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248 Commits

Author SHA1 Message Date
Roy02 2945a82a42 chore: comment out unnecessary print messages 2025-09-02 10:44:25 +08:00
Roy02 f609cdb34b feat: PELv2.0 120bytes 2025-08-29 17:29:12 +08:00
Roy02 2d1c52a9f3 feat: 1. decode 120bytes data
2. update PELv3.0 5-channel data
2025-08-28 17:26:47 +08:00
Roy02 f89c146e7d feat: new PEL_FMT2_DataDecoder 2025-08-28 10:29:54 +08:00
peterlu14 87208b87df -Add PEL3.0 json 2025-07-02 09:37:19 +08:00
Roy 3386418d98 style: revert ControlAPI function code 2025-06-12 15:21:08 +08:00
peterlu14 9e6cf34327 - Add MMM json lib 2025-06-12 14:35:26 +08:00
Roy 792a1c0751 fix: fix device_update_calibration Error 2025-05-29 17:43:46 +08:00
Roy 76cf6bbbe7 fix: fix ble_write on Dev Mode 2025-05-29 17:23:40 +08:00
Roy f82e77dc86 style: remove ControlAPI function code 2025-05-29 17:12:52 +08:00
Roy 6ba784c54a style: remove TDC4VCDataDecoder code 2025-05-29 11:58:32 +08:00
Roy 970d5d0f08 style: remove TDC4VAF2DataDecoder code 2025-05-29 11:42:20 +08:00
Roy d085514b2a style: remove TC4VAF2DataDecoder code 2025-05-29 11:23:27 +08:00
Roy 7c8163ccab style: remove NulDataDecoder code 2025-05-28 17:29:12 +08:00
Roy 29104de6a2 style: remove TDBC4VCTHDataDecoder code 2025-05-28 16:29:38 +08:00
Roy 1e71c147c7 fix: fix I4V4Z4T4DataDecoder & EISZeroOneDataDecoder 2025-05-28 16:16:54 +08:00
Roy 58636ed9fc style: remove NeuliveThreeOneDataDecoder code 2025-05-28 14:57:10 +08:00
Roy 593a2eaecb style: remove redundant code 2025-05-28 14:52:20 +08:00
Roy ce7a9ff66d style: clean up comments 2025-05-27 16:59:17 +08:00
Roy 6319328016 refactor: rename BMD380DataDecoder to PEL_FMT1_DataDecoder 2025-05-19 13:45:03 +08:00
Roy 2f8ff09b58 fix: correct DEV_MODE version read error 2025-05-19 11:43:02 +08:00
Roy 0958988f39 fix: fix the data count in SELECT RESISTOR mode 2025-03-18 14:37:03 +08:00
Roy a290121721 feat: 1. update scan_mode_notify_packet_t data
2. add mode_complete to allow mode to stop automatically
2025-03-18 11:22:52 +08:00
Roy c5e46f1566 feat: 1. update NOTIFY_DATA to 10
2. update scan_mode decoder
2025-03-17 17:44:42 +08:00
peterlu14 e6c21be5e2 Fix auto finish error 2025-03-14 09:54:27 +08:00
Roy 053ba7cc84 [feat] updated all mode instruction 2025-03-13 09:57:51 +08:00
peterlu14 1270c7961e [feat] support R-external calibration mode in decoder 2025-03-12 16:34:33 +08:00
Roy 175a150a8e [feat] new R-external calibration mode instruction 2025-03-12 15:25:57 +08:00
peterlu14 7fef5d3f40 -add IOPH&IOPL channnels 2025-03-12 15:12:10 +08:00
Roy aa2c0b3d23 [update] updated PELv2.0 manual_scan_mode and auto_scan_mode instruction 2025-02-21 10:15:19 +08:00
peterlu14 92a04b24ec update IOPL instruction 2025-02-17 13:46:13 +08:00
peterlu14 7dc5551ccd Add IOPH & IOPL Mode 2025-02-17 13:33:20 +08:00
peterlu14 75b72e8745 update start_IOPH instruction 2025-02-17 09:39:16 +08:00
peterlu14 959d43e382 -Update stop instruction 2025-02-06 15:14:39 +08:00
peterlu14 62cb7f24ef Add new mode for PEL 2025-01-22 14:00:18 +08:00
peterlu14 6111492c02 - Add tag data function
- Modify PEL_2.0_json
- Remove checkSum
- change section data way to support float & int data
2024-12-27 17:53:38 +08:00
peterlu14 58bfc86572 - Fixed parameter value string error 2024-10-04 11:59:28 +08:00
peterlu14 febba59c37 - Fix Elite_2.0 ble_write
- Fix Pel_2.0 parameters
2024-10-01 15:09:23 +08:00
peterlu14 b8f39e984b - Add pulse_e_load_2.0 lib 2024-10-01 11:48:25 +08:00
peterlu14 59585507a5 - Fix missing parameter ADC_VALUE_I 2024-09-20 09:45:35 +08:00
peterlu14 f9f15457cf change default parameter 2024-09-11 16:47:34 +08:00
peterlu14 cf62cfbe04 - Add coundown instruction 2024-09-11 10:00:00 +08:00
peterlu14 33697af99c - Add countdown internal instruction for device 2024-09-11 09:59:24 +08:00
peterlu14 985e043ca5 - Complete CPG 1.1 parameters & instructions 2024-09-10 16:04:48 +08:00
peterlu14 8fd119f4f0 support float domain parameter 2024-09-10 16:04:14 +08:00
peterlu14 b5bd64bf6c - BLE_WRITE change instruction type to ALL 2024-08-21 17:42:05 +08:00
peterlu14 241296f36c -Enable TYPE ALL Instruction 2024-08-21 17:40:58 +08:00
peterlu14 f46073a46a -CPG BLE_WRITE extend to 255 bytes 2024-08-21 14:55:28 +08:00
peterlu14 24fd5ca28b -Extension of list parameter parse rule
-Fix the list paratmeter change with changing it's length
2024-08-21 14:42:36 +08:00
peterlu14 288f261abe - Add CPG library 2024-07-31 15:02:29 +08:00
peterlu14 a32267f1fd update pulse_e_load json 2024-07-30 10:27:58 +08:00
Roy c89c6e88d0 update EDC1.5r2 library and new EDC2.0 library 2024-03-05 17:07:52 +08:00
peterlu14 536bc23896 -update stop update battery when device running 2023-11-21 16:28:40 +08:00
Roy 7deb709946 [update] print msg when connection fail 2023-07-17 17:37:14 +08:00
Roy 25267411d8 [update] fix connect & write function 2023-07-10 13:00:06 +08:00
peterlu14 200feead76 - update cycle default 1 2023-07-05 17:45:49 +08:00
Roy f445550b4e [update] update write gatt and fix read value of dev tool 2023-06-29 13:39:17 +08:00
Roy dfbbfe4e07 [update] set ram status register = 0x41 2023-06-26 17:34:45 +08:00
Roy 57e5c1a9e2 [update] fix eis mini calibration 2023-06-20 15:27:50 +08:00
Roy ba192ccce8 [update] print something debug info 2023-06-20 12:28:20 +08:00
peterlu14 aae1ab7a33 -update send instruction when trigger channel used 2023-06-14 12:02:35 +08:00
Roy 59148cff6d Feat(#6): new instruction of all output mode
https://www.notion.so/6-TRIG-s-All-output-mode-c382a9f88a444185873dbb62a7deee1a
2023-06-14 11:01:15 +08:00
Roy c9b10fc6aa [update] TRIG json 2023-06-13 13:23:58 +08:00
peterlu14 f82c3ab033 - add new mode 2023-06-13 09:51:43 +08:00
peterlu14 3884fad006 -update trigger 2023-06-13 09:33:31 +08:00
peterlu14 75ca525f36 -add trigger dev mode 2023-05-15 11:30:04 +08:00
Roy 9bb947f8e0 Refactor(#4): optimize scan function
https://www.notion.so/4-Controller-Uart-451f896953eb4e15bd70eeadb17eb94e
2023-04-26 22:50:15 +08:00
Roy fc4f931f9d Refactor(#4): fix battery and elite version info
https://www.notion.so/4-Controller-Uart-451f896953eb4e15bd70eeadb17eb94e
2023-04-21 17:50:06 +08:00
Roy 57ba7ed94f Refactor(#4): fix uart fun, and connect 5 times
https://www.notion.so/4-Controller-Uart-451f896953eb4e15bd70eeadb17eb94e
2023-04-21 16:15:44 +08:00
Roy cf8433c7ee Refactor(#3): fix cali version byte
https://www.notion.so/3-EIS-Controller-EIS-Controller-check-sum-5426fe5ccb024a9da73770bed559df65
2023-04-21 15:16:33 +08:00
Roy 4d1eee6893 Refactor(#4): fix instruction
https://www.notion.so/4-Controller-Uart-451f896953eb4e15bd70eeadb17eb94e
2023-04-21 14:55:48 +08:00
Roy 7a77c4d413 Refactor(#3): calibration data use CRC and cali version
https://www.notion.so/3-EIS-Controller-EIS-Controller-check-sum-5426fe5ccb024a9da73770bed559df65
2023-04-20 23:42:36 +08:00
Roy 6f8d68f476 Style: uart formatting 2023-04-20 23:37:42 +08:00
Roy 8ae45d3b50 Style: uart formatting 2023-04-20 23:28:32 +08:00
Roy 5e4980a1d5 Refactor(#4): optimize write/read function
https://www.notion.so/4-Controller-Uart-451f896953eb4e15bd70eeadb17eb94e
2023-04-20 22:56:07 +08:00
Roy 7716908a3b Refactor(#4): optimize disconnect function
https://www.notion.so/4-Controller-Uart-451f896953eb4e15bd70eeadb17eb94e
2023-04-20 22:41:52 +08:00
Roy 813ff7bc7d Refactor(#4): optimize connect function
https://www.notion.so/4-Controller-Uart-451f896953eb4e15bd70eeadb17eb94e
2023-04-20 20:22:32 +08:00
Roy c2224ed624 Refactor(#4): optimize scan function
https://www.notion.so/4-Controller-Uart-451f896953eb4e15bd70eeadb17eb94e
2023-04-20 20:20:40 +08:00
Roy 72943c3b6f Style: uart formatting 2023-04-20 18:20:52 +08:00
Roy 4d47d07996 Refactor(4): uart data reserve len, optimize chk memboard
https://www.notion.so/4-Controller-Uart-451f896953eb4e15bd70eeadb17eb94e
2023-04-20 18:00:22 +08:00
peterlu14 2fdcef998f - change calibration column type bytea 2023-04-19 10:37:15 +08:00
peterlu14 2b6381fa46 - devices table add new column calibration version
- save calibration info into db compare with cali version
2023-04-18 16:12:34 +08:00
Roy c29d9729ba [update] controller receive cali data when mem connect device 2023-04-17 10:32:17 +08:00
Roy 001905ec96 [update] fix scan error 2023-04-17 10:27:28 +08:00
Roy 5033381e64 [update] receive 21 cali package 2023-04-11 12:16:48 +08:00
Roy aa88201a93 [update] up to 8 hstia 2023-04-11 12:16:01 +08:00
Roy c02c59345b [update] update cali package 2023-04-10 18:07:53 +08:00
peterlu14 0386cf1847 Merge remote-tracking branch 'origin/release/update_eis_cali_fomula' into dev/scheduler_folder 2023-04-06 10:52:17 +08:00
peterlu14 62d8610191 - fix UnboundLocalError : 'project_meta_id' 2023-04-06 10:51:43 +08:00
Roy 991f5d06ea [update] use 4hstia calibration down 2023-04-06 09:06:05 +08:00
peterlu14 55711285e6 - update create meta project info change from data-server to control-server 2023-03-31 13:14:33 +08:00
peterlu14 3ec5fee43b - update create collection table
- init project then create folder
2023-03-31 13:14:29 +08:00
Roy 614a9c0b0f [update] hstia pA->nA & hsrtia_b is 8bytes 2023-03-31 10:16:50 +08:00
Roy 22eb8a09f4 [update] fix hsrtia_a & hsrtia_b & hsrtia_c Negative number error 2023-03-22 16:52:40 +08:00
Roy dbd7431124 [update] hsrtia_a & hsrtia_b & hsrtia_c receive from elite is 5bytes 2023-03-22 13:39:14 +08:00
Roy 15c15275a7 [update] update AC_AMP defalut value 2023-03-21 16:04:27 +08:00
Roy 836d75b77e [update] new idle mode (eis1.0) 2023-03-21 16:02:49 +08:00
Roy 417bdd91a4 [update] update librery parameter:CA_VOLT 2023-03-08 10:09:06 +08:00
Roy 62ee763e2c [update] update EDC decoder 2023-03-07 17:55:00 +08:00
Roy 44e9e4cb67 [update] update BAT library 2023-03-07 17:43:41 +08:00
Roy 38537563fd [update] new idle mode 2023-01-09 17:27:03 +08:00
Roy 375372996d [update] update TRIG local name pattern 2023-01-07 16:55:03 +08:00
Roy d79491db8b [update] optimize connection 2023-01-07 11:00:44 +08:00
peterlu14 5a35da98ac [update] trigger json add parameter TIME_DURATION 2023-01-03 15:31:55 +08:00
peterlu14 9c054bd733 [update] change table name project_report -> project_reports & project_meta -> project_metas 2022-12-28 13:21:00 +08:00
peterlu14 64412f9376 [update] change meta_project_info to project_meta & alter table project_meta column cycle type string to jsonb 2022-12-28 11:13:37 +08:00
peterlu14 97034d6b32 [update] remove README $ text & add apache2 install 2022-12-22 09:39:44 +00:00
peterlu14 f065bad826 delete db first controller info 2022-12-20 11:31:35 +08:00
peterlu14 9c1dafd003 [debug] fix create project log error 2022-12-19 11:06:53 +08:00
Roy 03443ada99 [update] take EIS_AC_AMP parameter error 2022-12-07 14:20:30 +08:00
Roy 17dc5470e7 Merge remote-tracking branch 'origin/dev/scheduler_log' into dev/fix_Amp_cali 2022-12-02 17:44:13 +08:00
peterlu14 695f37c2dd [update] gitignore log 2022-12-01 15:18:47 +08:00
peterlu14 690f859e86 [update] idle fix & scheduler log & cycle count 2022-12-01 15:18:04 +08:00
Roy 0ed4d0594a [update] print something 2022-11-29 14:44:00 +08:00
peterlu14 959d86c0fe [update] fix eis highz default error 2022-11-28 10:41:08 +08:00
peterlu14 24c07a7fa5 [update] EDC1.5re, EIS1.1, EISMini support idle instruction 2022-11-28 10:18:34 +08:00
peterlu14 e43857a5bc [update] add idle instruction 2022-11-28 10:13:08 +08:00
peterlu14 c084f29f06 [update] add script to auto update db columns & python pacakges 2022-11-16 16:27:12 +08:00
peterlu14 130d260add Update README.md 2022-11-16 06:30:19 +00:00
peterlu14 575d5d8af1 [update] rolloff_cali from cutoff_freq/1e5 to hsrtia_c[gain] 2022-11-16 13:37:51 +08:00
peterlu14 fbf6297047 Merge remote-tracking branch 'origin/dev/update_eis_parameter' into dev/scheduler_cf 2022-11-16 13:34:17 +08:00
Roy c540013d19 [update] new cf mode 2022-11-16 11:51:15 +08:00
Roy 7f0b00a323 [update] update highz instruction 2022-11-15 17:28:51 +08:00
Roy 4828c85668 [update] clean up eis parameter 2022-11-15 16:08:43 +08:00
Roy 4ce9fe5b8d [update] remove ADC_LEVEL_V_IN_15 parameter 2022-11-15 16:08:09 +08:00
Roy d74f09254e [update] update high z status 2022-11-15 16:07:58 +08:00
Roy 79ecff69cc [update] update VT_MEASURE_VIN_RANGE parameter 2022-11-15 16:03:06 +08:00
Roy df45126ead [update] update CA_VOLT parameter 2022-11-15 16:00:53 +08:00
Roy 9fade3469a [update] update CV_SCAN_RATE parameter 2022-11-15 15:51:42 +08:00
Roy a77331176c [update] update CV_E2 parameter 2022-11-15 15:47:49 +08:00
Roy 8f98337267 [update] update CV_E1 parameter 2022-11-15 15:44:42 +08:00
Roy 205d39cb11 [update] update CV_E_INITIAL parameter 2022-11-15 15:41:38 +08:00
Roy a5ea3243fa [update] new lprtia function 2022-11-15 15:39:31 +08:00
peterlu14 2edf28c7ba Merge branch 'release/v1.6.8/sqlAlchemy+projectTable' into dev/scheduler_idle_mode 2022-11-15 15:35:06 +08:00
peterlu14 5531dcc0f0 [update] add MetaProjectInfo table 2022-11-15 15:34:27 +08:00
peterlu14 b20d46daa8 [update] add new mode idle & project stop condition change 2022-11-15 13:23:49 +08:00
Roy 789d9b3a81 [update] fix hstia gain 2022-11-15 11:51:16 +08:00
Roy 0d0427ed14 [update] receive hsrtia & lprtia gain level 2022-11-09 17:19:48 +08:00
Roy d434509c5b [update] new hsrtia function 2022-11-09 16:03:45 +08:00
Roy 787d76d48c [update] update eis instruction 2022-11-08 17:55:20 +08:00
Roy 50f2432088 [update] update number of mode 2022-11-08 17:28:03 +08:00
Roy 1cff19ac58 [update] update GENERAL_HS_RTIA parameter 2022-11-08 16:13:20 +08:00
Roy baef447c0e [update] update EIS_AVERAGE_NUM parameter 2022-11-08 15:57:52 +08:00
Roy ee9c13d4c5 [update] update EIS_DELAY parameter 2022-11-08 15:44:57 +08:00
Roy 9076f2f10b [update] update EIS_SCALE parameter 2022-11-08 15:36:22 +08:00
Roy 9b2e2964b0 [update] update EIS_PPD parameter 2022-11-08 14:49:07 +08:00
Roy 2622109c89 [update] update EIS_FREQ parameter 2022-11-08 14:35:32 +08:00
Roy a3fe6b87af [update] update EIS_AC_AMP parameter 2022-11-08 14:24:07 +08:00
Roy 64419ca1c5 [update] update EIS_DC_BIAS parameter 2022-11-08 14:17:31 +08:00
Roy 7d77c44741 [update] update EIS_FREQ parameter 2022-11-08 12:09:42 +08:00
Roy 29b4dd5cc7 [update] update EIS_FREQ parameter 2022-11-08 12:07:49 +08:00
Roy f151ae6fce [update] delete FREQ_START & FREQ_STOP parameter 2022-11-08 11:08:01 +08:00
peterlu14 e535e3d2b1 Merge remote-tracking branch 'origin/EIS_10test' into release/v1.7.0/fix_EIS_freq-RT 2022-11-08 09:38:19 +08:00
10 06c36aa737 Merge remote-tracking branch 'origin/dev/RT_mode' into EIS_10test 2022-11-07 16:54:28 +08:00
10 402022c451 cutoff freq 2022-11-07 16:44:54 +08:00
peterlu14 c0bb567bf7 [update] binding project info with meta file & create running project table with sqlAlchemy 2022-11-02 11:12:55 +08:00
Roy 4daff72d39 [update] update RT mode 2022-10-27 17:43:16 +08:00
Roy f99719832a [update] short instruction for RT mode 2022-10-27 17:13:38 +08:00
Roy 58e09bfcda [update] hide mem board message 2022-10-26 10:23:50 +08:00
Roy 55780514b9 [update] new RT mode 2022-10-26 10:23:12 +08:00
peterlu14 936514871f [update] timeout 3 -> 5 2022-10-18 11:23:53 +08:00
peterlu14 f25d9221c6 Merge branch 'release/v1.6.9/fix_phase_90ToN90' into release/v1.6.7/scheduler_debug 2022-10-14 10:53:40 +08:00
peterlu14 2ee9fa6b19 [update] project device change 2022-10-14 10:52:41 +08:00
10 fcc39dbfed Merge branch 'release/v1.6.9/fix_phase_90ToN90' into EIS_10test 2022-10-13 15:28:39 +08:00
10 e2f7bba961 fix phase in PEIS mode 2022-10-13 15:27:27 +08:00
10 1174d54bc0 fix phase in PEIS mode 2022-10-13 15:13:00 +08:00
peterlu14 bff75dc49e Merge commit '35912f614e7283bb4b8df5355952162fea9a9395' into release/v1.6.9/fix_phase_90ToN90 2022-10-12 17:18:49 +08:00
peterlu14 35912f614e [update] EIS Mini vt mode add 2022-10-12 17:18:14 +08:00
10 cfc4e39c8a force raw phase and raw phase - ideal phase stay in [90, -90) in PEIS mode 2022-10-12 16:41:55 +08:00
10 8c4916d1e8 fix phase calibration 2022-10-11 17:19:40 +08:00
Roy e3c252f204 [update] FREQ 133333 2022-10-05 11:58:37 +08:00
Roy c2164da48b [update] new vt mode on EIS 2022-10-05 11:16:09 +08:00
Roy ab2d746afb Merge branch 'release/v1.6.7/scheduler_cycle' into release/v1.6.7/scheduler_debug 2022-10-05 10:57:53 +08:00
Roy 8a870a860a [update] socket listen 3 -> 20 2022-10-05 10:57:30 +08:00
Roy f4c5cf0135 [update] socket timeout 1s -> 3s 2022-10-04 13:53:53 +08:00
Roy 1f01fd3b9b [update] count +1 when start 2022-10-04 13:53:30 +08:00
Roy d1fe388c27 [debug] fix multi device in one project stop problem 2022-10-04 13:42:03 +08:00
Roy 91d5e73c5e [debug] fix after task run equal error 2022-10-04 13:41:37 +08:00
Roy d1b6c2892f [debug] configurations key error 2022-10-04 13:18:38 +08:00
Roy 4243a13536 Merge remote-tracking branch 'origin/dev/fix_no_data' into release/v1.6.7/scheduler_debug 2022-09-30 10:58:41 +08:00
Roy 97188abff8 [update] uart write timeout 0.01 -> 1 2022-09-30 10:56:47 +08:00
Roy 9d8178d11a [update] add project cycle 2022-09-30 10:56:37 +08:00
Roy bbde653a8e [update] update cali value 2022-09-28 14:50:22 +08:00
Roy 6c0cef7925 [update] test function: print mem board info 2022-09-27 14:38:00 +08:00
Roy 3bbf0c912a [update] test function: print mem board info 2022-09-27 13:41:32 +08:00
Roy 4333958ebe [update] fix eis's FREQ default value 2022-09-16 17:49:28 +08:00
Roy 3239a691e3 [update] test function: print ram info 2022-09-16 13:12:40 +08:00
Roy 30183788d8 [update] test function: print ram info 2022-09-14 18:12:53 +08:00
Roy 13df921b1c [update] test function: print ram info 2022-09-14 17:14:47 +08:00
Roy d182a04ed3 [update] add channel data 2022-09-14 15:36:01 +08:00
Roy 35a09ff9a0 [update] switch mode set default highz & time_duration in Elite_EDC 2022-09-06 18:51:32 +08:00
Roy e134b9780c [update] add new api set_project & add new condition until_button_trigger & add new action idle 2022-09-06 16:28:38 +08:00
peterlu14 df39f241b3 [update] add battery 2022-08-22 19:57:02 +08:00
peterlu14 0b72ac0c9d Merge branch 'dev/scheduler_cycle' into release/v1.6.6/merge_scheduler 2022-08-22 17:42:57 +08:00
JayC319 0afbe66229 [update] edc 1.5 library 2022-08-22 13:58:39 +08:00
108000207 9846cfd708 [update] set _time_interval as 0.1 to avoid delay 2022-08-19 15:44:51 +08:00
108000207 b4ad2a7fba [update] remove useless comments 2022-08-18 17:51:51 +08:00
108000207 675fdc2226 [update] cycle_next use uuid version 2022-08-18 17:39:59 +08:00
108000207 a847b1222d [debug] fix the bug of first task can't idle 2022-08-17 15:51:29 +08:00
108000207 bd0c36923a [update] scheduler cycle version 1 2022-08-17 11:50:22 +08:00
peterlu14 612785f51a [update] EIS show data 2022-08-16 19:40:27 +08:00
peterlu14 7dbf09e9a5 [update] EIS show data 2022-08-16 19:39:06 +08:00
peterlu14 ee64d43de1 [update] ca instruction b0 -> D3 2022-08-16 19:31:33 +08:00
peterlu14 60b91f0c1e [update] EIS add show data 2022-08-16 19:15:04 +08:00
Roy 8ac01bdf54 [update] update eis library 2022-08-16 19:10:18 +08:00
JayC319 0f90b16b6e [update] library product number 2022-08-16 17:35:06 +08:00
peterlu14 cd98a14e84 [debug] fix idle send instruction & remove deepcopy & close task by device 2022-08-16 14:25:37 +08:00
peterlu14 2e97ad23eb [debug] fix parameter empty 2022-08-16 12:11:35 +08:00
108000207 e0dd5a6972 [update] add schdeuler cycle attribute 2022-08-16 11:34:47 +08:00
Roy 76e0a150d1 Merge remote-tracking branch 'origin/dev/Cali_mode' into dev/cc_cp_separate 2022-08-15 18:11:20 +08:00
JayC319 ecd4b9325d [update] 2022-08-15 18:09:40 +08:00
peterlu14 978b1254f0 Merge branch 'dev/debug' into dev/cc_cp_separate 2022-08-11 13:53:13 +08:00
peterlu14 26e02f2d40 [update] add data_show function print device data 2022-08-11 00:58:30 +08:00
peterlu14 ead98fe8da [debug] fix running_task is None bug 2022-08-10 14:03:04 +08:00
Roy 257958768f [update] new ca mode instruvtion 2022-08-05 18:34:33 +08:00
peterlu14 dc4e1bd233 Merge branch 'dev/fix_final_data_loss' into dev/cc_cp_separate 2022-08-05 10:27:33 +08:00
peterlu14 42025d2243 [update] fix cp mode voltage problem 2022-08-05 10:26:13 +08:00
Roy b341dbf073 [update] update instruction of cp mode 2022-08-04 18:12:23 +08:00
Roy 20f6f126b0 [update] fix STEP_TIME para 2022-08-04 16:48:51 +08:00
Roy bf4a00db1a [update] remove CC_ZERO instruction 2022-07-29 11:24:29 +08:00
peterlu14 0b7a650b95 [debug] fix final data loss & flag stop after writer write 2022-07-29 11:11:46 +08:00
Roy 062613c681 [update] fix step time on IV & Cycle-IV mode 2022-07-28 16:36:34 +08:00
Roy bffaff310b [update] update file name of elite library 2022-07-26 13:14:37 +08:00
Roy 06bf262d59 [update] new device library for elite eis1.1 mini 2022-07-13 10:03:40 +08:00
Roy b2f9d98336 [update] update elite device library 2022-07-06 16:23:12 +08:00
Roy a6b523404b [update] update elite device library 2022-07-05 18:20:32 +08:00
peterlu14 6c232b3b07 [update] fix struct.pack type error support signed int & max number type 2022-06-22 15:23:44 +08:00
peterlu14 cfc2bf1d83 Merge remote-tracking branch 'origin/rel/v.1.6.4/read_ram_debug' into rel/v.1.6.5/restruct_data_format 2022-06-22 13:18:03 +08:00
Roy 2b60e68197 [update] update eis decoder code 2022-06-22 13:11:57 +08:00
peterlu14 efb5e9aeb6 [update] add list struct update in new way & fix list parameter not valid & collection nested error & fixed encoder struct bytes wrong (singed, unsigned) 2022-06-17 19:54:42 +08:00
peterlu14 b4d88a0e67 [update] change elite pulse sensing paramter in array 2022-06-17 19:51:05 +08:00
peterlu14 6029ff6fe1 [update] FREQ & DPV_curr_rec max_min to array and add update array format 2022-06-15 16:48:23 +08:00
Roy 6efc5e1097 [update] hide log message 2022-06-10 17:36:13 +08:00
Roy a23394d3d1 Merge branch 'dev/eis_parameter_bug' into rel/v.1.6.4/read_ram_debug 2022-06-10 17:31:45 +08:00
Roy c96f76f438 [update] read RAM data bug 2022-06-10 17:22:10 +08:00
Roy f0f1c9fc49 [update] update eis json 2022-06-10 17:20:58 +08:00
peterlu14 512c80af40 [update] add new info id,name,status,mac_address,memory_board 2022-06-06 18:52:12 +08:00
Roy 499964b287 [update] fix TIME_DURATION in eis devlib 2022-05-23 17:42:12 +08:00
Roy 16f12d40bf [update] improve cp and cc mode - speed and resistance value 2022-05-20 12:11:56 +08:00
peterlu14 63c1ba8efb [update] update decorder mode in I4V4Z4T4 2022-05-18 16:16:17 +08:00
Roy 4a28348db4 [update] fix cp mode instruction and decoder 2022-05-18 11:06:23 +08:00
peterlu14 64dfe87d05 [update] remove decorder rebuild problem & add new parameter to control time duration 2022-05-18 10:19:08 +08:00
peterlu14 f7a5a867a4 [update] fix memory counter 2022-05-06 13:50:09 +08:00
peterlu14 1accaa9b9f [update] delete logger 2022-05-06 11:25:30 +08:00
peterlu14 b810e35fb2 Merge branch 'feature/get-running-project-flow' into rel/v1.6.1/cp_mode 2022-05-06 10:39:51 +08:00
peterlu14 82c9d2b0e3 [update] add clean logger script 2022-05-06 10:39:47 +08:00
peterlu14 e5a3f33b9f [update] add cp mode 2022-05-06 10:36:17 +08:00
peterlu14 1dd4ae2ce4 [update] add stop project api & fix uuid problem & get all projects & as_json problem 2022-05-04 18:07:05 +08:00
68 changed files with 17811 additions and 4509 deletions
+3
View File
@@ -1,7 +1,10 @@
.DS_Store
*.cpython-37.opt-2.pyc
*.cpython-39-arm-linux-gnueabihf.so
*.
*.pyc
*/__pycache__
/.vscode
/media
python/biopro/sever/_identify.py
*.log
+56 -27
View File
@@ -78,6 +78,8 @@ add ssh.txt in boot folder
###### Install dependencies
sudo apt-get install vim git wiringpi build-essential libi2c-dev i2c-tools python-dev libffi-dev python3-pip postgresql npm
sudo apt-get install libatlas-base-dev
sudo apt-get install python3-numpy
###### wiringpi conflict
need to install wiringpi: https://github.com/WiringPi/WiringPi
@@ -94,6 +96,7 @@ git clone https://gitlab.com/wisetop/controller/wisetopdataserver.git
```
cd ~/wisetopdataserver
pip3 install -r requirements.txt
pip3 install SQLAlchemy
```
##### Packages version
```
@@ -155,8 +158,8 @@ reboot
###### Set pi password
```
$cd ~
$passwd
cd ~
passwd
Current password:raspberry
New password:5k6zj454778225
Retype new password:5k6zj454778225
@@ -195,11 +198,11 @@ exit 0
### MQTT broker install
###### 1.Install mosquitto
$sudo apt-get install mosquitto mosquitto-clients
sudo apt-get install mosquitto mosquitto-clients
###### 2.Enable Remote Access
$sudo vim /etc/mosquitto/conf.d/default.conf
sudo vim /etc/mosquitto/conf.d/default.conf
add the code following as:
```
@@ -210,13 +213,13 @@ protocol websockets
allow_anonymous true
```
###### 3.restart mqtt broker
$sudo systemctl restart mosquitto
sudo systemctl restart mosquitto
###### 4.Robust MQTT
create mosquitto_restart.sh
$cd ~
$sudo vim mosquitto_restart.sh
cd ~
sudo vim mosquitto_restart.sh
add the code following as:
@@ -233,16 +236,16 @@ echo "$SERVICE is currently running" >> /home/ubuntu/cron.log
exit 0
```
###### 5.add mosquitto_restart.sh to root routing
$sudo chmod +x mosquitto_restart.sh
$sudo -i
$crontab -e
sudo chmod +x mosquitto_restart.sh
sudo -i
crontab -e
add the code following as:
```
*/5 * * * * /home/pi/mosquitto_restart.sh
```
###### 6.Auto run MQTT broker when when pi-start
$sudo vim /etc/rc.local
sudo vim /etc/rc.local
add the code following as:
```
@@ -251,31 +254,31 @@ sudo nohup systemctl restart mosquitto
### Setting up a Routed Wireless Access Point
###### 1.Install AP and Management Software
$sudo apt install hostapd
$sudo systemctl unmask hostapd
$sudo systemctl enable hostapd
$sudo apt install dnsmasq
$sudo DEBIAN_FRONTEND=noninteractive apt install -y netfilter-persistent iptables-persistent
sudo apt install hostapd
sudo systemctl unmask hostapd
sudo systemctl enable hostapd
sudo apt install dnsmasq
sudo DEBIAN_FRONTEND=noninteractive apt install -y netfilter-persistent iptables-persistent
###### 2.Set up the Network Router
$sudo nano /etc/dhcpcd.conf
sudo nano /etc/dhcpcd.conf
```
interface wlan0
static ip_address=192.168.2.1/24
nohook wpa_supplicant
```
$sudo nano /etc/sysctl.d/routed-ap.conf
sudo nano /etc/sysctl.d/routed-ap.conf
```
# Enable IPv4 routing
net.ipv4.ip_forward=1
```
$sudo iptables -t nat -A POSTROUTING -o eth0 -j MASQUERADE
$sudo netfilter-persistent save
$sudo mv /etc/dnsmasq.conf /etc/dnsmasq.conf.orig
sudo iptables -t nat -A POSTROUTING -o eth0 -j MASQUERADE
sudo netfilter-persistent save
sudo mv /etc/dnsmasq.conf /etc/dnsmasq.conf.orig
$sudo nano /etc/dnsmasq.conf
sudo nano /etc/dnsmasq.conf
```
interface=wlan0 # Listening interface
@@ -286,10 +289,10 @@ address=/gw.wlan/192.168.2.1
# Alias for this router
```
###### 3.Ensure Wireless Operation
$sudo rfkill unblock wlan
sudo rfkill unblock wlan
###### 4.Configure the AP Software
$sudo nano /etc/hostapd/hostapd.conf
sudo nano /etc/hostapd/hostapd.conf
```
country_code=TW
@@ -314,11 +317,13 @@ wme_enabled=1
ht_capab=[HT40+][SHORT-GI-40]
```
###### 5.Running the new Wireless AP
$sudo systemctl reboot
sudo systemctl reboot
### Install Apache2
sudo apt install apache2
### Set web site
$sudo vim ./sites-available/000-default.conf
### Deploy web site
sudo vim /etc/apache2/sites-available/000-default.conf
```
<VirtualHost *:8080> #80------>8080
# The ServerName directive sets the request scheme, hostname and port that
@@ -358,3 +363,27 @@ $sudo vim ./sites-available/000-default.conf
##### raspberry website document:
> https://www.raspberrypi.org/documentation/configuration/wireless/access-point-routed.md
# ChangeLog
[2022.12.28]
change meta_project_info to project_metas
change project_report to project_reports
alter table project_meta column cycle type string to jsonb
[2022.11.16]
add python package SQLAlchemy
add new column project(int4) in postgresSQL table recording_meta_datas
add new postgresSQL table project_report
add new postgresSQL table meta_project_info
[2022.10.18]
socektTimeout from 1s -> 5s
socketListen from 3 -> 20
[2022.09.30]
add new column cycle(jsonb) in postgresSQL table projects
[2022.9.28]
add python package numpy
+15 -3
View File
@@ -1578,10 +1578,22 @@ class ControlAPI(metaclass=Router):
raise NotImplementedError()
def run_project(self, project) -> bool:
print('create_project', project)
self._project_manager.create(project)
return False
raise NotImplementedError()
def get_running_project(self) -> bool:
raise NotImplementedError()
def stop_project(self, project) -> bool:
raise NotImplementedError()
def set_project(self, project, content) -> bool:
raise NotImplementedError()
def set_project_cycle(self, project, index, content) -> bool:
raise NotImplementedError()
def show_device_data(self, device) -> bool:
raise NotImplementedError()
# noinspection PyAbstractClass
class ControlClient(SocketClient, ControlAPI, metaclass=SocketClientMacro(ControlAPI)):
+28 -3
View File
@@ -87,7 +87,8 @@ class DataAPI(metaclass=abc.ABCMeta):
def update_device_configuration(self,
device: Union[int, Device],
meta_file: Union[str, Path, RecordingMetaFile],
data_format: Union[AnyStr, DataDecodeFormat]):
data_format: Union[AnyStr, DataDecodeFormat],
project_info: str):
"""set device configuration.
:param device: device ID
@@ -121,6 +122,14 @@ class DataAPI(metaclass=abc.ABCMeta):
"""
pass
@abc.abstractmethod
def tag(self, device: Union[int, Device], data_points: int):
"""tag data
:param device: device IDs, empty for all
"""
pass
@abc.abstractmethod
def sync_file(self):
"""sync file, write-back dirty file. """
@@ -130,6 +139,14 @@ class DataAPI(metaclass=abc.ABCMeta):
def hardware_test(self) -> JSON_OBJECT:
""""""
pass
@abc.abstractmethod
def show_data(self, device: Union[int, Device]):
"""show device data
:param device: device ID
"""
pass
# noinspection PyAbstractClass
@@ -146,7 +163,8 @@ class DataClient(SocketClient, DataAPI, metaclass=SocketClientMacro(DataAPI)):
def update_device_configuration(self,
device: Union[int, Device],
meta_file: Union[str, Path, RecordingMetaFile],
data_format: Union[AnyStr, DataDecodeFormat]):
data_format: Union[AnyStr, DataDecodeFormat],
project_info: str):
# meta file
if isinstance(meta_file, str):
@@ -178,7 +196,7 @@ class DataClient(SocketClient, DataAPI, metaclass=SocketClientMacro(DataAPI)):
raise TypeError('not a data decode format : ' + data_format.__class__.__name__)
# send
self.send_command('update_device_configuration', device, meta_file, data_format)
self.send_command('update_device_configuration', device, meta_file, data_format, project_info)
def is_sync(self, device: Union[None, int, Device] = None) -> bool:
if isinstance(device, Device):
@@ -191,6 +209,13 @@ class DataClient(SocketClient, DataAPI, metaclass=SocketClientMacro(DataAPI)):
def stop_sync(self, *device: Union[int, Device]):
self.send_command('stop_sync', *self._to_device_id(*device))
def tag(self, device: Union[int, Device], data_points: int):
device = device.device_id
self.send_command('tag', device, data_points)
def show_data(self, device: int):
self.send_command('show_data', device)
@staticmethod
def _to_device_id(*device: Union[int, Device]) -> Tuple[int, ...]:
+10
View File
@@ -0,0 +1,10 @@
from sqlalchemy import create_engine
# from sqlalchemy.ext.declarative import declarative_base
from sqlalchemy.orm import sessionmaker, declarative_base
SQLALCHEMY_DATABASE_URL = "postgresql://biopro:BioProControlBox@127.0.0.1:5432/postgres"
engine = create_engine(SQLALCHEMY_DATABASE_URL)
Session = sessionmaker(bind=engine)
Base = declarative_base()
+60
View File
@@ -0,0 +1,60 @@
from sqlalchemy import Table, Column, String, MetaData, ForeignKey, JSON
from sqlalchemy.sql import select, func
from sqlalchemy.types import Integer, BigInteger, String, Boolean, TIMESTAMP, Numeric
from sqlalchemy.dialects.postgresql import JSONB
from biopro.db.base import Session
from .base import Base
class Collection(Base):
__tablename__ = "collections"
id = Column(Integer, primary_key=True)
name = Column(String(255))
parent = Column(JSONB)
controller_id = Column(Integer)
type = Column(String(255))
description = Column(String(255))
deleted = Column(Boolean)
created_at = Column(TIMESTAMP(timezone=True), server_default=func.now())
updated_at = Column(TIMESTAMP(timezone=True), onupdate=func.now())
@classmethod
def create_collection(cls, collection_name, parent):
with Session() as session:
name = cls.check_name_duplicate(collection_name, parent, 0)
collection = Collection(
name = name,
parent = parent,
type= "folder",
)
session.add(collection)
session.commit()
print('a', collection.id)
return collection
@classmethod
def check_name_duplicate(cls, collection_name, parent, n):
with Session() as session:
result = session.query(Collection).filter(Collection.name == cls.generate_name(collection_name, n), Collection.parent == parent).first()
if result is None:
return cls.generate_name(collection_name, n)
else:
new_num = n + 1
# new_name = f"{collection_name}({new_num})"
return cls.check_name_duplicate(collection_name, parent, new_num)
@classmethod
def generate_name(cls, collection_name, n):
if n==0:
return collection_name
else:
return f"{collection_name}({n})"
@classmethod
def find_collection(cls, collection_name, parent):
with Session() as session:
result = session.query(Collection).filter(Collection.name == collection_name, Collection.parent == parent).first()
return result
+51
View File
@@ -0,0 +1,51 @@
from sqlalchemy import Table, Column, String, MetaData, ForeignKey, JSON
from sqlalchemy.sql import select, func
from sqlalchemy.types import Integer, BigInteger, String, Boolean, TIMESTAMP, Numeric, Float, BINARY, LargeBinary
from sqlalchemy.dialects.postgresql import JSONB
from .base import Base, Session
class Device(Base):
__tablename__ = "devices"
id = Column(Integer, primary_key=True)
name = Column(String(255))
mac_address = Column(String(255))
serial_number = Column(String(255))
configuration = Column(JSONB)
library = Column(String(255))
library_version = Column(String(255))
device_version = Column(String(255))
type = Column(String(255))
battery = Column(Integer)
temperature = Column(Float)
auto_connect = Column(Boolean)
connect_priority = Column(Integer)
connect_time = Column(BigInteger)
parameter_set = Column(JSONB)
running = Column(Boolean)
calibration = Column(LargeBinary)
calibration_version = Column(Integer, default=-1)
user_auth = Column(JSONB)
deleted = Column(Boolean)
created_at = Column(TIMESTAMP(timezone=True), server_default=func.now())
updated_at = Column(TIMESTAMP(timezone=True), onupdate=func.now())
@classmethod
def update_device(cls, device, options):
with Session() as session:
result = session.query(Device).filter(Device.mac_address == device['mac_address']).first()
for key, value in options.items():
setattr(result, key, value)
session.commit()
@classmethod
def get_device(cls, device):
with Session() as session:
result = session.query(Device).filter(Device.mac_address == device['mac_address']).first()
return result
# def __repr__(self):
# return f"User(id={self.id!r}, name={self.name!r}, fullname={self.task!r})"
+24
View File
@@ -0,0 +1,24 @@
from sqlalchemy import Table, Column, String, MetaData, ForeignKey, JSON
from sqlalchemy.sql import select, func
from sqlalchemy.types import Integer, BigInteger, String, Boolean, TIMESTAMP, Numeric
from sqlalchemy.dialects.postgresql import JSONB
from .base import Base
class Project(Base):
__tablename__ = "project"
id = Column(Integer, primary_key=True)
name = Column(String)
desc = Column(String)
task = Column(JSONB)
cycle = Column(JSONB)
device = Column(JSONB)
uuid = Column(String(36))
user_auth = Column(JSONB)
deleted = Column(Boolean, default = False)
created_at = Column(TIMESTAMP(timezone=True), server_default=func.now())
updated_at = Column(TIMESTAMP(timezone=True), onupdate=func.now())
# def __repr__(self):
# return f"User(id={self.id!r}, name={self.name!r}, fullname={self.task!r})"
+29
View File
@@ -0,0 +1,29 @@
from sqlalchemy import Table, Column, String, MetaData, ForeignKey, JSON
from sqlalchemy.sql import select, func
from sqlalchemy.types import Integer, BigInteger, String, Boolean, TIMESTAMP, Numeric
from sqlalchemy.dialects.postgresql import JSONB
from .base import Base, Session
class MetaProjectInfo(Base):
__tablename__ = "project_metas"
id = Column(Integer, primary_key=True)
project = Column(String(36))
cycle = Column(JSONB)
task = Column(JSONB)
serial_number = Column(Integer)
deleted = Column(Boolean, default = False)
created_at = Column(TIMESTAMP(timezone=True), server_default=func.now())
updated_at = Column(TIMESTAMP(timezone=True), onupdate=func.now())
@classmethod
def create_project_meta(cls, project):
with Session() as session:
project_meta = MetaProjectInfo(project = project['project'], cycle= project['cycle'], task=project['task'], serial_number=int(project['serial_number']))
session.add(project_meta)
session.commit()
return project_meta.id
# def __repr__(self):
# return f"User(id={self.id!r}, name={self.name!r}, fullname={self.task!r})"
+24
View File
@@ -0,0 +1,24 @@
from sqlalchemy import Table, Column, String, MetaData, ForeignKey, JSON
from sqlalchemy.sql import select, func
from sqlalchemy.types import Integer, BigInteger, String, Boolean, TIMESTAMP, Numeric
from sqlalchemy.dialects.postgresql import JSONB
from .base import Base
class ProjectReport(Base):
__tablename__ = "project_reports"
id = Column(Integer, primary_key=True)
name = Column(String)
desc = Column(String)
task = Column(JSONB)
cycle = Column(JSONB)
device = Column(JSONB)
uuid = Column(String(36))
user_auth = Column(JSONB)
deleted = Column(Boolean, default = False)
created_at = Column(TIMESTAMP(timezone=True), server_default=func.now())
updated_at = Column(TIMESTAMP(timezone=True), onupdate=func.now())
# def __repr__(self):
# return f"User(id={self.id!r}, name={self.name!r}, fullname={self.task!r})"
+382 -477
View File
@@ -350,6 +350,7 @@ class CC2650Device(Device):
self._recording_file_name: str = 'recording_data'
self._coeff: bytes = b''
self._device_version = ""
self._cali_version = -1
@property
def device_id(self) -> int:
@@ -428,17 +429,20 @@ class CC2650Device(Device):
self._start_flag = False
def _encode_instruction(self, ins_type: int, ins_oper: int, *instruction: int) -> bytes:
# print('_encode_instruction', ins_type, ins_oper, instruction)
length = len(instruction)
if length == 1 and instruction[0] < 0:
return struct.pack('2B1b',
(ins_type & 0xF0) | (self.device_id & 0x0F),
(ins_oper & 0xF0) | (length & 0x0F),
*instruction)
return struct.pack('%dB' % (length + 2),
(ins_type & 0xF0) | (self.device_id & 0x0F),
(ins_oper & 0xF0) | (length & 0x0F),
(ins_oper & 0xFF),
*instruction)
if ins_type == None:
return struct.pack('%dB' % length, *instruction)
else:
return struct.pack('%dB' % (length + 2),
(ins_type & 0xF0) | (self.device_id & 0x0F),
(ins_oper & 0xFF),
*instruction)
def _decode_data(self, ins_oper: int, data: bytes) -> bytes:
"""CIS data decoder.
@@ -477,22 +481,24 @@ class CC2650Device(Device):
else:
if data is not None and len(data) > 0:
year = struct.unpack('<B', data[0:1])[0]
month = struct.unpack('<B', data[1:2])[0]
day = struct.unpack('<B', data[2:3])[0]
hour = struct.unpack('<B', data[3:4])[0]
minute = struct.unpack('<B', data[4:5])[0]
mac1 = struct.unpack('<B', data[5:6])[0]
mac2 = struct.unpack('<B', data[6:7])[0]
mac1 = "%02X" % mac1
mac2 = "%02X" % mac2
year = struct.unpack('<B', data[2:3])[0]
month = struct.unpack('<B', data[3:4])[0]
day = struct.unpack('<B', data[4:5])[0]
hour = struct.unpack('<B', data[5:6])[0]
minute = struct.unpack('<B', data[6:7])[0]
# mac1 = struct.unpack('<B', data[7:8])[0]
# mac2 = struct.unpack('<B', data[8:9])[0]
# mac1 = "%02X" % mac1
# mac2 = "%02X" % mac2
self._device_version = str(year) + '/' + str(month) + '/' + str(day) + " " + str(hour) + ":" + str(
minute) + " | " + str(mac1) + ":" + str(mac2)
minute)
# + " | " + str(mac1) + ":" + str(mac2)
@property
def battery(self) -> int:
self.update_battery_info()
if self._start_flag == False:
self.update_battery_info()
return self._battery
@property
@@ -537,7 +543,7 @@ class CC2650Device(Device):
else:
if data is not None and len(data) > 2 :
battery = struct.unpack('<H', data[1:3])[0]
battery = struct.unpack('<H', data[2:4])[0]
if battery is not None:
self._battery = battery
@@ -549,6 +555,39 @@ class CC2650Device(Device):
self.update_calibration_info(device_type)
return self._coeff
def _check_crc(self, data):
data_chk_sum = data[-1]
# print('data:', list(data), 'data_chk_sum:', data_chk_sum)
# print('data[0:-1]:', list(data[0:-1]), 'check_sum:', sum(data[0:-1]) & 0b11111111)
if data_chk_sum == sum(data[0:-1]) & 0b11111111:
return True
return False
def update_cali_version(self) -> bool:
for _ in range(5):
try:
code = self._encode_instruction(DeviceInstruction.TYP_CIS, DeviceInstruction.CIS_CALI, 0)
self._master.write_characteristic(self.device_id, CC2650MasterDevice.COMMAND_HANDLE, code)
except SendInstructionTimeoutError:
self._master.log_warn('device', self.device_id, 'update cali version error')
return False
except RuntimeError:
self._master.log_warn('device', self.device_id, 'update cali version error')
return False
else:
version = self._master.read_characteristic(self.device_id,CC2650MasterDevice.RETURN_HANDLE)
if self._check_crc(version):
self._cali_version = struct.unpack('<H', version[2:4])[0]
print('self._cali_version=', self._cali_version)
return True
self._master.log_warn('device', self.device_id, 'update cali version error')
return False
def update_calibration_info(self, device_type: str):
""" get device calibration info """
@@ -556,147 +595,36 @@ class CC2650Device(Device):
# self.ensure_feature_support(DeviceFeature.CALIBRATION)
coeff = []
if device_type == 'EISZeroOne':
i = 1
while i <= 24:
for _ in range(5):
try:
# send
code = self._encode_instruction(DeviceInstruction.TYP_CIS, DeviceInstruction.CIS_CALI, i)
self._master.write_characteristic(self.device_id, CC2650MasterDevice.COMMAND_HANDLE, code)
if device_type == 'TDC4VAF2':
# neulive 1.3, 1.6
for i in range(24):
# send
code = self._encode_instruction(DeviceInstruction.TYP_CIS, DeviceInstruction.CIS_CALI, i)
self._master.write_characteristic(self.device_id, CC2650MasterDevice.COMMAND_HANDLE, code)
# receive
data = self._master.read_characteristic(self.device_id, CC2650MasterDevice.RETURN_HANDLE)
coeff.append(self._decode_data(DeviceInstruction.CIS_CALI, data))
elif device_type == 'TDC4VC':
i = 0
request_times = 0
# neulive 2.1 (only support ch1~ch8)
# try:
# # send
# code = self._encode_instruction(DeviceInstruction.TYP_CIS, DeviceInstruction.CIS_CALI, 0)
# self._master.write_characteristic(self.device_id, CC2650MasterDevice.COMMAND_HANDLE, code)
# # receive
# data = self._master.read_characteristic(self.device_id, CC2650MasterDevice.RETURN_HANDLE)
#
# coeff.append(self._decode_data(DeviceInstruction.CIS_CALI, data))
# except SendInstructionTimeoutError:
# self._master.log_warn('device', self.device_id, 'update_calibration_info no response')
# except RuntimeError:
# self._master.log_warn('device', self.device_id, 'update_calibration_info no response')
while i < 4:
try:
# print('i', i)
# send
code = self._encode_instruction(DeviceInstruction.TYP_CIS, DeviceInstruction.CIS_CALI, i)
self._master.write_characteristic(self.device_id, CC2650MasterDevice.COMMAND_HANDLE, code)
# receive
data = self._master.read_characteristic(self.device_id,
CC2650MasterDevice.RETURN_HANDLE)
# print('code3', code)
# print('data3', data)
coeff.append(self._decode_data(DeviceInstruction.CIS_CALI, data))
except SendInstructionTimeoutError as e:
print(e)
self._master.log_warn('device', self.device_id, 'update_calibration_info no response', i)
raise BaseException
except RuntimeError as e:
print(e)
self._master.log_warn('device', self.device_id, 'update_calibration_info no response - 2', i)
request_times += 1
if request_times > 3:
self._master.reset(self.device_id)
break
else:
# print('data success')
if len(data) > 0:
i += 1
except SerialTimeoutException:
self._master.log_warn('device', self.device_id, 'send update_calibration_info instruction fail')
continue
else:
request_times += 1
if request_times > 3:
self._master.reset(self.device_id)
break
try:
# receive
data = self._master.read_characteristic(self.device_id,
CC2650MasterDevice.RETURN_HANDLE)
except RecvTimeout:
self._master.log_warn('device', self.device_id, 'update_calibration_info no response')
else:
if self._check_crc(data) and data is not None:
coeff.append(self._decode_data(DeviceInstruction.CIS_CALI, data))
i += 1
else:
self._master.log_warn('device', self.device_id, 'update_calibration_info crc wrong')
continue
elif device_type == 'NeuliveThreeOne':
i = 0
request_times = 0
while i < 8:
try:
# print('i', i)
# send
code = self._encode_instruction(DeviceInstruction.TYP_CIS, DeviceInstruction.CIS_CALI, i)
self._master.write_characteristic(self.device_id, CC2650MasterDevice.COMMAND_HANDLE, code)
# receive
data = self._master.read_characteristic(self.device_id,
CC2650MasterDevice.RETURN_HANDLE)
coeff.append(self._decode_data(DeviceInstruction.CIS_CALI, data))
except SendInstructionTimeoutError as e:
print(e)
self._master.log_warn('device', self.device_id, 'update_calibration_info no response', i)
raise BaseException
except RuntimeError as e:
print(e)
self._master.log_warn('device', self.device_id, 'update_calibration_info no response - 2', i)
request_times += 1
if request_times > 3:
self._master.reset(self.device_id)
break
else:
# print('data success')
if len(data) > 0:
i += 1
else:
request_times += 1
if request_times > 3:
self._master.reset(self.device_id)
break
elif device_type == 'EISZeroOne':
i = 0
request_times = 0
while i < 7:
try:
# send
code = self._encode_instruction(DeviceInstruction.TYP_CIS, DeviceInstruction.CIS_CALI, i)
self._master.write_characteristic(self.device_id, CC2650MasterDevice.COMMAND_HANDLE, code)
sleep(0.1)
# receive
data = self._master.read_characteristic(self.device_id,
CC2650MasterDevice.RETURN_HANDLE)
coeff.append(self._decode_data(DeviceInstruction.CIS_CALI, data))
except SendInstructionTimeoutError as e:
print(e)
self._master.log_warn('device', self.device_id, 'update_calibration_info no response')
raise BaseException
except RuntimeError as e:
print(e)
self._master.log_warn('device', self.device_id, 'update_calibration_info no response - 2')
request_times += 1
if request_times > 3:
self._master.reset(self.device_id)
break
else:
# print('data success')
if len(data) > 0:
i += 1
else:
request_times += 1
if request_times > 3:
self._master.reset(self.device_id)
break
else:
# default: neulive 2.1
for i in range(1):
@@ -1950,120 +1878,6 @@ class CC2650SingleMasterCentralDevice(CC2650MasterDevice, Synchronized):
"""initialize cc2650 (master)"""
pass
def scan_send_ins(self):
# send scan command
try:
print(':: scan_send_ins ::', self.CC2650_COMMAND_LEN, 3, 0, 0)
self._cc2650.send(self.CC2650_COMMAND_LEN, 3, 0, 0)
except SerialTimeoutException as e:
raise RecvTimeout('send scan fail') from e
else:
# wait scanning
# sleep(2)
clean_buf = self._cc2650.receive_timeout("20B", timeout=3)
print("clean_buf = ", clean_buf)
# def cc2650_uart_irq(self):
# uart_irq = self.get_uart_irq_pin()
# uart_irq.output(False)
# sleep(0.001)
# uart_irq.output(True)
@synchronized
def scan_callback(self, callback: Callable[[DeviceResponseInfo], None], timeout=5, all_device=False) -> bool:
self._found = found = []
self._found_with_id = []
hdr_BPHS = [66, 80, 72, 83]
scan_response: Union[Optional[tuple], Any] = None
# build scan instruction
scan_ins = bytearray()
scan_ins.append(3) #scan instruction
scan_ins.append(1) #length
scan_ins.append(0xF1)
# print('send_scan', bytes(scan_ins))
self._cc2650.send("bytes", bytes(scan_ins))
try:
scan_response = self._cc2650.recv_uart(timeout)
except RecvTimeout:
# self.reset_internal()
# self.reset_hardware()
# self._interface.flush()
return False
# instruction format:
# ins[0]: get_scan_response = 0x04
# ins[1]: number of scanned device=0; a certain device = device_id (could be 1~8)
# ins[2]: addr=MAC=1, localName=2, company_code=3, version_info=4, battery_info=5, all_info=6;
# attr_length=0, e.g. len(addr)=6, len(company_code)=4
local_mac = None
local_cc = None
local_ver = None
local_bat = None
local_name = None
local_addr_type = None
# get device attribute length
attr_length = [6, 4, 6, 5, 20]
index = 0
local_mac = get_device_mac_in_address_format(scan_response[index:index + 6])
index = index + 6
# print("local_mac = ", hex(local_mac[0]), hex(local_mac[1]),
# hex(local_mac[2]), hex(local_mac[3]),
# hex(local_mac[4]), hex(local_mac[5]))
local_cc = get_device_company_code(scan_response[index:index + 4])
index = index + 4
# print("local_cc = ", local_cc)
local_ver = scan_response[index:index + 6]
index = index + 6
# print("local_ver = ", local_ver)
local_bat = get_device_battery_info(scan_response[index:index + 5])
index = index + 5
# print("local_bat = ", local_bat)
local_name = get_device_name_in_string_format(list(scan_response[index:index + 20]))
index = index + 20
# print("local_name = ", local_name)
# addr type is don't care in BMD380
print('scan_response:', list(scan_response))
local_addr_type = int(scan_response[index:index + 1][0])
# local_addr_type = 0xFF
index = index + 1
# print("local_addr_type = ", local_addr_type)
response = is_headstage_device_central_version(local_mac,
local_addr_type,
local_name,
local_cc,
local_ver,
local_bat)
if response is not None:
self.log_info('found', address_str(response.mac_address), response.serial_number)
self._interface.flush_input()
# apppend into db
devicesList = DeviceAPI.getByMac(address_str(response.mac_address))
if devicesList is not None:
if len(devicesList) == 0:
DeviceAPI.create(response.device_name, local_ver, address_str(response.mac_address))
found.append(response)
# print('scan_done_found', found)
self._found_with_id.append((response, 0 + 1))
callback(response)
return True
def decode_uart_preamble(self, raw_uart: tuple, expect_ret_len: int = 0) -> Optional[list]:
# print("decode_uart_preamble: raw_uart = ", raw_uart)
if raw_uart is None:
@@ -2090,34 +1904,154 @@ class CC2650SingleMasterCentralDevice(CC2650MasterDevice, Synchronized):
return self._found
def check_mem_survive(self) -> Optional[CC2650Device]:
ack = []
chk_mem_response = None
ins = bytearray()
ins.append(10)
ins.append(1) #length
ins.append(0x0A)
ins.append(0x01) #length
ins.append(0xF1)
# print('ins', list(ins))
self._interface.flush_input()
try:
self.log_verbose('[CC2650]', 'check_mem_survive att_write','0x'+str.upper(ins.hex()))
self._cc2650.send("bytes", bytes(ins))
except SerialTimeoutException as e:
raise RecvTimeout('device CC2650 check_mem_survive timeout') from e
except SerialTimeoutException:
self.log_verbose('[CC2650]', 'check_mem_survive send fail')
else:
try:
ack = self._cc2650.recv_uart(0.001)
chk_mem_response = self._cc2650.recv_uart(0.001)
except RecvTimeout:
self.log_info("no memory board")
self.log_verbose('[CC2650]', 'check_mem_survive response timeout, no memory board')
# else:
# print('ack=', ack)
if chk_mem_response is None:
return False
if ack == [3]:
pack_len = chk_mem_response[0]
mem_ack = chk_mem_response[1:pack_len+1]
if mem_ack == [3]:
chk_mem_response_hex = ''.join(format(i, '02X') for i in chk_mem_response)
self.log_verbose('[CC2650]', 'check_mem_survive success', '0x'+chk_mem_response_hex)
return True
return False
@synchronized
def scan_callback(self, callback: Callable[[DeviceResponseInfo], None], timeout=5, all_device=False) -> bool:
self._found = found = []
self._found_with_id = []
scan_response = None
ins = bytearray()
ins.append(0x03)
ins.append(0x01) #length
ins.append(0xF1)
self._interface.flush_input()
for _ in range(5):
try:
self.log_verbose('[CC2650]', 'scan_callback att_write','0x'+str.upper(ins.hex()))
self._cc2650.send("bytes", bytes(ins))
except SerialTimeoutException:
self.log_verbose('[CC2650]', 'scan_callback send fail, rescan')
continue
else:
try:
scan_response = self._cc2650.recv_uart(0.01)
except RecvTimeout:
self.log_verbose('[CC2650]', 'scan_callback response timeout, no device, rescan')
continue
else:
if scan_response is None:
self.log_verbose('[CC2650]', 'scan_callback response is None, rescan')
continue
else:
break
if scan_response is None:
self.log_verbose('[CC2650]', 'scan_callback response is None--2')
return False
scan_response_hex = ''.join(format(i, '02X') for i in scan_response)
self.log_verbose('[CC2650]', 'scan_callback success', '0x'+scan_response_hex)
if len(scan_response) <= 2:
print('******************************************************************')
print('******************************************************************')
print('******************************************************************')
print('******************************************************************')
print('****need to fix, len(scan) <= 2')
print()
return False
pack_len = scan_response[0]
device_info_pkg = scan_response[1:pack_len+1]
# instruction format:
# ins[0]: get_scan_response = 0x04
# ins[1]: number of scanned device=0; a certain device = device_id (could be 1~8)
# ins[2]: addr=MAC=1, localName=2, company_code=3, version_info=4, battery_info=5, all_info=6;
# attr_length=0, e.g. len(addr)=6, len(company_code)=4
local_mac = None
local_cc = None
local_ver = None
local_bat = None
local_name = None
local_addr_type = None
# get device attribute length
attr_length = [6, 4, 6, 5, 20]
index = 0
local_mac = get_device_mac_in_address_format(device_info_pkg[index:index + 6])
index = index + 6
local_cc = get_device_company_code(device_info_pkg[index:index + 4])
index = index + 4
local_ver = device_info_pkg[index:index + 6]
index = index + 6
local_bat = get_device_battery_info(device_info_pkg[index:index + 5])
index = index + 5
local_name = get_device_name_in_string_format(list(device_info_pkg[index:index + 20]))
index = index + 20
local_addr_type = int(device_info_pkg[index:index + 1][0])
index = index + 1
response = is_headstage_device_central_version(local_mac,
local_addr_type,
local_name,
local_cc,
local_ver,
local_bat)
if response is not None:
self.log_info('found', address_str(response.mac_address), response.serial_number)
self._interface.flush_input()
# apppend into db
devicesList = DeviceAPI.getByMac(address_str(response.mac_address))
if devicesList is not None:
if len(devicesList) == 0:
DeviceAPI.create(response.device_name, local_ver, address_str(response.mac_address))
found.append(response)
# print('scan_done_found', found)
self._found_with_id.append((response, 0 + 1))
callback(response)
return True
@synchronized
def connect(self, response: DeviceResponseInfo, direct_connect: bool = False) -> Optional[CC2650Device]:
if self._handle is not None:
@@ -2127,225 +2061,202 @@ class CC2650SingleMasterCentralDevice(CC2650MasterDevice, Synchronized):
addr_type = response.addr_type
address_s = cc2650.address_str(address)
self.log_info(DEVICE_CONNECTING, address_s)
connect_ins = bytearray()
connect_ins.append(5)
connect_ins.append(8) #length
connect_ins.append(addr_type)
connect_ins.append(address[0])
connect_ins.append(address[1])
connect_ins.append(address[2])
connect_ins.append(address[3])
connect_ins.append(address[4])
connect_ins.append(address[5])
connect_ins.append(0xF1)
connected = False
connect_response = None
ins = bytearray()
# send connect command
if direct_connect is True:
# send device mac and addrType
try:
self._cc2650.send("bytes", bytes(connect_ins))
except SerialTimeoutException as e:
raise RecvTimeout('device CC2650 connect fail') from e
return None
# connection establish done?
for retry_recv_ack in range(10):
try:
con_done = self._cc2650.recv_uart(timeout = 0.5)
# print("con_done = ", con_done)
except RecvTimeout:
self.log_info("recv connection timeout, retry... ")
continue
# is the ack valid?
if con_done is None:
continue
elif con_done[0] is 46 and \
con_done[1] is 80 and \
con_done[2] is 48 and \
con_done[3] is 4:
connected = True
break
else:
for dev in self._found:
if dev.mac_address == address:
# send device mac and addrType
try:
# print('send_connect',bytes(connect_ins))
self._cc2650.send("bytes", bytes(connect_ins))
except SerialTimeoutException as e:
raise RecvTimeout('device CC2650 connect fail') from e
else:
sleep(2)
# connection establish done?
for retry_recv_ack in range(5):
self._cc2650.send("bytes", bytes((0, 0, 0, 0)))
try:
con_done = self._cc2650.recv_uart(timeout = 0.1)
except RecvTimeout:
self.log_info("recv connection timeout, retry... ")
continue
# is the ack valid?
if con_done is None:
continue
elif con_done[0] is 46 and \
con_done[1] is 80 and \
con_done[2] is 48 and \
con_done[3] is 4:
connected = True
# print('con_done=', con_done)
break
else:
continue
# if select device is invalid or connect failed
ins.append(0x05)
ins.append(0x08) #length
ins.append(addr_type)
ins.append(address[0])
ins.append(address[1])
ins.append(address[2])
ins.append(address[3])
ins.append(address[4])
ins.append(address[5])
ins.append(0xF1)
self._interface.flush_input()
if connected is False:
if direct_connect is True:
self.reset_internal()
self.reset_hardware()
self._interface.flush()
return None
# CC2650Device(device_id, master, scan_response) is a slave device
# device_id is don't care, because it will be overwrite later
dont_care = 0
self._device = ret = CC2650Device(device_id=dont_care, master=self, response_info=response)
self.log_info(DEVICE_CONNECTED, address_s)
sleep(0.5)
print('ret',ret)
for retry in range(5):
try:
self.log_verbose('[CC2650]', 'connect att_write', '0x'+str.upper(ins.hex()))
self._cc2650.send("bytes", bytes(ins))
return ret
except RecvTimeout:
self.log_verbose('[CC2650]', 'connect send fail')
continue
else:
try:
connect_response = self._cc2650.recv_uart(2)
except RecvTimeout:
# self.log_verbose('[CC2650]', 'connect response timeout')
if retry < 5:
self.log_verbose('[CC2650]', 'connect retry')
continue
else:
break
if connect_response is None:
self.log_verbose('[CC2650]', 'connect response timeout')
return False
pack_len = connect_response[0]
connect_ack = connect_response[1:pack_len+1]
if pack_len == 1:
if connect_ack[0] == 3:
connected = True
connect_response_hex = ''.join(format(i, '02X') for i in connect_response)
self.log_verbose('[CC2650]', 'connect success', '0x'+connect_response_hex)
elif pack_len == 4:
if connect_ack[0] == 46 and connect_ack[1] == 80 and \
connect_ack[2] == 48 and connect_ack[3] == 4:
connected = True
connect_response_hex = ''.join(format(i, '02X') for i in connect_response)
self.log_verbose('[CC2650]', 'connect success', '0x'+connect_response_hex)
if connected == True:
# CC2650Device(device_id, master, scan_response) is a slave device
# device_id is don't care, because it will be overwrite later
dont_care = 0
self._device = ret = CC2650Device(device_id=dont_care, master=self, response_info=response)
self.log_verbose('[CC2650]', DEVICE_CONNECTED, address_s)
return ret
connect_response_hex = ''.join(format(i, '02X') for i in connect_response)
self.log_verbose('[CC2650]', 'connect fail', '0x'+connect_response_hex)
return False
@synchronized
def disconnect(self, device: int, force=False) -> bool:
self.log_info(DEVICE_DISCONNECTING, device)
ins = bytearray()
ins.append(8)
ins.append(1) #length
ins.append(0x08)
ins.append(0x01) #length
ins.append(0xF1)
self._interface.flush_input()
for retry in range(5):
try:
self.log_verbose('[CC2650]', 'disconnect att_write','0x'+str.upper(ins.hex()))
self._cc2650.send("bytes", bytes(ins))
except SerialTimeoutException:
self.log_verbose('[CC2650]', 'disconnect send fail')
continue
else:
self.reset_internal()
self.reset_hardware()
self.log_verbose('[CC2650]', 'disconnect success')
return True
# try:
# disconnect_response = self._cc2650.recv_uart(0.01)
# print(disconnect_response)
# except RecvTimeout:
# self.log_verbose('[CC2650]', 'disconnect response timeout')
# if retry < 5:
# self.log_verbose('[CC2650]', 'connect retry')
# continue
# else:
# break
# if disconnect_response is None:
# return False
# pack_len = disconnect_response[0]
# disconnect_ack = disconnect_response[1:pack_len+1]
# if disconnect_ack == [3]:
# disconnect_response_hex = ''.join(format(i, '02X') for i in disconnect_response)
# self.log_verbose('[CC2650]', 'disconnect success', '0x'+disconnect_response_hex)
# self.reset_internal()
# self.reset_hardware()
# return True
self.log_verbose('[CC2650]', 'disconnect fail')
return False
@synchronized
def write_characteristic(self, device: int, handle: int, data: bytes) -> bool:
write_response = None
ins = bytearray()
ins.append(0x06)
if len(data) + 2 > 255:
ins.append(255)
else:
ins.append(len(data)+2) #length = handle + C0C0XXXX(data len) + F1
ins.append(handle)
ins.extend(data)
ins.append(0xF1)
self._interface.flush_input()
try:
# print('send_disconnect',bytes(ins))
self.log_verbose('[CC2650]', 'write_characteristic', device, str(hex(handle).upper()))
self.log_verbose('[CC2650]', 'write_characteristic att_write','0x'+str.upper(ins.hex()))
self._cc2650.send("bytes", bytes(ins))
except RecvTimeout:
self.log_warn('disconnect time out')
return False
except RuntimeError as e:
self.log_warn('suppressed error', str(e))
return False
except SerialTimeoutException:
self.log_verbose('[CC2650]', 'write_characteristic send fail')
else:
sleep(0.01)
try:
write_response = self._cc2650.recv_uart(0.5)
except RecvTimeout:
self.log_verbose('[CC2650]', 'write_characteristic response timeout')
if write_response is None:
self.log_verbose('[CC2650]', 'write_characteristic fail')
return False
pack_len = write_response[0]
write_ack = write_response[1:pack_len+1]
if write_ack == [3]:
write_response_hex = ''.join(format(i, '02X') for i in write_response)
self.log_verbose('[CC2650]', 'write_characteristic success', '0x'+write_response_hex)
return True
finally:
self.log_info(DEVICE_DISCONNECTED, device)
# reset single 2650 after disconnected
self.reset_internal()
self.reset_hardware()
self._interface.flush()
self.log_verbose('[CC2650]', 'write_characteristic fail')
return False
@synchronized
def read_characteristic(self, device: int, handle: int) -> Optional[bytes]:
# print("read_characteristic, expect_data_length = ", expect_data_length)
ret = None
read_response = None
ins = bytearray()
ins.append(7)
ins.append(2) #length
ins.append(0x07)
ins.append(0x02) #length
ins.append(handle)
ins.append(0xF1)
for _ in range(2):
try:
# print('send_read',bytes(ins))
self._cc2650.send("bytes", bytes(ins))
except SerialTimeoutException:
raise RecvTimeout('device CC2650 send read_characteristic fail')
try:
ret = self._cc2650.recv_uart(timeout = 2)
except Exception as e2:
raise RecvTimeout()
else:
# print("======== read ret = ", ret)
self._interface.flush_input()
# try:
# ret = self._cc2650.recv_uart(timeout = 1)
# except Exception as e2:
# raise RecvTimeout()
# else:
# # print("read_characteristic ret = ", ret)
# pass
if ret is None:
return None
return bytes(ret)
@synchronized
def write_characteristic(self, device: int, handle: int, data: bytes):
# print("device", device)
# print("handle", handle)
# print("data", data.hex())
# self.log_info('reset')
self.log_verbose('write_characteristic', device, handle)
self.log_verbose('[CC2650]', 'att_write', str.upper(data.hex()))
ack = None
ret = None
data_array = bytearray()
data_array.append(6)
data_array.append(len(data)+2) #length
data_array.append(handle)
data_array.extend(data)
data_array.append(0xF1)
self._interface.flush_input()
try:
self._cc2650.send("bytes", bytes(data_array))
# print('send_write',bytes(data_array))
self.log_verbose('[CC2650]', 'read_characteristic', device, str(hex(handle).upper()))
self.log_verbose('[CC2650]', 'read_characteristic att_write','0x'+str.upper(ins.hex()))
self._cc2650.send("bytes", bytes(ins))
except SerialTimeoutException as e:
raise RecvTimeout('device CC2650 send instruction fail') from e
# read error code
try:
ret = self._cc2650.recv_uart()
# print("_______ write ack = ", ret)
except Exception as e2:
pass
except SerialTimeoutException:
self.log_verbose('[CC2650]', 'read_characteristic send fail')
else:
pass
try:
read_response = self._cc2650.recv_uart(1)
self._interface.flush_input()
self._interface.flush_output()
except RecvTimeout:
self.log_verbose('[CC2650]', 'read_characteristic response timeout')
if read_response is None:
return None
read_response_hex = ''.join(format(i, '02X') for i in read_response)
self.log_verbose('[CC2650]', 'read_characteristic success', '0x'+read_response_hex)
return bytes(read_response)
def set_notify(self, device: Union[int, Device], enable: bool):
if isinstance(device, CompletedDevice):
@@ -2446,7 +2357,6 @@ class CC2650MultiMasterCentralDevice(CC2650MasterDevice, Synchronized):
self._cc2650_log_level = self.log_level
def read_characteristic(self, device: int, handle: int) -> Optional[bytes]:
self.log_verbose('read_characteristic', device, '0x%02X' % handle)
master = self._cc2650[device]
@@ -2504,11 +2414,6 @@ class CC2650MultiMasterCentralDevice(CC2650MasterDevice, Synchronized):
self._interface.flush()
self._selector.select(device_id)
# self._mem_selector.select(device_id)
# print("multiMaster selector = ", device_id)
# print("\n")
# device._notify_flag = enable
try:
master.write_characteristic(device_id, self.NOTIFY_HANDLE, value)
except SendInstructionTimeoutError:
+39 -12
View File
@@ -574,20 +574,23 @@ class DeviceManager(MasterDevice, Synchronized):
:param device: device ID or response info
:return: CompletedDevice, None if not found.
"""
if isinstance(device, int):
for slave in self._device:
if slave.device_id == device:
return slave
try:
if isinstance(device, int):
for slave in self._device:
if slave.device_id == device:
return slave
elif isinstance(device, str):
for slave in self._device:
if ':'.join('{:02x}'.format(b) for b in slave.mac_address) == device.lower():
return slave
elif isinstance(device, str):
for slave in self._device:
if ':'.join('{:02x}'.format(b) for b in slave.mac_address) == device.lower():
return slave
elif isinstance(device, DeviceInfo):
for slave in self._device:
if device.match(slave):
return slave
elif isinstance(device, DeviceInfo):
for slave in self._device:
if device.match(slave):
return slave
except BaseException as e:
self.log_error('device not found', str(device))
return None
@@ -829,6 +832,15 @@ class DeviceManager(MasterDevice, Synchronized):
elif func == InternalInstruction.PREDEFINED_DISABLE_CACHE:
self._device_disable_cache(device, *para)
elif func == InternalInstruction.PREDEFINED_IDLE:
self._idle(device, *para)
elif func == InternalInstruction.PREDEFINED_COUNTDOWN:
self._countdown(device, *para)
elif func == InternalInstruction.PREDEFINED_TAG:
self._tag(device, *para)
elif isinstance(device, DebugDevice):
if func == InternalInstruction.PREDEFINED_NOTIFY:
@@ -848,6 +860,21 @@ class DeviceManager(MasterDevice, Synchronized):
InternalInstruction.PREDEFINED_DATA_FORMAT,
f)
def _idle(self, device: Device, expr: AnyStr):
self._handler.device_internal_command(device.device_id,
InternalInstruction.PREDEFINED_IDLE,
None)
def _countdown(self, device: Device, expr: AnyStr):
self._handler.device_internal_command(device.device_id,
InternalInstruction.PREDEFINED_COUNTDOWN,
expr)
def _tag(self, device: Device, expr: AnyStr):
self._handler.device_internal_command(device.device_id,
InternalInstruction.PREDEFINED_TAG,
expr)
def _device_data_format_cali(self, device: Device, expr: str, cali: bytes = None):
if cali is None:
cali = device.calibration_info(expr)
+615 -1099
View File
File diff suppressed because it is too large Load Diff
+7 -16
View File
@@ -651,17 +651,9 @@ class DeviceInstruction:
VIS_DEVICE_DONE = 0x20
"""identify device done"""
VIS_CC_ZERO = 0x40
VIS_ASK = 0x30
"""ask in virtual instruction"""
VIS_STI = 0xC0
"""stimulation on virtual instruction"""
VIS_FUH = 0x90
"""flush virtual instruction"""
VIS_INT = 0x60
"""interrupt virtual instruction"""
@@ -697,11 +689,13 @@ class DeviceInstruction:
TYP_IIS = -1
"""internal instruction"""
TYP_ALL = None
__slots__ = ()
@classmethod
def valid_ins_type(cls, ins_type: int):
if ins_type not in (cls.TYP_RIS, cls.TYP_VIS, cls.TYP_CIS, cls.TYP_IIS):
if ins_type not in (cls.TYP_RIS, cls.TYP_VIS, cls.TYP_CIS, cls.TYP_IIS, cls.TYP_ALL):
raise ValueError('unknown instruction type : ' + str(ins_type))
@classmethod
@@ -712,6 +706,8 @@ class DeviceInstruction:
return cls.TYP_VIS
elif ins_type == 'CIS':
return cls.TYP_CIS
elif ins_type == 'ALL':
return cls.TYP_ALL
else:
raise RuntimeError('unknown instruction type : ' + ins_type)
@@ -732,7 +728,6 @@ class DeviceCommonInstruction:
STOP_STIMULATE = "stop_stimulate"
VIS_DEVICE_DETECT = 'VIS_DEVICE_DETECT'
VIS_DEVICE_DONE = 'VIS_DEVICE_DONE'
VIS_CC_ZERO = 'VIS_CC_ZERO'
CIS_VOLT = 'CIS_VOLT'
CIS_VERSION = 'CIS_VERSION'
@@ -745,21 +740,17 @@ class DeviceCommonInstruction:
if instruction == cls.RESET:
return '_sync(False)', '_notify(False)', 'VIS_RST'
elif instruction == cls.START:
return '_data_format("TDC4VAF2")', '_notify(True)', 'VIS_STI', '_sync(True)'
return '_notify(True)', 'VIS_STI', '_sync(True)'
elif instruction == cls.INTERRUPT:
return '_sync(False)', '_notify(False)', 'VIS_INT'
return '_notify(False)', 'VIS_INT', '_sync(False)'
elif instruction == cls.CLOSE:
return '_sync(False)', '_notify(False)', 'VIS_INT'
elif instruction == cls.FLUSH:
return 'VIS_FUH',
elif instruction == cls.CALL:
return 'VIS_CAL',
elif instruction == cls.VIS_DEVICE_DETECT:
return 'VIS_DEVICE_DETECT',
elif instruction == cls.VIS_DEVICE_DONE:
return 'VIS_DEVICE_DONE',
elif instruction == cls.VIS_CC_ZERO:
return 'VIS_CC_ZERO',
elif instruction == cls.RECORD:
return 'VIS_STARTR',
elif instruction == cls.RECORD_ALL:
+44 -5
View File
@@ -4,6 +4,7 @@ from biopro.util.text import part_suffix
from . import *
from .expression import *
import json
class DeviceParameterError(RuntimeError):
__slots__ = ()
@@ -119,6 +120,9 @@ class ParameterDomain(JsonSerialize, metaclass=abc.ABCMeta):
elif json == 'int':
return ParameterIntDomain
elif json == 'float':
return ParameterFloatDomain
elif json == 'property':
return ParameterPropertyDomain
@@ -290,6 +294,25 @@ class ParameterIntDomainType(ParameterTypeDomain):
ParameterIntDomain = ParameterIntDomainType()
class ParameterFloatDomainType(ParameterTypeDomain):
__slots__ = ()
def init_para(self, initial: Optional[Any] = None) -> float:
print('ParameterFloatDomainType')
if initial is None:
return 0
else:
return float(initial)
def valid_para(self, value: int) -> bool:
return True
def __str__(self):
return "float"
ParameterFloatDomain = ParameterFloatDomainType()
class ParameterValueDomain(ParameterDomain, metaclass=abc.ABCMeta):
"""limited/ranged P value domain """
@@ -300,7 +323,7 @@ class ParameterValueDomain(ParameterDomain, metaclass=abc.ABCMeta):
if initial is None:
return self.range[0]
else:
initial = int(initial)
initial = initial
f, t = self.range
if f <= initial < t:
@@ -309,6 +332,8 @@ class ParameterValueDomain(ParameterDomain, metaclass=abc.ABCMeta):
return f
def valid_para(self, value: Any) -> bool:
if isinstance(value, list):
return True
f, t = self.range
return f <= float(value) < t
@@ -489,8 +514,12 @@ class ParameterCollectionValueOperator(metaclass=abc.ABCMeta):
@classmethod
def parse(cls, expr: Union[int, str]) -> 'ParameterCollectionValueOperator':
# parse epression then create value_operator
if isinstance(expr, int):
return SingleValueOperator(None, expr)
elif isinstance(expr, list):
return CollectValueOperator((0, len(expr)), expr)
elif expr == '*':
return AddAllValueOperator
@@ -498,6 +527,10 @@ class ParameterCollectionValueOperator(metaclass=abc.ABCMeta):
elif expr == ':=':
return CollectValueOperator((None, None), [])
elif '[' in expr and ']' in expr:
v = json.loads(expr)
return CollectValueOperator((0, len(v)), v)
elif '=' in expr:
a, v = part_suffix(expr, '=')
@@ -508,6 +541,7 @@ class ParameterCollectionValueOperator(metaclass=abc.ABCMeta):
return CollectValueOperator((None, None), v)
else:
# get list length (old way)
a, b = part_suffix(a, ':')
a = int(a) if len(a) else None
b = int(b) if len(b) else None
@@ -602,8 +636,8 @@ class ParameterCollectionDomain(ParameterDomain, metaclass=abc.ABCMeta):
def __init__(self, domain: ParameterDomain):
super().__init__()
if isinstance(domain, ParameterCollectionDomain):
raise RuntimeError('cannot compose with parameter collection domain')
# if isinstance(domain, ParameterCollectionDomain):
# raise RuntimeError('cannot compose with parameter collection domain')
self._domain = domain
@@ -725,10 +759,12 @@ class ParameterListDomain(ParameterCollectionDomain):
if oper == AddAllValueOperator:
raise ValueError("list parameter cannot accept '*' (all) value")
# d: domain, sz: lsit length, i: slice(a, b), v: list value
d = self.element_domain
sz = len(target)
i = oper.index(sz)
v = oper.value(d)
# print('ParameterListDomain', d, sz, i, v, str(d) == 'float', type(d))
if i is None and v is None:
pass
@@ -767,8 +803,11 @@ class ParameterListDomain(ParameterCollectionDomain):
if isinstance(v, int):
v = [v]
target[i] = v
target[len(v):] = []
if isinstance(d, ParameterFloatDomainType):
target[i] = [float(i) for i in v]
else:
target[i] = v
def _valid_list_limit(self, target: List[Any], inc: int) -> bool:
if self._limit is not None:
+7 -3
View File
@@ -119,7 +119,10 @@ class DeviceConfigurationEncoder:
e.write(b'L\0')
else:
parameter_type = cls._value_type(value[0])
parameter_type = cls._value_type(max(value))
for v in value:
if isinstance(v, int) and v < 0:
parameter_type = parameter_type.lower()
e.write(b'L')
e.write(parameter_type.encode())
e.u8(sz)
@@ -153,7 +156,8 @@ class DeviceConfigurationEncoder:
if isinstance(value, bool):
e.u8(1 if value else 0)
elif isinstance(value, str):
elif isinstance(value, str) or isinstance(value, list):
value = str(value)
e.encode_string(value)
elif isinstance(value, int):
@@ -170,7 +174,7 @@ class DeviceConfigurationEncoder:
if isinstance(value, bool):
return '?'
elif isinstance(value, str):
elif isinstance(value, str) or isinstance(value, list):
return 'p'
elif isinstance(value, int):
+1 -2
View File
@@ -880,8 +880,7 @@ class WhenExpression(ComplexExpression[T]):
def value(self, context: Scope) -> Union[str, T]:
value = super().value(context)
key = str(value)
key = str(int(value))
if key in self._when:
return self._when[key].value(context.child(VALUE=value))
-84
View File
@@ -1,84 +0,0 @@
from .library import *
DEVLIB_GENERATOR_NAME = 'GENERATOR'
REC_CHANNEL_COUNT = 16
MODE_LIST = [
"zero",
"sin",
"ramp"
]
ADC_SAMPLE_RATE_LIST = [
100,
500,
1000,
2500,
4000,
5000
]
AMP_GAIN_LIST = [
0.5,
1,
10,
100,
1000
]
NOISE_LIST = [
0,
0.1,
0.5,
1.0
]
DEVLIB_GENERATOR = DeviceLibrary(DEVLIB_GENERATOR_NAME, DeviceLibraryVersion(0, 6))
DEVLIB_GENERATOR._file = ''
_constant = ConstantScope({
'REC_CHANNEL_COUNT': REC_CHANNEL_COUNT,
'ADC_SAMPLE_RATE_LIST': ADC_SAMPLE_RATE_LIST
})
DEVLIB_GENERATOR._constant = _constant
DEVLIB_GENERATOR._para = ParameterTable({
'MODE': ParameterInfo('MODE',
ParameterConstantRangeDomain(0, 3),
initial=1,
value=ArrayExpression(MODE_LIST),
description='working mode',
record_meta=True),
'CHANNEL': ParameterInfo('CHANNEL',
ParameterSetDomain(ParameterConstantRangeDomain(0, REC_CHANNEL_COUNT)),
initial=[0],
description='record channels',
record_meta=True),
'SAMPLE_RATE': ParameterInfo('SAMPLE_RATE',
ParameterConstantRangeDomain(0, len(ADC_SAMPLE_RATE_LIST)),
value=Expression.parse('ADC_SAMPLE_RATE_LIST[VALUE]'),
description='sampling rate',
alias=['ADC_RATE'],
record_meta=True),
'AMP_GAIN': ParameterInfo('AMP_GAIN',
ParameterConstantRangeDomain(0, len(AMP_GAIN_LIST)),
initial=1,
value=ArrayExpression(AMP_GAIN_LIST),
description='amp gain',
record_meta=True),
'NOISE': ParameterInfo('NOISE',
ParameterConstantRangeDomain(0, len(NOISE_LIST)),
description='signal noise factor',
record_meta=True),
})
DEVLIB_GENERATOR._inst = InstructionTable({
'start': ListInstruction('start', [
GuardExpression('len(CHANNEL) > 0', 'no recording channel'),
"_data_format('TDC4VAF2')",
"_sync(True)"
])
})
+13
View File
@@ -5,6 +5,13 @@ from .device import *
from .instruction import *
from .parameter import *
def convert_to_float(lst):
# Check if the element is a list (for handling nested lists)
if isinstance(lst, list):
return [convert_to_float(x) for x in lst]
else:
# If it's not a list, convert it to float
return float(lst)
class MatchRule(JsonSerialize, metaclass=abc.ABCMeta):
"""Device matching rule. Program use this table to find correct library according to the response information from
@@ -444,6 +451,12 @@ class DefaultLibraryLoader:
elif guard is not None:
guard = ListGuardExpression([GuardExpression.parse(guard)])
if "float" in str(domain):
initial = convert_to_float(initial)
# print('!@#$%^&')
# print(name, domain, initial, value, value_set)
return ParameterInfo(name, domain,
initial=initial,
+32 -14
View File
@@ -1,4 +1,5 @@
import re
import struct
from random import randint
from time import sleep
from typing import Sequence, Tuple
@@ -283,6 +284,9 @@ class InternalInstruction(SingleInstruction):
PREDEFINED_SET = '_set'
PREDEFINED_CDR = '_cdr'
PREDEFINED_DISABLE_CACHE = '_disable_cache'
PREDEFINED_IDLE = '_idle'
PREDEFINED_COUNTDOWN = '_countdown'
PREDEFINED_TAG = '_tag'
PREDEFINED = (
PREDEFINED_SLEEP,
@@ -294,6 +298,9 @@ class InternalInstruction(SingleInstruction):
PREDEFINED_SET,
PREDEFINED_CDR,
PREDEFINED_DISABLE_CACHE,
PREDEFINED_IDLE,
PREDEFINED_COUNTDOWN,
PREDEFINED_TAG
)
__slots__ = ('_expr', '_para')
@@ -373,7 +380,7 @@ class InternalInstruction(SingleInstruction):
parser.parse_instruction(context, data)
# tag2
class ListInstruction(Instruction, ImmutableListNode[Union[Instruction, Expression[str]]]):
"""Instruction group, allow the name of the instruction or a expression it.
If instruction name is ``None``, ignore it.
@@ -586,7 +593,7 @@ class InstructionContentWidth:
return InstructionContentWidth(z, t, signed_value=s is not None, little_endian=e == '<'), x
# The start from the json file parse
class InstructionContent(JsonSerialize):
"""
**json format**
@@ -680,7 +687,7 @@ class InstructionContent(JsonSerialize):
return ins_type(width, expr, **ins_argv, comment=comment)
# tag1
class InstructionDataContent(InstructionContent):
"""
**json format**
@@ -741,6 +748,7 @@ class InstructionDataContent(InstructionContent):
return ret[index]
def build_instruction(self, context: Scope, buffer: List[int], shift: int = 0) -> int:
# print('build_instruction', context, buffer, shift, self.value(context))
if self._width.is_array:
raise NotImplementedError()
@@ -748,24 +756,33 @@ class InstructionDataContent(InstructionContent):
value = 1
elif self.value(context) == 'false':
value = 0
elif isinstance(self.value(context), list):
value = self.value(context)
else:
value = int(self.value(context))
value = self.value(context)
# print('value', value, type(value))
# print('self._width.bytes_unit', self._width.bytes_unit)
# print('self._width.size', self._width.size)
if self._width.bytes_unit:
if self._width.size == 1:
buffer.append(value)
else:
tmp = []
for _ in range(self._width.size):
tmp.append(value & 0xFF)
value >>= 8
if self._width.little_endian:
buffer.extend(tmp)
else:
buffer.extend(tmp[::-1])
if isinstance(self.value(context), list):
buffer.extend(value)
elif isinstance(value, int):
tmp = []
for _ in range(self._width.size):
tmp.append(value & 0xFF)
value >>= 8
if self._width.little_endian:
buffer.extend(tmp)
else:
buffer.extend(tmp[::-1])
elif isinstance(value, float):
buffer.extend(struct.pack('>f', value))
return 8
else:
@@ -792,6 +809,7 @@ class InstructionDataContent(InstructionContent):
offset += 1
else:
buffer.extend([0]*(self._width.size-len(buffer)))
for i in range(self._width.size):
if self._width.little_endian:
value |= (buffer[offset] << (1 * i))
@@ -1109,7 +1127,7 @@ class SendInstruction(SingleInstruction):
else:
for scope in self._foreach_parameter.for_scope(context):
yield ResolvedSendInstruction(self, self._build_instruction(scope))
# tag3
def _build_instruction(self, context: Scope) -> List[int]:
buffer = []
shift = 0
+45 -20
View File
@@ -359,6 +359,7 @@ class DeviceParameter(JsonSerialize):
# initial parameter table
for para_info in library.parameter_table.values():
# print('DeviceParameter', para_info)
try:
para_value = para_info.init_para()
@@ -510,9 +511,10 @@ class DeviceParameter(JsonSerialize):
:param para: parameter name
:param oper: operator expression
"""
# parse operator return CollectValueOperator instance
if not isinstance(oper, ParameterCollectionValueOperator):
oper = ParameterCollectionValueOperator.parse(oper)
table = self._library.parameter_table
info = table[para]
domain = info.domain
@@ -521,6 +523,7 @@ class DeviceParameter(JsonSerialize):
raise RuntimeError('not a collection parameter ' + para)
target = self._parameter[para]
# print(table, info, domain, target, str(domain) == '[float]', oper)
if isinstance(target, set):
old = set(target)
@@ -528,6 +531,7 @@ class DeviceParameter(JsonSerialize):
old = list(target)
try:
# replace target with new oper
domain.oper_para(target, oper, self._context)
except RuntimeError as e:
raise IllegalParameterValueError(para, str(oper)) from e
@@ -966,7 +970,7 @@ class CompletedDevice(Device):
"""
__slots__ = ('_master', '_device_id', '_device', '_library', '_context',
'_parameter', '_configuration', '_lock', '_feature_mask',
'_cache_battery', '_cache_battery_timestamp', '_coeff', '_status')
'_cache_battery', '_cache_battery_timestamp', '_coeff', '_status', '_occupied_by_project')
def __init__(self, master: MasterDevice, library: DeviceLibrary, device_id: int, device: Device):
"""
@@ -984,6 +988,8 @@ class CompletedDevice(Device):
# device status ( 0: idle, 1: working, 2: error, 3: power off)
self._status = 0
# device be occupied by project
self._occupied_by_project = None
# context
s1 = library.constant
@@ -1012,6 +1018,10 @@ class CompletedDevice(Device):
def device_id(self) -> int:
return self._device_id
@property
def memory_board(self) -> int:
return self._device_id
@property
def device_name(self) -> str:
return self._device.device_name
@@ -1026,7 +1036,7 @@ class CompletedDevice(Device):
@property
def mac_address_in_str(self) -> str:
return ':'.join('{:02x}'.format(b) for b in self._device.mac_address)
return ':'.join('{:02x}'.format(b) for b in self._device.mac_address).upper()
@property
def device(self) -> Device:
@@ -1076,6 +1086,14 @@ class CompletedDevice(Device):
def status(self, new_status):
self._status = new_status
@property
def occupied_by_project(self) -> str:
return self._occupied_by_project
@occupied_by_project.setter
def occupied_by_project(self, new_occupied_by_project):
self._occupied_by_project = new_occupied_by_project
# device parameter getter/setter
def parameters(self) -> List[str]:
@@ -1099,6 +1117,8 @@ class CompletedDevice(Device):
return self._configuration.get_parameter(name, False)
def set_multi_parameters(self, parameter):
if len(parameter) == 0:
return
for (name, value) in parameter[0].items():
if name != 'target':
self.set_parameter(name, value)
@@ -1110,18 +1130,31 @@ class CompletedDevice(Device):
:param value: new parameter P value
"""
info = self._library.parameter_table[name]
# print('info', info.domain, info.domain == 'float', info.domain == '[float]')
if isinstance(info.domain, ParameterCollectionDomain):
self._parameter.oper_parameter(name, value)
elif isinstance(info.domain, ParameterFloatDomainType):
self._parameter.set_parameter(name, float(value))
else:
try:
value = value
# value int
value = int(value)
if isinstance(value, str):
if "." in value:
value = float(value)
else:
value = int(value)
except ValueError as e:
# value float
self._parameter.set_parameter(name, value)
# raise RuntimeError('illegal parameter value : ' + value) from e
else:
if name == 'MODE':
if self.library_name.startswith('Elite_EDC') or 'EIS' in self.library_name:
self.set_parameter('CTRL_HIGH_Z_15', self.get_parameter('HIGHZ_TABLE')[value])
self.set_parameter('TIME_DURATION', 0)
self._parameter.set_parameter(name, value)
on_change = info.on_change
@@ -1274,17 +1307,23 @@ class CompletedDevice(Device):
def as_json(self) -> JSON_OBJECT:
return {
'id': self.device_id,
'name': self.device_name,
'status': self._status,
'device_id': self.device_id,
'device_name': self.device_name,
'device_address': list(self.mac_address),
'device_status': self._status,
'mac_address': self.mac_address_in_str,
'memory_board': self.memory_board,
'serial_number': self.serial_number.as_json(),
'version': self.device_version,
'battery': self.battery,
'parent': self.parent,
'recording_file_name': self.recording_file_name,
'device_version': self.device_version,
'serial_number': self.serial_number.as_json(),
'library_name': self._library.name,
'library_version': str(self._library.version),
'occupied_by_project': self._occupied_by_project,
'configuration': self.configuration.as_json(list_hide=True),
}
@@ -1374,20 +1413,6 @@ class DebugDevice(CompletedDevice):
def read_command_return_data(self) -> Optional[bytes]:
return None
def send_command(self, ins_type: int, ins_oper: int, *instruction: int):
length = len(instruction)
print('instruction send :',
'%02X' % ((ins_type & 0xF0) | (self.device_id & 0x0F)),
'%02X' % ((ins_oper & 0xF0) | (length & 0x0F)),
' '.join(map(lambda v: '%02X' % v, instruction)))
def send_instruction(self, ins_type: int, ins_oper: int, *instruction: int):
length = len(instruction)
print('instruction send :',
'%02X' % ((ins_type & 0xF0) | (self.device_id & 0x0F)),
'%02X' % ((ins_oper & 0xF0) | (length & 0x0F)),
' '.join(map(lambda v: '%02X' % v, instruction)))
@property
def battery(self) -> int:
return 100
+2
View File
@@ -433,6 +433,7 @@ class ParameterInfo(JsonSerialize):
return self._on_change
def init_para(self) -> Any:
# print('initial', self._name, self._initial)
"""
:return: initial P value
:raises value: illegal initial value
@@ -617,6 +618,7 @@ class ParameterInfo(JsonSerialize):
return []
elif isinstance(self._value, ComplexExpression):
print('cast_value_dependency', self._value.dependency)
return self._value.dependency
else:
+6 -9
View File
@@ -26,10 +26,10 @@ cli options
sin : sine save (default)
ramp : ramp
(Elite, Neulive serial)
TC4VAF2 Elite_Legacy
TDC4VAF2 Elite Neulive
Elite_Legacy
Elite Neulive
(NeuliveSTI serial)
NeuliveSTI NeuliveSTI1.0 TDBC4VCTH
NeuliveSTI NeuliveSTI1.0
(EliteZM serial)
EliteZM I4V4Z4T4
(mode :IV, :FG, :CV, :ZT, :VT, :IT)
@@ -317,9 +317,7 @@ class RampGenerator(Generator):
class DeviceGenerator(Generator):
SUPPORT = {
'TC4VAF2': ('Elite_Legacy', '0.0.0'),
'Elite_Legacy': ('Elite_Legacy', '0.0.0'),
'TDC4VAF2': ('Elite', '0.1.0'),
'Elite': ('Elite', '0.1.0'),
'Neulive': ('Neulive', '1.2.0'),
}
@@ -374,7 +372,6 @@ class NeuliveSTIGenerator(Generator):
SUPPORT = {
'NeuliveSTI': ('NeuliveSTI1.0', '1.0.0'),
'NeuliveSTI1.0': ('NeuliveSTI1.0', '1.0.0'),
'TDBC4VCTH': ('NeuliveSTI1.0', '1.0.0'),
}
__slots__ = ('voltage_drop_rate', '_voltage')
@@ -646,10 +643,10 @@ class GeneratorOptions(CliOptions):
sin : sine save (default)
ramp : ramp
(Elite, Neulive serial)
TC4VAF2 Elite_Legacy
TDC4VAF2 Elite Neulive
Elite_Legacy
Elite Neulive
(NeuliveSTI serial)
NeuliveSTI NeuliveSTI1.0 TDBC4VCTH
NeuliveSTI NeuliveSTI1.0
(EliteZM serial)
EliteZM I4V4Z4T4
(mode :IV, :FG, :CV, :ZT, :VT, :IT)
+16 -12
View File
@@ -3697,7 +3697,6 @@ class CC2650Central(LoggerFlag):
def recv(self, timeout: Optional[float] = None) -> Optional[list]:
packet = self._recv_byte()
# print("packet = ", packet)
if packet is None:
return None
@@ -3709,6 +3708,8 @@ class CC2650Central(LoggerFlag):
def _recv_byte(self) -> Optional[int]:
ret = self._recv_bytes(1)
# if ret is not None:
# print('packet = {0}'.format(hex(ret[0]).upper()))
return ret[0] if ret is not None else None
def _recv_bytes(self, size: int = 1) -> Union[None, bytes]:
@@ -3724,27 +3725,28 @@ class CC2650Central(LoggerFlag):
return None
def _recv_event(self, timeout: Optional[float] = 1) -> Optional[list]:
code = self._recv_byte()
# print("code = ", code)
packet = self._recv_byte()
if code is None:
if packet is None:
return None
length = self._recv_byte()
# print('code::',code,'length::',length)
_start = _time()
len_b = _struct.pack("B", length)
data = b''
while len(data) < length:
ret = self._recv_bytes(length - len(data))
# print("ret = ", ret)
_start = _time()
if ret is not None:
data += ret
while len(data) < length:
packets = self._recv_bytes(length - len(data))
# hex_packets = ''.join(format(i, '02x') for i in packets)
# print("packets = ", hex_packets.upper())
if packets is not None:
data += packets
elif timeout is not None and _time() - _start > timeout:
raise RecvTimeout()
data = len_b + data
self._interface.flush()
return list(data)
@@ -3760,5 +3762,7 @@ class CC2650Central(LoggerFlag):
raise RecvTimeout()
else:
uart_data_hex = ''.join(format(i, '02X') for i in uart_data)
# print('uart_data: 0x{0}'.format(uart_data_hex.upper()))
return uart_data
+49 -138
View File
@@ -13,7 +13,7 @@ MSM_REG_WRITE = 0x01
MEM_INS_WRITE = 0x02
MEM_INS_READ = 0x03
MEM_REG_READ = 0x05
DEFAULT_REGISTER_VALUE = 0b0100_0011 # 67
DEFAULT_REGISTER_VALUE = 0b0100_0001 # 0x41
MEM_SIZE = 0x1000
_SLEEP_TIME_ = 0.001
@@ -35,7 +35,7 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
'_pin_ram_sel_value', '_pin_mem_sel_value', '_pin_mem_req_value',
'_read_green_times','_read_red_times',
'_elite_data_len', '_mem_header_len', '_mem_tailer_len', '_single_data_len',
'_head_wrong_cnt')
'_head_wrong_cnt', '_pin_busy_value')
def __init__(self,
select: Selector,
@@ -44,17 +44,17 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
self._spi = HardwareImplSpiInterface(device,
spi_speed=12_000_000)
self._elite_data_len = 40
self._elite_data_len = 120
self._mem_header_len = 3
self._mem_tailer_len = 6
self._single_data_len = self._elite_data_len + self._mem_header_len + self._mem_tailer_len
# buffer
self._tx_buffer_header = [0] * 19
self._tx_buffer_header = [0] * 64
self._tx_buffer_data = [0] * (self._single_data_len * 10 + 3)
# memory control pin
self.pin_busy = OutputPin.get_used(P3Pin.MEM_BZY, True)
self.pin_busy: Optional[InputPin] = InputPin.get_used(P3Pin.MEM_BZY)
self.pin_mem_req = OutputPin.get_used(P3Pin.MEM_REQ, False)
self.pin_mem_sel = OutputPin.get_used(P3Pin.MEM_RST, True) # MEM_RST -> actually which memory board is assign
self.pin_ram_sel: Optional[InputPin] = InputPin.get_used(P3Pin.MEM_SEL) # MEM_SEL -> actually is RAM_SEL, which RAM is assign
@@ -62,6 +62,7 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
self._pin_ram_sel_value = [bool(self.pin_ram_sel) for _ in range(Selector.SIZE)]
self._pin_mem_sel_value = [bool(self.pin_mem_sel) for _ in range(Selector.SIZE)]
self._pin_mem_req_value = [bool(self.pin_mem_req) for _ in range(Selector.SIZE)]
self._pin_busy_value = [bool(self.pin_busy) for _ in range(Selector.SIZE)]
self._read_green_times = 0
self._read_red_times = 0
@@ -76,6 +77,8 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
def set_pin_mem_req(self, value: bool):
channel = self.select
# if self._pin_mem_req_value[channel] == value:
# print('last_req_sig[channel] == value', channel, self._pin_mem_req_value[channel], value, datetime.now())
self.pin_mem_req.output(value)
self._pin_mem_req_value[channel] = value
@@ -96,6 +99,14 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
self._pin_ram_sel_value[channel] = True
return self._pin_ram_sel_value[channel]
def get_pin_busy(self):
channel = self.select
if self.pin_busy.input() == 0:
self._pin_busy_value[channel] = False
else:
self._pin_busy_value[channel] = True
return self._pin_busy_value[channel]
@property
def select(self) -> int:
return self._selector.channel
@@ -190,32 +201,7 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
return green_data_section
def _print_ram_all_data(self):
addr = 0
red_length = int(7000 / 2)
tx_temp = [0] * (red_length + 3)
while True:
tx_temp[0] = MEM_INS_READ
tx_temp[1] = ((addr >> 8) & 0xFF)
tx_temp[2] = (addr & 0xFF)
ram_data = []
ram_data = self._spi.send_byte(tx_temp)
ram_data[0:3] = [255, 255, 255]
print(list(ram_data), len(ram_data), addr)
addr += len(ram_data) - 3
if (7000 < addr + len(ram_data)):
del ram_data
break
print()
return
def recv_memory(self, device: int) -> Optional[bytes]:
self.pin_busy.output(False)
rx = []
try:
@@ -228,53 +214,11 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
tx_h[1] = 0
tx_h[2] = 0
# -------------------------------------read one times-------------------------------------------
data = []
flag_print = False
data = self._spi.send_byte(tx_h)
if (data[0] != 255 or data[1] != 255 or data[2] != 255):
self._head_wrong_cnt[device] = self._head_wrong_cnt[device] + 1
if (self._head_wrong_cnt[device] <= 5): # print 5 times
print('data_first[0:3] != [255, 255, 255], device:', device, ',', self._head_wrong_cnt[device], 'times')
print(list(data))
data[0:3] = [255, 255, 255]
# ----------------------------------------------------------------------------------------------
# -------------------------------------read two times-------------------------------------------
# data = []
# data_first = []
# data_second = []
# flag_print = False
# data_first = self._spi.send_byte(tx_h)
# data_second = self._spi.send_byte(tx_h)
# if (data_first[0] != 255 or data_first[1] != 255 or data_first[2] != 255):
# self._head_wrong_cnt[device] = self._head_wrong_cnt[device] + 1
# if (self._head_wrong_cnt[device] < 10):
# print('data_first[0:3] != [255, 255, 255], device:', device, ',', self._head_wrong_cnt[device], 'times')
# print(list(data_first))
# if (data_second[0] != 255 or data_second[1] != 255 or data_second[2] != 255):
# self._head_wrong_cnt[device] = self._head_wrong_cnt[device] + 1
# if (self._head_wrong_cnt[device] < 10):
# print('data_second[0:3] != [255, 255, 255], device:', device, ',', self._head_wrong_cnt[device], 'times')
# print(list(data_second))
# if (data_first[3:] == data_second[3:]):
# data = data_first
# data[0:3] = [255, 255, 255]
# else:
# data_third = self._spi.send_byte(tx_h)
# print("read data_third", data_third)
# data = self.compare_green_data(data_first, data_second, data_third, len(tx_h))
# ----------------------------------------------------------------------------------------------
green_data_section = self._compare_green_data_addr_and_flag(data, device)
@@ -286,10 +230,6 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
if length < 12:
print("length < 12")
print("green data print:", data, device, datetime.now())
# if length == 0:
# self._print_ram_all_data()
return None
if green_data_section[2] != 0xA5 or green_data_section[3] != 0x5A:
@@ -305,7 +245,6 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
if (header != 255):
flag_print = True
print("green data: header is not 255: ", header)
# self._print_ram_all_data()
if (elite_data_len != self._elite_data_len):
flag_print = True
@@ -322,28 +261,10 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
tx_d[0] = MEM_INS_READ
tx_d[1] = ((address >> 8) & 0xFF)
tx_d[2] = (address & 0xFF)
# -------------------------------------read one times-------------------------------------------
data = []
data = self._spi.send_byte(tx_d)
data[0:3] = [255, 255, 255]
# ----------------------------------------------------------------------------------------------
# -------------------------------------read two times-------------------------------------------
# data = []
# data_first = []
# data_second = []
# data_first = self._spi.send_byte(tx_d)
# data_second = self._spi.send_byte(tx_d)
# if (data_first[3:] == data_second[3:]):
# data = data_first
# data[0:3] = [255, 255, 255]
# else:
# data_third = self._spi.send_byte(tx_d)
# print("read red data_third", data_third)
# data = self.compare_red_data(data_first, data_second, data_third, len(tx_d))
# ----------------------------------------------------------------------------------------------
if length + 3 <= address + len(data):
rx.extend(data[3:3 + length - address])
del data
@@ -355,27 +276,6 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
address += len(data) - 3
del data
# last_index = 0
# print("_[Debug] @ spi recv data rx, ram_select:", self._pin_ram_sel_value[device], ",", datetime.now())
# for i in range(0, len(rx), self._single_data_len):
# last_index = i
# # print(rx[i:i+self._single_data_len])
# if i == 0:
# print(rx[0:8], 'ram:', rx[47])
# if last_index != 0:
# print(rx[last_index:last_index+8], 'ram:', rx[last_index+47])
# print()
# /*
# * red data formate:
# * ramHdr, ramHdr, ramHdr, (3B)
# * 255, #, data_length, (3B)
# * data, (40B)
# * red_wrong, red_retry_cnt, green_wrong, green_retry_cnt, (4B)
# * check_num, (1B)
# * */
# read again if check num is wrong
index = 0
check_number_print = False
@@ -413,10 +313,6 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
except BaseException as e:
print(e)
finally:
# print("\n")
self.pin_busy.output(True)
return bytes(rx)
def read_register(self) -> int:
@@ -441,6 +337,16 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
self._spi.send_byte(tx)
def test_ram(self, channel: int):
spi_MOSI = [MEM_INS_WRITE, 0, 0, 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15]
self._spi.send_byte(spi_MOSI)
print('device:', channel, 'spi_MOSI:',spi_MOSI)
spi_MISO = [0] * len(spi_MOSI)
spi_MISO[0:3] = [MEM_INS_READ, 0, 0]
spi_MISO = self._spi.send_byte(spi_MISO)
print('device:', channel, 'spi_MISO:', spi_MISO)
class ExtMemManager:
def __init__(self, ext_mem: MultiExtMemSpiInterface):
self._ext_mem = ext_mem
@@ -477,28 +383,31 @@ class ExtMemManager:
ret[channel] = tuple(r)
print('ret=', ret)
return ret
@staticmethod
def is_no_device(result: Tuple[Optional[int], Optional[int]]) -> bool:
def is_memory_test_fail(result: Tuple[Optional[int], Optional[int]], channel: int) -> int:
r1, r2 = result
return (r1 is None or r2 is None) and (r1 is None or r1 == 0) and (r2 is None or r2 == 0)
r1_check = False
r2_check = False
@staticmethod
def is_memory_test_fail(result: Tuple[Optional[int], Optional[int]]) -> int:
r1, r2 = result
if r1 is not None and r1 != 0:
if (r1 & 0b11000001 == DEFAULT_REGISTER_VALUE & 0b11000001):
r1_check = True
print('device:', channel, 'ram0 ready')
if r2 is not None and r2 != 0:
if (r2 & 0b11000001 == DEFAULT_REGISTER_VALUE & 0b11000001):
r2_check = True
print('device:', channel, 'ram1 ready')
print('--------------------')
if r1 is None or r2 is None:
if r1_check and r2_check:
return 0
else:
return 1
if r1 is not None and r1 > 0 and r1 != DEFAULT_REGISTER_VALUE:
return 2
if r2 is not None and r2 > 0 and r2 != DEFAULT_REGISTER_VALUE:
return 3
return 0
def get_available_channel(self, result: List[Tuple[Optional[int], Optional[int]]] = None) -> List[int]:
if result is None:
result = self.get_ext_mem_register()
@@ -506,12 +415,14 @@ class ExtMemManager:
ret = []
for channel, result in enumerate(result):
if self.is_no_device(result):
continue
if self.is_memory_test_fail(result) != 0:
if self.is_memory_test_fail(result, channel) != 0:
continue
ret.append(channel)
# test ram
# for channel in self._ext_mem.foreach():
# if channel == 4 or channel == 5:
# self._ext_mem.test_ram(channel)
return ret
+3 -1
View File
@@ -28,7 +28,7 @@ class UARTInterface(LowLevelHardwareInterface):
self._serial = serial.Serial(self._port,
baudrate=self._baudrate,
timeout=0,
writeTimeout=0.01)
writeTimeout=1)
# deprecate function name which change at version 3.0
self._serial.flushInput()
self._serial.flushOutput()
@@ -53,6 +53,8 @@ class UARTInterface(LowLevelHardwareInterface):
:param data: raw byte instruction
:raises SerialTimeoutException:
"""
data_hex = ''.join(format(i, '02X') for i in data)
# print('send_byte: 0x{0}'.format(data_hex.upper()))
self._serial.write(data)
def recv_byte(self, size: int) -> Optional[bytes]:
+4 -4
View File
@@ -118,13 +118,13 @@ class Selector:
self._p2.output(p[2])
# if (value == 4 and self._last_sel != 6):
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel)
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel, datetime.now())
# elif (value == 5 and self._last_sel != 4):
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel)
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel, datetime.now())
# elif (value == 7 and self._last_sel != 5):
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel)
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel, datetime.now())
# elif (value == 6 and self._last_sel != 7):
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel)
# print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel, datetime.now())
self._last_sel = value
+8
View File
@@ -24,3 +24,11 @@ class Action():
@property
def condition(self):
return self._condition
def as_json(self):
return {
'id': self._id,
'type': self._type,
'target': self._target,
'condition': self._condition
}
+61 -12
View File
@@ -45,8 +45,8 @@ class Condition():
# print(operator, x, y)
cases = {
"equal": lambda a, b: a == b,
"bigger": lambda a, b: a > b,
"smaller": lambda a, b: a < b,
"bigger": lambda a, b: a >= b,
"smaller": lambda a, b: a <= b,
}
return cases[operator](x, y)
@@ -56,7 +56,8 @@ class Condition():
return getattr(self, self.type)(**kwargs)
def absolute_time(self, **kwargs):
now = int(time())
# now = int(time())
now = round(time(), 1)
time_condition = round(self.datetime_to_timestamp(self.str_to_datetime(self._value)))
return self.compareWith(self.comparsion, now, time_condition)
@@ -65,32 +66,80 @@ class Condition():
project_start_time = kwargs['project_start_time']
delay_time = kwargs['delay_time']
time_diff = int(time() - project_start_time - delay_time)
return self.compareWith(self.comparsion, time_diff, int(self._value))
# time_diff = int(time() - project_start_time - delay_time)
time_diff = round(time() - project_start_time - delay_time, 1)
return self.compareWith(self.comparsion, time_diff, round(int(self._value), 1))
def after_task_run(self, **kwargs):
# print('relative_time_from_task', kwargs,kwargs['task_start_time'],kwargs['delay_time'])
# print('relative_time_from_task', kwargs['task_start_time'],kwargs['delay_time'])
if len(kwargs['task_start_time']) == 0:
return False
task = kwargs['self_task']
running_task = kwargs['running_task']
task_start_time = kwargs['task_start_time'][-1]
delay_time = kwargs['delay_time']
time_diff = int(time() - task_start_time - delay_time)
# print('time_diff', time_diff)
return self.compareWith(self.comparsion, time_diff, int(self._value))
time_diff = round(time() - task_start_time - delay_time, 1)
# print('real_diff', time() - task_start_time - delay_time)
# print(task.name, task.uuid, time_diff, round(int(self._value), 1), running_task.name, running_task.uuid)
# if round(int(self._value), 1) == 0 and time_diff == 0.1:
# return True
if task.uuid != running_task.uuid:
return False
return self.compareWith('bigger', time_diff, round(int(self._value), 1))
# return self.compareWith(self.comparsion, time_diff, round(int(self._value), 1))
def device(self, **kwargs):
print('device')
def previous_task_done(self, **kwargs):
""" def previous_task_done(self, **kwargs):
running_task = kwargs['running_task']
if running_task.status == 2 and self._active == False:
self._active = True
return True
return False """
def previous_task_done(self, **kwargs):
running_task = kwargs['running_task']
self_task = kwargs['self_task']
# if running_task != None and self_task != None:
# print('\nprevious_task_done: ', running_task.status, ' ', self._active)
if running_task != self_task:
if running_task == None:
return True
if running_task.status == 2 and self._active == False:
# self._active = True
return True
return False
def until_button_trigger(self, **kwargs):
running_task = kwargs['running_task']
if running_task != None:
if running_task.button_trigger == True:
running_task.button_trigger = False
return True
return False
""" def cycle(self, **kwargs):
running_task = kwargs['running_task']
self_task = kwargs['self_task']
if running_task != self_task:
if running_task.status == 2 and self._active == False:
# self._active = True
return True
return False """
def str_to_datetime(self, time_str):
return datetime.strptime(time_str,'%Y-%m-%dT%H:%M')
def datetime_to_timestamp(self, date):
return datetime.timestamp(date)
return datetime.timestamp(date)
def as_json(self):
return {
'id': self._id,
'type': self._type,
'comparsion': self._comparsion,
'value': self._value,
'active': self._active
}
+6 -1
View File
@@ -22,6 +22,7 @@ class Instruction():
self._start_instruction = list(map(lambda ins: self._instruction_set[ins] ,['set_file_name', 'set_parent', 'set_parameter', 'call_instruction']))
self._stop_instruction = list(map(lambda ins: self._instruction_set[ins] ,['call_instruction']))
self._idle_instruction = []
@property
def start(self) -> list:
@@ -29,4 +30,8 @@ class Instruction():
@property
def stop(self) -> list:
return self._stop_instruction
return self._stop_instruction
@property
def idle(self) -> list:
return self.idle_instruction
+221 -38
View File
@@ -1,6 +1,7 @@
import sys
import json
import threading
import logging
from time import time, sleep
from datetime import datetime
@@ -14,48 +15,84 @@ from .instruction import Instruction
from biopro.device.manager import DeviceManager
from biopro.text import *
from biopro.db.base import Session
from biopro.db.collection import Collection
key_list = {
'deviceList': 'device',
}
class Project(threading.Thread):
def __init__(self, project, device_manager: DeviceManager, mqttThread = None, name="project"):
def __init__(self, project, device_manager: DeviceManager, mqttThread = None, log_verbose = None, name="project"):
super(Project, self).__init__(name = name)
self._project = project
self._device_manager = device_manager
self._mqtt_thread = mqttThread
self._time_interval = 1
self._time_interval = 0.1
self._start_time = None
self._end_time = None
self._id = None
self._uuid = uuid4()
self._uuid = str(uuid4())
self._name = None
self._desc = None
self._device = None
self._complete_device = []
self._status = None
self._complete_device = {}
self._status = 0
self._instruction_set = Instruction()
self._stop_flag = False
self._task_manager = None
self._cycle = []
self._count = 1 #流水號
self.log_verbose = log_verbose
self._logger = logging.getLogger('project')
self._logger.setLevel('DEBUG')
self._formatter = logging.Formatter('[%(asctime)s.%(msecs)03d] %(message)s', datefmt='%Y-%m-%d %H:%M:%S')
self._formatter_with_nothing = logging.Formatter('%(message)s')
self.setup_project(project)
self.setup_device(self._device)
# create log file handler
fh = logging.FileHandler(f'/home/pi/logger/project/{self.uuid}.log', mode="w")
fh.setFormatter(self._formatter)
self._logger.addHandler(fh)
default_name = 'admin'
default_parent = {"folder": [1]}
collection = Collection.find_collection(default_name, default_parent)
parent = {"folder": [collection.id]}
# create project folder
collection = Collection.create_collection(self.name, parent)
self.setup_collection(collection)
def setup_project(self, project):
for (key, value) in project.items():
if key in key_list.keys():
key = key_list[key]
if key == 'task':
self._task_manager = TaskManager(project['task'])
self._task_manager = TaskManager(project['task'], project['cycle'])
elif key == 'uuid':
pass
else:
setattr(self, key, value)
def setup_device(self, device_list):
for device in device_list:
complete_device = self._device_manager.get_device(device['connectDevice']['device_address'])
self._complete_device.append(complete_device)
mac_address = device_list[device]['pair']
complete_device = self._device_manager.get_device(mac_address)
complete_device.occupied_by_project = self._uuid
self._complete_device[device] = complete_device
def setup_collection(self, collection):
self._task_manager.create_collection(collection)
@property
def id(self) -> int:
@@ -80,6 +117,14 @@ class Project(threading.Thread):
@name.setter
def name(self, new_name):
self._name = new_name
@property
def cycle(self) -> list:
return self._cycle
@cycle.setter
def cycle(self, new_cycle):
self._cycle = new_cycle
@property
def desc(self) -> str:
@@ -107,17 +152,36 @@ class Project(threading.Thread):
@property
def task_list(self):
return self.task_manager.task_list
return self._task_manager.export_task_list
@property
def mqtt_thread(self):
return self._mqtt_thread
@property
def running_task(self):
return self._task_manager.running_task
def get_device_parameter_set(self, device_address):
parameter_set = self._task_manager.running_task.parameter_set
return next((x for x in parameter_set if parameter_set[x]['target'] == device_address), None)
def get_cycle(self, task):
for index, _cycle in enumerate(self.cycle):
if task.uuid in _cycle['range']:
return _cycle
def run(self):
# project status change running (1)
self._status = 1
# save start time
self._start_time = time()
self.mqtt_thread.broadcast_command('project:' + self._name + ' start_at ' + datetime.now().strftime('%Y-%m-%d %H:%M:%S.%f')[:-3])
# saving & broadcast message
self._logger.info('Project ' + self.name + ' start')
self.log_verbose('Project ' + self.name + ' start')
self.mqtt_thread.broadcast_command('project:' + self._name + ' start at ' + datetime.now().strftime('%Y-%m-%d %H:%M:%S.%f')[:-3])
while not self._stop_flag :
# check running task first
delay_time = 0
@@ -126,48 +190,111 @@ class Project(threading.Thread):
for task in check_list:
if task != None:
now = time()
# print('round task', task.name)
# print('running task', self._task_manager.running_task.name, self._task_manager.running_task.status)
# if self._task_manager.prev_task != None:
# print('previous_task', self._task_manager.prev_task.name, self._task_manager.prev_task.status)
match_condition_list = task.check_condition(
project_start_time = self._start_time,
delay_time = delay_time,
running_task= self._task_manager.running_task,
previous_task = self._task_manager.prev_task
previous_task = self._task_manager.prev_task,
self_task = task
)
# print('match_condition_list', match_condition_list)
for condition in match_condition_list:
match_action_list = task.get_match_action(condition.id)
print('match_action_list', match_action_list, match_action_list)
for action in match_action_list:
# print('match_action', action.type, action.target)
if action.type == 'start' and task.status != 1:
self._task_manager.set_running_task(task)
if action.type == 'cycle' and condition.type == 'previous_task_done':
self.mqtt_thread.broadcast_command('project:task ' + task.name + ' start at ' + datetime.now().strftime('%Y-%m-%d %H:%M:%S.%f')[:-3])
self._task_manager.set_running_task(task)
cycle_info = self.get_cycle(task)
if cycle_info['useID'] == False:
self._logger.info(f'---------- Cycle {task.name} Round {cycle_info["count"]} -----------')
if action.type == 'cycle' and condition.type == 'until_button_trigger':
self._task_manager.running_task.stop()
self._logger.info(f'---------- Cycle {cycle_info["id"]} Round {cycle_info["count"]} -----------')
device = self._complete_device[action.target]
task_info = task.get_task_info(action)
instruction_set = getattr(self._instruction_set, action.type, None)
# print('instruction_set',instruction_set)
if instruction_set != None:
for instruction in instruction_set:
args = list(map(lambda arg: task_info[arg], instruction['arguments']))
threading.Thread(target=getattr(device, instruction['method'])(*args))
if self._task_manager.running_task != None:
if self._task_manager.running_task.uuid == task.uuid and action.type == 'cycle' and condition.type == 'after_task_run':
self._task_manager.running_task.stop()
if action.type == 'start':
if task.status != 1:
self._task_manager.set_running_task(task)
self._logger.info(f'Task {str(self._task_manager.running_task.name)} start')
self.mqtt_thread.broadcast_command('project:task ' + task.name + ' start at ' + datetime.now().strftime('%Y-%m-%d %H:%M:%S.%f')[:-3])
# elif action.type == 'stop':
# self.mqtt_thread.broadcast_command('project:task ' + str(self._task_manager.running_task.name) + ' stop at ' + datetime.now().strftime('%Y-%m-%d %H:%M:%S.%f')[:-3])
# self._count += 1
# if self.check_running_task_not_run() == True:
# self._task_manager.running_task.stop()
elif action.type == 'idle':
self._task_manager.running_task.stop()
# elif action.type == 'stop':
# self._task_manager.running_task.stop()
instruction_set = None
if action.target is not None:
device = self._complete_device[action.target]
if ((action.type == 'start' and device.status == 0) or (action.type == 'stop' and device.status == 1)):
self._logger.info(f'Device {device.mac_address_in_str} {action.type}')
self.log_verbose('Project' + self.name + 'Task ' + task.name + ' match_condition ' + condition.type + ' trigger_action ' + action.type + ' ' + str(action.target))
task_info = task.get_task_info(action)
instruction_set = getattr(self._instruction_set, action.type, None)
# 檔名修正
# device
task_info['file_name'] += '#' + device.mac_address_in_str[12:].upper()
# 流水號
task_info['file_name'] += '#' + str(self._count)
# 添加cycle資訊
if len(self.cycle) > 0:
index = self._task_manager.get_index_by_task(task)
# get list of cycle determine by index of task
filtered = list(filter(lambda info: self._task_manager.get_index_by_uuid(info['range'][0]) < index and self._task_manager.get_index_by_uuid(info['range'][1]) > index, self.cycle))
if len(filtered) == 0:
pass
elif len(filtered) == 1:
if filtered[0]['useID'] == True:
task_info['file_name'] += '#' + str(filtered[0]['id'])
else:
task_info['file_name'] += '#' + str(filtered[0]['name']) + '-' + str(filtered[0]['count'])
else:
# if multi cycle, then sort by range from task index to cycle start index, then loop concat filename
filtered.sort(key=lambda info: abs(self._task_manager.get_index_by_uuid(info['range'][0]) - index))
for cycle_info in filtered:
if cycle_info['useID'] == True:
task_info['file_name'] += '#' + str(cycle_info['id'])
else:
task_info['file_name'] += '#' + str(cycle_info['name']) + '-' + str(cycle_info['count'])
self.log_verbose('file name ' + task_info['file_name'])
if instruction_set != None and self.get_device_parameter_set(action.target) != None:
for instruction in instruction_set:
print('instruction 1', device, instruction, datetime.now())
args = list(map(lambda arg: task_info[arg], instruction['arguments']))
target=getattr(device, instruction['method'])(*args)
print('instruction 2', device, instruction, datetime.now())
if action.type == 'start':
self._count += 1
delay_time += (time() - now)
# check task not running then stop
if self.check_running_task_not_run() == True:
self.mqtt_thread.broadcast_command('project:task ' + str(self._task_manager.running_task.name) + ' stop at ' + datetime.now().strftime('%Y-%m-%d %H:%M:%S.%f')[:-3])
# self._logger.info(f'taskType {self._task_manager.running_task.name} {self._task_manager.running_task.type}')
if self._task_manager.running_task.type == '':
self._logger.info(f'Task {self._task_manager.running_task.name} stop')
self.mqtt_thread.broadcast_command('project:task ' + str(self._task_manager.running_task.name) + ' stop at ' + datetime.now().strftime('%Y-%m-%d %H:%M:%S.%f')[:-3])
self._task_manager.running_task.stop()
# check project done then close project
if self.check_project_done() == True:
self.mqtt_thread.broadcast_command('project:project ' + str(self._name) + ' stop at ' + datetime.now().strftime('%Y-%m-%d %H:%M:%S.%f')[:-3])
print('project stop at', datetime.now())
self.close()
self.stop()
if self._time_interval - delay_time > 0:
sleep(self._time_interval - delay_time)
@@ -176,9 +303,24 @@ class Project(threading.Thread):
# TODO
pass
def close(self):
def stop(self):
for device in self._complete_device:
self._complete_device[device].occupied_by_project = None
self._task_manager.running_task.stop()
self.mqtt_thread.broadcast_command('project:task ' + str(self._task_manager.running_task.name) + ' stop at ' + datetime.now().strftime('%Y-%m-%d %H:%M:%S.%f')[:-3])
self._status = 2
self._end_time = time()
self._stop_flag = True
self._logger.info('Project ' + self.name + ' stop')
self.mqtt_thread.broadcast_command('project:project ' + str(self._name) + ' stop at ' + datetime.now().strftime('%Y-%m-%d %H:%M:%S.%f')[:-3])
def close(self):
for device in self._complete_device:
self._complete_device[device].occupied_by_project = None
self._status = 2
self._end_time = time()
self._stop_flag = True
self.mqtt_thread.broadcast_command('project:project ' + str(self._name) + ' stop at ' + datetime.now().strftime('%Y-%m-%d %H:%M:%S.%f')[:-3])
def check_project_done(self):
for task in self._task_manager.task_list:
@@ -187,23 +329,64 @@ class Project(threading.Thread):
return False
return True
def set_content(self, content):
self.running_task.button_trigger = True
def set_cycle(self, index, content):
# change cycle name
for key in content:
self.cycle[index][key] = content[key]
# change task name
# self._task_manager.get_task_by_uuid(self.cycle[index]['range'][0]).name = content['name']
# self._task_manager.get_task_by_uuid(self.cycle[index]['range'][1]).name = content['name']
def check_running_task_not_run(self):
# if no running task
if self._task_manager.running_task == None:
return False
device_list = self._task_manager.running_task.device
for device in device_list:
# if running is cycle then no need to stop by device
if self._task_manager.running_task.type == 'cycle':
return False
for key in self._task_manager.running_task.action:
# print('action key', key, self._task_manager.running_task, self._task_manager.running_task.action[key])
if len(self._task_manager.running_task.parameter_set) == 0 and self._task_manager.running_task.action[key]['type'] == 'stop':
return False
if len(self._task_manager.running_task.parameter_set) == 0 and self._task_manager.running_task.action[key]['type'] == 'idle':
return False
for device in self._task_manager.running_task.device:
if self._complete_device[device].status == 1:
return False
return True
def as_json(self):
return {
running_task = None
if self._task_manager.running_task is not None:
running_task = self._task_manager.running_task.as_json()
data = {
'id': self._id,
'name': self._name,
'uuid': self._uuid,
'desc': self._desc,
'status': self._status,
'device': self._device,
'task_list': self.task_list,
'task': self.task_list,
'running_task': running_task,
'cycle': self._cycle,
'count': self._count,
}
return data
def info_pass_data_server(self):
if self._task_manager.running_task is not None:
running_task = self._task_manager.running_task.as_json()
data = {
'project': self._uuid,
'task': running_task,
'cycle': self._cycle,
'serial_number': self._count,
}
return data
+22 -7
View File
@@ -9,13 +9,14 @@ def json_stringify(o: Any) -> str:
return _json_stringify(o, separators=(',', ':'))
class ProjectManager():
def __init__(self, device_manager: DeviceManager, mqtt_thread=None) :
def __init__(self, device_manager: DeviceManager, mqtt_thread=None, log_verbose = None) :
self._project_list = []
self._mqtt_thread = mqtt_thread
self._device_manager = device_manager
self.log_verbose = log_verbose
def create(self, project):
new_project = Project(project, self._device_manager, self._mqtt_thread)
new_project = Project(project, self._device_manager, self._mqtt_thread, self.log_verbose)
self._project_list.append(new_project)
return new_project
@@ -23,11 +24,25 @@ class ProjectManager():
self._project_list[index].stop()
del self._project_list[index]
def get(self):
return self._project_list
def get(self, project_uuid = None):
if project_uuid == None:
return self._project_list
else:
for project in self._project_list:
if project.uuid == project_uuid:
return project
def run(self, project):
def run_project(self, project):
project.start()
def stop(self, project):
project.stop()
def stop_project(self, project):
_project = self.get(project)
_project.stop()
def set_project(self, project_uuid, content):
_project = self.get(project_uuid)
_project.set_content(content)
def set_project_cycle(self, project_uuid, index, content):
_project = self.get(project_uuid)
_project.set_cycle(index, content)
+62 -2
View File
@@ -12,29 +12,39 @@ key_list = {
class Task:
def __init__(self, task):
self._id = None
self._uuid = None
self._type = None
self._name = None
self._parent = None
self._cycle = None
self._cycle_count = 0
self._cycle_next = None
self._cycle_next_uuid = None
self._device = None
self._event = None
self._trigger = None
self._parameter_set = None
self._condition = None
self._action = None
# -1: initial 0: start(idle), 1: running, 2: close(idle)
# -1: init 0: start(idle), 1: run, 2: close(idle)
self._status = 0
self._next = None
# action & condition info
self._condition_list: List[Condition] = []
self._action_list: List[Action] = []
self._instruction_list = []
self._record_list = []
# time info
self._start_time = []
self._idle_time = []
self._end_time = []
self._period = None
# trigger info
self._button_trigger = False
self.load_task(task)
def load_task(self, task) -> None:
@@ -74,6 +84,14 @@ class Task:
@uuid.setter
def uuid(self, new_uuid):
self._uuid = new_uuid
@property
def type(self):
return self._type
@type.setter
def type(self, new_type):
self._type = new_type
@property
def name(self):
@@ -100,6 +118,31 @@ class Task:
@cycle.setter
def cycle(self, new_cycle):
self._cycle = new_cycle
# TODO: not sure needed?
@property
def cycle_count(self) -> int:
return self._cycle_count
@cycle_count.setter
def cycle_count(self, new_cycle_count):
self._cycle_count = new_cycle_count
@property
def cycle_next(self) -> str:
return self._cycle_next
@cycle_next.setter
def cycle_next(self, new_cycle_next):
self._cycle_next = new_cycle_next
@property
def cycle_next_uuid(self) -> str:
return self._cycle_next_uuid
@cycle_next_uuid.setter
def cycle_next_uuid(self, new_cycle_next_uuid):
self._cycle_next_uuid = new_cycle_next_uuid
@property
def device(self) -> dict:
@@ -177,6 +220,14 @@ class Task:
def end_time(self) -> List:
return self._end_time
@property
def button_trigger(self) -> List:
return self._button_trigger
@button_trigger.setter
def button_trigger(self, button_trigger):
self._button_trigger = button_trigger
def new_start_time(self):
self._start_time.append(time())
@@ -207,6 +258,10 @@ class Task:
def stop(self):
self.status = 2
def reset(self):
self.status = -1
# self.status = 0
def get_match_action_list(self, match_condition_list):
return map(lambda condition: [x for x in self._action_list if condition.id in x.get_condition_list()], match_condition_list)
@@ -230,7 +285,7 @@ class Task:
return {
'device': action.target,
'parameter': self.get_parameter_set_by_device(action.target),
'file_name': self._name + '-' + str(action.target),
'file_name': self._name,
'parent': self.parent,
'instruction': _type
}
@@ -240,7 +295,12 @@ class Task:
'id': self.id,
'name': self.name,
'parent': self.parent,
'type': self.type,
'uuid': self.uuid,
'cycle': self.cycle,
'cycle_count': self.cycle_count,
'cycle_next': self.cycle_next,
'cycle_next_uuid': self.cycle_next_uuid,
'device': self.device,
'event': self.event,
'trigger': self.trigger,
+100 -3
View File
@@ -5,6 +5,7 @@ from xml.dom.expatbuilder import parseString
import paho.mqtt.client as mqtt
from biopro.text import *
from .task import Task
from biopro.db.collection import Collection
_RUNTIME_COMPILE = False
@@ -12,11 +13,12 @@ def json_stringify(o: Any) -> str:
return _json_stringify(o, separators=(',', ':'))
class TaskManager():
def __init__(self, task_list):
def __init__(self, task_list, cycle_list):
self._task_list = []
self._next_task = []
self._prev_task = None
self._running_task = None
self._cycle_list = cycle_list
self.load_task_list(task_list)
@@ -28,6 +30,10 @@ class TaskManager():
def task_list(self):
return self._task_list
@property
def export_task_list(self):
return [d.as_json() for d in self._task_list]
@property
def prev_task(self):
return self._prev_task
@@ -40,6 +46,35 @@ class TaskManager():
def next_task(self):
return self._next_task
def get_task_by_index(self, index):
return self._task_list[index]
def get_task_by_uuid(self, uuid):
return next((x for x in self.task_list if x.uuid == uuid), None)
def get_index_by_task(self, task):
return next((i for i, x in enumerate(self.task_list) if x.uuid == task.uuid), None)
def get_index_by_uuid(self, uuid):
return next((i for i, x in enumerate(self.task_list) if x.uuid == uuid), None)
def check_task_is_cycle_start(self, task):
for index, cycle in enumerate(self._cycle_list):
if cycle['range'][0] == task.uuid:
return index
def check_task_is_cycle_end(self, task):
for index, cycle in enumerate(self._cycle_list):
if cycle['range'][1] == task.uuid:
return index
def check_task_in_cycle(self, task_index):
for index, cycle in enumerate(self._cycle_list):
if self.get_index_by_uuid(cycle['range'][0]) <= task_index:
if self.get_index_by_uuid(cycle['range'][1]) >= task_index:
return True
return False
@property
def check_list(self):
return [self._running_task, *self._next_task]
@@ -53,7 +88,8 @@ class TaskManager():
task = Task(task)
self._task_list.append(task)
def set_running_task(self, task):
# original version
""" def set_running_task(self, task):
try:
# if there is task running & same task active ,then reject
if self._running_task != None and self._running_task.uuid == task.uuid:
@@ -76,9 +112,70 @@ class TaskManager():
_task = next((task for task in self._task_list if task.uuid == task_uuid), None)
if _task != None:
self._next_task.append(_task)
except RuntimeError as e:
print(e) """
def set_running_task(self, task):
try:
# if there is task running & same task active ,then reject
if self._running_task != None and self._running_task.uuid == task.uuid:
return False
# save task
self._prev_task = self._running_task
# clear next task list
self._next_task.clear()
# set task to running_task
self._running_task = task
self._running_task.run()
# if previous task is still running, then need to close
if self._prev_task != None:
if self._prev_task.status == 1:
self._prev_task.stop()
# if reach cycle end, count < max, then go to cycle start
cycle_start_index = self.check_task_is_cycle_start(task)
cycle_index = self.check_task_is_cycle_end(task)
if cycle_index is None:
# print('next', self._running_task.name, self._running_task.next)
for task_uuid in self._running_task.next:
_task = next((task for task in self._task_list if task.uuid == task_uuid), None)
if _task != None:
_task.reset()
self._next_task.append(_task)
# print('self._next_task', self._next_task)
else:
# print('cycle', self._cycle_list[cycle_index])
cycle = self._cycle_list[cycle_index]
if int(cycle['count']) < int(cycle['max']):
self._next_task.append(self.get_task_by_uuid(cycle['range'][0]))
# cycle['count'] += 1
else:
for task_uuid in self._running_task.next:
_task = next((task for task in self._task_list if task.uuid == task_uuid), None)
if _task != None:
_task.reset()
self._next_task.append(_task)
# cycle['count'] = 1
if cycle_start_index != None:
cycle = self._cycle_list[cycle_start_index]
if int(cycle['count']) < int(cycle['max']):
cycle['count'] += 1
else:
cycle['count'] = 1
except RuntimeError as e:
print(e)
def get_task(self, task_id):
return self._task_list[task_id]
def create_collection(self, parent):
for index, task in enumerate(self._task_list):
if self.check_task_in_cycle(index) == True:
if task.type == '':
collection = Collection.create_collection(task.name, {"folder": [parent.id]})
task.parent = {"folder": [collection.id]}
else:
task.parent = {"folder": [parent.id]}
+34 -16
View File
@@ -118,7 +118,7 @@ class RecordingMetaFile(JsonSerialize):
'_dirty', '_last_modify_time', '_file_size_cache',
'_recording_file_ch', '_recording_sub_file', '_size',
'_parameter', '_parent', '_recording_file_name', '_recording_sub_mini', '_recording_mini_ch',
'_raw_serial_number', '_mini_serial_number', '_device_id')
'_raw_serial_number', '_mini_serial_number', '_device_id', '_project_id')
def __init__(self, filepath: Union[str, Path], data_format: bytes = None, id_db = 0, database = None):
if isinstance(filepath, str):
@@ -153,6 +153,7 @@ class RecordingMetaFile(JsonSerialize):
self._parent = ''
self._recording_file_name = ''
self._device_id = -1
self._project_id = None
# recording parameter
self._configuration = None
@@ -297,6 +298,7 @@ class RecordingMetaFile(JsonSerialize):
'uuid': str(self._file_uuid),
'data_format': 'rec',
'device': self._device,
'project': self._project_id,
}
if len(self._parent) > 0:
@@ -462,7 +464,7 @@ class RecordingMetaFile(JsonSerialize):
def parameter(self) -> str:
return self._parameter
@device.setter
@parameter.setter
def parameter(self, parameter):
self._parameter = parameter
return None
@@ -471,7 +473,7 @@ class RecordingMetaFile(JsonSerialize):
def parent(self) -> str:
return self._parent
@device.setter
@parent.setter
def parent(self, parent):
self._parent = parent
@@ -479,7 +481,7 @@ class RecordingMetaFile(JsonSerialize):
def recording_file_name(self) -> str:
return self._recording_file_name
@device.setter
@recording_file_name.setter
def recording_file_name(self, recording_file_name):
self._recording_file_name = recording_file_name
@@ -492,6 +494,15 @@ class RecordingMetaFile(JsonSerialize):
self._configuration = conf
self._dirty = True
return None
@property
def project_id(self) -> int:
return self._project_id
@project_id.setter
def project_id(self, project: int):
self._project_id = project
return None
@property
def channels(self) -> List[int]:
@@ -1131,14 +1142,17 @@ class RecordingFileWriter:
self._splitting_size = 0
return None
def close(self):
# if self._recording_file is not None:
# self._recording_file.close()
# self._recording_file = None
print('close1')
def close(self, mqtt_thread):
self._close = True
if len(self._recording_file_dict) > 0:
for ch in self._data_db.keys():
if len(self._data_rl[ch]) > 0:
self._data_rl[ch].append(str(int(self._time_now)))
mes = ' '.join(self._data_rl[ch])
mqtt_thread[ch].on_message(mes)
self._data_rl[ch].clear()
self._send_data[ch] = False
if self._recording_file_dict[ch]._status:
_data = ' '.join(self._data_db[ch])
self._raw_save['data'][ch] = _data
@@ -1223,7 +1237,10 @@ class RecordingFileWriter:
def get_data_iter(self, d, mqtt_thread):
# print('****d size', d.data_size)
for t, c, v in d.entry_iter():
for c in d['channels']:
t = d['time']
v = d['data'][c]
if c in self._data_db:
### send real-time
if len(self._data_rl[c]) > 0 and self._send_data[c]:
@@ -1238,11 +1255,11 @@ class RecordingFileWriter:
sample_rate_rl = 1
# rec data
if c < 256:
sample_rate_rl = int(d.sample_rate / ( 500 * len(self.channel_list) )) #* len(self.channel_list)
# others
else:
sample_rate_rl = int(d.sample_rate_channel_upper_256 / ( 1000 * len(self.channel_list)))
# if c < 256:
# sample_rate_rl = int(d.sample_rate / ( 500 * len(self.channel_list) )) #* len(self.channel_list)
# # others
# else:
# sample_rate_rl = int(d.sample_rate_channel_upper_256 / ( 1000 * len(self.channel_list)))
if self._close is False:
self._data_value_ch[c].append(int(v))
self._data_value_ch_for_rl[c].append(int(v))
@@ -1401,7 +1418,7 @@ class RecordingFileWriter:
mini_save = False
if len(self._recording_file_dict) > 0:
for ch in self._data_db.keys():
if self._time_now - self._time[ch] > 5000000:
if self._time_now - self._time[ch] > 5000:
if self._recording_file_dict[ch]._status:
_data = ' '.join(self._data_db[ch])
write_sz = self._recording_file_dict[ch].write(_data, self._channel_list)
@@ -1409,6 +1426,7 @@ class RecordingFileWriter:
self._raw_save['id'][ch] = self._recording_file_dict[ch]._id_db
self._raw_save['end_time'][ch] = self._time_now
self._raw_save['size'][ch] = self._recording_file_dict[ch]._size
self._meta._size += write_sz
self._data_db[ch].clear()
self._time[ch] = self._time_now
self._meta._last_time = self._time_now
+1 -3
View File
@@ -673,9 +673,7 @@ class ControlServerAPI(ControlAPI,
return None
def device_update_calibration(self) -> None:
device_list = self.device_manager.list_device()
for x in device_list:
x.update_calibration_info('TDC4VC')
return None
def device_update_radio_frequency(self, device: int, radio_frequency:int) -> bool:
d = self.device_manager.get_device(device)
+54 -50
View File
@@ -4,7 +4,6 @@ from time import time, sleep
from typing import Iterable
from datetime import datetime
import gc
import base64
from biopro.data import *
@@ -27,7 +26,6 @@ from .mqtt import MqttDataMessageHandler, MqttThread
from .database import DataBaseProcess
from .recording import RecordingProcess
from multiprocessing import Queue
import queue
from json import loads as json_parse, dumps as _json_stringify
import json
@@ -65,7 +63,7 @@ class DataServer(SocketServer, DataAPI):
"""
global _FLAG_DATA_LOST_STATS_
super().__init__(DataAPI, 'DataServer', self.ADDR, socket_listen=3)
super().__init__(DataAPI, 'DataServer', self.ADDR, socket_listen=20)
data_options = DataServerOptions.get_options(*options)
@@ -117,6 +115,9 @@ class DataServer(SocketServer, DataAPI):
self.database_process = DataBaseProcess('data_server', self.log_verbose, self._queue_db, self._queue_ds_dict, self._queue_msg)
self.database_process.start()
# self._no_data_total_duration = 0
# self._recv_memory_cost_time = 0
@logging_info
def setup(self):
self._available_channel.clear()
@@ -314,7 +315,8 @@ class DataServer(SocketServer, DataAPI):
def update_device_configuration(self,
device: str,
meta_file: Union[str, Path, RecordingMetaFile],
data_format: Union[AnyStr, DataDecodeFormat]):
data_format: Union[AnyStr, DataDecodeFormat],
project_info: str):
# meta file
device_id = -1
@@ -342,6 +344,8 @@ class DataServer(SocketServer, DataAPI):
_parent = json_stringify(_device['parent'])
_recording_file_name = _device['recording_file_name']
mac_address = json.loads(device)['device_address']
device_id = _device['device_id']
del _device['configuration']
del _device['parent']
del _device['recording_file_name']
@@ -351,13 +355,22 @@ class DataServer(SocketServer, DataAPI):
# meta_file.parameter = _parameter
# meta_file.parent = _parent
# meta_file.recording_file_name = _recording_file_name
device_id = int(json.loads(device)['device_id'])
if device_id < 0:
raise ValueError('illegal device ID : ' + str(device_id))
self.log_verbose('device ID', device_id)
# project binding meta file
# project_id = None
# _project = None
# if project_info != None:
# _project = json.loads(project_info)
# self.database_process.put_queue(['project_insert', device_id, _project])
# result = self._queue_ds_dict[int(device_id)].get()
# if result[0] == 'project_id':
project_id = project_info
# while len(self._configurations) <= device_id:
# self._configurationsappend(None)
@@ -377,8 +390,6 @@ class DataServer(SocketServer, DataAPI):
else:
data_format = data_format.name
# self.log_verbose('device data format', data_format)
self.log_verbose('device meta file', meta_file)
# data runtime
@@ -403,15 +414,15 @@ class DataServer(SocketServer, DataAPI):
c.shutdown()
c.join()
self._spi.set_wait_flag(c._device, True)
data_runtime_process = RecordingProcess('data_server', self.log_verbose, device_id,
Queue(), self._queue_ds_dict[int(device_id)], self._queue_msg, meta_file,
json_stringify(_device), _parameter, _parent, _recording_file_name,
data_format, self.socket_mqtt_ip, self.socket_mqtt_port,
database = self.database_process )
# data_runtime_process.start()
data_format, self.socket_mqtt_ip, self.socket_mqtt_port,
project_id = project_id,
database = self.database_process)
# check channel
if isinstance(data_runtime_process, RecordingProcess) and device_id not in self._available_channel:
raise RuntimeError('set device configuration on un-available channel', device_id)
@@ -643,6 +654,7 @@ class DataServer(SocketServer, DataAPI):
def whether_to_record(self, device):
# if user click "start", return True; if user click "stop", return False;
if device in self._configurations.keys() and self._configurations[device] is not None:
# print(self._configurations.keys(), ',', device, datetime.now())
return True
else:
return False
@@ -651,6 +663,9 @@ class DataServer(SocketServer, DataAPI):
ret = False
sync = self.get_spi_obj()
busy = sync.get_pin_busy()
# print('pin_busy=', busy, device, datetime.now())
if sync.get_pin_mem_req() == sync.get_pin_ram_sel():
spi_data = sync.recv_memory(device)
signal = sync.get_pin_mem_req()
@@ -659,14 +674,27 @@ class DataServer(SocketServer, DataAPI):
else:
data = None
print('data=None, mem_req!=ram_sel, [', sync.get_pin_mem_req(), ', ', sync.get_pin_ram_sel(), ']', device, datetime.now())
if data is not None:
if self._configurations[device].queue_flag:
self._configurations[device].queue_flag = False
print("q size= ", self._configurations[device]._queue_rec.qsize())
self._configurations[device].put_rec_queue(data)
ret = True
if self._configurations.get(device, None) != None:
if self._configurations[device].queue_flag:
self._configurations[device].queue_flag = False
print("q size= ", self._configurations[device]._queue_rec.qsize())
if self._configurations.get(device, None) != None:
self._configurations[device].put_rec_queue(data)
# self._no_data_total_duration = 0
ret = True
# else:
# time_diff = time() - self._recv_memory_cost_time
# self._no_data_total_duration += time_diff
# if self._no_data_total_duration > 1:
# print('data is None', device, datetime.now(), self._no_data_total_duration)
# print("sync.get_pin_mem_req() != sync.get_pin_ram_sel()")
# print("no~", sync.select, sync.get_pin_mem_req(), sync.get_pin_ram_sel(), datetime.now())
# print()
# self._recv_memory_cost_time = time()
return ret
@@ -686,6 +714,13 @@ class DataServer(SocketServer, DataAPI):
self.mqtt_thread.publish('device_instruction', json_stringify(content), inter = True)
return True
def show_data(self, device):
self._configurations[device].put_rec_queue('show_data')
@logging_info
def tag(self, device: int, data_points: int):
self._configurations[device].put_rec_queue('tag_data')
class DataRuntime(metaclass=abc.ABCMeta):
__slots__ = ('_server', '_device', '_meta_file', '_data_format',
@@ -833,7 +868,7 @@ class GeneratorDataRuntime(DataRuntime):
__slots__ = ('_generator', '_library', '_start_time')
def __init__(self, server: DataServer, device: int, meta_file: RecordingMetaFile):
super().__init__(server, device, meta_file, NulDataDecoder.NAME)
super().__init__(server, device, meta_file, I4V4Z4T4DataDecoder.NAME)
configuration = meta_file.configuration
self._library = library = configuration.library
@@ -940,38 +975,7 @@ class DeviceDataRuntime(DataRuntime):
@property
def data_format(self) -> DataDecodeFormat:
decoder = super().data_format
# transmit calibration gain level to decoder
if isinstance(decoder, TDC4VAF2DataDecoder):
# get amp_gain from meta file
decoder.amp_gain = self.meta_file.configuration.amp_gain
elif isinstance(decoder, TDC4VCDataDecoder):
# get amp_gain from meta file
decoder.amp_gain = self.meta_file.configuration.amp_gain
decoder._channel = self.meta_file.configuration.channel
decoder._adc_clock = self.meta_file.configuration.get_parameter('ADC_CLOCK')
# decoder._time_stamp_list = self._time_stamp_list
decoder._axis_ch = self.meta_file.configuration.get_parameter('AXIS_CH')
decoder._prev_data = self._prev_data
decoder._prev_delta_time = self._prev_delta_time
decoder._prev_time_stamp = self._prev_time_stamp
# elif isinstance(decoder, I4V4Z4T4DataDecoder):
# get cycle_time from meta file
# decoder._mode = self.meta_file.configuration.MODE
# decoder._cycle_start_time = self._cycle_start_time
elif isinstance(decoder, NeuliveThreeOneDataDecoder):
# get amp_gain from meta file
decoder.amp_gain = self.meta_file.configuration.amp_gain
decoder._channel = self.meta_file.configuration.channel
decoder._adc_clock = self.meta_file.configuration.get_parameter('ADC_CLOCK')
# decoder._time_stamp_list = self._time_stamp_list
decoder._axis_ch = self.meta_file.configuration.get_parameter('AXIS_CH')
decoder._prev_data = self._prev_data
decoder._prev_delta_time = self._prev_delta_time
decoder._prev_time_stamp = self._prev_time_stamp
return decoder
return None
def sync_data(self, data = None) -> Optional[List[bytes]]:
if self._timer_of_not_send is None:
+34 -3
View File
@@ -222,7 +222,8 @@ class DataBaseProcess(Process):
try:
sql_cursor.execute(sql_str, sql_set)
except:
except BaseException as e:
print('meta create error', e)
self._psql_conn.commit()
sql_cursor.close()
self._queue_error.put(device_id)
@@ -249,7 +250,8 @@ class DataBaseProcess(Process):
try:
sql_cursor.execute(sql_str, sql_set)
except:
except BaseException as e:
print('meta update error', e)
self._psql_conn.commit()
sql_cursor.close()
self._queue_error.put(device_id)
@@ -550,4 +552,33 @@ class DataBaseProcess(Process):
except psycopg2.Error as e:
print('e', e)
return True
return True
def project_insert(self, device_id, _data):
sql_str = 'INSERT INTO "public"."project_metas" ('
sql_set = []
for item in _data.keys():
sql_str = sql_str + str(item) + ', '
if isinstance(_data[item], dict) or isinstance(_data[item], list):
sql_set.append(json_stringify(_data[item]))
else:
sql_set.append(_data[item])
sql_str = sql_str[0:-2] + ') VALUES ('
for item in _data.keys():
sql_str = sql_str + '%s, '
sql_str = sql_str[0:-2] + ') RETURNING id'
sql_cursor = self._psql_conn.cursor()
try:
sql_cursor.execute(sql_str, sql_set)
except BaseException as e:
print('insert error', e)
self._psql_conn.commit()
sql_cursor.close()
self._queue_error.put()
finally:
self._queue_ds[int(device_id)].put(['project_id', int(sql_cursor.fetchone()[0])])
self._psql_conn.commit()
sql_cursor.close()
+122 -52
View File
@@ -1,6 +1,9 @@
from time import sleep
from typing import Iterable
from datetime import datetime
import json
import threading
from time import time
import biopro.impl.vcgencmd as vcg
from biopro.data import DataServerOptions, DataAPI
@@ -31,8 +34,11 @@ from biopro.api.auth import AuthAPI
from biopro.api.controller import ControllerAPI
from biopro.api.device import DeviceAPI
from biopro.project.project_manager import ProjectManager
### do not import Websocket mode
###from .websocket import WebsocketThread
from biopro.db.base import Base, Session, engine
from biopro.db.project_report import ProjectReport
from biopro.db.project_meta import MetaProjectInfo
from biopro.db.device import Device
_RUNTIME_COMPILE = False
@@ -105,7 +111,7 @@ class ControlServer(SocketServer, ControlServerAPI):
# device detect
self._detect_device_thread = RoutineConnectDeviceThread(self._device_manager, self.mqtt_thread, self.led_thread, 3)
self._project_manager = ProjectManager(self.device_manager, self.mqtt_thread)
self._project_manager = ProjectManager(self.device_manager, self.mqtt_thread, self.log_verbose)
if not c.flag_disable_led_control:
self.led_thread.set_state(LED.COLOR_RED)
@@ -117,8 +123,8 @@ class ControlServer(SocketServer, ControlServerAPI):
self.ups_thread = UPSDetectThread(self, c.flag_ups_wait_time)
# user session
self._session = {}
self._user_session_expire = c.user_session_expire_days * 24 * 60 * 60 # sec
# self._session = {}
# self._user_session_expire = c.user_session_expire_days * 24 * 60 * 60 # sec
# indicate those device together
self._device_instruction_group = None
@@ -129,6 +135,10 @@ class ControlServer(SocketServer, ControlServerAPI):
# _api request build
self._api = ApiRequests()
# sqlalchemy
Base.metadata.create_all(engine)
self._session = Session()
# init method
def _init_file_manager(self, option: ControlServerOptions) -> FileManager:
@@ -819,12 +829,21 @@ class ControlServer(SocketServer, ControlServerAPI):
return True
@logging_info
def device_battery(self) -> List[int]:
device_list = self.device_manager.list_device()
if len(device_list) > 0:
battery_list = list(map(lambda x: self.device_manager.get_device(x).battery, device_list))
return battery_list
def device_battery(self, device:int) -> List[int]:
try:
battery = {}
if device == 'all':
device_list = self.device_manager.list_device()
if len(device_list) > 0:
battery = list(map(lambda x: {"device": x.memory_board, "battery":self.device_manager.get_device(x).battery}, device_list))
else:
battery = {
"device": device,
"battery": self.device_manager.get_device(device).battery
}
except AttributeError as e:
print('device_battery', device, 'not found', e)
return battery
@logging_info
def device_parent(self, device: int, content: Optional[str] = None) -> List[int]:
@@ -845,41 +864,7 @@ class ControlServer(SocketServer, ControlServerAPI):
@logging_info
def device_update_calibration(self, device: int) -> Union[bool, str]:
connect_device = self.device_manager.get_device(device)
mac_address = connect_device.mac_address
try:
if connect_device.library.name.startswith('Neulive3.'):
connect_device.calibration_info('NeuliveThreeOne')
elif connect_device.library.name.startswith('Neulive'):
connect_device.calibration_info('TDC4VC')
elif connect_device.library.name.startswith('EliteEIS'):
connect_device.calibration_info('EISZeroOne')
except BaseException as e:
# reset device info in db
DeviceAPI.updateByMac(
address_str(mac_address),
{
'connect_id': -1,
'connect_status': 'idle',
'auto_connect': False,
}
)
# disconnect device
self.hardware_device_disconnect(device, True)
print(e)
return False
else:
# update_calibration_info
DeviceAPI.updateByMac(
address_str(mac_address),
{
'calibration': str(connect_device.calibration)
}
)
# DeviceAPI.updateByAttrs('connect_status', 'update', {"connect_status": 'connect'})
return True
return None
@logging_info
def device_update_radio_frequency(self, device: int, content:int) -> bool:
@@ -1014,9 +999,42 @@ class ControlServer(SocketServer, ControlServerAPI):
@logging_info
def run_project(self, project) -> bool:
project = self._project_manager.create(project)
self._project_manager.run(project)
return False
if project is not None:
project = self._project_manager.create(project)
with self._session as session:
project_report = ProjectReport(
name = project.name,
uuid = project.uuid,
cycle = project.cycle,
task = project.task_list,
device = project.device
)
session.add(project_report)
session.commit()
self._project_manager.run_project(project)
return project.as_json()
@logging_info
def stop_project(self, project) -> bool:
if project is not None:
self._project_manager.stop_project(project)
return True
@logging_info
def set_project(self, project, content) -> bool:
if project is not None:
self._project_manager.set_project(project, content)
return True
@logging_info
def set_project_cycle(self, project, index, content) -> bool:
if project is not None:
self._project_manager.set_project_cycle(project, index, content)
return True
@logging_info
def get_running_project(self) -> bool:
return self._project_manager.get()
@logging_info
def device_internal_command(self, device: int, oper: str, value: Any) -> bool:
@@ -1034,6 +1052,40 @@ class ControlServer(SocketServer, ControlServerAPI):
elif oper == InternalInstruction.PREDEFINED_DISABLE_CACHE:
return True
elif oper == InternalInstruction.PREDEFINED_IDLE:
device.status = 1
return True
elif oper == InternalInstruction.PREDEFINED_COUNTDOWN:
if value == 'PULSE_OUTPUT':
continue_mode = device.get_parameter('CONTINUE_MODE')
if continue_mode == 0:
stop_time = device.get_parameter('STOP_TIME')
# Function to send the instruction
def send_instruction():
device.call_instruction('deactive_electrode')
# Function to wait for 30 seconds and then execute the instruction
def delayed_execution(stop_time):
sleep(stop_time)
send_instruction()
device.set_parameter('ACTIVATE_ELECTRODE', 0)
self.mqtt_thread.broadcast_command('device_refresh')
# Create a thread for the delayed execution
thread = threading.Thread(target=delayed_execution, args=(stop_time,))
# Start the thread
thread.start()
# Main program continues without waiting for the thread
# print("Main program continues...")
# print('COUNTDOWN!!!', device, oper, value)
# print(device.get_parameter(value), device.get_parameter_value(value))
return True
elif oper == InternalInstruction.PREDEFINED_TAG:
self._device_set_tag(device, bool(value), 5)
else:
return False
@@ -1048,6 +1100,8 @@ class ControlServer(SocketServer, ControlServerAPI):
self.log_verbose('update data format', value)
client = self.data_server.client()
project = None
project_meta_id = None
if client is not None:
info = self.file_manager.use(device)
@@ -1058,9 +1112,13 @@ class ControlServer(SocketServer, ControlServerAPI):
filename = self._file_save_cache.get(device.device_id, self.TEMP_FILENAME_EXPR)
filename = format_filename(filename, device)
info = self.file_manager.save(device, filename)
if device.occupied_by_project != None:
project = self.project_manager.get(device.occupied_by_project).info_pass_data_server()
project_meta_id = MetaProjectInfo.create_project_meta(project)
with client:
client.update_device_configuration(device, info.meta_file, value)
client.update_device_configuration(device, info.meta_file, value, project_meta_id)
def _device_set_disable_cache(self, device: CompletedDevice, disable):
if disable:
@@ -1094,7 +1152,6 @@ class ControlServer(SocketServer, ControlServerAPI):
filename = format_filename(self.TEMP_FILENAME_EXPR, device)
info = self.file_manager.save(device, filename)
client.update_device_configuration(device, info.meta_file, RawDataDecoder())
if self._device_instruction_group is None:
client.start_sync(device)
@@ -1115,6 +1172,12 @@ class ControlServer(SocketServer, ControlServerAPI):
# unset file info, but keep file path cache
self.file_manager.unset(device.device_id)
device.status = 0
def _device_set_tag(self, device: CompletedDevice, sync: bool, n: int):
client = self.data_server.client()
if client is not None:
with client:
client.tag(device, n)
# server provide method implement : websocket broadcast functions
@@ -1328,6 +1391,13 @@ class ControlServer(SocketServer, ControlServerAPI):
def _hardware_send_test_set(self, options: Dict[str, str]) -> bool:
# TODO write options files
return False
@logging_info
def show_device_data(self, device: int):
client = self.data_server.client()
if client is not None:
with client:
client.show_data(device)
class _RandomCrashThread(ServerThread):
def __init__(self):
+81 -90
View File
@@ -44,7 +44,9 @@ class RecordingProcess(Process):
def __init__(self, client_id: str, log_verbose, device_id, queue_rec, queue_ds, queue_msg, meta_path,
device_info, parameter, parent, recording_file_name, data_format,
mqtt_ip, mqtt_port,
name = 'Recording-Process', database = None):
name = 'Recording-Process',
project_id = None,
database = None):
super(RecordingProcess, self).__init__(name = name)
self._database = database
@@ -57,6 +59,7 @@ class RecordingProcess(Process):
self._meta_file._parent = parent
self._meta_file._recording_file_name = recording_file_name
self._meta_file._device_id = device_id
self._meta_file._project_id = project_id
print(self._meta_file._device, self._meta_file._parameter, self._meta_file._parent, self._meta_file._filepath)
self._meta_file.write(self._database)
@@ -92,7 +95,6 @@ class RecordingProcess(Process):
self._prev_time_stamp = []
self._isTimeOut = False
# section use
self._skip_ram_cnt = 0
self._get_first_last_cnt = [True, True, True, True, True, True, True, True]
@@ -100,11 +102,14 @@ class RecordingProcess(Process):
self._wrong_cnt = 0
# elite data length
self._elite_data_len = 40
self._elite_data_len = 120
self._mem_header_len = 3
self._mem_tailer_len = 6
self._single_data_len = self._elite_data_len + self._mem_header_len + self._mem_tailer_len
self._decoder = self.data_format()
self._start_time = time()
def ensure_data_format(self) -> DataDecodeFormat:
if isinstance(self._data_format, (str, bytes)):
self._data_format = DataDecodeFormat.parse(self._data_format)
@@ -119,44 +124,14 @@ class RecordingProcess(Process):
decoder = self.ensure_data_format()
# transmit calibration gain level to decoder
if isinstance(decoder, TDC4VAF2DataDecoder):
# get amp_gain from meta file
decoder.amp_gain = self._meta_file.configuration.amp_gain
elif isinstance(decoder, TDC4VCDataDecoder):
# get amp_gain from meta file
decoder.amp_gain = self._meta_file.configuration.amp_gain
decoder._channel = self._meta_file.configuration.channel
decoder._adc_clock = self._meta_file.configuration.get_parameter('ADC_CLOCK')
# decoder._time_stamp_list = self._time_stamp_list
decoder._axis_ch = self._meta_file.configuration.get_parameter('AXIS_CH')
decoder._prev_data = self._prev_data
decoder._prev_delta_time = self._prev_delta_time
decoder._prev_time_stamp = self._prev_time_stamp
# elif isinstance(decoder, I4V4Z4T4DataDecoder):
# get cycle_time from meta file
# decoder._mode = self._meta_file.configuration.MODE
# decoder._cycle_start_time = self._cycle_start_time
elif isinstance(decoder, NeuliveThreeOneDataDecoder):
# get amp_gain from meta file
decoder.amp_gain = self._meta_file.configuration.amp_gain
decoder._channel = self._meta_file.configuration.channel
decoder._adc_clock = self._meta_file.configuration.get_parameter('ADC_CLOCK')
# decoder._time_stamp_list = self._time_stamp_list
decoder._axis_ch = self._meta_file.configuration.get_parameter('AXIS_CH')
decoder._accelerator_sensitivity = self._meta_file.configuration.get_parameter('ACCELERATOR_S')
decoder._prev_data = self._prev_data
decoder._prev_delta_time = self._prev_delta_time
decoder._prev_time_stamp = self._prev_time_stamp
elif isinstance(decoder, EISZeroOneDataDecoder):
# get amp_gain from meta file
decoder._ac_amp = self._meta_file.configuration.get_parameter('AC_AMP')
if isinstance(decoder, I4V4Z4T4DataDecoder):
decoder._mode = self._meta_file.configuration.get_parameter('MODE')
elif isinstance(decoder, PEL_FMT1_DataDecoder):
decoder._mode = self._meta_file.configuration.get_parameter('MODE')
elif isinstance(decoder, PEL_FMT2_DataDecoder):
decoder._mode = self._meta_file.configuration.get_parameter('MODE')
elif isinstance(decoder, EISZeroOneDataDecoder):
decoder._mode = self._meta_file.configuration.get_parameter('MODE')
decoder._freq_start = self._meta_file.configuration.get_parameter('FREQ_START')
decoder._freq_stop = self._meta_file.configuration.get_parameter('FREQ_STOP')
return decoder
def recv_data_foreach_runtime(self) -> bool:
@@ -183,6 +158,15 @@ class RecordingProcess(Process):
self.final_write()
self.is_closed = True
return False
elif q == 'show_data':
self._decoder._show_data = not self._decoder._show_data
elif q == 'tag_data':
sleep(0.3)
self._decoder._tag_data = True
self._decoder._count = 0
# print('q_size', self._queue_rec.qsize())
while self._queue_rec.empty() != True:
self._queue_rec.get()
else:
self.rec_update()
self.sync_data(q)
@@ -200,53 +184,35 @@ class RecordingProcess(Process):
self._isTimeOut = True
self._timer = current_time
decoder = self.data_format()
# print('sync_data')
# print('data',data)
# print('server/data', self._prev_delta_time,self._prev_time_stamp, self._prev_data)
if data is None or len(data) == 0:
result = decoder.decode(b'')
result = self._decoder.decode(b'')
if result is not None:
ret = result
else:
return None
else:
ret = []
# print('decoder data')
for offset, section in self._foreach_data_section(data):
# for section in self._neu_foreach_data_section(data):
d = self._decoder.decode(section)
result = decoder.decode(section)
# if self._isTimeOut:
# try:
# print('result: ', result.data_size)
# except:
# pass
try:
if isinstance(decoder, I4V4Z4T4DataDecoder) or isinstance(decoder, EISZeroOneDataDecoder):
if decoder.isFinishMode is not None and decoder.isFinishMode() == 1:
self._queue_msg.put(['ds', self._device, 'interrupt'])
# content = {}
# content['header'] = 'device_instruction/0'
# content['device'] = result.device
# content['instruction'] = 'interrupt'
# self._mqtt_thread.publish('device_instruction',json_stringify(content), True)
# self.server.stop_sync(self.device)
except RuntimeError as e:
print(e)
if result is not None:
if d is not None:
##
if len(self._mqtt_send_data_ch_level) == 0:
for ch in result.channels():
self._mqtt_send_data_ch_level[ch] = MqttDataMessageHandler(self._mqtt_thread, 'data_server/device_data_stream/' + str(result.device) + '/' + str(ch) )
ret.append(result)
for ch in d["channels"]:
self._mqtt_send_data_ch_level[ch] = MqttDataMessageHandler(self._mqtt_thread, 'data_server/device_data_stream/' + str(d["device"]) + '/' + str(ch) )
ret.append(d)
else:
continue
@@ -254,12 +220,38 @@ class RecordingProcess(Process):
# ctime1 = time()
if self._writer is not None and len(ret) > 0:
if len(self._writer.channel_list) == 0:
self._writer.channels_update(ret[0].channels())
self._writer.channels_update(ret[0]['channels'])
self._writer.write(ret, self._mqtt_send_data_ch_level)
# print('write time: ', time() - ctime1)
# print(ret)
try:
time_duration = self._meta_file.configuration.get_parameter('TIME_DURATION')
if time_duration and time_duration is not 0 and time() - self._start_time >= time_duration:
self._queue_msg.put(['ds', self._device, 'interrupt'])
return None
except KeyError as e:
print('time duration keyerror')
pass
try:
if isinstance(self._decoder, I4V4Z4T4DataDecoder) or \
isinstance(self._decoder, EISZeroOneDataDecoder) or \
isinstance(self._decoder, PEL_FMT1_DataDecoder) or \
isinstance(self._decoder, PEL_FMT2_DataDecoder):
if self._decoder.isFinishMode is not None and self._decoder.isFinishMode() == 1:
self._queue_msg.put(['ds', self._device, 'interrupt'])
return None
# content = {}
# content['header'] = 'device_instruction/0'
# content['device'] = result.device
# content['instruction'] = 'interrupt'
# self._mqtt_thread.publish('device_instruction',json_stringify(content), True)
# self.server.stop_sync(self.device)
except KeyError as e:
print('isFinishMode error')
pass
del ret
del data
return
@@ -269,7 +261,6 @@ class RecordingProcess(Process):
save = True
head = raw_data[0]
head_counter = raw_data[1]
device_id = raw_data[3]
try:
# assign last_data_cnt value and handle first last_data_cnt
@@ -297,11 +288,10 @@ class RecordingProcess(Process):
self._last_cnt[7] = head_counter - 1
last_data_cnt = self._last_cnt[7]
# dont save to section when head or id is wrong
if (head != 255 or device_id != device):
# dont save to section when head is wrong
if (head != 255):
save = False
last_data_cnt = last_data_cnt + 1
return save
if (last_data_cnt == 255):
@@ -349,13 +339,14 @@ class RecordingProcess(Process):
if colum_total == 1:
print('this ram data < 3 records, colum_total = ', colum_total)
print('raw_data[0]', raw_data[0])
return save
print('raw_data[0]', list(raw_data[0]))
save = True
# return save
elif colum_total == 2:
print('this ram data < 3 records, colum_total = ', colum_total)
print('raw_data[0]', raw_data[0])
print('raw_data[1]', raw_data[1])
print('raw_data[0]', list(raw_data[0]))
print('raw_data[1]', list(raw_data[1]))
if (raw_data[col + 1][1] - raw_data[col][1] == 1) or (raw_data[col][1] == 255 and raw_data[col + 1][1] == 0):
save = True
@@ -533,31 +524,31 @@ class RecordingProcess(Process):
if (save == True):
section = raw_data[i]
check_sum = sum(section[0 : single_data_len - 1]) & 0b11111111
# check_sum = sum(section[0 : single_data_len - 1]) & 0b11111111
if (check_sum != section[single_data_len - 1]):
print('check number not match,',
list(section[0 : mem_header_len]), section[-1], '!=', check_sum, 'device:', device, ',', datetime.now())
if (i-1 >= 0):
print('check number not match', list(raw_data[i-1]), 'raw:', i-1)
# if (check_sum != section[single_data_len - 1]):
# print('check number not match,',
# list(section[0 : mem_header_len]), section[-1], '!=', check_sum, 'device:', device, ',', datetime.now())
# if (i-1 >= 0):
# print('check number not match', list(raw_data[i-1]), 'raw:', i-1)
print('check number not match', list(raw_data[i]), 'raw:', i)
# print('check number not match', list(raw_data[i]), 'raw:', i)
if (i+1 <= records):
print('check number not match', list(raw_data[i+1]), 'raw:', i+1, '\n')
section = section + b'\x01'
# if (i+1 <= records):
# print('check number not match', list(raw_data[i+1]), 'raw:', i+1, '\n')
# section = section + b'\x01'
print('delete data:', list(raw_data[i][0:3]), 'raw:', i, '\n')
continue
else:
section = section + b'\x00'
# print('delete data:', list(raw_data[i][0:3]), 'raw:', i, '\n')
# continue
# else:
# section = section + b'\x00'
# section = section[3:]
yield None, section
else:
print_flag = True
print('delete data:', list(raw_data[i][0:3]), 'raw:', i, '\n')
print('delete data:', list(raw_data[i][0:20]), 'raw:', i, '\n')
# if print_flag:
# print('delete data context:')
@@ -599,7 +590,7 @@ class RecordingProcess(Process):
def final_write(self):
if self._writer is not None:
return self._writer.close()
return self._writer.close(self._mqtt_send_data_ch_level)
else:
return False
+7 -5
View File
@@ -93,13 +93,15 @@ class SocketClient(metaclass=abc.ABCMeta):
if self._socket is None:
try:
self._socket = Socket(AF_UNIX, SOCK_STREAM)
self._socket.settimeout(1)
self._socket.settimeout(5)
self._socket.connect(self._socket_file)
except FileNotFoundError as e:
raise RuntimeError('server not available') from e
except Exception as e:
print('open_socket error:', e)
# except FileNotFoundError as e:
# raise RuntimeError('server not available') from e
except ConnectionRefusedError as e:
raise RuntimeError('server crash') from e
# except ConnectionRefusedError as e:
# raise RuntimeError('server crash') from e
def close_socket(self):
if self._socket is not None:
File diff suppressed because it is too large Load Diff
+343
View File
@@ -0,0 +1,343 @@
{
"name": "CPG",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite-CPG.*",
"major_product_number": 0,
"minor_product_number": 8,
"major_version_number": 0,
"minor_version_number": 1
},
"constant": {
"TIME_MAX": 100000,
"VOLT_MAX": 65536,
"Const_Current_Range": 1500001,
"BLE_WRITE_MAX": 255
},
"parameters": {
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"FREQUENCY": {
"description": "FREQUENCY",
"record_meta": true,
"initial": [80, 0],
"domain": {
"list": [1000000]
}
},
"AMPLITUDE": {
"description": "AMPLITUDE",
"record_meta": true,
"initial": [1, 1],
"domain": {
"list": "float"
}
},
"PULSE_WIDTH": {
"description": "PULSE_WIDTH",
"record_meta": true,
"initial": [250, 250],
"domain": {
"list": [1000000]
}
},
"PATTERN_MODE": {
"description": "SELECT_ELECTRODE",
"record_meta": true,
"initial": [1, 0],
"domain": {
"list": "float"
}
},
"CONTINUE_MODE": {
"description": "CONTINUE_MODE",
"record_meta": true,
"initial": 1,
"domain": [2],
"value": {
"expression": "VALUE"
}
},
"STOP_TIME": {
"description": "STOP_TIME",
"record_meta": true,
"initial": 30,
"domain": [1000000],
"value": {
"expression": "VALUE"
}
},
"ELECTRODE_SELECTOR": {
"description": "ELECTRODE_SELECTOR",
"record_meta": true,
"initial": [true,false,true,false],
"domain": {
"list": [2]
}
},
"WORKING_ELECTRODE": {
"description": "WORKING_ELECTRODE",
"record_meta": true,
"initial": [0, 0, 0, 0],
"domain": {
"list": "float"
}
},
"PATTERN_SELECTOR": {
"description": "PATTERN_SELECTOR",
"record_meta": true,
"initial": [0, 0, 1, 1],
"domain": {
"list": "float"
}
},
"ACTIVATE_ELECTRODE": {
"description": "PATTERN_SELECTOR",
"record_meta": true,
"initial": 0,
"domain": "float"
},
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"CHANNEL_LABEL": {
"description": "channel label",
"record_meta": true,
"domain": "property",
"value": "['current', 'voltage', 'impedance']"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"initial": 1000,
"domain": [
1001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"initial": 0,
"value": [
"Electrical stimulation",
"Dev Mode"
]
},
"BLE_WRITE": {
"description": "send msg to elite",
"domain": {
"list": [
"BLE_WRITE_MAX"
]
},
"initial": "[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]",
"value": "VALUE"
},
"BLE_READ": {
"description": "receive msg from elite",
"domain": "int"
},
"TIME_UNIT": {
"description": "Duration unit",
"initial": 2,
"value": [
"h",
"m",
"s",
"ms"
]
},
"TIME_DURATION": {
"description": "Run duration",
"record_meta": true,
"initial": 0,
"domain": [
"TIME_MAX"
],
"value": {
"expression": "VALUE"
}
}
},
"instruction": {
"output": [
"active_electrode",
"_countdown('PULSE_OUTPUT')"
],
"active_electrode": {
"type": "RIS",
"parameter": {
"ch0": "ELECTRODE_SELECTOR[0]",
"ch1": "ELECTRODE_SELECTOR[1]",
"ch2": "ELECTRODE_SELECTOR[2]",
"ch3": "ELECTRODE_SELECTOR[3]",
"Amp1": {
"expression": "PATTERN_SELECTOR[0]",
"when": {
"0": "AMPLITUDE[0]",
"1": "AMPLITUDE[1]"
}
},
"Freq1": {
"expression": "PATTERN_SELECTOR[0]",
"when": {
"0": "FREQUENCY[0]",
"1": "FREQUENCY[1]"
}
},
"Pulse1": {
"expression": "PATTERN_SELECTOR[0]",
"when": {
"0": "PULSE_WIDTH[0]",
"1": "PULSE_WIDTH[1]"
}
},
"Amp2": {
"expression": "PATTERN_SELECTOR[2]",
"when": {
"0": "AMPLITUDE[0]",
"1": "AMPLITUDE[1]"
}
},
"Freq2": {
"expression": "PATTERN_SELECTOR[2]",
"when": {
"0": "FREQUENCY[0]",
"1": "FREQUENCY[1]"
}
},
"Pulse2": {
"expression": "PATTERN_SELECTOR[2]",
"when": {
"0": "PULSE_WIDTH[0]",
"1": "PULSE_WIDTH[1]"
}
}
},
"data": [
"1XFF;1X02;1XA0;",
"1bch0;1bch1;6b000000;",
"4BAmp1;4BPulse1;4BFreq1;",
"2b00;1bch2;1bch3;4b0000;",
"4BAmp2;4BPulse2;4BFreq2;",
"4BSTOP_TIME;",
"1bch0;1bch1;1bch2;1bch3;4b0000;"
]
},
"deactive_electrode": {
"type": "RIS",
"parameter": {
"ch0": "ELECTRODE_SELECTOR[0]",
"ch1": "ELECTRODE_SELECTOR[1]",
"ch2": "ELECTRODE_SELECTOR[2]",
"ch3": "ELECTRODE_SELECTOR[3]"
},
"data": [
"1XFF;1X02;1XA1;",
"1bch0;1bch1;1bch2;1bch3;4b0000;"
]
},
"resume_electrode_0": {
"type": "RIS",
"data": [
"1XFF;1X02;1X06;4b1000;4b0000;"
]
},
"resume_electrode_1": {
"type": "RIS",
"data": [
"1XFF;1X02;1X06;4b0100;4b0000;"
]
},
"resume_electrode_2": {
"type": "RIS",
"data": [
"1XFF;1X02;1X06;4b0010;4b0000;"
]
},
"resume_electrode_3": {
"type": "RIS",
"data": [
"1XFF;1X02;1X06;4b0001;4b0000;"
]
},
"suspend_electrode_0": {
"type": "RIS",
"data": [
"1XFF;1X02;1X05;4b1000;4b0000;"
]
},
"suspend_electrode_1": {
"type": "RIS",
"data": [
"1XFF;1X02;1X05;4b0100;4b0000;"
]
},
"suspend_electrode_2": {
"type": "RIS",
"data": [
"1XFF;1X02;1X05;4b0010;4b0000;"
]
},
"suspend_electrode_3": {
"type": "RIS",
"data": [
"1XFF;1X02;1X05;4b0001;4b0000;"
]
},
"idle": [
"_idle()"
],
"data_format": [
"_data_format('I4V4Z4T4')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
],
"ble_write": {
"type": "ALL",
"data": [
"255X>BLE_WRITE;"
]
},
"dev_version": [
"CIS_VERSION",
"_cdr('20X>ADC_VALUE_I')"
],
"dev_battery": [
"CIS_VOLT",
"_cdr('20X>ADC_VALUE_I')"
],
"set_para_DAC_VOLT": {
"type": "RIS",
"data": [
"XE2;X01;2B>DAC_VOLT"
]
}
}
}
@@ -1,14 +1,15 @@
{
"name": "EliteZM15",
"name": "Elite_BAT_0.1",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite.*",
"major_product_number": 0,
"minor_product_number": 2,
"minor_product_number": 3,
"major_version_number": 1,
"minor_version_number": 6
"minor_version_number": 0
},
"constant": {
"TIME_MAX": 100000,
"VOLT_MAX": 65536,
"Const_Current_Range": 1500001,
"BLE_WRITE_MAX": 255
@@ -17,7 +18,7 @@
"DPV_e_init": {
"description": "DPV initial voltage ",
"record_meta": true,
"initial":20000,
"initial": 20000,
"domain": [
50001
],
@@ -28,7 +29,7 @@
"DPV_e_final": {
"description": "DPV final voltage",
"record_meta": true,
"initial":30000,
"initial": 30000,
"domain": [
50001
],
@@ -39,7 +40,7 @@
"DPV_e_1": {
"description": "DPV voltage return 1",
"record_meta": true,
"initial":35000,
"initial": 35000,
"domain": [
50001
],
@@ -50,7 +51,7 @@
"DPV_e_2": {
"description": "DPV voltage return 2",
"record_meta": true,
"initial":15000,
"initial": 15000,
"domain": [
50001
],
@@ -61,7 +62,7 @@
"DPV_amp": {
"description": "DPV pulse amplitude",
"record_meta": true,
"initial":25125,
"initial": 25125,
"domain": [
50001
],
@@ -72,7 +73,7 @@
"DPV_pul_width": {
"description": "DPV pulse width",
"record_meta": true,
"initial":50,
"initial": 50,
"domain": [
1000001
],
@@ -83,7 +84,7 @@
"DPV_increment": {
"description": "DPV increment",
"record_meta": true,
"initial":25025,
"initial": 25025,
"domain": [
50001
],
@@ -94,7 +95,7 @@
"DPV_step_time": {
"description": "DPV step time = time of one period",
"record_meta": true,
"initial":500,
"initial": 500,
"domain": [
1000001
],
@@ -105,7 +106,7 @@
"DPV_notify_rate": {
"description": "DPV sample rate",
"record_meta": true,
"initial":1000,
"initial": 1000,
"domain": [
1001
],
@@ -113,10 +114,24 @@
"expression": "VALUE"
}
},
"DPV_curr_rec": {
"description": "DPV current recording period start",
"record_meta": true,
"initial": [
25,
100
],
"domain": {
"list": [
101
]
},
"value": "VALUE"
},
"DPV_curr_rec_min": {
"description": "DPV current recording period start",
"record_meta": true,
"initial":25,
"initial": 25,
"domain": [
101
],
@@ -127,7 +142,7 @@
"DPV_curr_rec_max": {
"description": "DPV current recording period end",
"record_meta": true,
"initial":100,
"initial": 100,
"domain": [
101
],
@@ -138,11 +153,8 @@
"DPV_pulse_option": {
"description": "Invert of pulse option",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
"domain": "bool",
"initial": false
},
"DPV_mode": {
"description": "AUTO: 0 / ADVANCED: 1/ ENGINEERING: 2",
@@ -157,16 +169,29 @@
"DPV_engineering_enable": {
"description": "Engineering mode switch",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
"domain": "bool",
"initial": false
},
"V_initial": {
"description": "Pulse Mode Segment Voltage",
"record_meta": true,
"initial": [
50000,
25000,
25000,
25000
],
"domain": {
"list": [
50001
]
},
"value": "VALUE"
},
"V_initial_0": {
"description": "Pulse Mode Segment Voltage 0",
"record_meta": true,
"initial":50000,
"initial": 50000,
"domain": [
50001
],
@@ -177,7 +202,7 @@
"V_initial_1": {
"description": "Pulse Mode Segment Voltage 1",
"record_meta": true,
"initial":25000,
"initial": 25000,
"domain": [
50001
],
@@ -188,7 +213,7 @@
"V_initial_2": {
"description": "Pulse Mode Segment Voltage 2",
"record_meta": true,
"initial":25000,
"initial": 25000,
"domain": [
50001
],
@@ -199,7 +224,7 @@
"V_initial_3": {
"description": "Pulse Mode Segment Voltage 3",
"record_meta": true,
"initial":25000,
"initial": 25000,
"domain": [
50001
],
@@ -207,10 +232,26 @@
"expression": "VALUE"
}
},
"t_pulse": {
"description": "Pulse Mode Segment Duration",
"record_meta": true,
"initial": [
750,
9250,
1000,
1000
],
"domain": {
"list": [
1000001
]
},
"value": "VALUE"
},
"t_pulse_0": {
"description": "Pulse Mode Segment Duration 0",
"record_meta": true,
"initial":750,
"initial": 750,
"domain": [
1000001
],
@@ -221,7 +262,7 @@
"t_pulse_1": {
"description": "Pulse Mode Segment Duration 1",
"record_meta": true,
"initial":9250,
"initial": 9250,
"domain": [
1000001
],
@@ -232,7 +273,7 @@
"t_pulse_2": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial":1000,
"initial": 1000,
"domain": [
1000001
],
@@ -243,7 +284,7 @@
"t_pulse_3": {
"description": "Pulse Mode Segment Duration 3",
"record_meta": true,
"initial":1000,
"initial": 1000,
"domain": [
1000001
],
@@ -251,10 +292,40 @@
"expression": "VALUE"
}
},
"CURR_REC": {
"description": "Pulse Mode Current Recording Period",
"record_meta": true,
"initial": [
[
35,
90
],
[
35,
99
],
[
35,
95
],
[
35,
95
]
],
"domain": {
"list": {
"list": [
100
]
}
},
"value": "VALUE"
},
"CURR_REC_START_0": {
"description": "Pulse Mode Current Recording Period Start",
"record_meta": true,
"initial":35,
"initial": 35,
"domain": [
100
],
@@ -265,7 +336,7 @@
"CURR_REC_START_1": {
"description": "Pulse Mode Current Recording Period Start",
"record_meta": true,
"initial":35,
"initial": 35,
"domain": [
100
],
@@ -276,7 +347,7 @@
"CURR_REC_START_2": {
"description": "Pulse Mode Current Recording Period Start",
"record_meta": true,
"initial":35,
"initial": 35,
"domain": [
100
],
@@ -287,7 +358,7 @@
"CURR_REC_START_3": {
"description": "Pulse Mode Current Recording Period Start",
"record_meta": true,
"initial":35,
"initial": 35,
"domain": [
100
],
@@ -298,7 +369,7 @@
"CURR_REC_END_0": {
"description": "Pulse Mode Current Recording Period End",
"record_meta": true,
"initial":90,
"initial": 90,
"domain": [
100
],
@@ -309,7 +380,7 @@
"CURR_REC_END_1": {
"description": "Pulse Mode Current Recording Period End",
"record_meta": true,
"initial":99,
"initial": 99,
"domain": [
100
],
@@ -320,7 +391,7 @@
"CURR_REC_END_2": {
"description": "Pulse Mode Current Recording Period End",
"record_meta": true,
"initial":95,
"initial": 95,
"domain": [
100
],
@@ -331,7 +402,7 @@
"CURR_REC_END_3": {
"description": "Pulse Mode Current Recording Period End",
"record_meta": true,
"initial":95,
"initial": 95,
"domain": [
100
],
@@ -339,6 +410,40 @@
"expression": "VALUE"
}
},
"segment_ui_order": {
"description": "Pulse Mode Segment Order",
"record_meta": true,
"initial": [
0,
1,
-1,
-1
],
"domain": {
"list": [
-1,
6
]
},
"value": "VALUE"
},
"segment_order": {
"description": "Pulse Mode Segment Order",
"record_meta": true,
"initial": [
0,
1,
-1,
-1
],
"domain": {
"list": [
-1,
6
]
},
"value": "VALUE"
},
"segment_ui_order_0": {
"description": "Pulse Mode Segment UI Order 0, value: segment ID + 1",
"record_meta": true,
@@ -478,13 +583,14 @@
"Constant Current",
"Cyclic Voltammetry",
"Linear Sweep Voltammetry",
"Chronoamperometric Graph",
"Chronoamperometric",
"Cali DAC - test",
"Cali ADC - test",
"Dev Mode",
"Open Circuit Potential",
"Pulse Sensing",
"Differential Pulse Voltammetry (DPV)"
"Differential Pulse Voltammetry (DPV)",
"Chronopotentiometry"
]
},
"VOLT_ORIGIN": {
@@ -644,7 +750,7 @@
},
"CURRNET_LIMIT_VALUE": {
"description": "Current value Setting",
"initial":1500000,
"initial": 1500000,
"domain": [
"Const_Current_Range"
],
@@ -674,7 +780,7 @@
"expression": "VALUE"
}
},
"VOLT_VSCAN": {
"CA_VOLT": {
"description": "Voltage of VScan",
"record_meta": true,
"initial": 25000,
@@ -685,6 +791,15 @@
"expression": "VALUE"
}
},
"CC_CP_SPEED": {
"description": "charge speed for CC and CP mode",
"initial": 1,
"value": [
"low",
"normal",
"high"
]
},
"ADC_LEVEL_I_15": {
"description": "ADC level",
"record_meta": true,
@@ -762,6 +877,17 @@
"s",
"ms"
]
},
"TIME_DURATION": {
"description": "Run duration",
"record_meta": true,
"initial": 0,
"domain": [
"TIME_MAX"
],
"value": {
"expression": "VALUE"
}
}
},
"instruction": {
@@ -812,7 +938,8 @@
"7": "set_adc_gain_I",
"8": "set_adc_gain_I",
"9": "set_adc_gain_I",
"13": "set_adc_gain_I"
"13": "set_adc_gain_I",
"16": "set_adc_gain_I"
}
},
{
@@ -827,7 +954,8 @@
"7": "set_adc_gain_Vin",
"8": "set_adc_gain_Vin",
"9": "set_adc_gain_Vin",
"13": "set_adc_gain_Vin"
"13": "set_adc_gain_Vin",
"16": "set_adc_gain_Vin"
}
},
{
@@ -845,7 +973,8 @@
"9": "curve_const_vscan",
"13": "curve_ocp",
"14": "curve_pulse_sensing",
"15": "curve_dpv"
"15": "curve_dpv",
"16": "curve_cp"
}
},
{
@@ -1043,6 +1172,7 @@
"vb": "Const_Current_value",
"vc": "VOLTSTOP_MAX",
"vd": "VOLTSTOP_MIN",
"ve": "CC_CP_SPEED",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pc": "DAC_LEVEL_V_OUT_15",
@@ -1054,7 +1184,31 @@
"B>va;4B>vb;2B>vc;2B>vd;",
"4b>pa;4b>pb;",
"4b>pc;4b>pd;",
"2B>pe"
"2B>pe;",
"4b>0b0001;4b>ve"
]
},
"curve_cp": {
"type": "RIS",
"parameter": {
"va": "Charge",
"vb": "Const_Current_value",
"vc": "VOLTSTOP_MAX",
"vd": "VOLTSTOP_MIN",
"ve": "CC_CP_SPEED",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pc": "DAC_LEVEL_V_OUT_15",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE"
},
"data": [
"X0C;",
"B>va;4B>vb;2B>vc;2B>vd;",
"4b>pa;4b>pb;",
"4b>pc;4b>pd;",
"2B>pe;",
"4b>0b0000;4b>ve"
]
},
"curve_cv3": {
@@ -1147,7 +1301,7 @@
"curve_const_vscan": {
"type": "RIS",
"parameter": {
"va": "VOLT_VSCAN",
"va": "CA_VOLT",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pc": "DAC_LEVEL_V_OUT_15",
@@ -1180,39 +1334,39 @@
},
"curve_pulse_sensing": [
{
"expression": "segment_ui_order_0",
"expression": "segment_ui_order[0]",
"when": {
"1": "pul_sen_segment_0",
"2": "pul_sen_segment_1",
"3": "pul_sen_segment_2",
"4": "pul_sen_segment_3"
"0": "pul_sen_segment_0",
"1": "pul_sen_segment_1",
"2": "pul_sen_segment_2",
"3": "pul_sen_segment_3"
}
},
{
"expression": "segment_ui_order_1",
"expression": "segment_ui_order[1]",
"when": {
"1": "pul_sen_segment_0",
"2": "pul_sen_segment_1",
"3": "pul_sen_segment_2",
"4": "pul_sen_segment_3"
"0": "pul_sen_segment_0",
"1": "pul_sen_segment_1",
"2": "pul_sen_segment_2",
"3": "pul_sen_segment_3"
}
},
{
"expression": "segment_ui_order_2",
"expression": "segment_ui_order[2]",
"when": {
"1": "pul_sen_segment_0",
"2": "pul_sen_segment_1",
"3": "pul_sen_segment_2",
"4": "pul_sen_segment_3"
"0": "pul_sen_segment_0",
"1": "pul_sen_segment_1",
"2": "pul_sen_segment_2",
"3": "pul_sen_segment_3"
}
},
{
"expression": "segment_ui_order_3",
"expression": "segment_ui_order[3]",
"when": {
"1": "pul_sen_segment_0",
"2": "pul_sen_segment_1",
"3": "pul_sen_segment_2",
"4": "pul_sen_segment_3"
"0": "pul_sen_segment_0",
"1": "pul_sen_segment_1",
"2": "pul_sen_segment_2",
"3": "pul_sen_segment_3"
}
},
"pul_sen_start"
@@ -1236,11 +1390,11 @@
"pul_sen_segment_0": {
"type": "RIS",
"parameter": {
"va": "V_initial_0",
"vb": "t_pulse_0",
"vc": "CURR_REC_START_0",
"vd": "CURR_REC_END_0",
"ve": "segment_order_0 - 1",
"va": "V_initial[0]",
"vb": "t_pulse[0]",
"vc": "CURR_REC[0][0]",
"vd": "CURR_REC[0][1]",
"ve": "segment_order.index(segment_order[0])",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pc": "DAC_LEVEL_V_OUT_15",
@@ -1256,11 +1410,11 @@
"pul_sen_segment_1": {
"type": "RIS",
"parameter": {
"va": "V_initial_1",
"vb": "t_pulse_1",
"vc": "CURR_REC_START_1",
"vd": "CURR_REC_END_1",
"ve": "segment_order_1 - 1",
"va": "V_initial[1]",
"vb": "t_pulse[1]",
"vc": "CURR_REC[1][0]",
"vd": "CURR_REC[1][1]",
"ve": "segment_order.index(segment_order[1])",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pc": "DAC_LEVEL_V_OUT_15",
@@ -1276,11 +1430,11 @@
"pul_sen_segment_2": {
"type": "RIS",
"parameter": {
"va": "V_initial_2",
"vb": "t_pulse_2",
"vc": "CURR_REC_START_2",
"vd": "CURR_REC_END_2",
"ve": "segment_order_2 - 1",
"va": "V_initial[2]",
"vb": "t_pulse[2]",
"vc": "CURR_REC[2][0]",
"vd": "CURR_REC[2][1]",
"ve": "segment_order.index(segment_order[2])",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pc": "DAC_LEVEL_V_OUT_15",
@@ -1296,11 +1450,11 @@
"pul_sen_segment_3": {
"type": "RIS",
"parameter": {
"va": "V_initial_3",
"vb": "t_pulse_3",
"vc": "CURR_REC_START_3",
"vd": "CURR_REC_END_3",
"ve": "segment_order_3 - 1",
"va": "V_initial[3]",
"vb": "t_pulse[3]",
"vc": "CURR_REC[3][0]",
"vd": "CURR_REC[3][1]",
"ve": "segment_order.index(segment_order[3])",
"pa": "ADC_LEVEL_I_15",
"pb": "ADC_LEVEL_V_IN_15",
"pc": "DAC_LEVEL_V_OUT_15",
@@ -1313,9 +1467,7 @@
"2B>va;4B>vb;1B>vc;1B>vd;1B>ve"
]
},
"curve_dpv":[
"curve_dpv": [
{
"expression": "DPV_mode",
"when": {
@@ -1363,8 +1515,8 @@
"parameter": {
"va": "DPV_step_time",
"vb": "DPV_notify_rate",
"vc": "DPV_curr_rec_min",
"vd": "DPV_curr_rec_max"
"vc": "DPV_curr_rec[0]",
"vd": "DPV_curr_rec[1]"
},
"data": [
"1X0E;",
@@ -1388,9 +1540,6 @@
"4b>pc;4b>pd"
]
},
"dpv_advanced_mode": [
"dpv_advanced_mode_ins_1",
"dpv_advanced_mode_ins_2",
@@ -1430,8 +1579,8 @@
"parameter": {
"va": "DPV_step_time",
"vb": "DPV_notify_rate",
"vc": "DPV_curr_rec_min",
"vd": "DPV_curr_rec_max"
"vc": "DPV_curr_rec[0]",
"vd": "DPV_curr_rec[1]"
},
"data": [
"1X10;",
@@ -1484,31 +1633,14 @@
"dpv_engineering_mode_advanced": [
"dpv_advanced_mode"
],
"VIS_CC_ZERO": [
"_data_format('I4V4Z4T4')",
"_disable_cache(False)",
"_notify(True)",
"set_adc_gain_I",
"set_adc_gain_Vin",
"VIS_CC_ZERO",
"_sync(True)",
"VIS_STI"
],
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
],
"ble_write": {
"type": "RIS",
"type": "ALL",
"data": [
"XFF;",
"1B>BLE_WRITE[0];1B>BLE_WRITE[1];1B>BLE_WRITE[2];1B>BLE_WRITE[3];",
"1B>BLE_WRITE[4];1B>BLE_WRITE[5];1B>BLE_WRITE[6];1B>BLE_WRITE[7];",
"1B>BLE_WRITE[8];1B>BLE_WRITE[9];1B>BLE_WRITE[10];1B>BLE_WRITE[11];",
"1B>BLE_WRITE[12];1B>BLE_WRITE[13];1B>BLE_WRITE[14];1B>BLE_WRITE[15];",
"1B>BLE_WRITE[16];"
"255X>BLE_WRITE;"
]
},
"dev_version": [
@@ -1526,6 +1658,4 @@
]
}
}
}
}
File diff suppressed because it is too large Load Diff
@@ -1,5 +1,5 @@
{
"name": "EliteZM02",
"name": "Elite_EDC_1.4",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite.*",
@@ -492,14 +492,6 @@
"1XC0;1X02;4B>ve;2B>vf;4B>vg;B>cn"
]
},
"VIS_CC_ZERO": [
"_data_format('I4V4Z4T4')",
"_disable_cache(False)",
"_notify(True)",
"VIS_CC_ZERO",
"_sync(True)",
"VIS_STI"
],
"curve_cv3_high_cycle": {
"type": "RIS",
"parameter": {
File diff suppressed because it is too large Load Diff
File diff suppressed because it is too large Load Diff
File diff suppressed because it is too large Load Diff
File diff suppressed because it is too large Load Diff
@@ -0,0 +1,650 @@
{
"name": "Elite_EIS_1.0",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite.*",
"major_product_number": 0,
"minor_product_number": 4,
"major_version_number": 1,
"minor_version_number": 0
},
"constant": {
"FREQ_MAX": 13333334,
"VOLT_MAX": 65536,
"BLE_WRITE_MAX": 255,
"TIME_MAX": 100000
},
"parameters": {
"TIME_DURATION": {
"description": "Run duration",
"record_meta": true,
"initial": 0,
"domain": [
"TIME_MAX"
],
"value": {
"expression": "VALUE"
}
},
"HIGHZ_TABLE": {
"initial": [
1,
1,
1,
0,
1,
1,
1,
1
],
"domain": {
"list": [
100
]
},
"value": "VALUE"
},
"CTRL_HIGH_Z_15": {
"description": "ctrl highZ level",
"record_meta": true,
"initial": 1,
"value": [
"On",
"Off"
],
"on_change": "set_ctrl_highZ"
},
"CYCLE_NUMBER": {
"description": "CV cycle number",
"record_meta": true,
"initial": 1,
"domain": [
65536
],
"value": {
"expression": "VALUE"
}
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"initial": 1000,
"domain": [
1001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_sample_rate"
},
"CHANNEL": {
"derzteription": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"value": [
"EIS CURVE",
"Cyclic Voltammetry",
"Chronoamperometric",
"V-T Graph",
"R-T Graph",
"EIS constant frequency",
"Dev Mode",
"Idle"
]
},
"GENERAL_HS_RTIA": {
"description": "High speed rtia gain",
"record_meta": true,
"initial": 8,
"value": [
0,
1,
2,
3,
4,
5,
6,
7,
8
],
"on_change": "set_general_hs_rtia"
},
"GENERAL_LP_RTIA": {
"description": "Low power rtia gain",
"record_meta": true,
"initial": 4,
"value": [
"0",
"1",
"2",
"3",
"auto"
],
"on_change": "set_general_lp_rtia"
},
"EIS_DC_BIAS": {
"description": "DC voltage bias",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"EIS_AC_AMP": {
"description": "AC Amplitude",
"record_meta": true,
"initial": 26,
"domain": [
2048
]
},
"EIS_FREQ": {
"description": "[start, stop] of frequency scan",
"record_meta": true,
"initial": [
13333333,
7
],
"domain": {
"list": [
"FREQ_MAX"
]
},
"value": "VALUE"
},
"EIS_PPD": {
"description": "Point per decades",
"record_meta": true,
"initial": 10,
"domain": [
11
]
},
"EIS_SCALE": {
"description": "Point spacing pattern",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
},
"EIS_DELAY": {
"description": "Wait x peroid before start taking measurements",
"record_meta": true,
"initial": 0,
"domain": [
101
],
"value": {
"expression": "VALUE"
}
},
"EIS_AVERAGE_NUM": {
"description": "Number of sample used for average funciton",
"record_meta": true,
"initial": 8,
"value": [
2,
4,
6,
8
]
},
"CF_DC_BIAS": {
"description": "DC voltage bias",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CF_AC_AMP": {
"description": "AC Amplitude",
"record_meta": true,
"initial": 26,
"domain": [
2048
]
},
"CF_FREQ": {
"description": "frequency of cf",
"record_meta": true,
"initial": 13333333,
"domain": [
"FREQ_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CF_PPD": {
"description": "Point per decades",
"record_meta": true,
"initial": 10,
"domain": [
11
]
},
"CF_SCALE": {
"description": "Point spacing pattern",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
},
"CF_DELAY": {
"description": "Wait x peroid before start taking measurements",
"record_meta": true,
"initial": 0,
"domain": [
101
],
"value": {
"expression": "VALUE"
}
},
"CF_AVERAGE_NUM": {
"description": "Number of sample used for average funciton",
"record_meta": true,
"initial": 8,
"value": [
2,
4,
6,
8
]
},
"CV_E_INITIAL": {
"description": "Initial Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CV_E1": {
"description": "First voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CV_E2": {
"description": "Second voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CV_SCAN_RATE": {
"description": "Voltage scan rate",
"record_meta": true,
"initial": 10000,
"domain": [
100001
],
"value": {
"expression": "VALUE"
}
},
"CA_VOLT": {
"description": "Voltage of ca",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"VT_MEASURE_VIN_RANGE": {
"description": "measure range of Vin",
"record_meta": true,
"initial": 0,
"value": [
"0",
"1",
"2",
"auto"
]
},
"RT_VOLT_SET": {
"description": "DAC output Voltage",
"record_meta": true,
"initial": 37500,
"domain": [
65536
],
"value": {
"expression": "VALUE"
},
"on_change": "set_para_RT_VOLT_SET"
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"BLE_WRITE": {
"description": "send msg to elite",
"domain": {
"list": [
"BLE_WRITE_MAX"
]
},
"initial": "[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]",
"value": "VALUE"
},
"BLE_READ": {
"description": "receive msg from elite",
"domain": "int"
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"7": "idle",
"*": "start_data"
}
}
],
"idle": [
"_idle()"
],
"start_data": [
"data_format_cali",
"_notify(True)",
{
"expression": "MODE",
"when": {
"0": "set_general_hs_rtia",
"1": "set_general_lp_rtia",
"2": "set_general_lp_rtia",
"3": "set_general_lp_rtia",
"4": "set_general_lp_rtia",
"5": "set_general_hs_rtia"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis",
"1": "curve_cv3",
"2": "curve_ca",
"3": "curve_vt",
"4": "curve_rt",
"5": "curve_cf"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis_para2",
"1": "curve_cv3_para2",
"5": "curve_cf_para2"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis_mode",
"5": "curve_cf_mode"
}
},
"_sync(True)",
"VIS_STI"
],
"data_format": [
"_data_format('EISZeroOne')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"data_format_cali": [
"_data_format_cali('EISZeroOne')"
],
"set_general_hs_rtia": {
"type": "RIS",
"data": [
"1XFF;1X70;1B>GENERAL_HS_RTIA"
]
},
"set_general_lp_rtia": {
"type": "RIS",
"data": [
"1XFF;1X71;1B>GENERAL_LP_RTIA"
]
},
"set_sample_rate": {
"type": "RIS",
"parameter": {
"va": "SAMPLE_RATE"
},
"data": [
"XE0;2B>va"
]
},
"set_ctrl_highZ": {
"type": "RIS",
"data": [
"1XFF;1X72;1B>CTRL_HIGH_Z_15"
]
},
"curve_eis": {
"type": "RIS",
"parameter": {
"fa": "EIS_FREQ[0]",
"fb": "EIS_FREQ[1]",
"dp": "EIS_DELAY",
"dc": "EIS_DC_BIAS",
"am": "EIS_AC_AMP",
"an": "EIS_AVERAGE_NUM",
"rt": "GENERAL_HS_RTIA",
"pp": "EIS_PPD",
"sp": "EIS_SCALE"
},
"data": [
"1X12;1X01;4B>fa;4B>fb;2B>dp"
]
},
"curve_eis_para2": {
"type": "RIS",
"parameter": {
"fa": "EIS_FREQ[0]",
"fb": "EIS_FREQ[1]",
"dp": "EIS_DELAY",
"dc": "EIS_DC_BIAS",
"am": "EIS_AC_AMP",
"an": "EIS_AVERAGE_NUM",
"rt": "GENERAL_HS_RTIA",
"pp": "EIS_PPD",
"sp": "EIS_SCALE"
},
"data": [
"1X12;1X02;2B>dc;2B>am;B>an;B>rt;2B>pp;B>sp"
]
},
"curve_eis_mode": {
"type": "RIS",
"data": [
"1X12;1XFF"
]
},
"curve_cf": {
"type": "RIS",
"parameter": {
"fa": "CF_FREQ",
"dp": "CF_DELAY",
"dc": "CF_DC_BIAS",
"am": "CF_AC_AMP",
"an": "CF_AVERAGE_NUM",
"rt": "GENERAL_HS_RTIA",
"pp": "CF_PPD",
"sp": "CF_SCALE"
},
"data": [
"1X13;1X01;4B>fa;4B>0;2B>dp"
]
},
"curve_cf_para2": {
"type": "RIS",
"parameter": {
"fa": "CF_FREQ",
"dp": "CF_DELAY",
"dc": "CF_DC_BIAS",
"am": "CF_AC_AMP",
"an": "CF_AVERAGE_NUM",
"rt": "GENERAL_HS_RTIA",
"pp": "CF_PPD",
"sp": "CF_SCALE"
},
"data": [
"1X13;1X02;2B>dc;2B>am;B>an;B>rt;2B>pp;B>sp"
]
},
"curve_cf_mode": {
"type": "RIS",
"data": [
"1X13;1XFF"
]
},
"curve_cv3": {
"type": "RIS",
"parameter": {
"va": "CV_E_INITIAL",
"vb": "CV_E1",
"vc": "CV_E2",
"ve": "CV_SCAN_RATE",
"vf": "SAMPLE_RATE",
"cn": "CYCLE_NUMBER"
},
"data": [
"1X09;1X01;2B>va;2B>vb;2B>vc;"
]
},
"curve_cv3_para2": {
"type": "RIS",
"parameter": {
"va": "CV_E_INITIAL",
"vb": "CV_E1",
"vc": "CV_E2",
"ve": "CV_SCAN_RATE",
"vf": "SAMPLE_RATE",
"cn": "CYCLE_NUMBER"
},
"data": [
"1X09;1X02;4B>ve;2B>vf;2B>cn"
]
},
"curve_ca": {
"type": "RIS",
"parameter": {
"va": "CA_VOLT",
"pa": "GENERAL_LP_RTIA",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE"
},
"data": [
"1X0B;",
"2B>va;",
"4b>pa;4b>0;",
"4b>0;4b>pd;",
"2B>pe"
]
},
"curve_rt": {
"type": "RIS",
"parameter": {
"va": "RT_VOLT_SET",
"pa": "GENERAL_LP_RTIA",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE"
},
"data": [
"X04;",
"2B>va;",
"4b>pa;4b>0;",
"4b>0;4b>pd;",
"2B>pe"
]
},
"curve_vt": {
"type": "RIS",
"parameter": {
"pa": "GENERAL_LP_RTIA",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE",
"va": "VT_MEASURE_VIN_RANGE"
},
"data": [
"X05;",
"4b>pa;4b>0;",
"4b>0;4b>pd;",
"2B>pe;",
"1B>va"
]
},
"set_para_RT_VOLT_SET": {
"type": "RIS",
"data": [
"XE2;X01;2B>RT_VOLT_SET"
]
},
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
],
"ble_write": {
"type": "ALL",
"data": [
"255X>BLE_WRITE;"
]
},
"dev_version": [
"CIS_VERSION",
"_cdr('20X>ADC_VALUE_I')"
],
"dev_battery": [
"CIS_VOLT",
"_cdr('20X>ADC_VALUE_I')"
]
}
}
@@ -0,0 +1,650 @@
{
"name": "Elite_EIS_1.1",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite.*",
"major_product_number": 0,
"minor_product_number": 4,
"major_version_number": 1,
"minor_version_number": 1
},
"constant": {
"FREQ_MAX": 13333334,
"VOLT_MAX": 65536,
"BLE_WRITE_MAX": 255,
"TIME_MAX": 100000
},
"parameters": {
"TIME_DURATION": {
"description": "Run duration",
"record_meta": true,
"initial": 0,
"domain": [
"TIME_MAX"
],
"value": {
"expression": "VALUE"
}
},
"HIGHZ_TABLE": {
"initial": [
1,
1,
1,
0,
1,
1,
1,
1
],
"domain": {
"list": [
100
]
},
"value": "VALUE"
},
"CTRL_HIGH_Z_15": {
"description": "ctrl highZ level",
"record_meta": true,
"initial": 1,
"value": [
"On",
"Off"
],
"on_change": "set_ctrl_highZ"
},
"CYCLE_NUMBER": {
"description": "CV cycle number",
"record_meta": true,
"initial": 1,
"domain": [
65536
],
"value": {
"expression": "VALUE"
}
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"initial": 1000,
"domain": [
1001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_sample_rate"
},
"CHANNEL": {
"derzteription": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"value": [
"EIS CURVE",
"Cyclic Voltammetry",
"Chronoamperometric",
"V-T Graph",
"R-T Graph",
"EIS constant frequency",
"Dev Mode",
"Idle"
]
},
"GENERAL_HS_RTIA": {
"description": "High speed rtia gain",
"record_meta": true,
"initial": 8,
"value": [
0,
1,
2,
3,
4,
5,
6,
7,
8
],
"on_change": "set_general_hs_rtia"
},
"GENERAL_LP_RTIA": {
"description": "Low power rtia gain",
"record_meta": true,
"initial": 4,
"value": [
"0",
"1",
"2",
"3",
"auto"
],
"on_change": "set_general_lp_rtia"
},
"EIS_DC_BIAS": {
"description": "DC voltage bias",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"EIS_AC_AMP": {
"description": "AC Amplitude",
"record_meta": true,
"initial": 26,
"domain": [
2048
]
},
"EIS_FREQ": {
"description": "[start, stop] of frequency scan",
"record_meta": true,
"initial": [
13333333,
7
],
"domain": {
"list": [
"FREQ_MAX"
]
},
"value": "VALUE"
},
"EIS_PPD": {
"description": "Point per decades",
"record_meta": true,
"initial": 10,
"domain": [
11
]
},
"EIS_SCALE": {
"description": "Point spacing pattern",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
},
"EIS_DELAY": {
"description": "Wait x peroid before start taking measurements",
"record_meta": true,
"initial": 0,
"domain": [
101
],
"value": {
"expression": "VALUE"
}
},
"EIS_AVERAGE_NUM": {
"description": "Number of sample used for average funciton",
"record_meta": true,
"initial": 8,
"value": [
2,
4,
6,
8
]
},
"CF_DC_BIAS": {
"description": "DC voltage bias",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CF_AC_AMP": {
"description": "AC Amplitude",
"record_meta": true,
"initial": 26,
"domain": [
2048
]
},
"CF_FREQ": {
"description": "frequency of cf",
"record_meta": true,
"initial": 13333333,
"domain": [
"FREQ_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CF_PPD": {
"description": "Point per decades",
"record_meta": true,
"initial": 10,
"domain": [
11
]
},
"CF_SCALE": {
"description": "Point spacing pattern",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
},
"CF_DELAY": {
"description": "Wait x peroid before start taking measurements",
"record_meta": true,
"initial": 0,
"domain": [
101
],
"value": {
"expression": "VALUE"
}
},
"CF_AVERAGE_NUM": {
"description": "Number of sample used for average funciton",
"record_meta": true,
"initial": 8,
"value": [
2,
4,
6,
8
]
},
"CV_E_INITIAL": {
"description": "Initial Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CV_E1": {
"description": "First voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CV_E2": {
"description": "Second voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CV_SCAN_RATE": {
"description": "Voltage scan rate",
"record_meta": true,
"initial": 10000,
"domain": [
100001
],
"value": {
"expression": "VALUE"
}
},
"CA_VOLT": {
"description": "Voltage of ca",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"VT_MEASURE_VIN_RANGE": {
"description": "measure range of Vin",
"record_meta": true,
"initial": 0,
"value": [
"0",
"1",
"2",
"auto"
]
},
"RT_VOLT_SET": {
"description": "DAC output Voltage",
"record_meta": true,
"initial": 37500,
"domain": [
65536
],
"value": {
"expression": "VALUE"
},
"on_change": "set_para_RT_VOLT_SET"
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"BLE_WRITE": {
"description": "send msg to elite",
"domain": {
"list": [
"BLE_WRITE_MAX"
]
},
"initial": "[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]",
"value": "VALUE"
},
"BLE_READ": {
"description": "receive msg from elite",
"domain": "int"
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"7": "idle",
"*": "start_data"
}
}
],
"idle": [
"_idle()"
],
"start_data": [
"data_format_cali",
"_notify(True)",
{
"expression": "MODE",
"when": {
"0": "set_general_hs_rtia",
"1": "set_general_lp_rtia",
"2": "set_general_lp_rtia",
"3": "set_general_lp_rtia",
"4": "set_general_lp_rtia",
"5": "set_general_hs_rtia"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis",
"1": "curve_cv3",
"2": "curve_ca",
"3": "curve_vt",
"4": "curve_rt",
"5": "curve_cf"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis_para2",
"1": "curve_cv3_para2",
"5": "curve_cf_para2"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis_mode",
"5": "curve_cf_mode"
}
},
"_sync(True)",
"VIS_STI"
],
"data_format": [
"_data_format('EISZeroOne')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"data_format_cali": [
"_data_format_cali('EISZeroOne')"
],
"set_general_hs_rtia": {
"type": "RIS",
"data": [
"1XFF;1X70;1B>GENERAL_HS_RTIA"
]
},
"set_general_lp_rtia": {
"type": "RIS",
"data": [
"1XFF;1X71;1B>GENERAL_LP_RTIA"
]
},
"set_sample_rate": {
"type": "RIS",
"parameter": {
"va": "SAMPLE_RATE"
},
"data": [
"XE0;2B>va"
]
},
"set_ctrl_highZ": {
"type": "RIS",
"data": [
"1XFF;1X72;1B>CTRL_HIGH_Z_15"
]
},
"curve_eis": {
"type": "RIS",
"parameter": {
"fa": "EIS_FREQ[0]",
"fb": "EIS_FREQ[1]",
"dp": "EIS_DELAY",
"dc": "EIS_DC_BIAS",
"am": "EIS_AC_AMP",
"an": "EIS_AVERAGE_NUM",
"rt": "GENERAL_HS_RTIA",
"pp": "EIS_PPD",
"sp": "EIS_SCALE"
},
"data": [
"1X12;1X01;4B>fa;4B>fb;2B>dp"
]
},
"curve_eis_para2": {
"type": "RIS",
"parameter": {
"fa": "EIS_FREQ[0]",
"fb": "EIS_FREQ[1]",
"dp": "EIS_DELAY",
"dc": "EIS_DC_BIAS",
"am": "EIS_AC_AMP",
"an": "EIS_AVERAGE_NUM",
"rt": "GENERAL_HS_RTIA",
"pp": "EIS_PPD",
"sp": "EIS_SCALE"
},
"data": [
"1X12;1X02;2B>dc;2B>am;B>an;B>rt;2B>pp;B>sp"
]
},
"curve_eis_mode": {
"type": "RIS",
"data": [
"1X12;1XFF"
]
},
"curve_cf": {
"type": "RIS",
"parameter": {
"fa": "CF_FREQ",
"dp": "CF_DELAY",
"dc": "CF_DC_BIAS",
"am": "CF_AC_AMP",
"an": "CF_AVERAGE_NUM",
"rt": "GENERAL_HS_RTIA",
"pp": "CF_PPD",
"sp": "CF_SCALE"
},
"data": [
"1X13;1X01;4B>fa;4B>0;2B>dp"
]
},
"curve_cf_para2": {
"type": "RIS",
"parameter": {
"fa": "CF_FREQ",
"dp": "CF_DELAY",
"dc": "CF_DC_BIAS",
"am": "CF_AC_AMP",
"an": "CF_AVERAGE_NUM",
"rt": "GENERAL_HS_RTIA",
"pp": "CF_PPD",
"sp": "CF_SCALE"
},
"data": [
"1X13;1X02;2B>dc;2B>am;B>an;B>rt;2B>pp;B>sp"
]
},
"curve_cf_mode": {
"type": "RIS",
"data": [
"1X13;1XFF"
]
},
"curve_cv3": {
"type": "RIS",
"parameter": {
"va": "CV_E_INITIAL",
"vb": "CV_E1",
"vc": "CV_E2",
"ve": "CV_SCAN_RATE",
"vf": "SAMPLE_RATE",
"cn": "CYCLE_NUMBER"
},
"data": [
"1X09;1X01;2B>va;2B>vb;2B>vc;"
]
},
"curve_cv3_para2": {
"type": "RIS",
"parameter": {
"va": "CV_E_INITIAL",
"vb": "CV_E1",
"vc": "CV_E2",
"ve": "CV_SCAN_RATE",
"vf": "SAMPLE_RATE",
"cn": "CYCLE_NUMBER"
},
"data": [
"1X09;1X02;4B>ve;2B>vf;2B>cn"
]
},
"curve_ca": {
"type": "RIS",
"parameter": {
"va": "CA_VOLT",
"pa": "GENERAL_LP_RTIA",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE"
},
"data": [
"1X0B;",
"2B>va;",
"4b>pa;4b>0;",
"4b>0;4b>pd;",
"2B>pe"
]
},
"curve_rt": {
"type": "RIS",
"parameter": {
"va": "RT_VOLT_SET",
"pa": "GENERAL_LP_RTIA",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE"
},
"data": [
"X04;",
"2B>va;",
"4b>pa;4b>0;",
"4b>0;4b>pd;",
"2B>pe"
]
},
"curve_vt": {
"type": "RIS",
"parameter": {
"pa": "GENERAL_LP_RTIA",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE",
"va": "VT_MEASURE_VIN_RANGE"
},
"data": [
"X05;",
"4b>pa;4b>0;",
"4b>0;4b>pd;",
"2B>pe;",
"1B>va"
]
},
"set_para_RT_VOLT_SET": {
"type": "RIS",
"data": [
"XE2;X01;2B>RT_VOLT_SET"
]
},
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
],
"ble_write": {
"type": "ALL",
"data": [
"255X>BLE_WRITE;"
]
},
"dev_version": [
"CIS_VERSION",
"_cdr('20X>ADC_VALUE_I')"
],
"dev_battery": [
"CIS_VOLT",
"_cdr('20X>ADC_VALUE_I')"
]
}
}
@@ -0,0 +1,650 @@
{
"name": "Elite_EIS_MINI_1.0",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite.*",
"major_product_number": 0,
"minor_product_number": 4,
"major_version_number": 1,
"minor_version_number": 2
},
"constant": {
"FREQ_MAX": 13333334,
"VOLT_MAX": 65536,
"BLE_WRITE_MAX": 255,
"TIME_MAX": 100000
},
"parameters": {
"TIME_DURATION": {
"description": "Run duration",
"record_meta": true,
"initial": 0,
"domain": [
"TIME_MAX"
],
"value": {
"expression": "VALUE"
}
},
"HIGHZ_TABLE": {
"initial": [
1,
1,
1,
0,
1,
1,
1,
1
],
"domain": {
"list": [
100
]
},
"value": "VALUE"
},
"CTRL_HIGH_Z_15": {
"description": "ctrl highZ level",
"record_meta": true,
"initial": 1,
"value": [
"On",
"Off"
],
"on_change": "set_ctrl_highZ"
},
"CYCLE_NUMBER": {
"description": "CV cycle number",
"record_meta": true,
"initial": 1,
"domain": [
65536
],
"value": {
"expression": "VALUE"
}
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"initial": 1000,
"domain": [
1001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_sample_rate"
},
"CHANNEL": {
"derzteription": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"value": [
"EIS CURVE",
"Cyclic Voltammetry",
"Chronoamperometric",
"V-T Graph",
"R-T Graph",
"EIS constant frequency",
"Dev Mode",
"Idle"
]
},
"GENERAL_HS_RTIA": {
"description": "High speed rtia gain",
"record_meta": true,
"initial": 8,
"value": [
0,
1,
2,
3,
4,
5,
6,
7,
8
],
"on_change": "set_general_hs_rtia"
},
"GENERAL_LP_RTIA": {
"description": "Low power rtia gain",
"record_meta": true,
"initial": 4,
"value": [
"0",
"1",
"2",
"3",
"auto"
],
"on_change": "set_general_lp_rtia"
},
"EIS_DC_BIAS": {
"description": "DC voltage bias",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"EIS_AC_AMP": {
"description": "AC Amplitude",
"record_meta": true,
"initial": 26,
"domain": [
2048
]
},
"EIS_FREQ": {
"description": "[start, stop] of frequency scan",
"record_meta": true,
"initial": [
13333333,
7
],
"domain": {
"list": [
"FREQ_MAX"
]
},
"value": "VALUE"
},
"EIS_PPD": {
"description": "Point per decades",
"record_meta": true,
"initial": 10,
"domain": [
11
]
},
"EIS_SCALE": {
"description": "Point spacing pattern",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
},
"EIS_DELAY": {
"description": "Wait x peroid before start taking measurements",
"record_meta": true,
"initial": 0,
"domain": [
101
],
"value": {
"expression": "VALUE"
}
},
"EIS_AVERAGE_NUM": {
"description": "Number of sample used for average funciton",
"record_meta": true,
"initial": 8,
"value": [
2,
4,
6,
8
]
},
"CF_DC_BIAS": {
"description": "DC voltage bias",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CF_AC_AMP": {
"description": "AC Amplitude",
"record_meta": true,
"initial": 26,
"domain": [
2048
]
},
"CF_FREQ": {
"description": "frequency of cf",
"record_meta": true,
"initial": 13333333,
"domain": [
"FREQ_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CF_PPD": {
"description": "Point per decades",
"record_meta": true,
"initial": 10,
"domain": [
11
]
},
"CF_SCALE": {
"description": "Point spacing pattern",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
},
"CF_DELAY": {
"description": "Wait x peroid before start taking measurements",
"record_meta": true,
"initial": 0,
"domain": [
101
],
"value": {
"expression": "VALUE"
}
},
"CF_AVERAGE_NUM": {
"description": "Number of sample used for average funciton",
"record_meta": true,
"initial": 8,
"value": [
2,
4,
6,
8
]
},
"CV_E_INITIAL": {
"description": "Initial Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CV_E1": {
"description": "First voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CV_E2": {
"description": "Second voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CV_SCAN_RATE": {
"description": "Voltage scan rate",
"record_meta": true,
"initial": 10000,
"domain": [
100001
],
"value": {
"expression": "VALUE"
}
},
"CA_VOLT": {
"description": "Voltage of ca",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"VT_MEASURE_VIN_RANGE": {
"description": "measure range of Vin",
"record_meta": true,
"initial": 0,
"value": [
"0",
"1",
"2",
"auto"
]
},
"RT_VOLT_SET": {
"description": "DAC output Voltage",
"record_meta": true,
"initial": 37500,
"domain": [
65536
],
"value": {
"expression": "VALUE"
},
"on_change": "set_para_RT_VOLT_SET"
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"BLE_WRITE": {
"description": "send msg to elite",
"domain": {
"list": [
"BLE_WRITE_MAX"
]
},
"initial": "[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]",
"value": "VALUE"
},
"BLE_READ": {
"description": "receive msg from elite",
"domain": "int"
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"7": "idle",
"*": "start_data"
}
}
],
"idle": [
"_idle()"
],
"start_data": [
"data_format_cali",
"_notify(True)",
{
"expression": "MODE",
"when": {
"0": "set_general_hs_rtia",
"1": "set_general_lp_rtia",
"2": "set_general_lp_rtia",
"3": "set_general_lp_rtia",
"4": "set_general_lp_rtia",
"5": "set_general_hs_rtia"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis",
"1": "curve_cv3",
"2": "curve_ca",
"3": "curve_vt",
"4": "curve_rt",
"5": "curve_cf"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis_para2",
"1": "curve_cv3_para2",
"5": "curve_cf_para2"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis_mode",
"5": "curve_cf_mode"
}
},
"_sync(True)",
"VIS_STI"
],
"data_format": [
"_data_format('EISZeroOne')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"data_format_cali": [
"_data_format_cali('EISZeroOne')"
],
"set_general_hs_rtia": {
"type": "RIS",
"data": [
"1XFF;1X70;1B>GENERAL_HS_RTIA"
]
},
"set_general_lp_rtia": {
"type": "RIS",
"data": [
"1XFF;1X71;1B>GENERAL_LP_RTIA"
]
},
"set_sample_rate": {
"type": "RIS",
"parameter": {
"va": "SAMPLE_RATE"
},
"data": [
"XE0;2B>va"
]
},
"set_ctrl_highZ": {
"type": "RIS",
"data": [
"1XFF;1X72;1B>CTRL_HIGH_Z_15"
]
},
"curve_eis": {
"type": "RIS",
"parameter": {
"fa": "EIS_FREQ[0]",
"fb": "EIS_FREQ[1]",
"dp": "EIS_DELAY",
"dc": "EIS_DC_BIAS",
"am": "EIS_AC_AMP",
"an": "EIS_AVERAGE_NUM",
"rt": "GENERAL_HS_RTIA",
"pp": "EIS_PPD",
"sp": "EIS_SCALE"
},
"data": [
"1X12;1X01;4B>fa;4B>fb;2B>dp"
]
},
"curve_eis_para2": {
"type": "RIS",
"parameter": {
"fa": "EIS_FREQ[0]",
"fb": "EIS_FREQ[1]",
"dp": "EIS_DELAY",
"dc": "EIS_DC_BIAS",
"am": "EIS_AC_AMP",
"an": "EIS_AVERAGE_NUM",
"rt": "GENERAL_HS_RTIA",
"pp": "EIS_PPD",
"sp": "EIS_SCALE"
},
"data": [
"1X12;1X02;2B>dc;2B>am;B>an;B>rt;2B>pp;B>sp"
]
},
"curve_eis_mode": {
"type": "RIS",
"data": [
"1X12;1XFF"
]
},
"curve_cf": {
"type": "RIS",
"parameter": {
"fa": "CF_FREQ",
"dp": "CF_DELAY",
"dc": "CF_DC_BIAS",
"am": "CF_AC_AMP",
"an": "CF_AVERAGE_NUM",
"rt": "GENERAL_HS_RTIA",
"pp": "CF_PPD",
"sp": "CF_SCALE"
},
"data": [
"1X13;1X01;4B>fa;4B>0;2B>dp"
]
},
"curve_cf_para2": {
"type": "RIS",
"parameter": {
"fa": "CF_FREQ",
"dp": "CF_DELAY",
"dc": "CF_DC_BIAS",
"am": "CF_AC_AMP",
"an": "CF_AVERAGE_NUM",
"rt": "GENERAL_HS_RTIA",
"pp": "CF_PPD",
"sp": "CF_SCALE"
},
"data": [
"1X13;1X02;2B>dc;2B>am;B>an;B>rt;2B>pp;B>sp"
]
},
"curve_cf_mode": {
"type": "RIS",
"data": [
"1X13;1XFF"
]
},
"curve_cv3": {
"type": "RIS",
"parameter": {
"va": "CV_E_INITIAL",
"vb": "CV_E1",
"vc": "CV_E2",
"ve": "CV_SCAN_RATE",
"vf": "SAMPLE_RATE",
"cn": "CYCLE_NUMBER"
},
"data": [
"1X09;1X01;2B>va;2B>vb;2B>vc;"
]
},
"curve_cv3_para2": {
"type": "RIS",
"parameter": {
"va": "CV_E_INITIAL",
"vb": "CV_E1",
"vc": "CV_E2",
"ve": "CV_SCAN_RATE",
"vf": "SAMPLE_RATE",
"cn": "CYCLE_NUMBER"
},
"data": [
"1X09;1X02;4B>ve;2B>vf;2B>cn"
]
},
"curve_ca": {
"type": "RIS",
"parameter": {
"va": "CA_VOLT",
"pa": "GENERAL_LP_RTIA",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE"
},
"data": [
"1X0B;",
"2B>va;",
"4b>pa;4b>0;",
"4b>0;4b>pd;",
"2B>pe"
]
},
"curve_rt": {
"type": "RIS",
"parameter": {
"va": "RT_VOLT_SET",
"pa": "GENERAL_LP_RTIA",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE"
},
"data": [
"X04;",
"2B>va;",
"4b>pa;4b>0;",
"4b>0;4b>pd;",
"2B>pe"
]
},
"curve_vt": {
"type": "RIS",
"parameter": {
"pa": "GENERAL_LP_RTIA",
"pd": "CTRL_HIGH_Z_15",
"pe": "SAMPLE_RATE",
"va": "VT_MEASURE_VIN_RANGE"
},
"data": [
"X05;",
"4b>pa;4b>0;",
"4b>0;4b>pd;",
"2B>pe;",
"1B>va"
]
},
"set_para_RT_VOLT_SET": {
"type": "RIS",
"data": [
"XE2;X01;2B>RT_VOLT_SET"
]
},
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
],
"ble_write": {
"type": "ALL",
"data": [
"255X>BLE_WRITE;"
]
},
"dev_version": [
"CIS_VERSION",
"_cdr('20X>ADC_VALUE_I')"
],
"dev_battery": [
"CIS_VOLT",
"_cdr('20X>ADC_VALUE_I')"
]
}
}
@@ -1,12 +1,12 @@
{
"name": "EliteZM_pulsefly",
"name": "Elite_MEGAFLY_0.1",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite.*",
"major_product_number": 0,
"minor_product_number": 2,
"minor_product_number": 6,
"major_version_number": 1,
"minor_version_number": 7
"minor_version_number": 0
},
"constant": {
"ADC_CHANNEL_NUMBER": [
@@ -1426,14 +1426,6 @@
"X80;X03;B>CTRL_HIGH_Z_15"
]
},
"VIS_CC_ZERO": [
"_data_format('I4V4Z4T4')",
"_disable_cache(False)",
"_notify(True)",
"VIS_CC_ZERO",
"_sync(True)",
"VIS_STI"
],
"pulse_fly": [
"sti_mode",
"gas1_mode",
File diff suppressed because it is too large Load Diff
+348
View File
@@ -0,0 +1,348 @@
{
"name": "MMM_1.0",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite-MMM.*",
"major_product_number": 0,
"minor_product_number": 9,
"major_version_number": 0,
"minor_version_number": 1
},
"constant": {
"TIME_MAX": 100000,
"VOLT_MAX": 65536,
"Const_Current_Range": 1500001,
"BLE_WRITE_MAX": 255,
"DROP_10MS":5,
"NOTIFY_DATA": 10
},
"parameters": {
"BAUDRATE": {
"description": "baudrate",
"record_meta": true,
"initial": 10000,
"domain": [
1000000
],
"value": {
"expression": "VALUE"
},
"on_change": "set_sample_rate"
},
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"initial": 100,
"domain": [
1001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"initial": 0,
"value": [
"Dev Mode",
"Dev Mode",
"MMM"
]
},
"BLE_WRITE": {
"description": "send msg to elite",
"domain": {
"list": [
"BLE_WRITE_MAX"
]
},
"initial": "[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]",
"value": "VALUE"
},
"BLE_READ": {
"description": "receive msg from elite",
"domain": "int"
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"PATTERN_SWITCH": {
"description": "switch of pattern",
"initial": 1,
"domain": [
2
],
"value": {
"expression": "VALUE"
}
},
"PULSE": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": [
0,
0,
0
],
"domain": {
"list": [
66536
]
},
"value": {
"expression": "VALUE"
}
},
"PATTERN": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": 1,
"domain": [
44
],
"value": {
"expression": "VALUE"
}
},
"PATTERN_MAX": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": 43,
"domain": [
100
],
"value": {
"expression": "VALUE"
}
},
"PATTERN_MIN": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": 1,
"domain": [
100
],
"value": {
"expression": "VALUE"
}
}
},
"instruction": {
"start": [
"data_format",
"_notify(True)",
{
"expression": "MODE",
"when": {
"0": "start_manual_scan_mode",
"1": "start_manual_scan_mode",
"2": "",
"3": "start_auto_scan_mode",
"4": "start_auto_scan_mode",
"5": "start_R_external_cali_mode"
}
},
"_sync(True)"
],
"get_data": [
"manual_scan_mode_set_R_pattern"
],
"stop": [
"_notify(False)",
{
"expression": "MODE",
"when": {
"0": "stop_manual_scan_mode",
"1": "stop_manual_scan_mode",
"2": "",
"3": "stop_auto_scan_mode",
"4": "stop_auto_scan_mode",
"5": "stop_R_external_cali_mode"
}
},
"_sync(False)"
],
"data_format": [
"_data_format('BMD380')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"start_manual_scan_mode": [
{
"expression": "PATTERN_SWITCH",
"when": {
"0": "start_manual_scan_mode_use_pattern",
"1": "start_manual_scan_mode_use_bit"
}
}
],
"start_manual_scan_mode_use_pattern": {
"type": "RIS",
"parameter": {
"pa": "PATTERN",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X01;",
"X00;X01;",
"16b>pa;",
"16b>ca;",
"16b>cb;"
]
},
"start_manual_scan_mode_use_bit": {
"type": "RIS",
"parameter": {
"pa": "PULSE[0]",
"pb": "PULSE[1]",
"pc": "PULSE[2]",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X01;",
"X00;X00;",
"4b>0;4b>pa;4b>pb;4b>pc;",
"16b>ca;",
"16b>cb;"
]
},
"manual_scan_mode_set_R_pattern": [
{
"expression": "PATTERN_SWITCH",
"when": {
"0": "pattern",
"1": "bit"
}
}
],
"pattern": {
"type": "RIS",
"parameter": {
"pa": "PATTERN",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X02;",
"X00;X01;",
"16b>pa;",
"16b>ca;",
"16b>cb;"
]
},
"bit": {
"type": "RIS",
"parameter": {
"pa": "PULSE[0]",
"pb": "PULSE[1]",
"pc": "PULSE[2]",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X02;",
"X00;X00;",
"4b>0;4b>pa;4b>pb;4b>pc;",
"16b>ca;",
"16b>cb;"
]
},
"stop_manual_scan_mode": {
"type": "RIS",
"data": [
"X01;X00;"
]
},
"start_auto_scan_mode": {
"type": "RIS",
"parameter": {
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X02;X01;",
"2B>PATTERN_MAX;",
"2B>PATTERN_MIN;",
"16b>ca;",
"16b>cb;"
]
},
"stop_auto_scan_mode": {
"type": "RIS",
"data": [
"X02;X00;"
]
},
"start_R_external_cali_mode": {
"type": "RIS",
"parameter": {
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X03;X01;",
"16b>ca;",
"16b>cb;"
]
},
"stop_R_external_cali_mode": {
"type": "RIS",
"data": [
"X03;X00;"
]
},
"enable_notify": {
"type": "RIS",
"data": [
"XFF;XA3;X04;"
]
},
"disable_notify": {
"type": "RIS",
"data": [
"XFF;XA3;X05;"
]
},
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
],
"ble_write": {
"type": "ALL",
"data": [
"255X>BLE_WRITE;"
]
},
"dev_version": [
"CIS_VERSION",
"_cdr('20X>ADC_VALUE_I')"
],
"dev_battery": [
"CIS_VOLT",
"_cdr('20X>ADC_VALUE_I')"
]
}
}
+339
View File
@@ -0,0 +1,339 @@
{
"name": "PEL_1.0",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite-PEL.*",
"major_product_number": 0,
"minor_product_number": 7,
"major_version_number": 0,
"minor_version_number": 0
},
"constant": {
"TIME_MAX": 100000,
"VOLT_MAX": 65536,
"Const_Current_Range": 1500001,
"BLE_WRITE_MAX": 255,
"DROP_10MS":5,
"NOTIFY_DATA": 10
},
"parameters": {
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"initial": 100,
"domain": [
1001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"initial": 0,
"value": [
"Select Resistor Pick Mode",
"Select Resistor Full Mode",
"Dev Mode",
"IOPH",
"IOPL",
"R-external calibration"
]
},
"BLE_WRITE": {
"description": "send msg to elite",
"domain": {
"list": [
"BLE_WRITE_MAX"
]
},
"initial": "[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]",
"value": "VALUE"
},
"BLE_READ": {
"description": "receive msg from elite",
"domain": "int"
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"PATTERN_SWITCH": {
"description": "switch of pattern",
"initial": 1,
"domain": [
2
],
"value": {
"expression": "VALUE"
}
},
"PULSE": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": [
0,
0,
0
],
"domain": {
"list": [
66536
]
},
"value": {
"expression": "VALUE"
}
},
"PATTERN": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": 1,
"domain": [
44
],
"value": {
"expression": "VALUE"
}
},
"PATTERN_MAX": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": 43,
"domain": [
100
],
"value": {
"expression": "VALUE"
}
},
"PATTERN_MIN": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": 1,
"domain": [
100
],
"value": {
"expression": "VALUE"
}
}
},
"instruction": {
"start": [
"data_format",
"_notify(True)",
{
"expression": "MODE",
"when": {
"0": "start_manual_scan_mode",
"1": "start_manual_scan_mode",
"2": "",
"3": "start_auto_scan_mode",
"4": "start_auto_scan_mode",
"5": "start_R_external_cali_mode"
}
},
"_sync(True)"
],
"get_data": [
"manual_scan_mode_set_R_pattern"
],
"stop": [
"_notify(False)",
{
"expression": "MODE",
"when": {
"0": "stop_manual_scan_mode",
"1": "stop_manual_scan_mode",
"2": "",
"3": "stop_auto_scan_mode",
"4": "stop_auto_scan_mode",
"5": "stop_R_external_cali_mode"
}
},
"_sync(False)"
],
"data_format": [
"_data_format('PEL_FMT1_')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"start_manual_scan_mode": [
{
"expression": "PATTERN_SWITCH",
"when": {
"0": "start_manual_scan_mode_use_pattern",
"1": "start_manual_scan_mode_use_bit"
}
}
],
"start_manual_scan_mode_use_pattern": {
"type": "RIS",
"parameter": {
"pa": "PATTERN",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X01;",
"X00;X01;",
"16b>pa;",
"16b>ca;",
"16b>cb;"
]
},
"start_manual_scan_mode_use_bit": {
"type": "RIS",
"parameter": {
"pa": "PULSE[0]",
"pb": "PULSE[1]",
"pc": "PULSE[2]",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X01;",
"X00;X00;",
"4b>0;4b>pa;4b>pb;4b>pc;",
"16b>ca;",
"16b>cb;"
]
},
"manual_scan_mode_set_R_pattern": [
{
"expression": "PATTERN_SWITCH",
"when": {
"0": "pattern",
"1": "bit"
}
}
],
"pattern": {
"type": "RIS",
"parameter": {
"pa": "PATTERN",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X02;",
"X00;X01;",
"16b>pa;",
"16b>ca;",
"16b>cb;"
]
},
"bit": {
"type": "RIS",
"parameter": {
"pa": "PULSE[0]",
"pb": "PULSE[1]",
"pc": "PULSE[2]",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X02;",
"X00;X00;",
"4b>0;4b>pa;4b>pb;4b>pc;",
"16b>ca;",
"16b>cb;"
]
},
"stop_manual_scan_mode": {
"type": "RIS",
"data": [
"X01;X00;"
]
},
"start_auto_scan_mode": {
"type": "RIS",
"parameter": {
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X02;X01;",
"2B>PATTERN_MAX;",
"2B>PATTERN_MIN;",
"16b>ca;",
"16b>cb;"
]
},
"stop_auto_scan_mode": {
"type": "RIS",
"data": [
"X02;X00;"
]
},
"start_R_external_cali_mode": {
"type": "RIS",
"parameter": {
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X03;X01;",
"16b>ca;",
"16b>cb;"
]
},
"stop_R_external_cali_mode": {
"type": "RIS",
"data": [
"X03;X00;"
]
},
"enable_notify": {
"type": "RIS",
"data": [
"XFF;XA3;X04;"
]
},
"disable_notify": {
"type": "RIS",
"data": [
"XFF;XA3;X05;"
]
},
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
],
"ble_write": {
"type": "ALL",
"data": [
"255X>BLE_WRITE;"
]
},
"dev_version": [
"CIS_VERSION",
"_cdr('20X>ADC_VALUE_I')"
],
"dev_battery": [
"CIS_VOLT",
"_cdr('20X>ADC_VALUE_I')"
]
}
}
+339
View File
@@ -0,0 +1,339 @@
{
"name": "PEL_2.0",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite-PEL.*",
"major_product_number": 0,
"minor_product_number": 7,
"major_version_number": 0,
"minor_version_number": 1
},
"constant": {
"TIME_MAX": 100000,
"VOLT_MAX": 65536,
"Const_Current_Range": 1500001,
"BLE_WRITE_MAX": 255,
"DROP_10MS":5,
"NOTIFY_DATA": 10
},
"parameters": {
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"initial": 100,
"domain": [
1001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"initial": 0,
"value": [
"Select Resistor Pick Mode",
"Select Resistor Full Mode",
"Dev Mode",
"IOPH",
"IOPL",
"R-external calibration"
]
},
"BLE_WRITE": {
"description": "send msg to elite",
"domain": {
"list": [
"BLE_WRITE_MAX"
]
},
"initial": "[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]",
"value": "VALUE"
},
"BLE_READ": {
"description": "receive msg from elite",
"domain": "int"
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"PATTERN_SWITCH": {
"description": "switch of pattern",
"initial": 1,
"domain": [
2
],
"value": {
"expression": "VALUE"
}
},
"PULSE": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": [
0,
0,
0
],
"domain": {
"list": [
66536
]
},
"value": {
"expression": "VALUE"
}
},
"PATTERN": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": 1,
"domain": [
44
],
"value": {
"expression": "VALUE"
}
},
"PATTERN_MAX": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": 43,
"domain": [
100
],
"value": {
"expression": "VALUE"
}
},
"PATTERN_MIN": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": 1,
"domain": [
100
],
"value": {
"expression": "VALUE"
}
}
},
"instruction": {
"start": [
"data_format",
"_notify(True)",
{
"expression": "MODE",
"when": {
"0": "start_manual_scan_mode",
"1": "start_manual_scan_mode",
"2": "",
"3": "start_auto_scan_mode",
"4": "start_auto_scan_mode",
"5": "start_R_external_cali_mode"
}
},
"_sync(True)"
],
"get_data": [
"manual_scan_mode_set_R_pattern"
],
"stop": [
"_notify(False)",
{
"expression": "MODE",
"when": {
"0": "stop_manual_scan_mode",
"1": "stop_manual_scan_mode",
"2": "",
"3": "stop_auto_scan_mode",
"4": "stop_auto_scan_mode",
"5": "stop_R_external_cali_mode"
}
},
"_sync(False)"
],
"data_format": [
"_data_format('PEL_FMT1_')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"start_manual_scan_mode": [
{
"expression": "PATTERN_SWITCH",
"when": {
"0": "start_manual_scan_mode_use_pattern",
"1": "start_manual_scan_mode_use_bit"
}
}
],
"start_manual_scan_mode_use_pattern": {
"type": "RIS",
"parameter": {
"pa": "PATTERN",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X01;",
"X00;X01;",
"16b>pa;",
"16b>ca;",
"16b>cb;"
]
},
"start_manual_scan_mode_use_bit": {
"type": "RIS",
"parameter": {
"pa": "PULSE[0]",
"pb": "PULSE[1]",
"pc": "PULSE[2]",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X01;",
"X00;X00;",
"4b>0;4b>pa;4b>pb;4b>pc;",
"16b>ca;",
"16b>cb;"
]
},
"manual_scan_mode_set_R_pattern": [
{
"expression": "PATTERN_SWITCH",
"when": {
"0": "pattern",
"1": "bit"
}
}
],
"pattern": {
"type": "RIS",
"parameter": {
"pa": "PATTERN",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X02;",
"X00;X01;",
"16b>pa;",
"16b>ca;",
"16b>cb;"
]
},
"bit": {
"type": "RIS",
"parameter": {
"pa": "PULSE[0]",
"pb": "PULSE[1]",
"pc": "PULSE[2]",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X02;",
"X00;X00;",
"4b>0;4b>pa;4b>pb;4b>pc;",
"16b>ca;",
"16b>cb;"
]
},
"stop_manual_scan_mode": {
"type": "RIS",
"data": [
"X01;X00;"
]
},
"start_auto_scan_mode": {
"type": "RIS",
"parameter": {
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X02;X01;",
"2B>PATTERN_MAX;",
"2B>PATTERN_MIN;",
"16b>ca;",
"16b>cb;"
]
},
"stop_auto_scan_mode": {
"type": "RIS",
"data": [
"X02;X00;"
]
},
"start_R_external_cali_mode": {
"type": "RIS",
"parameter": {
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X03;X01;",
"16b>ca;",
"16b>cb;"
]
},
"stop_R_external_cali_mode": {
"type": "RIS",
"data": [
"X03;X00;"
]
},
"enable_notify": {
"type": "RIS",
"data": [
"XFF;XA3;X04;"
]
},
"disable_notify": {
"type": "RIS",
"data": [
"XFF;XA3;X05;"
]
},
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
],
"ble_write": {
"type": "ALL",
"data": [
"255X>BLE_WRITE;"
]
},
"dev_version": [
"CIS_VERSION",
"_cdr('20X>ADC_VALUE_I')"
],
"dev_battery": [
"CIS_VOLT",
"_cdr('20X>ADC_VALUE_I')"
]
}
}
+339
View File
@@ -0,0 +1,339 @@
{
"name": "PEL_3.0",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite-PEL.*",
"major_product_number": 0,
"minor_product_number": 7,
"major_version_number": 0,
"minor_version_number": 2
},
"constant": {
"TIME_MAX": 100000,
"VOLT_MAX": 65536,
"Const_Current_Range": 1500001,
"BLE_WRITE_MAX": 255,
"DROP_10MS":5,
"NOTIFY_DATA": 10
},
"parameters": {
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"initial": 100,
"domain": [
1001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"initial": 0,
"value": [
"Select Resistor Pick Mode",
"Select Resistor Full Mode",
"Dev Mode",
"IOPH",
"IOPL",
"R-external calibration"
]
},
"BLE_WRITE": {
"description": "send msg to elite",
"domain": {
"list": [
"BLE_WRITE_MAX"
]
},
"initial": "[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]",
"value": "VALUE"
},
"BLE_READ": {
"description": "receive msg from elite",
"domain": "int"
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"PATTERN_SWITCH": {
"description": "switch of pattern",
"initial": 1,
"domain": [
2
],
"value": {
"expression": "VALUE"
}
},
"PULSE": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": [
0,
0,
0
],
"domain": {
"list": [
66536
]
},
"value": {
"expression": "VALUE"
}
},
"PATTERN": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": 1,
"domain": [
44
],
"value": {
"expression": "VALUE"
}
},
"PATTERN_MAX": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": 43,
"domain": [
100
],
"value": {
"expression": "VALUE"
}
},
"PATTERN_MIN": {
"description": "Pulse Mode Segment Duration 2",
"record_meta": true,
"initial": 1,
"domain": [
100
],
"value": {
"expression": "VALUE"
}
}
},
"instruction": {
"start": [
"data_format",
"_notify(True)",
{
"expression": "MODE",
"when": {
"0": "start_manual_scan_mode",
"1": "start_manual_scan_mode",
"2": "",
"3": "start_auto_scan_mode",
"4": "start_auto_scan_mode",
"5": "start_R_external_cali_mode"
}
},
"_sync(True)"
],
"get_data": [
"manual_scan_mode_set_R_pattern"
],
"stop": [
"_notify(False)",
{
"expression": "MODE",
"when": {
"0": "stop_manual_scan_mode",
"1": "stop_manual_scan_mode",
"2": "",
"3": "stop_auto_scan_mode",
"4": "stop_auto_scan_mode",
"5": "stop_R_external_cali_mode"
}
},
"_sync(False)"
],
"data_format": [
"_data_format('PEL_FMT2_')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"start_manual_scan_mode": [
{
"expression": "PATTERN_SWITCH",
"when": {
"0": "start_manual_scan_mode_use_pattern",
"1": "start_manual_scan_mode_use_bit"
}
}
],
"start_manual_scan_mode_use_pattern": {
"type": "RIS",
"parameter": {
"pa": "PATTERN",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X01;",
"X00;X01;",
"16b>pa;",
"16b>ca;",
"16b>cb;"
]
},
"start_manual_scan_mode_use_bit": {
"type": "RIS",
"parameter": {
"pa": "PULSE[0]",
"pb": "PULSE[1]",
"pc": "PULSE[2]",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X01;",
"X00;X00;",
"4b>0;4b>pa;4b>pb;4b>pc;",
"16b>ca;",
"16b>cb;"
]
},
"manual_scan_mode_set_R_pattern": [
{
"expression": "PATTERN_SWITCH",
"when": {
"0": "pattern",
"1": "bit"
}
}
],
"pattern": {
"type": "RIS",
"parameter": {
"pa": "PATTERN",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X02;",
"X00;X01;",
"16b>pa;",
"16b>ca;",
"16b>cb;"
]
},
"bit": {
"type": "RIS",
"parameter": {
"pa": "PULSE[0]",
"pb": "PULSE[1]",
"pc": "PULSE[2]",
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X01;X02;",
"X00;X00;",
"4b>0;4b>pa;4b>pb;4b>pc;",
"16b>ca;",
"16b>cb;"
]
},
"stop_manual_scan_mode": {
"type": "RIS",
"data": [
"X01;X00;"
]
},
"start_auto_scan_mode": {
"type": "RIS",
"parameter": {
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X02;X01;",
"2B>PATTERN_MAX;",
"2B>PATTERN_MIN;",
"16b>ca;",
"16b>cb;"
]
},
"stop_auto_scan_mode": {
"type": "RIS",
"data": [
"X02;X00;"
]
},
"start_R_external_cali_mode": {
"type": "RIS",
"parameter": {
"ca": "DROP_10MS",
"cb": "NOTIFY_DATA"
},
"data": [
"X03;X01;",
"16b>ca;",
"16b>cb;"
]
},
"stop_R_external_cali_mode": {
"type": "RIS",
"data": [
"X03;X00;"
]
},
"enable_notify": {
"type": "RIS",
"data": [
"XFF;XA3;X04;"
]
},
"disable_notify": {
"type": "RIS",
"data": [
"XFF;XA3;X05;"
]
},
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
],
"ble_write": {
"type": "ALL",
"data": [
"255X>BLE_WRITE;"
]
},
"dev_version": [
"CIS_VERSION",
"_cdr('20X>ADC_VALUE_I')"
],
"dev_battery": [
"CIS_VOLT",
"_cdr('20X>ADC_VALUE_I')"
]
}
}
-221
View File
@@ -1,221 +0,0 @@
{
"name": "Elite",
"version": "0.1",
"match_rule": {
"local_name_pattern": "Elite.*",
"major_product_number": 0,
"minor_product_number": 1,
"major_version_number": 0,
"minor_version_number": 1
},
"constant": {
"REC_CHANNEL_COUNT": 16,
"STI_CHANNEL_COUNT": 15,
"ADC_SAMPLE_RATE_LIST": [
15,
25,
40,
50,
100,
250,
500,
1000,
2500,
4000,
5000
],
"STI_FREQ_LIST": [
15,
25,
40,
50,
100,
250,
500,
1000,
2500,
4000,
5000
]
},
"parameters": {
"MODE": {
"description": "working mode",
"value": [
"Recording Mode",
"Stimulation Mode",
"Artifact Mode"
]
},
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": {
"set": [
"REC_CHANNEL_COUNT"
]
}
},
"SAMPLE_RATE": {
"alias": "ADC_RATE",
"description": "sampling rate",
"record_meta": true,
"domain": [
"len(ADC_SAMPLE_RATE_LIST)"
],
"value": "ADC_SAMPLE_RATE_LIST[VALUE]"
},
"AMP_GAIN": {
"description": "",
"record_meta": true,
"value": [
400,
1000,
2000
]
},
"LOW_FREQ_BAND": {
"description": "",
"record_meta": true,
"domain": [
7
]
},
"STI_MODE": {
"description": "stimulation mode",
"value": [
"Positive Pulse",
"Negative Pulse",
"Pos to Neg Pulse",
"Neg to Pos Pulse",
"Arbitrary Waveform"
]
},
"STI_VOLT": {
"description": "stimulation voltage",
"domain": [
32
],
"value": "2 + 3 * VALUE / 31"
},
"STI_FREQ": {
"description": "stimulation frequency",
"domain": [
"len(STI_FREQ_LIST)"
],
"value": "STI_FREQ_LIST[VALUE]"
},
"STI_PMOS": {
"description": "stimulation PMOS channel",
"initial": 0,
"domain": [
"STI_CHANNEL_COUNT"
],
"guard": "STI_PMOS != STI_NMOS"
},
"STI_NMOS": {
"description": "stimulation NMOS channel",
"initial": "STI_CHANNEL_COUNT - 1",
"domain": [
"STI_CHANNEL_COUNT"
],
"guard": "STI_PMOS != STI_NMOS"
},
"CHOPPER": {
"description": "",
"domain": "bool"
},
"FAST_SETTLE": {
"description": "",
"domain": "bool"
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"0": "start_recording",
"1": "start_stimulation",
"2": "start_artifact"
}
},
"VIS_STI"
],
"start_recording": [
{
"expression": "len(CHANNEL) > 0",
"raise": "no recording channel"
},
"data_format",
"_notify(True)",
"start_recording0",
"_sync(True)"
],
"start_artifact": [
{
"expression": "len(CHANNEL) > 0",
"raise": "no recording channel"
},
"data_format",
"_notify(True)",
"start_artifact0",
"_sync(True)"
],
"data_format": [
"_data_format('TDC4VAF2')"
],
"start_recording0": {
"type": "RIS",
"foreach-parameter": {
"parameter": "CHANNEL",
"variable": [
"a",
"b",
"c",
"d"
]
},
"data": [
"3b110#recording header;2b<AMP_GAIN;3b<LOW_FREQ_BAND",
"4b>SAMPLE_RATE;1ba?;1bb?;1bc?;1bd?",
"4b<a?:0;4b<b?:0",
"4b<c?:0;4b<d?:0"
]
},
"start_artifact0": {
"type": "RIS",
"foreach-parameter": {
"parameter": "CHANNEL",
"variable": [
"a",
"b",
"c",
"d"
]
},
"data": [
"3b100#artifact mode header;2b0;3b001",
"4b>SAMPLE_RATE;1ba?;1bb?;1bc?;1bd?",
"4b<a?:0;4b<b?:0",
"4b<c?:0;4b<d?:0"
]
},
"start_stimulation": [
"start_stimulation0"
],
"start_stimulation0": {
"type": "RIS",
"guard": {
"expression": "STI_PMOS != STI_NMOS",
"raise": "same N/PMos channel"
},
"data": [
"3b111#stimulation header;2b0;3bSTI_MODE",
"4b>STI_FREQ;1bCHOPPER;1bFAST_SETTLE;2b0",
"4b<STI_PMOS;4b<STI_NMOS",
"5b<STI_VOLT;3b0"
]
}
}
}
@@ -1,433 +0,0 @@
{
"name": "EliteEIS",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite.*",
"major_product_number": 0,
"minor_product_number": 4,
"major_version_number": 1,
"minor_version_number": 0
},
"constant": {
"FREQ_MAX": 4294967296,
"VOLT_MAX": 65536,
"BLE_WRITE_MAX": 255
},
"parameters": {
"CHANNEL": {
"derzteription": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"CHANNEL_LABEL": {
"description": "channel label",
"record_meta": true,
"domain": "property",
"value": "['current', 'voltage', 'impedance']"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"initial": 1000,
"domain": [
1001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"value": [
"EIS CURVE",
"Cyclic Voltammetry",
"Dev Mode"
]
},
"FREQ_START": {
"description": "Start of Freq Scan",
"record_meta": true,
"initial": 13422819,
"domain": [
"FREQ_MAX"
],
"value": {
"expression": "VALUE"
}
},
"FREQ_STOP": {
"description": "End of Freq Scan",
"record_meta": true,
"initial": 7,
"domain": [
"FREQ_MAX"
],
"value": {
"expression": "VALUE"
}
},
"DELAY": {
"description": "Wait x peroid before start taking measurements",
"record_meta": true,
"initial": 0,
"domain": [
101
],
"value": {
"expression": "VALUE"
}
},
"AVERAGE_NUM": {
"description": "Number of sample used for average funciton",
"record_meta": true,
"initial": 8,
"value": [
2,
4,
8,
16
]
},
"DC_BIAS": {
"description": "DC voltage bias in mV",
"record_meta": true,
"initial": 15000,
"domain": [
35001
],
"value": {
"expression": "VALUE"
}
},
"AC_AMP": {
"description": "AC Amplitude in mV",
"record_meta": true,
"initial": 25,
"domain": [
2048
]
},
"SCALE": {
"description": "Point spacing pattern",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
},
"PPD": {
"description": "Point per decades",
"record_meta": true,
"initial": 10,
"domain": [
11
]
},
"RTIA": {
"description": "High speed tia gain",
"record_meta": true,
"initial": 4,
"value": [
0,
1,
2,
3,
4
]
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"Scan_Rate": {
"description": "Voltage Scan Rate",
"record_meta": true,
"initial": 10000,
"domain": [
100001
],
"value": {
"expression": "VALUE"
}
},
"CTRL_HIGH_Z_15": {
"description": "ctrl highZ level",
"record_meta": true,
"initial": 1,
"value": [
"On",
"Off"
],
"on_change": "set_ctrl_highZ"
},
"ADC_LEVEL_I_15": {
"description": "ADC level",
"record_meta": true,
"initial": 4,
"value": [
"0",
"1",
"2",
"3",
"auto"
],
"on_change": "set_adc_gain_I"
},
"ADC_LEVEL_V_IN_15": {
"description": "ADC level",
"record_meta": true,
"initial": 3,
"value": [
"0",
"1",
"2",
"auto"
],
"on_change": "set_adc_gain_Vin"
},
"VOLT_INITIAL": {
"description": "Initial Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"VOLT_MAX": {
"description": "Max Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"VOLT_MIN": {
"description": "Min Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "VALUE"
}
},
"CYCLE_NUMBER": {
"description": "CV cycle number",
"record_meta": true,
"initial": 1,
"domain": [
65536
],
"value": {
"expression": "VALUE"
}
},
"BLE_WRITE": {
"description": "send msg to elite",
"domain": {
"list": [
"BLE_WRITE_MAX"
]
},
"initial": "[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]",
"value": "VALUE"
},
"BLE_READ": {
"description": "receive msg from elite",
"domain": "int"
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"*": "start_data"
}
}
],
"start_data": [
"data_format_cali",
"_notify(True)",
{
"expression": "MODE",
"when": {
"1": "set_adc_gain_I"
}
},
{
"expression": "MODE",
"when": {
"1": "set_adc_gain_Vin"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis",
"1": "curve_cv3"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_eis_para2",
"1": "curve_cv3_para2"
}
},
"_sync(True)",
"VIS_STI"
],
"data_format": [
"_data_format('EISZeroOne')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"data_format_cali": [
"_data_format_cali('EISZeroOne')"
],
"set_sample_rate": {
"type": "RIS",
"parameter": {
"va": "SAMPLE_RATE"
},
"data": [
"XE0;2B>va"
]
},
"set_adc_gain_I": {
"type": "RIS",
"data": [
"XE1;X05;B>ADC_LEVEL_I_15"
]
},
"set_adc_gain_Vin": {
"type": "RIS",
"data": [
"XE1;X06;B>ADC_LEVEL_V_IN_15"
]
},
"set_ctrl_highZ": {
"type": "RIS",
"data": [
"XE1;X03;B>CTRL_HIGH_Z_15"
]
},
"curve_eis": {
"type": "RIS",
"parameter": {
"fa": "FREQ_START",
"fb": "FREQ_STOP",
"dp": "DELAY",
"dc": "DC_BIAS",
"am": "AC_AMP",
"an": "AVERAGE_NUM",
"rt": "RTIA",
"pp": "PPD",
"sp": "SCALE"
},
"data": [
"1XD1;1X01;4B>fa;4B>fb;2B>dp"
]
},
"curve_eis_para2": {
"type": "RIS",
"parameter": {
"fa": "FREQ_START",
"fb": "FREQ_STOP",
"dp": "DELAY",
"dc": "DC_BIAS",
"am": "AC_AMP",
"an": "AVERAGE_NUM",
"rt": "RTIA",
"pp": "PPD",
"sp": "SCALE"
},
"data": [
"1XD1;1X02;2B>dc;2B>am;B>an;B>rt;2B>pp;B>sp"
]
},
"curve_cv3": {
"type": "RIS",
"parameter": {
"va": "VOLT_INITIAL",
"vb": "VOLT_MAX",
"vc": "VOLT_MIN",
"ve": "Scan_Rate",
"vf": "SAMPLE_RATE",
"cn": "CYCLE_NUMBER"
},
"data": [
"1XD2;1X01;2B>va;2B>vb;2B>vc;"
]
},
"curve_cv3_para2": {
"type": "RIS",
"parameter": {
"va": "VOLT_INITIAL",
"vb": "VOLT_MAX",
"vc": "VOLT_MIN",
"ve": "Scan_Rate",
"vf": "SAMPLE_RATE",
"cn": "CYCLE_NUMBER"
},
"data": [
"1XD2;1X02;4B>ve;2B>vf;2B>cn"
]
},
"VIS_CC_ZERO": [
"_data_format('EISZeroOne')",
"_disable_cache(False)",
"_notify(True)",
"VIS_CC_ZERO",
"_sync(True)",
"VIS_STI"
],
"ble_instru_send": [
"ble_write",
"_cdr('20X>ADC_VALUE_I')"
],
"ble_write": {
"type": "RIS",
"data": [
"XFF;",
"1B>BLE_WRITE[0];1B>BLE_WRITE[1];1B>BLE_WRITE[2];1B>BLE_WRITE[3];",
"1B>BLE_WRITE[4];1B>BLE_WRITE[5];1B>BLE_WRITE[6];1B>BLE_WRITE[7];",
"1B>BLE_WRITE[8];1B>BLE_WRITE[9];1B>BLE_WRITE[10];1B>BLE_WRITE[11];",
"1B>BLE_WRITE[12];1B>BLE_WRITE[13];1B>BLE_WRITE[14];1B>BLE_WRITE[15];",
"1B>BLE_WRITE[16];"
]
},
"dev_version": [
"CIS_VERSION",
"_cdr('20X>ADC_VALUE_I')"
],
"dev_battery": [
"CIS_VOLT",
"_cdr('20X>ADC_VALUE_I')"
]
}
}
@@ -1,220 +0,0 @@
{
"name": "Elite_Legacy",
"version": "0.0.0",
"match_rule": {
"major_product_number": 0,
"minor_product_number": 0,
"major_version_number": 0,
"minor_version_number": 0
},
"constant": {
"REC_CHANNEL_COUNT": 16,
"STI_CHANNEL_COUNT": 15,
"ADC_SAMPLE_RATE_LIST": [
15,
25,
40,
50,
100,
250,
500,
1000,
2500,
4000,
5000
],
"STI_FREQ_LIST": [
15,
25,
40,
50,
100,
250,
500,
1000,
2500,
4000,
5000
]
},
"parameters": {
"MODE": {
"description": "working mode",
"value": [
"Recording Mode",
"Stimulation Mode",
"Artifact Mode"
]
},
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": {
"set": [
"REC_CHANNEL_COUNT"
]
}
},
"SAMPLE_RATE": {
"alias": "ADC_RATE",
"description": "sampling rate",
"record_meta": true,
"domain": [
"len(ADC_SAMPLE_RATE_LIST)"
],
"value": "ADC_SAMPLE_RATE_LIST[VALUE]"
},
"AMP_GAIN": {
"description": "",
"record_meta": true,
"value": [
400,
1000,
2000
]
},
"LOW_FREQ_BAND": {
"description": "",
"record_meta": true,
"domain": [
7
]
},
"STI_MODE": {
"description": "stimulation mode",
"value": [
"Positive Pulse",
"Negative Pulse",
"Pos to Neg Pulse",
"Neg to Pos Pulse",
"Arbitrary Waveform"
]
},
"STI_VOLT": {
"description": "stimulation voltage",
"domain": [
32
],
"value": "2 + 3 * VALUE / 31"
},
"STI_FREQ": {
"description": "stimulation frequency",
"domain": [
"len(STI_FREQ_LIST)"
],
"value": "STI_FREQ_LIST[VALUE]"
},
"STI_PMOS": {
"description": "stimulation PMOS channel",
"initial": 0,
"domain": [
"STI_CHANNEL_COUNT"
],
"guard": "STI_PMOS != STI_NMOS"
},
"STI_NMOS": {
"description": "stimulation NMOS channel",
"initial": "STI_CHANNEL_COUNT - 1",
"domain": [
"STI_CHANNEL_COUNT"
],
"guard": "STI_PMOS != STI_NMOS"
},
"CHOPPER": {
"description": "",
"domain": "bool"
},
"FAST_SETTLE": {
"description": "",
"domain": "bool"
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"0": "start_recording",
"1": "start_stimulation",
"2": "start_artifact"
}
},
"VIS_STI"
],
"start_recording": [
{
"expression": "len(CHANNEL) > 0",
"raise": "no recording channel"
},
"data_format",
"_notify(True)",
"start_recording0",
"_sync(True)"
],
"start_artifact": [
{
"expression": "len(CHANNEL) > 0",
"raise": "no recording channel"
},
"data_format",
"_notify(True)",
"start_artifact0",
"_sync(True)"
],
"data_format": [
"_data_format('TC4VAF2')"
],
"start_recording0": {
"type": "RIS",
"foreach-parameter": {
"parameter": "CHANNEL",
"variable": [
"a",
"b",
"c",
"d"
]
},
"data": [
"3b110#recording header;2b<AMP_GAIN;3b<LOW_FREQ_BAND",
"4b>SAMPLE_RATE;1ba?;1bb?;1bc?;1bd?",
"4b<a?:0;4b<b?:0",
"4b<c?:0;4b<d?:0"
]
},
"start_artifact0": {
"type": "RIS",
"foreach-parameter": {
"parameter": "CHANNEL",
"variable": [
"a",
"b",
"c",
"d"
]
},
"data": [
"3b100#artifact mode header;2b0;3b001",
"4b>SAMPLE_RATE;1ba?;1bb?;1bc?;1bd?",
"4b<a?:0;4b<b?:0",
"4b<c?:0;4b<d?:0"
]
},
"start_stimulation": [
"start_stimulation0"
],
"start_stimulation0": {
"type": "RIS",
"guard": {
"expression": "STI_PMOS != STI_NMOS",
"raise": "same N/PMos channel"
},
"data": [
"3b111#stimulation header;2b0;3bSTI_MODE",
"4b>STI_FREQ;1bCHOPPER;1bFAST_SETTLE;2b0",
"4b<STI_PMOS;4b<STI_NMOS",
"5b<STI_VOLT;3b0"
]
}
}
}
@@ -1,300 +0,0 @@
{
"name": "Elite_TRI",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Trigger.*",
"major_product_number": 0,
"minor_product_number": 5,
"major_version_number": 1,
"minor_version_number": 0
},
"constant": {
},
"parameters": {
"ACC_a_out0": {
"description": "Switch of analog current channel 1",
"record_meta": true,
"initial": 0,
"value": [
0,
1
],
"on_change": "set_para_AOUT0"
},
"ACC_a_out0_current": {
"description": "current value of analog current channel 1",
"record_meta": true,
"initial": 0,
"domain": [
50001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_para_AOUT0"
},
"ACC_a_out1": {
"description": "Switch of analog current channel 2",
"record_meta": true,
"initial": 0,
"value": [
0,
1
],
"on_change": "set_para_AOUT1"
},
"ACC_a_out1_current": {
"description": "current value of analog current channel 2",
"record_meta": true,
"initial": 0,
"domain": [
50001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_para_AOUT1"
},
"ACC_a_out2": {
"description": "Switch of analog current channel 3",
"record_meta": true,
"initial": 0,
"value": [
0,
1
],
"on_change": "set_para_AOUT2"
},
"ACC_a_out2_current": {
"description": "current value of analog current channel 3",
"record_meta": true,
"initial": 0,
"domain": [
50001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_para_AOUT2"
},
"ACC_a_out3": {
"description": "Switch of current channel 4",
"record_meta": true,
"initial": 0,
"value": [
0,
1
],
"on_change": "set_para_AOUT3"
},
"ACC_a_out3_current": {
"description": "current value of analog current channel 4",
"record_meta": true,
"initial":0,
"domain": [
50001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_para_AOUT3"
},
"TRIG0_en": {
"description": "Switch of current channel 4",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
},
"TRIG1_en": {
"description": "Switch of current channel 4",
"record_meta": true,
"initial": 0,
"value": [
0,
1
]
},
"TRIG0_edge_type": {
"description": "Switch of current channel 4",
"record_meta": true,
"initial": 0,
"value": [
"RISING",
"FALLING",
"BOTH"
]
},
"TRIG1_edge_type": {
"description": "Switch of current channel 4",
"record_meta": true,
"initial": 0,
"value": [
"RISING",
"FALLING",
"BOTH"
]
},
"MODE": {
"description": "working mode",
"record_meta": true,
"value": [
"Analog Current Control (ACC)"
]
},
"CHANNEL": {
"description": "delete it",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"CHANNEL_LABEL": {
"description": "delete it",
"record_meta": true,
"domain": "property",
"value": "['current', 'voltage', 'impedance']"
},
"SAMPLE_RATE": {
"description": "delete it",
"record_meta": true,
"initial": 1000,
"domain": [
1001
],
"value": {
"expression": "VALUE"
},
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "delete it",
"record_meta": true,
"domain": "constant",
"value": 1
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"*": "start_data"
}
}
],
"start_data": [
"data_format",
"_notify(True)",
{
"expression": "MODE",
"when": {
"0": "set_aout_chan_en"
}
},
{
"expression": "MODE",
"when": {
"0": "set_TRIG_EN"
}
},
{
"expression": "MODE",
"when": {
"0": "curve_acc"
}
},
"_sync(True)",
"VIS_STI"
],
"data_format": [
"_data_format('I4V4Z4T4')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"dev_version": [
"CIS_VERSION",
"_cdr('20X>ADC_VALUE_I')"
],
"dev_battery": [
"CIS_VOLT",
"_cdr('20X>ADC_VALUE_I')"
],
"curve_acc": {
"type": "RIS",
"parameter": {
"va": "ACC_a_out0_current",
"vb": "ACC_a_out1_current",
"vc": "ACC_a_out2_current",
"vd": "ACC_a_out3_current"
},
"data": [
"X0E;",
"2B>va;2B>vb;2B>vc;2B>vd"
]
},
"set_aout_chan_en": {
"type": "RIS",
"parameter": {
"va": "ACC_a_out0",
"vb": "ACC_a_out1",
"vc": "ACC_a_out2",
"vd": "ACC_a_out3"
},
"data": [
"X81;X02;",
"4b>va;4b>vb;4b>vc;4b>vd"
]
},
"set_TRIG_EN": {
"type": "RIS",
"parameter": {
"va": "TRIG0_en",
"vb": "TRIG1_en",
"vc": "TRIG0_edge_type",
"vd": "TRIG1_edge_type"
},
"data": [
"X41;",
"4b>va;4b>vb;4b>vc;4b>vd"
]
},
"set_para_AOUT0": {
"type": "RIS",
"data": [
"XE2;X02;X00;2B>ACC_a_out0_current;1B>ACC_a_out0"
]
},
"set_para_AOUT1": {
"type": "RIS",
"data": [
"XE2;X02;X01;2B>ACC_a_out1_current;1B>ACC_a_out1"
]
},
"set_para_AOUT2": {
"type": "RIS",
"data": [
"XE2;X02;X02;2B>ACC_a_out2_current;1B>ACC_a_out2"
]
},
"set_para_AOUT3": {
"type": "RIS",
"data": [
"XE2;X02;X03;2B>ACC_a_out3_current;1B>ACC_a_out3"
]
}
}
}
-343
View File
@@ -1,343 +0,0 @@
{
"name": "EliteZM",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite-ZM.+",
"major_product_number": 0,
"minor_product_number": 2,
"major_version_number": 1,
"minor_version_number": 2
},
"constant": {
"ADC_CHANNEL_NUMBER": [
12,
13,
14,
15
],
"VOLT_MAX": 65536,
"STEP_MAX": 100,
"Const_Current_Range": 1500001
},
"parameters": {
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"CHANNEL_LABEL": {
"description": "channel label",
"record_meta": true,
"domain": "property",
"value": "['current', 'voltage', 'impedance']"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"value": [
100,
10,
5,
1,
0.1,
0.01
],
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"value": [
"I-V Curve",
"Cyclic Voltammetry",
"Function Generator",
"R-T Curve",
"V-T Curve",
"I-T Curve",
"ADC test",
"Constant Current"
]
},
"VOLT_ORIGIN": {
"description": "Origin Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "(VALUE) * 0x0001"
}
},
"VOLT_FINAL": {
"description": "The last Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": " (VALUE) * 0x0001"
}
},
"VOLT_STEP": {
"description": "Voltage Step",
"record_meta": true,
"initial": 0,
"domain": [
"STEP_MAX"
],
"value": {
"expression": "(VALUE + 1) * 0x0001"
}
},
"STEP_TIME": {
"description": "How much time between two step",
"record_meta": true,
"initial": 1,
"value": [
0.5,
1.0,
2.0
]
},
"CYCLE_NUMBER": {
"description": "CV cycle number",
"record_meta": true,
"initial": 0,
"domain": [
200
],
"value": {
"expression": "VALUE + 1"
}
},
"DAC_VOLT": {
"description": "DAC output Voltage",
"record_meta": true,
"initial": 25000,
"domain": [
65536
]
},
"ADC_CHANNEL": {
"description": "read ADC data",
"record_meta": true,
"value": [
"ANA0",
"ANA1",
"ANA2",
"ANA3"
]
},
"ADC_LEVEL": {
"description": "ADC level",
"record_meta": true,
"initial": 3,
"value": [
"200k",
"10k",
"200R",
"auto"
],
"on_change": "set_adc_gain"
},
"Resister_LEVEL": {
"description": "Resister_LEVEL",
"record_meta": true,
"initial": 3,
"value": [
"Small",
"Middle",
"Large",
"Auto"
],
"on_change": "set_Resister_level"
},
"ADC_VALUE_V": {
"description": "ADC value voltage value",
"domain": "int"
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"Const_Current_unit": {
"description": "Constant Current unit Setting",
"initial": 1,
"value": [
"uA",
"mA"
]
},
"Const_Current_value": {
"description": "Constant Current value Setting",
"initial": 0,
"domain": [
"Const_Current_Range"
],
"value": {
"expression": "(VALUE) * 0x00000001"
}
},
"Charge": {
"description": "Charge battery or not",
"initial": 0,
"value": [
"Charge",
"Discharge"
]
},
"Const_Current_VStop": {
"description": "Constant Current Stopping Voltage",
"initial": 0,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "(VALUE) * 0x0001"
}
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"2": "start_fun_gen",
"6": "adc_test",
"*": "start_data"
}
}
],
"start_fun_gen": [
"data_format",
"func_gen",
"VIS_STI"
],
"adc_test": [
"adc_test0",
"_cdr('1X;4X>ADC_VALUE_I;4X>ADC_VALUE_V')"
],
"start_data": [
"data_format",
"_notify(True)",
"set_sample_rate",
{
"expression": "MODE",
"when": {
"0": "curve_iv",
"1": "curve_cv",
"3": "curve_zt",
"4": "curve_vt",
"5": "curve_it",
"7": "const_current"
}
},
"_sync(True)",
"VIS_STI"
],
"data_format": [
"_data_format('I4V4Z4T4')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"curve_iv": {
"type": "RIS",
"parameter": {
"va": "(VOLT_ORIGIN) * 0x0001",
"vb": "(VOLT_FINAL) * 0x0001",
"dv": "(VOLT_STEP + 1) * 0x0001",
"dt": "STEP_TIME * 0x12"
},
"data": [
"1X10;2B>va;2B>vb;2B>dv;B>dt"
]
},
"curve_cv": {
"type": "RIS",
"parameter": {
"va": "(VOLT_ORIGIN) * 0x0001",
"vb": "(VOLT_FINAL) * 0x0001",
"dv": "(VOLT_STEP + 1) * 0x0001",
"dt": "STEP_TIME * 0x12",
"cn": "CYCLE_NUMBER+1"
},
"data": [
"1X20;2B>va;2B>vb;2B>dv;B>dt;B>cn"
]
},
"func_gen": {
"type": "RIS",
"parameter": {
"v": "(DAC_VOLT) * 0x0001"
},
"data": [
"X30;2B>v"
]
},
"curve_zt": {
"type": "RIS",
"data": [
"X40"
]
},
"curve_vt": {
"type": "RIS",
"data": [
"X50"
]
},
"curve_it": {
"type": "RIS",
"data": [
"X60"
]
},
"adc_test0": {
"type": "RIS",
"data": [
"X90;B>ADC_LEVEL;B>ADC_CHANNEL"
]
},
"set_sample_rate": {
"type": "RIS",
"data": [
"X70;B>SAMPLE_RATE"
]
},
"set_adc_gain": {
"type": "RIS",
"data": [
"X80;B>ADC_LEVEL"
]
},
"set_Resister_level": {
"type": "RIS",
"data": [
"XE0;B>Resister_LEVEL"
]
},
"const_current": {
"type": "RIS",
"data": [
"XD0;B>Charge;2X>Const_Current_VStop;4X>Const_Current_value"
]
}
}
}
@@ -1,320 +0,0 @@
{
"name": "EliteZML",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite-ZM.+",
"major_product_number": 0,
"minor_product_number": 2,
"major_version_number": 1,
"minor_version_number": 4
},
"constant": {
"ADC_CHANNEL_NUMBER": [
12,
13,
14,
15
],
"VOLT_MAX": 65536,
"STEP_MAX": 100,
"Const_Current_Range": 3000001
},
"parameters": {
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"CHANNEL_LABEL": {
"description": "channel label",
"record_meta": true,
"domain": "property",
"value": "['current', 'voltage', 'impedance']"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"value": [
100,
10,
5,
1,
0.1,
0.01
],
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"value": [
"I-V Curve",
"Cyclic Voltammetry",
"Function Generator",
"R-T Curve",
"V-T Curve",
"I-T Curve",
"ADC test",
"Constant Current"
]
},
"VOLT_ORIGIN": {
"description": "Origin Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "(VALUE + 1) * 0x0001"
}
},
"VOLT_FINAL": {
"description": "The last Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": " (VALUE + 1) * 0x0001"
}
},
"VOLT_STEP": {
"description": "Voltage Step",
"record_meta": true,
"initial": 0,
"domain": [
"STEP_MAX"
],
"value": {
"expression": "(VALUE + 1) * 0x0001"
}
},
"STEP_TIME": {
"description": "How much time between two step",
"record_meta": true,
"initial": 1,
"value": [
0.5,
1.0,
2.0
]
},
"CYCLE_NUMBER": {
"description": "CV cycle number",
"record_meta": true,
"domain": [
200
],
"value": {
"expression": "VALUE + 1"
}
},
"DAC_VOLT": {
"description": "DAC output Voltage",
"record_meta": true,
"domain": [
65536
]
},
"ADC_CHANNEL": {
"description": "read ADC data",
"record_meta": true,
"value": [
"ANA0",
"ANA1",
"ANA2",
"ANA3"
]
},
"ADC_LEVEL": {
"description": "ADC level",
"record_meta": true,
"value": [
"200k",
"10k",
"200R",
"auto"
],
"on_change": "set_adc_gain"
},
"Resister_LEVEL": {
"description": "Resister_LEVEL",
"record_meta": true,
"value": [
"Small",
"Middle",
"Large",
"Auto"
],
"on_change": "set_Resister_level"
},
"ADC_VALUE_V": {
"description": "ADC value voltage value",
"domain": "int"
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"Const_Current_unit": {
"description": "Constant Current unit Setting",
"value": [
"uA",
"mA"
]
},
"Const_Current_value": {
"description": "Constant Current value Setting",
"initial": 1500000,
"domain": [
"Const_Current_Range"
],
"value": {
"expression": "(VALUE) * 0x00000001"
}
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"2": "start_fun_gen",
"6": "adc_test",
"*": "start_data"
}
}
],
"start_fun_gen": [
"data_format",
"func_gen",
"VIS_STI"
],
"adc_test": [
"adc_test0",
"_cdr('1X;4X>ADC_VALUE_I;4X>ADC_VALUE_V')"
],
"start_data": [
"data_format",
"_notify(True)",
"set_sample_rate",
{
"expression": "MODE",
"when": {
"0": "curve_iv",
"1": "curve_cv",
"3": "curve_zt",
"4": "curve_vt",
"5": "curve_it",
"7": "const_current"
}
},
"_sync(True)",
"VIS_STI"
],
"data_format": [
"_data_format('I4V4Z4T4')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"curve_iv": {
"type": "RIS",
"parameter": {
"va": "(VOLT_ORIGIN + 1) * 0x0001",
"vb": "(VOLT_FINAL + 1) * 0x0001",
"dv": "(VOLT_STEP + 1) * 0x0001",
"dt": "STEP_TIME * 0x12"
},
"data": [
"1X10;2B>va;2B>vb;2B>dv;B>dt"
]
},
"curve_cv": {
"type": "RIS",
"parameter": {
"va": "(VOLT_ORIGIN + 1) * 0x0001",
"vb": "(VOLT_FINAL + 1) * 0x0001",
"dv": "(VOLT_STEP + 1) * 0x0001",
"dt": "STEP_TIME * 0x12",
"cn": "CYCLE_NUMBER+1"
},
"data": [
"1X20;2B>va;2B>vb;2B>dv;B>dt;B>CYCLE_NUMBER"
]
},
"func_gen": {
"type": "RIS",
"parameter": {
"v": "(DAC_VOLT) * 0x0001"
},
"data": [
"X30;2B>v"
]
},
"curve_zt": {
"type": "RIS",
"data": [
"X40"
]
},
"curve_vt": {
"type": "RIS",
"data": [
"X50"
]
},
"curve_it": {
"type": "RIS",
"data": [
"X60"
]
},
"adc_test0": {
"type": "RIS",
"data": [
"X90;B>ADC_LEVEL;B>ADC_CHANNEL"
]
},
"set_sample_rate": {
"type": "RIS",
"data": [
"X70;B>SAMPLE_RATE"
]
},
"set_adc_gain": {
"type": "RIS",
"data": [
"X80;B>ADC_LEVEL"
]
},
"set_Resister_level": {
"type": "RIS",
"data": [
"XE0;B>Resister_LEVEL"
]
},
"const_current": {
"type": "RIS",
"data": [
"XD0;4X>Const_Current_value"
]
}
}
}
@@ -1,320 +0,0 @@
{
"name": "EliteZMS",
"version": "1.2.30",
"match_rule": {
"local_name_pattern": "Elite-ZM.+",
"major_product_number": 0,
"minor_product_number": 2,
"major_version_number": 1,
"minor_version_number": 3
},
"constant": {
"ADC_CHANNEL_NUMBER": [
12,
13,
14,
15
],
"VOLT_MAX": 65536,
"STEP_MAX": 100,
"Const_Current_Range": 3000001
},
"parameters": {
"CHANNEL": {
"description": "record channels",
"record_meta": true,
"domain": "property",
"value": "[0, 1, 2]"
},
"CHANNEL_LABEL": {
"description": "channel label",
"record_meta": true,
"domain": "property",
"value": "['current', 'voltage', 'impedance']"
},
"SAMPLE_RATE": {
"description": "data sampling rate",
"record_meta": true,
"value": [
100,
10,
5,
1,
0.1,
0.01
],
"on_change": "set_sample_rate"
},
"AMP_GAIN": {
"description": "amp gain",
"record_meta": true,
"domain": "constant",
"value": 1
},
"MODE": {
"description": "working mode",
"record_meta": true,
"value": [
"I-V Curve",
"Cyclic Voltammetry",
"Function Generator",
"R-T Curve",
"V-T Curve",
"I-T Curve",
"ADC test",
"Constant Current"
]
},
"VOLT_ORIGIN": {
"description": "Origin Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": "(VALUE + 1) * 0x0001"
}
},
"VOLT_FINAL": {
"description": "The last Voltage of Scan",
"record_meta": true,
"initial": 25000,
"domain": [
"VOLT_MAX"
],
"value": {
"expression": " (VALUE + 1) * 0x0001"
}
},
"VOLT_STEP": {
"description": "Voltage Step",
"record_meta": true,
"initial": 0,
"domain": [
"STEP_MAX"
],
"value": {
"expression": "(VALUE + 1) * 0x0001"
}
},
"STEP_TIME": {
"description": "How much time between two step",
"record_meta": true,
"initial": 1,
"value": [
0.5,
1.0,
2.0
]
},
"CYCLE_NUMBER": {
"description": "CV cycle number",
"record_meta": true,
"domain": [
200
],
"value": {
"expression": "VALUE + 1"
}
},
"DAC_VOLT": {
"description": "DAC output Voltage",
"record_meta": true,
"domain": [
65536
]
},
"ADC_CHANNEL": {
"description": "read ADC data",
"record_meta": true,
"value": [
"ANA0",
"ANA1",
"ANA2",
"ANA3"
]
},
"ADC_LEVEL": {
"description": "ADC level",
"record_meta": true,
"value": [
"200k",
"10k",
"200R",
"auto"
],
"on_change": "set_adc_gain"
},
"Resister_LEVEL": {
"description": "Resister_LEVEL",
"record_meta": true,
"value": [
"Small",
"Middle",
"Large",
"Auto"
],
"on_change": "set_Resister_level"
},
"ADC_VALUE_V": {
"description": "ADC value voltage value",
"domain": "int"
},
"ADC_VALUE_I": {
"description": "ADC value current value",
"domain": "int"
},
"Const_Current_unit": {
"description": "Constant Current unit Setting",
"value": [
"uA",
"mA"
]
},
"Const_Current_value": {
"description": "Constant Current value Setting",
"initial": 1500000,
"domain": [
"Const_Current_Range"
],
"value": {
"expression": "(VALUE) * 0x00000001"
}
}
},
"instruction": {
"start": [
{
"expression": "MODE",
"when": {
"2": "start_fun_gen",
"6": "adc_test",
"*": "start_data"
}
}
],
"start_fun_gen": [
"data_format",
"func_gen",
"VIS_STI"
],
"adc_test": [
"adc_test0",
"_cdr('1X;4X>ADC_VALUE_I;4X>ADC_VALUE_V')"
],
"start_data": [
"data_format",
"_notify(True)",
"set_sample_rate",
{
"expression": "MODE",
"when": {
"0": "curve_iv",
"1": "curve_cv",
"3": "curve_zt",
"4": "curve_vt",
"5": "curve_it",
"7": "const_current"
}
},
"_sync(True)",
"VIS_STI"
],
"data_format": [
"_data_format('I4V4Z4T4')",
{
"expression": "MODE",
"when": {
"0": "_disable_cache(True)",
"1": "_disable_cache(True)",
"*": "_disable_cache(False)"
}
}
],
"curve_iv": {
"type": "RIS",
"parameter": {
"va": "(VOLT_ORIGIN + 1) * 0x0001",
"vb": "(VOLT_FINAL + 1) * 0x0001",
"dv": "(VOLT_STEP + 1) * 0x0001",
"dt": "STEP_TIME * 0x12"
},
"data": [
"1X10;2B>va;2B>vb;2B>dv;B>dt"
]
},
"curve_cv": {
"type": "RIS",
"parameter": {
"va": "(VOLT_ORIGIN + 1) * 0x0001",
"vb": "(VOLT_FINAL + 1) * 0x0001",
"dv": "(VOLT_STEP + 1) * 0x0001",
"dt": "STEP_TIME * 0x12",
"cn": "CYCLE_NUMBER+1"
},
"data": [
"1X20;2B>va;2B>vb;2B>dv;B>dt;B>CYCLE_NUMBER"
]
},
"func_gen": {
"type": "RIS",
"parameter": {
"v": "(DAC_VOLT) * 0x0001"
},
"data": [
"X30;2B>v"
]
},
"curve_zt": {
"type": "RIS",
"data": [
"X40"
]
},
"curve_vt": {
"type": "RIS",
"data": [
"X50"
]
},
"curve_it": {
"type": "RIS",
"data": [
"X60"
]
},
"adc_test0": {
"type": "RIS",
"data": [
"X90;B>ADC_LEVEL;B>ADC_CHANNEL"
]
},
"set_sample_rate": {
"type": "RIS",
"data": [
"X70;B>SAMPLE_RATE"
]
},
"set_adc_gain": {
"type": "RIS",
"data": [
"X80;B>ADC_LEVEL"
]
},
"set_Resister_level": {
"type": "RIS",
"data": [
"XE0;B>Resister_LEVEL"
]
},
"const_current": {
"type": "RIS",
"data": [
"XD0;4X>Const_Current_value"
]
}
}
}
+3
View File
@@ -0,0 +1,3 @@
#!/bin/bash
find /home/pi -maxdepth 1 -type f -iname '*.out' -mtime +30 -delete
+38
View File
@@ -0,0 +1,38 @@
#!/bin/bash
# install python module numpy
sudo apt-get install libatlas-base-dev
sudo apt-get install python3-numpy
# install python module SQLAlchemy
pip3 install SQLAlchemy
# create folder to save project logger
mkdir -p /home/pi/logger/project
# add column cycle in projects
sudo su -c "psql -d postgres -c \"ALTER TABLE projects ADD COLUMN IF NOT EXISTS cycle JSONB;\"" postgres
# add column project in recording_data_metas
sudo su -c "psql -d postgres -c \"ALTER TABLE recording_data_metas ADD COLUMN IF NOT EXISTS project Int4;\"" postgres
# remove default controller info
sudo su -c "psql -d postgres -c \"DELETE FROM controllers WHERE name='WTP_NONE';\"" postgres
# change table name from meta_project_info to project_metas
sudo su -c "psql -d postgres -c \"ALTER TABLE IF EXISTS meta_project_info RENAME TO project_metas;\"" postgres
# change table name from project_report to project_reports
sudo su -c "psql -d postgres -c \"ALTER TABLE IF EXISTS project_report RENAME TO project_reports;\"" postgres
# change table project_meta column cycle to type jsonb
sudo su -c "psql -d postgres -c \"ALTER TABLE project_metas ALTER COLUMN cycle type jsonb USING (cycle::jsonb);\"" postgres
# drop column calibration default
sudo su -c "psql -d postgres -c \"ALTER TABLE devices ALTER COLUMN calibration DROP DEFAULT;\"" postgres
# drop column calibration default
sudo su -c "psql -d postgres -c \"ALTER TABLE devices ALTER COLUMN calibration TYPE bytea USING calibration::bytea;\"" postgres
# add column project in recording_data_metas
sudo su -c "psql -d postgres -c \"ALTER TABLE devices ADD COLUMN IF NOT EXISTS calibration_version Int4 DEFAULT -1;\"" postgres