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base: 3D-Druck:v1.5.3
Branches Tags
3D-Druck:main 3D-Druck:testing 3D-Druck:recyclingfabrik
3D-Druck:v1.5.8 3D-Druck:v1.5.7 3D-Druck:v1.5.6 3D-Druck:v1.5.5 3D-Druck:v1.5.4 3D-Druck:v1.5.3 3D-Druck:v1.5.2 3D-Druck:v1.5.1 3D-Druck:v1.4.14 3D-Druck:v1.4.13 3D-Druck:v1.4.12 3D-Druck:v1.4.11 3D-Druck:v1.4.10 3D-Druck:v1.4.9 3D-Druck:v1.4.8 3D-Druck:v1.4.7 3D-Druck:v1.4.6 3D-Druck:v1.4.5 3D-Druck:v1.4.4 3D-Druck:v1.4.3 3D-Druck:v1.4.2 3D-Druck:v1.4.1 3D-Druck:v1.4.0 3D-Druck:v1.3.99 3D-Druck:v1.3.98 3D-Druck:v1.3.97 3D-Druck:v1.3.96 3D-Druck:v1.3.95 3D-Druck:v1.3.94 3D-Druck:v1.3.93 3D-Druck:v1.3.92 3D-Druck:v1.3.91 3D-Druck:v1.3.90 3D-Druck:v1.3.89 3D-Druck:v1.3.88 3D-Druck:v1.3.87 3D-Druck:v1.3.86 3D-Druck:v1.3.85 3D-Druck:v1.3.84 3D-Druck:v1.3.83 3D-Druck:v1.3.82 3D-Druck:v1.3.81 3D-Druck:v1.3.80 3D-Druck:v1.3.79 3D-Druck:v1.3.78 3D-Druck:v1.3.77 3D-Druck:v1.3.76 3D-Druck:v1.3.75 3D-Druck:v1.3.74 3D-Druck:v1.3.73 3D-Druck:v1.3.72 3D-Druck:v1.3.71 3D-Druck:v1.3.70 3D-Druck:v1.3.69 3D-Druck:v1.3.68 3D-Druck:v1.3.67 3D-Druck:v1.3.66 3D-Druck:v1.3.65 3D-Druck:v1.3.64 3D-Druck:v1.3.63 3D-Druck:v1.3.62 3D-Druck:v1.3.61 3D-Druck:v1.3.51 3D-Druck:v1.3.50 3D-Druck:v1.3.49 3D-Druck:v1.3.48 3D-Druck:v1.3.47 3D-Druck:v1.3.46 3D-Druck:v1.3.45 3D-Druck:v1.3.44 3D-Druck:v1.3.43 3D-Druck:v1.3.42 3D-Druck:v1.3.41 3D-Druck:v1.3.40 3D-Druck:v1.3.39 3D-Druck:v1.3.38 3D-Druck:v1.3.37 3D-Druck:v1.3.36 3D-Druck:v1.3.35 3D-Druck:v1.3.34 3D-Druck:v1.3.33 3D-Druck:v1.3.32 3D-Druck:v1.3.31 3D-Druck:v1.3.30 3D-Druck:v1.3.29 3D-Druck:v1.3.28 3D-Druck:v1.3.27 3D-Druck:v1.3.26 3D-Druck:v1.3.25 3D-Druck:v1.3.24 3D-Druck:v1.3.23 3D-Druck:v1.3.22 3D-Druck:v1.3.21 3D-Druck:v1.3.20 3D-Druck:v1.3.19 3D-Druck:v1.3.18 3D-Druck:v1.3.17 3D-Druck:v1.3.16 3D-Druck:v1.3.14 3D-Druck:v1.3.12 3D-Druck:v1.3.11 3D-Druck:v1.3.10 3D-Druck:v1.3.9 3D-Druck:v1.3.8 3D-Druck:v1.3.7 3D-Druck:v1.3.6 3D-Druck:v1.3.5 3D-Druck:v1.3.4 3D-Druck:v1.3.3 3D-Druck:v1.3.2 3D-Druck:v1.3.1 3D-Druck:v1.3.0 3D-Druck:v1.2.102 3D-Druck:v1.2.101 3D-Druck:v1.2.100 3D-Druck:v1.2.99 3D-Druck:v1.2.98 3D-Druck:v1.2.97 3D-Druck:v1.2.96 3D-Druck:v1.2.95 3D-Druck:v1.2.94 3D-Druck:v1.2.93 3D-Druck:v1.2.92 3D-Druck:v1.2.91 3D-Druck:v1.2.90 3D-Druck:v1.2.89 3D-Druck:v1.2.88 3D-Druck:v1.2.87 3D-Druck:v1.2.86 3D-Druck:v1.2.85 3D-Druck:v1.2.84 3D-Druck:v1.2.83 3D-Druck:v1.2.82 3D-Druck:v1.2.81 3D-Druck:v1.2.80 3D-Druck:v1.2.79 3D-Druck:v1.2.78 3D-Druck:v1.2.77 3D-Druck:v1.2.76 3D-Druck:v1.2.75 3D-Druck:v1.2.74 3D-Druck:v1.2.73 3D-Druck:v1.2.72 3D-Druck:v1.2.71 3D-Druck:v1.2.70 3D-Druck:v1.2.69 3D-Druck:v1.2.68 3D-Druck:v1.2.67 3D-Druck:v1.2.66 3D-Druck:v1.2.65 3D-Druck:v1.2.64 3D-Druck:v1.2.63 3D-Druck:v1.2.62 3D-Druck:v1.2.61 3D-Druck:v1.2.60 3D-Druck:v1.2.59 3D-Druck:v1.2.58 3D-Druck:v1.2.57 3D-Druck:v1.2.56 3D-Druck:v1.2.55 3D-Druck:v1.2.54 3D-Druck:v1.2.53 3D-Druck:v1.2.52 3D-Druck:v1.2.51 3D-Druck:v1.2.50 3D-Druck:v1.2.49 3D-Druck:v1.2.48 3D-Druck:v1.2.47 3D-Druck:v1.2.46 3D-Druck:v1.2.45 3D-Druck:v1.2.44 3D-Druck:v1.2.43 3D-Druck:v1.2.42 3D-Druck:v1.2.41 3D-Druck:v1.2.40 3D-Druck:v1.2.39 3D-Druck:v1.2.38 3D-Druck:v1.2.37 3D-Druck:v1.2.36 3D-Druck:v1.2.35 3D-Druck:v1.2.34 3D-Druck:v1.2.33 3D-Druck:v1.2.32 3D-Druck:v1.2.31 3D-Druck:v1.2.30 3D-Druck:v1.2.29 3D-Druck:v1.2.28 3D-Druck:v1.2.27 3D-Druck:v1.2.26 3D-Druck:v1.2.25 3D-Druck:v1.2.24 3D-Druck:v1.2.23 3D-Druck:v1.2.22 3D-Druck:v1.2.21 3D-Druck:v1.2.20 3D-Druck:v1.2.19 3D-Druck:v1.2.18 3D-Druck:v1.2.17 3D-Druck:v1.2.16 3D-Druck:v1.2.15 3D-Druck:v1.2.14 3D-Druck:v1.2.13 3D-Druck:v1.2.12 3D-Druck:v1.2.11 3D-Druck:v1.2.10 3D-Druck:v1.2.9 3D-Druck:v1.2.8 3D-Druck:v1.2.6 3D-Druck:v1.2.4 3D-Druck:v1.2.2 3D-Druck:v1.2.0 3D-Druck:v1.0.8 3D-Druck:v1.0.7 3D-Druck:v1.0.6 3D-Druck:v1.0.5 3D-Druck:v1.0.2
..
compare: 3D-Druck:v1.5.8
Branches Tags
3D-Druck:main 3D-Druck:testing 3D-Druck:recyclingfabrik
3D-Druck:v1.5.8 3D-Druck:v1.5.7 3D-Druck:v1.5.6 3D-Druck:v1.5.5 3D-Druck:v1.5.4 3D-Druck:v1.5.3 3D-Druck:v1.5.2 3D-Druck:v1.5.1 3D-Druck:v1.4.14 3D-Druck:v1.4.13 3D-Druck:v1.4.12 3D-Druck:v1.4.11 3D-Druck:v1.4.10 3D-Druck:v1.4.9 3D-Druck:v1.4.8 3D-Druck:v1.4.7 3D-Druck:v1.4.6 3D-Druck:v1.4.5 3D-Druck:v1.4.4 3D-Druck:v1.4.3 3D-Druck:v1.4.2 3D-Druck:v1.4.1 3D-Druck:v1.4.0 3D-Druck:v1.3.99 3D-Druck:v1.3.98 3D-Druck:v1.3.97 3D-Druck:v1.3.96 3D-Druck:v1.3.95 3D-Druck:v1.3.94 3D-Druck:v1.3.93 3D-Druck:v1.3.92 3D-Druck:v1.3.91 3D-Druck:v1.3.90 3D-Druck:v1.3.89 3D-Druck:v1.3.88 3D-Druck:v1.3.87 3D-Druck:v1.3.86 3D-Druck:v1.3.85 3D-Druck:v1.3.84 3D-Druck:v1.3.83 3D-Druck:v1.3.82 3D-Druck:v1.3.81 3D-Druck:v1.3.80 3D-Druck:v1.3.79 3D-Druck:v1.3.78 3D-Druck:v1.3.77 3D-Druck:v1.3.76 3D-Druck:v1.3.75 3D-Druck:v1.3.74 3D-Druck:v1.3.73 3D-Druck:v1.3.72 3D-Druck:v1.3.71 3D-Druck:v1.3.70 3D-Druck:v1.3.69 3D-Druck:v1.3.68 3D-Druck:v1.3.67 3D-Druck:v1.3.66 3D-Druck:v1.3.65 3D-Druck:v1.3.64 3D-Druck:v1.3.63 3D-Druck:v1.3.62 3D-Druck:v1.3.61 3D-Druck:v1.3.51 3D-Druck:v1.3.50 3D-Druck:v1.3.49 3D-Druck:v1.3.48 3D-Druck:v1.3.47 3D-Druck:v1.3.46 3D-Druck:v1.3.45 3D-Druck:v1.3.44 3D-Druck:v1.3.43 3D-Druck:v1.3.42 3D-Druck:v1.3.41 3D-Druck:v1.3.40 3D-Druck:v1.3.39 3D-Druck:v1.3.38 3D-Druck:v1.3.37 3D-Druck:v1.3.36 3D-Druck:v1.3.35 3D-Druck:v1.3.34 3D-Druck:v1.3.33 3D-Druck:v1.3.32 3D-Druck:v1.3.31 3D-Druck:v1.3.30 3D-Druck:v1.3.29 3D-Druck:v1.3.28 3D-Druck:v1.3.27 3D-Druck:v1.3.26 3D-Druck:v1.3.25 3D-Druck:v1.3.24 3D-Druck:v1.3.23 3D-Druck:v1.3.22 3D-Druck:v1.3.21 3D-Druck:v1.3.20 3D-Druck:v1.3.19 3D-Druck:v1.3.18 3D-Druck:v1.3.17 3D-Druck:v1.3.16 3D-Druck:v1.3.14 3D-Druck:v1.3.12 3D-Druck:v1.3.11 3D-Druck:v1.3.10 3D-Druck:v1.3.9 3D-Druck:v1.3.8 3D-Druck:v1.3.7 3D-Druck:v1.3.6 3D-Druck:v1.3.5 3D-Druck:v1.3.4 3D-Druck:v1.3.3 3D-Druck:v1.3.2 3D-Druck:v1.3.1 3D-Druck:v1.3.0 3D-Druck:v1.2.102 3D-Druck:v1.2.101 3D-Druck:v1.2.100 3D-Druck:v1.2.99 3D-Druck:v1.2.98 3D-Druck:v1.2.97 3D-Druck:v1.2.96 3D-Druck:v1.2.95 3D-Druck:v1.2.94 3D-Druck:v1.2.93 3D-Druck:v1.2.92 3D-Druck:v1.2.91 3D-Druck:v1.2.90 3D-Druck:v1.2.89 3D-Druck:v1.2.88 3D-Druck:v1.2.87 3D-Druck:v1.2.86 3D-Druck:v1.2.85 3D-Druck:v1.2.84 3D-Druck:v1.2.83 3D-Druck:v1.2.82 3D-Druck:v1.2.81 3D-Druck:v1.2.80 3D-Druck:v1.2.79 3D-Druck:v1.2.78 3D-Druck:v1.2.77 3D-Druck:v1.2.76 3D-Druck:v1.2.75 3D-Druck:v1.2.74 3D-Druck:v1.2.73 3D-Druck:v1.2.72 3D-Druck:v1.2.71 3D-Druck:v1.2.70 3D-Druck:v1.2.69 3D-Druck:v1.2.68 3D-Druck:v1.2.67 3D-Druck:v1.2.66 3D-Druck:v1.2.65 3D-Druck:v1.2.64 3D-Druck:v1.2.63 3D-Druck:v1.2.62 3D-Druck:v1.2.61 3D-Druck:v1.2.60 3D-Druck:v1.2.59 3D-Druck:v1.2.58 3D-Druck:v1.2.57 3D-Druck:v1.2.56 3D-Druck:v1.2.55 3D-Druck:v1.2.54 3D-Druck:v1.2.53 3D-Druck:v1.2.52 3D-Druck:v1.2.51 3D-Druck:v1.2.50 3D-Druck:v1.2.49 3D-Druck:v1.2.48 3D-Druck:v1.2.47 3D-Druck:v1.2.46 3D-Druck:v1.2.45 3D-Druck:v1.2.44 3D-Druck:v1.2.43 3D-Druck:v1.2.42 3D-Druck:v1.2.41 3D-Druck:v1.2.40 3D-Druck:v1.2.39 3D-Druck:v1.2.38 3D-Druck:v1.2.37 3D-Druck:v1.2.36 3D-Druck:v1.2.35 3D-Druck:v1.2.34 3D-Druck:v1.2.33 3D-Druck:v1.2.32 3D-Druck:v1.2.31 3D-Druck:v1.2.30 3D-Druck:v1.2.29 3D-Druck:v1.2.28 3D-Druck:v1.2.27 3D-Druck:v1.2.26 3D-Druck:v1.2.25 3D-Druck:v1.2.24 3D-Druck:v1.2.23 3D-Druck:v1.2.22 3D-Druck:v1.2.21 3D-Druck:v1.2.20 3D-Druck:v1.2.19 3D-Druck:v1.2.18 3D-Druck:v1.2.17 3D-Druck:v1.2.16 3D-Druck:v1.2.15 3D-Druck:v1.2.14 3D-Druck:v1.2.13 3D-Druck:v1.2.12 3D-Druck:v1.2.11 3D-Druck:v1.2.10 3D-Druck:v1.2.9 3D-Druck:v1.2.8 3D-Druck:v1.2.6 3D-Druck:v1.2.4 3D-Druck:v1.2.2 3D-Druck:v1.2.0 3D-Druck:v1.0.8 3D-Druck:v1.0.7 3D-Druck:v1.0.6 3D-Druck:v1.0.5 3D-Druck:v1.0.2

45 Commits
v1.5.3 ... v1.5.8

Author SHA1 Message Date
Manuel Weiser
7cbd34bc91 docs: update changelog and header for version v1.5.8
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2025-08-10 14:39:44 +02:00
Manuel Weiser
f7484f635e docs: update platformio.ini for version v1.5.8 2025-08-10 14:39:44 +02:00
ManuelW
90ce30215f Merge pull request #45 from janecker/nfc_write_improvements 
Nfc write improvements
 2025-08-10 14:38:11 +02:00
Jan Philipp Ecker
5fa93f2695 Adds a link to the spool in spoolman when reading a spool tag 
Adds a link to the website that lets the user directly jump to the spool in spoolman that is currently scanned.
 2025-08-08 18:14:26 +02:00
Jan Philipp Ecker
4706152022 Introduces periodic Spoolman Healthcheck 
Introduces a spoolman healthcheck that is executed every 60 seconds. Also fixes a bug with the periodic wifi update.
 2025-08-08 18:00:25 +02:00
Jan Philipp Ecker
5509d98969 Fixes issue that scale not calibrated message was not shown 
There was no warning any more if the scale is not calibrated. This change fixes that.
 2025-08-08 16:16:39 +02:00
Jan Philipp Ecker
a7c99d3f26 Improves init - NFC reading now only starts after boot is finished 
NFC tags that are on the scale during startup will only be read after the boot sequence is finished.
 2025-08-08 15:39:10 +02:00
Jan Philipp Ecker
89a5728cc0 Improves NFC writing workaround and removes debug output 
Improved version of the NFC writing workaround. The task is no longer suspended. There is now a suspend request and a suspend state variable that is used to communicate between the writing and the reading task. The reading is stopped gracefully to prevent resets during writing.
 2025-08-08 15:33:08 +02:00
Jan Philipp Ecker
b95497aec2 Further improvements on NFC writing 
Fixes some issues related to tag writing. Allos writing of tags that are already on the scale when pressing the write button, but introduces a confirmation dialog before doing so. Also first test to fix reset issue when trying to write tags.
 2025-08-07 21:12:01 +02:00
ManuelW
a156cac18e Merge pull request #44 from janecker/graphics_rework 
Graphics rework
 2025-08-06 08:27:24 +02:00
Jan Philipp Ecker
09f4c43f89 Fixes types and some issues in the new graphics 
Fixes further issues with the new graphics. Fixes some typos. Adds progress bar for upgrade process.
 2025-08-05 19:43:05 +02:00
Jan Philipp Ecker
ec0e544f30 Fixes typos in upgrade page 
Fixes names of binary files on the upgrade page.
 2025-08-05 19:41:06 +02:00
Jan Philipp Ecker
b6d82c8afe Graphic rework of the NFC writing process 
Introduces the new graphics for the NFC writing process. Also fixes some minor display bugs. Hides the service status icons during boot time. Fixes bugs in NFC write process where mutliple parallel API calls a created. Fixes a bug where spoolman is updated if a location tag is written (which is not required or correct).
 2025-08-05 17:44:59 +02:00
Jan Philipp Ecker
97a1368747 Reworks graphics of tag reading and some api fixes 
Reworks the graphics of the NFC-Tag reading process of spool and location tags. Introduces progress bar for reading process. Also first re-work of the spoolman availability (not fixed completly yet). Also fixes an issue where the API request to spoolman and octoprint was sent in parallel. This now happens sequentially to reduce heap load.
 2025-08-03 16:51:09 +02:00
Jan Philipp Ecker
85a9bcf8bd Remove unused parameter of sendNfcData() 
Removes unused client parameter of the sendNfcData function.
 2025-08-02 23:05:56 +02:00
Jan Philipp Ecker
c450df59aa Replaces usage of String with const char* in heap debug function 
Replaces String with const char* in printHeapDebugData to reduce heap fragmentation.
 2025-08-02 22:53:38 +02:00
Jan Philipp Ecker
722ef421cb Reworks startup graphics and timings 
Reworks the graphics during the startup. Introduces a progress bar to visualize how much of the boot is completed. Also changes the the optics of the bambu, spoolman and wifi icons. They are now always displayed but they will be striked out if not working and they will start blinking. Also removes some unnessesary waits.
 2025-08-02 22:52:19 +02:00
Manuel Weiser
b0cd731c5a docs: update changelog and header for version v1.5.7
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2025-07-28 09:51:55 +02:00
Manuel Weiser
f022bee578 docs: update platformio.ini for version v1.5.7 2025-07-28 09:51:55 +02:00
Manuel Weiser
3286b64836 refactor: clean up unused variables and improve .gitignore entries 2025-07-28 09:51:46 +02:00
Manuel Weiser
739fe7e764 docs: update changelog and header for version v1.5.6
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2025-07-28 09:32:35 +02:00
Manuel Weiser
5f8953a19d docs: update webpages for version v1.5.6 2025-07-28 09:32:35 +02:00
Manuel Weiser
c919eeb848 docs: update platformio.ini for version v1.5.6 2025-07-28 09:32:30 +02:00
ManuelW
43177c670e Merge pull request #42 from janecker/configuration_nvs_storage 
Changes configuration storage of spoolman and bambu values
 2025-07-28 09:31:33 +02:00
ManuelW
1b50694f5f Merge branch 'main' into configuration_nvs_storage 2025-07-28 09:31:23 +02:00
ManuelW
48edde8557 Merge pull request #41 from janecker/memory_leak_fixes 
Memory leak fixes
 2025-07-28 09:26:30 +02:00
Jan Philipp Ecker
cb5d8ac10a Changes configuration storage of spoolman and bambu values 
Change that moves configuration values of spoolman and bambu credentials to use NVS storage. Also fixes some typos and missing translation.
 2025-07-27 17:33:09 +02:00
Jan Philipp Ecker
bf48c6d4e1 Fixes compiler warnings in nfc 
Replaces the depricated function call containsKey() with is<T>() of JsonDocument.
 2025-07-26 22:52:10 +02:00
Jan Philipp Ecker
5d2d5e9ee1 Adds ENABLE_HEAP_DEBUGGING define as comment to the build flags 
Adds the new ENABLE_HEAP_DEBUGGING define to the build falgs. The option is commented out, but it makes it easier to quickly enable it
 2025-07-26 22:50:08 +02:00
Jan Philipp Ecker
7e76612bb4 Adds data directory and further .vscode files to to .gitignore 
Adds the whole data folder that is created during build of the project and further visual studio code related files to the .gitignore file.
 2025-07-26 22:39:37 +02:00
Jan Philipp Ecker
f038020042 Memory leak fixes in api and nfc, location tag fix 
Fixes multiple potential memory leaks in API and NFC. Also fixes an issue in the new locaiton tag feature that could lead to multiple parallel API requests. This could cause memory leak issues but also result in wrong weights being registered for a spool.
 2025-07-26 22:36:04 +02:00
Jan Philipp Ecker
8343fe887b Introduces new heap debugging feature and fixes some memory leaks in website feature 
Introduces a new define HEAP_DEBUG_MESSAGE(location) that can be used to instrument the code to get heap information output on the Serial output. It can be enabled via the define ENABLE_HEAP_DEBUGGING. Also fixes some memory leaks in the website part of the project.
 2025-07-26 22:14:58 +02:00
Manuel Weiser
3bb6c1caf5 docs: update changelog and header for version v1.5.5
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2025-07-22 17:36:45 +02:00
Manuel Weiser
37df07f102 docs: update platformio.ini for version v1.5.5 2025-07-22 17:36:45 +02:00
ManuelW
8484c1310b Merge pull request #40 from janecker/location_bambu_fix 
Fixes some issues with the new location tags
 2025-07-22 17:35:02 +02:00
Jan Philipp Ecker
fd7b4c25b3 Fixes some issues with the new location tags 
Fixes an issue where the location dropdown is not visible if the Bambu integration is active. Adds support for the "NFC-Tag" view on the webpage, it now also shows info about the location tags. Revers a change that was not supposed to go into main where the amount of data written to the spool tag is reduced to only the sm_id.
 2025-07-22 10:47:47 +02:00
Manuel Weiser
d490b116b9 docs: update changelog and header for version v1.5.4
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2025-07-22 06:36:16 +02:00
Manuel Weiser
5bc6192b6f docs: update platformio.ini for version v1.5.4 2025-07-22 06:36:16 +02:00
Manuel Weiser
2202d9a1aa Merge branch 'main' of github.com:ManuelW77/Filaman 2025-07-22 06:35:13 +02:00
ManuelW
7dbca0ab87 Merge pull request #39 from janecker/location_tags 
Adds new feature to write and read location tags
 2025-07-22 06:32:44 +02:00
ManuelW
24b3521f83 Merge pull request #38 from janecker/scale_debouncing 
Adds slight debouncing to the scale loop weight logic
 2025-07-22 06:32:31 +02:00
Manuel Weiser
6c9f290bac fix: uncomment monitor_port configuration in platformio.ini 2025-07-22 06:31:51 +02:00
Jan Philipp Ecker
eab937d6ca Adds new feature to write and read location tags 
Location tags can be written via the website. If a location tag is read after reading a spool tag, the location of the spool will be updated in spoolman to the location from the tag.
 2025-07-21 21:03:55 +02:00
Jan Philipp Ecker
27ef8399e4 Adds slight debouncing to the scale loop weight logic 
Adds slight debouncing to the scale loop to prevent jitter of the
weight displayed on the screen.
 2025-06-19 10:08:15 +02:00
Manuel Weiser
2920159f32 add loadcell desc. 2025-05-02 16:44:57 +02:00
34 changed files with 1214 additions and 611 deletions
Expand all files Collapse all files

41
.gitignore vendored Normal file
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@@ -0,0 +1,41 @@
.pio
.vscode/
.aider*
.DS_Store
._*
**/.DS_Store
**/.Spotlight-V100
**/.Trashes
**/.fseventsd
.AppleDouble
**/.DS_Store
**/.Spotlight-V100
**/.Trashes
**/.fseventsd
.AppleDouble
.aider.chat.history.md
.aider.input.history
.DS_Store
.gitignore
.aider.tags.cache.v3/cache.db
.aider.tags.cache.v3/cache.db-shm
.aider.tags.cache.v3/cache.db-wal
.vscode/c_cpp_properties.json
.vscode/launch.json
.vscode/ipch
.vscode/extensions.json
.vscode/launch.json
include/README
lib/README
test/README
.aider*
data/*
!data/
!data/.gitkeep
html/bambu_credentials.json
html/spoolman_url.json
_local/*
website/*
release.sh
.github/copilot-instructions.md
data

76
CHANGELOG.md
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@@ -1,5 +1,81 @@
# Changelog
## [1.5.8] - 2025-08-10
### Added
- Adds a link to the spool in spoolman when reading a spool tag
- Fixes types and some issues in the new graphics
### Changed
- update platformio.ini for version v1.5.8
- Merge pull request #45 from janecker/nfc_write_improvements
- Introduces periodic Spoolman Healthcheck
- Improves init - NFC reading now only starts after boot is finished
- Further improvements on NFC writing
- Merge pull request #44 from janecker/graphics_rework
- Graphic rework of the NFC writing process
- Remove unused parameter of sendNfcData()
- Reworks startup graphics and timings
### Fixed
- Fixes issue that scale not calibrated message was not shown
- Improves NFC writing workaround and removes debug output
- Fixes typos in upgrade page
- Reworks graphics of tag reading and some api fixes
- Replaces usage of String with const char* in heap debug function
## [1.5.7] - 2025-07-28
### Changed
- update platformio.ini for version v1.5.7
- clean up unused variables and improve .gitignore entries
## [1.5.6] - 2025-07-28
### Added
- Adds ENABLE_HEAP_DEBUGGING define as comment to the build flags
- Adds data directory and further .vscode files to to .gitignore
- Introduces new heap debugging feature and fixes some memory leaks in website feature
### Changed
- update webpages for version v1.5.6
- update platformio.ini for version v1.5.6
- Merge pull request #42 from janecker/configuration_nvs_storage
- Merge branch 'main' into configuration_nvs_storage
- Changes configuration storage of spoolman and bambu values
### Fixed
- Merge pull request #41 from janecker/memory_leak_fixes
- Fixes compiler warnings in nfc
- Memory leak fixes in api and nfc, location tag fix
## [1.5.5] - 2025-07-22
### Added
- Fixes some issues with the new location tags
### Changed
- update platformio.ini for version v1.5.5
### Fixed
- Merge pull request #40 from janecker/location_bambu_fix
## [1.5.4] - 2025-07-22
### Added
- Adds new feature to write and read location tags
- Adds slight debouncing to the scale loop weight logic
- add loadcell desc.
### Changed
- update platformio.ini for version v1.5.4
- Merge branch 'main' of github.com:ManuelW77/Filaman
- Merge pull request #39 from janecker/location_tags
- Merge pull request #38 from janecker/scale_debouncing
### Fixed
- uncomment monitor_port configuration in platformio.ini
## [1.5.3] - 2025-04-25
### Changed
- update platformio.ini for version v1.5.3

6
README.de.md
View File

@@ -90,6 +90,12 @@ Discord Server: [https://discord.gg/my7Gvaxj2v](https://discord.gg/my7Gvaxj2v)
![myWiring](./img/IMG_2589.jpeg)
![myWiring](./img/IMG_2590.jpeg)
*Die Wägezelle wird bei den meisten HX711 Modulen folgendermaßen verkabelt:
E+ rot
E- schwarz
A- weiß
A+ grün*
## Software-Abhängigkeiten
### ESP32-Bibliotheken

6
README.md
View File

@@ -94,6 +94,12 @@ Discord Server: [https://discord.gg/my7Gvaxj2v](https://discord.gg/my7Gvaxj2v)
![myWiring](./img/IMG_2589.jpeg)
![myWiring](./img/IMG_2590.jpeg)
*The load cell is connected to most HX711 modules as follows:
E+ red
E- black
A- white
A+ green*
## Software Dependencies
### ESP32 Libraries

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html/.DS_Store vendored Normal file
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1
html/bambu_credentials.json Normal file
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@@ -0,0 +1 @@
{"bambu_ip": "192.168.1.14", "bambu_accesscode": "22772584", "bambu_serialnr": "01P00C492600230","autoSendToBambu":true,"autoSendTime": 60}

12
html/rfid.html
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@@ -139,6 +139,18 @@
<p id="nfcInfo" class="nfc-status"></p>
<button id="writeNfcButton" class="btn btn-primary hidden" onclick="writeNfcTag()">Write Tag</button>
</div>
<div class="feature-box">
<h2>Spoolman Locations</h2>
<label for="locationSelect">Location:</label>
<div style="display: flex; justify-content: space-between; align-items: center;">
<select id="locationSelect" class="styled-select">
<option value="">Please choose...</option>
</select>
</div>
<p id="nfcInfoLocation" class="nfc-status"></p>
<button id="writeLocationNfcButton" class="btn btn-primary hidden" onclick="writeLocationNfcTag()">Write Location Tag</button>
</div>
</div>
</div>

177
html/rfid.js
View File

@@ -7,6 +7,7 @@ let heartbeatTimer = null;
let lastHeartbeatResponse = Date.now();
const HEARTBEAT_TIMEOUT = 20000;
let reconnectTimer = null;
let spoolDetected = false;
// WebSocket Funktionen
function startHeartbeat() {
@@ -508,12 +509,15 @@ function updateNfcStatusIndicator(data) {
if (data.found === 0) {
// Kein NFC Tag gefunden
indicator.className = 'status-circle';
spoolDetected = false;
} else if (data.found === 1) {
// NFC Tag erfolgreich gelesen
indicator.className = 'status-circle success';
spoolDetected = true;
} else {
// Fehler beim Lesen
indicator.className = 'status-circle error';
spoolDetected = true;
}
}
@@ -555,7 +559,10 @@ function updateNfcData(data) {
}
// HTML für die Datenanzeige erstellen
let html = `
let html = "";
if(data.sm_id){
html = `
<div class="nfc-card-data" style="margin-top: 10px;">
<p><strong>Brand:</strong> ${data.brand || 'N/A'}</p>
<p><strong>Type:</strong> ${data.type || 'N/A'} ${data.color_hex ? `<span style="
@@ -568,10 +575,27 @@ function updateNfcData(data) {
border-radius: 3px;
margin-left: 5px;
"></span>` : ''}</p>
`;
`;
// Spoolman ID anzeigen
html += `<p><strong>Spoolman ID:</strong> ${data.sm_id || 'No Spoolman ID'}</p>`;
// Spoolman ID anzeigen
html += `<p><strong>Spoolman ID:</strong> ${data.sm_id} (<a href="${spoolmanUrl}/spool/show/${data.sm_id}">Open in Spoolman</a>)</p>`;
}
else if(data.location)
{
html = `
<div class="nfc-card-data" style="margin-top: 10px;">
<p><strong>Location:</strong> ${data.location || 'N/A'}</p>
`;
}
else
{
html = `
<div class="nfc-card-data" style="margin-top: 10px;">
<p><strong>Unknown tag</strong></p>
`;
}
// Nur wenn eine sm_id vorhanden ist, aktualisiere die Dropdowns
if (data.sm_id) {
@@ -598,65 +622,112 @@ function updateNfcData(data) {
}
function writeNfcTag() {
const selectedText = document.getElementById("selected-filament").textContent;
if (selectedText === "Please choose...") {
alert('Please select a Spool first.');
return;
if(!spoolDetected || confirm("Are you sure you want to overwrite the Tag?") == true){
const selectedText = document.getElementById("selected-filament").textContent;
if (selectedText === "Please choose...") {
alert('Please select a Spool first.');
return;
}
const spoolsData = window.getSpoolData();
const selectedSpool = spoolsData.find(spool =>
`${spool.id} | ${spool.filament.name} (${spool.filament.material})` === selectedText
);
if (!selectedSpool) {
alert('Ausgewählte Spule konnte nicht gefunden werden.');
return;
}
// Temperaturwerte korrekt extrahieren
let minTemp = "175";
let maxTemp = "275";
if (Array.isArray(selectedSpool.filament.nozzle_temperature) &&
selectedSpool.filament.nozzle_temperature.length >= 2) {
minTemp = String(selectedSpool.filament.nozzle_temperature[0]);
maxTemp = String(selectedSpool.filament.nozzle_temperature[1]);
}
// Erstelle das NFC-Datenpaket mit korrekten Datentypen
const nfcData = {
color_hex: selectedSpool.filament.color_hex || "FFFFFF",
type: selectedSpool.filament.material,
min_temp: minTemp,
max_temp: maxTemp,
brand: selectedSpool.filament.vendor.name,
sm_id: String(selectedSpool.id) // Konvertiere zu String
};
if (socket?.readyState === WebSocket.OPEN) {
const writeButton = document.getElementById("writeNfcButton");
writeButton.classList.add("writing");
writeButton.textContent = "Writing";
socket.send(JSON.stringify({
type: 'writeNfcTag',
tagType: 'spool',
payload: nfcData
}));
} else {
alert('Not connected to Server. Please check connection.');
}
}
}
const spoolsData = window.getSpoolData();
const selectedSpool = spoolsData.find(spool =>
`${spool.id} | ${spool.filament.name} (${spool.filament.material})` === selectedText
);
function writeLocationNfcTag() {
if(!spoolDetected || confirm("Are you sure you want to overwrite the Tag?") == true){
const selectedText = document.getElementById("locationSelect").value;
if (selectedText === "Please choose...") {
alert('Please select a location first.');
return;
}
// Erstelle das NFC-Datenpaket mit korrekten Datentypen
const nfcData = {
location: String(selectedText)
};
if (!selectedSpool) {
alert('Ausgewählte Spule konnte nicht gefunden werden.');
return;
}
// Temperaturwerte korrekt extrahieren
let minTemp = "175";
let maxTemp = "275";
if (Array.isArray(selectedSpool.filament.nozzle_temperature) &&
selectedSpool.filament.nozzle_temperature.length >= 2) {
minTemp = String(selectedSpool.filament.nozzle_temperature[0]);
maxTemp = String(selectedSpool.filament.nozzle_temperature[1]);
}
// Erstelle das NFC-Datenpaket mit korrekten Datentypen
const nfcData = {
color_hex: selectedSpool.filament.color_hex || "FFFFFF",
type: selectedSpool.filament.material,
min_temp: minTemp,
max_temp: maxTemp,
brand: selectedSpool.filament.vendor.name,
sm_id: String(selectedSpool.id) // Konvertiere zu String
};
if (socket?.readyState === WebSocket.OPEN) {
const writeButton = document.getElementById("writeNfcButton");
writeButton.classList.add("writing");
writeButton.textContent = "Writing";
socket.send(JSON.stringify({
type: 'writeNfcTag',
payload: nfcData
}));
} else {
alert('Not connected to Server. Please check connection.');
if (socket?.readyState === WebSocket.OPEN) {
const writeButton = document.getElementById("writeLocationNfcButton");
writeButton.classList.add("writing");
writeButton.textContent = "Writing";
socket.send(JSON.stringify({
type: 'writeNfcTag',
tagType: 'location',
payload: nfcData
}));
} else {
alert('Not connected to Server. Please check connection.');
}
}
}
function handleWriteNfcTagResponse(success) {
const writeButton = document.getElementById("writeNfcButton");
writeButton.classList.remove("writing");
writeButton.classList.add(success ? "success" : "error");
writeButton.textContent = success ? "Write success" : "Write failed";
const writeLocationButton = document.getElementById("writeLocationNfcButton");
if(writeButton.classList.contains("writing")){
writeButton.classList.remove("writing");
writeButton.classList.add(success ? "success" : "error");
writeButton.textContent = success ? "Write success" : "Write failed";
setTimeout(() => {
writeButton.classList.remove("success", "error");
writeButton.textContent = "Write Tag";
}, 5000);
setTimeout(() => {
writeButton.classList.remove("success", "error");
writeButton.textContent = "Write Tag";
}, 5000);
}
if(writeLocationButton.classList.contains("writing")){
writeLocationButton.classList.remove("writing");
writeLocationButton.classList.add(success ? "success" : "error");
writeLocationButton.textContent = success ? "Write success" : "Write failed";
setTimeout(() => {
writeLocationButton.classList.remove("success", "error");
writeLocationButton.textContent = "Write Location Tag";
}, 5000);
}
}
function showNotification(message, isSuccess) {

12
html/rfid_bambu.html
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@@ -139,6 +139,18 @@
<p id="nfcInfo" class="nfc-status"></p>
<button id="writeNfcButton" class="btn btn-primary hidden" onclick="writeNfcTag()">Write Tag</button>
</div>
<div class="feature-box">
<h2>Spoolman Locations</h2>
<label for="locationSelect">Location:</label>
<div style="display: flex; justify-content: space-between; align-items: center;">
<select id="locationSelect" class="styled-select">
<option value="">Please choose...</option>
</select>
</div>
<p id="nfcInfoLocation" class="nfc-status"></p>
<button id="writeLocationNfcButton" class="btn btn-primary hidden" onclick="writeLocationNfcTag()">Write Location Tag</button>
</div>
</div>
<!-- Rechte Spalte -->

16
html/spoolman.html
View File

@@ -146,20 +146,20 @@
<div class="card">
<div class="card-body">
<h5 class="card-title">Set URL/IP to your Spoolman-Instanz</h5>
<input type="text" id="spoolmanUrl" placeholder="http://ip-or-url-of-your-spoolman-instanz:port">
<h5 class="card-title">If you want to enable sending Spool to Spoolman Octoprint Plugin:</h5>
<h5 class="card-title">Set URL/IP to your Spoolman instance</h5>
<input type="text" id="spoolmanUrl" onkeydown="if(event.keyCode == 13) document.getElementById('btnSaveSpoolmanUrl').click()" placeholder="http://ip-or-url-of-your-spoolman-instance:port">
<h5 class="card-title">If you want to enable sending the spool to the Spoolman Octoprint plugin:</h5>
<p>
<input type="checkbox" id="spoolmanOctoEnabled" {{spoolmanOctoEnabled}} onchange="toggleOctoFields()"> Send to Octo-Plugin
</p>
<div id="octoFields" style="display: none;">
<p>
<input type="text" id="spoolmanOctoUrl" placeholder="http://ip-or-url-of-your-octoprint-instanz:port" value="{{spoolmanOctoUrl}}">
<input type="text" id="spoolmanOctoUrl" placeholder="http://ip-or-url-of-your-octoprint-instance:port" value="{{spoolmanOctoUrl}}">
<input type="text" id="spoolmanOctoToken" placeholder="Your Octoprint Token" value="{{spoolmanOctoToken}}">
</p>
</div>
<button onclick="checkSpoolmanInstance()">Save Spoolman URL</button>
<button id="btnSaveSpoolmanUrl" onclick="checkSpoolmanInstance()">Save Spoolman URL</button>
<p id="statusMessage"></p>
</div>
</div>
@@ -169,16 +169,16 @@
<h5 class="card-title">Bambu Lab Printer Credentials</h5>
<div class="bambu-settings">
<div class="input-group">
<label for="bambuIp">Bambu Drucker IP-Adresse:</label>
<label for="bambuIp">Bambu Printer IP Address:</label>
<input type="text" id="bambuIp" placeholder="192.168.1.xxx" value="{{bambuIp}}">
</div>
<div class="input-group">
<label for="bambuSerial">Drucker Seriennummer:</label>
<label for="bambuSerial">Printer Serial Number:</label>
<input type="text" id="bambuSerial" placeholder="BBLXXXXXXXX" value="{{bambuSerial}}">
</div>
<div class="input-group">
<label for="bambuCode">Access Code:</label>
<input type="text" id="bambuCode" placeholder="Access Code vom Drucker" value="{{bambuCode}}">
<input type="text" id="bambuCode" placeholder="Access Code of the printer" value="{{bambuCode}}">
</div>
<hr>
<p>If activated, FilaMan will automatically update the next filled tray with the last scanned and weighed spool.</p>

67
html/spoolman.js
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@@ -1,6 +1,7 @@
// Globale Variablen
let spoolmanUrl = '';
let spoolsData = [];
let locationData = [];
// Hilfsfunktionen für Datenmanipulation
function processSpoolData(data) {
@@ -133,6 +134,26 @@ function populateVendorDropdown(data, selectedSmId = null) {
}
}
// Dropdown-Funktionen
function populateLocationDropdown(data) {
const locationSelect = document.getElementById("locationSelect");
if (!locationSelect) {
console.error('locationSelect Element nicht gefunden');
return;
}
locationSelect.innerHTML = '<option value="">Bitte wählen...</option>';
// Dropdown mit gefilterten Herstellern befüllen - alphabetisch sortiert
Object.entries(data)
.sort(([, nameA], [, nameB]) => nameA.localeCompare(nameB)) // Sort vendors alphabetically by name
.forEach(([id, name]) => {
const option = document.createElement("option");
option.value = name;
option.textContent = name;
locationSelect.appendChild(option);
});
}
function updateFilamentDropdown(selectedSmId = null) {
const vendorId = document.getElementById("vendorSelect").value;
const dropdownContentInner = document.getElementById("filament-dropdown-content");
@@ -208,6 +229,13 @@ function updateFilamentDropdown(selectedSmId = null) {
}
}
function updateLocationSelect(){
const writeLocationNfcButton = document.getElementById('writeLocationNfcButton');
if(writeLocationNfcButton){
writeLocationNfcButton.classList.remove("hidden");
}
}
function selectFilament(spool) {
const selectedColor = document.getElementById("selected-color");
const selectedText = document.getElementById("selected-filament");
@@ -261,10 +289,18 @@ async function initSpoolman() {
const fetchedData = await fetchSpoolData();
spoolsData = processSpoolData(fetchedData);
document.dispatchEvent(new CustomEvent('spoolDataLoaded', {
detail: spoolsData
}));
locationData = await fetchLocationData();
document.dispatchEvent(new CustomEvent('locationDataLoaded', {
detail: locationData
}));
} catch (error) {
console.error('Fehler beim Initialisieren von Spoolman:', error);
document.dispatchEvent(new CustomEvent('spoolmanError', {
@@ -292,6 +328,25 @@ async function fetchSpoolData() {
}
}
async function fetchLocationData() {
try {
if (!spoolmanUrl) {
throw new Error('Spoolman URL ist nicht initialisiert');
}
const response = await fetch(`${spoolmanUrl}/api/v1/location`);
if (!response.ok) {
throw new Error(`HTTP error! status: ${response.status}`);
}
const data = await response.json();
return data;
} catch (error) {
console.error('Fehler beim Abrufen der Location-Daten:', error);
return [];
}
}
// Event Listener
document.addEventListener('DOMContentLoaded', () => {
initSpoolman();
@@ -300,6 +355,11 @@ document.addEventListener('DOMContentLoaded', () => {
if (vendorSelect) {
vendorSelect.addEventListener('change', () => updateFilamentDropdown());
}
const locationSelect = document.getElementById('locationSelect');
if (locationSelect) {
locationSelect.addEventListener('change', () => updateLocationSelect());
}
const onlyWithoutSmId = document.getElementById('onlyWithoutSmId');
if (onlyWithoutSmId) {
@@ -312,6 +372,10 @@ document.addEventListener('DOMContentLoaded', () => {
document.addEventListener('spoolDataLoaded', (event) => {
populateVendorDropdown(event.detail);
});
document.addEventListener('locationDataLoaded', (event) => {
populateLocationDropdown(event.detail);
});
window.onclick = function(event) {
if (!event.target.closest('.custom-dropdown')) {
@@ -342,6 +406,7 @@ window.getSpoolData = () => spoolsData;
window.setSpoolData = (data) => { spoolsData = data; };
window.reloadSpoolData = initSpoolman;
window.populateVendorDropdown = populateVendorDropdown;
window.populateLocationDropdown = populateLocationDropdown;
window.updateFilamentDropdown = updateFilamentDropdown;
window.toggleFilamentDropdown = () => {
const content = document.getElementById("filament-dropdown-content");

1
html/spoolman_url.json Normal file
View File

@@ -0,0 +1 @@
{"url": "http://192.168.1.5:7912", "octoEnabled": true, "octoUrl": "http://192.168.1.17:5001", "octoToken": "O5zZ58mXRAyeGpVEj2ZZj-UPAPqJ2N7JgtD36mw1M4g"}

14
html/style.css
View File

@@ -971,31 +971,35 @@ input[type="submit"]:disabled,
}
/* Schreib-Button */
#writeNfcButton {
#writeNfcButton, #writeLocationNfcButton {
background-color: #007bff;
color: white;
transition: background-color 0.3s, color 0.3s;
width: 160px;
}
#writeNfcButton.writing {
#writeNfcButton.writing, #writeLocationNfcButton.writing {
background-color: #ffc107;
color: black;
width: 160px;
}
#writeNfcButton.success {
#writeNfcButton.success, #writeLocationNfcButton.success {
background-color: #28a745;
color: white;
width: 160px;
}
#writeNfcButton.error {
#writeNfcButton.error, #writeLocationNfcButton.error {
background-color: #dc3545;
color: white;
width: 160px;
}
#writeLocationNfcButton{
width: 250px;
}
@keyframes dots {
0% { content: ""; }
33% { content: "."; }
@@ -1003,7 +1007,7 @@ input[type="submit"]:disabled,
100% { content: "..."; }
}
#writeNfcButton.writing::after {
#writeNfcButton.writing::after, #writeLocationNfcButton.writing::after {
content: "...";
animation: dots 1s steps(3, end) infinite;
}

4
html/upgrade.html
View File

@@ -57,7 +57,7 @@
<div class="update-options">
<div class="update-section">
<h2>Firmware Update</h2>
<p>Upload a new firmware file (filaman_*.bin)</p>
<p>Upload a new firmware file (upgrade_filaman_firmware_*.bin)</p>
<div class="update-form">
<form id="firmwareForm" enctype='multipart/form-data' data-type="firmware">
<input type='file' name='update' accept='.bin' required>
@@ -68,7 +68,7 @@
<div class="update-section">
<h2>Webpage Update</h2>
<p>Upload a new webpage file (webpage_*.bin)</p>
<p>Upload a new webpage file (upgrade_filaman_website_*.bin)</p>
<div class="update-form">
<form id="webpageForm" enctype='multipart/form-data' data-type="webpage">
<input type='file' name='update' accept='.bin' required>

4
platformio.ini
View File

@@ -9,7 +9,7 @@
; https://docs.platformio.org/page/projectconf.html
[common]
version = "1.5.3"
version = "1.5.8"
to_old_version = "1.5.0"
##
@@ -18,6 +18,7 @@ platform = espressif32
board = esp32dev
framework = arduino
monitor_speed = 115200
#monitor_port = /dev/cu.usbmodem01
lib_deps =
tzapu/WiFiManager @ ^2.0.17
@@ -51,6 +52,7 @@ build_flags =
-mtext-section-literals
-DVERSION=\"${common.version}\"
-DTOOLDVERSION=\"${common.to_old_version}\"
#-DENABLE_HEAP_DEBUGGING
-DASYNCWEBSERVER_REGEX
#-DCORE_DEBUG_LEVEL=3
-DCONFIG_ARDUHAL_LOG_COLORS=1

550
src/api.cpp
View File

@@ -2,15 +2,23 @@
#include <HTTPClient.h>
#include <ArduinoJson.h>
#include "commonFS.h"
#include <Preferences.h>
#include "debug.h"
volatile spoolmanApiStateType spoolmanApiState = API_INIT;
volatile spoolmanApiStateType spoolmanApiState = API_IDLE;
//bool spoolman_connected = false;
String spoolmanUrl = "";
bool octoEnabled = false;
bool sendOctoUpdate = false;
String octoUrl = "";
String octoToken = "";
uint16_t remainingWeight = 0;
bool spoolmanConnected = false;
bool spoolmanExtraFieldsChecked = false;
TaskHandle_t* apiTask;
struct SendToApiParams {
SpoolmanApiRequestType requestType;
String httpType;
String spoolsUrl;
String updatePayload;
@@ -86,10 +94,18 @@ JsonDocument fetchSingleSpoolInfo(int spoolId) {
}
void sendToApi(void *parameter) {
HEAP_DEBUG_MESSAGE("sendToApi begin");
// Wait until API is IDLE
while(spoolmanApiState != API_IDLE){
Serial.println("Waiting!");
yield();
}
spoolmanApiState = API_TRANSMITTING;
SendToApiParams* params = (SendToApiParams*)parameter;
// Extrahiere die Werte
SpoolmanApiRequestType requestType = params->requestType;
String httpType = params->httpType;
String spoolsUrl = params->spoolsUrl;
String updatePayload = params->updatePayload;
@@ -118,20 +134,52 @@ void sendToApi(void *parameter) {
Serial.print("Fehler beim Parsen der JSON-Antwort: ");
Serial.println(error.c_str());
} else {
if (httpType == "PUT") {
uint16_t remaining_weight = doc["remaining_weight"].as<float>();
switch(requestType){
case API_REQUEST_SPOOL_WEIGHT_UPDATE:
remainingWeight = doc["remaining_weight"].as<uint16_t>();
Serial.print("Aktuelles Gewicht: ");
Serial.println(remaining_weight);
oledShowMessage("Remaining: " + String(remaining_weight) + "g");
Serial.println(remainingWeight);
//oledShowMessage("Remaining: " + String(remaining_weight) + "g");
if(!octoEnabled){
// TBD: Do not use Strings...
oledShowProgressBar(1, 1, "Spool Tag", ("Done: " + String(remainingWeight) + " g remain").c_str());
remainingWeight = 0;
}else{
// ocoto is enabled, trigger octo update
sendOctoUpdate = true;
}
break;
case API_REQUEST_SPOOL_LOCATION_UPDATE:
oledShowProgressBar(1, 1, "Loc. Tag", "Done!");
break;
case API_REQUEST_SPOOL_TAG_ID_UPDATE:
oledShowProgressBar(1, 1, "Write Tag", "Done!");
break;
case API_REQUEST_OCTO_SPOOL_UPDATE:
// TBD: Do not use Strings...
oledShowProgressBar(5, 5, "Spool Tag", ("Done: " + String(remainingWeight) + " g remain").c_str());
remainingWeight = 0;
break;
}
vTaskDelay(3000 / portTICK_PERIOD_MS);
doc.clear();
}
doc.clear();
} else {
switch(requestType){
case API_REQUEST_SPOOL_WEIGHT_UPDATE:
case API_REQUEST_SPOOL_LOCATION_UPDATE:
case API_REQUEST_SPOOL_TAG_ID_UPDATE:
oledShowProgressBar(1, 1, "Failure!", "Spoolman update");
break;
case API_REQUEST_OCTO_SPOOL_UPDATE:
oledShowProgressBar(1, 1, "Failure!", "Octoprint update");
break;
case API_REQUEST_BAMBU_UPDATE:
oledShowProgressBar(1, 1, "Failure!", "Bambu update");
break;
}
Serial.println("Fehler beim Senden an Spoolman! HTTP Code: " + String(httpCode));
oledShowMessage("Spoolman update failed");
// TBD: really required?
vTaskDelay(2000 / portTICK_PERIOD_MS);
}
@@ -140,11 +188,14 @@ void sendToApi(void *parameter) {
// Speicher freigeben
delete params;
vTaskDelete(NULL);
HEAP_DEBUG_MESSAGE("sendToApi end");
spoolmanApiState = API_IDLE;
vTaskDelete(NULL);
}
bool updateSpoolTagId(String uidString, const char* payload) {
oledShowProgressBar(2, 3, "Write Tag", "Update Spoolman");
JsonDocument doc;
DeserializationError error = deserializeJson(doc, payload);
@@ -164,6 +215,8 @@ bool updateSpoolTagId(String uidString, const char* payload) {
Serial.print("Update Spule mit URL: ");
Serial.println(spoolsUrl);
doc.clear();
// Update Payload erstellen
JsonDocument updateDoc;
updateDoc["extra"]["nfc_id"] = "\""+uidString+"\"";
@@ -173,11 +226,12 @@ bool updateSpoolTagId(String uidString, const char* payload) {
Serial.print("Update Payload: ");
Serial.println(updatePayload);
SendToApiParams* params = new SendToApiParams();
SendToApiParams* params = new SendToApiParams();
if (params == nullptr) {
Serial.println("Fehler: Kann Speicher für Task-Parameter nicht allokieren.");
return false;
}
params->requestType = API_REQUEST_SPOOL_TAG_ID_UPDATE;
params->httpType = "PATCH";
params->spoolsUrl = spoolsUrl;
params->updatePayload = updatePayload;
@@ -189,18 +243,21 @@ bool updateSpoolTagId(String uidString, const char* payload) {
6144, // Stackgröße in Bytes
(void*)params, // Parameter
0, // Priorität
NULL // Task-Handle (nicht benötigt)
apiTask // Task-Handle (nicht benötigt)
);
updateDoc.clear();
// Update Spool weight
if (weight > 10) updateSpoolWeight(doc["sm_id"].as<String>(), weight);
//TBD: how to handle this with spool and locatin tags? Also potential parallel access again
//if (weight > 10) updateSpoolWeight(doc["sm_id"].as<String>(), weight);
return true;
}
uint8_t updateSpoolWeight(String spoolId, uint16_t weight) {
HEAP_DEBUG_MESSAGE("updateSpoolWeight begin");
oledShowProgressBar(3, octoEnabled?5:4, "Spool Tag", "Spoolman update");
String spoolsUrl = spoolmanUrl + apiUrl + "/spool/" + spoolId + "/measure";
Serial.print("Update Spule mit URL: ");
Serial.println(spoolsUrl);
@@ -216,9 +273,11 @@ uint8_t updateSpoolWeight(String spoolId, uint16_t weight) {
SendToApiParams* params = new SendToApiParams();
if (params == nullptr) {
// TBD: reset ESP instead of showing a message
Serial.println("Fehler: Kann Speicher für Task-Parameter nicht allokieren.");
return 0;
}
params->requestType = API_REQUEST_SPOOL_WEIGHT_UPDATE;
params->httpType = "PUT";
params->spoolsUrl = spoolsUrl;
params->updatePayload = updatePayload;
@@ -230,15 +289,67 @@ uint8_t updateSpoolWeight(String spoolId, uint16_t weight) {
6144, // Stackgröße in Bytes
(void*)params, // Parameter
0, // Priorität
NULL // Task-Handle (nicht benötigt)
apiTask // Task-Handle (nicht benötigt)
);
updateDoc.clear();
HEAP_DEBUG_MESSAGE("updateSpoolWeight end");
return 1;
}
uint8_t updateSpoolLocation(String spoolId, String location){
HEAP_DEBUG_MESSAGE("updateSpoolLocation begin");
oledShowProgressBar(3, octoEnabled?5:4, "Loc. Tag", "Spoolman update");
String spoolsUrl = spoolmanUrl + apiUrl + "/spool/" + spoolId;
Serial.print("Update Spule mit URL: ");
Serial.println(spoolsUrl);
// Update Payload erstellen
JsonDocument updateDoc;
updateDoc["location"] = location;
String updatePayload;
serializeJson(updateDoc, updatePayload);
Serial.print("Update Payload: ");
Serial.println(updatePayload);
SendToApiParams* params = new SendToApiParams();
if (params == nullptr) {
Serial.println("Fehler: Kann Speicher für Task-Parameter nicht allokieren.");
return 0;
}
params->requestType = API_REQUEST_SPOOL_LOCATION_UPDATE;
params->httpType = "PATCH";
params->spoolsUrl = spoolsUrl;
params->updatePayload = updatePayload;
if(apiTask == nullptr){
// Erstelle die Task
BaseType_t result = xTaskCreate(
sendToApi, // Task-Funktion
"SendToApiTask", // Task-Name
6144, // Stackgröße in Bytes
(void*)params, // Parameter
0, // Priorität
apiTask // Task-Handle
);
}else{
Serial.println("Not spawning new task, API still active!");
}
updateDoc.clear();
HEAP_DEBUG_MESSAGE("updateSpoolLocation end");
return 1;
}
bool updateSpoolOcto(int spoolId) {
oledShowProgressBar(4, octoEnabled?5:4, "Spool Tag", "Octoprint update");
String spoolsUrl = octoUrl + "/plugin/Spoolman/selectSpool";
Serial.print("Update Spule in Octoprint mit URL: ");
Serial.println(spoolsUrl);
@@ -257,6 +368,7 @@ bool updateSpoolOcto(int spoolId) {
Serial.println("Fehler: Kann Speicher für Task-Parameter nicht allokieren.");
return false;
}
params->requestType = API_REQUEST_OCTO_SPOOL_UPDATE;
params->httpType = "POST";
params->spoolsUrl = spoolsUrl;
params->updatePayload = updatePayload;
@@ -269,7 +381,7 @@ bool updateSpoolOcto(int spoolId) {
6144, // Stackgröße in Bytes
(void*)params, // Parameter
0, // Priorität
NULL // Task-Handle (nicht benötigt)
apiTask // Task-Handle (nicht benötigt)
);
updateDoc.clear();
@@ -298,6 +410,10 @@ bool updateSpoolBambuData(String payload) {
String updatePayload;
serializeJson(updateDoc, updatePayload);
doc.clear();
updateDoc.clear();
Serial.print("Update Payload: ");
Serial.println(updatePayload);
@@ -306,6 +422,7 @@ bool updateSpoolBambuData(String payload) {
Serial.println("Fehler: Kann Speicher für Task-Parameter nicht allokieren.");
return false;
}
params->requestType = API_REQUEST_BAMBU_UPDATE;
params->httpType = "PATCH";
params->spoolsUrl = spoolsUrl;
params->updatePayload = updatePayload;
@@ -317,7 +434,7 @@ bool updateSpoolBambuData(String payload) {
6144, // Stackgröße in Bytes
(void*)params, // Parameter
0, // Priorität
NULL // Task-Handle (nicht benötigt)
apiTask // Task-Handle (nicht benötigt)
);
return true;
@@ -325,245 +442,264 @@ bool updateSpoolBambuData(String payload) {
// #### Spoolman init
bool checkSpoolmanExtraFields() {
HTTPClient http;
String checkUrls[] = {
spoolmanUrl + apiUrl + "/field/spool",
spoolmanUrl + apiUrl + "/field/filament"
};
// Only check extra fields if they have not been checked before
if(!spoolmanExtraFieldsChecked){
HTTPClient http;
String checkUrls[] = {
spoolmanUrl + apiUrl + "/field/spool",
spoolmanUrl + apiUrl + "/field/filament"
};
String spoolExtra[] = {
"nfc_id"
};
String spoolExtra[] = {
"nfc_id"
};
String filamentExtra[] = {
"nozzle_temperature",
"price_meter",
"price_gramm",
"bambu_setting_id",
"bambu_cali_id",
"bambu_idx",
"bambu_k",
"bambu_flow_ratio",
"bambu_max_volspeed"
};
String filamentExtra[] = {
"nozzle_temperature",
"price_meter",
"price_gramm",
"bambu_setting_id",
"bambu_cali_id",
"bambu_idx",
"bambu_k",
"bambu_flow_ratio",
"bambu_max_volspeed"
};
String spoolExtraFields[] = {
"{\"name\": \"NFC ID\","
"\"key\": \"nfc_id\","
"\"field_type\": \"text\"}"
};
String spoolExtraFields[] = {
"{\"name\": \"NFC ID\","
"\"key\": \"nfc_id\","
"\"field_type\": \"text\"}"
};
String filamentExtraFields[] = {
"{\"name\": \"Nozzle Temp\","
"\"unit\": \"°C\","
"\"field_type\": \"integer_range\","
"\"default_value\": \"[190,230]\","
"\"key\": \"nozzle_temperature\"}",
String filamentExtraFields[] = {
"{\"name\": \"Nozzle Temp\","
"\"unit\": \"°C\","
"\"field_type\": \"integer_range\","
"\"default_value\": \"[190,230]\","
"\"key\": \"nozzle_temperature\"}",
"{\"name\": \"Price/m\","
"\"unit\": \"\","
"\"field_type\": \"float\","
"\"key\": \"price_meter\"}",
"{\"name\": \"Price/m\","
"\"unit\": \"\","
"\"field_type\": \"float\","
"\"key\": \"price_meter\"}",
"{\"name\": \"Price/g\","
"\"unit\": \"\","
"\"field_type\": \"float\","
"\"key\": \"price_gramm\"}",
"{\"name\": \"Bambu Setting ID\","
"\"field_type\": \"text\","
"\"key\": \"bambu_setting_id\"}",
"{\"name\": \"Bambu Cali ID\","
"\"field_type\": \"text\","
"\"key\": \"bambu_cali_id\"}",
"{\"name\": \"Bambu Filament IDX\","
"\"field_type\": \"text\","
"\"key\": \"bambu_idx\"}",
"{\"name\": \"Bambu k\","
"\"field_type\": \"float\","
"\"key\": \"bambu_k\"}",
"{\"name\": \"Bambu Flow Ratio\","
"\"field_type\": \"float\","
"\"key\": \"bambu_flow_ratio\"}",
"{\"name\": \"Bambu Max Vol. Speed\","
"\"unit\": \"mm3/s\","
"\"field_type\": \"integer\","
"\"default_value\": \"12\","
"\"key\": \"bambu_max_volspeed\"}"
};
Serial.println("Überprüfe Extrafelder...");
int urlLength = sizeof(checkUrls) / sizeof(checkUrls[0]);
for (uint8_t i = 0; i < urlLength; i++) {
Serial.println();
Serial.println("-------- Prüfe Felder für "+checkUrls[i]+" --------");
http.begin(checkUrls[i]);
int httpCode = http.GET();
"{\"name\": \"Price/g\","
"\"unit\": \"\","
"\"field_type\": \"float\","
"\"key\": \"price_gramm\"}",
if (httpCode == HTTP_CODE_OK) {
String payload = http.getString();
JsonDocument doc;
DeserializationError error = deserializeJson(doc, payload);
if (!error) {
String* extraFields;
String* extraFieldData;
u16_t extraLength;
"{\"name\": \"Bambu Setting ID\","
"\"field_type\": \"text\","
"\"key\": \"bambu_setting_id\"}",
"{\"name\": \"Bambu Cali ID\","
"\"field_type\": \"text\","
"\"key\": \"bambu_cali_id\"}",
"{\"name\": \"Bambu Filament IDX\","
"\"field_type\": \"text\","
"\"key\": \"bambu_idx\"}",
"{\"name\": \"Bambu k\","
"\"field_type\": \"float\","
"\"key\": \"bambu_k\"}",
"{\"name\": \"Bambu Flow Ratio\","
"\"field_type\": \"float\","
"\"key\": \"bambu_flow_ratio\"}",
"{\"name\": \"Bambu Max Vol. Speed\","
"\"unit\": \"mm3/s\","
"\"field_type\": \"integer\","
"\"default_value\": \"12\","
"\"key\": \"bambu_max_volspeed\"}"
};
Serial.println("Überprüfe Extrafelder...");
int urlLength = sizeof(checkUrls) / sizeof(checkUrls[0]);
for (uint8_t i = 0; i < urlLength; i++) {
Serial.println();
Serial.println("-------- Prüfe Felder für "+checkUrls[i]+" --------");
http.begin(checkUrls[i]);
int httpCode = http.GET();
if (httpCode == HTTP_CODE_OK) {
String payload = http.getString();
JsonDocument doc;
DeserializationError error = deserializeJson(doc, payload);
if (!error) {
String* extraFields;
String* extraFieldData;
u16_t extraLength;
if (i == 0) {
extraFields = spoolExtra;
extraFieldData = spoolExtraFields;
extraLength = sizeof(spoolExtra) / sizeof(spoolExtra[0]);
} else {
extraFields = filamentExtra;
extraFieldData = filamentExtraFields;
extraLength = sizeof(filamentExtra) / sizeof(filamentExtra[0]);
}
for (uint8_t s = 0; s < extraLength; s++) {
bool found = false;
for (JsonObject field : doc.as<JsonArray>()) {
if (field["key"].is<String>() && field["key"] == extraFields[s]) {
Serial.println("Feld gefunden: " + extraFields[s]);
found = true;
break;
}
if (i == 0) {
extraFields = spoolExtra;
extraFieldData = spoolExtraFields;
extraLength = sizeof(spoolExtra) / sizeof(spoolExtra[0]);
} else {
extraFields = filamentExtra;
extraFieldData = filamentExtraFields;
extraLength = sizeof(filamentExtra) / sizeof(filamentExtra[0]);
}
if (!found) {
Serial.println("Feld nicht gefunden: " + extraFields[s]);
// Extrafeld hinzufügen
http.begin(checkUrls[i] + "/" + extraFields[s]);
http.addHeader("Content-Type", "application/json");
int httpCode = http.POST(extraFieldData[s]);
for (uint8_t s = 0; s < extraLength; s++) {
bool found = false;
for (JsonObject field : doc.as<JsonArray>()) {
if (field["key"].is<String>() && field["key"] == extraFields[s]) {
Serial.println("Feld gefunden: " + extraFields[s]);
found = true;
break;
}
}
if (!found) {
Serial.println("Feld nicht gefunden: " + extraFields[s]);
if (httpCode > 0) {
// Antwortscode und -nachricht abrufen
String response = http.getString();
//Serial.println("HTTP-Code: " + String(httpCode));
//Serial.println("Antwort: " + response);
if (httpCode != HTTP_CODE_OK) {
// Extrafeld hinzufügen
http.begin(checkUrls[i] + "/" + extraFields[s]);
http.addHeader("Content-Type", "application/json");
int httpCode = http.POST(extraFieldData[s]);
if (httpCode > 0) {
// Antwortscode und -nachricht abrufen
String response = http.getString();
//Serial.println("HTTP-Code: " + String(httpCode));
//Serial.println("Antwort: " + response);
if (httpCode != HTTP_CODE_OK) {
return false;
}
} else {
// Fehler beim Senden der Anfrage
Serial.println("Fehler beim Senden der Anfrage: " + String(http.errorToString(httpCode)));
return false;
}
} else {
// Fehler beim Senden der Anfrage
Serial.println("Fehler beim Senden der Anfrage: " + String(http.errorToString(httpCode)));
return false;
//http.end();
}
//http.end();
yield();
vTaskDelay(100 / portTICK_PERIOD_MS);
}
yield();
vTaskDelay(100 / portTICK_PERIOD_MS);
}
doc.clear();
}
}
Serial.println("-------- ENDE Prüfe Felder --------");
Serial.println();
http.end();
spoolmanExtraFieldsChecked = true;
return true;
}else{
return true;
}
Serial.println("-------- ENDE Prüfe Felder --------");
Serial.println();
http.end();
return true;
}
bool checkSpoolmanInstance(const String& url) {
bool checkSpoolmanInstance() {
HTTPClient http;
String healthUrl = url + apiUrl + "/health";
bool returnValue = false;
Serial.print("Überprüfe Spoolman-Instanz unter: ");
Serial.println(healthUrl);
// Only do the spoolman instance check if there is no active API request going on
if(spoolmanApiState == API_IDLE){
spoolmanApiState = API_TRANSMITTING;
String healthUrl = spoolmanUrl + apiUrl + "/health";
http.begin(healthUrl);
int httpCode = http.GET();
Serial.print("Checking spoolman instance: ");
Serial.println(healthUrl);
if (httpCode > 0) {
if (httpCode == HTTP_CODE_OK) {
oledShowMessage("Spoolman available");
vTaskDelay(1000 / portTICK_PERIOD_MS);
http.begin(healthUrl);
int httpCode = http.GET();
String payload = http.getString();
JsonDocument doc;
DeserializationError error = deserializeJson(doc, payload);
if (!error && doc["status"].is<String>()) {
const char* status = doc["status"];
http.end();
if (httpCode > 0) {
if (httpCode == HTTP_CODE_OK) {
String payload = http.getString();
JsonDocument doc;
DeserializationError error = deserializeJson(doc, payload);
if (!error && doc["status"].is<String>()) {
const char* status = doc["status"];
http.end();
if (!checkSpoolmanExtraFields()) {
Serial.println("Fehler beim Überprüfen der Extrafelder.");
if (!checkSpoolmanExtraFields()) {
Serial.println("Fehler beim Überprüfen der Extrafelder.");
oledShowMessage("Spoolman Error creating Extrafields");
vTaskDelay(2000 / portTICK_PERIOD_MS);
return false;
// TBD
oledShowMessage("Spoolman Error creating Extrafields");
vTaskDelay(2000 / portTICK_PERIOD_MS);
return false;
}
spoolmanApiState = API_IDLE;
oledShowTopRow();
spoolmanConnected = true;
returnValue = strcmp(status, "healthy") == 0;
}else{
spoolmanConnected = false;
}
spoolmanApiState = API_IDLE;
oledShowTopRow();
return strcmp(status, "healthy") == 0;
doc.clear();
}else{
spoolmanConnected = false;
}
} else {
spoolmanConnected = false;
Serial.println("Error contacting spoolman instance! HTTP Code: " + String(httpCode));
}
http.end();
returnValue = false;
spoolmanApiState = API_IDLE;
}else{
// If the check is skipped, return the previous status
Serial.println("Skipping spoolman healthcheck, API is active.");
returnValue = spoolmanConnected;
}
http.end();
return false;
Serial.println("Healthcheck completed!");
return returnValue;
}
bool saveSpoolmanUrl(const String& url, bool octoOn, const String& octoWh, const String& octoTk) {
if (!checkSpoolmanInstance(url)) return false;
bool saveSpoolmanUrl(const String& url, bool octoOn, const String& octo_url, const String& octoTk) {
Preferences preferences;
preferences.begin(NVS_NAMESPACE_API, false); // false = readwrite
preferences.putString(NVS_KEY_SPOOLMAN_URL, url);
preferences.putBool(NVS_KEY_OCTOPRINT_ENABLED, octoOn);
preferences.putString(NVS_KEY_OCTOPRINT_URL, octo_url);
preferences.putString(NVS_KEY_OCTOPRINT_TOKEN, octoTk);
preferences.end();
JsonDocument doc;
doc["url"] = url;
doc["octoEnabled"] = octoOn;
doc["octoUrl"] = octoWh;
doc["octoToken"] = octoTk;
Serial.print("Speichere Spoolman Data in Datei: ");
Serial.println(doc.as<String>());
if (!saveJsonValue("/spoolman_url.json", doc)) {
Serial.println("Fehler beim Speichern der Spoolman-URL.");
return false;
}
//TBD: This could be handled nicer in the future
spoolmanExtraFieldsChecked = false;
spoolmanUrl = url;
octoEnabled = octoOn;
octoUrl = octoWh;
octoUrl = octo_url;
octoToken = octoTk;
return true;
return checkSpoolmanInstance();
}
String loadSpoolmanUrl() {
JsonDocument doc;
if (loadJsonValue("/spoolman_url.json", doc) && doc["url"].is<String>()) {
octoEnabled = (doc["octoEnabled"].is<bool>()) ? doc["octoEnabled"].as<bool>() : false;
if (octoEnabled && doc["octoToken"].is<String>() && doc["octoUrl"].is<String>())
{
octoUrl = doc["octoUrl"].as<String>();
octoToken = doc["octoToken"].as<String>();
}
return doc["url"].as<String>();
Preferences preferences;
preferences.begin(NVS_NAMESPACE_API, true);
String spoolmanUrl = preferences.getString(NVS_KEY_SPOOLMAN_URL, "");
octoEnabled = preferences.getBool(NVS_KEY_OCTOPRINT_ENABLED, false);
if(octoEnabled)
{
octoUrl = preferences.getString(NVS_KEY_OCTOPRINT_URL, "");
octoToken = preferences.getString(NVS_KEY_OCTOPRINT_TOKEN, "");
}
Serial.println("Keine gültige Spoolman-URL gefunden.");
return "";
preferences.end();
return spoolmanUrl;
}
bool initSpoolman() {
oledShowProgressBar(3, 7, DISPLAY_BOOT_TEXT, "Spoolman init");
spoolmanUrl = loadSpoolmanUrl();
spoolmanUrl.trim();
if (spoolmanUrl == "") {
Serial.println("Keine Spoolman-URL gefunden.");
return false;
}
bool success = checkSpoolmanInstance(spoolmanUrl);
bool success = checkSpoolmanInstance();
if (!success) {
Serial.println("Spoolman nicht erreichbar.");
Serial.println("Spoolman not available");
return false;
}

13
src/api.h
View File

@@ -12,20 +12,31 @@ typedef enum {
API_TRANSMITTING
} spoolmanApiStateType;
typedef enum {
API_REQUEST_OCTO_SPOOL_UPDATE,
API_REQUEST_BAMBU_UPDATE,
API_REQUEST_SPOOL_TAG_ID_UPDATE,
API_REQUEST_SPOOL_WEIGHT_UPDATE,
API_REQUEST_SPOOL_LOCATION_UPDATE
} SpoolmanApiRequestType;
extern volatile spoolmanApiStateType spoolmanApiState;
extern bool spoolman_connected;
extern String spoolmanUrl;
extern bool octoEnabled;
extern bool sendOctoUpdate;
extern String octoUrl;
extern String octoToken;
extern bool spoolmanConnected;
bool checkSpoolmanInstance(const String& url);
bool checkSpoolmanInstance();
bool saveSpoolmanUrl(const String& url, bool octoOn, const String& octoWh, const String& octoTk);
String loadSpoolmanUrl(); // Neue Funktion zum Laden der URL
bool checkSpoolmanExtraFields(); // Neue Funktion zum Überprüfen der Extrafelder
JsonDocument fetchSingleSpoolInfo(int spoolId); // API-Funktion für die Webseite
bool updateSpoolTagId(String uidString, const char* payload); // Neue Funktion zum Aktualisieren eines Spools
uint8_t updateSpoolWeight(String spoolId, uint16_t weight); // Neue Funktion zum Aktualisieren des Gewichts
uint8_t updateSpoolLocation(String spoolId, String location);
bool initSpoolman(); // Neue Funktion zum Initialisieren von Spoolman
bool updateSpoolBambuData(String payload); // Neue Funktion zum Aktualisieren der Bambu-Daten
bool updateSpoolOcto(int spoolId); // Neue Funktion zum Aktualisieren der Octo-Daten

149
src/bambu.cpp
View File

@@ -10,6 +10,7 @@
#include "esp_task_wdt.h"
#include "config.h"
#include "display.h"
#include <Preferences.h>
WiFiClient espClient;
SSLClient sslClient(&espClient);
@@ -17,22 +18,13 @@ PubSubClient client(sslClient);
TaskHandle_t BambuMqttTask;
String topic = "";
//String request_topic = "";
const char* bambu_username = "bblp";
const char* bambu_ip = nullptr;
const char* bambu_accesscode = nullptr;
const char* bambu_serialnr = nullptr;
String g_bambu_ip = "";
String g_bambu_accesscode = "";
String g_bambu_serialnr = "";
bool bambuDisabled = false;
bool bambu_connected = false;
bool autoSendToBambu = false;
int autoSetToBambuSpoolId = 0;
BambuCredentials bambuCredentials;
// Globale Variablen für AMS-Daten
int ams_count = 0;
String amsJsonData; // Speichert das fertige JSON für WebSocket-Clients
@@ -43,18 +35,22 @@ bool removeBambuCredentials() {
vTaskDelete(BambuMqttTask);
}
if (!removeJsonValue("/bambu_credentials.json")) {
Serial.println("Fehler beim Löschen der Bambu-Credentials.");
return false;
}
Preferences preferences;
preferences.begin(NVS_NAMESPACE_BAMBU, false); // false = readwrite
preferences.remove(NVS_KEY_BAMBU_IP);
preferences.remove(NVS_KEY_BAMBU_SERIAL);
preferences.remove(NVS_KEY_BAMBU_ACCESSCODE);
preferences.remove(NVS_KEY_BAMBU_AUTOSEND_ENABLE);
preferences.remove(NVS_KEY_BAMBU_AUTOSEND_TIME);
preferences.end();
// Löschen der globalen Variablen
g_bambu_ip = "";
g_bambu_accesscode = "";
g_bambu_serialnr = "";
bambu_ip = nullptr;
bambu_accesscode = nullptr;
bambu_serialnr = nullptr;
autoSendToBambu = false;
bambuCredentials.ip = "";
bambuCredentials.serial = "";
bambuCredentials.accesscode = "";
bambuCredentials.autosend_enable = false;
bambuCredentials.autosend_time = BAMBU_DEFAULT_AUTOSEND_TIME;
autoSetToBambuSpoolId = 0;
ams_count = 0;
amsJsonData = "";
@@ -68,25 +64,21 @@ bool saveBambuCredentials(const String& ip, const String& serialnr, const String
if (BambuMqttTask) {
vTaskDelete(BambuMqttTask);
}
JsonDocument doc;
doc["bambu_ip"] = ip;
doc["bambu_accesscode"] = accesscode;
doc["bambu_serialnr"] = serialnr;
doc["autoSendToBambu"] = autoSend;
doc["autoSendTime"] = (autoSendTime != "") ? autoSendTime.toInt() : autoSetBambuAmsCounter;
if (!saveJsonValue("/bambu_credentials.json", doc)) {
Serial.println("Fehler beim Speichern der Bambu-Credentials.");
return false;
}
bambuCredentials.ip = ip.c_str();
bambuCredentials.serial = serialnr.c_str();
bambuCredentials.accesscode = accesscode.c_str();
bambuCredentials.autosend_enable = autoSend;
bambuCredentials.autosend_time = autoSendTime.toInt();
// Dynamische Speicherallokation für die globalen Pointer
bambu_ip = ip.c_str();
bambu_accesscode = accesscode.c_str();
bambu_serialnr = serialnr.c_str();
autoSendToBambu = autoSend;
autoSetBambuAmsCounter = autoSendTime.toInt();
Preferences preferences;
preferences.begin(NVS_NAMESPACE_BAMBU, false); // false = readwrite
preferences.putString(NVS_KEY_BAMBU_IP, bambuCredentials.ip);
preferences.putString(NVS_KEY_BAMBU_SERIAL, bambuCredentials.serial);
preferences.putString(NVS_KEY_BAMBU_ACCESSCODE, bambuCredentials.accesscode);
preferences.putBool(NVS_KEY_BAMBU_AUTOSEND_ENABLE, bambuCredentials.autosend_enable);
preferences.putInt(NVS_KEY_BAMBU_AUTOSEND_TIME, bambuCredentials.autosend_time);
preferences.end();
vTaskDelay(100 / portTICK_PERIOD_MS);
if (!setupMqtt()) return false;
@@ -95,35 +87,36 @@ bool saveBambuCredentials(const String& ip, const String& serialnr, const String
}
bool loadBambuCredentials() {
JsonDocument doc;
if (loadJsonValue("/bambu_credentials.json", doc) && doc["bambu_ip"].is<String>()) {
// Temporäre Strings für die Werte
String ip = doc["bambu_ip"].as<String>();
String code = doc["bambu_accesscode"].as<String>();
String serial = doc["bambu_serialnr"].as<String>();
Preferences preferences;
preferences.begin(NVS_NAMESPACE_BAMBU, true);
String ip = preferences.getString(NVS_KEY_BAMBU_IP, "");
String serial = preferences.getString(NVS_KEY_BAMBU_SERIAL, "");
String code = preferences.getString(NVS_KEY_BAMBU_ACCESSCODE, "");
bool autosendEnable = preferences.getBool(NVS_KEY_BAMBU_AUTOSEND_ENABLE, false);
int autosendTime = preferences.getInt(NVS_KEY_BAMBU_AUTOSEND_TIME, BAMBU_DEFAULT_AUTOSEND_TIME);
preferences.end();
g_bambu_ip = ip;
g_bambu_accesscode = code;
g_bambu_serialnr = serial;
if(ip != ""){
bambuCredentials.ip = ip.c_str();
bambuCredentials.serial = serial.c_str();
bambuCredentials.accesscode = code.c_str();
bambuCredentials.autosend_enable = autosendEnable;
bambuCredentials.autosend_time = autosendTime;
if (doc["autoSendToBambu"].is<bool>()) autoSendToBambu = doc["autoSendToBambu"].as<bool>();
if (doc["autoSendTime"].is<int>()) autoSetBambuAmsCounter = doc["autoSendTime"].as<int>();
Serial.println("credentials loaded loadCredentials!");
Serial.println(bambuCredentials.ip);
Serial.println(bambuCredentials.serial);
Serial.println(bambuCredentials.accesscode);
Serial.println(String(bambuCredentials.autosend_enable));
Serial.println(String(bambuCredentials.autosend_time));
ip.trim();
code.trim();
serial.trim();
// Dynamische Speicherallokation für die globalen Pointer
bambu_ip = g_bambu_ip.c_str();
bambu_accesscode = g_bambu_accesscode.c_str();
bambu_serialnr = g_bambu_serialnr.c_str();
topic = "device/" + String(bambu_serialnr);
//request_topic = "device/" + String(bambu_serialnr) + "/request";
return true;
}
Serial.println("Keine gültigen Bambu-Credentials gefunden.");
return false;
else
{
Serial.println("Keine gültigen Bambu-Credentials gefunden.");
return false;
}
}
struct FilamentResult {
@@ -226,7 +219,7 @@ FilamentResult findFilamentIdx(String brand, String type) {
bool sendMqttMessage(const String& payload) {
Serial.println("Sending MQTT message");
Serial.println(payload);
if (client.publish((String(topic) + "/request").c_str(), payload.c_str()))
if (client.publish(("device/"+bambuCredentials.serial+"/request").c_str(), payload.c_str()))
{
return true;
}
@@ -499,7 +492,7 @@ void mqtt_callback(char* topic, byte* payload, unsigned int length) {
trayObj["cali_idx"].as<String>() != ams_data[storedIndex].trays[j].cali_idx) {
hasChanges = true;
if (autoSendToBambu && autoSetToBambuSpoolId > 0 && hasChanges)
if (bambuCredentials.autosend_enable && autoSetToBambuSpoolId > 0 && hasChanges)
{
autoSetSpool(autoSetToBambuSpoolId, ams_data[storedIndex].trays[j].id);
}
@@ -523,7 +516,7 @@ void mqtt_callback(char* topic, byte* payload, unsigned int length) {
(vtTray["tray_type"].as<String>() != "" && vtTray["cali_idx"].as<String>() != ams_data[i].trays[0].cali_idx)) {
hasChanges = true;
if (autoSendToBambu && autoSetToBambuSpoolId > 0 && hasChanges)
if (bambuCredentials.autosend_enable && autoSetToBambuSpoolId > 0 && hasChanges)
{
autoSetSpool(autoSetToBambuSpoolId, 254);
}
@@ -580,11 +573,11 @@ void reconnect() {
oledShowTopRow();
// Attempt to connect
String clientId = String(bambu_serialnr) + "_" + String(random(0, 100));
if (client.connect(clientId.c_str(), bambu_username, bambu_accesscode)) {
String clientId = bambuCredentials.serial + "_" + String(random(0, 100));
if (client.connect(clientId.c_str(), BAMBU_USERNAME, bambuCredentials.accesscode.c_str())) {
Serial.println("MQTT re/connected");
client.subscribe((String(topic) + "/report").c_str());
client.subscribe(("device/"+bambuCredentials.serial+"/report").c_str());
bambu_connected = true;
oledShowTopRow();
} else {
@@ -630,28 +623,24 @@ void mqtt_loop(void * parameter) {
bool setupMqtt() {
// Wenn Bambu Daten vorhanden
bool success = loadBambuCredentials();
//bool success = loadBambuCredentials();
if (!success) {
bambuDisabled = true;
return false;
}
if (success && bambu_ip != "" && bambu_accesscode != "" && bambu_serialnr != "")
if (bambuCredentials.ip != "" && bambuCredentials.accesscode != "" && bambuCredentials.serial != "")
{
oledShowProgressBar(4, 7, DISPLAY_BOOT_TEXT, "Bambu init");
bambuDisabled = false;
sslClient.setCACert(root_ca);
sslClient.setInsecure();
client.setServer(bambu_ip, 8883);
client.setServer(bambuCredentials.ip.c_str(), 8883);
// Verbinden mit dem MQTT-Server
bool connected = true;
String clientId = String(bambu_serialnr) + "_" + String(random(0, 100));
if (client.connect(clientId.c_str(), bambu_username, bambu_accesscode))
String clientId = String(bambuCredentials.serial) + "_" + String(random(0, 100));
if (client.connect(bambuCredentials.ip.c_str(), BAMBU_USERNAME, bambuCredentials.accesscode.c_str()))
{
client.setCallback(mqtt_callback);
client.setBufferSize(15488);
client.subscribe((String(topic) + "/report").c_str());
client.subscribe(("device/"+bambuCredentials.serial+"/report").c_str());
Serial.println("MQTT-Client initialisiert");
oledShowMessage("Bambu Connected");

11
src/bambu.h
View File

@@ -16,6 +16,14 @@ struct TrayData {
String cali_idx;
};
struct BambuCredentials {
String ip;
String serial;
String accesscode;
bool autosend_enable;
int autosend_time;
};
#define MAX_AMS 17 // 16 normale AMS + 1 externe Spule
extern String amsJsonData; // Für die vorbereiteten JSON-Daten
@@ -28,9 +36,10 @@ extern bool bambu_connected;
extern int ams_count;
extern AMSData ams_data[MAX_AMS];
extern bool autoSendToBambu;
//extern bool autoSendToBambu;
extern int autoSetToBambuSpoolId;
extern bool bambuDisabled;
extern BambuCredentials bambuCredentials;
bool removeBambuCredentials();
bool loadBambuCredentials();

10
src/config.cpp
View File

@@ -16,7 +16,6 @@ const uint8_t LOADCELL_DOUT_PIN = 16; //16;
const uint8_t LOADCELL_SCK_PIN = 17; //17;
const uint8_t calVal_eepromAdress = 0;
const uint16_t SCALE_LEVEL_WEIGHT = 500;
uint16_t defaultScaleCalibrationValue = 430;
// ***** HX711
// ***** TTP223 (Touch Sensor)
@@ -26,16 +25,11 @@ const uint8_t TTP223_PIN = 25;
// ***** Display
// Declaration for an SSD1306 display connected to I2C (SDA, SCL pins)
// On an ESP32: 21(SDA), 22(SCL)
const int8_t OLED_RESET = -1; // Reset pin # (or -1 if sharing Arduino reset pin)
const uint8_t SCREEN_ADDRESS = 0x3C; ///< See datasheet for Address; 0x3D for 128x64, 0x3C for 128x32
const uint8_t SCREEN_WIDTH = 128; // OLED display width, in pixels
const uint8_t SCREEN_HEIGHT = 64; // OLED display height, in pixels
const uint8_t OLED_TOP_START = 0;
const uint8_t OLED_TOP_END = 16;
const uint8_t OLED_DATA_START = 17;
const uint8_t OLED_DATA_END = SCREEN_HEIGHT;
// ***** Display
// ***** Webserver
@@ -46,8 +40,6 @@ const uint8_t webserverPort = 80;
const char* apiUrl = "/api/v1";
// ***** API
// ***** Bambu Auto Set Spool
uint8_t autoSetBambuAmsCounter = 60;
// ***** Bambu Auto Set Spool
// ***** Task Prios

40
src/config.h
View File

@@ -3,6 +3,40 @@
#include <Arduino.h>
#define BAMBU_DEFAULT_AUTOSEND_TIME 60
#define NVS_NAMESPACE_API "api"
#define NVS_KEY_SPOOLMAN_URL "spoolmanUrl"
#define NVS_KEY_OCTOPRINT_ENABLED "octoEnabled"
#define NVS_KEY_OCTOPRINT_URL "octoUrl"
#define NVS_KEY_OCTOPRINT_TOKEN "octoToken"
#define NVS_NAMESPACE_BAMBU "bambu"
#define NVS_KEY_BAMBU_IP "bambuIp"
#define NVS_KEY_BAMBU_ACCESSCODE "bambuCode"
#define NVS_KEY_BAMBU_SERIAL "bambuSerial"
#define NVS_KEY_BAMBU_AUTOSEND_ENABLE "autosendEnable"
#define NVS_KEY_BAMBU_AUTOSEND_TIME "autosendTime"
#define NVS_NAMESPACE_SCALE "scale"
#define NVS_KEY_CALIBRATION "cal_value"
#define NVS_KEY_AUTOTARE "auto_tare"
#define SCALE_DEFAULT_CALIBRATION_VALUE 430.0f;
#define BAMBU_USERNAME "bblp"
#define OLED_RESET -1 // Reset pin # (or -1 if sharing Arduino reset pin)
#define SCREEN_ADDRESS 0x3CU // See datasheet for Address; 0x3D for 128x64, 0x3C for 128x32
#define SCREEN_WIDTH 128U
#define SCREEN_HEIGHT 64U
#define SCREEN_TOP_BAR_HEIGHT 16U
#define SCREEN_PROGRESS_BAR_HEIGHT 12U
#define DISPLAY_BOOT_TEXT "FilaMan"
#define WIFI_CHECK_INTERVAL 60000U
#define DISPLAY_UPDATE_INTERVAL 1000U
#define SPOOLMAN_HEALTHCHECK_INTERVAL 60000U
extern const uint8_t PN532_IRQ;
extern const uint8_t PN532_RESET;
@@ -13,10 +47,6 @@ extern const uint16_t SCALE_LEVEL_WEIGHT;
extern const uint8_t TTP223_PIN;
extern const int8_t OLED_RESET;
extern const uint8_t SCREEN_ADDRESS;
extern const uint8_t SCREEN_WIDTH;
extern const uint8_t SCREEN_HEIGHT;
extern const uint8_t OLED_TOP_START;
extern const uint8_t OLED_TOP_END;
extern const uint8_t OLED_DATA_START;
@@ -25,7 +55,7 @@ extern const uint8_t OLED_DATA_END;
extern const char* apiUrl;
extern const uint8_t webserverPort;
extern uint8_t autoSetBambuAmsCounter;
extern const unsigned char wifi_on[];
extern const unsigned char wifi_off[];

12
src/debug.h Normal file
View File

@@ -0,0 +1,12 @@
#include <Arduino.h>
#ifdef ENABLE_HEAP_DEBUGGING
#define HEAP_DEBUG_MESSAGE(location) printHeapDebugData(location);
#else
#define HEAP_DEBUG_MESSAGE(location)
#endif
inline void printHeapDebugData(const char *location){
Serial.println("Heap: " + String(ESP.getMinFreeHeap()/1024) + "\t" + String(ESP.getFreeHeap()/1024) + "\t" + String(ESP.getMaxAllocHeap()/1024) + "\t" + location);
}

94
src/display.cpp
View File

@@ -2,10 +2,12 @@
#include "api.h"
#include <vector>
#include "icons.h"
#include "main.h"
Adafruit_SSD1306 display(SCREEN_WIDTH, SCREEN_HEIGHT, &Wire, OLED_RESET);
bool wifiOn = false;
bool iconToggle = false;
void setupDisplay() {
if (!display.begin(SSD1306_SWITCHCAPVCC, SCREEN_ADDRESS)) {
@@ -14,15 +16,10 @@ void setupDisplay() {
}
display.setTextColor(WHITE);
display.clearDisplay();
display.display();
// Show initial display buffer contents on the screen --
// the library initializes this with an Adafruit splash screen.
display.setTextColor(WHITE);
display.display();
oledShowTopRow();
oledShowMessage("FilaMan v" + String(VERSION));
vTaskDelay(2000 / portTICK_PERIOD_MS);
oledShowProgressBar(0, 7, DISPLAY_BOOT_TEXT, "Display init");
}
void oledclearline() {
@@ -45,14 +42,14 @@ void oledcleardata() {
//display.display();
}
int oled_center_h(String text) {
int oled_center_h(const String &text) {
int16_t x1, y1;
uint16_t w, h;
display.getTextBounds(text, 0, 0, &x1, &y1, &w, &h);
return (SCREEN_WIDTH - w) / 2;
}
int oled_center_v(String text) {
int oled_center_v(const String &text) {
int16_t x1, y1;
uint16_t w, h;
display.getTextBounds(text, 0, OLED_DATA_START, &x1, &y1, &w, &h);
@@ -60,7 +57,7 @@ int oled_center_v(String text) {
return OLED_DATA_START + ((OLED_DATA_END - OLED_DATA_START - h) / 2);
}
std::vector<String> splitTextIntoLines(String text, uint8_t textSize) {
std::vector<String> splitTextIntoLines(const String &text, uint8_t textSize) {
std::vector<String> lines;
display.setTextSize(textSize);
@@ -120,7 +117,7 @@ std::vector<String> splitTextIntoLines(String text, uint8_t textSize) {
return lines;
}
void oledShowMultilineMessage(String message, uint8_t size) {
void oledShowMultilineMessage(const String &message, uint8_t size) {
std::vector<String> lines;
int maxLines = 3; // Maximale Anzahl Zeilen für size 2
@@ -148,7 +145,7 @@ void oledShowMultilineMessage(String message, uint8_t size) {
display.display();
}
void oledShowMessage(String message, uint8_t size) {
void oledShowMessage(const String &message, uint8_t size) {
oledcleardata();
display.setTextSize(size);
display.setTextWrap(false);
@@ -171,22 +168,46 @@ void oledShowMessage(String message, uint8_t size) {
void oledShowTopRow() {
oledclearline();
if (bambu_connected == 1) {
display.drawBitmap(50, 0, bitmap_bambu_on , 16, 16, WHITE);
} else {
display.drawBitmap(50, 0, bitmap_off , 16, 16, WHITE);
}
display.setTextSize(1);
display.setCursor(0, 4);
display.print("v");
display.print(VERSION);
if (spoolmanApiState != API_INIT) {
display.drawBitmap(80, 0, bitmap_spoolman_on , 16, 16, WHITE);
} else {
display.drawBitmap(80, 0, bitmap_off , 16, 16, WHITE);
}
iconToggle = !iconToggle;
if (wifiOn == 1) {
display.drawBitmap(107, 0, wifi_on , 16, 16, WHITE);
} else {
display.drawBitmap(107, 0, wifi_off , 16, 16, WHITE);
// Do not show status indicators during boot
if(!booting){
if(bambuDisabled == false) {
if (bambu_connected == 1) {
display.drawBitmap(50, 0, bitmap_bambu_on , 16, 16, WHITE);
} else {
if(iconToggle){
display.drawBitmap(50, 0, bitmap_bambu_on , 16, 16, WHITE);
display.drawLine(50, 15, 66, 0, WHITE);
display.drawLine(51, 15, 67, 0, WHITE);
}
}
}
if (spoolmanConnected) {
display.drawBitmap(80, 0, bitmap_spoolman_on , 16, 16, WHITE);
} else {
if(iconToggle){
display.drawBitmap(80, 0, bitmap_spoolman_on , 16, 16, WHITE);
display.drawLine(80, 15, 96, 0, WHITE);
display.drawLine(81, 15, 97, 0, WHITE);
}
}
if (wifiOn == 1) {
display.drawBitmap(107, 0, wifi_on , 16, 16, WHITE);
} else {
if(iconToggle){
display.drawBitmap(107, 0, wifi_on , 16, 16, WHITE);
display.drawLine(107, 15, 123, 0, WHITE);
display.drawLine(108, 15, 124, 0, WHITE);
}
}
}
display.display();
@@ -214,6 +235,27 @@ void oledShowIcon(const char* icon) {
display.display();
}
void oledShowProgressBar(const uint8_t step, const uint8_t numSteps, const char* largeText, const char* statusMessage){
assert(step <= numSteps);
// clear data and bar area
display.fillRect(0, OLED_DATA_START, SCREEN_WIDTH, SCREEN_HEIGHT-16, BLACK);
display.setTextWrap(false);
display.setTextSize(2);
display.setCursor(0, OLED_DATA_START+4);
display.print(largeText);
display.setTextSize(1);
display.setCursor(0, OLED_DATA_END-SCREEN_PROGRESS_BAR_HEIGHT-10);
display.print(statusMessage);
const int barLength = ((SCREEN_WIDTH-2)*step)/numSteps;
display.drawRoundRect(0, SCREEN_HEIGHT-SCREEN_PROGRESS_BAR_HEIGHT, SCREEN_WIDTH, 12, 6, WHITE);
display.fillRoundRect(1, SCREEN_HEIGHT-SCREEN_PROGRESS_BAR_HEIGHT+1, barLength, 10, 6, WHITE);
display.display();
}
void oledShowWeight(uint16_t weight) {
// Display Gewicht
oledcleardata();

8
src/display.h
View File

@@ -13,11 +13,13 @@ extern bool wifiOn;
void setupDisplay();
void oledclearline();
void oledcleardata();
int oled_center_h(String text);
int oled_center_v(String text);
int oled_center_h(const String &text);
int oled_center_v(const String &text);
void oledShowProgressBar(const uint8_t step, const uint8_t numSteps, const char* largeText, const char* statusMessage);
void oledShowWeight(uint16_t weight);
void oledShowMessage(String message, uint8_t size = 2);
void oledShowMessage(const String &message, uint8_t size = 2);
void oledShowTopRow();
void oledShowIcon(const char* icon);

157
src/main.cpp
View File

@@ -16,6 +16,7 @@
bool mainTaskWasPaused = 0;
uint8_t scaleTareCounter = 0;
bool touchSensorConnected = false;
bool booting = true;
// ##### SETUP #####
void setup() {
@@ -63,6 +64,7 @@ void setup() {
bool panic = true; // Wenn true, löst ein WDT-Timeout einen System-Panik aus
esp_task_wdt_init(10, panic);
booting = false;
// Aktuellen Task (loopTask) zum Watchdog hinzufügen
esp_task_wdt_add(NULL);
}
@@ -95,7 +97,8 @@ int16_t lastWeight = 0;
// WIFI check variables
unsigned long lastWifiCheckTime = 0;
const unsigned long wifiCheckInterval = 60000; // Überprüfe alle 60 Sekunden (60000 ms)
unsigned long lastTopRowUpdateTime = 0;
unsigned long lastSpoolmanHealcheckTime = 0;
// Button debounce variables
unsigned long lastButtonPress = 0;
@@ -113,13 +116,25 @@ void loop() {
}
// Überprüfe regelmäßig die WLAN-Verbindung
if (intervalElapsed(currentMillis, lastWifiCheckTime, wifiCheckInterval))
if (intervalElapsed(currentMillis, lastWifiCheckTime, WIFI_CHECK_INTERVAL))
{
checkWiFiConnection();
}
// Periodic display update
if (intervalElapsed(currentMillis, lastTopRowUpdateTime, DISPLAY_UPDATE_INTERVAL))
{
oledShowTopRow();
}
// Periodic spoolman health check
if (intervalElapsed(currentMillis, lastSpoolmanHealcheckTime, SPOOLMAN_HEALTHCHECK_INTERVAL))
{
checkSpoolmanInstance();
}
// Wenn Bambu auto set Spool aktiv
if (autoSendToBambu && autoSetToBambuSpoolId > 0)
if (bambuCredentials.autosend_enable && autoSetToBambuSpoolId > 0)
{
if (!bambuDisabled && !bambu_connected)
{
@@ -131,10 +146,10 @@ void loop() {
if (nfcReaderState == NFC_IDLE)
{
lastAutoSetBambuAmsTime = currentMillis;
oledShowMessage("Auto Set " + String(autoSetBambuAmsCounter - autoAmsCounter) + "s");
oledShowMessage("Auto Set " + String(bambuCredentials.autosend_time - autoAmsCounter) + "s");
autoAmsCounter++;
if (autoAmsCounter >= autoSetBambuAmsCounter)
if (autoAmsCounter >= bambuCredentials.autosend_time)
{
autoSetToBambuSpoolId = 0;
autoAmsCounter = 0;
@@ -148,88 +163,92 @@ void loop() {
}
}
// Wenn Waage nicht Kalibriert
if (scaleCalibrated == 3)
// If scale is not calibrated, only show a warning
if (!scaleCalibrated)
{
oledShowMessage("Scale not calibrated!");
vTaskDelay(5000 / portTICK_PERIOD_MS);
yield();
esp_task_wdt_reset();
return;
}
// Ausgabe der Waage auf Display
if(pauseMainTask == 0)
{
if (mainTaskWasPaused || (weight != lastWeight && nfcReaderState == NFC_IDLE && (!autoSendToBambu || autoSetToBambuSpoolId == 0)))
{
(weight < 2) ? ((weight < -2) ? oledShowMessage("!! -0") : oledShowWeight(0)) : oledShowWeight(weight);
// Do not show the warning if the calibratin process is onging
if(!scaleCalibrationActive){
oledShowMessage("Scale not calibrated");
vTaskDelay(1000 / portTICK_PERIOD_MS);
}
mainTaskWasPaused = false;
}
else
{
mainTaskWasPaused = true;
}
// Wenn Timer abgelaufen und nicht gerade ein RFID-Tag geschrieben wird
if (currentMillis - lastWeightReadTime >= weightReadInterval && nfcReaderState < NFC_WRITING)
{
lastWeightReadTime = currentMillis;
// Prüfen ob die Waage korrekt genullt ist
// Abweichung von 2g ignorieren
if (autoTare && (weight > 2 && weight < 7) || weight < -2)
}else{
// Ausgabe der Waage auf Display
if(pauseMainTask == 0)
{
scale_tare_counter++;
if (mainTaskWasPaused || (weight != lastWeight && nfcReaderState == NFC_IDLE && (!bambuCredentials.autosend_enable || autoSetToBambuSpoolId == 0)))
{
(weight < 2) ? ((weight < -2) ? oledShowMessage("!! -0") : oledShowWeight(0)) : oledShowWeight(weight);
}
mainTaskWasPaused = false;
}
else
{
scale_tare_counter = 0;
mainTaskWasPaused = true;
}
// Prüfen ob das Gewicht gleich bleibt und dann senden
if (abs(weight - lastWeight) <= 2 && weight > 5)
// Wenn Timer abgelaufen und nicht gerade ein RFID-Tag geschrieben wird
if (currentMillis - lastWeightReadTime >= weightReadInterval && nfcReaderState < NFC_WRITING)
{
weigthCouterToApi++;
}
else
lastWeightReadTime = currentMillis;
// Prüfen ob die Waage korrekt genullt ist
// Abweichung von 2g ignorieren
if (autoTare && (weight > 2 && weight < 7) || weight < -2)
{
scale_tare_counter++;
}
else
{
scale_tare_counter = 0;
}
// Prüfen ob das Gewicht gleich bleibt und dann senden
if (abs(weight - lastWeight) <= 2 && weight > 5)
{
weigthCouterToApi++;
}
else
{
weigthCouterToApi = 0;
weightSend = 0;
}
}
// reset weight counter after writing tag
// TBD: what exactly is the logic behind this?
if (currentMillis - lastWeightReadTime >= weightReadInterval && nfcReaderState != NFC_IDLE && nfcReaderState != NFC_READ_SUCCESS)
{
weigthCouterToApi = 0;
weightSend = 0;
}
}
lastWeight = weight;
// reset weight counter after writing tag
// TBD: what exactly is the logic behind this?
if (currentMillis - lastWeightReadTime >= weightReadInterval && nfcReaderState != NFC_IDLE && nfcReaderState != NFC_READ_SUCCESS)
{
weigthCouterToApi = 0;
}
lastWeight = weight;
// Wenn ein Tag mit SM id erkannte wurde und der Waage Counter anspricht an SM Senden
if (activeSpoolId != "" && weigthCouterToApi > 3 && weightSend == 0 && nfcReaderState == NFC_READ_SUCCESS && tagProcessed == false && spoolmanApiState == API_IDLE) {
// set the current tag as processed to prevent it beeing processed again
tagProcessed = true;
// Wenn ein Tag mit SM id erkannte wurde und der Waage Counter anspricht an SM Senden
if (spoolId != "" && weigthCouterToApi > 3 && weightSend == 0 && nfcReaderState == NFC_READ_SUCCESS) {
oledShowIcon("loading");
if (updateSpoolWeight(spoolId, weight))
{
oledShowIcon("success");
vTaskDelay(2000 / portTICK_PERIOD_MS);
weightSend = 1;
autoSetToBambuSpoolId = spoolId.toInt();
if (updateSpoolWeight(activeSpoolId, weight))
{
weightSend = 1;
}
else
{
oledShowIcon("failed");
vTaskDelay(2000 / portTICK_PERIOD_MS);
}
}
if (octoEnabled)
if(sendOctoUpdate && spoolmanApiState == API_IDLE){
autoSetToBambuSpoolId = activeSpoolId.toInt();
if(octoEnabled)
{
updateSpoolOcto(autoSetToBambuSpoolId);
}
}
else
{
oledShowIcon("failed");
vTaskDelay(2000 / portTICK_PERIOD_MS);
sendOctoUpdate = false;
}
}

9
src/main.h Normal file
View File

@@ -0,0 +1,9 @@
#ifndef MAIN_H
#define MAIN_H
#include <Arduino.h>
extern bool booting;
#endif

183
src/nfc.cpp
View File

@@ -7,6 +7,8 @@
#include "api.h"
#include "esp_task_wdt.h"
#include "scale.h"
#include "bambu.h"
#include "main.h"
//Adafruit_PN532 nfc(PN532_SCK, PN532_MISO, PN532_MOSI, PN532_SS);
Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
@@ -14,9 +16,18 @@ Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
TaskHandle_t RfidReaderTask;
JsonDocument rfidData;
String spoolId = "";
String activeSpoolId = "";
String lastSpoolId = "";
String nfcJsonData = "";
bool tagProcessed = false;
volatile bool pauseBambuMqttTask = false;
volatile bool nfcReadingTaskSuspendRequest = false;
volatile bool nfcReadingTaskSuspendState = false;
struct NfcWriteParameterType {
bool tagType;
char* payload;
};
volatile nfcReaderStateType nfcReaderState = NFC_IDLE;
// 0 = nicht gelesen
@@ -64,6 +75,8 @@ void payloadToJson(uint8_t *data) {
Serial.print("deserializeJson() failed: ");
Serial.println(error.f_str());
}
doc.clear();
} else {
Serial.println("Kein gültiger JSON-Inhalt gefunden oder fehlerhafte Formatierung.");
//writeJsonToTag("{\"version\":\"1.0\",\"protocol\":\"NFC\",\"color_hex\":\"#FFFFFF\",\"type\":\"Example\",\"min_temp\":10,\"max_temp\":30,\"brand\":\"BrandName\"}");
@@ -192,6 +205,8 @@ uint8_t ntag2xx_WriteNDEF(const char *payload) {
}
bool decodeNdefAndReturnJson(const byte* encodedMessage) {
oledShowProgressBar(1, octoEnabled?5:4, "Reading", "Decoding data");
byte typeLength = encodedMessage[3];
byte payloadLength = encodedMessage[4];
@@ -215,52 +230,79 @@ bool decodeNdefAndReturnJson(const byte* encodedMessage) {
}
else
{
// Sende die aktualisierten AMS-Daten an alle WebSocket-Clients
Serial.println("JSON-Dokument erfolgreich verarbeitet");
Serial.println(doc.as<String>());
if (doc["sm_id"] != "")
{
Serial.println("SPOOL-ID gefunden: " + doc["sm_id"].as<String>());
spoolId = doc["sm_id"].as<String>();
}
else
{
Serial.println("Keine SPOOL-ID gefunden.");
spoolId = "";
oledShowMessage("Unknown Spool");
vTaskDelay(2000 / portTICK_PERIOD_MS);
// If spoolman is unavailable, there is no point in continuing
if(spoolmanConnected){
// Sende die aktualisierten AMS-Daten an alle WebSocket-Clients
Serial.println("JSON-Dokument erfolgreich verarbeitet");
Serial.println(doc.as<String>());
if (doc["sm_id"].is<String>() && doc["sm_id"] != "")
{
oledShowProgressBar(2, octoEnabled?5:4, "Spool Tag", "Weighing");
Serial.println("SPOOL-ID gefunden: " + doc["sm_id"].as<String>());
activeSpoolId = doc["sm_id"].as<String>();
lastSpoolId = activeSpoolId;
}
else if(doc["location"].is<String>() && doc["location"] != "")
{
Serial.println("Location Tag found!");
String location = doc["location"].as<String>();
if(lastSpoolId != ""){
updateSpoolLocation(lastSpoolId, location);
}
else
{
Serial.println("Location update tag scanned without scanning spool before!");
oledShowProgressBar(1, 1, "Failure", "Scan spool first");
}
}
else
{
Serial.println("Keine SPOOL-ID gefunden.");
activeSpoolId = "";
oledShowProgressBar(1, 1, "Failure", "Unkown tag");
}
}else{
oledShowProgressBar(octoEnabled?5:4, octoEnabled?5:4, "Failure!", "Spoolman unavailable");
}
}
doc.clear();
return true;
}
void writeJsonToTag(void *parameter) {
const char* payload = (const char*)parameter;
NfcWriteParameterType* params = (NfcWriteParameterType*)parameter;
// Gib die erstellte NDEF-Message aus
Serial.println("Erstelle NDEF-Message...");
Serial.println(payload);
Serial.println(params->payload);
nfcReaderState = NFC_WRITING;
vTaskSuspend(RfidReaderTask);
vTaskDelay(50 / portTICK_PERIOD_MS);
// First request the reading task to be suspended and than wait until it responds
nfcReadingTaskSuspendRequest = true;
while(nfcReadingTaskSuspendState == false){
vTaskDelay(100 / portTICK_PERIOD_MS);
}
//pauseBambuMqttTask = true;
// aktualisieren der Website wenn sich der Status ändert
sendNfcData(nullptr);
sendNfcData();
vTaskDelay(100 / portTICK_PERIOD_MS);
oledShowMessage("Waiting for NFC-Tag");
// Wait 10sec for tag
uint8_t success = 0;
String uidString = "";
for (uint16_t i = 0; i < 20; i++) {
uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 }; // Buffer to store the returned UID
uint8_t uidLength;
success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength, 500);
// yield before potentially waiting for 400ms
yield();
esp_task_wdt_reset();
success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength, 400);
if (success) {
for (uint8_t i = 0; i < uidLength; i++) {
//TBD: Rework to remove all the string operations
uidString += String(uid[i], HEX);
if (i < uidLength - 1) {
uidString += ":"; // Optional: Trennzeichen hinzufügen
@@ -270,8 +312,6 @@ void writeJsonToTag(void *parameter) {
break;
}
if (i == 0) oledShowMessage("Waiting for NFC-Tag");
yield();
esp_task_wdt_reset();
vTaskDelay(pdMS_TO_TICKS(1));
@@ -279,29 +319,37 @@ void writeJsonToTag(void *parameter) {
if (success)
{
oledShowIcon("transfer");
oledShowProgressBar(1, 3, "Write Tag", "Writing");
// Schreibe die NDEF-Message auf den Tag
success = ntag2xx_WriteNDEF(payload);
success = ntag2xx_WriteNDEF(params->payload);
if (success)
{
Serial.println("NDEF-Message erfolgreich auf den Tag geschrieben");
//oledShowMessage("NFC-Tag written");
oledShowIcon("success");
vTaskDelay(1000 / portTICK_PERIOD_MS);
//vTaskDelay(1000 / portTICK_PERIOD_MS);
nfcReaderState = NFC_WRITE_SUCCESS;
// aktualisieren der Website wenn sich der Status ändert
sendNfcData(nullptr);
sendNfcData();
pauseBambuMqttTask = false;
if (updateSpoolTagId(uidString, payload)) {
uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 }; // Buffer to store the returned UID
uint8_t uidLength;
oledShowIcon("success");
while (nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength, 500)) {
yield();
if(params->tagType){
// TBD: should this be simplified?
if (updateSpoolTagId(uidString, params->payload) && params->tagType) {
}else{
// Potentially handle errors
}
}else{
oledShowProgressBar(1, 1, "Write Tag", "Done!");
}
uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 }; // Buffer to store the returned UID
uint8_t uidLength;
yield();
esp_task_wdt_reset();
while (nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength, 400)) {
yield();
}
vTaskResume(RfidReaderTask);
vTaskDelay(500 / portTICK_PERIOD_MS);
}
@@ -316,34 +364,40 @@ void writeJsonToTag(void *parameter) {
else
{
Serial.println("Fehler: Kein Tag zu schreiben gefunden.");
oledShowMessage("No NFC-Tag found");
oledShowProgressBar(1, 1, "Failure!", "No tag found");
vTaskDelay(2000 / portTICK_PERIOD_MS);
nfcReaderState = NFC_IDLE;
}
sendWriteResult(nullptr, success);
sendNfcData(nullptr);
sendNfcData();
vTaskResume(RfidReaderTask);
nfcReadingTaskSuspendRequest = false;
pauseBambuMqttTask = false;
vTaskDelete(NULL);
}
void startWriteJsonToTag(const char* payload) {
char* payloadCopy = strdup(payload);
void startWriteJsonToTag(const bool isSpoolTag, const char* payload) {
NfcWriteParameterType* parameters = new NfcWriteParameterType();
parameters->tagType = isSpoolTag;
parameters->payload = strdup(payload);
// Task nicht mehrfach starten
if (nfcReaderState != NFC_WRITING) {
if (nfcReaderState == NFC_IDLE || nfcReaderState == NFC_READ_ERROR || nfcReaderState == NFC_READ_SUCCESS) {
oledShowProgressBar(0, 1, "Write Tag", "Place tag now");
// Erstelle die Task
xTaskCreate(
writeJsonToTag, // Task-Funktion
"WriteJsonToTagTask", // Task-Name
5115, // Stackgröße in Bytes
(void*)payloadCopy, // Parameter
(void*)parameters, // Parameter
rfidWriteTaskPrio, // Priorität
NULL // Task-Handle (nicht benötigt)
);
}else{
oledShowProgressBar(0, 1, "FAILURE", "NFC busy!");
// TBD: Add proper error handling (website)
}
}
@@ -351,28 +405,34 @@ void scanRfidTask(void * parameter) {
Serial.println("RFID Task gestartet");
for(;;) {
// Wenn geschrieben wird Schleife aussetzen
if (nfcReaderState != NFC_WRITING)
if (nfcReaderState != NFC_WRITING && !nfcReadingTaskSuspendRequest && !booting)
{
nfcReadingTaskSuspendState = false;
yield();
uint8_t success;
uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 }; // Buffer to store the returned UID
uint8_t uidLength;
success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength, 1000);
success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength, 500);
foundNfcTag(nullptr, success);
if (success && nfcReaderState != NFC_READ_SUCCESS)
// As long as there is still a tag on the reader, do not try to read it again
if (success && nfcReaderState == NFC_IDLE)
{
// Set the current tag as not processed
tagProcessed = false;
// Display some basic information about the card
Serial.println("Found an ISO14443A card");
nfcReaderState = NFC_READING;
oledShowIcon("transfer");
vTaskDelay(500 / portTICK_PERIOD_MS);
oledShowProgressBar(0, octoEnabled?5:4, "Reading", "Detecting tag");
//vTaskDelay(500 / portTICK_PERIOD_MS);
if (uidLength == 7)
{
uint16_t tagSize = readTagSize();
@@ -404,8 +464,7 @@ void scanRfidTask(void * parameter) {
if (!decodeNdefAndReturnJson(data))
{
oledShowMessage("NFC-Tag unknown");
vTaskDelay(2000 / portTICK_PERIOD_MS);
oledShowProgressBar(1, 1, "Failure", "Unknown tag");
nfcReaderState = NFC_READ_ERROR;
}
else
@@ -417,42 +476,50 @@ void scanRfidTask(void * parameter) {
}
else
{
oledShowMessage("NFC-Tag read error");
oledShowProgressBar(1, 1, "Failure", "Tag read error");
nfcReaderState = NFC_READ_ERROR;
}
}
else
{
//TBD: Show error here?!
oledShowProgressBar(1, 1, "Failure", "Unkown tag type");
Serial.println("This doesn't seem to be an NTAG2xx tag (UUID length != 7 bytes)!");
}
}
if (!success && nfcReaderState != NFC_IDLE)
if (!success && nfcReaderState != NFC_IDLE && !nfcReadingTaskSuspendRequest)
{
nfcReaderState = NFC_IDLE;
//uidString = "";
nfcJsonData = "";
activeSpoolId = "";
Serial.println("Tag entfernt");
if (!autoSendToBambu) oledShowWeight(weight);
if (!bambuCredentials.autosend_enable) oledShowWeight(weight);
}
// aktualisieren der Website wenn sich der Status ändert
sendNfcData(nullptr);
sendNfcData();
}
else
{
nfcReadingTaskSuspendState = true;
Serial.println("NFC Reading disabled");
vTaskDelay(1000 / portTICK_PERIOD_MS);
}
yield();
}
}
void startNfc() {
oledShowProgressBar(5, 7, DISPLAY_BOOT_TEXT, "NFC init");
nfc.begin(); // Beginne Kommunikation mit RFID Leser
delay(1000);
unsigned long versiondata = nfc.getFirmwareVersion(); // Lese Versionsnummer der Firmware aus
if (! versiondata) { // Wenn keine Antwort kommt
Serial.println("Kann kein RFID Board finden !"); // Sende Text "Kann kein..." an seriellen Monitor
//delay(5000);
//ESP.restart();
oledShowMessage("No RFID Board found");
delay(2000);
vTaskDelay(2000 / portTICK_PERIOD_MS);
}
else {
Serial.print("Chip PN5 gefunden"); Serial.println((versiondata >> 24) & 0xFF, HEX); // Sende Text und Versionsinfos an seriellen

6
src/nfc.h
View File

@@ -15,13 +15,15 @@ typedef enum{
void startNfc();
void scanRfidTask(void * parameter);
void startWriteJsonToTag(const char* payload);
void startWriteJsonToTag(const bool isSpoolTag, const char* payload);
extern TaskHandle_t RfidReaderTask;
extern String nfcJsonData;
extern String spoolId;
extern String activeSpoolId;
extern String lastSpoolId;
extern volatile nfcReaderStateType nfcReaderState;
extern volatile bool pauseBambuMqttTask;
extern bool tagProcessed;

2
src/ota.cpp
View File

@@ -224,7 +224,7 @@ void handleUpdate(AsyncWebServer &server) {
static int lastProgress = -1;
if (currentProgress != lastProgress && (currentProgress % 10 == 0 || final)) {
sendUpdateProgress(currentProgress, "uploading");
oledShowMessage("Update: " + String(currentProgress) + "%");
oledShowProgressBar(currentProgress, 100, "Update", "Download");
vTaskDelay(50 / portTICK_PERIOD_MS);
lastProgress = currentProgress;
}

78
src/scale.cpp
View File

@@ -17,13 +17,9 @@ uint8_t weigthCouterToApi = 0;
uint8_t scale_tare_counter = 0;
bool scaleTareRequest = false;
uint8_t pauseMainTask = 0;
uint8_t scaleCalibrated = 1;
Preferences preferences;
const char* NVS_NAMESPACE = "scale";
const char* NVS_KEY_CALIBRATION = "cal_value";
const char* NVS_KEY_AUTOTARE = "auto_tare";
bool scaleCalibrated;
bool autoTare = true;
bool scaleCalibrationActive = false;
// ##### Funktionen für Waage #####
uint8_t setAutoTare(bool autoTareValue) {
@@ -32,7 +28,8 @@ uint8_t setAutoTare(bool autoTareValue) {
autoTare = autoTareValue;
// Speichern mit NVS
preferences.begin(NVS_NAMESPACE, false); // false = readwrite
Preferences preferences;
preferences.begin(NVS_NAMESPACE_SCALE, false); // false = readwrite
preferences.putBool(NVS_KEY_AUTOTARE, autoTare);
preferences.end();
@@ -74,7 +71,11 @@ void scale_loop(void * parameter) {
scaleTareRequest = false;
}
weight = round(scale.get_units());
// Only update weight if median changed more than 1
int16_t newWeight = round(scale.get_units());
if(abs(weight-newWeight) > 1){
weight = newWeight;
}
}
vTaskDelay(pdMS_TO_TICKS(100));
@@ -86,8 +87,15 @@ void start_scale(bool touchSensorConnected) {
float calibrationValue;
// NVS lesen
preferences.begin(NVS_NAMESPACE, true); // true = readonly
calibrationValue = preferences.getFloat(NVS_KEY_CALIBRATION, defaultScaleCalibrationValue);
Preferences preferences;
preferences.begin(NVS_NAMESPACE_SCALE, true); // true = readonly
if(preferences.isKey(NVS_KEY_CALIBRATION)){
calibrationValue = preferences.getFloat(NVS_KEY_CALIBRATION);
scaleCalibrated = true;
}else{
calibrationValue = SCALE_DEFAULT_CALIBRATION_VALUE;
scaleCalibrated = false;
}
// auto Tare
// Wenn Touch Sensor verbunden, dann autoTare auf false setzen
@@ -102,19 +110,7 @@ void start_scale(bool touchSensorConnected) {
scale.begin(LOADCELL_DOUT_PIN, LOADCELL_SCK_PIN);
if (isnan(calibrationValue) || calibrationValue < 1) {
calibrationValue = defaultScaleCalibrationValue;
scaleCalibrated = 0;
oledShowMessage("Scale not calibrated!");
for (uint16_t i = 0; i < 50000; i++) {
yield();
vTaskDelay(pdMS_TO_TICKS(1));
esp_task_wdt_reset();
}
}
oledShowMessage("Scale Tare Please remove all");
oledShowProgressBar(6, 7, DISPLAY_BOOT_TEXT, "Tare scale");
for (uint16_t i = 0; i < 2000; i++) {
yield();
vTaskDelay(pdMS_TO_TICKS(1));
@@ -151,6 +147,8 @@ uint8_t calibrate_scale() {
uint8_t returnState = 0;
float newCalibrationValue;
scaleCalibrationActive = true;
vTaskSuspend(RfidReaderTask);
vTaskSuspend(ScaleTask);
@@ -161,7 +159,7 @@ uint8_t calibrate_scale() {
{
scale.set_scale();
oledShowMessage("Step 1 empty Scale");
oledShowProgressBar(0, 3, "Scale Cal.", "Empty Scale");
for (uint16_t i = 0; i < 5000; i++) {
yield();
@@ -173,7 +171,7 @@ uint8_t calibrate_scale() {
Serial.println("Tare done...");
Serial.print("Place a known weight on the scale...");
oledShowMessage("Step 2 Place the weight");
oledShowProgressBar(1, 3, "Scale Cal.", "Place the weight");
for (uint16_t i = 0; i < 5000; i++) {
yield();
@@ -193,21 +191,20 @@ uint8_t calibrate_scale() {
Serial.println(newCalibrationValue);
// Speichern mit NVS
preferences.begin(NVS_NAMESPACE, false); // false = readwrite
Preferences preferences;
preferences.begin(NVS_NAMESPACE_SCALE, false); // false = readwrite
preferences.putFloat(NVS_KEY_CALIBRATION, newCalibrationValue);
preferences.end();
// Verifizieren
preferences.begin(NVS_NAMESPACE, true);
preferences.begin(NVS_NAMESPACE_SCALE, true);
float verifyValue = preferences.getFloat(NVS_KEY_CALIBRATION, 0);
preferences.end();
Serial.print("Verified stored value: ");
Serial.println(verifyValue);
Serial.println("End calibration, remove weight");
oledShowMessage("Remove weight");
oledShowProgressBar(2, 3, "Scale Cal.", "Remove weight");
scale.set_scale(newCalibrationValue);
for (uint16_t i = 0; i < 2000; i++) {
@@ -216,7 +213,7 @@ uint8_t calibrate_scale() {
esp_task_wdt_reset();
}
oledShowMessage("Scale calibrated");
oledShowProgressBar(3, 3, "Scale Cal.", "Completed");
// For some reason it is not possible to re-tare the scale here, it will result in a wdt timeout. Instead let the scale loop do the taring
//scale.tare();
@@ -228,23 +225,21 @@ uint8_t calibrate_scale() {
esp_task_wdt_reset();
}
scaleCalibrated = true;
returnState = 1;
}
else
{
{
Serial.println("Calibration value is invalid. Please recalibrate.");
Serial.println("Calibration value is invalid. Please recalibrate.");
oledShowMessage("Calibration ERROR Try again");
oledShowProgressBar(3, 3, "Failure", "Calibration error");
for (uint16_t i = 0; i < 50000; i++) {
yield();
vTaskDelay(pdMS_TO_TICKS(1));
esp_task_wdt_reset();
}
returnState = 0;
for (uint16_t i = 0; i < 50000; i++) {
yield();
vTaskDelay(pdMS_TO_TICKS(1));
esp_task_wdt_reset();
}
returnState = 0;
}
}
else
@@ -265,6 +260,7 @@ uint8_t calibrate_scale() {
vTaskResume(ScaleTask);
pauseBambuMqttTask = false;
pauseMainTask = 0;
scaleCalibrationActive = false;
return returnState;
}

3
src/scale.h
View File

@@ -15,8 +15,9 @@ extern uint8_t weigthCouterToApi;
extern uint8_t scale_tare_counter;
extern uint8_t scaleTareRequest;
extern uint8_t pauseMainTask;
extern uint8_t scaleCalibrated;
extern bool scaleCalibrated;
extern bool autoTare;
extern bool scaleCalibrationActive;
extern TaskHandle_t ScaleTask;

55
src/website.cpp
View File

@@ -10,6 +10,9 @@
#include <Update.h>
#include "display.h"
#include "ota.h"
#include "config.h"
#include "debug.h"
#ifndef VERSION
#define VERSION "1.1.0"
@@ -26,13 +29,18 @@ nfcReaderStateType lastnfcReaderState = NFC_IDLE;
void onWsEvent(AsyncWebSocket *server, AsyncWebSocketClient *client, AwsEventType type, void *arg, uint8_t *data, size_t len) {
HEAP_DEBUG_MESSAGE("onWsEvent begin");
if (type == WS_EVT_CONNECT) {
Serial.println("Neuer Client verbunden!");
// Sende die AMS-Daten an den neuen Client
if (!bambuDisabled) sendAmsData(client);
sendNfcData(client);
sendNfcData();
foundNfcTag(client, 0);
sendWriteResult(client, 3);
// Clean up dead connections
(*server).cleanupClients();
Serial.println("Currently connected number of clients: " + String((*server).getClients().size()));
} else if (type == WS_EVT_DISCONNECT) {
Serial.println("Client getrennt.");
} else if (type == WS_EVT_ERROR) {
@@ -44,8 +52,6 @@ void onWsEvent(AsyncWebSocket *server, AsyncWebSocketClient *client, AwsEventTyp
JsonDocument doc;
deserializeJson(doc, message);
bool spoolmanConnected = (spoolmanApiState != API_INIT);
if (doc["type"] == "heartbeat") {
// Sende Heartbeat-Antwort
ws.text(client->id(), "{"
@@ -61,7 +67,8 @@ void onWsEvent(AsyncWebSocket *server, AsyncWebSocketClient *client, AwsEventTyp
// Versuche NFC-Daten zu schreiben
String payloadString;
serializeJson(doc["payload"], payloadString);
startWriteJsonToTag(payloadString.c_str());
startWriteJsonToTag((doc["tagType"] == "spool") ? true : false, payloadString.c_str());
}
}
@@ -113,7 +120,9 @@ void onWsEvent(AsyncWebSocket *server, AsyncWebSocketClient *client, AwsEventTyp
else {
Serial.println("Unbekannter WebSocket-Typ: " + doc["type"].as<String>());
}
doc.clear();
}
HEAP_DEBUG_MESSAGE("onWsEvent end");
}
// Funktion zum Laden und Ersetzen des Headers in einer HTML-Datei
@@ -140,11 +149,11 @@ void sendWriteResult(AsyncWebSocketClient *client, uint8_t success) {
void foundNfcTag(AsyncWebSocketClient *client, uint8_t success) {
if (success == lastSuccess) return;
ws.textAll("{\"type\":\"nfcTag\", \"payload\":{\"found\": " + String(success) + "}}");
sendNfcData(nullptr);
sendNfcData();
lastSuccess = success;
}
void sendNfcData(AsyncWebSocketClient *client) {
void sendNfcData() {
if (lastnfcReaderState == nfcReaderState) return;
// TBD: Why is there no status for reading the tag?
switch(nfcReaderState){
@@ -179,6 +188,7 @@ void sendAmsData(AsyncWebSocketClient *client) {
}
void setupWebserver(AsyncWebServer &server) {
oledShowProgressBar(2, 7, DISPLAY_BOOT_TEXT, "Webserver init");
// Deaktiviere alle Debug-Ausgaben
Serial.setDebugOutput(false);
@@ -195,6 +205,9 @@ void setupWebserver(AsyncWebServer &server) {
Serial.print("Geladene Spoolman-URL: ");
Serial.println(spoolmanUrl);
// Load Bamb credentials:
loadBambuCredentials();
// Route für about
server.on("/about", HTTP_GET, [](AsyncWebServerRequest *request){
Serial.println("Anfrage für /about erhalten");
@@ -254,31 +267,11 @@ void setupWebserver(AsyncWebServer &server) {
html.replace("{{spoolmanOctoUrl}}", (octoUrl != "") ? octoUrl : "");
html.replace("{{spoolmanOctoToken}}", (octoToken != "") ? octoToken : "");
JsonDocument doc;
if (loadJsonValue("/bambu_credentials.json", doc) && doc["bambu_ip"].is<String>())
{
String bambuIp = doc["bambu_ip"].as<String>();
String bambuSerial = doc["bambu_serialnr"].as<String>();
String bambuCode = doc["bambu_accesscode"].as<String>();
autoSendToBambu = doc["autoSendToBambu"].as<bool>();
bambuIp.trim();
bambuSerial.trim();
bambuCode.trim();
html.replace("{{bambuIp}}", bambuIp ? bambuIp : "");
html.replace("{{bambuSerial}}", bambuSerial ? bambuSerial : "");
html.replace("{{bambuCode}}", bambuCode ? bambuCode : "");
html.replace("{{autoSendToBambu}}", autoSendToBambu ? "checked" : "");
html.replace("{{autoSendTime}}", String(autoSetBambuAmsCounter));
}
else
{
html.replace("{{bambuIp}}", "");
html.replace("{{bambuSerial}}", "");
html.replace("{{bambuCode}}", "");
html.replace("{{autoSendToBambu}}", "");
html.replace("{{autoSendTime}}", String(autoSetBambuAmsCounter));
}
html.replace("{{bambuIp}}", bambuCredentials.ip);
html.replace("{{bambuSerial}}", bambuCredentials.serial);
html.replace("{{bambuCode}}", bambuCredentials.accesscode ? bambuCredentials.accesscode : "");
html.replace("{{autoSendToBambu}}", bambuCredentials.autosend_enable ? "checked" : "");
html.replace("{{autoSendTime}}", (bambuCredentials.autosend_time != 0) ? String(bambuCredentials.autosend_time) : String(BAMBU_DEFAULT_AUTOSEND_TIME));
request->send(200, "text/html", html);
});

2
src/website.h
View File

@@ -24,7 +24,7 @@ void setupWebserver(AsyncWebServer &server);
// WebSocket-Funktionen
void sendAmsData(AsyncWebSocketClient *client);
void sendNfcData(AsyncWebSocketClient *client);
void sendNfcData();
void foundNfcTag(AsyncWebSocketClient *client, uint8_t success);
void sendWriteResult(AsyncWebSocketClient *client, uint8_t success);

6
src/wlan.cpp
View File

@@ -61,8 +61,7 @@ void initWiFi() {
wm.setWiFiAutoReconnect(true);
wm.setConnectTimeout(10);
oledShowTopRow();
oledShowMessage("WiFi Setup");
oledShowProgressBar(1, 7, DISPLAY_BOOT_TEXT, "WiFi init");
//bool res = wm.autoConnect("FilaMan"); // anonymous ap
if(!wm.autoConnect("FilaMan")) {
@@ -80,9 +79,6 @@ void initWiFi() {
Serial.println(WiFi.localIP());
oledShowTopRow();
display.display();
vTaskDelay(500 / portTICK_PERIOD_MS);
// mDNS
startMDNS();