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base: fsfw:v2.0.0
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fsfw:master fsfw:development fsfw:mohr/romeo fsfw:development-doc-deployment fsfw:development-doc-test0 fsfw:switch-doc-theme-to-rtd fsfw:action-update fsfw:obj-manager-tweak fsfw:mohr_introspection fsfw:mohr/windows fsfw:mohr/GCC13 fsfw:mohr/timetag_fix fsfw:mohr/relsease_helper fsfw:mohr/warnings fsfw:mohr/rtems fsfw:mohr/freeRTOS fsfw:mueller/new-cfdp-update-with-handlers fsfw:mohr/dhb2normal fsfw:mueller/obj-man-remove-weird-proc-func fsfw:mohr/documentation_ci fsfw:mueller/fsfw-from-zero fsfw:mueller/data-wrapper fsfw:mueller/dhb-handle-device-tm fsfw:mueller/refactor-tmtc-stack-with-retval-refactoring fsfw:mueller/refactor-logging-with-fmt fsfw:meier/upstream-pus-distributor-bugfix fsfw:mueller/clang-improvements
fsfw:docker_d12 fsfw:docker_d11 fsfw:docker_d10 fsfw:v6.0.0 fsfw:docker_d9 fsfw:docker_d8 fsfw:docker_d7 fsfw:docker_d6 fsfw:docker_d5 fsfw:docker_d4 fsfw:v5.0.0 fsfw:docker_d3 fsfw:docker_d2 fsfw:v4.0.0 fsfw:docker_d1 fsfw:v3.0.1 fsfw:v3.0.0 fsfw:v2.0.1 fsfw:v2.0.0 fsfw:ASTP_1.1.0 fsfw:ASTP_1.0.0 fsfw:ASTP_0.0.1
..
compare: fsfw:v3.0.1
Branches Tags
fsfw:development fsfw:mohr/romeo fsfw:development-doc-deployment fsfw:development-doc-test0 fsfw:switch-doc-theme-to-rtd fsfw:action-update fsfw:obj-manager-tweak fsfw:mohr_introspection fsfw:mohr/windows fsfw:mohr/GCC13 fsfw:mohr/timetag_fix fsfw:master fsfw:mohr/relsease_helper fsfw:mohr/warnings fsfw:mohr/rtems fsfw:mohr/freeRTOS fsfw:mueller/new-cfdp-update-with-handlers fsfw:mohr/dhb2normal fsfw:mueller/obj-man-remove-weird-proc-func fsfw:mohr/documentation_ci fsfw:mueller/fsfw-from-zero fsfw:mueller/data-wrapper fsfw:mueller/dhb-handle-device-tm fsfw:mueller/refactor-tmtc-stack-with-retval-refactoring fsfw:mueller/refactor-logging-with-fmt fsfw:meier/upstream-pus-distributor-bugfix fsfw:mueller/clang-improvements
fsfw:docker_d12 fsfw:docker_d11 fsfw:docker_d10 fsfw:v6.0.0 fsfw:docker_d9 fsfw:docker_d8 fsfw:docker_d7 fsfw:docker_d6 fsfw:docker_d5 fsfw:docker_d4 fsfw:v5.0.0 fsfw:docker_d3 fsfw:docker_d2 fsfw:v4.0.0 fsfw:docker_d1 fsfw:v3.0.1 fsfw:v3.0.0 fsfw:v2.0.1 fsfw:v2.0.0 fsfw:ASTP_1.1.0 fsfw:ASTP_1.0.0 fsfw:ASTP_0.0.1

165 Commits
v2.0.0 ... v3.0.1

Author SHA1 Message Date
Ulrich Mohr
620841a9e5 Merge pull request 'bump version' (#542) from mueller/bump-version into master
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Reviewed-on: #542
 2022-02-04 13:23:24 +01:00
Robin Mueller
bd29688307 bump revision
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2022-02-04 13:11:27 +01:00
Robin Mueller
43b7a314b6 bump version 2022-02-04 13:11:27 +01:00
Ulrich Mohr
2a268e14d1 Merge pull request 'Release v3.0.0' (#532) from development into master
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Reviewed-on: #532
 2022-01-10 14:52:31 +01:00
Steffen Gaisser
bd64a43819 Merge pull request 'simplified test controller and added docs gitignore' (#530) from mueller/controller-update into development
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fsfw/fsfw/pipeline/pr-master manual fix for jenkins bug
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Reviewed-on: #530
 2021-12-20 14:15:37 +01:00
Robin Mueller
d0c7878da4 simplified test controller and added docs gitignore
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2021-12-14 17:50:23 +01:00
Ulrich Mohr
2bd1e6acbd Merge pull request 'Added formatting scripts' (#527) from KSat/fsfw:mueller/clang-shell-script into development
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Reviewed-on: #527
 2021-12-13 14:26:22 +01:00
Robin Müller
9697575f50 Merge branch 'development' into mueller/clang-shell-script 2021-12-13 14:25:11 +01:00
Steffen Gaisser
cec44ad44c Merge pull request 'improved win32 define' (#529) from KSat/fsfw:woodward/define-improvement into development
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Reviewed-on: #529
 2021-12-13 14:20:50 +01:00
David
661b7b44e0 improved win32 define
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2021-12-12 19:28:51 +01:00
Robin Mueller
e952a82b65 small tweaks and fixes
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2021-12-07 13:14:57 +01:00
Robin Mueller
cbcfa8fe56 Merge remote-tracking branch 'upstream/development' into mueller/clang-shell-script
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2021-12-06 15:06:05 +01:00
Steffen Gaisser
32ba4301e4 Merge pull request 'Introducing documentation with Sphinx' (#526) from mueller/sphinx-docs into development
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Reviewed-on: #526
 2021-12-06 15:05:29 +01:00
Robin Mueller
4a5204d6f6 small fix for helper script 2021-12-06 14:46:31 +01:00
Robin Mueller
df45f02c39 script fixes, odd behaviour 2021-12-03 14:55:00 +01:00
Robin Mueller
15dddd7fc4 small README section for formatting 2021-12-01 16:17:27 +01:00
Robin Mueller
fd7581f8ba Added formatting scripts 
1. Added .clang-format file which contains information for the
   clang-format tool on how to format source files
2. Added shell helper script to apply all changes on HAL soures,
   test sources and primary sources

The shell script was not applied yet. This should be done shortly
before introducing the release. Also, it might be good idea to provide
instructions on how to set up the formatter for Eclipse
 2021-12-01 16:11:57 +01:00
Robin Mueller
c2bf09d506 Introducing documentation with Sphinx 
This PR introduces the generation of documentation based on
this excellent blog post: https://devblogs.microsoft.com/cppblog/clear-functional-c-documentation-with-sphinx-breathe-doxygen-cmake/

It combines the tools Sphinx, Doxygen and Breathe to generate good
looking HTML documentation conveniently which can be hosted easily.

The helper scripts were unified and there is now one helper.py script
which can be used to create, build and open both tests and documentation.
"./helper.py -h" can be used to get the different options.

This PR also contains some smaller fixes which were necessary for the docs
to build
 2021-12-01 11:17:28 +01:00
Steffen Gaisser
bf31248a50 Merge pull request 'Update SerializeAdapter' (#513) from KSat/fsfw:mueller/serializeif-update into development
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Reviewed-on: #513
 2021-11-29 14:37:40 +01:00
Robin Müller
9fadc9b830 Merge branch 'development' into mueller/serializeif-update 2021-11-29 14:36:25 +01:00
Steffen Gaisser
8c17c7e1a7 Merge pull request 'update unittest helper scripts' (#525) from eive/fsfw:mueller/update-scripts into development
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Reviewed-on: #525
 2021-11-29 14:35:07 +01:00
Robin Müller
9c5e3565c6 Merge branch 'development' into mueller/serializeif-update 2021-11-24 18:53:28 +01:00
Robin Müller
ecc7f1d691 Merge branch 'development' into mueller/update-scripts 2021-11-24 13:13:26 +01:00
Robin Mueller
00dced31ee update unittest helper scripts 
- Added functionality to open HTML report immediately
- Added another helper script to automatically generate unittest build
  folder
 2021-11-19 13:50:46 +01:00
Robin Müller
ab7117d81e Merge pull request 'Bugfix for Packet ID getters' (#524) from eive/fsfw:mueller/bugfix-improvements-packet-id-functions into development
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Reviewed-on: #524
 2021-11-19 13:46:46 +01:00
Robin Mueller
05c4f4fadc Bugfix for Packet ID getters 
- Also added related unittests
 2021-11-18 19:56:24 +01:00
Steffen Gaisser
186b3565e0 Merge pull request 'Unittests for Op Divider and Bitutility' (#510) from KSat/fsfw:mueller/unittests-op-divider-bitutil into development
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Reviewed-on: #510
 2021-11-15 14:24:15 +01:00
Steffen Gaisser
e688105073 Merge branch 'development' into mueller/unittests-op-divider-bitutil 2021-11-15 14:23:34 +01:00
Steffen Gaisser
f7c6ec329b Merge pull request 'Filesystem Base Interface: Use IF instead of void pointer' (#511) from KSat/fsfw:mueller/filesystem-api-update into development 
Reviewed-on: #511
 2021-11-15 14:23:04 +01:00
Robin Mueller
30217aa42b updated SerializeAdapter.h 
- Updates `SerializerAdapter` to also take simple pointer and simply assign the serialized and deSerialized size
- Added related unittests
 2021-11-10 18:51:56 +01:00
Robin Mueller
0176c07886 use IF instead of void pointer 2021-11-10 18:49:29 +01:00
Robin Mueller
6d5eb5b387 Op Divider and bitutility updates 
- Added unittests for `PeriodicOperationDivider` and the `bitutil` helpers
- Some API changes: Removed redundant bit part, because these functions are already in a namespace
- Some bugfixes for `PeriodicOperationDivider`
 2021-11-10 18:48:02 +01:00
Steffen Gaisser
9a38106b57 Merge pull request 'STM32 SPI Updates' (#518) from mueller/stm32-spi-updates into development
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Reviewed-on: #518
 2021-11-08 14:52:28 +01:00
Steffen Gaisser
75e16e0b7b Merge branch 'development' into mueller/stm32-spi-updates 2021-11-08 14:51:02 +01:00
Steffen Gaisser
87a15910fe Merge pull request 'CMakeLists fixes' (#517) from mueller/cmake-fixes into development 
Reviewed-on: #517

LGTM
 2021-11-08 14:44:39 +01:00
Robin Müller
9ad215c9a3 Merge branch 'development' into mueller/cmake-fixes 2021-10-28 09:20:02 +02:00
Robin Müller
2ca7a84e86 Merge branch 'development' into mueller/stm32-spi-updates 2021-10-28 09:19:31 +02:00
Ulrich Mohr
fbeb578d1c Merge pull request 'introducing valgrind' (#521) from mohr_ci into development
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Reviewed-on: #521
 2021-10-27 21:49:57 +02:00
Ulrich Mohr
58d4525e8a Merge branch 'development' into mohr_ci
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2021-10-27 21:35:17 +02:00
Ulrich Mohr
8d004e9621 Merge pull request 'Out of bound reads and writes in unittests' (#519) from mohr_valgrind into development
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Reviewed-on: #519
 2021-10-27 21:35:01 +02:00
Ulrich Mohr
a53992fdc9 introducing valgrind 2021-10-27 21:32:40 +02:00
Ulrich Mohr
c6bbc19b85 Merge pull request 'Adding code for CI with docker and jenkins' (#520) from mohr_ci into development
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Reviewed-on: #520
 2021-10-27 20:52:57 +02:00
Ulrich Mohr
36aaf3d758 say hi to my new friend valgrind 2021-10-27 20:41:04 +02:00
Robin Mueller
7c855592d0 more cleaning up
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2021-10-27 18:12:56 +02:00
Robin Mueller
cb7399b999 msp init improvements 2021-10-27 18:12:46 +02:00
Robin Mueller
d675621b73 grouping CS gpio definition 2021-10-27 17:32:21 +02:00
Robin Mueller
3448a8c01b SPI ComIF updates 
1. Make setting a chip select pin optional
2. Make ComIF member functions public
 2021-10-27 17:32:13 +02:00
Robin Mueller
42458725e8 more important fix 2021-10-27 17:10:37 +02:00
Robin Mueller
cc7250fcf5 second cmake fix 2021-10-27 17:08:59 +02:00
Ulrich Mohr
da42edcc0c Jenkinsfile: added stage to be more verbose
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2021-10-26 20:58:34 +02:00
Ulrich Mohr
b02f737418 jenkins cosmetics
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2021-10-26 20:53:08 +02:00
Ulrich Mohr
1923b339e9 I can not jenkins
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2021-10-26 20:47:53 +02:00
Ulrich Mohr
3c41472649 tweaking Jenkinsfile
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2021-10-26 20:30:22 +02:00
Ulrich Mohr
da19764232 Merge pull request 'Unittest and Integration test hotfix' (#516) from KSat/fsfw:mueller/unittest-hotfix into development
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Reviewed-on: #516
 2021-10-26 17:36:40 +02:00
Robin Mueller
2126e6e375 simplified test task 2021-10-26 17:24:47 +02:00
Robin Mueller
5f8adc63b7 some more fixes for integration tests 2021-10-26 17:16:21 +02:00
Robin Mueller
81bae85825 hotfix for unittests 2021-10-26 17:10:54 +02:00
Ulrich Mohr
e263f2fbdc Merge pull request 'added integration test code' (#508) from mueller/example-code-as-test into development
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Reviewed-on: #508
 2021-10-25 15:30:53 +02:00
Robin Müller
8d34561137 Merge branch 'development' into mueller/example-code-as-test 2021-10-25 15:06:36 +02:00
Ulrich Mohr
19f9b0280c added jenkins integration
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2021-10-25 14:59:16 +02:00
Ulrich Mohr
e86319707f Merge branch 'development' into mueller/example-code-as-test 2021-10-25 14:52:43 +02:00
Ulrich Mohr
0e653378c3 Merge pull request 'Arrayprinter format improvements' (#514) from KSat/fsfw:mueller/arrayprinter-improvements into development 
Reviewed-on: #514
 2021-10-25 14:09:25 +02:00
Ulrich Mohr
a506b94d7e Merge branch 'development' into mueller/arrayprinter-improvements 2021-10-25 14:09:08 +02:00
Ulrich Mohr
7bff632042 Merge pull request 'updated function names' (#509) from eive/fsfw:mueller/constexpr-func-name into development 
Reviewed-on: #509
 2021-10-25 14:05:14 +02:00
Robin Mueller
07a0dd5331 this is the correct file 2021-10-22 11:32:28 +02:00
Robin Müller
f16dcebf6b Merge branch 'development' into mueller/arrayprinter-improvements 2021-10-22 11:31:57 +02:00
Robin Mueller
dc6ed40bfb arrayprinter format improvements 2021-10-22 11:30:00 +02:00
Robin Mueller
a5a306ff66 arrayprinter format improvements 2021-10-21 22:36:54 +02:00
Robin Mueller
7122c37511 updated function names 2021-10-18 18:26:03 +02:00
Steffen Gaisser
dacec0c1f6 Merge pull request 'Keep Open TCP Implementation' (#496) from eive/fsfw:mueller/tcp-keep-open-pr into development 
Reviewed-on: #496
 2021-10-18 15:13:08 +02:00
Robin Mueller
84cd010a25 Merge branch 'mueller/tcp-keep-open-pr' of https://egit.irs.uni-stuttgart.de/eive/fsfw into mueller/tcp-keep-open-pr 2021-10-18 15:07:11 +02:00
Robin Mueller
a077a1b587 improved constexpr macros 2021-10-18 15:07:00 +02:00
Robin Müller
b94baf838d Merge branch 'development' into mueller/tcp-keep-open-pr 2021-10-18 14:58:33 +02:00
Ulrich Mohr
084a3daec6 Merge pull request 'more printouts for rejected TC packets' (#505) from eive/fsfw:mueller/packet-check-printout into development 
Reviewed-on: #505
 2021-10-18 14:44:40 +02:00
Robin Müller
b23ed11c7e Merge branch 'development' into mueller/tcp-keep-open-pr 2021-10-18 14:44:26 +02:00
Ulrich Mohr
9d7d22510b Merge pull request 'Tests can now be built as part of FSFW and versioning moved to CMake' (#500) from KSat/fsfw:mueller/integrated-unittests into development 
Reviewed-on: #500
 2021-10-18 14:42:52 +02:00
Robin Müller
76d12e3db1 Merge branch 'development' into mueller/integrated-unittests 2021-10-18 14:36:01 +02:00
Ulrich Mohr
cee42f9b70 one } was on the wrong side of an #endif 2021-10-18 14:34:11 +02:00
Robin Mueller
afe8fe6605 assign correct init value 2021-10-18 13:58:18 +02:00
Robin Mueller
6e97bd4db4 added integration test code 2021-10-17 23:27:31 +02:00
Robin Mueller
7694decaaa Merge branch 'mueller/packet-check-printout' of https://egit.irs.uni-stuttgart.de/eive/fsfw into mueller/packet-check-printout 2021-10-17 22:56:28 +02:00
Robin Mueller
113c992f99 use char* instead 2021-10-17 22:56:00 +02:00
Robin Müller
0738a0b6a4 Merge branch 'development' into mueller/packet-check-printout 2021-10-15 18:33:44 +02:00
Robin Müller
4251ccacf9 Merge branch 'development' into mueller/integrated-unittests 2021-10-15 18:32:35 +02:00
Ulrich Mohr
5d31a54fba Merge pull request 'small bugfix for LIS3 handler' (#504) from eive/fsfw:mueller/lis3-small-bugfix into development 
Reviewed-on: #504
 2021-10-15 17:20:55 +02:00
Ulrich Mohr
cadf97de88 Merge pull request 'Add feature to open GPIO by line name' (#506) from eive/fsfw:feature/open-gpio-by-line-name into development 
Reviewed-on: #506
 2021-10-15 17:19:42 +02:00
Robin Müller
01f5dfe6b4 Merge branch 'development' into mueller/integrated-unittests 2021-10-15 15:05:23 +02:00
Robin Mueller
cae3feb5da Add feature to open GPIO by line name 
This features was provided by Jakob Meier as part of
eive/fsfw#19 .

It adds the feature to open GPIOs supplying their line names.
 2021-10-11 19:55:37 +02:00
Robin Mueller
2180c47f4f more printouts for rejected packet 2021-10-11 19:47:41 +02:00
Robin Mueller
c46bde417e small bugfix for LIS3 handler 2021-10-11 19:37:23 +02:00
Robin Mueller
4924da1667 Merge remote-tracking branch 'upstream/development' into mueller/tcp-keep-open-pr 2021-10-11 18:52:52 +02:00
Ulrich Mohr
f8e9042943 Merge pull request 'Merge v2.0.1 into development' (#503) from master into development 
Reviewed-on: #503
 2021-10-11 18:19:46 +02:00
Ulrich Mohr
e6a7108614 Merge pull request 'Increased TM stack robustness' (#501) from eive/fsfw:mueller/tm-stack-robustness-cherry-picked into master 
Reviewed-on: #501
Reviewed-by: Ulrich Mohr <mohr@irs.uni-stuttgart.de>
 2021-10-11 18:00:45 +02:00
Robin Mueller
08926f9b70 Merge remote-tracking branch 'upstream/master' into mueller/tm-stack-robustness-cherry-picked 2021-10-11 17:57:33 +02:00
Ulrich Mohr
52f0c29e99 Merge pull request 'Using correct version number now for PUS C' (#502) from eive/fsfw:mueller/fix-for-pus-c-version-number-cherry-picked into master 
Reviewed-on: #502
Reviewed-by: Ulrich Mohr <mohr@irs.uni-stuttgart.de>
 2021-10-11 17:51:58 +02:00
Robin Mueller
060b3a3b2c added missing leading * 2021-10-11 17:51:13 +02:00
Robin Mueller
348975ba5f additional coverage excludes 2021-10-11 17:31:04 +02:00
Robin Mueller
e8927d6aa8 moved testtemplate and removed user folder 2021-10-11 17:22:54 +02:00
Robin Mueller
b2b648c4aa removed obsolete comment 2021-10-11 17:14:30 +02:00
Robin Mueller
fc9101cd8f deleted unrequired files, common include deleted 2021-10-11 17:12:42 +02:00
Robin Mueller
d2371b3e71 removed unneeded static constexpr 2021-10-11 16:47:57 +02:00
Robin Mueller
ffa38a81b7 using pus version enum now 2021-10-11 16:47:37 +02:00
Robin Mueller
ae689408f3 using correct version number now 2021-10-11 16:47:28 +02:00
Robin Mueller
155432663b moved store failure to separate function 2021-10-11 16:37:14 +02:00
Robin Mueller
ecdbf98ca4 added printouts for PUS A 2021-10-11 16:37:04 +02:00
Robin Mueller
54a6c1b0aa bugfix for PUS A 2021-10-11 16:36:49 +02:00
Robin Mueller
9efe9e78d8 Increased TM stack robustness 
1. More nullptr check
2. returnvalue for inititalize function which can fail
 2021-10-11 16:36:28 +02:00
Robin Mueller
d4bb9397ee better handling for configure files 2021-10-11 16:32:19 +02:00
Robin Mueller
bf5590ce26 configure file correction 2021-10-11 16:25:01 +02:00
Robin Mueller
460941c225 tiny tweak 2021-10-11 16:16:49 +02:00
Robin Mueller
3d6f28c48d printouts disable by default 2021-10-11 16:14:30 +02:00
Robin Mueller
bb9ae86159 indentation fixes 2021-10-11 16:12:32 +02:00
Robin Mueller
306a4b647f more review corrections 2021-10-11 16:06:12 +02:00
Robin Mueller
19061c3d50 removed obsolete files 2021-10-11 16:04:43 +02:00
Robin Mueller
22dbabba38 removed copy and paste error 2021-10-11 16:01:58 +02:00
Robin Mueller
ac8df112b1 small correction 2021-10-11 16:01:14 +02:00
Robin Mueller
ad744fb593 README improvement 2021-10-11 15:56:04 +02:00
Robin Mueller
6c75b56054 README update 2021-10-11 15:51:27 +02:00
Robin Mueller
fb67df6d7f using testsconfig.h now 2021-10-11 15:45:37 +02:00
Robin Mueller
1b6fa9822b this should work 2021-10-11 15:40:29 +02:00
Robin Mueller
5798aa1e3a create project to suppress warning 2021-10-11 15:09:19 +02:00
Robin Mueller
b00f61445d works 2021-10-11 15:07:52 +02:00
Robin Mueller
ad117e07e0 FSFW_CONFIG_PATH update 2021-10-11 15:03:03 +02:00
Robin Mueller
c26c2a5a96 hardcoding config path 2021-10-11 14:56:42 +02:00
Robin Mueller
e02ac05097 fixed a bug for default cfg path 2021-10-11 13:57:00 +02:00
Robin Mueller
a827ec6a92 removed another include 2021-10-11 13:51:08 +02:00
Robin Mueller
12321a5d49 Merge branch 'mueller/integrated-unittests' of https://egit.irs.uni-stuttgart.de/KSat/fsfw into mueller/integrated-unittests 2021-10-11 13:48:28 +02:00
Robin Mueller
ad3238aa19 removed problematic includes 2021-10-11 13:48:17 +02:00
Robin Müller
f67868516c Merge branch 'development' into mueller/integrated-unittests 2021-10-11 13:40:09 +02:00
Robin Müller
1ddf9c0f11 Merge branch 'development' into mueller/tcp-keep-open-pr 2021-10-09 13:32:25 +02:00
Jakob Meier
9bcd701a50 tcp server also parses TCs when client closes connection 2021-10-09 13:31:51 +02:00
Jakob Meier
6ad7f51297 added bind call error string 2021-10-09 13:31:40 +02:00
Ulrich Mohr
12983a7143 Merge pull request 'minor updates for PUS services' (#498) from KSat/fsfw:mueller/pus-tweaks into development 
Reviewed-on: #498
 2021-10-08 12:59:04 +02:00
Ulrich Mohr
27a3598526 Merge pull request 'better naming for parameter' (#499) from KSat/fsfw:mueller/retval-better-naming into development 
Reviewed-on: #499
 2021-10-08 12:58:43 +02:00
Robin Mueller
dd1631a456 updated CMakeLists.txt 
- More information about FSFW build
 2021-10-07 14:20:34 +02:00
Robin Mueller
cd6d616806 using .h.in version fle now 2021-10-07 13:26:31 +02:00
Robin Mueller
ade15ad16d tests can now be built as part of FSFW 
This PR refactores the tests so they are built as part of the FSFW.
This is done by adding Catch2 with the FetchContent directive.

A future implementation might also use a system installation of Catch2
by first checking whether Catch2 can already be found as a package

The custom configuration folder testcfg was moved from the user folder
to the actual unittest folder.

The tests can be built by setting the CMake FSFW_BUILD_UNITTESTS option
to TRUE/ON. They are built with the static library and dropped inside
the build folders fsfw directory.
 2021-10-07 13:24:46 +02:00
Robin Mueller
76416f523d better naming for parameter 2021-10-07 10:44:44 +02:00
Robin Mueller
5749e159e4 minor updates for PUS services 2021-10-07 10:39:16 +02:00
Robin Müller
85a90a6ec5 Merge pull request 'FSFW.h.in more default values' (#491) from mueller/fsfw-default-value-pus-c-cfg into development 
Reviewed-on: #491
 2021-10-05 18:27:13 +02:00
Robin Müller
80b41e937b Merge branch 'development' into mueller/fsfw-default-value-pus-c-cfg 2021-10-05 18:26:34 +02:00
Robin Müller
857a1624c6 Merge branch 'development' into mueller/fsfw-default-value-pus-c-cfg 2021-10-04 14:45:13 +02:00
Robin Mueller
198fdbba62 Merge remote-tracking branch 'upstream/development' into mueller/tcp-keep-open-pr 2021-10-04 14:41:51 +02:00
Robin Müller
c7c6d78f4b Merge branch 'development' into mueller/fsfw-default-value-pus-c-cfg 2021-10-02 15:44:46 +02:00
Robin Müller
0df5491193 Merge branch 'development' into mueller/tcp-keep-open-pr 2021-09-29 16:16:26 +02:00
Robin Müller
897d8b37ad Merge branch 'development' into mueller/fsfw-default-value-pus-c-cfg 2021-09-29 16:16:11 +02:00
Robin Müller
05ed25d397 Merge branch 'development' into mueller/fsfw-default-value-pus-c-cfg 2021-09-29 14:27:20 +02:00
Robin Mueller
65f4433fad Merge remote-tracking branch 'origin/development' into mueller/fsfw-default-value-pus-c-cfg 2021-09-29 12:07:06 +02:00
Robin Mueller
febe3cc4d4 define fix 2021-09-29 12:05:24 +02:00
Robin Mueller
f388878b99 added more defines 2021-09-29 12:05:15 +02:00
Robin Mueller
faa7e1e24f default values for PUS c config 2021-09-29 12:00:59 +02:00
Robin Mueller
9002c12cf1 update FSFW.h.in 2021-09-29 11:55:20 +02:00
Robin Mueller
0a6a32a130 printout separation 2021-09-29 11:45:20 +02:00
Robin Mueller
cffd77ed32 put functions in namespace 2021-09-28 17:42:29 +02:00
Robin Mueller
b1a9c90087 this should work for both OSes 2021-09-28 17:39:07 +02:00
Robin Mueller
a619087fef Merge remote-tracking branch 'upstream/mueller/tcp-windows-fixes' into mueller/tcp-keep-open-pr 2021-09-28 17:35:07 +02:00
Robin Mueller
32b5060c62 all windows fixes 2021-09-28 17:28:54 +02:00
Robin Mueller
936bac5abd class id renamed 2021-09-28 16:33:50 +02:00
Robin Mueller
bf02f14772 C++11 adaptions 2021-09-28 16:33:20 +02:00
Robin Mueller
1622e23f1c delay configurable 2021-09-28 15:33:31 +02:00
Robin Mueller
a4d6421510 documentation and bugfixes 2021-09-28 15:30:01 +02:00
Robin Mueller
f02852d8d2 cmake lists file update 2021-09-28 15:13:46 +02:00
Robin Mueller
bbea5e33bc removed obsolete empty ctor 2021-09-28 15:12:55 +02:00
Robin Mueller
e536918804 wiretapping in runtime config now 2021-09-28 15:09:56 +02:00
Robin Mueller
09299802f0 TCP refactoring 
This refactoring keeps the TCP connection opened until the client closes
it. It also increased the robustness of the TCP reception.

Because TCP is stream based and usually applied to newline separated
data, a special way to handle binary space packets is required.

The new SpacePacketParser class takes care of this by taking TC packet
IDs as as optional start markers to parse for space packets in a given
buffer.

The refactored TCP server uses a ring buffer, a reception buffer and the
new parser to extract space packets from a stream in a safer way.
 2021-09-28 15:01:01 +02:00
181 changed files with 5532 additions and 1407 deletions
Expand all files Collapse all files

7
.clang-format Normal file
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@ -0,0 +1,7 @@
---
BasedOnStyle: Google
IndentWidth: 2
---
Language: Cpp
ColumnLimit: 100
---

2
.gitignore vendored
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@ -2,3 +2,5 @@
.project
.settings
.metadata
/build*

182
CMakeLists.txt
View File

@ -1,5 +1,12 @@
cmake_minimum_required(VERSION 3.13)
set(FSFW_VERSION 3)
set(FSFW_SUBVERSION 0)
set(FSFW_REVISION 1)
# Add the cmake folder so the FindSphinx module is found
set(CMAKE_MODULE_PATH "${CMAKE_CURRENT_SOURCE_DIR}/cmake" ${CMAKE_MODULE_PATH})
option(FSFW_GENERATE_SECTIONS
"Generate function and data sections. Required to remove unused code" ON
)
@ -7,6 +14,12 @@ if(FSFW_GENERATE_SECTIONS)
option(FSFW_REMOVE_UNUSED_CODE "Remove unused code" ON)
endif()
option(FSFW_BUILD_UNITTESTS "Build unittest binary in addition to static library" OFF)
option(FSFW_BUILD_DOCS "Build documentation with Sphinx and Doxygen" OFF)
if(FSFW_BUILD_UNITTESTS)
option(FSFW_TESTS_GEN_COV "Generate coverage data for unittests" ON)
endif()
option(FSFW_WARNING_SHADOW_LOCAL_GCC "Enable -Wshadow=local warning in GCC" ON)
# Options to exclude parts of the FSFW from compilation.
option(FSFW_ADD_INTERNAL_TESTS "Add internal unit tests" ON)
@ -26,11 +39,65 @@ option(FSFW_ADD_TMSTORAGE "Compile with tm storage components" OFF)
option(FSFW_ADD_SGP4_PROPAGATOR "Add SGP4 propagator code" OFF)
set(LIB_FSFW_NAME fsfw)
set(FSFW_TEST_TGT fsfw-tests)
set(FSFW_DUMMY_TGT fsfw-dummy)
project(${LIB_FSFW_NAME})
add_library(${LIB_FSFW_NAME})
if(FSFW_BUILD_UNITTESTS)
message(STATUS "Building the FSFW unittests in addition to the static library")
# Check whether the user has already installed Catch2 first
find_package(Catch2 3)
# Not installed, so use FetchContent to download and provide Catch2
if(NOT Catch2_FOUND)
include(FetchContent)
FetchContent_Declare(
Catch2
GIT_REPOSITORY https://github.com/catchorg/Catch2.git
GIT_TAG v3.0.0-preview3
)
FetchContent_MakeAvailable(Catch2)
endif()
set(FSFW_CONFIG_PATH tests/src/fsfw_tests/unit/testcfg)
configure_file(tests/src/fsfw_tests/unit/testcfg/FSFWConfig.h.in FSFWConfig.h)
configure_file(tests/src/fsfw_tests/unit/testcfg/TestsConfig.h.in tests/TestsConfig.h)
project(${FSFW_TEST_TGT} CXX C)
add_executable(${FSFW_TEST_TGT})
if(FSFW_TESTS_GEN_COV)
message(STATUS "Generating coverage data for the library")
message(STATUS "Targets linking against ${LIB_FSFW_NAME} "
"will be compiled with coverage data as well"
)
include(FetchContent)
FetchContent_Declare(
cmake-modules
GIT_REPOSITORY https://github.com/bilke/cmake-modules.git
)
FetchContent_MakeAvailable(cmake-modules)
set(CMAKE_BUILD_TYPE "Debug")
list(APPEND CMAKE_MODULE_PATH ${cmake-modules_SOURCE_DIR})
include(CodeCoverage)
endif()
endif()
set(FSFW_CORE_INC_PATH "inc")
set_property(CACHE FSFW_OSAL PROPERTY STRINGS host linux rtems freertos)
# Configure Files
target_include_directories(${LIB_FSFW_NAME} PRIVATE
${CMAKE_CURRENT_BINARY_DIR}
)
target_include_directories(${LIB_FSFW_NAME} INTERFACE
${CMAKE_CURRENT_BINARY_DIR}
)
if(NOT CMAKE_CXX_STANDARD)
set(CMAKE_CXX_STANDARD 11)
set(CMAKE_CXX_STANDARD_REQUIRED True)
@ -63,29 +130,37 @@ endif()
set(FSFW_OSAL_DEFINITION FSFW_OSAL_HOST)
if(FSFW_OSAL MATCHES host)
set(OS_FSFW_NAME "Host")
set(FSFW_OS_NAME "Host")
set(FSFW_OSAL_HOST ON)
elseif(FSFW_OSAL MATCHES linux)
set(OS_FSFW_NAME "Linux")
set(FSFW_OS_NAME "Linux")
set(FSFW_OSAL_LINUX ON)
elseif(FSFW_OSAL MATCHES freertos)
set(OS_FSFW_NAME "FreeRTOS")
set(FSFW_OS_NAME "FreeRTOS")
set(FSFW_OSAL_FREERTOS ON)
target_link_libraries(${LIB_FSFW_NAME} PRIVATE
${LIB_OS_NAME}
)
elseif(FSFW_OSAL STREQUAL rtems)
set(OS_FSFW_NAME "RTEMS")
set(FSFW_OS_NAME "RTEMS")
set(FSFW_OSAL_RTEMS ON)
else()
message(WARNING
"Invalid operating system for FSFW specified! Setting to host.."
)
set(OS_FSFW_NAME "Host")
set(FSFW_OS_NAME "Host")
set(OS_FSFW "host")
endif()
message(STATUS "Compiling FSFW for the ${OS_FSFW_NAME} operating system.")
if(FSFW_BUILD_UNITTESTS OR FSFW_BUILD_DOCS)
configure_file(src/fsfw/FSFW.h.in fsfw/FSFW.h)
configure_file(src/fsfw/FSFWVersion.h.in fsfw/FSFWVersion.h)
else()
configure_file(src/fsfw/FSFW.h.in FSFW.h)
configure_file(src/fsfw/FSFWVersion.h.in FSFWVersion.h)
endif()
message(STATUS "Compiling FSFW for the ${FSFW_OS_NAME} operating system.")
add_subdirectory(src)
add_subdirectory(tests)
@ -93,13 +168,87 @@ if(FSFW_ADD_HAL)
add_subdirectory(hal)
endif()
add_subdirectory(contrib)
if(FSFW_BUILD_DOCS)
add_subdirectory(docs)
endif()
if(FSFW_BUILD_UNITTESTS)
if(FSFW_TESTS_GEN_COV)
if(CMAKE_COMPILER_IS_GNUCXX)
include(CodeCoverage)
# Remove quotes.
separate_arguments(COVERAGE_COMPILER_FLAGS
NATIVE_COMMAND "${COVERAGE_COMPILER_FLAGS}"
)
# Add compile options manually, we don't want coverage for Catch2
target_compile_options(${FSFW_TEST_TGT} PRIVATE
"${COVERAGE_COMPILER_FLAGS}"
)
target_compile_options(${LIB_FSFW_NAME} PRIVATE
"${COVERAGE_COMPILER_FLAGS}"
)
# Exclude directories here
if(WIN32)
set(GCOVR_ADDITIONAL_ARGS
"--exclude-throw-branches"
"--exclude-unreachable-branches"
)
set(COVERAGE_EXCLUDES
"/c/msys64/mingw64/*"
)
elseif(UNIX)
set(COVERAGE_EXCLUDES
"/usr/include/*" "/usr/bin/*" "Catch2/*"
"/usr/local/include/*" "*/fsfw_tests/*"
"*/catch2-src/*"
)
endif()
target_link_options(${FSFW_TEST_TGT} PRIVATE
-fprofile-arcs
-ftest-coverage
)
target_link_options(${LIB_FSFW_NAME} PRIVATE
-fprofile-arcs
-ftest-coverage
)
# Need to specify this as an interface, otherwise there will the compile issues
target_link_options(${LIB_FSFW_NAME} INTERFACE
-fprofile-arcs
-ftest-coverage
)
if(WIN32)
setup_target_for_coverage_gcovr_html(
NAME ${FSFW_TEST_TGT}_coverage
EXECUTABLE ${FSFW_TEST_TGT}
DEPENDENCIES ${FSFW_TEST_TGT}
)
else()
setup_target_for_coverage_lcov(
NAME ${FSFW_TEST_TGT}_coverage
EXECUTABLE ${FSFW_TEST_TGT}
DEPENDENCIES ${FSFW_TEST_TGT}
)
endif()
endif()
endif()
target_link_libraries(${FSFW_TEST_TGT} PRIVATE Catch2::Catch2 ${LIB_FSFW_NAME})
endif()
# The project CMakeLists file has to set the FSFW_CONFIG_PATH and add it.
# If this is not given, we include the default configuration and emit a warning.
if(NOT FSFW_CONFIG_PATH)
message(WARNING "Flight Software Framework configuration path not set!")
message(WARNING "Setting default configuration!")
add_subdirectory(defaultcfg/fsfwconfig)
set(DEF_CONF_PATH misc/defaultcfg/fsfwconfig)
if(NOT FSFW_BUILD_DOCS)
message(WARNING "Flight Software Framework configuration path not set!")
message(WARNING "Setting default configuration from ${DEF_CONF_PATH} ..")
endif()
add_subdirectory(${DEF_CONF_PATH})
set(FSFW_CONFIG_PATH ${DEF_CONF_PATH})
endif()
# FSFW might be part of a possibly complicated folder structure, so we
@ -186,4 +335,17 @@ target_compile_options(${LIB_FSFW_NAME} PRIVATE
target_link_libraries(${LIB_FSFW_NAME} PRIVATE
${FSFW_ADDITIONAL_LINK_LIBS}
)
)
string(CONCAT POST_BUILD_COMMENT
"######################################################################\n"
"Built FSFW v${FSFW_VERSION}.${FSFW_SUBVERSION}.${FSFW_REVISION}, "
"Target OSAL: ${FSFW_OS_NAME}\n"
"######################################################################\n"
)
add_custom_command(
TARGET ${LIB_FSFW_NAME}
POST_BUILD
COMMENT ${POST_BUILD_COMMENT}
)

105
README.md
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@ -22,28 +22,107 @@ Currently, the FSFW provides the following OSALs:
- FreeRTOS
- RTEMS
The recommended hardware is a microprocessor with more than 1 MB of RAM and 1 MB of non-volatile Memory. For reference, current applications use a Cobham Gaisler UT699 (LEON3FT), a ISISPACE IOBC or a Zynq-7020 SoC. The `fsfw` was also successfully run on the STM32H743ZI-Nucleo board and on a Raspberry Pi and is currently running on the active satellite mission Flying Laptop.
The recommended hardware is a microprocessor with more than 1 MB of RAM and 1 MB of non-volatile
memory. For reference, current applications use a Cobham Gaisler UT699 (LEON3FT), a
ISISPACE IOBC or a Zynq-7020 SoC. The `fsfw` was also successfully run on the
STM32H743ZI-Nucleo board and on a Raspberry Pi and is currently running on the active
satellite mission Flying Laptop.
## Getting started
The [FSFW example](https://egit.irs.uni-stuttgart.de/fsfw/fsfw_example) provides a good starting point and a demo to see the FSFW capabilities and build it with the Make or the CMake build system. It is recommended to evaluate the FSFW by building and playing around with the demo application.
The [Hosted FSFW example](https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-hosted) provides a
good starting point and a demo to see the FSFW capabilities.
It is recommended to get started by building and playing around with the demo application.
There are also other examples provided for all OSALs using the popular embedded platforms
Raspberry Pi, Beagle Bone Black and STM32H7.
Generally, the FSFW is included in a project by compiling the FSFW sources and providing
a configuration folder and adding it to the include path. There are some functions like `printChar` which are different depending on the target architecture and need to be implemented by the mission developer.
Generally, the FSFW is included in a project by providing
a configuration folder, building the static library and linking against it.
There are some functions like `printChar` which are different depending on the target architecture
and need to be implemented by the mission developer.
A template configuration folder was provided and can be copied into the project root to have
a starting point. The [configuration section](doc/README-config.md#top) provides more specific information about the possible options.
a starting point. The [configuration section](docs/README-config.md#top) provides more specific
information about the possible options.
## Adding the library
The following steps show how to add and use FSFW components. It is still recommended to
try out the example mentioned above to get started, but the following steps show how to
add and link against the FSFW library in general.
1. Add this repository as a submodule
```sh
git submodule add https://egit.irs.uni-stuttgart.de/fsfw/fsfw.git fsfw
```
2. Add the following directive inside the uppermost `CMakeLists.txt` file of your project
```cmake
add_subdirectory(fsfw)
```
3. Make sure to provide a configuration folder and supply the path to that folder with
the `FSFW_CONFIG_PATH` CMake variable from the uppermost `CMakeLists.txt` file.
It is also necessary to provide the `printChar` function. You can find an example
implementation for a hosted build
[here](https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-hosted/src/branch/master/bsp_hosted/utility/printChar.c).
4. Link against the FSFW library
```cmake
target_link_libraries(<YourProjectName> PRIVATE fsfw)
```
5. It should now be possible use the FSFW as a static library from the user code.
## Building the unittests
The FSFW also has unittests which use the [Catch2 library](https://github.com/catchorg/Catch2).
These are built by setting the CMake option `FSFW_BUILD_UNITTESTS` to `ON` or `TRUE`
from your project `CMakeLists.txt` file or from the command line.
The fsfw-tests binary will be built as part of the static library and dropped alongside it.
If the unittests are built, the library and the tests will be built with coverage information by
default. This can be disabled by setting the `FSFW_TESTS_COV_GEN` option to `OFF` or `FALSE`.
You can use the following commands inside the `fsfw` folder to set up the build system
```sh
mkdir build-Unittest && cd build-Unittest
cmake -DFSFW_BUILD_UNITTESTS=ON -DFSFW_OSAL=host ..
```
You can also use `-DFSFW_OSAL=linux` on Linux systems.
Coverage data in HTML format can be generated using the `CodeCoverage`
[CMake module](https://github.com/bilke/cmake-modules/tree/master).
To build the unittests, run them and then generare the coverage data in this format,
the following command can be used inside the build directory after the build system was set up
```sh
cmake --build . -- fsfw-tests_coverage -j
```
The `coverage.py` script located in the `script` folder can also be used to do this conveniently.
## Formatting the sources
The formatting is done by the `clang-format` tool. The configuration is contained within the
`.clang-format` file in the repository root. As long as `clang-format` is installed, you
can run the `apply-clang-format.sh` helper script to format all source files consistently.
## Index
[1. High-level overview](doc/README-highlevel.md#top) <br>
[2. Core components](doc/README-core.md#top) <br>
[3. Configuration](doc/README-config.md#top) <br>
[4. OSAL overview](doc/README-osal.md#top) <br>
[5. PUS services](doc/README-pus.md#top) <br>
[6. Device Handler overview](doc/README-devicehandlers.md#top) <br>
[7. Controller overview](doc/README-controllers.md#top) <br>
[8. Local Data Pools](doc/README-localpools.md#top) <br>
[1. High-level overview](docs/README-highlevel.md#top) <br>
[2. Core components](docs/README-core.md#top) <br>
[3. Configuration](docs/README-config.md#top) <br>
[4. OSAL overview](docs/README-osal.md#top) <br>
[5. PUS services](docs/README-pus.md#top) <br>
[6. Device Handler overview](docs/README-devicehandlers.md#top) <br>
[7. Controller overview](docs/README-controllers.md#top) <br>
[8. Local Data Pools](docs/README-localpools.md#top) <br>

8
automation/Dockerfile Normal file
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@ -0,0 +1,8 @@
FROM ubuntu:focal
RUN apt-get update
RUN apt-get --yes upgrade
#tzdata is a dependency, won't install otherwise
ARG DEBIAN_FRONTEND=noninteractive
RUN apt-get --yes install gcc g++ cmake make lcov git valgrind nano

72
automation/Jenkinsfile vendored Normal file
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@ -0,0 +1,72 @@
pipeline {
agent any
environment {
BUILDDIR = 'build-unittests'
}
stages {
stage('Create Docker') {
agent {
dockerfile {
dir 'automation'
additionalBuildArgs '--no-cache'
reuseNode true
}
}
steps {
sh 'rm -rf $BUILDDIR'
}
}
stage('Configure') {
agent {
dockerfile {
dir 'automation'
reuseNode true
}
}
steps {
dir(BUILDDIR) {
sh 'cmake -DFSFW_OSAL=host -DFSFW_BUILD_UNITTESTS=ON ..'
}
}
}
stage('Build') {
agent {
dockerfile {
dir 'automation'
reuseNode true
}
}
steps {
dir(BUILDDIR) {
sh 'cmake --build . -j'
}
}
}
stage('Unittests') {
agent {
dockerfile {
dir 'automation'
reuseNode true
}
}
steps {
dir(BUILDDIR) {
sh 'cmake --build . -- fsfw-tests_coverage -j'
}
}
}
stage('Valgrind') {
agent {
dockerfile {
dir 'automation'
reuseNode true
}
}
steps {
dir(BUILDDIR) {
sh 'valgrind --leak-check=full --error-exitcode=1 ./fsfw-tests'
}
}
}
}
}

13
cmake/FindSphinx.cmake Normal file
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@ -0,0 +1,13 @@
# Look for an executable called sphinx-build
find_program(SPHINX_EXECUTABLE
NAMES sphinx-build
DOC "Path to sphinx-build executable")
include(FindPackageHandleStandardArgs)
# Handle standard arguments to find_package like REQUIRED and QUIET
find_package_handle_standard_args(
Sphinx
"Failed to find sphinx-build executable"
SPHINX_EXECUTABLE
)

1
docs/.gitignore vendored Normal file
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@ -0,0 +1 @@
/_build

66
docs/CMakeLists.txt Normal file
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@ -0,0 +1,66 @@
# This is based on this excellent posting provided by Sy:
# https://devblogs.microsoft.com/cppblog/clear-functional-c-documentation-with-sphinx-breathe-doxygen-cmake/
find_package(Doxygen REQUIRED)
find_package(Sphinx REQUIRED)
get_target_property(LIB_FSFW_PUBLIC_HEADER_DIRS ${LIB_FSFW_NAME} INTERFACE_INCLUDE_DIRECTORIES)
# TODO: Add HAL as well
file(GLOB_RECURSE LIB_FSFW_PUBLIC_HEADERS ${PROJECT_SOURCE_DIR}/src/*.h)
file(GLOB_RECURSE RST_DOC_FILES ${PROJECT_SOURCE_DIR}/docs/*.rst)
set(DOXYGEN_INPUT_DIR ${PROJECT_SOURCE_DIR}/src)
set(DOXYGEN_OUTPUT_DIR ${CMAKE_CURRENT_BINARY_DIR}/doxygen)
set(DOXYGEN_INDEX_FILE ${DOXYGEN_OUTPUT_DIR}/xml/index.xml)
set(DOXYFILE_IN ${CMAKE_CURRENT_SOURCE_DIR}/Doxyfile.in)
set(DOXYFILE_OUT ${CMAKE_CURRENT_BINARY_DIR}/Doxyfile)
# Replace variables inside @@ with the current values
configure_file(${DOXYFILE_IN} ${DOXYFILE_OUT} @ONLY)
# Doxygen won't create this for us
file(MAKE_DIRECTORY ${DOXYGEN_OUTPUT_DIR})
# Only regenerate Doxygen when the Doxyfile or public headers change
add_custom_command(
OUTPUT ${DOXYGEN_INDEX_FILE}
DEPENDS ${LIB_FSFW_PUBLIC_HEADERS}
COMMAND ${DOXYGEN_EXECUTABLE} ${DOXYFILE_OUT}
MAIN_DEPENDENCY ${DOXYFILE_OUT} ${DOXYFILE_IN}
COMMENT "Generating docs"
VERBATIM
)
# Nice named target so we can run the job easily
add_custom_target(Doxygen ALL DEPENDS ${DOXYGEN_INDEX_FILE})
set(SPHINX_SOURCE ${CMAKE_CURRENT_SOURCE_DIR})
set(SPHINX_BUILD ${CMAKE_CURRENT_BINARY_DIR}/sphinx)
set(SPHINX_INDEX_FILE ${SPHINX_BUILD}/index.html)
# Only regenerate Sphinx when:
# - Doxygen has rerun
# - Our doc files have been updated
# - The Sphinx config has been updated
add_custom_command(
OUTPUT ${SPHINX_INDEX_FILE}
COMMAND
${SPHINX_EXECUTABLE} -b html
# Tell Breathe where to find the Doxygen output
-Dbreathe_projects.fsfw=${DOXYGEN_OUTPUT_DIR}/xml
${SPHINX_SOURCE} ${SPHINX_BUILD}
WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}
DEPENDS
# Other docs files you want to track should go here (or in some variable)
${RST_DOC_FILES}
${DOXYGEN_INDEX_FILE}
MAIN_DEPENDENCY ${SPHINX_SOURCE}/conf.py
COMMENT "Generating documentation with Sphinx"
)
# Nice named target so we can run the job easily
add_custom_target(Sphinx ALL DEPENDS ${SPHINX_INDEX_FILE})
# Add an install target to install the docs
include(GNUInstallDirs)
install(DIRECTORY ${SPHINX_BUILD}
DESTINATION ${CMAKE_INSTALL_DOCDIR})

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INPUT = "@DOXYGEN_INPUT_DIR@"
RECURSIVE = YES
OUTPUT_DIRECTORY = "@DOXYGEN_OUTPUT_DIR@"
GENERATE_XML = YES

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# Minimal makefile for Sphinx documentation
#
# You can set these variables from the command line, and also
# from the environment for the first two.
SPHINXOPTS ?=
SPHINXBUILD ?= sphinx-build
SOURCEDIR = .
BUILDDIR = _build
# Put it first so that "make" without argument is like "make help".
help:
@$(SPHINXBUILD) -M help "$(SOURCEDIR)" "$(BUILDDIR)" $(SPHINXOPTS) $(O)
.PHONY: help Makefile
# Catch-all target: route all unknown targets to Sphinx using the new
# "make mode" option. $(O) is meant as a shortcut for $(SPHINXOPTS).
%: Makefile
@$(SPHINXBUILD) -M $@ "$(SOURCEDIR)" "$(BUILDDIR)" $(SPHINXOPTS) $(O)

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@ -31,7 +31,9 @@ cohesive pool variables. These sets simply iterator over the list of variables a
`read` and `commit` functions of each variable. The following diagram shows the
high-level architecture of the local data pools.
<img align="center" src="./images/PoolArchitecture.png" width="50%"> <br>
.. image:: ../misc/logo/FSFW_Logo_V3_bw.png
:alt: FSFW Logo
An example is shown for using the local data pools with a Gyroscope.
For example, the following code shows an implementation to access data from a Gyroscope taken

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API
====
.. toctree::
:maxdepth: 4
api/objectmanager
api/task
api/ipc
api/returnvalue
api/event
api/modes
api/health
api/action
api/devicehandler
api/controller

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Action Module API
=================
``ActionHelper``
-----------------
.. doxygenclass:: ActionHelper
:members:
``HasActionsIF``
-----------------
.. doxygenclass:: HasActionsIF
:members:
:protected-members:

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Controller API
=================
``ControllerBase``
-------------------------
.. doxygenclass:: ControllerBase
:members:
:protected-members:
``ExtendedControllerBase``
-----------------------------
.. doxygenclass:: ExtendedControllerBase
:members:
:protected-members:

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Device Handler Base API
=========================
``DeviceHandlerBase``
-----------------------
.. doxygenclass:: DeviceHandlerBase
:members:
:protected-members:
``DeviceHandlerIF``
-----------------------
.. doxygenclass:: DeviceHandlerIF
:members:
:protected-members:

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.. _eventapi:
Event API
============
.. doxygenfile:: Event.h

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Health API
===========
``HasHealthIF``
------------------
.. doxygenclass:: HasHealthIF
:members:
:protected-members:

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IPC Module API
=================
``MessageQueueIF``
-------------------
.. doxygenclass:: MessageQueueIF
:members:
:protected-members:

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Modes API
=========
``HasModesIF``
---------------
.. doxygenclass:: HasModesIF
:members:
:protected-members:

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Object Manager API
=========================
``SystemObject``
--------------------
.. doxygenclass:: SystemObject
:members:
:protected-members:
``ObjectManager``
-----------------------
.. doxygenclass:: ObjectManager
:members:
:protected-members:
``SystemObjectIF``
--------------------
.. doxygenclass:: SystemObjectIF
:members:
:protected-members:
``ObjectManagerIF``
-----------------------
.. doxygenclass:: ObjectManagerIF
:members:
:protected-members:

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.. _retvalapi:
Returnvalue API
==================
.. doxygenfile:: HasReturnvaluesIF.h
.. _fwclassids:
.. doxygenfile:: FwClassIds.h

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Task API
=========
``ExecutableObjectIF``
-----------------------
.. doxygenclass:: ExecutableObjectIF
:members:

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# Configuration file for the Sphinx documentation builder.
#
# This file only contains a selection of the most common options. For a full
# list see the documentation:
# https://www.sphinx-doc.org/en/master/usage/configuration.html
# -- Path setup --------------------------------------------------------------
# If extensions (or modules to document with autodoc) are in another directory,
# add these directories to sys.path here. If the directory is relative to the
# documentation root, use os.path.abspath to make it absolute, like shown here.
#
# import os
# import sys
# sys.path.insert(0, os.path.abspath('.'))
# -- Project information -----------------------------------------------------
project = 'Flight Software Framework'
copyright = '2021, Institute of Space Systems (IRS)'
author = 'Institute of Space Systems (IRS)'
# The full version, including alpha/beta/rc tags
release = '2.0.1'
# -- General configuration ---------------------------------------------------
# Add any Sphinx extension module names here, as strings. They can be
# extensions coming with Sphinx (named 'sphinx.ext.*') or your custom
# ones.
extensions = [ "breathe" ]
breathe_default_project = "fsfw"
# Add any paths that contain templates here, relative to this directory.
templates_path = ['_templates']
# List of patterns, relative to source directory, that match files and
# directories to ignore when looking for source files.
# This pattern also affects html_static_path and html_extra_path.
exclude_patterns = ['_build', 'Thumbs.db', '.DS_Store']
# -- Options for HTML output -------------------------------------------------
# The theme to use for HTML and HTML Help pages. See the documentation for
# a list of builtin themes.
#
html_theme = 'alabaster'
# Add any paths that contain custom static files (such as style sheets) here,
# relative to this directory. They are copied after the builtin static files,
# so a file named "default.css" will overwrite the builtin "default.css".
html_static_path = []

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Configuring the FSFW
=====================
The FSFW can be configured via the ``fsfwconfig`` folder. A template folder has been provided in
``misc/defaultcfg`` to have a starting point for this. The folder should be added
to the include path. The primary configuration file is the ``FSFWConfig.h`` folder. Some
of the available options will be explained in more detail here.
Auto-Translation of Events
----------------------------
The FSFW allows the automatic translation of events, which allows developers to track triggered
events directly via console output. Using this feature requires:
1. ``FSFW_OBJ_EVENT_TRANSLATION`` set to 1 in the configuration file.
2. Special auto-generated translation files which translate event IDs and object IDs into
human readable strings. These files can be generated using the
`fsfwgen Python scripts <https://egit.irs.uni-stuttgart.de/fsfw/fsfw-gen>`_.
3. The generated translation files for the object IDs should be named ``translatesObjects.cpp``
and ``translateObjects.h`` and should be copied to the ``fsfwconfig/objects`` folder
4. The generated translation files for the event IDs should be named ``translateEvents.cpp`` and
``translateEvents.h`` and should be copied to the ``fsfwconfig/events`` folder
An example implementations of these translation file generators can be found as part
of the `SOURCE project here <https://git.ksat-stuttgart.de/source/sourceobsw/-/tree/develop/generators>`_
or the `FSFW example <https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-hosted/src/branch/master/generators>`_
Configuring the Event Manager
----------------------------------
The number of allowed subscriptions can be modified with the following
parameters:
.. code-block:: cpp
namespace fsfwconfig {
//! Configure the allocated pool sizes for the event manager.
static constexpr size_t FSFW_EVENTMGMR_MATCHTREE_NODES = 240;
static constexpr size_t FSFW_EVENTMGMT_EVENTIDMATCHERS = 120;
static constexpr size_t FSFW_EVENTMGMR_RANGEMATCHERS = 120;
}

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Controllers
=============

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.. _core:
Core Modules
=============
The core modules provide the most important functionalities of the Flight Software Framework.
Clock
------
- This is a class of static functions that can be used at anytime
- Leap Seconds must be set if any time conversions from UTC to other times is used
Object Manager
---------------
- Must be created during program startup
- The component which handles all references. All :cpp:class:`SystemObject`\s register at this
component.
- All :cpp:class:`SystemObject`\s needs to have a unique Object ID. Those can be managed like
framework objects.
- A reference to an object can be retrieved by calling the ``get`` function of
:cpp:class:`ObjectManagerIF`. The target type must be specified as a template argument.
A ``nullptr`` check of the returning pointer must be done. This function is based on
run-time type information.
.. code-block:: cpp
template <typename T> T* ObjectManagerIF::get(object_id_t id);
- A typical way to create all objects on startup is a handing a static produce function to the
ObjectManager on creation. By calling ``ObjectManager::instance()->initialize(produceFunc)`` the
produce function will be called and all :cpp:class:`SystemObject`\s will be initialized
afterwards.
Event Manager
---------------
- Component which allows routing of events
- Other objects can subscribe to specific events, ranges of events or all events of an object.
- Subscriptions can be done during runtime but should be done during initialization
- Amounts of allowed subscriptions can be configured in ``FSFWConfig.h``
Health Table
---------------
- A component which holds every health state
- Provides a thread safe way to access all health states without the need of message exchanges
Stores
--------------
- The message based communication can only exchange a few bytes of information inside the message
itself. Therefore, additional information can be exchanged with Stores. With this, only the
store address must be exchanged in the message.
- Internally, the FSFW uses an IPC Store to exchange data between processes. For incoming TCs a TC
Store is used. For outgoing TM a TM store is used.
- All of them should use the Thread Safe Class storagemanager/PoolManager
Tasks
---------
There are two different types of tasks:
- The PeriodicTask just executes objects that are of type ExecutableObjectIF in the order of the
insertion to the Tasks.
- FixedTimeslotTask executes a list of calls in the order of the given list. This is intended for
DeviceHandlers, where polling should be in a defined order. An example can be found in
``defaultcfg/fsfwconfig/pollingSequence`` folder

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Device Handlers
==================

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Getting Started
================
Getting started
----------------
The `Hosted FSFW example`_ provides a good starting point and a demo to see the FSFW capabilities.
It is recommended to get started by building and playing around with the demo application.
There are also other examples provided for all OSALs using the popular embedded platforms
Raspberry Pi, Beagle Bone Black and STM32H7.
Generally, the FSFW is included in a project by providing
a configuration folder, building the static library and linking against it.
There are some functions like ``printChar`` which are different depending on the target architecture
and need to be implemented by the mission developer.
A template configuration folder was provided and can be copied into the project root to have
a starting point. The [configuration section](docs/README-config.md#top) provides more specific
information about the possible options.
Adding the library
-------------------
The following steps show how to add and use FSFW components. It is still recommended to
try out the example mentioned above to get started, but the following steps show how to
add and link against the FSFW library in general.
1. Add this repository as a submodule
.. code-block:: console
git submodule add https://egit.irs.uni-stuttgart.de/fsfw/fsfw.git fsfw
2. Add the following directive inside the uppermost ``CMakeLists.txt`` file of your project
.. code-block:: cmake
add_subdirectory(fsfw)
3. Make sure to provide a configuration folder and supply the path to that folder with
the `FSFW_CONFIG_PATH` CMake variable from the uppermost `CMakeLists.txt` file.
It is also necessary to provide the `printChar` function. You can find an example
implementation for a hosted build
`here <https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-hosted/src/branch/master/bsp_hosted/utility/printChar.c>`_.
4. Link against the FSFW library
.. code-block:: cmake
target_link_libraries(<YourProjectName> PRIVATE fsfw)
5. It should now be possible use the FSFW as a static library from the user code.
Building the unittests
-------------------------
The FSFW also has unittests which use the `Catch2 library`_.
These are built by setting the CMake option ``FSFW_BUILD_UNITTESTS`` to ``ON`` or `TRUE`
from your project `CMakeLists.txt` file or from the command line.
The fsfw-tests binary will be built as part of the static library and dropped alongside it.
If the unittests are built, the library and the tests will be built with coverage information by
default. This can be disabled by setting the `FSFW_TESTS_COV_GEN` option to `OFF` or `FALSE`.
You can use the following commands inside the ``fsfw`` folder to set up the build system
.. code-block:: console
mkdir build-tests && cd build-tests
cmake -DFSFW_BUILD_UNITTESTS=ON -DFSFW_OSAL=host ..
You can also use ``-DFSFW_OSAL=linux`` on Linux systems.
Coverage data in HTML format can be generated using the `Code coverage`_ CMake module.
To build the unittests, run them and then generare the coverage data in this format,
the following command can be used inside the build directory after the build system was set up
.. code-block:: console
cmake --build . -- fsfw-tests_coverage -j
The ``helper.py`` script located in the ``script`` folder can also be used to create, build
and open the unittests conveniently. Try ``helper.py -h`` for more information.
Building the documentation
----------------------------
The FSFW documentation is built using the tools Sphinx, doxygen and breathe based on the
instructions provided in `this blogpost <https://devblogs.microsoft.com/cppblog/clear-functional-c-documentation-with-sphinx-breathe-doxygen-cmake/>`_. You can set up a
documentation build system using the following commands
.. code-block:: bash
mkdir build-docs && cd build-docs
cmake -DFSFW_BUILD_DOCS=ON -DFSFW_OSAL=host ..
Then you can generate the documentation using
.. code-block:: bash
cmake --build . -j
You can find the generated documentation inside the ``docs/sphinx`` folder inside the build
folder. Simply open the ``index.html`` in the webbrowser of your choice.
The ``helper.py`` script located in the ``script`` folder can also be used to create, build
and open the documentation conveniently. Try ``helper.py -h`` for more information.
.. _`Hosted FSFW example`: https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-hosted
.. _`Catch2 library`: https://github.com/catchorg/Catch2
.. _`Code coverage`: https://github.com/bilke/cmake-modules/tree/master

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.. _highlevel:
High-level overview
===================
Structure
----------
The general structure is driven by the usage of interfaces provided by objects.
The FSFW uses C++11 as baseline. The intention behind this is that this C++ Standard should be
widely available, even with older compilers.
The FSFW uses dynamic allocation during the initialization but provides static containers during runtime.
This simplifies the instantiation of objects and allows the usage of some standard containers.
Dynamic Allocation after initialization is discouraged and different solutions are provided in the
FSFW to achieve that. The fsfw uses run-time type information but exceptions are not allowed.
Failure Handling
-----------------
Functions should return a defined :cpp:type:`ReturnValue_t` to signal to the caller that something has
gone wrong. Returnvalues must be unique. For this the function :cpp:func:`HasReturnvaluesIF::makeReturnCode`
or the :ref:`macro MAKE_RETURN_CODE <retvalapi>` can be used. The ``CLASS_ID`` is a unique ID for that type of object.
See the :ref:`FSFW Class IDs file <fwclassids>`. The user can add custom ``CLASS_ID``\s via the
``fsfwconfig`` folder.
OSAL
------------
The FSFW provides operation system abstraction layers for Linux, FreeRTOS and RTEMS.
The OSAL provides periodic tasks, message queues, clocks and semaphores as well as mutexes.
The :ref:`OSAL README <osal>` provides more detailed information on provided components
and how to use them.
Core Components
----------------
The FSFW has following core components. More detailed informations can be found in the
:ref:`core component section <core>`:
1. Tasks: Abstraction for different (periodic) task types like periodic tasks or tasks
with fixed timeslots
2. ObjectManager: This module stores all `SystemObjects` by mapping a provided unique object ID
to the object handles.
3. Static Stores: Different stores are provided to store data of variable size (like telecommands
or small telemetry) in a pool structure without using dynamic memory allocation.
These pools are allocated up front.
4. Clock: This module provided common time related functions
5. EventManager: This module allows routing of events generated by `SystemObjects`
6. HealthTable: A component which stores the health states of objects
Static IDs in the framework
--------------------------------
Some parts of the framework use a static routing address for communication.
An example setup of IDs can be found in the example config in ``misc/defaultcfg/fsfwconfig/objects``
inside the function ``Factory::setStaticFrameworkObjectIds``.
Events
----------------
Events are tied to objects. EventIds can be generated by calling the
:ref:`macro MAKE_EVENT <eventapi>` or the function :cpp:func:`event::makeEvent`.
This works analog to the returnvalues. Every object that needs own Event IDs has to get a
unique ``SUBSYSTEM_ID``. Every :cpp:class:`SystemObject` can call
:cpp:func:`SystemObject::triggerEvent` from the parent class.
Therefore, event messages contain the specific EventId and the objectId of the object that
has triggered.
Internal Communication
-------------------------
Components communicate mostly via Messages through Queues.
Those queues are created by calling the singleton ``QueueFactory::instance()->create`` which
will create `MessageQueue` instances for the used OSAL.
External Communication
--------------------------
The external communication with the mission control system is mostly up to the user implementation.
The FSFW provides PUS Services which can be used to but don't need to be used.
The services can be seen as a conversion from a TC to a message based communication and back.
TMTC Communication
~~~~~~~~~~~~~~~~~~~
The FSFW provides some components to facilitate TMTC handling via the PUS commands.
For example, a UDP or TCP PUS server socket can be opened on a specific port using the
files located in ``osal/common``. The FSFW example uses this functionality to allow sending
telecommands and receiving telemetry using the
`TMTC commander application <https://github.com/robamu-org/tmtccmd>`_.
Simple commands like the PUS Service 17 ping service can be tested by simply running the
``tmtc_client_cli.py`` or ``tmtc_client_gui.py`` utility in
the `example tmtc folder <https://egit.irs.uni-stuttgart.de/fsfw/fsfw_example_public/src/branch/master/tmtc>`_
while the `fsfw_example` application is running.
More generally, any class responsible for handling incoming telecommands and sending telemetry
can implement the generic ``TmTcBridge`` class located in ``tmtcservices``. Many applications
also use a dedicated polling task for reading telecommands which passes telecommands
to the ``TmTcBridge`` implementation.
CCSDS Frames, CCSDS Space Packets and PUS
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
If the communication is based on CCSDS Frames and Space Packets, several classes can be used to
distributed the packets to the corresponding services. Those can be found in ``tcdistribution``.
If Space Packets are used, a timestamper has to be provided by the user.
An example can be found in the ``timemanager`` folder, which uses ``CCSDSTime::CDS_short``.
Device Handlers
--------------------------
DeviceHandlers are another important component of the FSFW. The idea is, to have a software
counterpart of every physical device to provide a simple mode, health and commanding interface.
By separating the underlying Communication Interface with
``DeviceCommunicationIF``, a device handler (DH) can be tested on different hardware.
The DH has mechanisms to monitor the communication with the physical device which allow
for FDIR reaction. Device Handlers can be created by implementing ``DeviceHandlerBase``.
A standard FDIR component for the DH will be created automatically but can
be overwritten by the user. More information on DeviceHandlers can be found in the
related [documentation section](doc/README-devicehandlers.md#top).
Modes and Health
--------------------
The two interfaces ``HasModesIF`` and ``HasHealthIF`` provide access for commanding and monitoring
of components. On-board mode management is implement in hierarchy system.
- Device handlers and controllers are the lowest part of the hierarchy.
- The next layer are assemblies. Those assemblies act as a component which handle
redundancies of handlers. Assemblies share a common core with the top level subsystem components
- The top level subsystem components are used to group assemblies, controllers and device handlers.
For example, a spacecraft can have a atttitude control subsystem and a power subsystem.
Those assemblies are intended to act as auto-generated components from a database which describes
the subsystem modes. The definitions contain transition and target tables which contain the DH,
Assembly and Controller Modes to be commanded.
Transition tables contain as many steps as needed to reach the mode from any other mode, e.g. a
switch into any higher AOCS mode might first turn on the sensors, than the actuators and the
controller as last component.
The target table is used to describe the state that is checked continuously by the subsystem.
All of this allows System Modes to be generated as Subsystem object as well from the same database.
This System contains list of subsystem modes in the transition and target tables.
Therefore, it allows a modular system to create system modes and easy commanding of those, because
only the highest components must be commanded.
The health state represents if the component is able to perform its tasks.
This can be used to signal the system to avoid using this component instead of a redundant one.
The on-board FDIR uses the health state for isolation and recovery.

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.. Flight Software Framework documentation master file, created by
sphinx-quickstart on Tue Nov 30 10:56:03 2021.
You can adapt this file completely to your liking, but it should at least
contain the root `toctree` directive.
Flight Software Framework (FSFW) documentation
================================================
.. image:: ../misc/logo/FSFW_Logo_V3_bw.png
:alt: FSFW Logo
The Flight Software Framework is a C++ Object Oriented Framework for unmanned,
automated systems like Satellites.
The initial version of the Flight Software Framework was developed during
the Flying Laptop Project by the University of Stuttgart in cooperation
with Airbus Defence and Space GmbH.
Quick facts
---------------
The framework is designed for systems, which communicate with external devices, perform control
loops, receive telecommands and send telemetry, and need to maintain a high level of availability.
Therefore, a mode and health system provides control over the states of the software and the
controlled devices. In addition, a simple mechanism of event based fault detection, isolation and
recovery is implemented as well.
The FSFW provides abstraction layers for operating systems to provide a uniform operating system
abstraction layer (OSAL). Some components of this OSAL are required internally by the FSFW but is
also very useful for developers to implement the same application logic on different operating
systems with a uniform interface.
Currently, the FSFW provides the following OSALs:
- Linux
- Host
- FreeRTOS
- RTEMS
The recommended hardware is a microprocessor with more than 1 MB of RAM and 1 MB of non-volatile
memory. For reference, current applications use a Cobham Gaisler UT699 (LEON3FT), a
ISISPACE IOBC or a Zynq-7020 SoC. The ``fsfw`` was also successfully run on the
STM32H743ZI-Nucleo board and on a Raspberry Pi and is currently running on the active
satellite mission Flying Laptop.
Index
-------
.. toctree::
:maxdepth: 2
:caption: Contents:
getting_started
highlevel
core
config
osal
pus
devicehandlers
controllers
localpools
api
Indices and tables
==================
* :ref:`genindex`
* :ref:`modindex`
* :ref:`search`

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Local Data Pools
=========================================
The following text is targeted towards mission software developers which would like
to use the local data pools provided by the FSFW to store data like sensor values so they can be
used by other software objects like controllers as well. If a custom class should have a local
pool which can be used by other software objects as well, following steps have to be performed:
1. Create a ``LocalDataPoolManager`` member object in the custom class
2. Implement the ``HasLocalDataPoolIF`` with specifies the interface between the local pool
manager and the class owning the local pool.
The local data pool manager is also able to process housekeeping service requests in form
of messages, generate periodic housekeeping packet, generate notification and snapshots of changed
variables and datasets and process notifications and snapshots coming from other objects.
The two former tasks are related to the external interface using telemetry and telecommands (TMTC)
while the later two are related to data consumers like controllers only acting on data change
detected by the data creator instead of checking the data manually each cycle. Two important
framework classes ``DeviceHandlerBase`` and ``ExtendedControllerBase`` already perform the two steps
shown above so the steps required are altered slightly.
Storing and Accessing pool data
-------------------------------------
The pool manager is responsible for thread-safe access of the pool data, but the actual
access to the pool data from the point of view of a mission software developer happens via proxy
classes like pool variable classes. These classes store a copy
of the pool variable with the matching datatype and copy the actual data from the local pool
on a ``read`` call. Changed variables can then be written to the local pool with a ``commit`` call.
The ``read`` and ``commit`` calls are thread-safe and can be called concurrently from data creators
and data consumers. Generally, a user will create a dataset class which in turn groups all
cohesive pool variables. These sets simply iterator over the list of variables and call the
``read`` and ``commit`` functions of each variable. The following diagram shows the
high-level architecture of the local data pools.
.. image:: ../docs/images/PoolArchitecture.png
:alt: Pool Architecture
An example is shown for using the local data pools with a Gyroscope.
For example, the following code shows an implementation to access data from a Gyroscope taken
from the SOURCE CubeSat project:
.. code-block:: cpp
class GyroPrimaryDataset: public StaticLocalDataSet<3 * sizeof(float)> {
public:
/**
* Constructor for data users
* @param gyroId
*/
GyroPrimaryDataset(object_id_t gyroId):
StaticLocalDataSet(sid_t(gyroId, gyrodefs::GYRO_DATA_SET_ID)) {
setAllVariablesReadOnly();
}
lp_var_t<float> angVelocityX = lp_var_t<float>(sid.objectId,
gyrodefs::ANGULAR_VELOCITY_X, this);
lp_var_t<float> angVelocityY = lp_var_t<float>(sid.objectId,
gyrodefs::ANGULAR_VELOCITY_Y, this);
lp_var_t<float> angVelocityZ = lp_var_t<float>(sid.objectId,
gyrodefs::ANGULAR_VELOCITY_Z, this);
private:
friend class GyroHandler;
/**
* Constructor for data creator
* @param hkOwner
*/
GyroPrimaryDataset(HasLocalDataPoolIF* hkOwner):
StaticLocalDataSet(hkOwner, gyrodefs::GYRO_DATA_SET_ID) {}
};
There is a public constructor for users which sets all variables to read-only and there is a
constructor for the GyroHandler data creator by marking it private and declaring the ``GyroHandler``
as a friend class. Both the atittude controller and the ``GyroHandler`` can now
use the same class definition to access the pool variables with ``read`` and ``commit`` semantics
in a thread-safe way. Generally, each class requiring access will have the set class as a member
class. The data creator will also be generally a ``DeviceHandlerBase`` subclass and some additional
steps are necessary to expose the set for housekeeping purposes.
Using the local data pools in a ``DeviceHandlerBase`` subclass
--------------------------------------------------------------
It is very common to store data generated by devices like a sensor into a pool which can
then be used by other objects. Therefore, the ``DeviceHandlerBase`` already has a
local pool. Using the aforementioned example, the ``GyroHandler`` will now have the set class
as a member:
.. code-block:: cpp
class GyroHandler: ... {
public:
...
private:
...
GyroPrimaryDataset gyroData;
...
};
The constructor used for the creators expects the owner class as a parameter, so we initialize
the object in the `GyroHandler` constructor like this:
.. code-block:: cpp
GyroHandler::GyroHandler(object_id_t objectId, object_id_t comIF,
CookieIF *comCookie, uint8_t switchId):
DeviceHandlerBase(objectId, comIF, comCookie), switchId(switchId),
gyroData(this) {}
We need to assign the set to a reply ID used in the ``DeviceHandlerBase``.
The combination of the ``GyroHandler`` object ID and the reply ID will be the 64-bit structure ID
``sid_t`` and is used to globally identify the set, for example when requesting housekeeping data or
generating update messages. We need to assign our custom set class in some way so that the local
pool manager can access the custom data sets as well.
By default, the ``getDataSetHandle`` will take care of this tasks. The default implementation for a
``DeviceHandlerBase`` subclass will use the internal command map to retrieve
a handle to a dataset from a given reply ID. Therefore,
we assign the set in the ``fillCommandAndReplyMap`` function:
.. code-block:: cpp
void GyroHandler::fillCommandAndReplyMap() {
...
this->insertInCommandAndReplyMap(gyrodefs::GYRO_DATA, 3, &gyroData);
...
}
Now, we need to create the actual pool entries as well, using the ``initializeLocalDataPool``
function. Here, we also immediately subscribe for periodic housekeeping packets
with an interval of 4 seconds. They are still disabled in this example and can be enabled
with a housekeeping service command.
.. code-block:: cpp
ReturnValue_t GyroHandler::initializeLocalDataPool(localpool::DataPool &localDataPoolMap,
LocalDataPoolManager &poolManager) {
localDataPoolMap.emplace(gyrodefs::ANGULAR_VELOCITY_X,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(gyrodefs::ANGULAR_VELOCITY_Y,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(gyrodefs::ANGULAR_VELOCITY_Z,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(gyrodefs::GENERAL_CONFIG_REG42,
new PoolEntry<uint8_t>({0}));
localDataPoolMap.emplace(gyrodefs::RANGE_CONFIG_REG43,
new PoolEntry<uint8_t>({0}));
poolManager.subscribeForPeriodicPacket(gyroData.getSid(), false, 4.0, false);
return HasReturnvaluesIF::RETURN_OK;
}
Now, if we receive some sensor data and converted them into the right format,
we can write it into the pool like this, using a guard class to ensure the set is commited back
in any case:
.. code-block:: cpp
PoolReadGuard readHelper(&gyroData);
if(readHelper.getReadResult() == HasReturnvaluesIF::RETURN_OK) {
if(not gyroData.isValid()) {
gyroData.setValidity(true, true);
}
gyroData.angVelocityX = angularVelocityX;
gyroData.angVelocityY = angularVelocityY;
gyroData.angVelocityZ = angularVelocityZ;
}
The guard class will commit the changed data on destruction automatically.
Using the local data pools in a ``ExtendedControllerBase`` subclass
----------------------------------------------------------------------
Coming soon

35
docs/make.bat Normal file
View File

@ -0,0 +1,35 @@
@ECHO OFF
pushd %~dp0
REM Command file for Sphinx documentation
if "%SPHINXBUILD%" == "" (
set SPHINXBUILD=sphinx-build
)
set SOURCEDIR=.
set BUILDDIR=_build
if "%1" == "" goto help
%SPHINXBUILD% >NUL 2>NUL
if errorlevel 9009 (
echo.
echo.The 'sphinx-build' command was not found. Make sure you have Sphinx
echo.installed, then set the SPHINXBUILD environment variable to point
echo.to the full path of the 'sphinx-build' executable. Alternatively you
echo.may add the Sphinx directory to PATH.
echo.
echo.If you don't have Sphinx installed, grab it from
echo.http://sphinx-doc.org/
exit /b 1
)
%SPHINXBUILD% -M %1 %SOURCEDIR% %BUILDDIR% %SPHINXOPTS% %O%
goto end
:help
%SPHINXBUILD% -M help %SOURCEDIR% %BUILDDIR% %SPHINXOPTS% %O%
:end
popd

63
docs/osal.rst Normal file
View File

@ -0,0 +1,63 @@
.. _osal:
Operating System Abstraction Layer (OSAL)
============================================
Some specific information on the provided OSALs are provided.
Linux
-------
This OSAL can be used to compile for Linux host systems like Ubuntu 20.04 or for
embedded Linux targets like the Raspberry Pi. This OSAL generally requires threading support
and real-time functionalities. For most UNIX systems, this is done by adding ``-lrt`` and
``-lpthread`` to the linked libraries in the compilation process. The CMake build support provided
will do this automatically for the ``fsfw`` target. It should be noted that most UNIX systems need
to be configured specifically to allow the real-time functionalities required by the FSFW.
Hosted OSAL
-------------------
This is the newest OSAL. Support for Semaphores has not been implemented yet and will propably be
implemented as soon as C++20 with Semaphore support has matured. This OSAL can be used to run the
FSFW on any host system, but currently has only been tested on Windows 10 and Ubuntu 20.04. Unlike
the other OSALs, it uses dynamic memory allocation (e.g. for the message queue implementation).
Cross-platform serial port (USB) support might be added soon.
FreeRTOS OSAL
------------------
FreeRTOS is not included and the developer needs to take care of compiling the FreeRTOS sources and
adding the ``FreeRTOSConfig.h`` file location to the include path. This OSAL has only been tested
extensively with the pre-emptive scheduler configuration so far but it should in principle also be
possible to use a cooperative scheduler. It is recommended to use the `heap_4` allocation scheme.
When using newlib (nano), it is also recommended to add ``#define configUSE_NEWLIB_REENTRANT`` to
the FreeRTOS configuration file to ensure thread-safety.
When using this OSAL, developers also need to provide an implementation for the
``vRequestContextSwitchFromISR`` function. This has been done because the call to request a context
switch from an ISR is generally located in the ``portmacro.h`` header and is different depending on
the target architecture or device.
RTEMS OSAL
---------------
The RTEMS OSAL was the first implemented OSAL which is also used on the active satellite Flying Laptop.
TCP/IP socket abstraction
------------------------------
The Linux and Host OSAL provide abstraction layers for the socket API. Currently, only UDP sockets
have been imlemented. This is very useful to test TMTC handling either on the host computer
directly (targeting localhost with a TMTC application) or on embedded Linux devices, sending
TMTC packets via Ethernet.
Example Applications
----------------------
There are example applications available for each OSAL
- `Hosted OSAL <https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-hosted>`_
- `Linux OSAL for MCUs <https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-linux-mcu>`_
- `FreeRTOS OSAL on the STM32H743ZIT <https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-stm32h7-freertos>`_
- `RTEMS OSAL on the STM32H743ZIT <https://egit.irs.uni-stuttgart.de/fsfw/fsfw-example-stm32h7-rtems>`_

2
docs/pus.rst Normal file
View File

@ -0,0 +1,2 @@
PUS Services
==============

54
hal/src/fsfw_hal/common/gpio/gpioDefinitions.h
View File

@ -9,12 +9,13 @@ using gpioId_t = uint16_t;
namespace gpio {
enum Levels {
enum Levels: uint8_t {
LOW = 0,
HIGH = 1
HIGH = 1,
NONE = 99
};
enum Direction {
enum Direction: uint8_t {
IN = 0,
OUT = 1
};
@ -24,16 +25,18 @@ enum GpioOperation {
WRITE
};
enum GpioTypes {
enum class GpioTypes {
NONE,
GPIO_REGULAR_BY_CHIP,
GPIO_REGULAR_BY_LABEL,
GPIO_REGULAR_BY_LINE_NAME,
CALLBACK
};
static constexpr gpioId_t NO_GPIO = -1;
using gpio_cb_t = void (*) (gpioId_t gpioId, gpio::GpioOperation gpioOp, int value, void* args);
using gpio_cb_t = void (*) (gpioId_t gpioId, gpio::GpioOperation gpioOp, gpio::Levels value,
void* args);
}
@ -57,7 +60,7 @@ public:
GpioBase() = default;
GpioBase(gpio::GpioTypes gpioType, std::string consumer, gpio::Direction direction,
int initValue):
gpio::Levels initValue):
gpioType(gpioType), consumer(consumer),direction(direction), initValue(initValue) {}
virtual~ GpioBase() {};
@ -66,15 +69,21 @@ public:
gpio::GpioTypes gpioType = gpio::GpioTypes::NONE;
std::string consumer;
gpio::Direction direction = gpio::Direction::IN;
int initValue = 0;
gpio::Levels initValue = gpio::Levels::NONE;
};
class GpiodRegularBase: public GpioBase {
public:
GpiodRegularBase(gpio::GpioTypes gpioType, std::string consumer, gpio::Direction direction,
int initValue, int lineNum): GpioBase(gpioType, consumer, direction, initValue),
lineNum(lineNum) {
gpio::Levels initValue, int lineNum):
GpioBase(gpioType, consumer, direction, initValue), lineNum(lineNum) {
}
// line number will be configured at a later point for the open by line name configuration
GpiodRegularBase(gpio::GpioTypes gpioType, std::string consumer, gpio::Direction direction,
gpio::Levels initValue): GpioBase(gpioType, consumer, direction, initValue) {
}
int lineNum = 0;
struct gpiod_line* lineHandle = nullptr;
};
@ -87,7 +96,7 @@ public:
}
GpiodRegularByChip(std::string chipname_, int lineNum_, std::string consumer_,
gpio::Direction direction_, int initValue_) :
gpio::Direction direction_, gpio::Levels initValue_) :
GpiodRegularBase(gpio::GpioTypes::GPIO_REGULAR_BY_CHIP,
consumer_, direction_, initValue_, lineNum_),
chipname(chipname_){
@ -105,7 +114,7 @@ public:
class GpiodRegularByLabel: public GpiodRegularBase {
public:
GpiodRegularByLabel(std::string label_, int lineNum_, std::string consumer_,
gpio::Direction direction_, int initValue_) :
gpio::Direction direction_, gpio::Levels initValue_) :
GpiodRegularBase(gpio::GpioTypes::GPIO_REGULAR_BY_LABEL, consumer_,
direction_, initValue_, lineNum_),
label(label_) {
@ -120,9 +129,30 @@ public:
std::string label;
};
/**
* @brief Passing this GPIO configuration to the GPIO IF object will try to open the GPIO by its
* line name. This line name can be set in the device tree and must be unique. Otherwise
* the driver will open the first line with the given name.
*/
class GpiodRegularByLineName: public GpiodRegularBase {
public:
GpiodRegularByLineName(std::string lineName_, std::string consumer_, gpio::Direction direction_,
gpio::Levels initValue_) :
GpiodRegularBase(gpio::GpioTypes::GPIO_REGULAR_BY_LINE_NAME, consumer_, direction_,
initValue_), lineName(lineName_) {
}
GpiodRegularByLineName(std::string lineName_, std::string consumer_) :
GpiodRegularBase(gpio::GpioTypes::GPIO_REGULAR_BY_LINE_NAME, consumer_,
gpio::Direction::IN, gpio::LOW), lineName(lineName_) {
}
std::string lineName;
};
class GpioCallback: public GpioBase {
public:
GpioCallback(std::string consumer, gpio::Direction direction_, int initValue_,
GpioCallback(std::string consumer, gpio::Direction direction_, gpio::Levels initValue_,
gpio::gpio_cb_t callback, void* callbackArgs):
GpioBase(gpio::GpioTypes::CALLBACK, consumer, direction_, initValue_),
callback(callback), callbackArgs(callbackArgs) {}

2
hal/src/fsfw_hal/devicehandlers/MgmLIS3MDLHandler.cpp
View File

@ -73,7 +73,7 @@ ReturnValue_t MgmLIS3MDLHandler::buildTransitionDeviceCommand(
switch (internalState) {
case(InternalState::STATE_NONE):
case(InternalState::STATE_NORMAL): {
return HasReturnvaluesIF::RETURN_OK;
return DeviceHandlerBase::NOTHING_TO_SEND;
}
case(InternalState::STATE_FIRST_CONTACT): {
*id = MGMLIS3MDL::IDENTIFY_DEVICE;

2
hal/src/fsfw_hal/devicehandlers/MgmRM3100Handler.cpp
View File

@ -186,7 +186,7 @@ ReturnValue_t MgmRM3100Handler::interpretDeviceReply(DeviceCommandId_t id, const
uint8_t cmmValue = packet[1];
// We clear the seventh bit in any case
// because this one is zero sometimes for some reason
bitutil::bitClear(&cmmValue, 6);
bitutil::clear(&cmmValue, 6);
if(cmmValue == cmmRegValue and internalState == InternalState::READ_CMM) {
commandExecuted = true;
}

242
hal/src/fsfw_hal/linux/gpio/LinuxLibgpioIF.cpp
View File

@ -1,8 +1,9 @@
#include "fsfw_hal/linux/gpio/LinuxLibgpioIF.h"
#include "LinuxLibgpioIF.h"
#include "fsfw_hal/common/gpio/gpioDefinitions.h"
#include "fsfw_hal/common/gpio/GpioCookie.h"
#include <fsfw/serviceinterface/ServiceInterface.h>
#include "fsfw/serviceinterface/ServiceInterface.h"
#include <utility>
#include <unistd.h>
@ -66,6 +67,14 @@ ReturnValue_t LinuxLibgpioIF::configureGpios(GpioMap& mapToAdd) {
configureGpioByLabel(gpioConfig.first, *regularGpio);
break;
}
case(gpio::GpioTypes::GPIO_REGULAR_BY_LINE_NAME):{
auto regularGpio = dynamic_cast<GpiodRegularByLineName*>(gpioConfig.second);
if(regularGpio == nullptr) {
return GPIO_INVALID_INSTANCE;
}
configureGpioByLineName(gpioConfig.first, *regularGpio);
break;
}
case(gpio::GpioTypes::CALLBACK): {
auto gpioCallback = dynamic_cast<GpioCallback*>(gpioConfig.second);
if(gpioCallback->callback == nullptr) {
@ -84,13 +93,13 @@ ReturnValue_t LinuxLibgpioIF::configureGpioByLabel(gpioId_t gpioId,
std::string& label = gpioByLabel.label;
struct gpiod_chip* chip = gpiod_chip_open_by_label(label.c_str());
if (chip == nullptr) {
sif::warning << "LinuxLibgpioIF::configureRegularGpio: Failed to open gpio from gpio "
sif::warning << "LinuxLibgpioIF::configureGpioByLabel: Failed to open gpio from gpio "
<< "group with label " << label << ". Gpio ID: " << gpioId << std::endl;
return RETURN_FAILED;
}
std::string failOutput = "label: " + label;
return configureRegularGpio(gpioId, gpioByLabel.gpioType, chip, gpioByLabel, failOutput);
return configureRegularGpio(gpioId, chip, gpioByLabel, failOutput);
}
ReturnValue_t LinuxLibgpioIF::configureGpioByChip(gpioId_t gpioId,
@ -98,16 +107,41 @@ ReturnValue_t LinuxLibgpioIF::configureGpioByChip(gpioId_t gpioId,
std::string& chipname = gpioByChip.chipname;
struct gpiod_chip* chip = gpiod_chip_open_by_name(chipname.c_str());
if (chip == nullptr) {
sif::warning << "LinuxLibgpioIF::configureRegularGpio: Failed to open chip "
sif::warning << "LinuxLibgpioIF::configureGpioByChip: Failed to open chip "
<< chipname << ". Gpio ID: " << gpioId << std::endl;
return RETURN_FAILED;
}
std::string failOutput = "chipname: " + chipname;
return configureRegularGpio(gpioId, gpioByChip.gpioType, chip, gpioByChip, failOutput);
return configureRegularGpio(gpioId, chip, gpioByChip, failOutput);
}
ReturnValue_t LinuxLibgpioIF::configureRegularGpio(gpioId_t gpioId, gpio::GpioTypes gpioType,
struct gpiod_chip* chip, GpiodRegularBase& regularGpio, std::string failOutput) {
ReturnValue_t LinuxLibgpioIF::configureGpioByLineName(gpioId_t gpioId,
GpiodRegularByLineName &gpioByLineName) {
std::string& lineName = gpioByLineName.lineName;
char chipname[MAX_CHIPNAME_LENGTH];
unsigned int lineOffset;
int result = gpiod_ctxless_find_line(lineName.c_str(), chipname, MAX_CHIPNAME_LENGTH,
&lineOffset);
if (result != LINE_FOUND) {
parseFindeLineResult(result, lineName);
return RETURN_FAILED;
}
gpioByLineName.lineNum = static_cast<int>(lineOffset);
struct gpiod_chip* chip = gpiod_chip_open_by_name(chipname);
if (chip == nullptr) {
sif::warning << "LinuxLibgpioIF::configureGpioByLineName: Failed to open chip "
<< chipname << ". <Gpio ID: " << gpioId << std::endl;
return RETURN_FAILED;
}
std::string failOutput = "line name: " + lineName;
return configureRegularGpio(gpioId, chip, gpioByLineName, failOutput);
}
ReturnValue_t LinuxLibgpioIF::configureRegularGpio(gpioId_t gpioId, struct gpiod_chip* chip,
GpiodRegularBase& regularGpio, std::string failOutput) {
unsigned int lineNum;
gpio::Direction direction;
std::string consumer;
@ -132,22 +166,10 @@ ReturnValue_t LinuxLibgpioIF::configureRegularGpio(gpioId_t gpioId, gpio::GpioTy
case(gpio::OUT): {
result = gpiod_line_request_output(lineHandle, consumer.c_str(),
regularGpio.initValue);
if (result < 0) {
sif::error << "LinuxLibgpioIF::configureRegularGpio: Failed to request line " << lineNum <<
" from GPIO instance with ID: " << gpioId << std::endl;
gpiod_line_release(lineHandle);
return RETURN_FAILED;
}
break;
}
case(gpio::IN): {
result = gpiod_line_request_input(lineHandle, consumer.c_str());
if (result < 0) {
sif::error << "LinuxLibgpioIF::configureGpios: Failed to request line "
<< lineNum << " from GPIO instance with ID: " << gpioId << std::endl;
gpiod_line_release(lineHandle);
return RETURN_FAILED;
}
break;
}
default: {
@ -156,6 +178,18 @@ ReturnValue_t LinuxLibgpioIF::configureRegularGpio(gpioId_t gpioId, gpio::GpioTy
return GPIO_INVALID_INSTANCE;
}
if (result < 0) {
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::error << "LinuxLibgpioIF::configureRegularGpio: Failed to request line " <<
lineNum << " from GPIO instance with ID: " << gpioId << std::endl;
#else
sif::printError("LinuxLibgpioIF::configureRegularGpio: "
"Failed to request line %d from GPIO instance with ID: %d\n", lineNum, gpioId);
#endif
gpiod_line_release(lineHandle);
return RETURN_FAILED;
}
}
/**
* Write line handle to GPIO configuration instance so it can later be used to set or
@ -173,8 +207,9 @@ ReturnValue_t LinuxLibgpioIF::pullHigh(gpioId_t gpioId) {
}
auto gpioType = gpioMapIter->second->gpioType;
if(gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_CHIP or
gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_LABEL) {
if (gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_CHIP
or gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_LABEL
or gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_LINE_NAME) {
auto regularGpio = dynamic_cast<GpiodRegularBase*>(gpioMapIter->second);
if(regularGpio == nullptr) {
return GPIO_TYPE_FAILURE;
@ -187,7 +222,7 @@ ReturnValue_t LinuxLibgpioIF::pullHigh(gpioId_t gpioId) {
return GPIO_INVALID_INSTANCE;
}
gpioCallback->callback(gpioMapIter->first, gpio::GpioOperation::WRITE,
1, gpioCallback->callbackArgs);
gpio::Levels::HIGH, gpioCallback->callbackArgs);
return RETURN_OK;
}
return GPIO_TYPE_FAILURE;
@ -196,13 +231,18 @@ ReturnValue_t LinuxLibgpioIF::pullHigh(gpioId_t gpioId) {
ReturnValue_t LinuxLibgpioIF::pullLow(gpioId_t gpioId) {
gpioMapIter = gpioMap.find(gpioId);
if (gpioMapIter == gpioMap.end()) {
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::warning << "LinuxLibgpioIF::pullLow: Unknown GPIO ID " << gpioId << std::endl;
#else
sif::printWarning("LinuxLibgpioIF::pullLow: Unknown GPIO ID %d\n", gpioId);
#endif
return UNKNOWN_GPIO_ID;
}
auto& gpioType = gpioMapIter->second->gpioType;
if(gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_CHIP or
gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_LABEL) {
if (gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_CHIP
or gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_LABEL
or gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_LINE_NAME) {
auto regularGpio = dynamic_cast<GpiodRegularBase*>(gpioMapIter->second);
if(regularGpio == nullptr) {
return GPIO_TYPE_FAILURE;
@ -215,7 +255,7 @@ ReturnValue_t LinuxLibgpioIF::pullLow(gpioId_t gpioId) {
return GPIO_INVALID_INSTANCE;
}
gpioCallback->callback(gpioMapIter->first, gpio::GpioOperation::WRITE,
0, gpioCallback->callbackArgs);
gpio::Levels::LOW, gpioCallback->callbackArgs);
return RETURN_OK;
}
return GPIO_TYPE_FAILURE;
@ -225,8 +265,13 @@ ReturnValue_t LinuxLibgpioIF::driveGpio(gpioId_t gpioId,
GpiodRegularBase& regularGpio, gpio::Levels logicLevel) {
int result = gpiod_line_set_value(regularGpio.lineHandle, logicLevel);
if (result < 0) {
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::warning << "LinuxLibgpioIF::driveGpio: Failed to pull GPIO with ID " << gpioId <<
" to logic level " << logicLevel << std::endl;
#else
sif::printWarning("LinuxLibgpioIF::driveGpio: Failed to pull GPIO with ID %d to "
"logic level %d\n", gpioId, logicLevel);
#endif
return DRIVE_GPIO_FAILURE;
}
@ -236,12 +281,18 @@ ReturnValue_t LinuxLibgpioIF::driveGpio(gpioId_t gpioId,
ReturnValue_t LinuxLibgpioIF::readGpio(gpioId_t gpioId, int* gpioState) {
gpioMapIter = gpioMap.find(gpioId);
if (gpioMapIter == gpioMap.end()){
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::warning << "LinuxLibgpioIF::readGpio: Unknown GPIOD ID " << gpioId << std::endl;
#else
sif::printWarning("LinuxLibgpioIF::readGpio: Unknown GPIOD ID %d\n", gpioId);
#endif
return UNKNOWN_GPIO_ID;
}
auto gpioType = gpioMapIter->second->gpioType;
if(gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_CHIP or
gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_LABEL) {
if (gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_CHIP
or gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_LABEL
or gpioType == gpio::GpioTypes::GPIO_REGULAR_BY_LINE_NAME) {
auto regularGpio = dynamic_cast<GpiodRegularBase*>(gpioMapIter->second);
if(regularGpio == nullptr) {
return GPIO_TYPE_FAILURE;
@ -249,10 +300,14 @@ ReturnValue_t LinuxLibgpioIF::readGpio(gpioId_t gpioId, int* gpioState) {
*gpioState = gpiod_line_get_value(regularGpio->lineHandle);
}
else {
auto gpioCallback = dynamic_cast<GpioCallback*>(gpioMapIter->second);
if(gpioCallback->callback == nullptr) {
return GPIO_INVALID_INSTANCE;
}
gpioCallback->callback(gpioMapIter->first, gpio::GpioOperation::READ,
gpio::Levels::NONE, gpioCallback->callbackArgs);
return RETURN_OK;
}
return RETURN_OK;
}
@ -262,13 +317,14 @@ ReturnValue_t LinuxLibgpioIF::checkForConflicts(GpioMap& mapToAdd){
for(auto& gpioConfig: mapToAdd) {
switch(gpioConfig.second->gpioType) {
case(gpio::GpioTypes::GPIO_REGULAR_BY_CHIP):
case(gpio::GpioTypes::GPIO_REGULAR_BY_LABEL): {
case(gpio::GpioTypes::GPIO_REGULAR_BY_LABEL):
case(gpio::GpioTypes::GPIO_REGULAR_BY_LINE_NAME): {
auto regularGpio = dynamic_cast<GpiodRegularBase*>(gpioConfig.second);
if(regularGpio == nullptr) {
return GPIO_TYPE_FAILURE;
}
/* Check for conflicts and remove duplicates if necessary */
result = checkForConflictsRegularGpio(gpioConfig.first, *regularGpio, mapToAdd);
// Check for conflicts and remove duplicates if necessary
result = checkForConflictsById(gpioConfig.first, gpioConfig.second->gpioType, mapToAdd);
if(result != HasReturnvaluesIF::RETURN_OK) {
status = result;
}
@ -279,66 +335,108 @@ ReturnValue_t LinuxLibgpioIF::checkForConflicts(GpioMap& mapToAdd){
if(callbackGpio == nullptr) {
return GPIO_TYPE_FAILURE;
}
/* Check for conflicts and remove duplicates if necessary */
result = checkForConflictsCallbackGpio(gpioConfig.first, callbackGpio, mapToAdd);
// Check for conflicts and remove duplicates if necessary
result = checkForConflictsById(gpioConfig.first,
gpioConfig.second->gpioType, mapToAdd);
if(result != HasReturnvaluesIF::RETURN_OK) {
status = result;
}
break;
}
default: {
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::warning << "Invalid GPIO type detected for GPIO ID " << gpioConfig.first
<< std::endl;
#else
sif::printWarning("Invalid GPIO type detected for GPIO ID %d\n", gpioConfig.first);
#endif
status = GPIO_TYPE_FAILURE;
}
}
}
return status;
}
ReturnValue_t LinuxLibgpioIF::checkForConflictsRegularGpio(gpioId_t gpioIdToCheck,
GpiodRegularBase& gpioToCheck, GpioMap& mapToAdd) {
/* Cross check with private map */
ReturnValue_t LinuxLibgpioIF::checkForConflictsById(gpioId_t gpioIdToCheck,
gpio::GpioTypes expectedType, GpioMap& mapToAdd) {
// Cross check with private map
gpioMapIter = gpioMap.find(gpioIdToCheck);
if(gpioMapIter != gpioMap.end()) {
auto& gpioType = gpioMapIter->second->gpioType;
if(gpioType != gpio::GpioTypes::GPIO_REGULAR_BY_CHIP and
gpioType != gpio::GpioTypes::GPIO_REGULAR_BY_LABEL) {
sif::warning << "LinuxLibgpioIF::checkForConflicts: ID already exists for different "
"GPIO type" << gpioIdToCheck << ". Removing duplicate." << std::endl;
mapToAdd.erase(gpioIdToCheck);
return HasReturnvaluesIF::RETURN_OK;
bool eraseDuplicateDifferentType = false;
switch(expectedType) {
case(gpio::GpioTypes::NONE): {
break;
}
auto ownRegularGpio = dynamic_cast<GpiodRegularBase*>(gpioMapIter->second);
if(ownRegularGpio == nullptr) {
return GPIO_TYPE_FAILURE;
case(gpio::GpioTypes::GPIO_REGULAR_BY_CHIP):
case(gpio::GpioTypes::GPIO_REGULAR_BY_LABEL):
case(gpio::GpioTypes::GPIO_REGULAR_BY_LINE_NAME): {
if(gpioType == gpio::GpioTypes::NONE or gpioType == gpio::GpioTypes::CALLBACK) {
eraseDuplicateDifferentType = true;
}
break;
}
case(gpio::GpioTypes::CALLBACK): {
if(gpioType != gpio::GpioTypes::CALLBACK) {
eraseDuplicateDifferentType = true;
}
}
}
if(eraseDuplicateDifferentType) {
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::warning << "LinuxLibgpioIF::checkForConflicts: ID already exists for "
"different GPIO type " << gpioIdToCheck <<
". Removing duplicate from map to add" << std::endl;
#else
sif::printWarning("LinuxLibgpioIF::checkForConflicts: ID already exists for "
"different GPIO type %d. Removing duplicate from map to add\n", gpioIdToCheck);
#endif
mapToAdd.erase(gpioIdToCheck);
return GPIO_DUPLICATE_DETECTED;
}
/* Remove element from map to add because a entry for this GPIO
already exists */
sif::warning << "LinuxLibgpioIF::checkForConflictsRegularGpio: Duplicate GPIO definition"
<< " detected. Duplicate will be removed from map to add." << std::endl;
// Remove element from map to add because a entry for this GPIO already exists
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::warning << "LinuxLibgpioIF::checkForConflictsRegularGpio: Duplicate GPIO "
"definition with ID " << gpioIdToCheck << " detected. " <<
"Duplicate will be removed from map to add" << std::endl;
#else
sif::printWarning("LinuxLibgpioIF::checkForConflictsRegularGpio: Duplicate GPIO definition "
"with ID %d detected. Duplicate will be removed from map to add\n", gpioIdToCheck);
#endif
mapToAdd.erase(gpioIdToCheck);
return GPIO_DUPLICATE_DETECTED;
}
return HasReturnvaluesIF::RETURN_OK;
}
ReturnValue_t LinuxLibgpioIF::checkForConflictsCallbackGpio(gpioId_t gpioIdToCheck,
GpioCallback *callbackGpio, GpioMap& mapToAdd) {
/* Cross check with private map */
gpioMapIter = gpioMap.find(gpioIdToCheck);
if(gpioMapIter != gpioMap.end()) {
if(gpioMapIter->second->gpioType != gpio::GpioTypes::CALLBACK) {
sif::warning << "LinuxLibgpioIF::checkForConflicts: ID already exists for different "
"GPIO type" << gpioIdToCheck << ". Removing duplicate." << std::endl;
mapToAdd.erase(gpioIdToCheck);
return HasReturnvaluesIF::RETURN_OK;
}
/* Remove element from map to add because a entry for this GPIO
already exists */
sif::warning << "LinuxLibgpioIF::checkForConflictsRegularGpio: Duplicate GPIO definition"
<< " detected. Duplicate will be removed from map to add." << std::endl;
mapToAdd.erase(gpioIdToCheck);
void LinuxLibgpioIF::parseFindeLineResult(int result, std::string& lineName) {
switch (result) {
#if FSFW_CPP_OSTREAM_ENABLED == 1
case LINE_NOT_EXISTS:
case LINE_ERROR: {
sif::warning << "LinuxLibgpioIF::parseFindeLineResult: Line with name " << lineName <<
" does not exist" << std::endl;
break;
}
return HasReturnvaluesIF::RETURN_OK;
default: {
sif::warning << "LinuxLibgpioIF::parseFindeLineResult: Unknown return code for line "
"with name " << lineName << std::endl;
break;
}
#else
case LINE_NOT_EXISTS:
case LINE_ERROR: {
sif::printWarning("LinuxLibgpioIF::parseFindeLineResult: Line with name %s "
"does not exist\n", lineName);
break;
}
default: {
sif::printWarning("LinuxLibgpioIF::parseFindeLineResult: Unknown return code for line "
"with name %s\n", lineName);
break;
}
#endif
}
}

37
hal/src/fsfw_hal/linux/gpio/LinuxLibgpioIF.h
View File

@ -1,19 +1,19 @@
#ifndef LINUX_GPIO_LINUXLIBGPIOIF_H_
#define LINUX_GPIO_LINUXLIBGPIOIF_H_
#include "../../common/gpio/GpioIF.h"
#include <returnvalues/classIds.h>
#include <fsfw/objectmanager/SystemObject.h>
#include "fsfw/returnvalues/FwClassIds.h"
#include "fsfw_hal/common/gpio/GpioIF.h"
#include "fsfw/objectmanager/SystemObject.h"
class GpioCookie;
class GpiodRegularIF;
/**
* @brief This class implements the GpioIF for a linux based system. The
* implementation is based on the libgpiod lib which requires linux 4.8
* or higher.
* @note The Petalinux SDK from Xilinx supports libgpiod since Petalinux
* 2019.1.
* @brief This class implements the GpioIF for a linux based system.
* @details
* This implementation is based on the libgpiod lib which requires Linux 4.8 or higher.
* @note
* The Petalinux SDK from Xilinx supports libgpiod since Petalinux 2019.1.
*/
class LinuxLibgpioIF : public GpioIF, public SystemObject {
public:
@ -28,6 +28,8 @@ public:
HasReturnvaluesIF::makeReturnCode(gpioRetvalId, 3);
static constexpr ReturnValue_t GPIO_INVALID_INSTANCE =
HasReturnvaluesIF::makeReturnCode(gpioRetvalId, 4);
static constexpr ReturnValue_t GPIO_DUPLICATE_DETECTED =
HasReturnvaluesIF::makeReturnCode(gpioRetvalId, 5);
LinuxLibgpioIF(object_id_t objectId);
virtual ~LinuxLibgpioIF();
@ -38,7 +40,13 @@ public:
ReturnValue_t readGpio(gpioId_t gpioId, int* gpioState) override;
private:
/* Holds the information and configuration of all used GPIOs */
static const size_t MAX_CHIPNAME_LENGTH = 11;
static const int LINE_NOT_EXISTS = 0;
static const int LINE_ERROR = -1;
static const int LINE_FOUND = 1;
// Holds the information and configuration of all used GPIOs
GpioUnorderedMap gpioMap;
GpioUnorderedMapIter gpioMapIter;
@ -53,8 +61,10 @@ private:
ReturnValue_t configureGpioByLabel(gpioId_t gpioId, GpiodRegularByLabel& gpioByLabel);
ReturnValue_t configureGpioByChip(gpioId_t gpioId, GpiodRegularByChip& gpioByChip);
ReturnValue_t configureRegularGpio(gpioId_t gpioId, gpio::GpioTypes gpioType,
struct gpiod_chip* chip, GpiodRegularBase& regularGpio, std::string failOutput);
ReturnValue_t configureGpioByLineName(gpioId_t gpioId,
GpiodRegularByLineName &gpioByLineName);
ReturnValue_t configureRegularGpio(gpioId_t gpioId, struct gpiod_chip* chip,
GpiodRegularBase& regularGpio, std::string failOutput);
/**
* @brief This function checks if GPIOs are already registered and whether
@ -67,16 +77,15 @@ private:
*/
ReturnValue_t checkForConflicts(GpioMap& mapToAdd);
ReturnValue_t checkForConflictsRegularGpio(gpioId_t gpiodId, GpiodRegularBase& regularGpio,
ReturnValue_t checkForConflictsById(gpioId_t gpiodId, gpio::GpioTypes type,
GpioMap& mapToAdd);
ReturnValue_t checkForConflictsCallbackGpio(gpioId_t gpiodId, GpioCallback* regularGpio,
GpioMap& mapToAdd);
/**
* @brief Performs the initial configuration of all GPIOs specified in the GpioMap mapToAdd.
*/
ReturnValue_t configureGpios(GpioMap& mapToAdd);
void parseFindeLineResult(int result, std::string& lineName);
};
#endif /* LINUX_GPIO_LINUXLIBGPIOIF_H_ */

25
hal/src/fsfw_hal/stm32h7/definitions.h Normal file
View File

@ -0,0 +1,25 @@
#ifndef FSFW_HAL_STM32H7_DEFINITIONS_H_
#define FSFW_HAL_STM32H7_DEFINITIONS_H_
#include <utility>
#include "stm32h7xx.h"
namespace stm32h7 {
/**
* Typedef for STM32 GPIO pair where the first entry is the port used (e.g. GPIOA)
* and the second entry is the pin number
*/
struct GpioCfg {
GpioCfg(): port(nullptr), pin(0), altFnc(0) {};
GpioCfg(GPIO_TypeDef* port, uint16_t pin, uint8_t altFnc = 0):
port(port), pin(pin), altFnc(altFnc) {};
GPIO_TypeDef* port;
uint16_t pin;
uint8_t altFnc;
};
}
#endif /* #ifndef FSFW_HAL_STM32H7_DEFINITIONS_H_ */

8
hal/src/fsfw_hal/stm32h7/devicetest/GyroL3GD20H.cpp
View File

@ -4,7 +4,7 @@
#include "fsfw_hal/stm32h7/spi/spiDefinitions.h"
#include "fsfw_hal/stm32h7/spi/spiCore.h"
#include "fsfw_hal/stm32h7/spi/spiInterrupts.h"
#include "fsfw_hal/stm32h7/spi/stm32h743ziSpi.h"
#include "fsfw_hal/stm32h7/spi/stm32h743zi.h"
#include "fsfw/tasks/TaskFactory.h"
#include "fsfw/serviceinterface/ServiceInterface.h"
@ -33,20 +33,20 @@ GyroL3GD20H::GyroL3GD20H(SPI_HandleTypeDef *spiHandle, spi::TransferModes transf
mspCfg = new spi::MspDmaConfigStruct();
auto typedCfg = dynamic_cast<spi::MspDmaConfigStruct*>(mspCfg);
spi::setDmaHandles(txDmaHandle, rxDmaHandle);
spi::h743zi::standardDmaCfg(*typedCfg, IrqPriorities::HIGHEST_FREERTOS,
stm32h7::h743zi::standardDmaCfg(*typedCfg, IrqPriorities::HIGHEST_FREERTOS,
IrqPriorities::HIGHEST_FREERTOS, IrqPriorities::HIGHEST_FREERTOS);
spi::setSpiDmaMspFunctions(typedCfg);
}
else if(transferMode == spi::TransferModes::INTERRUPT) {
mspCfg = new spi::MspIrqConfigStruct();
auto typedCfg = dynamic_cast<spi::MspIrqConfigStruct*>(mspCfg);
spi::h743zi::standardInterruptCfg(*typedCfg, IrqPriorities::HIGHEST_FREERTOS);
stm32h7::h743zi::standardInterruptCfg(*typedCfg, IrqPriorities::HIGHEST_FREERTOS);
spi::setSpiIrqMspFunctions(typedCfg);
}
else if(transferMode == spi::TransferModes::POLLING) {
mspCfg = new spi::MspPollingConfigStruct();
auto typedCfg = dynamic_cast<spi::MspPollingConfigStruct*>(mspCfg);
spi::h743zi::standardPollingCfg(*typedCfg);
stm32h7::h743zi::standardPollingCfg(*typedCfg);
spi::setSpiPollingMspFunctions(typedCfg);
}

2
hal/src/fsfw_hal/stm32h7/spi/CMakeLists.txt
View File

@ -5,5 +5,5 @@ target_sources(${LIB_FSFW_NAME} PRIVATE
mspInit.cpp
SpiCookie.cpp
SpiComIF.cpp
stm32h743ziSpi.cpp
stm32h743zi.cpp
)

38
hal/src/fsfw_hal/stm32h7/spi/SpiComIF.cpp
View File

@ -138,12 +138,14 @@ ReturnValue_t SpiComIF::initializeInterface(CookieIF *cookie) {
spi::setSpiDmaMspFunctions(typedCfg);
}
gpio::initializeGpioClock(gpioPort);
GPIO_InitTypeDef chipSelect = {};
chipSelect.Pin = gpioPin;
chipSelect.Mode = GPIO_MODE_OUTPUT_PP;
HAL_GPIO_Init(gpioPort, &chipSelect);
HAL_GPIO_WritePin(gpioPort, gpioPin, GPIO_PIN_SET);
if(gpioPort != nullptr) {
gpio::initializeGpioClock(gpioPort);
GPIO_InitTypeDef chipSelect = {};
chipSelect.Pin = gpioPin;
chipSelect.Mode = GPIO_MODE_OUTPUT_PP;
HAL_GPIO_Init(gpioPort, &chipSelect);
HAL_GPIO_WritePin(gpioPort, gpioPin, GPIO_PIN_SET);
}
if(HAL_SPI_Init(&spiHandle) != HAL_OK) {
sif::printWarning("SpiComIF::initialize: Error initializing SPI\n");
@ -259,10 +261,15 @@ ReturnValue_t SpiComIF::handlePollingSendOperation(uint8_t* recvPtr, SPI_HandleT
return returnval;
}
spiCookie.setTransferState(spi::TransferStates::WAIT);
HAL_GPIO_WritePin(gpioPort, gpioPin, GPIO_PIN_RESET);
if(gpioPort != nullptr) {
HAL_GPIO_WritePin(gpioPort, gpioPin, GPIO_PIN_RESET);
}
auto result = HAL_SPI_TransmitReceive(&spiHandle, const_cast<uint8_t*>(sendData),
recvPtr, sendLen, defaultPollingTimeout);
HAL_GPIO_WritePin(gpioPort, gpioPin, GPIO_PIN_SET);
if(gpioPort != nullptr) {
HAL_GPIO_WritePin(gpioPort, gpioPin, GPIO_PIN_SET);
}
spiSemaphore->release();
switch(result) {
case(HAL_OK): {
@ -392,8 +399,10 @@ ReturnValue_t SpiComIF::genericIrqSendSetup(uint8_t *recvPtr, SPI_HandleTypeDef&
// The SPI handle is passed to the default SPI callback as a void argument. This callback
// is different from the user callbacks specified above!
spi::assignSpiUserArgs(spiCookie.getSpiIdx(), reinterpret_cast<void*>(&spiHandle));
HAL_GPIO_WritePin(spiCookie.getChipSelectGpioPort(), spiCookie.getChipSelectGpioPin(),
GPIO_PIN_RESET);
if(spiCookie.getChipSelectGpioPort() != nullptr) {
HAL_GPIO_WritePin(spiCookie.getChipSelectGpioPort(), spiCookie.getChipSelectGpioPin(),
GPIO_PIN_RESET);
}
return HasReturnvaluesIF::RETURN_OK;
}
@ -426,9 +435,12 @@ void SpiComIF::genericIrqHandler(void *irqArgsVoid, spi::TransferStates targetSt
spiCookie->setTransferState(targetState);
// Pull CS pin high again
HAL_GPIO_WritePin(spiCookie->getChipSelectGpioPort(), spiCookie->getChipSelectGpioPin(),
GPIO_PIN_SET);
if(spiCookie->getChipSelectGpioPort() != nullptr) {
// Pull CS pin high again
HAL_GPIO_WritePin(spiCookie->getChipSelectGpioPort(), spiCookie->getChipSelectGpioPin(),
GPIO_PIN_SET);
}
#if defined FSFW_OSAL_FREERTOS
// Release the task semaphore

3
hal/src/fsfw_hal/stm32h7/spi/SpiComIF.h
View File

@ -60,7 +60,6 @@ public:
void addDmaHandles(DMA_HandleTypeDef* txHandle, DMA_HandleTypeDef* rxHandle);
ReturnValue_t initialize() override;
protected:
// DeviceCommunicationIF overrides
virtual ReturnValue_t initializeInterface(CookieIF * cookie) override;
@ -72,7 +71,7 @@ protected:
virtual ReturnValue_t readReceivedMessage(CookieIF *cookie,
uint8_t **buffer, size_t *size) override;
private:
protected:
struct SpiInstance {
SpiInstance(size_t maxRecvSize): replyBuffer(std::vector<uint8_t>(maxRecvSize)) {}

10
hal/src/fsfw_hal/stm32h7/spi/SpiCookie.cpp
View File

@ -3,10 +3,10 @@
SpiCookie::SpiCookie(address_t deviceAddress, spi::SpiBus spiIdx, spi::TransferModes transferMode,
spi::MspCfgBase* mspCfg, uint32_t spiSpeed, spi::SpiModes spiMode,
uint16_t chipSelectGpioPin, GPIO_TypeDef* chipSelectGpioPort, size_t maxRecvSize):
size_t maxRecvSize, stm32h7::GpioCfg csGpio):
deviceAddress(deviceAddress), spiIdx(spiIdx), spiSpeed(spiSpeed), spiMode(spiMode),
transferMode(transferMode), chipSelectGpioPin(chipSelectGpioPin),
chipSelectGpioPort(chipSelectGpioPort), mspCfg(mspCfg), maxRecvSize(maxRecvSize) {
transferMode(transferMode), csGpio(csGpio),
mspCfg(mspCfg), maxRecvSize(maxRecvSize) {
spiHandle.Init.DataSize = SPI_DATASIZE_8BIT;
spiHandle.Init.FirstBit = SPI_FIRSTBIT_MSB;
spiHandle.Init.TIMode = SPI_TIMODE_DISABLE;
@ -24,11 +24,11 @@ SpiCookie::SpiCookie(address_t deviceAddress, spi::SpiBus spiIdx, spi::TransferM
}
uint16_t SpiCookie::getChipSelectGpioPin() const {
return chipSelectGpioPin;
return csGpio.pin;
}
GPIO_TypeDef* SpiCookie::getChipSelectGpioPort() {
return chipSelectGpioPort;
return csGpio.port;
}
address_t SpiCookie::getDeviceAddress() const {

11
hal/src/fsfw_hal/stm32h7/spi/SpiCookie.h
View File

@ -3,11 +3,14 @@
#include "spiDefinitions.h"
#include "mspInit.h"
#include "../definitions.h"
#include "fsfw/devicehandlers/CookieIF.h"
#include "stm32h743xx.h"
#include <utility>
/**
* @brief SPI cookie implementation for the STM32H7 device family
* @details
@ -18,6 +21,7 @@
class SpiCookie: public CookieIF {
friend class SpiComIF;
public:
/**
* Allows construction of a SPI cookie for a connected SPI device
* @param deviceAddress
@ -32,10 +36,11 @@ public:
* definitions supplied in the MCU header file! (e.g. GPIO_PIN_X)
* @param chipSelectGpioPort GPIO port (e.g. GPIOA)
* @param maxRecvSize Maximum expected receive size. Chose as small as possible.
* @param csGpio Optional CS GPIO definition.
*/
SpiCookie(address_t deviceAddress, spi::SpiBus spiIdx, spi::TransferModes transferMode,
spi::MspCfgBase* mspCfg, uint32_t spiSpeed, spi::SpiModes spiMode,
uint16_t chipSelectGpioPin, GPIO_TypeDef* chipSelectGpioPort, size_t maxRecvSize);
size_t maxRecvSize, stm32h7::GpioCfg csGpio = stm32h7::GpioCfg(nullptr, 0, 0));
uint16_t getChipSelectGpioPin() const;
GPIO_TypeDef* getChipSelectGpioPort();
@ -55,8 +60,8 @@ private:
spi::SpiModes spiMode;
spi::TransferModes transferMode;
volatile spi::TransferStates transferState = spi::TransferStates::IDLE;
uint16_t chipSelectGpioPin;
GPIO_TypeDef* chipSelectGpioPort;
stm32h7::GpioCfg csGpio;
// The MSP configuration is cached here. Be careful when using this, it is automatically
// deleted by the SPI communication interface if it is not required anymore!
spi::MspCfgBase* mspCfg = nullptr;

28
hal/src/fsfw_hal/stm32h7/spi/mspInit.cpp
View File

@ -118,40 +118,40 @@ void spi::halMspInitPolling(SPI_HandleTypeDef* hspi, MspCfgBase* cfgBase) {
GPIO_InitTypeDef GPIO_InitStruct = {};
/*##-1- Enable peripherals and GPIO Clocks #################################*/
/* Enable GPIO TX/RX clock */
cfg->setupMacroWrapper();
cfg->setupCb();
/*##-2- Configure peripheral GPIO ##########################################*/
/* SPI SCK GPIO pin configuration */
GPIO_InitStruct.Pin = cfg->sckPin;
GPIO_InitStruct.Pin = cfg->sck.pin;
GPIO_InitStruct.Mode = GPIO_MODE_AF_PP;
GPIO_InitStruct.Pull = GPIO_PULLDOWN;
GPIO_InitStruct.Speed = GPIO_SPEED_FREQ_HIGH;
GPIO_InitStruct.Alternate = cfg->sckAlternateFunction;
HAL_GPIO_Init(cfg->sckPort, &GPIO_InitStruct);
GPIO_InitStruct.Alternate = cfg->sck.altFnc;
HAL_GPIO_Init(cfg->sck.port, &GPIO_InitStruct);
/* SPI MISO GPIO pin configuration */
GPIO_InitStruct.Pin = cfg->misoPin;
GPIO_InitStruct.Alternate = cfg->misoAlternateFunction;
HAL_GPIO_Init(cfg->misoPort, &GPIO_InitStruct);
GPIO_InitStruct.Pin = cfg->miso.pin;
GPIO_InitStruct.Alternate = cfg->miso.altFnc;
HAL_GPIO_Init(cfg->miso.port, &GPIO_InitStruct);
/* SPI MOSI GPIO pin configuration */
GPIO_InitStruct.Pin = cfg->mosiPin;
GPIO_InitStruct.Alternate = cfg->mosiAlternateFunction;
HAL_GPIO_Init(cfg->mosiPort, &GPIO_InitStruct);
GPIO_InitStruct.Pin = cfg->mosi.pin;
GPIO_InitStruct.Alternate = cfg->mosi.altFnc;
HAL_GPIO_Init(cfg->mosi.port, &GPIO_InitStruct);
}
void spi::halMspDeinitPolling(SPI_HandleTypeDef* hspi, MspCfgBase* cfgBase) {
auto cfg = reinterpret_cast<MspPollingConfigStruct*>(cfgBase);
// Reset peripherals
cfg->cleanUpMacroWrapper();
cfg->cleanupCb();
// Disable peripherals and GPIO Clocks
/* Configure SPI SCK as alternate function */
HAL_GPIO_DeInit(cfg->sckPort, cfg->sckPin);
HAL_GPIO_DeInit(cfg->sck.port, cfg->sck.pin);
/* Configure SPI MISO as alternate function */
HAL_GPIO_DeInit(cfg->misoPort, cfg->misoPin);
HAL_GPIO_DeInit(cfg->miso.port, cfg->miso.pin);
/* Configure SPI MOSI as alternate function */
HAL_GPIO_DeInit(cfg->mosiPort, cfg->mosiPin);
HAL_GPIO_DeInit(cfg->mosi.port, cfg->mosi.pin);
}
void spi::halMspInitInterrupt(SPI_HandleTypeDef* hspi, MspCfgBase* cfgBase) {

50
hal/src/fsfw_hal/stm32h7/spi/mspInit.h
View File

@ -2,6 +2,7 @@
#define FSFW_HAL_STM32H7_SPI_MSPINIT_H_
#include "spiDefinitions.h"
#include "../definitions.h"
#include "../dma.h"
#include "stm32h7xx_hal_spi.h"
@ -12,6 +13,8 @@
extern "C" {
#endif
using mspCb = void (*) (void);
/**
* @brief This file provides MSP implementation for DMA, IRQ and Polling mode for the
* SPI peripheral. This configuration is required for the SPI communication to work.
@ -19,27 +22,37 @@ extern "C" {
namespace spi {
struct MspCfgBase {
MspCfgBase();
MspCfgBase(stm32h7::GpioCfg sck, stm32h7::GpioCfg mosi, stm32h7::GpioCfg miso,
mspCb cleanupCb = nullptr, mspCb setupCb = nullptr):
sck(sck), mosi(mosi), miso(miso), cleanupCb(cleanupCb),
setupCb(setupCb) {}
virtual ~MspCfgBase() = default;
void (* cleanUpMacroWrapper) (void) = nullptr;
void (* setupMacroWrapper) (void) = nullptr;
stm32h7::GpioCfg sck;
stm32h7::GpioCfg mosi;
stm32h7::GpioCfg miso;
GPIO_TypeDef* sckPort = nullptr;
uint32_t sckPin = 0;
uint8_t sckAlternateFunction = 0;
GPIO_TypeDef* mosiPort = nullptr;
uint32_t mosiPin = 0;
uint8_t mosiAlternateFunction = 0;
GPIO_TypeDef* misoPort = nullptr;
uint32_t misoPin = 0;
uint8_t misoAlternateFunction = 0;
mspCb cleanupCb = nullptr;
mspCb setupCb = nullptr;
};
struct MspPollingConfigStruct: public MspCfgBase {};
struct MspPollingConfigStruct: public MspCfgBase {
MspPollingConfigStruct(): MspCfgBase() {};
MspPollingConfigStruct(stm32h7::GpioCfg sck, stm32h7::GpioCfg mosi, stm32h7::GpioCfg miso,
mspCb cleanupCb = nullptr, mspCb setupCb = nullptr):
MspCfgBase(sck, mosi, miso, cleanupCb, setupCb) {}
};
/* A valid instance of this struct must be passed to the MSP initialization function as a void*
argument */
struct MspIrqConfigStruct: public MspPollingConfigStruct {
MspIrqConfigStruct(): MspPollingConfigStruct() {};
MspIrqConfigStruct(stm32h7::GpioCfg sck, stm32h7::GpioCfg mosi, stm32h7::GpioCfg miso,
mspCb cleanupCb = nullptr, mspCb setupCb = nullptr):
MspPollingConfigStruct(sck, mosi, miso, cleanupCb, setupCb) {}
SpiBus spiBus = SpiBus::SPI_1;
user_handler_t spiIrqHandler = nullptr;
user_args_t spiUserArgs = nullptr;
@ -53,11 +66,16 @@ struct MspIrqConfigStruct: public MspPollingConfigStruct {
/* A valid instance of this struct must be passed to the MSP initialization function as a void*
argument */
struct MspDmaConfigStruct: public MspIrqConfigStruct {
MspDmaConfigStruct(): MspIrqConfigStruct() {};
MspDmaConfigStruct(stm32h7::GpioCfg sck, stm32h7::GpioCfg mosi, stm32h7::GpioCfg miso,
mspCb cleanupCb = nullptr, mspCb setupCb = nullptr):
MspIrqConfigStruct(sck, mosi, miso, cleanupCb, setupCb) {}
void (* dmaClkEnableWrapper) (void) = nullptr;
dma::DMAIndexes txDmaIndex;
dma::DMAIndexes rxDmaIndex;
dma::DMAStreams txDmaStream;
dma::DMAStreams rxDmaStream;
dma::DMAIndexes txDmaIndex = dma::DMAIndexes::DMA_1;
dma::DMAIndexes rxDmaIndex = dma::DMAIndexes::DMA_1;
dma::DMAStreams txDmaStream = dma::DMAStreams::STREAM_0;
dma::DMAStreams rxDmaStream = dma::DMAStreams::STREAM_0;
IRQn_Type txDmaIrqNumber = DMA1_Stream0_IRQn;
IRQn_Type rxDmaIrqNumber = DMA1_Stream1_IRQn;
// Priorities for NVIC

32
hal/src/fsfw_hal/stm32h7/spi/stm32h743ziSpi.cpp → hal/src/fsfw_hal/stm32h7/spi/stm32h743zi.cpp
View File

@ -1,4 +1,4 @@
#include "fsfw_hal/stm32h7/spi/stm32h743ziSpi.h"
#include "fsfw_hal/stm32h7/spi/stm32h743zi.h"
#include "fsfw_hal/stm32h7/spi/spiCore.h"
#include "fsfw_hal/stm32h7/spi/spiInterrupts.h"
@ -22,27 +22,27 @@ void spiDmaClockEnableWrapper() {
__HAL_RCC_DMA2_CLK_ENABLE();
}
void spi::h743zi::standardPollingCfg(MspPollingConfigStruct& cfg) {
cfg.setupMacroWrapper = &spiSetupWrapper;
cfg.cleanUpMacroWrapper = &spiCleanUpWrapper;
cfg.sckPort = GPIOA;
cfg.sckPin = GPIO_PIN_5;
cfg.misoPort = GPIOA;
cfg.misoPin = GPIO_PIN_6;
cfg.mosiPort = GPIOA;
cfg.mosiPin = GPIO_PIN_7;
cfg.sckAlternateFunction = GPIO_AF5_SPI1;
cfg.mosiAlternateFunction = GPIO_AF5_SPI1;
cfg.misoAlternateFunction = GPIO_AF5_SPI1;
void stm32h7::h743zi::standardPollingCfg(spi::MspPollingConfigStruct& cfg) {
cfg.setupCb = &spiSetupWrapper;
cfg.cleanupCb = &spiCleanUpWrapper;
cfg.sck.port = GPIOA;
cfg.sck.pin = GPIO_PIN_5;
cfg.miso.port = GPIOA;
cfg.miso.pin = GPIO_PIN_6;
cfg.mosi.port = GPIOA;
cfg.mosi.pin = GPIO_PIN_7;
cfg.sck.altFnc = GPIO_AF5_SPI1;
cfg.mosi.altFnc = GPIO_AF5_SPI1;
cfg.miso.altFnc = GPIO_AF5_SPI1;
}
void spi::h743zi::standardInterruptCfg(MspIrqConfigStruct& cfg, IrqPriorities spiIrqPrio,
void stm32h7::h743zi::standardInterruptCfg(spi::MspIrqConfigStruct& cfg, IrqPriorities spiIrqPrio,
IrqPriorities spiSubprio) {
// High, but works on FreeRTOS as well (priorities range from 0 to 15)
cfg.preEmptPriority = spiIrqPrio;
cfg.subpriority = spiSubprio;
cfg.spiIrqNumber = SPI1_IRQn;
cfg.spiBus = SpiBus::SPI_1;
cfg.spiBus = spi::SpiBus::SPI_1;
user_handler_t spiUserHandler = nullptr;
user_args_t spiUserArgs = nullptr;
getSpiUserHandler(spi::SpiBus::SPI_1, &spiUserHandler, &spiUserArgs);
@ -55,7 +55,7 @@ void spi::h743zi::standardInterruptCfg(MspIrqConfigStruct& cfg, IrqPriorities sp
standardPollingCfg(cfg);
}
void spi::h743zi::standardDmaCfg(MspDmaConfigStruct& cfg, IrqPriorities spiIrqPrio,
void stm32h7::h743zi::standardDmaCfg(spi::MspDmaConfigStruct& cfg, IrqPriorities spiIrqPrio,
IrqPriorities txIrqPrio, IrqPriorities rxIrqPrio, IrqPriorities spiSubprio,
IrqPriorities txSubprio, IrqPriorities rxSubprio) {
cfg.dmaClkEnableWrapper = &spiDmaClockEnableWrapper;

11
hal/src/fsfw_hal/stm32h7/spi/stm32h743ziSpi.h → hal/src/fsfw_hal/stm32h7/spi/stm32h743zi.h
View File

@ -3,21 +3,20 @@
#include "mspInit.h"
namespace spi {
namespace stm32h7 {
namespace h743zi {
void standardPollingCfg(MspPollingConfigStruct& cfg);
void standardInterruptCfg(MspIrqConfigStruct& cfg, IrqPriorities spiIrqPrio,
void standardPollingCfg(spi::MspPollingConfigStruct& cfg);
void standardInterruptCfg(spi::MspIrqConfigStruct& cfg, IrqPriorities spiIrqPrio,
IrqPriorities spiSubprio = HIGHEST);
void standardDmaCfg(MspDmaConfigStruct& cfg, IrqPriorities spiIrqPrio,
void standardDmaCfg(spi::MspDmaConfigStruct& cfg, IrqPriorities spiIrqPrio,
IrqPriorities txIrqPrio, IrqPriorities rxIrqPrio,
IrqPriorities spiSubprio = HIGHEST, IrqPriorities txSubPrio = HIGHEST,
IrqPriorities rxSubprio = HIGHEST);
}
}
#endif /* FSFW_HAL_STM32H7_SPI_STM32H743ZISPI_H_ */

60
misc/defaultcfg/fsfwconfig/CMakeLists.txt
View File

@ -1,23 +1,49 @@
target_include_directories(${TARGET_NAME} PRIVATE
if(DEFINED TARGET_NAME)
target_include_directories(${TARGET_NAME} PRIVATE
${CMAKE_CURRENT_SOURCE_DIR}
)
target_sources(${TARGET_NAME} PRIVATE
ipc/missionMessageTypes.cpp
pollingsequence/PollingSequenceFactory.cpp
objects/FsfwFactory.cpp
)
# If a special translation file for object IDs exists, compile it.
if(EXISTS "${CMAKE_CURRENT_SOURCE_DIR}/objects/translateObjects.cpp")
target_sources(${TARGET_NAME} PRIVATE
objects/translateObjects.cpp
)
endif()
# If a special translation file for events exists, compile it.
if(EXISTS "${CMAKE_CURRENT_SOURCE_DIR}/objects/translateObjects.cpp")
target_sources(${TARGET_NAME} PRIVATE
events/translateEvents.cpp
ipc/missionMessageTypes.cpp
pollingsequence/PollingSequenceFactory.cpp
objects/FsfwFactory.cpp
)
# If a special translation file for object IDs exists, compile it.
if(EXISTS "${CMAKE_CURRENT_SOURCE_DIR}/objects/translateObjects.cpp")
target_sources(${TARGET_NAME} PRIVATE
objects/translateObjects.cpp
)
endif()
# If a special translation file for events exists, compile it.
if(EXISTS "${CMAKE_CURRENT_SOURCE_DIR}/objects/translateObjects.cpp")
target_sources(${TARGET_NAME} PRIVATE
events/translateEvents.cpp
)
endif()
else()
target_include_directories(${LIB_FSFW_NAME} PRIVATE
${CMAKE_CURRENT_SOURCE_DIR}
)
target_sources(${LIB_FSFW_NAME} PRIVATE
ipc/missionMessageTypes.cpp
pollingsequence/PollingSequenceFactory.cpp
objects/FsfwFactory.cpp
)
# If a special translation file for object IDs exists, compile it.
if(EXISTS "${CMAKE_CURRENT_SOURCE_DIR}/objects/translateObjects.cpp")
target_sources(${LIB_FSFW_NAME} PRIVATE
objects/translateObjects.cpp
)
endif()
# If a special translation file for events exists, compile it.
if(EXISTS "${CMAKE_CURRENT_SOURCE_DIR}/objects/translateObjects.cpp")
target_sources(${LIB_FSFW_NAME} PRIVATE
events/translateEvents.cpp
)
endif()
endif()

4
misc/defaultcfg/fsfwconfig/objects/FsfwFactory.cpp
View File

@ -7,7 +7,7 @@
#include <fsfw/tmtcpacket/pus/tm/TmPacketStored.h>
#include <fsfw/tmtcservices/CommandingServiceBase.h>
#include <fsfw/tmtcservices/PusServiceBase.h>
#include <fsfw/internalError/InternalErrorReporter.h>
#include <fsfw/internalerror/InternalErrorReporter.h>
#include <cstdint>
@ -48,6 +48,6 @@ void Factory::setStaticFrameworkObjectIds() {
DeviceHandlerFailureIsolation::powerConfirmationId = objects::NO_OBJECT;
TmPacketStored::timeStamperId = objects::NO_OBJECT;
TmPacketBase::timeStamperId = objects::NO_OBJECT;
}

8
scripts/apply-clang-format.sh Executable file
View File

@ -0,0 +1,8 @@
#!/bin/bash
if [[ ! -f README.md ]]; then
cd ..
fi
find ./src -iname *.h -o -iname *.cpp -o -iname *.c | xargs clang-format --style=file -i
find ./hal -iname *.h -o -iname *.cpp -o -iname *.c | xargs clang-format --style=file -i
find ./tests -iname *.h -o -iname *.cpp -o -iname *.c | xargs clang-format --style=file -i

188
scripts/helper.py Executable file
View File

@ -0,0 +1,188 @@
#!/usr/bin/env python3
# -*- coding: utf-8 -*
"""Small portable helper script to generate test or doc configuration for the
flight software framework
"""
import os
import argparse
import webbrowser
import shutil
import sys
import time
from typing import List
UNITTEST_FOLDER_NAME = 'build-tests'
DOCS_FOLDER_NAME = 'build-docs'
def main():
parser = argparse.ArgumentParser(description="FSFW helper script")
choices = ('docs', 'tests')
parser.add_argument(
'type', metavar='type', choices=choices,
help=f'Target type. Choices: {choices}'
)
parser.add_argument(
'-a', '--all', action='store_true',
help='Create, build and open specified type'
)
parser.add_argument(
'-c', '--create', action='store_true',
help='Create docs or test build configuration'
)
parser.add_argument(
'-b', '--build', action='store_true',
help='Build the specified type'
)
parser.add_argument(
'-o', '--open', action='store_true',
help='Open test or documentation data in webbrowser'
)
args = parser.parse_args()
if args.all:
args.build = True
args.create = True
args.open = True
elif not args.build and not args.create and not args.open:
print(
'Please select at least one operation to perform. '
'Use helper.py -h for more information'
)
sys.exit(1)
# This script can be called from root and from script folder
if not os.path.isfile('README.md'):
os.chdir('..')
build_dir_list = []
if not args.create:
build_dir_list = build_build_dir_list()
if args.type == 'tests':
handle_tests_type(args, build_dir_list)
elif args.type == 'docs':
handle_docs_type(args, build_dir_list)
else:
print('Invalid or unknown type')
sys.exit(1)
def handle_docs_type(args, build_dir_list: list):
if args.create:
if os.path.exists(DOCS_FOLDER_NAME):
shutil.rmtree(DOCS_FOLDER_NAME)
create_docs_build_cfg()
build_directory = DOCS_FOLDER_NAME
elif len(build_dir_list) == 0:
print('No valid CMake docs build directory found. Trying to set up docs build system')
shutil.rmtree(DOCS_FOLDER_NAME)
create_docs_build_cfg()
build_directory = DOCS_FOLDER_NAME
elif len(build_dir_list) == 1:
build_directory = build_dir_list[0]
else:
print("Multiple build directories found!")
build_directory = determine_build_dir(build_dir_list)
os.chdir(build_directory)
if args.build:
os.system('cmake --build . -j')
if args.open:
if not os.path.isfile('docs/sphinx/index.html'):
# try again..
os.system('cmake --build . -j')
if not os.path.isfile('docs/sphinx/index.html'):
print(
"No Sphinx documentation file detected. "
"Try to build it first with the -b argument"
)
sys.exit(1)
webbrowser.open('docs/sphinx/index.html')
def handle_tests_type(args, build_dir_list: list):
if args.create:
if os.path.exists(UNITTEST_FOLDER_NAME):
shutil.rmtree(UNITTEST_FOLDER_NAME)
create_tests_build_cfg()
build_directory = UNITTEST_FOLDER_NAME
elif len(build_dir_list) == 0:
print(
'No valid CMake tests build directory found. '
'Trying to set up test build system'
)
create_tests_build_cfg()
build_directory = UNITTEST_FOLDER_NAME
elif len(build_dir_list) == 1:
build_directory = build_dir_list[0]
else:
print("Multiple build directories found!")
build_directory = determine_build_dir(build_dir_list)
os.chdir(build_directory)
if args.build:
perform_lcov_operation(build_directory, False)
if args.open:
if not os.path.isdir('fsfw-tests_coverage'):
print("No Unittest folder detected. Try to build them first with the -b argument")
sys.exit(1)
webbrowser.open('fsfw-tests_coverage/index.html')
def create_tests_build_cfg():
os.mkdir(UNITTEST_FOLDER_NAME)
os.chdir(UNITTEST_FOLDER_NAME)
os.system('cmake -DFSFW_OSAL=host -DFSFW_BUILD_UNITTESTS=ON ..')
os.chdir('..')
def create_docs_build_cfg():
os.mkdir(DOCS_FOLDER_NAME)
os.chdir(DOCS_FOLDER_NAME)
os.system('cmake -DFSFW_OSAL=host -DFSFW_BUILD_DOCS=ON ..')
os.chdir('..')
def build_build_dir_list() -> list:
build_dir_list = []
for directory in os.listdir("."):
if os.path.isdir(directory):
os.chdir(directory)
build_dir_list = check_for_cmake_build_dir(build_dir_list)
os.chdir("..")
return build_dir_list
def check_for_cmake_build_dir(build_dir_list: list) -> list:
if os.path.isfile("CMakeCache.txt"):
build_dir_list.append(os.getcwd())
return build_dir_list
def perform_lcov_operation(directory: str, chdir: bool):
if chdir:
os.chdir(directory)
os.system("cmake --build . -- fsfw-tests_coverage -j")
def determine_build_dir(build_dir_list: List[str]):
build_directory = ""
for idx, directory in enumerate(build_dir_list):
print(f"{idx + 1}: {directory}")
while True:
idx = input("Pick the directory: ")
if not idx.isdigit():
print("Invalid input!")
continue
idx = int(idx)
if idx > len(build_dir_list) or idx < 1:
print("Invalid input!")
continue
build_directory = build_dir_list[idx - 1]
break
return build_directory
if __name__ == "__main__":
main()

2
src/CMakeLists.txt
View File

@ -16,5 +16,3 @@ target_include_directories(${LIB_FSFW_NAME} PRIVATE
target_include_directories(${LIB_FSFW_NAME} INTERFACE
${CMAKE_CURRENT_BINARY_DIR}
)
configure_file(fsfw/FSFW.h.in fsfw/FSFW.h)

30
src/fsfw/FSFW.h.in
View File

@ -16,9 +16,37 @@
#cmakedefine FSFW_ADD_MONITORING
#cmakedefine FSFW_ADD_SGP4_PROPAGATOR
// FSFW core defines
#ifndef FSFW_CPP_OSTREAM_ENABLED
#define FSFW_CPP_OSTREAM_ENABLED 1
#endif /* FSFW_CPP_OSTREAM_ENABLED */
#ifndef FSFW_VERBOSE_LEVEL
#define FSFW_VERBOSE_LEVEL 1
#endif /* FSFW_VERBOSE_LEVEL */
#ifndef FSFW_USE_REALTIME_FOR_LINUX
#define FSFW_USE_REALTIME_FOR_LINUX 0
#endif /* FSFW_USE_REALTIME_FOR_LINUX */
#ifndef FSFW_NO_C99_IO
#define FSFW_NO_C99_IO 0
#endif /* FSFW_NO_C99_IO */
#ifndef FSFW_USE_PUS_C_TELEMETRY
#define FSFW_USE_PUS_C_TELEMETRY 1
#endif /* FSFW_USE_PUS_C_TELEMETRY */
#ifndef FSFW_USE_PUS_C_TELECOMMANDS
#define FSFW_USE_PUS_C_TELECOMMANDS 1
#endif
// FSFW HAL defines
// Can be used for low-level debugging of the SPI bus
#ifndef FSFW_HAL_SPI_WIRETAPPING
#define FSFW_HAL_SPI_WIRETAPPING 0
#define FSFW_HAL_SPI_WIRETAPPING 0
#endif
#ifndef FSFW_HAL_L3GD20_GYRO_DEBUG

10
src/fsfw/FSFWVersion.h
View File

@ -1,10 +0,0 @@
#ifndef FSFW_VERSION_H_
#define FSFW_VERSION_H_
const char* const FSFW_VERSION_NAME = "ASTP";
#define FSFW_VERSION 2
#define FSFW_SUBVERSION 0
#define FSFW_REVISION 0
#endif /* FSFW_VERSION_H_ */

9
src/fsfw/FSFWVersion.h.in Normal file
View File

@ -0,0 +1,9 @@
#ifndef FSFW_VERSION_H_
#define FSFW_VERSION_H_
// Versioning is kept in project CMakeLists.txt file
#define FSFW_VERSION @FSFW_VERSION@
#define FSFW_SUBVERSION @FSFW_SUBVERSION@
#define FSFW_REVISION @FSFW_REVISION@
#endif /* FSFW_VERSION_H_ */

6
src/fsfw/datapoollocal/LocalPoolDataSetBase.cpp
View File

@ -110,7 +110,7 @@ ReturnValue_t LocalPoolDataSetBase::serializeWithValidityBuffer(uint8_t **buffer
for (uint16_t count = 0; count < fillCount; count++) {
if(registeredVariables[count]->isValid()) {
/* Set bit at correct position */
bitutil::bitSet(validityPtr + validBufferIndex, validBufferIndexBit);
bitutil::set(validityPtr + validBufferIndex, validBufferIndexBit);
}
if(validBufferIndexBit == 7) {
validBufferIndex ++;
@ -156,8 +156,8 @@ ReturnValue_t LocalPoolDataSetBase::deSerializeWithValidityBuffer(
uint8_t validBufferIndexBit = 0;
for (uint16_t count = 0; count < fillCount; count++) {
// set validity buffer here.
bool nextVarValid = bitutil::bitGet(*buffer +
validBufferIndex, validBufferIndexBit);
bool nextVarValid = false;
bitutil::get(*buffer + validBufferIndex, validBufferIndexBit, nextVarValid);
registeredVariables[count]->setValid(nextVarValid);
if(validBufferIndexBit == 7) {

39
src/fsfw/globalfunctions/PeriodicOperationDivider.cpp
View File

@ -2,43 +2,40 @@
PeriodicOperationDivider::PeriodicOperationDivider(uint32_t divider,
bool resetAutomatically): resetAutomatically(resetAutomatically),
counter(divider), divider(divider) {
bool resetAutomatically): resetAutomatically(resetAutomatically),
divider(divider) {
}
bool PeriodicOperationDivider::checkAndIncrement() {
bool opNecessary = check();
if(opNecessary) {
if(resetAutomatically) {
counter = 0;
}
return opNecessary;
}
counter ++;
return opNecessary;
bool opNecessary = check();
if(opNecessary and resetAutomatically) {
resetCounter();
}
else {
counter++;
}
return opNecessary;
}
bool PeriodicOperationDivider::check() {
if(counter >= divider) {
return true;
}
return false;
if(counter >= divider) {
return true;
}
return false;
}
void PeriodicOperationDivider::resetCounter() {
counter = 0;
counter = 1;
}
void PeriodicOperationDivider::setDivider(uint32_t newDivider) {
divider = newDivider;
divider = newDivider;
}
uint32_t PeriodicOperationDivider::getCounter() const {
return counter;
return counter;
}
uint32_t PeriodicOperationDivider::getDivider() const {
return divider;
return divider;
}

77
src/fsfw/globalfunctions/PeriodicOperationDivider.h
View File

@ -13,51 +13,50 @@
*/
class PeriodicOperationDivider {
public:
/**
* Initialize with the desired divider and specify whether the internal
* counter will be reset automatically.
* @param divider
* @param resetAutomatically
*/
PeriodicOperationDivider(uint32_t divider, bool resetAutomatically = true);
/**
* Initialize with the desired divider and specify whether the internal
* counter will be reset automatically.
* @param divider Value of 0 or 1 will cause #check and #checkAndIncrement to always return
* true
* @param resetAutomatically
*/
PeriodicOperationDivider(uint32_t divider, bool resetAutomatically = true);
/**
* Check whether operation is necessary. If an operation is necessary and the class has been
* configured to be reset automatically, the counter will be reset to 1 automatically
*
* @return
* -@c true if the counter is larger or equal to the divider
* -@c false otherwise
*/
bool checkAndIncrement();
/**
* Check whether operation is necessary.
* If an operation is necessary and the class has been
* configured to be reset automatically, the counter will be reset.
*
* @return
* -@c true if the counter is larger or equal to the divider
* -@c false otherwise
*/
bool checkAndIncrement();
/**
* Checks whether an operation is necessary. This function will not increment the counter.
* @return
* -@c true if the counter is larger or equal to the divider
* -@c false otherwise
*/
bool check();
/**
* Checks whether an operation is necessary.
* This function will not increment the counter!
* @return
* -@c true if the counter is larger or equal to the divider
* -@c false otherwise
*/
bool check();
/**
* Can be used to reset the counter to 1 manually
*/
void resetCounter();
uint32_t getCounter() const;
/**
* Can be used to reset the counter to 0 manually.
*/
void resetCounter();
uint32_t getCounter() const;
/**
* Can be used to set a new divider value.
* @param newDivider
*/
void setDivider(uint32_t newDivider);
uint32_t getDivider() const;
/**
* Can be used to set a new divider value.
* @param newDivider
*/
void setDivider(uint32_t newDivider);
uint32_t getDivider() const;
private:
bool resetAutomatically = true;
uint32_t counter = 0;
uint32_t divider = 0;
bool resetAutomatically = true;
uint32_t counter = 1;
uint32_t divider = 0;
};

22
src/fsfw/globalfunctions/arrayprinter.cpp
View File

@ -45,18 +45,18 @@ void arrayprinter::printHex(const uint8_t *data, size_t size,
std::cout << "\r" << std::endl;
}
std::cout << "[" << std::hex;
std::cout << "hex [" << std::setfill('0') << std::hex;
for(size_t i = 0; i < size; i++) {
std::cout << "0x" << static_cast<int>(data[i]);
std::cout << std::setw(2) << static_cast<int>(data[i]);
if(i < size - 1) {
std::cout << " , ";
std::cout << ",";
if(i > 0 and (i + 1) % maxCharPerLine == 0) {
std::cout << std::endl;
}
}
}
std::cout << std::dec;
std::cout << std::dec << std::setfill(' ');
std::cout << "]" << std::endl;
#else
// General format: 0x01, 0x02, 0x03 so it is number of chars times 6
@ -69,16 +69,16 @@ void arrayprinter::printHex(const uint8_t *data, size_t size,
break;
}
currentPos += snprintf(printBuffer + currentPos, 6, "0x%02x", data[i]);
currentPos += snprintf(printBuffer + currentPos, 6, "%02x", data[i]);
if(i < size - 1) {
currentPos += sprintf(printBuffer + currentPos, ", ");
currentPos += sprintf(printBuffer + currentPos, ",");
if(i > 0 and (i + 1) % maxCharPerLine == 0) {
currentPos += sprintf(printBuffer + currentPos, "\n");
}
}
}
#if FSFW_DISABLE_PRINTOUT == 0
printf("[%s]\n", printBuffer);
printf("hex [%s]\n", printBuffer);
#endif /* FSFW_DISABLE_PRINTOUT == 0 */
#endif
}
@ -90,11 +90,11 @@ void arrayprinter::printDec(const uint8_t *data, size_t size,
std::cout << "\r" << std::endl;
}
std::cout << "[" << std::dec;
std::cout << "dec [" << std::dec;
for(size_t i = 0; i < size; i++) {
std::cout << static_cast<int>(data[i]);
if(i < size - 1){
std::cout << " , ";
std::cout << ",";
if(i > 0 and (i + 1) % maxCharPerLine == 0) {
std::cout << std::endl;
}
@ -114,14 +114,14 @@ void arrayprinter::printDec(const uint8_t *data, size_t size,
currentPos += snprintf(printBuffer + currentPos, 3, "%d", data[i]);
if(i < size - 1) {
currentPos += sprintf(printBuffer + currentPos, ", ");
currentPos += sprintf(printBuffer + currentPos, ",");
if(i > 0 and (i + 1) % maxCharPerLine == 0) {
currentPos += sprintf(printBuffer + currentPos, "\n");
}
}
}
#if FSFW_DISABLE_PRINTOUT == 0
printf("[%s]\n", printBuffer);
printf("dec [%s]\n", printBuffer);
#endif /* FSFW_DISABLE_PRINTOUT == 0 */
#endif
}

11
src/fsfw/globalfunctions/bitutility.cpp
View File

@ -1,6 +1,6 @@
#include "fsfw/globalfunctions/bitutility.h"
void bitutil::bitSet(uint8_t *byte, uint8_t position) {
void bitutil::set(uint8_t *byte, uint8_t position) {
if(position > 7) {
return;
}
@ -8,7 +8,7 @@ void bitutil::bitSet(uint8_t *byte, uint8_t position) {
*byte |= 1 << shiftNumber;
}
void bitutil::bitToggle(uint8_t *byte, uint8_t position) {
void bitutil::toggle(uint8_t *byte, uint8_t position) {
if(position > 7) {
return;
}
@ -16,7 +16,7 @@ void bitutil::bitToggle(uint8_t *byte, uint8_t position) {
*byte ^= 1 << shiftNumber;
}
void bitutil::bitClear(uint8_t *byte, uint8_t position) {
void bitutil::clear(uint8_t *byte, uint8_t position) {
if(position > 7) {
return;
}
@ -24,10 +24,11 @@ void bitutil::bitClear(uint8_t *byte, uint8_t position) {
*byte &= ~(1 << shiftNumber);
}
bool bitutil::bitGet(const uint8_t *byte, uint8_t position) {
bool bitutil::get(const uint8_t *byte, uint8_t position, bool& bit) {
if(position > 7) {
return false;
}
uint8_t shiftNumber = position + (7 - 2 * position);
return *byte & (1 << shiftNumber);
bit = *byte & (1 << shiftNumber);
return true;
}

37
src/fsfw/globalfunctions/bitutility.h
View File

@ -5,13 +5,36 @@
namespace bitutil {
/* Helper functions for manipulating the individual bits of a byte.
Position refers to n-th bit of a byte, going from 0 (most significant bit) to
7 (least significant bit) */
void bitSet(uint8_t* byte, uint8_t position);
void bitToggle(uint8_t* byte, uint8_t position);
void bitClear(uint8_t* byte, uint8_t position);
bool bitGet(const uint8_t* byte, uint8_t position);
// Helper functions for manipulating the individual bits of a byte.
// Position refers to n-th bit of a byte, going from 0 (most significant bit) to
// 7 (least significant bit)
/**
* @brief Set the bit in a given byte
* @param byte
* @param position
*/
void set(uint8_t* byte, uint8_t position);
/**
* @brief Toggle the bit in a given byte
* @param byte
* @param position
*/
void toggle(uint8_t* byte, uint8_t position);
/**
* @brief Clear the bit in a given byte
* @param byte
* @param position
*/
void clear(uint8_t* byte, uint8_t position);
/**
* @brief Get the bit in a given byte
* @param byte
* @param position
* @param If the input is valid, this will be set to true if the bit is set and false otherwise.
* @return False if position is invalid, True otherwise
*/
bool get(const uint8_t* byte, uint8_t position, bool& bit);
}

3
src/fsfw/globalfunctions/timevalOperations.h
View File

@ -2,8 +2,9 @@
#define TIMEVALOPERATIONS_H_
#include <stdint.h>
#include <fsfw/platform.h>
#ifdef WIN32
#ifdef PLATFORM_WIN
#include <winsock2.h>
#else
#include <sys/time.h>

13
src/fsfw/memory/FileSystemArgsIF.h Normal file
View File

@ -0,0 +1,13 @@
#ifndef FSFW_SRC_FSFW_MEMORY_FILESYSTEMARGS_H_
#define FSFW_SRC_FSFW_MEMORY_FILESYSTEMARGS_H_
/**
* Empty base interface which can be implemented by to pass arguments via the HasFileSystemIF.
* Users can then dynamic_cast the base pointer to the require child pointer.
*/
class FileSystemArgsIF {
public:
virtual~ FileSystemArgsIF() {};
};
#endif /* FSFW_SRC_FSFW_MEMORY_FILESYSTEMARGS_H_ */

27
src/fsfw/memory/HasFileSystemIF.h
View File

@ -1,9 +1,10 @@
#ifndef FSFW_MEMORY_HASFILESYSTEMIF_H_
#define FSFW_MEMORY_HASFILESYSTEMIF_H_
#include "../returnvalues/HasReturnvaluesIF.h"
#include "../returnvalues/FwClassIds.h"
#include "../ipc/messageQueueDefinitions.h"
#include "FileSystemArgsIF.h"
#include "fsfw/returnvalues/HasReturnvaluesIF.h"
#include "fsfw/returnvalues/FwClassIds.h"
#include "fsfw/ipc/messageQueueDefinitions.h"
#include <cstddef>
@ -59,7 +60,7 @@ public:
*/
virtual ReturnValue_t appendToFile(const char* repositoryPath,
const char* filename, const uint8_t* data, size_t size,
uint16_t packetNumber, void* args = nullptr) = 0;
uint16_t packetNumber, FileSystemArgsIF* args = nullptr) = 0;
/**
* @brief Generic function to create a new file.
@ -72,7 +73,7 @@ public:
*/
virtual ReturnValue_t createFile(const char* repositoryPath,
const char* filename, const uint8_t* data = nullptr,
size_t size = 0, void* args = nullptr) = 0;
size_t size = 0, FileSystemArgsIF* args = nullptr) = 0;
/**
* @brief Generic function to delete a file.
@ -81,24 +82,30 @@ public:
* @param args Any other arguments which an implementation might require
* @return
*/
virtual ReturnValue_t deleteFile(const char* repositoryPath,
const char* filename, void* args = nullptr) = 0;
virtual ReturnValue_t removeFile(const char* repositoryPath,
const char* filename, FileSystemArgsIF* args = nullptr) = 0;
/**
* @brief Generic function to create a directory
* @param repositoryPath
* @param Equivalent to the -p flag in Unix systems. If some required parent directories
* do not exist, create them as well
* @param args Any other arguments which an implementation might require
* @return
*/
virtual ReturnValue_t createDirectory(const char* repositoryPath, void* args = nullptr) = 0;
virtual ReturnValue_t createDirectory(const char* repositoryPath, const char* dirname,
bool createParentDirs, FileSystemArgsIF* args = nullptr) = 0;
/**
* @brief Generic function to remove a directory
* @param repositoryPath
* @param args Any other arguments which an implementation might require
*/
virtual ReturnValue_t removeDirectory(const char* repositoryPath,
bool deleteRecurively = false, void* args = nullptr) = 0;
virtual ReturnValue_t removeDirectory(const char* repositoryPath, const char* dirname,
bool deleteRecurively = false, FileSystemArgsIF* args = nullptr) = 0;
virtual ReturnValue_t renameFile(const char* repositoryPath, const char* oldFilename,
const char* newFilename, FileSystemArgsIF* args = nullptr) = 0;
};

289
src/fsfw/osal/common/TcpTmTcServer.cpp
View File

@ -1,13 +1,17 @@
#include "fsfw/osal/common/TcpTmTcServer.h"
#include "fsfw/osal/common/TcpTmTcBridge.h"
#include "fsfw/osal/common/tcpipHelpers.h"
#include "fsfw/platform.h"
#include "fsfw/FSFW.h"
#include "TcpTmTcServer.h"
#include "TcpTmTcBridge.h"
#include "tcpipHelpers.h"
#include "fsfw/tmtcservices/SpacePacketParser.h"
#include "fsfw/tasks/TaskFactory.h"
#include "fsfw/globalfunctions/arrayprinter.h"
#include "fsfw/container/SharedRingBuffer.h"
#include "fsfw/ipc/MessageQueueSenderIF.h"
#include "fsfw/ipc/MutexGuard.h"
#include "fsfw/objectmanager/ObjectManager.h"
#include "fsfw/serviceinterface/ServiceInterface.h"
#include "fsfw/tmtcservices/TmTcMessage.h"
@ -18,19 +22,14 @@
#include <netdb.h>
#endif
#ifndef FSFW_TCP_RECV_WIRETAPPING_ENABLED
#define FSFW_TCP_RECV_WIRETAPPING_ENABLED 0
#endif
const std::string TcpTmTcServer::DEFAULT_SERVER_PORT = tcpip::DEFAULT_SERVER_PORT;
TcpTmTcServer::TcpTmTcServer(object_id_t objectId, object_id_t tmtcTcpBridge,
size_t receptionBufferSize, std::string customTcpServerPort):
SystemObject(objectId), tmtcBridgeId(tmtcTcpBridge),
tcpPort(customTcpServerPort), receptionBuffer(receptionBufferSize) {
if(tcpPort == "") {
tcpPort = DEFAULT_SERVER_PORT;
}
size_t receptionBufferSize, size_t ringBufferSize, std::string customTcpServerPort,
ReceptionModes receptionMode):
SystemObject(objectId), tmtcBridgeId(tmtcTcpBridge), receptionMode(receptionMode),
tcpConfig(customTcpServerPort), receptionBuffer(receptionBufferSize),
ringBuffer(ringBufferSize, true) {
}
ReturnValue_t TcpTmTcServer::initialize() {
@ -41,6 +40,17 @@ ReturnValue_t TcpTmTcServer::initialize() {
return result;
}
switch(receptionMode) {
case(ReceptionModes::SPACE_PACKETS): {
spacePacketParser = new SpacePacketParser(validPacketIds);
if(spacePacketParser == nullptr) {
return HasReturnvaluesIF::RETURN_FAILED;
}
#if defined PLATFORM_UNIX
tcpConfig.tcpFlags |= MSG_DONTWAIT;
#endif
}
}
tcStore = ObjectManager::instance()->get<StorageManagerIF>(objects::TC_STORE);
if (tcStore == nullptr) {
#if FSFW_CPP_OSTREAM_ENABLED == 1
@ -63,7 +73,7 @@ ReturnValue_t TcpTmTcServer::initialize() {
hints.ai_flags = AI_PASSIVE;
// Listen to all addresses (0.0.0.0) by using AI_PASSIVE in the hint flags
retval = getaddrinfo(nullptr, tcpPort.c_str(), &hints, &addrResult);
retval = getaddrinfo(nullptr, tcpConfig.tcpPort.c_str(), &hints, &addrResult);
if (retval != 0) {
handleError(Protocol::TCP, ErrorSources::GETADDRINFO_CALL);
return HasReturnvaluesIF::RETURN_FAILED;
@ -105,7 +115,7 @@ ReturnValue_t TcpTmTcServer::performOperation(uint8_t opCode) {
// Listen for connection requests permanently for lifetime of program
while(true) {
retval = listen(listenerTcpSocket, tcpBacklog);
retval = listen(listenerTcpSocket, tcpConfig.tcpBacklog);
if(retval == SOCKET_ERROR) {
handleError(Protocol::TCP, ErrorSources::LISTEN_CALL, 500);
continue;
@ -123,11 +133,12 @@ ReturnValue_t TcpTmTcServer::performOperation(uint8_t opCode) {
handleServerOperation(connSocket);
// Done, shut down connection and go back to listening for client requests
retval = shutdown(connSocket, SHUT_SEND);
retval = shutdown(connSocket, SHUT_BOTH);
if(retval != 0) {
handleError(Protocol::TCP, ErrorSources::SHUTDOWN_CALL);
}
closeSocket(connSocket);
connSocket = 0;
}
return HasReturnvaluesIF::RETURN_OK;
}
@ -144,51 +155,101 @@ ReturnValue_t TcpTmTcServer::initializeAfterTaskCreation() {
return HasReturnvaluesIF::RETURN_OK;
}
void TcpTmTcServer::handleServerOperation(socket_t connSocket) {
int retval = 0;
do {
// Read all telecommands sent by the client
retval = recv(connSocket,
void TcpTmTcServer::handleServerOperation(socket_t& connSocket) {
#if defined PLATFORM_WIN
setSocketNonBlocking(connSocket);
#endif
while (true) {
int retval = recv(
connSocket,
reinterpret_cast<char*>(receptionBuffer.data()),
receptionBuffer.capacity(),
tcpFlags);
if (retval > 0) {
handleTcReception(retval);
tcpConfig.tcpFlags
);
if(retval == 0) {
size_t availableReadData = ringBuffer.getAvailableReadData();
if(availableReadData > lastRingBufferSize) {
handleTcRingBufferData(availableReadData);
}
return;
}
else if(retval == 0) {
// Client has finished sending telecommands, send telemetry now
handleTmSending(connSocket);
else if(retval > 0) {
// The ring buffer was configured for overwrite, so the returnvalue does not need to
// be checked for now
ringBuffer.writeData(receptionBuffer.data(), retval);
}
else {
// Should not happen
tcpip::handleError(tcpip::Protocol::TCP, tcpip::ErrorSources::RECV_CALL);
else if(retval < 0) {
int errorValue = getLastSocketError();
#if defined PLATFORM_UNIX
int wouldBlockValue = EAGAIN;
#elif defined PLATFORM_WIN
int wouldBlockValue = WSAEWOULDBLOCK;
#endif
if(errorValue == wouldBlockValue) {
// No data available. Check whether any packets have been read, then send back
// telemetry if available
bool tcAvailable = false;
bool tmSent = false;
size_t availableReadData = ringBuffer.getAvailableReadData();
if(availableReadData > lastRingBufferSize) {
tcAvailable = true;
handleTcRingBufferData(availableReadData);
}
ReturnValue_t result = handleTmSending(connSocket, tmSent);
if(result == CONN_BROKEN) {
return;
}
if(not tcAvailable and not tmSent) {
TaskFactory::delayTask(tcpConfig.tcpLoopDelay);
}
}
else {
tcpip::handleError(tcpip::Protocol::TCP, tcpip::ErrorSources::RECV_CALL, 300);
}
}
} while(retval > 0);
}
}
ReturnValue_t TcpTmTcServer::handleTcReception(size_t bytesRecvd) {
#if FSFW_TCP_RECV_WIRETAPPING_ENABLED == 1
arrayprinter::print(receptionBuffer.data(), bytesRead);
ReturnValue_t TcpTmTcServer::handleTcReception(uint8_t* spacePacket, size_t packetSize) {
if(wiretappingEnabled) {
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::info << "Received TC:" << std::endl;
#else
sif::printInfo("Received TC:\n");
#endif
arrayprinter::print(spacePacket, packetSize);
}
if(spacePacket == nullptr or packetSize == 0) {
return HasReturnvaluesIF::RETURN_FAILED;
}
store_address_t storeId;
ReturnValue_t result = tcStore->addData(&storeId, receptionBuffer.data(), bytesRecvd);
ReturnValue_t result = tcStore->addData(&storeId, spacePacket, packetSize);
if (result != HasReturnvaluesIF::RETURN_OK) {
#if FSFW_VERBOSE_LEVEL >= 1
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::warning<< "TcpTmTcServer::handleServerOperation: Data storage failed." << std::endl;
sif::warning << "Packet size: " << bytesRecvd << std::endl;
sif::warning << "TcpTmTcServer::handleServerOperation: Data storage with packet size" <<
packetSize << " failed" << std::endl;
#else
sif::printWarning("TcpTmTcServer::handleServerOperation: Data storage with packet size %d "
"failed\n", packetSize);
#endif /* FSFW_CPP_OSTREAM_ENABLED == 1 */
#endif /* FSFW_VERBOSE_LEVEL >= 1 */
return result;
}
TmTcMessage message(storeId);
result = MessageQueueSenderIF::sendMessage(targetTcDestination, &message);
result = MessageQueueSenderIF::sendMessage(targetTcDestination, &message);
if (result != HasReturnvaluesIF::RETURN_OK) {
#if FSFW_VERBOSE_LEVEL >= 1
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::warning << "UdpTcPollingTask::handleSuccessfullTcRead: "
sif::warning << "TcpTmTcServer::handleServerOperation: "
" Sending message to queue failed" << std::endl;
#else
sif::printWarning("TcpTmTcServer::handleServerOperation: "
" Sending message to queue failed\n");
#endif /* FSFW_CPP_OSTREAM_ENABLED == 1 */
#endif /* FSFW_VERBOSE_LEVEL >= 1 */
tcStore->deleteData(storeId);
@ -196,21 +257,26 @@ ReturnValue_t TcpTmTcServer::handleTcReception(size_t bytesRecvd) {
return result;
}
void TcpTmTcServer::setTcpBacklog(uint8_t tcpBacklog) {
this->tcpBacklog = tcpBacklog;
}
std::string TcpTmTcServer::getTcpPort() const {
return tcpPort;
return tcpConfig.tcpPort;
}
ReturnValue_t TcpTmTcServer::handleTmSending(socket_t connSocket) {
void TcpTmTcServer::setSpacePacketParsingOptions(std::vector<uint16_t> validPacketIds) {
this->validPacketIds = validPacketIds;
}
TcpTmTcServer::TcpConfig& TcpTmTcServer::getTcpConfigStruct() {
return tcpConfig;
}
ReturnValue_t TcpTmTcServer::handleTmSending(socket_t connSocket, bool& tmSent) {
// Access to the FIFO is mutex protected because it is filled by the bridge
MutexGuard(tmtcBridge->mutex, tmtcBridge->timeoutType, tmtcBridge->mutexTimeoutMs);
store_address_t storeId;
while((not tmtcBridge->tmFifo->empty()) and
(tmtcBridge->packetSentCounter < tmtcBridge->sentPacketsPerCycle)) {
tmtcBridge->tmFifo->retrieve(&storeId);
// Send can fail, so only peek from the FIFO
tmtcBridge->tmFifo->peek(&storeId);
// Using the store accessor will take care of deleting TM from the store automatically
ConstStorageAccessor storeAccessor(storeId);
@ -218,13 +284,134 @@ ReturnValue_t TcpTmTcServer::handleTmSending(socket_t connSocket) {
if(result != HasReturnvaluesIF::RETURN_OK) {
return result;
}
if(wiretappingEnabled) {
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::info << "Sending TM:" << std::endl;
#else
sif::printInfo("Sending TM:\n");
#endif
arrayprinter::print(storeAccessor.data(), storeAccessor.size());
}
int retval = send(connSocket,
reinterpret_cast<const char*>(storeAccessor.data()),
storeAccessor.size(),
tcpTmFlags);
if(retval != static_cast<int>(storeAccessor.size())) {
tcpip::handleError(tcpip::Protocol::TCP, tcpip::ErrorSources::SEND_CALL);
tcpConfig.tcpTmFlags);
if(retval == static_cast<int>(storeAccessor.size())) {
// Packet sent, clear FIFO entry
tmtcBridge->tmFifo->pop();
tmSent = true;
}
else if(retval <= 0) {
// Assume that the client has closed the connection here for now
handleSocketError(storeAccessor);
return CONN_BROKEN;
}
}
return HasReturnvaluesIF::RETURN_OK;
}
ReturnValue_t TcpTmTcServer::handleTcRingBufferData(size_t availableReadData) {
ReturnValue_t status = HasReturnvaluesIF::RETURN_OK;
ReturnValue_t result = HasReturnvaluesIF::RETURN_OK;
size_t readAmount = availableReadData;
lastRingBufferSize = availableReadData;
if(readAmount >= ringBuffer.getMaxSize()) {
#if FSFW_VERBOSE_LEVEL >= 1
#if FSFW_CPP_OSTREAM_ENABLED == 1
// Possible configuration error, too much data or/and data coming in too fast,
// requiring larger buffers
sif::warning << "TcpTmTcServer::handleServerOperation: Ring buffer reached " <<
"fill count" << std::endl;
#else
sif::printWarning("TcpTmTcServer::handleServerOperation: Ring buffer reached "
"fill count");
#endif
#endif
}
if(readAmount >= receptionBuffer.size()) {
#if FSFW_VERBOSE_LEVEL >= 1
#if FSFW_CPP_OSTREAM_ENABLED == 1
// Possible configuration error, too much data or/and data coming in too fast,
// requiring larger buffers
sif::warning << "TcpTmTcServer::handleServerOperation: "
"Reception buffer too small " << std::endl;
#else
sif::printWarning("TcpTmTcServer::handleServerOperation: Reception buffer too small\n");
#endif
#endif
readAmount = receptionBuffer.size();
}
ringBuffer.readData(receptionBuffer.data(), readAmount, true);
const uint8_t* bufPtr = receptionBuffer.data();
const uint8_t** bufPtrPtr = &bufPtr;
size_t startIdx = 0;
size_t foundSize = 0;
size_t readLen = 0;
while(readLen < readAmount) {
result = spacePacketParser->parseSpacePackets(bufPtrPtr, readAmount,
startIdx, foundSize, readLen);
switch(result) {
case(SpacePacketParser::NO_PACKET_FOUND):
case(SpacePacketParser::SPLIT_PACKET): {
break;
}
case(HasReturnvaluesIF::RETURN_OK): {
result = handleTcReception(receptionBuffer.data() + startIdx, foundSize);
if(result != HasReturnvaluesIF::RETURN_OK) {
status = result;
}
}
}
ringBuffer.deleteData(foundSize);
lastRingBufferSize = ringBuffer.getAvailableReadData();
std::memset(receptionBuffer.data() + startIdx, 0, foundSize);
}
return status;
}
void TcpTmTcServer::enableWiretapping(bool enable) {
this->wiretappingEnabled = enable;
}
void TcpTmTcServer::handleSocketError(ConstStorageAccessor &accessor) {
// Don't delete data
accessor.release();
auto socketError = getLastSocketError();
switch(socketError) {
#if defined PLATFORM_WIN
case(WSAECONNRESET): {
// See https://docs.microsoft.com/en-us/windows/win32/api/winsock2/nf-winsock2-send
// Remote client might have shut down connection
return;
}
#else
case(EPIPE): {
// See https://man7.org/linux/man-pages/man2/send.2.html
// Remote client might have shut down connection
return;
}
#endif
default: {
tcpip::handleError(tcpip::Protocol::TCP, tcpip::ErrorSources::SEND_CALL);
}
}
}
#if defined PLATFORM_WIN
void TcpTmTcServer::setSocketNonBlocking(socket_t &connSocket) {
u_long iMode = 1;
int iResult = ioctlsocket(connSocket, FIONBIO, &iMode);
if(iResult != NO_ERROR) {
#if FSFW_VERBOSE_LEVEL >= 1
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::warning << "TcpTmTcServer::handleServerOperation: Setting socket"
" non-blocking failed with error " << iResult;
#else
sif::printWarning("TcpTmTcServer::handleServerOperation: Setting socket"
" non-blocking failed with error %d\n", iResult);
#endif
#endif
}
}
#endif

75
src/fsfw/osal/common/TcpTmTcServer.h
View File

@ -6,6 +6,7 @@
#include "fsfw/platform.h"
#include "fsfw/osal/common/tcpipHelpers.h"
#include "fsfw/ipc/messageQueueDefinitions.h"
#include "fsfw/container/SimpleRingBuffer.h"
#include "fsfw/ipc/MessageQueueIF.h"
#include "fsfw/objectmanager/frameworkObjects.h"
#include "fsfw/objectmanager/SystemObject.h"
@ -20,6 +21,7 @@
#include <vector>
class TcpTmTcBridge;
class SpacePacketParser;
/**
* @brief TCP server implementation
@ -42,9 +44,38 @@ class TcpTmTcServer:
public TcpIpBase,
public ExecutableObjectIF {
public:
enum class ReceptionModes {
SPACE_PACKETS
};
struct TcpConfig {
public:
TcpConfig(std::string tcpPort): tcpPort(tcpPort) {}
/**
* Passed to the recv call
*/
int tcpFlags = 0;
int tcpBacklog = 3;
/**
* If no telecommands packets are being received and no telemetry is being sent,
* the TCP server will delay periodically by this amount to decrease the CPU load
*/
uint32_t tcpLoopDelay = DEFAULT_LOOP_DELAY_MS ;
/**
* Passed to the send call
*/
int tcpTmFlags = 0;
const std::string tcpPort;
};
static const std::string DEFAULT_SERVER_PORT;
static constexpr size_t ETHERNET_MTU_SIZE = 1500;
static constexpr size_t RING_BUFFER_SIZE = ETHERNET_MTU_SIZE * 3;
static constexpr uint32_t DEFAULT_LOOP_DELAY_MS = 200;
/**
* TCP Server Constructor
@ -55,11 +86,21 @@ public:
* @param customTcpServerPort The user can specify another port than the default (7301) here.
*/
TcpTmTcServer(object_id_t objectId, object_id_t tmtcTcpBridge,
size_t receptionBufferSize = ETHERNET_MTU_SIZE + 1,
std::string customTcpServerPort = "");
size_t receptionBufferSize = RING_BUFFER_SIZE,
size_t ringBufferSize = RING_BUFFER_SIZE,
std::string customTcpServerPort = DEFAULT_SERVER_PORT,
ReceptionModes receptionMode = ReceptionModes::SPACE_PACKETS);
virtual~ TcpTmTcServer();
void setTcpBacklog(uint8_t tcpBacklog);
void enableWiretapping(bool enable);
/**
* Get a handle to the TCP configuration struct, which can be used to configure TCP
* properties
* @return
*/
TcpConfig& getTcpConfigStruct();
void setSpacePacketParsingOptions(std::vector<uint16_t> validPacketIds);
ReturnValue_t initialize() override;
ReturnValue_t performOperation(uint8_t opCode) override;
@ -71,25 +112,33 @@ protected:
StorageManagerIF* tcStore = nullptr;
StorageManagerIF* tmStore = nullptr;
private:
static constexpr ReturnValue_t CONN_BROKEN = HasReturnvaluesIF::makeReturnCode(1, 0);
//! TMTC bridge is cached.
object_id_t tmtcBridgeId = objects::NO_OBJECT;
TcpTmTcBridge* tmtcBridge = nullptr;
bool wiretappingEnabled = false;
std::string tcpPort;
int tcpFlags = 0;
socket_t listenerTcpSocket = 0;
ReceptionModes receptionMode;
TcpConfig tcpConfig;
struct sockaddr tcpAddress;
socket_t listenerTcpSocket = 0;
MessageQueueId_t targetTcDestination = MessageQueueIF::NO_QUEUE;
int tcpAddrLen = sizeof(tcpAddress);
int tcpBacklog = 3;
std::vector<uint8_t> receptionBuffer;
int tcpSockOpt = 0;
int tcpTmFlags = 0;
SimpleRingBuffer ringBuffer;
std::vector<uint16_t> validPacketIds;
SpacePacketParser* spacePacketParser = nullptr;
uint8_t lastRingBufferSize = 0;
void handleServerOperation(socket_t connSocket);
ReturnValue_t handleTcReception(size_t bytesRecvd);
ReturnValue_t handleTmSending(socket_t connSocket);
virtual void handleServerOperation(socket_t& connSocket);
ReturnValue_t handleTcReception(uint8_t* spacePacket, size_t packetSize);
ReturnValue_t handleTmSending(socket_t connSocket, bool& tmSent);
ReturnValue_t handleTcRingBufferData(size_t availableReadData);
void handleSocketError(ConstStorageAccessor& accessor);
#if defined PLATFORM_WIN
void setSocketNonBlocking(socket_t& connSocket);
#endif
};
#endif /* FSFW_OSAL_COMMON_TCP_TMTC_SERVER_H_ */

3
src/fsfw/osal/common/tcpipCommon.cpp
View File

@ -21,6 +21,9 @@ void tcpip::determineErrorStrings(Protocol protocol, ErrorSources errorSrc, std:
if(errorSrc == ErrorSources::SETSOCKOPT_CALL) {
srcString = "setsockopt call";
}
if(errorSrc == ErrorSources::BIND_CALL) {
srcString = "bind call";
}
else if(errorSrc == ErrorSources::SOCKET_CALL) {
srcString = "socket call";
}

10
src/fsfw/pus/Service5EventReporting.cpp
View File

@ -41,8 +41,7 @@ ReturnValue_t Service5EventReporting::performService() {
}
}
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::debug << "Service5EventReporting::generateEventReport:"
" Too many events" << std::endl;
sif::warning << "Service5EventReporting::generateEventReport: Too many events" << std::endl;
#endif
return HasReturnvaluesIF::RETURN_OK;
}
@ -64,8 +63,11 @@ ReturnValue_t Service5EventReporting::generateEventReport(
requestQueue->getDefaultDestination(),requestQueue->getId());
if(result != HasReturnvaluesIF::RETURN_OK) {
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::debug << "Service5EventReporting::generateEventReport:"
" Could not send TM packet" << std::endl;
sif::warning << "Service5EventReporting::generateEventReport: "
"Could not send TM packet" << std::endl;
#else
sif::printWarning("Service5EventReporting::generateEventReport: "
"Could not send TM packet\n");
#endif
}
return result;

4
src/fsfw/pus/Service8FunctionManagement.cpp
View File

@ -33,8 +33,8 @@ ReturnValue_t Service8FunctionManagement::getMessageQueueAndObject(
if(tcDataLen < sizeof(object_id_t)) {
return CommandingServiceBase::INVALID_TC;
}
SerializeAdapter::deSerialize(objectId, &tcData,
&tcDataLen, SerializeIF::Endianness::BIG);
// Can't fail, size was checked before
SerializeAdapter::deSerialize(objectId, &tcData, &tcDataLen, SerializeIF::Endianness::BIG);
return checkInterfaceAndAcquireMessageQueue(id,objectId);
}

1
src/fsfw/returnvalues/FwClassIds.h
View File

@ -80,6 +80,7 @@ enum: uint8_t {
FIXED_SLOT_TASK_IF, //FTIF
MGM_LIS3MDL, //MGMLIS3
MGM_RM3100, //MGMRM3100
SPACE_PACKET_PARSER, //SPPA
FW_CLASS_ID_COUNT // [EXPORT] : [END]
};

4
src/fsfw/returnvalues/HasReturnvaluesIF.h
View File

@ -22,9 +22,9 @@ public:
* @param number
* @return
*/
static constexpr ReturnValue_t makeReturnCode(uint8_t interfaceId,
static constexpr ReturnValue_t makeReturnCode(uint8_t classId,
uint8_t number) {
return (static_cast<ReturnValue_t>(interfaceId) << 8) + number;
return (static_cast<ReturnValue_t>(classId) << 8) + number;
}
};

400
src/fsfw/serialize/SerializeAdapter.h
View File

@ -7,7 +7,7 @@
#include <cstddef>
#include <type_traits>
/**
/**
* @brief These adapters provides an interface to use the SerializeIF functions
* with arbitrary template objects to facilitate and simplify the
* serialization of classes with different multiple different data types
@ -20,174 +20,250 @@
*/
class SerializeAdapter {
public:
/***
* This function can be used to serialize a trivial copy-able type or a
* child of SerializeIF.
* The right template to be called is determined in the function itself.
* For objects of non trivial copy-able type this function is almost never
* called by the user directly. Instead helpers for specific types like
* SerialArrayListAdapter or SerialLinkedListAdapter is the right choice here.
*
* @param[in] object Object to serialize, the used type is deduced from this pointer
* @param[in/out] buffer Buffer to serialize into. Will be moved by the function.
* @param[in/out] size Size of current written buffer. Will be incremented by the function.
* @param[in] maxSize Max size of Buffer
* @param[in] streamEndianness Endianness of serialized element as in according to SerializeIF::Endianness
* @return
* - @c BUFFER_TOO_SHORT The given buffer in is too short
* - @c RETURN_FAILED Generic Error
* - @c RETURN_OK Successful serialization
*/
template<typename T>
static ReturnValue_t serialize(const T *object, uint8_t **buffer,
size_t *size, size_t maxSize,
SerializeIF::Endianness streamEndianness) {
InternalSerializeAdapter<T, std::is_base_of<SerializeIF, T>::value> adapter;
return adapter.serialize(object, buffer, size, maxSize,
streamEndianness);
}
/**
* Function to return the serialized size of the object in the pointer.
* May be a trivially copy-able object or a Child of SerializeIF
*
* @param object Pointer to Object
* @return Serialized size of object
*/
template<typename T>
static size_t getSerializedSize(const T *object){
InternalSerializeAdapter<T, std::is_base_of<SerializeIF, T>::value> adapter;
return adapter.getSerializedSize(object);
}
/**
* @brief
* Deserializes a object from a given buffer of given size.
* Object Must be trivially copy-able or a child of SerializeIF.
*
* @details
* Buffer will be moved to the current read location. Size will be decreased by the function.
*
* @param[in/out] buffer Buffer to deSerialize from. Will be moved by the function.
* @param[in/out] size Remaining size of the buffer to read from. Will be decreased by function.
* @param[in] streamEndianness Endianness as in according to SerializeIF::Endianness
* @return
* - @c STREAM_TOO_SHORT The input stream is too short to deSerialize the object
* - @c TOO_MANY_ELEMENTS The buffer has more inputs than expected
* - @c RETURN_FAILED Generic Error
* - @c RETURN_OK Successful deserialization
*/
template<typename T>
static ReturnValue_t deSerialize(T *object, const uint8_t **buffer,
size_t *size, SerializeIF::Endianness streamEndianness) {
InternalSerializeAdapter<T, std::is_base_of<SerializeIF, T>::value> adapter;
return adapter.deSerialize(object, buffer, size, streamEndianness);
}
/***
* @brief Serialize a trivial copy-able type or a child of SerializeIF.
* @details
* The right template to be called is determined in the function itself.
* For objects of non trivial copy-able type this function is almost never
* called by the user directly. Instead helpers for specific types like
* SerialArrayListAdapter or SerialLinkedListAdapter are the right choice here.
*
* @param[in] object: Object to serialize, the used type is deduced from this pointer
* @param[in/out] buffer: Pointer to the buffer to serialize into. Buffer position will be
* incremented by the function.
* @param[in/out] size: Pointer to size of current written buffer.
* SIze will be incremented by the function.
* @param[in] maxSize: Max size of Buffer
* @param[in] streamEndianness: Endianness of serialized element as in according to
* SerializeIF::Endianness
* @return
* - @c BUFFER_TOO_SHORT The given buffer in is too short
* - @c RETURN_FAILED Generic Error
* - @c RETURN_OK Successful serialization
*/
template<typename T>
static ReturnValue_t serialize(const T *object, uint8_t **buffer,
size_t *size, size_t maxSize,
SerializeIF::Endianness streamEndianness) {
InternalSerializeAdapter<T, std::is_base_of<SerializeIF, T>::value> adapter;
return adapter.serialize(object, buffer, size, maxSize,
streamEndianness);
}
/***
* This function can be used to serialize a trivial copy-able type or a child of SerializeIF.
* The right template to be called is determined in the function itself.
* For objects of non trivial copy-able type this function is almost never
* called by the user directly. Instead helpers for specific types like
* SerialArrayListAdapter or SerialLinkedListAdapter are the right choice here.
*
* @param[in] object: Object to serialize, the used type is deduced from this pointer
* @param[in/out] buffer: Buffer to serialize into.
* @param[out] serSize: Serialized size
* @param[in] maxSize: Max size of buffer
* @param[in] streamEndianness: Endianness of serialized element as in according to
* SerializeIF::Endianness
* @return
* - @c BUFFER_TOO_SHORT The given buffer in is too short
* - @c RETURN_FAILED Generic Error
* - @c RETURN_OK Successful serialization
*/
template<typename T>
static ReturnValue_t serialize(const T *object, uint8_t* const buffer, size_t* serSize,
size_t maxSize, SerializeIF::Endianness streamEndianness) {
if(object == nullptr or buffer == nullptr) {
return HasReturnvaluesIF::RETURN_FAILED;
}
InternalSerializeAdapter<T, std::is_base_of<SerializeIF, T>::value> adapter;
uint8_t** tempPtr = const_cast<uint8_t**>(&buffer);
size_t tmpSize = 0;
ReturnValue_t result = adapter.serialize(object, tempPtr, &tmpSize, maxSize,
streamEndianness);
if(serSize != nullptr) {
*serSize = tmpSize;
}
return result;
}
/**
* @brief Function to return the serialized size of the object in the pointer.
* @details
* May be a trivially copy-able object or a child of SerializeIF.
*
* @param object Pointer to Object
* @return Serialized size of object
*/
template<typename T>
static size_t getSerializedSize(const T *object){
InternalSerializeAdapter<T, std::is_base_of<SerializeIF, T>::value> adapter;
return adapter.getSerializedSize(object);
}
/**
* @brief Deserializes a object from a given buffer of given size.
*
* @details
* Object Must be trivially copy-able or a child of SerializeIF.
* Buffer will be moved to the current read location. Size will be decreased by the function.
*
* @param[in] object: Pointer to object to deserialize
* @param[in/out] buffer: Pointer to the buffer to deSerialize from. Buffer position will be
* incremented by the function
* @param[in/out] size: Pointer to remaining size of the buffer to read from.
* Will be decreased by function.
* @param[in] streamEndianness: Endianness as in according to SerializeIF::Endianness
* @return
* - @c STREAM_TOO_SHORT The input stream is too short to deSerialize the object
* - @c TOO_MANY_ELEMENTS The buffer has more inputs than expected
* - @c RETURN_FAILED Generic Error
* - @c RETURN_OK Successful deserialization
*/
template<typename T>
static ReturnValue_t deSerialize(T *object, const uint8_t **buffer,
size_t *size, SerializeIF::Endianness streamEndianness) {
InternalSerializeAdapter<T, std::is_base_of<SerializeIF, T>::value> adapter;
return adapter.deSerialize(object, buffer, size, streamEndianness);
}
/**
* @brief Deserializes a object from a given buffer of given size.
*
* @details
* Object Must be trivially copy-able or a child of SerializeIF.
*
* @param[in] object: Pointer to object to deserialize
* @param[in] buffer: Buffer to deSerialize from
* @param[out] deserSize: Deserialized length
* @param[in] streamEndianness: Endianness as in according to SerializeIF::Endianness
* @return
* - @c STREAM_TOO_SHORT The input stream is too short to deSerialize the object
* - @c TOO_MANY_ELEMENTS The buffer has more inputs than expected
* - @c RETURN_FAILED Generic Error
* - @c RETURN_OK Successful deserialization
*/
template<typename T>
static ReturnValue_t deSerialize(T *object, const uint8_t* buffer,
size_t* deserSize, SerializeIF::Endianness streamEndianness) {
if(object == nullptr or buffer == nullptr) {
return HasReturnvaluesIF::RETURN_FAILED;
}
InternalSerializeAdapter<T, std::is_base_of<SerializeIF, T>::value> adapter;
const uint8_t** tempPtr = &buffer;
size_t maxVal = -1;
ReturnValue_t result = adapter.deSerialize(object, tempPtr, &maxVal, streamEndianness);
if(deserSize != nullptr) {
*deserSize = -1 - maxVal;
}
return result;
}
private:
/**
* Internal template to deduce the right function calls at compile time
*/
template<typename T, bool> class InternalSerializeAdapter;
/**
* Internal template to deduce the right function calls at compile time
*/
template<typename T, bool> class InternalSerializeAdapter;
/**
* Template to be used if T is not a child of SerializeIF
*
* @tparam T T must be trivially_copyable
*/
template<typename T>
class InternalSerializeAdapter<T, false> {
static_assert (std::is_trivially_copyable<T>::value,
"If a type needs to be serialized it must be a child of "
"SerializeIF or trivially copy-able");
public:
static ReturnValue_t serialize(const T *object, uint8_t **buffer,
size_t *size, size_t max_size,
SerializeIF::Endianness streamEndianness) {
size_t ignoredSize = 0;
if (size == nullptr) {
size = &ignoredSize;
}
// Check remaining size is large enough and check integer
// overflow of *size
size_t newSize = sizeof(T) + *size;
if ((newSize <= max_size) and (newSize > *size)) {
T tmp;
switch (streamEndianness) {
case SerializeIF::Endianness::BIG:
tmp = EndianConverter::convertBigEndian<T>(*object);
break;
case SerializeIF::Endianness::LITTLE:
tmp = EndianConverter::convertLittleEndian<T>(*object);
break;
default:
case SerializeIF::Endianness::MACHINE:
tmp = *object;
break;
}
std::memcpy(*buffer, &tmp, sizeof(T));
*size += sizeof(T);
(*buffer) += sizeof(T);
return HasReturnvaluesIF::RETURN_OK;
} else {
return SerializeIF::BUFFER_TOO_SHORT;
}
}
/**
* Template to be used if T is not a child of SerializeIF
*
* @tparam T T must be trivially_copyable
*/
template<typename T>
class InternalSerializeAdapter<T, false> {
static_assert (std::is_trivially_copyable<T>::value,
"If a type needs to be serialized it must be a child of "
"SerializeIF or trivially copy-able");
public:
static ReturnValue_t serialize(const T *object, uint8_t **buffer,
size_t *size, size_t max_size,
SerializeIF::Endianness streamEndianness) {
size_t ignoredSize = 0;
if (size == nullptr) {
size = &ignoredSize;
}
// Check remaining size is large enough and check integer
// overflow of *size
size_t newSize = sizeof(T) + *size;
if ((newSize <= max_size) and (newSize > *size)) {
T tmp;
switch (streamEndianness) {
case SerializeIF::Endianness::BIG:
tmp = EndianConverter::convertBigEndian<T>(*object);
break;
case SerializeIF::Endianness::LITTLE:
tmp = EndianConverter::convertLittleEndian<T>(*object);
break;
default:
case SerializeIF::Endianness::MACHINE:
tmp = *object;
break;
}
std::memcpy(*buffer, &tmp, sizeof(T));
*size += sizeof(T);
(*buffer) += sizeof(T);
return HasReturnvaluesIF::RETURN_OK;
} else {
return SerializeIF::BUFFER_TOO_SHORT;
}
}
ReturnValue_t deSerialize(T *object, const uint8_t **buffer,
size_t *size, SerializeIF::Endianness streamEndianness) {
T tmp;
if (*size >= sizeof(T)) {
*size -= sizeof(T);
std::memcpy(&tmp, *buffer, sizeof(T));
switch (streamEndianness) {
case SerializeIF::Endianness::BIG:
*object = EndianConverter::convertBigEndian<T>(tmp);
break;
case SerializeIF::Endianness::LITTLE:
*object = EndianConverter::convertLittleEndian<T>(tmp);
break;
default:
case SerializeIF::Endianness::MACHINE:
*object = tmp;
break;
}
ReturnValue_t deSerialize(T *object, const uint8_t **buffer,
size_t *size, SerializeIF::Endianness streamEndianness) {
T tmp;
if (*size >= sizeof(T)) {
*size -= sizeof(T);
std::memcpy(&tmp, *buffer, sizeof(T));
switch (streamEndianness) {
case SerializeIF::Endianness::BIG:
*object = EndianConverter::convertBigEndian<T>(tmp);
break;
case SerializeIF::Endianness::LITTLE:
*object = EndianConverter::convertLittleEndian<T>(tmp);
break;
default:
case SerializeIF::Endianness::MACHINE:
*object = tmp;
break;
}
*buffer += sizeof(T);
return HasReturnvaluesIF::RETURN_OK;
} else {
return SerializeIF::STREAM_TOO_SHORT;
}
}
*buffer += sizeof(T);
return HasReturnvaluesIF::RETURN_OK;
} else {
return SerializeIF::STREAM_TOO_SHORT;
}
}
uint32_t getSerializedSize(const T *object) {
return sizeof(T);
}
};
uint32_t getSerializedSize(const T *object) {
return sizeof(T);
}
};
/**
* Template for objects that inherit from SerializeIF
*
* @tparam T A child of SerializeIF
*/
template<typename T>
class InternalSerializeAdapter<T, true> {
public:
ReturnValue_t serialize(const T *object, uint8_t **buffer, size_t *size,
size_t max_size,
SerializeIF::Endianness streamEndianness) const {
size_t ignoredSize = 0;
if (size == nullptr) {
size = &ignoredSize;
}
return object->serialize(buffer, size, max_size, streamEndianness);
}
size_t getSerializedSize(const T *object) const {
return object->getSerializedSize();
}
/**
* Template for objects that inherit from SerializeIF
*
* @tparam T A child of SerializeIF
*/
template<typename T>
class InternalSerializeAdapter<T, true> {
public:
ReturnValue_t serialize(const T *object, uint8_t **buffer, size_t *size,
size_t max_size,
SerializeIF::Endianness streamEndianness) const {
size_t ignoredSize = 0;
if (size == nullptr) {
size = &ignoredSize;
}
return object->serialize(buffer, size, max_size, streamEndianness);
}
size_t getSerializedSize(const T *object) const {
return object->getSerializedSize();
}
ReturnValue_t deSerialize(T *object, const uint8_t **buffer,
size_t *size, SerializeIF::Endianness streamEndianness) {
return object->deSerialize(buffer, size, streamEndianness);
}
};
ReturnValue_t deSerialize(T *object, const uint8_t **buffer,
size_t *size, SerializeIF::Endianness streamEndianness) {
return object->deSerialize(buffer, size, streamEndianness);
}
};
};
#endif /* _FSFW_SERIALIZE_SERIALIZEADAPTER_H_ */

24
src/fsfw/tcdistribution/PUSDistributor.cpp
View File

@ -29,12 +29,28 @@ PUSDistributor::TcMqMapIter PUSDistributor::selectDestination() {
tcStatus = checker.checkPacket(currentPacket);
if(tcStatus != HasReturnvaluesIF::RETURN_OK) {
#if FSFW_VERBOSE_LEVEL >= 1
const char* keyword = "unnamed error";
if(tcStatus == TcPacketCheck::INCORRECT_CHECKSUM) {
keyword = "checksum";
}
else if(tcStatus == TcPacketCheck::INCORRECT_PRIMARY_HEADER) {
keyword = "incorrect primary header";
}
else if(tcStatus == TcPacketCheck::ILLEGAL_APID) {
keyword = "illegal APID";
}
else if(tcStatus == TcPacketCheck::INCORRECT_SECONDARY_HEADER) {
keyword = "incorrect secondary header";
}
else if(tcStatus == TcPacketCheck::INCOMPLETE_PACKET) {
keyword = "incomplete packet";
}
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::debug << "PUSDistributor::handlePacket: Packet format invalid, code " <<
static_cast<int>(tcStatus) << std::endl;
sif::warning << "PUSDistributor::handlePacket: Packet format invalid, "
<< keyword << " error" << std::endl;
#else
sif::printDebug("PUSDistributor::handlePacket: Packet format invalid, code %d\n",
static_cast<int>(tcStatus));
sif::printWarning("PUSDistributor::handlePacket: Packet format invalid, "
"%s error\n", keyword);
#endif
#endif
}

120
src/fsfw/tmtcpacket/SpacePacket.h
View File

@ -15,56 +15,78 @@
*/
class SpacePacket: public SpacePacketBase {
public:
static const uint16_t PACKET_MAX_SIZE = 1024;
/**
* The constructor initializes the packet and sets all header information
* according to the passed parameters.
* @param packetDataLength Sets the packet data length field and therefore specifies the size of the packet.
* @param isTelecommand Sets the packet type field to either TC (true) or TM (false).
* @param apid Sets the packet's APID field. The default value describes an idle packet.
* @param sequenceCount ets the packet's Source Sequence Count field.
*/
SpacePacket(uint16_t packetDataLength, bool isTelecommand = false,
uint16_t apid = APID_IDLE_PACKET, uint16_t sequenceCount = 0);
/**
* The class's default destructor.
*/
virtual ~SpacePacket();
/**
* With this call, the complete data content (including the CCSDS Primary
* Header) is overwritten with the byte stream given.
* @param p_data Pointer to data to overwrite the content with
* @param packet_size Size of the data
* @return @li \c true if packet_size is smaller than \c MAX_PACKET_SIZE.
* @li \c false else.
*/
bool addWholeData(const uint8_t* p_data, uint32_t packet_size);
static const uint16_t PACKET_MAX_SIZE = 1024;
/**
* The constructor initializes the packet and sets all header information
* according to the passed parameters.
* @param packetDataLength Sets the packet data length field and therefore specifies
* the size of the packet.
* @param isTelecommand Sets the packet type field to either TC (true) or TM (false).
* @param apid Sets the packet's APID field. The default value describes an idle packet.
* @param sequenceCount ets the packet's Source Sequence Count field.
*/
SpacePacket(uint16_t packetDataLength, bool isTelecommand = false,
uint16_t apid = APID_IDLE_PACKET, uint16_t sequenceCount = 0);
/**
* The class's default destructor.
*/
virtual ~SpacePacket();
/**
* With this call, the complete data content (including the CCSDS Primary
* Header) is overwritten with the byte stream given.
* @param p_data Pointer to data to overwrite the content with
* @param packet_size Size of the data
* @return @li \c true if packet_size is smaller than \c MAX_PACKET_SIZE.
* @li \c false else.
*/
bool addWholeData(const uint8_t* p_data, uint32_t packet_size);
protected:
/**
* This structure defines the data structure of a Space Packet as local data.
* There's a buffer which corresponds to the Space Packet Data Field with a
* maximum size of \c PACKET_MAX_SIZE.
*/
struct PacketStructured {
CCSDSPrimaryHeader header;
uint8_t buffer[PACKET_MAX_SIZE];
};
/**
* This union simplifies accessing the full data content of the Space Packet.
* This is achieved by putting the \c PacketStructured struct in a union with
* a plain buffer.
*/
union SpacePacketData {
PacketStructured fields;
uint8_t byteStream[PACKET_MAX_SIZE + sizeof(CCSDSPrimaryHeader)];
};
/**
* This is the data representation of the class.
* It is a struct of CCSDS Primary Header and a data field, which again is
* packed in an union, so the data can be accessed as a byte stream without
* a cast.
*/
SpacePacketData localData;
/**
* This structure defines the data structure of a Space Packet as local data.
* There's a buffer which corresponds to the Space Packet Data Field with a
* maximum size of \c PACKET_MAX_SIZE.
*/
struct PacketStructured {
CCSDSPrimaryHeader header;
uint8_t buffer[PACKET_MAX_SIZE];
};
/**
* This union simplifies accessing the full data content of the Space Packet.
* This is achieved by putting the \c PacketStructured struct in a union with
* a plain buffer.
*/
union SpacePacketData {
PacketStructured fields;
uint8_t byteStream[PACKET_MAX_SIZE + sizeof(CCSDSPrimaryHeader)];
};
/**
* This is the data representation of the class.
* It is a struct of CCSDS Primary Header and a data field, which again is
* packed in an union, so the data can be accessed as a byte stream without
* a cast.
*/
SpacePacketData localData;
};
namespace spacepacket {
constexpr uint16_t getSpacePacketIdFromApid(bool isTc, uint16_t apid,
bool secondaryHeaderFlag = true) {
return ((isTc << 4) | (secondaryHeaderFlag << 3) |
((apid >> 8) & 0x07)) << 8 | (apid & 0x00ff);
}
constexpr uint16_t getTcSpacePacketIdFromApid(uint16_t apid,
bool secondaryHeaderFlag = true) {
return getSpacePacketIdFromApid(true, apid, secondaryHeaderFlag);
}
constexpr uint16_t getTmSpacePacketIdFromApid(uint16_t apid,
bool secondaryHeaderFlag = true) {
return getSpacePacketIdFromApid(false, apid, secondaryHeaderFlag);
}
}
#endif /* SPACEPACKET_H_ */

102
src/fsfw/tmtcpacket/SpacePacketBase.cpp
View File

@ -3,8 +3,8 @@
#include <cstring>
SpacePacketBase::SpacePacketBase( const uint8_t* set_address ) {
this->data = (SpacePacketPointer*) set_address;
SpacePacketBase::SpacePacketBase(const uint8_t* setAddress) {
this->data = reinterpret_cast<SpacePacketPointer*>(const_cast<uint8_t*>(setAddress));
}
SpacePacketBase::~SpacePacketBase() {
@ -12,94 +12,112 @@ SpacePacketBase::~SpacePacketBase() {
//CCSDS Methods:
uint8_t SpacePacketBase::getPacketVersionNumber( void ) {
return (this->data->header.packet_id_h & 0b11100000) >> 5;
return (this->data->header.packet_id_h & 0b11100000) >> 5;
}
void SpacePacketBase::initSpacePacketHeader(bool isTelecommand,
bool hasSecondaryHeader, uint16_t apid, uint16_t sequenceCount) {
//reset header to zero:
memset(data,0, sizeof(this->data->header) );
//Set TC/TM bit.
data->header.packet_id_h = ((isTelecommand? 1 : 0)) << 4;
//Set secondaryHeader bit
data->header.packet_id_h |= ((hasSecondaryHeader? 1 : 0)) << 3;
this->setAPID( apid );
//Always initialize as standalone packets.
data->header.sequence_control_h = 0b11000000;
setPacketSequenceCount(sequenceCount);
ReturnValue_t SpacePacketBase::initSpacePacketHeader(bool isTelecommand,
bool hasSecondaryHeader, uint16_t apid, uint16_t sequenceCount) {
if(data == nullptr) {
#if FSFW_VERBOSE_LEVEL >= 1
#if FSFW_CPP_OSTREAM_ENABLED == 1
sif::warning << "SpacePacketBase::initSpacePacketHeader: Data pointer is invalid"
<< std::endl;
#else
sif::printWarning("SpacePacketBase::initSpacePacketHeader: Data pointer is invalid!\n");
#endif
#endif
return HasReturnvaluesIF::RETURN_FAILED;
}
//reset header to zero:
memset(data, 0, sizeof(this->data->header) );
//Set TC/TM bit.
data->header.packet_id_h = ((isTelecommand? 1 : 0)) << 4;
//Set secondaryHeader bit
data->header.packet_id_h |= ((hasSecondaryHeader? 1 : 0)) << 3;
this->setAPID( apid );
//Always initialize as standalone packets.
data->header.sequence_control_h = 0b11000000;
setPacketSequenceCount(sequenceCount);
return HasReturnvaluesIF::RETURN_OK;
}
bool SpacePacketBase::isTelecommand( void ) {
return (this->data->header.packet_id_h & 0b00010000) >> 4;
return (this->data->header.packet_id_h & 0b00010000) >> 4;
}
bool SpacePacketBase::hasSecondaryHeader( void ) {
return (this->data->header.packet_id_h & 0b00001000) >> 3;
return (this->data->header.packet_id_h & 0b00001000) >> 3;
}
uint16_t SpacePacketBase::getPacketId() {
return ( (this->data->header.packet_id_h) << 8 ) +
this->data->header.packet_id_l;
return ( (this->data->header.packet_id_h) << 8 ) +
this->data->header.packet_id_l;
}
uint16_t SpacePacketBase::getAPID( void ) const {
return ( (this->data->header.packet_id_h & 0b00000111) << 8 ) +
this->data->header.packet_id_l;
return ( (this->data->header.packet_id_h & 0b00000111) << 8 ) +
this->data->header.packet_id_l;
}
void SpacePacketBase::setAPID( uint16_t new_apid ) {
//Use first three bits of new APID, but keep rest of packet id as it was (see specification).
this->data->header.packet_id_h = (this->data->header.packet_id_h & 0b11111000) | ( ( new_apid & 0x0700 ) >> 8 );
this->data->header.packet_id_l = ( new_apid & 0x00FF );
// Use first three bits of new APID, but keep rest of packet id as it was (see specification).
this->data->header.packet_id_h = (this->data->header.packet_id_h & 0b11111000) |
( ( new_apid & 0x0700 ) >> 8 );
this->data->header.packet_id_l = ( new_apid & 0x00FF );
}
void SpacePacketBase::setSequenceFlags( uint8_t sequenceflags ) {
this->data->header.sequence_control_h &= 0x3F;
this->data->header.sequence_control_h |= sequenceflags << 6;
}
uint16_t SpacePacketBase::getPacketSequenceControl( void ) {
return ( (this->data->header.sequence_control_h) << 8 )
+ this->data->header.sequence_control_l;
return ( (this->data->header.sequence_control_h) << 8 )
+ this->data->header.sequence_control_l;
}
uint8_t SpacePacketBase::getSequenceFlags( void ) {
return (this->data->header.sequence_control_h & 0b11000000) >> 6 ;
return (this->data->header.sequence_control_h & 0b11000000) >> 6 ;
}
uint16_t SpacePacketBase::getPacketSequenceCount( void ) const {
return ( (this->data->header.sequence_control_h & 0b00111111) << 8 )
+ this->data->header.sequence_control_l;
return ( (this->data->header.sequence_control_h & 0b00111111) << 8 )
+ this->data->header.sequence_control_l;
}
void SpacePacketBase::setPacketSequenceCount( uint16_t new_count) {
this->data->header.sequence_control_h = ( this->data->header.sequence_control_h & 0b11000000 ) | ( ( (new_count%LIMIT_SEQUENCE_COUNT) & 0x3F00 ) >> 8 );
this->data->header.sequence_control_l = ( (new_count%LIMIT_SEQUENCE_COUNT) & 0x00FF );
this->data->header.sequence_control_h = ( this->data->header.sequence_control_h & 0b11000000 ) |
( ( (new_count%LIMIT_SEQUENCE_COUNT) & 0x3F00 ) >> 8 );
this->data->header.sequence_control_l = ( (new_count%LIMIT_SEQUENCE_COUNT) & 0x00FF );
}
uint16_t SpacePacketBase::getPacketDataLength() const {
return ( (this->data->header.packet_length_h) << 8 )
+ this->data->header.packet_length_l;
return ( (this->data->header.packet_length_h) << 8 )
+ this->data->header.packet_length_l;
}
void SpacePacketBase::setPacketDataLength( uint16_t new_length) {
this->data->header.packet_length_h = ( ( new_length & 0xFF00 ) >> 8 );
this->data->header.packet_length_l = ( new_length & 0x00FF );
this->data->header.packet_length_h = ( ( new_length & 0xFF00 ) >> 8 );
this->data->header.packet_length_l = ( new_length & 0x00FF );
}
size_t SpacePacketBase::getFullSize() {
//+1 is done because size in packet data length field is: size of data field -1
return this->getPacketDataLength() + sizeof(this->data->header) + 1;
// +1 is done because size in packet data length field is: size of data field -1
return this->getPacketDataLength() + sizeof(this->data->header) + 1;
}
uint8_t* SpacePacketBase::getWholeData() {
return (uint8_t*)this->data;
return (uint8_t*)this->data;
}
void SpacePacketBase::setData( const uint8_t* p_Data ) {
this->data = (SpacePacketPointer*)p_Data;
this->data = (SpacePacketPointer*)p_Data;
}
uint32_t SpacePacketBase::getApidAndSequenceCount() const {
return (getAPID() << 16) + getPacketSequenceCount();
return (getAPID() << 16) + getPacketSequenceCount();
}
uint8_t* SpacePacketBase::getPacketData() {
return &(data->packet_data);
return &(data->packet_data);
}

276
src/fsfw/tmtcpacket/SpacePacketBase.h
View File

@ -2,6 +2,8 @@
#define FSFW_TMTCPACKET_SPACEPACKETBASE_H_
#include "ccsds_header.h"
#include "fsfw/returnvalues/HasReturnvaluesIF.h"
#include <cstddef>
/**
@ -20,8 +22,8 @@
* @ingroup tmtcpackets
*/
struct SpacePacketPointer {
CCSDSPrimaryHeader header;
uint8_t packet_data;
CCSDSPrimaryHeader header;
uint8_t packet_data;
};
/**
@ -37,143 +39,151 @@ struct SpacePacketPointer {
*/
class SpacePacketBase {
protected:
/**
* A pointer to a structure which defines the data structure of
* the packet header.
* To be hardware-safe, all elements are of byte size.
*/
SpacePacketPointer* data;
/**
* A pointer to a structure which defines the data structure of
* the packet header.
* To be hardware-safe, all elements are of byte size.
*/
SpacePacketPointer* data;
public:
static const uint16_t LIMIT_APID = 2048; //2^1
static const uint16_t LIMIT_SEQUENCE_COUNT = 16384; // 2^14
static const uint16_t APID_IDLE_PACKET = 0x7FF;
static const uint8_t TELECOMMAND_PACKET = 1;
static const uint8_t TELEMETRY_PACKET = 0;
/**
* This definition defines the CRC size in byte.
*/
static const uint8_t CRC_SIZE = 2;
/**
* This is the minimum size of a SpacePacket.
*/
static const uint16_t MINIMUM_SIZE = sizeof(CCSDSPrimaryHeader) + CRC_SIZE;
/**
* This is the default constructor.
* It sets its internal data pointer to the address passed.
* @param set_address The position where the packet data lies.
*/
SpacePacketBase( const uint8_t* set_address );
/**
* No data is allocated, so the destructor is empty.
*/
virtual ~SpacePacketBase();
static const uint16_t LIMIT_APID = 2048; //2^1
static const uint16_t LIMIT_SEQUENCE_COUNT = 16384; // 2^14
static const uint16_t APID_IDLE_PACKET = 0x7FF;
static const uint8_t TELECOMMAND_PACKET = 1;
static const uint8_t TELEMETRY_PACKET = 0;
/**
* This definition defines the CRC size in byte.
*/
static const uint8_t CRC_SIZE = 2;
/**
* This is the minimum size of a SpacePacket.
*/
static const uint16_t MINIMUM_SIZE = sizeof(CCSDSPrimaryHeader) + CRC_SIZE;
/**
* This is the default constructor.
* It sets its internal data pointer to the address passed.
* @param set_address The position where the packet data lies.
*/
SpacePacketBase( const uint8_t* set_address );
/**
* No data is allocated, so the destructor is empty.
*/
virtual ~SpacePacketBase();
//CCSDS Methods:
/**
* Getter for the packet version number field.
* @return Returns the highest three bit of the packet in one byte.
*/
uint8_t getPacketVersionNumber( void );
/**
* This method checks the type field in the header.
* This bit specifies, if the command is interpreted as Telecommand of
* as Telemetry. For a Telecommand, the bit is set.
* @return Returns true if the bit is set and false if not.
*/
bool isTelecommand( void );
//CCSDS Methods
void initSpacePacketHeader(bool isTelecommand, bool hasSecondaryHeader,
uint16_t apid, uint16_t sequenceCount = 0);
/**
* The CCSDS header provides a secondary header flag (the fifth-highest bit),
* which is checked with this method.
* @return Returns true if the bit is set and false if not.
*/
bool hasSecondaryHeader( void );
/**
* Returns the complete first two bytes of the packet, which together form
* the CCSDS packet id.
* @return The CCSDS packet id.
*/
uint16_t getPacketId( void );
/**
* Returns the APID of a packet, which are the lowest 11 bit of the packet
* id.
* @return The CCSDS APID.
*/
uint16_t getAPID( void ) const;
/**
* Sets the APID of a packet, which are the lowest 11 bit of the packet
* id.
* @param The APID to set. The highest five bits of the parameter are
* ignored.
*/
void setAPID( uint16_t setAPID );
/**
* Returns the CCSDS packet sequence control field, which are the third and
* the fourth byte of the CCSDS primary header.
* @return The CCSDS packet sequence control field.
*/
uint16_t getPacketSequenceControl( void );
/**
* Returns the SequenceFlags, which are the highest two bit of the packet
* sequence control field.
* @return The CCSDS sequence flags.
*/
uint8_t getSequenceFlags( void );
/**
* Returns the packet sequence count, which are the lowest 14 bit of the
* packet sequence control field.
* @return The CCSDS sequence count.
*/
uint16_t getPacketSequenceCount( void ) const;
/**
* Sets the packet sequence count, which are the lowest 14 bit of the
* packet sequence control field.
* setCount is modulo-divided by \c LIMIT_SEQUENCE_COUNT to avoid overflows.
* @param setCount The value to set the count to.
*/
void setPacketSequenceCount( uint16_t setCount );
/**
* Returns the packet data length, which is the fifth and sixth byte of the
* CCSDS Primary Header. The packet data length is the size of every kind
* of data \b after the CCSDS Primary Header \b -1.
* @return
* The CCSDS packet data length. uint16_t is sufficient,
* because this is limit in CCSDS standard
*/
uint16_t getPacketDataLength(void) const;
/**
* Sets the packet data length, which is the fifth and sixth byte of the
* CCSDS Primary Header.
* @param setLength The value of the length to set. It must fit the true
* CCSDS packet data length . The packet data length is
* the size of every kind of data \b after the CCSDS
* Primary Header \b -1.
*/
void setPacketDataLength( uint16_t setLength );
/**
* Getter for the packet version number field.
* @return Returns the highest three bit of the packet in one byte.
*/
uint8_t getPacketVersionNumber( void );
/**
* This method checks the type field in the header.
* This bit specifies, if the command is interpreted as Telecommand of
* as Telemetry. For a Telecommand, the bit is set.
* @return Returns true if the bit is set and false if not.
*/
bool isTelecommand( void );
//Helper methods:
/**
* This method returns a raw uint8_t pointer to the packet.
* @return A \c uint8_t pointer to the first byte of the CCSDS primary header.
*/
virtual uint8_t* getWholeData( void );
ReturnValue_t initSpacePacketHeader(bool isTelecommand, bool hasSecondaryHeader,
uint16_t apid, uint16_t sequenceCount = 0);
/**
* The CCSDS header provides a secondary header flag (the fifth-highest bit),
* which is checked with this method.
* @return Returns true if the bit is set and false if not.
*/
bool hasSecondaryHeader( void );
/**
* Returns the complete first two bytes of the packet, which together form
* the CCSDS packet id.
* @return The CCSDS packet id.
*/
uint16_t getPacketId( void );
/**
* Returns the APID of a packet, which are the lowest 11 bit of the packet
* id.
* @return The CCSDS APID.
*/
uint16_t getAPID( void ) const;
/**
* Sets the APID of a packet, which are the lowest 11 bit of the packet
* id.
* @param The APID to set. The highest five bits of the parameter are
* ignored.
*/
void setAPID( uint16_t setAPID );
uint8_t* getPacketData();
/**
* With this method, the packet data pointer can be redirected to another
* location.
* @param p_Data A pointer to another raw Space Packet.
*/
virtual void setData( const uint8_t* p_Data );
/**
* This method returns the full raw packet size.
* @return The full size of the packet in bytes.
*/
size_t getFullSize();
/**
* Sets the sequence flags of a packet, which are bit 17 and 18 in the space packet header.
* @param The sequence flags to set
*/
void setSequenceFlags( uint8_t sequenceflags );
uint32_t getApidAndSequenceCount() const;
/**
* Returns the CCSDS packet sequence control field, which are the third and
* the fourth byte of the CCSDS primary header.
* @return The CCSDS packet sequence control field.
*/
uint16_t getPacketSequenceControl( void );
/**
* Returns the SequenceFlags, which are the highest two bit of the packet
* sequence control field.
* @return The CCSDS sequence flags.
*/
uint8_t getSequenceFlags( void );
/**
* Returns the packet sequence count, which are the lowest 14 bit of the
* packet sequence control field.
* @return The CCSDS sequence count.
*/
uint16_t getPacketSequenceCount( void ) const;
/**
* Sets the packet sequence count, which are the lowest 14 bit of the
* packet sequence control field.
* setCount is modulo-divided by \c LIMIT_SEQUENCE_COUNT to avoid overflows.
* @param setCount The value to set the count to.
*/
void setPacketSequenceCount( uint16_t setCount );
/**
* Returns the packet data length, which is the fifth and sixth byte of the
* CCSDS Primary Header. The packet data length is the size of every kind
* of data \b after the CCSDS Primary Header \b -1.
* @return
* The CCSDS packet data length. uint16_t is sufficient,
* because this is limit in CCSDS standard
*/
uint16_t getPacketDataLength(void) const;
/**
* Sets the packet data length, which is the fifth and sixth byte of the
* CCSDS Primary Header.
* @param setLength The value of the length to set. It must fit the true
* CCSDS packet data length . The packet data length is
* the size of every kind of data \b after the CCSDS
* Primary Header \b -1.
*/
void setPacketDataLength( uint16_t setLength );
// Helper methods
/**
* This method returns a raw uint8_t pointer to the packet.
* @return A \c uint8_t pointer to the first byte of the CCSDS primary header.
*/
virtual uint8_t* getWholeData( void );
uint8_t* getPacketData();
/**
* With this method, the packet data pointer can be redirected to another
* location.
* @param p_Data A pointer to another raw Space Packet.
*/
virtual void setData( const uint8_t* p_Data );
/**
* This method returns the full raw packet size.
* @return The full size of the packet in bytes.
*/
size_t getFullSize();
uint32_t getApidAndSequenceCount() const;
};

16
src/fsfw/tmtcpacket/pus/definitions.h Normal file
View File

@ -0,0 +1,16 @@
#ifndef FSFW_SRC_FSFW_TMTCPACKET_PUS_TM_DEFINITIONS_H_
#define FSFW_SRC_FSFW_TMTCPACKET_PUS_TM_DEFINITIONS_H_
#include <cstdint>
namespace pus {
//! Version numbers according to ECSS-E-ST-70-41C p.439
enum PusVersion: uint8_t {
PUS_A_VERSION = 1,
PUS_C_VERSION = 2
};
}
#endif /* FSFW_SRC_FSFW_TMTCPACKET_PUS_TM_DEFINITIONS_H_ */

11
src/fsfw/tmtcpacket/pus/tc/TcPacketPus.cpp
View File

@ -1,4 +1,4 @@
#include "fsfw/tmtcpacket/pus/tc/TcPacketPus.h"
#include "TcPacketPus.h"
#include "fsfw/globalfunctions/CRC.h"
#include <cstring>
@ -8,14 +8,13 @@ TcPacketPus::TcPacketPus(const uint8_t *setData): TcPacketBase(setData) {
}
void TcPacketPus::initializeTcPacket(uint16_t apid, uint16_t sequenceCount,
uint8_t ack, uint8_t service, uint8_t subservice, uint16_t sourceId) {
uint8_t ack, uint8_t service, uint8_t subservice, pus::PusVersion pusVersion,
uint16_t sourceId) {
initSpacePacketHeader(true, true, apid, sequenceCount);
std::memset(&tcData->dataField, 0, sizeof(tcData->dataField));
setPacketDataLength(sizeof(PUSTcDataFieldHeader) + CRC_SIZE - 1);
// Data Field Header:
// Set CCSDS_secondary_header_flag to 0 and version number to 001
tcData->dataField.versionTypeAck = 0b00010000;
tcData->dataField.versionTypeAck |= (ack & 0x0F);
// Data Field Header. For PUS A, the first bit (CCSDS Secondary Header Flag) is zero
tcData->dataField.versionTypeAck = pusVersion << 4 | (ack & 0x0F);
tcData->dataField.serviceType = service;
tcData->dataField.serviceSubtype = subservice;
#if FSFW_USE_PUS_C_TELECOMMANDS == 1

4
src/fsfw/tmtcpacket/pus/tc/TcPacketPus.h
View File

@ -2,6 +2,7 @@
#define FSFW_TMTCPACKET_PUS_TCPACKETPUSA_H_
#include "fsfw/FSFW.h"
#include "../definitions.h"
#include "fsfw/tmtcpacket/ccsds_header.h"
#include "TcPacketBase.h"
@ -75,7 +76,8 @@ protected:
* @param subservice PUS Subservice
*/
void initializeTcPacket(uint16_t apid, uint16_t sequenceCount, uint8_t ack,
uint8_t service, uint8_t subservice, uint16_t sourceId = 0);
uint8_t service, uint8_t subservice, pus::PusVersion pusVersion,
uint16_t sourceId = 0);
/**
* A pointer to a structure which defines the data structure of

7
src/fsfw/tmtcpacket/pus/tc/TcPacketStoredPus.cpp
View File

@ -23,7 +23,12 @@ TcPacketStoredPus::TcPacketStoredPus(uint16_t apid, uint8_t service,
return;
}
this->setData(pData);
initializeTcPacket(apid, sequenceCount, ack, service, subservice);
#if FSFW_USE_PUS_C_TELECOMMANDS == 1
pus::PusVersion pusVersion = pus::PusVersion::PUS_C_VERSION;
#else
pus::PusVersion pusVersion = pus::PusVersion::PUS_A_VERSION;
#endif
initializeTcPacket(apid, sequenceCount, ack, service, subservice, pusVersion);
std::memcpy(&tcData->appData, data, size);
this->setPacketDataLength(
size + sizeof(PUSTcDataFieldHeader) + CRC_SIZE - 1);

2
src/fsfw/tmtcpacket/pus/tm/TmPacketBase.h
View File

@ -31,8 +31,6 @@ public:
//! Maximum size of a TM Packet in this mission.
//! TODO: Make this dependant on a config variable.
static const uint32_t MISSION_TM_PACKET_MAX_SIZE = 2048;
//! First four bits of first byte of secondary header
static const uint8_t VERSION_NUMBER_BYTE = 0b00010000;
/**
* This is the default constructor.

12
src/fsfw/tmtcpacket/pus/tm/TmPacketPusA.cpp
View File

@ -1,5 +1,6 @@
#include "fsfw/tmtcpacket/pus/tm/TmPacketPusA.h"
#include "fsfw/tmtcpacket/pus/tm/TmPacketBase.h"
#include "../definitions.h"
#include "TmPacketPusA.h"
#include "TmPacketBase.h"
#include "fsfw/globalfunctions/CRC.h"
#include "fsfw/globalfunctions/arrayprinter.h"
@ -62,12 +63,7 @@ void TmPacketPusA::initializeTmPacket(uint16_t apid, uint8_t service,
//First, set to zero.
memset(&tmData->data_field, 0, sizeof(tmData->data_field));
// NOTE: In PUS-C, the PUS Version is 2 and specified for the first 4 bits.
// The other 4 bits of the first byte are the spacecraft time reference
// status. To change to PUS-C, set 0b00100000.
// Set CCSDS_secondary header flag to 0, version number to 001 and ack
// to 0000
tmData->data_field.version_type_ack = 0b00010000;
tmData->data_field.version_type_ack = pus::PusVersion::PUS_A_VERSION << 4;
tmData->data_field.service_type = service;
tmData->data_field.service_subtype = subservice;
tmData->data_field.subcounter = packetSubcounter;

16
src/fsfw/tmtcpacket/pus/tm/TmPacketPusC.cpp
View File

@ -1,5 +1,6 @@
#include "fsfw/tmtcpacket/pus/tm/TmPacketPusC.h"
#include "fsfw/tmtcpacket/pus/tm/TmPacketBase.h"
#include "../definitions.h"
#include "TmPacketPusC.h"
#include "TmPacketBase.h"
#include "fsfw/globalfunctions/CRC.h"
#include "fsfw/globalfunctions/arrayprinter.h"
@ -53,18 +54,22 @@ uint8_t* TmPacketPusC::getPacketTimeRaw() const{
}
void TmPacketPusC::initializeTmPacket(uint16_t apid, uint8_t service,
ReturnValue_t TmPacketPusC::initializeTmPacket(uint16_t apid, uint8_t service,
uint8_t subservice, uint16_t packetSubcounter, uint16_t destinationId,
uint8_t timeRefField) {
//Set primary header:
initSpacePacketHeader(false, true, apid);
ReturnValue_t result = initSpacePacketHeader(false, true, apid);
if(result != HasReturnvaluesIF::RETURN_OK) {
return result;
}
//Set data Field Header:
//First, set to zero.
memset(&tmData->dataField, 0, sizeof(tmData->dataField));
/* Only account for last 4 bytes for time reference field */
timeRefField &= 0b1111;
tmData->dataField.versionTimeReferenceField = VERSION_NUMBER_BYTE | timeRefField;
tmData->dataField.versionTimeReferenceField =
(pus::PusVersion::PUS_C_VERSION << 4) | timeRefField;
tmData->dataField.serviceType = service;
tmData->dataField.serviceSubtype = subservice;
tmData->dataField.subcounterMsb = packetSubcounter << 8 & 0xff;
@ -76,6 +81,7 @@ void TmPacketPusC::initializeTmPacket(uint16_t apid, uint8_t service,
timeStamper->addTimeStamp(tmData->dataField.time,
sizeof(tmData->dataField.time));
}
return HasReturnvaluesIF::RETURN_OK;
}
void TmPacketPusC::setSourceDataSize(uint16_t size) {

2
src/fsfw/tmtcpacket/pus/tm/TmPacketPusC.h
View File

@ -100,7 +100,7 @@ protected:
* @param subservice PUS Subservice
* @param packetSubcounter Additional subcounter used.
*/
void initializeTmPacket(uint16_t apid, uint8_t service, uint8_t subservice,
ReturnValue_t initializeTmPacket(uint16_t apid, uint8_t service, uint8_t subservice,
uint16_t packetSubcounter, uint16_t destinationId = 0, uint8_t timeRefField = 0);
/**

32
src/fsfw/tmtcpacket/pus/tm/TmPacketStoredBase.cpp
View File

@ -91,4 +91,34 @@ void TmPacketStoredBase::checkAndReportLostTm() {
}
}
void TmPacketStoredBase::handleStoreFailure(const char *const packetType, ReturnValue_t result,
size_t sizeToReserve) {
checkAndReportLostTm();
#if FSFW_VERBOSE_LEVEL >= 1
switch(result) {
#if FSFW_CPP_OSTREAM_ENABLED == 1
case(StorageManagerIF::DATA_STORAGE_FULL): {
sif::warning << "TmPacketStoredPus" << packetType << ": " <<
"Store full for packet with size" << sizeToReserve << std::endl;
break;
}
case(StorageManagerIF::DATA_TOO_LARGE): {
sif::warning << "TmPacketStoredPus" << packetType << ": Data with size " <<
sizeToReserve << " too large" << std::endl;
break;
}
#else
case(StorageManagerIF::DATA_STORAGE_FULL): {
sif::printWarning("TmPacketStoredPus%s: Store full for packet with "
"size %d\n", packetType, sizeToReserve);
break;
}
case(StorageManagerIF::DATA_TOO_LARGE): {
sif::printWarning("TmPacketStoredPus%s: Data with size "
"%d too large\n", packetType, sizeToReserve);
break;
}
#endif
}
#endif
}

3
src/fsfw/tmtcpacket/pus/tm/TmPacketStoredBase.h
View File

@ -82,6 +82,9 @@ protected:
bool checkAndSetStore();
void checkAndReportLostTm();
void handleStoreFailure(const char* const packetType, ReturnValue_t result,
size_t sizeToReserve);
};

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