x7; // 0x24 *** 7 [7 bits]
1191 new_waveform_picker_regs->delta_f0_2 = 0x7; // 0x24 *** 7 [7 bits]
1192 new_waveform_picker_regs->delta_f1 = 0xbc0; // 0x28 *** 960
1192 new_waveform_picker_regs->delta_f1 = 0xbc0; // 0x28 *** 960
1193 // new_waveform_picker_regs->delta_f2 = 0x12200; // 0x2c *** 74240
1193 // new_waveform_picker_regs->delta_f2 = 0x12200; // 0x2c *** 74240
1194 new_waveform_picker_regs->delta_f2 = 0xc00; // 0x2c *** 12 * 256 = 3072
1194 new_waveform_picker_regs->delta_f2 = 0xc00; // 0x2c *** 12 * 256 = 3072
1195 new_waveform_picker_regs->nb_data_by_buffer = 0x07; // 0x30 *** 7
1195 new_waveform_picker_regs->nb_data_by_buffer = 0x07; // 0x30 *** 7
1196 new_waveform_picker_regs->snapshot_param = 0x10; // 0x34 *** 16
1196 new_waveform_picker_regs->snapshot_param = 0x10; // 0x34 *** 16
1197 new_waveform_picker_regs->start_date = 0x00; // 0x38
1197 new_waveform_picker_regs->start_date = 0x00; // 0x38
1198 new_waveform_picker_regs->nb_word_in_buffer = 0x34; // 0x3c *** (3 * 8 + 2) * 2
1198 new_waveform_picker_regs->nb_word_in_buffer = 0x34; // 0x3c *** (3 * 8 + 2) * 2
1199 }
1199 }
1200
1200
1201 //*****************
1201 //*****************
1202 // local parameters
1202 // local parameters
1203 void set_local_sbm1_nb_cwf_max()
1203 void set_local_sbm1_nb_cwf_max()
1204 {
1204 {
1205 /** This function sets the value of the sbm1_nb_cwf_max local parameter.
1205 /** This function sets the value of the sbm1_nb_cwf_max local parameter.
1206 *
1206 *
1207 * The sbm1_nb_cwf_max parameter counts the number of CWF_F1 records that have been sent.\n
1207 * The sbm1_nb_cwf_max parameter counts the number of CWF_F1 records that have been sent.\n
1208 * This parameter is used to send CWF_F1 data as normal data when the SBM1 is active.\n\n
1208 * This parameter is used to send CWF_F1 data as normal data when the SBM1 is active.\n\n
1209 * (2 snapshots of 2048 points per seconds) * (period of the NORM snashots) - 8 s (duration of the f2 snapshot)
1209 * (2 snapshots of 2048 points per seconds) * (period of the NORM snashots) - 8 s (duration of the f2 snapshot)
1210 *
1210 *
1211 */
1211 */
1212 param_local.local_sbm1_nb_cwf_max = 2 *
1212 param_local.local_sbm1_nb_cwf_max = 2 *
1213 (parameter_dump_packet.sy_lfr_n_swf_p[0] * 256
1213 (parameter_dump_packet.sy_lfr_n_swf_p[0] * 256
1214 + parameter_dump_packet.sy_lfr_n_swf_p[1]) - 8; // 16 CWF1 parts during 1 SWF2
1214 + parameter_dump_packet.sy_lfr_n_swf_p[1]) - 8; // 16 CWF1 parts during 1 SWF2
1215 }
1215 }
1216
1216
1217 void set_local_sbm2_nb_cwf_max()
1217 void set_local_sbm2_nb_cwf_max()
1218 {
1218 {
1219 /** This function sets the value of the sbm1_nb_cwf_max local parameter.
1219 /** This function sets the value of the sbm1_nb_cwf_max local parameter.
1220 *
1220 *
1221 * The sbm1_nb_cwf_max parameter counts the number of CWF_F1 records that have been sent.\n
1221 * The sbm1_nb_cwf_max parameter counts the number of CWF_F1 records that have been sent.\n
1222 * This parameter is used to send CWF_F2 data as normal data when the SBM2 is active.\n\n
1222 * This parameter is used to send CWF_F2 data as normal data when the SBM2 is active.\n\n
1223 * (period of the NORM snashots) / (8 seconds per snapshot at f2 = 256 Hz)
1223 * (period of the NORM snashots) / (8 seconds per snapshot at f2 = 256 Hz)
1224 *
1224 *
1225 */
1225 */
1226
1226
1227 param_local.local_sbm2_nb_cwf_max = (parameter_dump_packet.sy_lfr_n_swf_p[0] * 256
1227 param_local.local_sbm2_nb_cwf_max = (parameter_dump_packet.sy_lfr_n_swf_p[0] * 256
1228 + parameter_dump_packet.sy_lfr_n_swf_p[1]) / 8;
1228 + parameter_dump_packet.sy_lfr_n_swf_p[1]) / 8;
1229 }
1229 }
1230
1230
1231 void set_local_nb_interrupt_f0_MAX()
1231 void set_local_nb_interrupt_f0_MAX()
1232 {
1232 {
1233 /** This function sets the value of the nb_interrupt_f0_MAX local parameter.
1233 /** This function sets the value of the nb_interrupt_f0_MAX local parameter.
1234 *
1234 *
1235 * This parameter is used for the SM validation only.\n
1235 * This parameter is used for the SM validation only.\n
1236 * The software waits param_local.local_nb_interrupt_f0_MAX interruptions from the spectral matrices
1236 * The software waits param_local.local_nb_interrupt_f0_MAX interruptions from the spectral matrices
1237 * module before launching a basic processing.
1237 * module before launching a basic processing.
1238 *
1238 *
1239 */
1239 */
1240
1240
1241 param_local.local_nb_interrupt_f0_MAX = ( (parameter_dump_packet.sy_lfr_n_asm_p[0]) * 256
1241 param_local.local_nb_interrupt_f0_MAX = ( (parameter_dump_packet.sy_lfr_n_asm_p[0]) * 256
1242 + parameter_dump_packet.sy_lfr_n_asm_p[1] ) * 100;
1242 + parameter_dump_packet.sy_lfr_n_asm_p[1] ) * 100;
1243 }
1243 }
1244
1244
1245 void reset_local_sbm1_nb_cwf_sent()
1245 void reset_local_sbm1_nb_cwf_sent()
1246 {
1246 {
1247 /** This function resets the value of the sbm1_nb_cwf_sent local parameter.
1247 /** This function resets the value of the sbm1_nb_cwf_sent local parameter.
1248 *
1248 *
1249 * The sbm1_nb_cwf_sent parameter counts the number of CWF_F1 records that have been sent.\n
1249 * The sbm1_nb_cwf_sent parameter counts the number of CWF_F1 records that have been sent.\n
1250 * This parameter is used to send CWF_F1 data as normal data when the SBM1 is active.
1250 * This parameter is used to send CWF_F1 data as normal data when the SBM1 is active.
1251 *
1251 *
1252 */
1252 */
1253
1253
1254 param_local.local_sbm1_nb_cwf_sent = 0;
1254 param_local.local_sbm1_nb_cwf_sent = 0;
1255 }
1255 }
1256
1256
1257 void reset_local_sbm2_nb_cwf_sent()
1257 void reset_local_sbm2_nb_cwf_sent()
1258 {
1258 {
1259 /** This function resets the value of the sbm2_nb_cwf_sent local parameter.
1259 /** This function resets the value of the sbm2_nb_cwf_sent local parameter.
1260 *
1260 *
1261 * The sbm2_nb_cwf_sent parameter counts the number of CWF_F2 records that have been sent.\n
1261 * The sbm2_nb_cwf_sent parameter counts the number of CWF_F2 records that have been sent.\n
1262 * This parameter is used to send CWF_F2 data as normal data when the SBM2 mode is active.
1262 * This parameter is used to send CWF_F2 data as normal data when the SBM2 mode is active.
1263 *
1263 *
1264 */
1264 */
1265
1265
1266 param_local.local_sbm2_nb_cwf_sent = 0;
1266 param_local.local_sbm2_nb_cwf_sent = 0;
1267 }
1267 }
1268
1268
1269 rtems_id get_pkts_queue_id( void )
1269 rtems_id get_pkts_queue_id( void )
1270 {
1270 {
1271 rtems_id queue_id;
1271 rtems_id queue_id;
1272 rtems_status_code status;
1272 rtems_status_code status;
1273 rtems_name queue_send_name;
1273 rtems_name queue_send_name;
1274
1274
1275 queue_send_name = rtems_build_name( 'Q', '_', 'S', 'D' );
1275 queue_send_name = rtems_build_name( 'Q', '_', 'S', 'D' );
1276
1276
1277 status = rtems_message_queue_ident( queue_send_name, 0, &queue_id );
1277 status = rtems_message_queue_ident( queue_send_name, 0, &queue_id );
1278 if (status != RTEMS_SUCCESSFUL)
1278 if (status != RTEMS_SUCCESSFUL)
1279 {
1279 {
1280 PRINTF1("in get_pkts_queue_id *** ERR %d\n", status)
1280 PRINTF1("in get_pkts_queue_id *** ERR %d\n", status)
1281 }
1281 }
1282 return queue_id;
1282 return queue_id;
1283 }
1283 }
1284
1284
1285 void increment_seq_counter_source_id( unsigned char *packet_sequence_control, unsigned int sid )
1285 void increment_seq_counter_source_id( unsigned char *packet_sequence_control, unsigned int sid )
1286 {
1286 {
1287 unsigned short *sequence_cnt;
1287 unsigned short *sequence_cnt;
1288 unsigned short segmentation_grouping_flag;
1288 unsigned short segmentation_grouping_flag;
1289 unsigned short new_packet_sequence_control;
1289 unsigned short new_packet_sequence_control;
1290
1290
1291 if ( (sid ==SID_NORM_SWF_F0) || (sid ==SID_NORM_SWF_F1) || (sid ==SID_NORM_SWF_F2)
1291 if ( (sid ==SID_NORM_SWF_F0) || (sid ==SID_NORM_SWF_F1) || (sid ==SID_NORM_SWF_F2)
1292 || (sid ==SID_NORM_CWF_F3) || (sid ==SID_BURST_CWF_F2) )
1292 || (sid ==SID_NORM_CWF_F3) || (sid ==SID_BURST_CWF_F2) )
1293 {
1293 {
1294 sequence_cnt = &sequenceCounters_SCIENCE_NORMAL_BURST;
1294 sequence_cnt = &sequenceCounters_SCIENCE_NORMAL_BURST;
1295 }
1295 }
1296 else if ( (sid ==SID_SBM1_CWF_F1) || (sid ==SID_SBM2_CWF_F2) )
1296 else if ( (sid ==SID_SBM1_CWF_F1) || (sid ==SID_SBM2_CWF_F2) )
1297 {
1297 {
1298 sequence_cnt = &sequenceCounters_SCIENCE_SBM1_SBM2;
1298 sequence_cnt = &sequenceCounters_SCIENCE_SBM1_SBM2;
1299 }
1299 }
1300 else
1300 else
1301 {
1301 {
1302 sequence_cnt = &sequenceCounters_TC_EXE[ UNKNOWN ];
1302 sequence_cnt = &sequenceCounters_TC_EXE[ UNKNOWN ];
1303 PRINTF1("in increment_seq_counter_source_id *** ERR apid_destid %d not known\n", sid)
1303 PRINTF1("in increment_seq_counter_source_id *** ERR apid_destid %d not known\n", sid)
1304 }
1304 }
1305
1305
1306 segmentation_grouping_flag = (packet_sequence_control[ 0 ] & 0xc0) << 8;
1306 segmentation_grouping_flag = (packet_sequence_control[ 0 ] & 0xc0) << 8;
1307 *sequence_cnt = (*sequence_cnt) & 0x3fff;
1307 *sequence_cnt = (*sequence_cnt) & 0x3fff;
1308
1308
1309 new_packet_sequence_control = segmentation_grouping_flag | *sequence_cnt ;
1309 new_packet_sequence_control = segmentation_grouping_flag | *sequence_cnt ;
1310
1310
1311 packet_sequence_control[0] = (unsigned char) (new_packet_sequence_control >> 8);
1311 packet_sequence_control[0] = (unsigned char) (new_packet_sequence_control >> 8);
1312 packet_sequence_control[1] = (unsigned char) (new_packet_sequence_control );
1312 packet_sequence_control[1] = (unsigned char) (new_packet_sequence_control );
1313
1313
1314 // increment the sequence counter for the next packet
1314 // increment the sequence counter for the next packet
1315 if ( *sequence_cnt < SEQ_CNT_MAX)
1315 if ( *sequence_cnt < SEQ_CNT_MAX)
1316 {
1316 {
1317 *sequence_cnt = *sequence_cnt + 1;
1317 *sequence_cnt = *sequence_cnt + 1;
1318 }
1318 }
1319 else
1319 else
1320 {
1320 {
1321 *sequence_cnt = 0;
1321 *sequence_cnt = 0;
1322 }
1322 }
1323 }
1323 }
1324
1324
1325 unsigned int address_alignment( volatile int *address)
1325 unsigned int address_alignment( volatile int *address)
1326 {
1326 {
1327 unsigned char i;
1327 unsigned char i;
1328 unsigned char lastByte;
1328 unsigned char lastByte;
1329 unsigned int addressAligned;
1329 unsigned int addressAligned;
1330
1330
1331 addressAligned = (unsigned int) address;
1331 addressAligned = (unsigned int) address;
1332
1332
1333 PRINTF1("address %x\n", addressAligned );
1333 PRINTF1("address %x\n", addressAligned );
1334
1334
1335 for (i=0; i<256; i++)
1335 for (i=0; i<256; i++)
1336 {
1336 {
1337 lastByte = (unsigned char) ( addressAligned & 0x000000ff ) ;
1337 lastByte = (unsigned char) ( addressAligned & 0x000000ff ) ;
1338 if (lastByte == 0x00)
1338 if (lastByte == 0x00)
1339 {
1339 {
1340 break;
1340 break;
1341 }
1341 }
1342 else
1342 else
1343 {
1343 {
1344 addressAligned = addressAligned + 1;
1344 addressAligned = addressAligned + 1;
1345 }
1345 }
1346 }
1346 }
1347
1347
1348 PRINTF2("i = %d, address %x\n", i, (int) addressAligned);
1348 PRINTF2("i = %d, address %x\n", i, (int) addressAligned);
1349
1349
1350 return addressAligned;
1350 return addressAligned;
1351 }
1351 }
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