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116 Commits

Author SHA1 Message Date
Roy 2b60e68197 [update] update eis decoder code 2022-06-22 13:11:57 +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
peterlu14 515cc9f7a2 [update] fix stop close writer losing data problem 2022-04-29 17:18:48 +08:00
peterlu14 9b92249fdb Merge branch 'feature/project' into rel/v1.6.0/highz 2022-04-27 14:01:07 +08:00
peterlu14 adcc13b4de [update] idle device not sending instruction 2022-04-27 13:26:05 +08:00
peterlu14 0cd0fd7027 [update] project task name rename 2022-04-27 13:24:31 +08:00
Roy 5228290eac [update] fix 1.5re.json about highz 2022-04-27 13:16:29 +08:00
LuoYiTing 034b7976cd Update README.md 2022-04-25 03:55:34 +00:00
peterlu14 fa8c219f76 Merge branch 'rel/v1.5.1' into feature/project 2022-04-25 10:48:22 +08:00
peterlu14 f233c019fd [update] auto get eth0 mac address 2022-04-25 10:36:02 +08:00
peterlu14 ced466f3aa [update] add condition & first task issue & add boardcast 2022-04-18 01:52:52 +08:00
peterlu14 f36906c034 [update] restruct project 2022-04-17 23:05:21 +08:00
peterlu14 0b5c62e525 [update] temp save 2022-04-16 10:50:37 +08:00
peterlu14 abe86238ca remove print messages 2022-04-13 15:58:27 +08:00
peterlu14 f9ab0bc59b [update] remove duplicate code 2022-04-13 15:49:04 +08:00
peterlu14 5dbe231c73 [update] add cacheClient communicate with control server & add comment 2022-04-13 14:08:57 +08:00
peterlu14 c721950bf7 [update] add complete device status 2022-04-12 14:28:04 +08:00
peterlu14 70c0271771 [remove] duplicate code 2022-04-11 16:35:04 +08:00
peterlu14 13825fe9ff [update] hide print 2022-04-08 18:22:44 +08:00
peterlu14 dd2e31d01f [update] fix index problem 2022-04-08 18:16:31 +08:00
peterlu14 455fa1f86b [update] fix stop error & relative_time 2022-04-08 11:17:07 +08:00
Roy 71850b31a8 [update] fix recording error 2022-04-07 12:33:02 +08:00
peterlu14 8d52fef4c1 [update] hide print message 2022-04-07 12:29:18 +08:00
peterlu14 e091f220fa Merge branch 'test/update_data_server' into rel/v1.4.0_schedule/channel_lost_data 2022-03-28 18:19:29 +08:00
peterlu14 6049154fae [update] change check time to 1 2022-03-28 18:18:35 +08:00
peterlu14 3502472021 [update] recover update mini file 2022-03-28 17:27:04 +08:00
peterlu14 5e48c8ae0a [update] update_subfile change 2022-03-28 17:17:07 +08:00
peterlu14 cb2a4c9d56 Revert "[update] solve meta raw&mini id grwon up problem"
This reverts commit cd60e14cbe.
2022-03-28 16:14:23 +08:00
peterlu14 b253aca73f [update] meta_id & mini_id update 2022-03-28 16:12:15 +08:00
Roy 2fd05d18ed [update] fix battery value 2022-03-25 13:41:48 +08:00
Roy 03011ebd5f Merge branch 'dev/check_sum/battery' into rel/v1.4.0_schedule/channel_lost_data 2022-03-25 12:11:05 +08:00
Roy 4b9bc30e28 [update] get battery value 2022-03-25 11:46:40 +08:00
Roy 4966113393 [update] use check sum 2022-03-25 11:44:52 +08:00
Roy 3371c21bbd [update] update log message 2022-03-25 11:34:30 +08:00
Roy afc87829d9 [update] head != tailer, delete data 2022-03-24 17:12:06 +08:00
peterlu14 952403cbf4 [update] subfile 64kB -> 16kB 2022-03-21 14:20:29 +08:00
peterlu14 1cdd04901c [update] fix size count error & close error & remove comments 2022-03-21 14:13:33 +08:00
peterlu14 cd60e14cbe [update] solve meta raw&mini id grwon up problem 2022-03-21 12:01:38 +08:00
peterlu14 ae55e6c789 [update] remove print message 2022-03-18 17:21:53 +08:00
peterlu14 b8addb7686 [update] prevent data loss 2022-03-18 17:12:40 +08:00
Roy da581ae225 [update] update log message 2022-03-18 15:12:37 +08:00
peterlu14 a941f7c060 [update] prevent duplicate address data 2022-03-17 11:34:36 +08:00
Roy 4b0472ecf4 [update] fix error for real_run_time 2022-03-17 09:56:16 +08:00
Roy de51f53657 [update] update log message 2022-03-16 11:50:00 +08:00
Roy 6974950d31 Merge remote-tracking branch 'origin/dev/elite_channel_position_and_skip_ram' into rel/v1.4.0_schedule/channel_lost_data 2022-03-15 15:38:53 +08:00
peterlu14 0887c48ddc [remove] pyc file untracked 2022-03-15 15:33:02 +08:00
Roy 184c7536a6 [update] fix error for reading spi(7000bytes) 2022-03-15 15:18:52 +08:00
Roy 1a3a833680 [update] green data has 12 byte, if ram read done, MEM_INS_MARKED = [5A,A5] 2022-03-15 15:17:38 +08:00
Roy df3c7db8bc [update] fix spi routine code and print log message when run_time >= 0.030 2022-03-15 15:01:55 +08:00
Roy 7287f4c19b [update] update print message 2022-03-15 15:00:34 +08:00
Roy 7d3f7a47ff [update] change position of elite channel 2022-03-15 14:55:11 +08:00
peterlu14 81c699e830 [update] recover previous way to execute data 2022-03-14 16:45:27 +08:00
peterlu14 71e469ec2f Merge branch 'dev/merge_channel_lost_data' into rel/v1.4.0_schedule/channel_lost_data 2022-03-11 10:58:14 +08:00
peterlu14 e4bef30be2 [update] 256K -> 64K, 5s -> 2s, save id_db 2022-03-11 10:34:44 +08:00
peterlu14 96ec0a983f Merge branch 'test/project' into dev/merge_channel_lost_data 2022-03-07 16:57:53 +08:00
peterlu14 2dd19a575f [update] fix import path 2022-03-07 16:57:32 +08:00
Roy affacfddeb Merge remote-tracking branch 'origin/bug/channel_lost_data' into dev/merge_channel_lost_data 2022-03-07 11:59:19 +08:00
peterlu14 de8a6e58e4 [update] remove deleting data when commit 2022-03-07 10:48:44 +08:00
peterlu14 390da7b004 [update] improve mini recording 2022-03-04 18:02:24 +08:00
peterlu14 f8e41e9247 [update] data_dict remove last 2022-03-04 16:36:03 +08:00
Roy 81ef9740c5 Merge branch 'rel/v1.3.3' into main 2022-03-04 15:42:43 +08:00
peterlu14 1d96f49f63 [update] change commit transaction way 2022-03-04 14:06:44 +08:00
peterlu14 23a04d06c9 [update] temp save 2022-03-02 18:13:02 +08:00
peterlu14 7c3bc2d20b Merge remote-tracking branch 'origin/rel/v1.3.3' into test/project 2022-03-01 18:36:44 +08:00
peterlu14 01d1bd989c [update] temp push 2022-02-25 20:54:58 +08:00
peterlu14 1dffa29658 Merge remote-tracking branch 'origin/feature/project' into test/project 2022-02-21 14:29:22 +08:00
peterlu14 a0e8f9c6c4 [update] import path change & folder 2022-02-21 14:08:22 +08:00
Roy 9ad1f394be [update] update decode and data length = 40 byte 2022-02-18 13:16:49 +08:00
peterlu14 416503f7fb [update] project first done push 2022-02-17 20:35:36 +08:00
Roy d3af9e79bc update] print less and update decode 2022-02-17 10:58:05 +08:00
Roy 4aa6634f1e [update] print less 2022-02-16 10:52:48 +08:00
peterlu14 be36bb785c [update] temp push 2022-02-14 19:19:54 +08:00
Roy 31b6a60046 [update] spi data length = 120 bytes 2022-02-14 14:41:54 +08:00
Roy 12e0ec7c69 Merge branch 'dev/1to8_process_0210' into main 2022-02-14 14:32:14 +08:00
Roy 7087ded6d4 [update] only use survive memory board to scan 2022-02-14 14:31:01 +08:00
Roy cdb4ddfe04 [update] check jump ram more rigorous 2022-02-14 14:29:52 +08:00
peterlu14 9560b9e0ef [update] temp save 2022-02-12 00:21:27 +08:00
Roy 8d68d15023 [update] take away unused function 2022-02-11 14:56:30 +08:00
Roy 3ebf283c89 [update] take away unused function 2022-02-11 13:13:39 +08:00
Roy a70d20c4b8 [update] print delete content 2022-02-10 17:51:08 +08:00
Roy 8be3e1fa0e [update] fix spi routine 2022-02-10 17:47:35 +08:00
Roy e33b4d9a21 [update] fix spi reset 2022-02-10 17:46:36 +08:00
Roy a38fe5066f [update] remove redundant spi condition 2022-02-10 17:42:28 +08:00
Roy b6abf0885a [update] clear not used code in class ExtMemManager 2022-02-10 17:41:49 +08:00
Roy a3c0f1e4a3 [update] delete configuration[c] when stop sync 2022-02-10 17:40:23 +08:00
Roy 6446204013 [update] update uart read timeout: 0.01s 2022-02-10 17:39:45 +08:00
Roy 3b60d74c47 [update] remove available_device 2022-02-10 17:38:28 +08:00
Roy d1c4b0a29f [update] merge Spi & mitiSpi class 2022-02-10 17:32:36 +08:00
Roy 0034681e55 Merge branch 'rel/v1.2.2_eis1.0_v1' into main 2022-02-10 16:45:16 +08:00
peterlu14 07a1e0f5bc [update] temp push 2022-02-10 00:49:49 +08:00
peterlu14 a96837a462 [update] push 2022-02-08 20:12:44 +08:00
peterlu14 6b29f1f08e [update] add project 2022-02-07 20:27:30 +08:00
peterlu14 6b3649c8a0 [update] change wifi name auto update 2022-01-20 15:48:46 +08:00
peterlu14 3f1ba0971c [update] change wifi name auto update 2022-01-20 15:29:20 +08:00
Roy 95d27aa6f2 mem data don't save in database 2022-01-19 15:53:22 +08:00
Roy 651e34d6e0 Merge branch 'rel/v1.0.1_data_len_20B' into main 2022-01-19 12:23:35 +08:00
peterlu14 d3621e0c9c [update] mac_address format fix 2022-01-19 12:12:49 +08:00
Roy 0d1b1f4825 Revert "[update] mac_address format fix"
This reverts commit 67b645dac6.
2022-01-19 12:01:08 +08:00
Roy ec0fe2ec9f mem data don't save in database 2022-01-19 12:00:26 +08:00
peterlu14 67b645dac6 [update] mac_address format fix 2022-01-14 01:15:55 +08:00
Roy b9dc607ac0 mem data don't save in database 2022-01-10 17:06:02 +08:00
152 changed files with 2019 additions and 1791 deletions
+2
View File
@@ -1,5 +1,7 @@
.DS_Store
*.cpython-37.opt-2.pyc
*.cpython-39-arm-linux-gnueabihf.so
*.
*.pyc
*/__pycache__
/.vscode
+174 -38
View File
@@ -4,7 +4,7 @@ New goal on pi4 without kotlin and django, and with only one dataserver.
# Installation
### Get Raspbrain into SD card
###### Download Raspbian Buster Lite
###### Download Raspbian Bullseye Lite
>https://www.raspberrypi.org/downloads/raspberry-pi-os/
@@ -14,7 +14,7 @@ New goal on pi4 without kotlin and django, and with only one dataserver.
lsblk
# copy data to sd card
sudo dd bs=4M if=yyyy-mm-dd-raspbian-buster.img of=/dev/sdX conv=fsync status=progress
sudo dd bs=4M if=yyyy-mm-dd-raspios-bullseye-armhf-lite.img of=/dev/sdX conv=fsync status=progress
# enable ssh on first boot
add ssh.txt in boot folder
@@ -77,18 +77,22 @@ 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
sudo apt-get install vim git wiringpi build-essential libi2c-dev i2c-tools python-dev libffi-dev python3-pip postgresql npm
###### wiringpi conflict
need to install wiringpi: https://github.com/WiringPi/WiringPi
install instructions: https://github.com/WiringPi/WiringPi/blob/master/INSTALL
### Setup project
###### Clone project
###### Clone data server project
```
cd ~
git clone https://gitlab.com/bioproscientific/bioprorelife.git
git clone https://gitlab.com/wisetop/controller/wisetopdataserver.git
```
###### Install python dependencies
```
cd ~/bioprorelife
cd ~/wisetopdataserver
pip3 install -r requirements.txt
```
##### Packages version
@@ -112,14 +116,14 @@ psycopg2 2.8.5
###### Build C extension
```
cd ~/bioprorelife/python/biopro/ext/
cd ~/wisetopdataserver/python/biopro/ext/
rm -rf *.so build
python3 setup.py build_ext --inplace
```
###### Check setup-uart file
```
cd ~/bioprorelife
cd ~/wisetopdataserver/
sudo vim ./run-setup-uart.sh
```
##### Modify the code as following
@@ -149,44 +153,72 @@ sudo raspi-config
reboot
```
###### Set pi password
```
$cd ~
$passwd
Current password:raspberry
New password:5k6zj454778225
Retype new password:5k6zj454778225
```
###### Auto run program when device start
```
sudo vim /etc/rc.local
```
add the code following as:
###### add the code following as:
```
sudo -H -u pi nohup /home/pi/bioprorelife/run-data-server.sh > /home/pi/.data_server.out &
sudo -H -u pi nohup /home/pi/wisetopdataserver/run-data-server.sh > /home/pi/.data_server.out &
#sudo -H -u pi nohup /home/pi/wisetopdataserver/run-data-server.sh > /home/pi/.wisetop_data_$now.out &
```
##### /etc/rc.local
```
_IP=$(hostname -I) || true
if [ "$_IP" ]; then
printf "My IP address is %s\n" "$_IP"
fi
now=$(date +'%F_%T')
sudo nohup systemctl restart apache2
sudo nohup systemctl restart mosquitto
nohup node /home/pi/wisetopapiserver/dist/app.js > /home/pi/.api_server.out &
sleep 5
sudo -H -u pi nohup /home/pi/wisetopdataserver/run-data-server.sh > /home/pi/.data_server.out &
#sudo -H -u pi nohup /home/pi/wisetopdataserver/run-data-server.sh > /home/pi/.wisetop_data_$now.out &
exit 0
```
### MQTT broker install
1. Install mosquitto
```
sudo apt-get install mosquitto mosquitto-clients
```
###### 1.Install mosquitto
$sudo apt-get install mosquitto mosquitto-clients
###### 2.Enable Remote Access
$sudo vim /etc/mosquitto/conf.d/default.conf
2. Enable Remote Access
```
sudo vim /etc/mosquitto/conf.d/default.conf
```
add the code following as:
```
listener 1883
protocol mqtt
listener 8083
protocol websockets
allow_anonymous true
```
restart mqtt broker
```
sudo systemctl restart mosquitto
```
###### 3.restart mqtt broker
$sudo systemctl restart mosquitto
3. Robust MQTT
###### 4.Robust MQTT
create mosquitto_restart.sh
```
cd ~
sudo vim mosquitto_restart.sh
```
$cd ~
$sudo vim mosquitto_restart.sh
add the code following as:
```
if [ "`ps -aux | grep /usr/sbin/mosquitto | wc -l`" == "1" ]
@@ -200,25 +232,129 @@ fi
echo "$SERVICE is currently running" >> /home/ubuntu/cron.log
exit 0
```
add mosquitto_restart.sh to root routing
```
sudo chmod +x mosquitto_restart.sh
sudo -i
crontab -e
```
###### 5.add mosquitto_restart.sh to root routing
$sudo chmod +x mosquitto_restart.sh
$sudo -i
$crontab -e
add the code following as:
```
*/5 * * * * /home/pi/mosquitto_restart.sh
```
3. Auto run MQTT broker when when pi-start
```
sudo vim /etc/rc.local
```
###### 6.Auto run MQTT broker when when pi-start
$sudo vim /etc/rc.local
add the code following as:
```
sudo nohup systemctl restart mosquitto
```
### Setup routed wireless access point
### 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
###### 2.Set up the Network Router
$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
```
# 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 nano /etc/dnsmasq.conf
```
interface=wlan0 # Listening interface
dhcp-range=192.168.2.2,192.168.2.255,255.255.255.0,24h
# Pool of IP addresses served via DHCP
domain=wlan # Local wireless DNS domain
address=/gw.wlan/192.168.2.1
# Alias for this router
```
###### 3.Ensure Wireless Operation
$sudo rfkill unblock wlan
###### 4.Configure the AP Software
$sudo nano /etc/hostapd/hostapd.conf
```
country_code=TW
interface=wlan0
ssid=WTP_NONE
hw_mode=g
channel=7
macaddr_acl=0
auth_algs=1
ignore_broadcast_ssid=0
wpa=2
wpa_passphrase=00000000
wpa_key_mgmt=WPA-PSK
wpa_pairwise=TKIP
rsn_pairwise=CCMP
# 802.11n support
ieee80211n=1
# make raspberry pi dongle fast
wme_enabled=1
# ht_capab: HT capabilities, enable 40MHz
ht_capab=[HT40+][SHORT-GI-40]
```
###### 5.Running the new Wireless AP
$sudo systemctl reboot
### Set web site
$sudo vim ./sites-available/000-default.conf
```
<VirtualHost *:8080> #80------>8080
# The ServerName directive sets the request scheme, hostname and port that
# the server uses to identify itself. This is used when creating
# redirection URLs. In the context of virtual hosts, the ServerName
# specifies what hostname must appear in the request's Host: header to
# match this virtual host. For the default virtual host (this file) this
# value is not decisive as it is used as a last resort host regardless.
# However, you must set it for any further virtual host explicitly.
#ServerName www.example.com
ServerAdmin webmaster@localhost
DocumentRoot /var/www/html
# Available loglevels: trace8, ..., trace1, debug, info, notice, warn,
# error, crit, alert, emerg.
# It is also possible to configure the loglevel for particular
# modules, e.g.
#LogLevel info ssl:warn
ErrorLog ${APACHE_LOG_DIR}/error.log
CustomLog ${APACHE_LOG_DIR}/access.log combined
# For most configuration files from conf-available/, which are
# enabled or disabled at a global level, it is possible to
# include a line for only one particular virtual host. For example the
# following line enables the CGI configuration for this host only
# after it has been globally disabled with "a2disconf".
#Include conf-available/serve-cgi-bin.conf
</VirtualHost>
<VirtualHost *:80>
ServerAdmin bioprovue@localhost
DocumentRoot /var/www/bioprovuebuild
</VirtualHost>
```
##### raspberry website document:
> https://www.raspberrypi.org/documentation/configuration/wireless/access-point-routed.md
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+4 -3
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@@ -18,9 +18,10 @@ class ControllerAPI():
@staticmethod
def getByMac(mac_address):
try:
ret = requests.get(API_URL + 'api/controller/get_by_mac/' + mac_address, headers= AuthAPI.get_key())
if ret.status_code == 200:
return ret.json()
if mac_address != None:
ret = requests.get(API_URL + 'api/controller/get_by_mac/' + mac_address, headers= AuthAPI.get_key())
if ret.status_code == 200:
return ret.json()
except (requests.exceptions.ConnectionError, json.decoder.JSONDecodeError) as e:
print('get controller fail', e)
return []
+8
View File
@@ -1576,7 +1576,15 @@ class ControlAPI(metaclass=Router):
should handle this exit code and re-run server process.
"""
raise NotImplementedError()
def run_project(self, project) -> bool:
raise NotImplementedError()
def get_running_project(self) -> bool:
raise NotImplementedError()
def stop_project(self, project) -> bool:
raise NotImplementedError()
# noinspection PyAbstractClass
class ControlClient(SocketClient, ControlAPI, metaclass=SocketClientMacro(ControlAPI)):
+59 -152
View File
@@ -315,14 +315,6 @@ class CC2650MasterDevice(MasterDevice, metaclass=abc.ABCMeta):
return cls.CC2650_RESET_PIN
@classmethod
def get_uart_irq_pin(cls) -> OutputPin:
if cls.CC2650_UART_IRQ is None:
cls.CC2650_UART_IRQ = OutputPin.get_used(P3Pin.MEM_RST, initial=True)
return cls.CC2650_UART_IRQ
class CC2650Device(Device):
def __init__(self,
@@ -544,7 +536,7 @@ class CC2650Device(Device):
self._master.log_warn('device', self.device_id, 'update_battery_info no response')
else:
if data is not None and len(data) == 4 :
if data is not None and len(data) > 2 :
battery = struct.unpack('<H', data[1:3])[0]
if battery is not None:
self._battery = battery
@@ -955,9 +947,6 @@ class CC2650SingleMasterDevice(CC2650MasterDevice, Synchronized):
self._cc2650.recv_util(..., when=self._cond, timeout=timeout)
def available_device(self) -> List[int]:
return [0]
@synchronized
def scan_callback(self, callback: Callable[[DeviceResponseInfo], None], timeout=5, all_device=False) -> bool:
if self._scan_max_time != timeout:
@@ -1442,11 +1431,6 @@ class CC2650MultiMasterDevice(CC2650MasterDevice, Synchronized):
super().shutdown()
self._selector.close()
def available_device(self) -> List[int]:
return list(map(lambda it: it[0],
filter(lambda it: it[1] is not None,
enumerate(self._cc2650))))
def get_device(self, device: int) -> Optional[Device]:
return self._device[device]
@@ -1942,10 +1926,8 @@ class CC2650SingleMasterCentralDevice(CC2650MasterDevice, Synchronized):
self.log_verbose('reset (hardware)')
pin.output(False)
sleep(0.1)
# sleep(0.001)
pin.output(True)
sleep(0.1)
@synchronized
def reset_software(self):
@@ -1968,9 +1950,6 @@ class CC2650SingleMasterCentralDevice(CC2650MasterDevice, Synchronized):
"""initialize cc2650 (master)"""
pass
def available_device(self) -> List[int]:
return [0]
def scan_send_ins(self):
# send scan command
try:
@@ -1986,21 +1965,16 @@ class CC2650SingleMasterCentralDevice(CC2650MasterDevice, Synchronized):
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)
# 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:
# if self._scan_max_time != timeout:
# self.log_info('set max scan limit time', timeout)
# self._scan_max_time = timeout
self._found = found = []
self._found_with_id = []
number_of_device = 0
hdr_BPHS = [66, 80, 72, 83]
scan_response: Union[Optional[tuple], Any] = None
@@ -2013,39 +1987,13 @@ class CC2650SingleMasterCentralDevice(CC2650MasterDevice, Synchronized):
# print('send_scan', bytes(scan_ins))
self._cc2650.send("bytes", bytes(scan_ins))
# for wait_scan_response in range(5):
# try:
# scan_response = self._cc2650.recv_uart(0.2)
# except RecvTimeout:
# if wait_scan_response == 4:
# self.reset_internal()
# self.reset_hardware()
# self._interface.flush()
# return True
# else:
# self.log_info("wait for scan response")
# continue
# # check if response is valid
# if scan_response is None:
# if wait_scan_response == 4:
# self.reset_internal()
# self.reset_hardware()
# self._interface.flush()
# else:
# self.log_info("wait for scan response")
# continue
# else:
# break
try:
scan_response = self._cc2650.recv_uart(0.2)
scan_response = self._cc2650.recv_uart(timeout)
except RecvTimeout:
self.reset_internal()
self.reset_hardware()
self._interface.flush()
return True
# self.reset_internal()
# self.reset_hardware()
# self._interface.flush()
return False
# instruction format:
# ins[0]: get_scan_response = 0x04
@@ -2087,6 +2035,7 @@ class CC2650SingleMasterCentralDevice(CC2650MasterDevice, Synchronized):
# 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
@@ -2140,6 +2089,35 @@ class CC2650SingleMasterCentralDevice(CC2650MasterDevice, Synchronized):
def found(self) -> List[DeviceResponseInfo]:
return self._found
def check_mem_survive(self) -> Optional[CC2650Device]:
ack = []
ins = bytearray()
ins.append(10)
ins.append(1) #length
ins.append(0xF1)
# print('ins', list(ins))
try:
self._cc2650.send("bytes", bytes(ins))
except SerialTimeoutException as e:
raise RecvTimeout('device CC2650 check_mem_survive timeout') from e
else:
try:
ack = self._cc2650.recv_uart(0.001)
except RecvTimeout:
self.log_info("no memory board")
# else:
# print('ack=', ack)
if ack == [3]:
return True
return False
@synchronized
def connect(self, response: DeviceResponseInfo, direct_connect: bool = False) -> Optional[CC2650Device]:
if self._handle is not None:
@@ -2555,11 +2533,10 @@ class CC2650MultiMasterCentralDevice(CC2650MasterDevice, Synchronized):
if m is None:
m = CC2650SingleMasterCentralDevice(self._master, self._interface, self._options)
# m.set_log_level(self._cc2650_log_level)
self._cc2650[i] = m
self._interface.flush()
self._selector.select(i)
# self._mem_selector.select(i)
try:
self.log_info('reset device', i)
@@ -2567,10 +2544,7 @@ class CC2650MultiMasterCentralDevice(CC2650MasterDevice, Synchronized):
with m:
m.reset_internal()
m.reset_hardware()
if software_reset:
m.reset_software()
self._cc2650[i] = m
m.reset_software()
except RecvTimeout:
self.log_warn('reset device', i, 'fail')
@@ -2579,83 +2553,11 @@ class CC2650MultiMasterCentralDevice(CC2650MasterDevice, Synchronized):
if not software_reset:
return
# check reset result
available_device_id = list(map(lambda it: it[0],
filter(lambda it: it[1] is not None,
enumerate(self._cc2650))))
if len(available_device_id) == 0:
raise RuntimeError("reset fail, no device found")
self.log_verbose('available device', ' '.join(map(str, available_device_id)))
# initial hardware
for i in range(len(self._cc2650)):
m = self._cc2650[i]
if m is not None:
self._interface.flush()
self._selector.select(i)
# self._mem_selector.select(i)
try:
self.log_info('init device', i)
except RecvTimeout:
self.log_warn('init device', i, 'fail')
self._cc2650[i] = None
# check init result, again
available_device_id = list(map(lambda it: it[0],
filter(lambda it: it[1] is not None,
enumerate(self._cc2650))))
if len(available_device_id) == 0:
raise RuntimeError("init fail, no device success")
def reset_empty_master(self, device: Optional[List[int]] = None, software_reset=True):
self.log_verbose('reset')
# reset hardware
# print("reset device = ", device)
for i in range(len(self._cc2650)):
# print(i)
m = self._cc2650[i]
d = self._device[i]
# print(m, d)
if m is not None and d is None:
m = CC2650SingleMasterCentralDevice(self._master, self._interface, self._options)
# m.set_log_level(self._cc2650_log_level)
self._interface.flush()
self._selector.select(i)
self._mem_selector.select(i)
try:
self.log_info('reset device', i)
with m:
m.reset_internal()
m.reset_hardware()
except RecvTimeout:
self.log_warn('reset device', i, 'fail')
self._cc2650[i] = None
def available_device(self) -> List[int]:
return list(map(lambda it: it[0],
filter(lambda it: it[1] is not None,
enumerate(self._cc2650))))
def _foreach_empty_master(self) -> Iterable[int]:
for i in range(len(self._cc2650)):
m = self._cc2650[i]
for i in range(len(self._device)):
d = self._device[i]
if m is not None and d is None:
if d is None:
yield i
def scan_callback(self, callback: Callable[[DeviceResponseInfo], None], timeout=5, all_device=False) -> bool:
@@ -2663,28 +2565,35 @@ class CC2650MultiMasterCentralDevice(CC2650MasterDevice, Synchronized):
all_result = False
for device in self._foreach_empty_master():
for device in range(len(self._cc2650)):
self.log_verbose('use', device)
m = self._cc2650[device]
d = self._device[device]
if m is not None and d is None:
if d is None:
error = None
with self:
self._interface.flush()
self._selector.select(device)
# self._mem_selector.select(device)
try:
sleep(0.0001)
result = m.scan_callback(callback, timeout=timeout)
if m.check_mem_survive() == False:
continue
result = m.scan_callback(callback, timeout=0.001)
except RuntimeError as e:
error = e
else:
if result == False:
result = True
all_result = all_result or result
continue
all_result = all_result or result
if result and not all_device:
@@ -2692,8 +2601,7 @@ class CC2650MultiMasterCentralDevice(CC2650MasterDevice, Synchronized):
if error is not None:
self.log_warn('suppressed error : ' + str(error))
# self.reset(device)
sleep(1)
return all_result
def found(self) -> List[DeviceResponseInfo]:
@@ -2746,7 +2654,6 @@ class CC2650MultiMasterCentralDevice(CC2650MasterDevice, Synchronized):
with self:
self._interface.flush()
self._selector.select(master)
# self._mem_selector.select(device)
sleep(0.0001)
d = m.connect(response, direct_connect)
+9 -11
View File
@@ -253,6 +253,7 @@ class DeviceInternalCommandHandler:
return True
# why inherit MasterDevice ?
class DeviceManager(MasterDevice, Synchronized):
"""device manager. It manager the device libraries, found device, connected device
and the control of the master device.
@@ -267,7 +268,6 @@ class DeviceManager(MasterDevice, Synchronized):
options: DeviceManagerOptions,
handler: Optional[DeviceInternalCommandHandler] = None):
"""
:param options: manager options.
:param handler: device internal command handler
"""
@@ -277,6 +277,7 @@ class DeviceManager(MasterDevice, Synchronized):
if handler is None:
handler = DeviceInternalCommandHandler()
# control server api
self._handler: DeviceInternalCommandHandler = handler
self._options: DeviceManagerOptions = options
@@ -286,7 +287,9 @@ class DeviceManager(MasterDevice, Synchronized):
# hardware
self._interface = options.interface
self._master: Optional[MasterDevice] = None
# memory board
self._centralMaster: Optional[MasterDevice] = None
# connected device
self._device: List[CompletedDevice] = []
# demo device
@@ -336,6 +339,10 @@ class DeviceManager(MasterDevice, Synchronized):
def library_path(self) -> List[Path]:
return self._repository.library_path
def get_device_status(self, mac_address) -> Optional[DeviceLibrary]:
device = self.get_device(mac_address)
return device.status
@logging_info
def reload_library(self):
"""reload device library"""
@@ -383,9 +390,6 @@ class DeviceManager(MasterDevice, Synchronized):
self._demo.clear()
self._centralMaster.reset(device, software_reset)
def available_device(self) -> List[int]:
return self._centralMaster.available_device()
@logging_info
def shutdown(self, release_resource=True):
# shutdown reset memeryboard
@@ -577,7 +581,7 @@ class DeviceManager(MasterDevice, Synchronized):
elif isinstance(device, str):
for slave in self._device:
if ':'.join(format(b, 'x') for b in slave.mac_address) == device:
if ':'.join('{:02x}'.format(b) for b in slave.mac_address) == device.lower():
return slave
elif isinstance(device, DeviceInfo):
@@ -1026,15 +1030,9 @@ class DeviceManager(MasterDevice, Synchronized):
raise RuntimeError(DEVICE_NOT_FOUND, device)
if DeviceCommonInstruction(instruction) is not None:
# print('deviceCommonInstr')
# print(instruction)
device.call_instruction(instruction)
elif instruction in device.library.instruction_table:
# print('instruction')
# print(instruction)
device.call_instruction(instruction)
else:
raise RuntimeError(INSTRUCTION_UNKNOWN, instruction)
+45 -41
View File
@@ -881,20 +881,24 @@ class I4V4Z4T4DataDecoder(RecDataDecoder):
def decode(self, data: bytes) -> Optional[RecordingData]:
if len(data) < 18:
return None
voltage = 0
mem_cnt = data[1]
time_stamp: float = struct.unpack('<I', data[4:8])[0] # unit: ms 0x18030000
current = struct.unpack('<i', data[8:12])[0] # unit: nA
ch2 = struct.unpack('<i', data[12:16])[0] # unit: uV
impedance = struct.unpack('<i', data[16:20])[0] # unit: mOm
if self._mode == 16:
voltage = impedance - ch2
else:
voltage = ch2
current = struct.unpack('>i', data[1:5])[0] # unit: 1/1000 nA
voltage = struct.unpack('>i', data[5:9])[0] # unit: mV
impedance = struct.unpack('>i', data[9:13])[0] # unit: kOm
time_stamp: float = struct.unpack('<I', data[13:17])[0] # unit: ms
cycle_number = struct.unpack('>H', data[17:19])[0]
finish_mode_falg = data[19]
cycle_number = struct.unpack('<H', data[20:22])[0]
finish_mode_falg = data[22]
battery = struct.unpack('<i', data[23:27])[0]
elite_notify_times = data[27]
# print('decode', list(data[20:]))
mem_wrong = data[20]
mem_retry_cnt = data[21]
mem_green_wrong = data[22]
mem_green_retry_cnt = data[23]
ram_num = data[24]
mem_wrong_information = struct.unpack('<i', data[43:47])[0] # mem_wrong_information = green retry, green wrong, red retry, red wrong
ram_num = data[47]
broken_flag = data[-1]
if (finish_mode_falg & 0b11110000 == 0b10100000):
@@ -915,10 +919,13 @@ class I4V4Z4T4DataDecoder(RecDataDecoder):
print("error timeStamp full data:", list(data), datetime.now(), '\n')
return None
else:
# print('|', time_stamp, '|', delta, '|', current, '|', voltage, '|', impedance,
# print('|', time_stamp, '|', delta, '|', int(time_stamp * 1000 / 2),
# '|', current, '|', voltage, '|', impedance,
# '|', cycle_number, '|', finishMode, '@', str(self.device))
# print('|', '{:10}'.format(time_stamp),
# '|', '{:10}'.format(delta),
# '|', '{:4}'.format(delta),
# '|', '{:10}'.format(int(time_stamp * 1000 / 2)),
# '|', '{:10}'.format(current),
# '|', '{:10}'.format(voltage),
# '|', '{:10}'.format(impedance),
@@ -926,12 +933,9 @@ class I4V4Z4T4DataDecoder(RecDataDecoder):
# '|', '{:1}'.format(finishMode),
# '@', str(self.device), '|')
# print('|', '{:5}'.format(mem_wrong),
# '|', '{:5}'.format(mem_retry_cnt),
# '|', '{:5}'.format(mem_green_wrong),
# '|', '{:5}'.format(mem_green_retry_cnt),
# '|', '{:5}'.format(ram_num),
# '|', '{:5}'.format(broken_flag),
# print('|', '{:5}'.format(mem_wrong_information),
# '|', '{:2}'.format(ram_num),
# '|', '{:2}'.format(broken_flag),
# '@', str(self.device), '|')
pass
@@ -946,14 +950,20 @@ class I4V4Z4T4DataDecoder(RecDataDecoder):
ret.append_data(1, voltage)
ret.append_data(2, impedance)
ret.append_data(3, cycle_number)
# ret.append_data(4, battery)
# ret.append_data(5, elite_notify_times)
# ret.append_data(6, mem_cnt)
# # memoryboard information
# ret.append_data(7, ram_num)
# ret.append_data(8, broken_flag)
# try:
# ret.append_data(9, mem_wrong_information)
# # print('append_data success, mem_wrong_information:', mem_wrong_information, hex(mem_wrong_information))
# except:
# print('append_data fail, mem_wrong_information:', mem_wrong_information, hex(mem_wrong_information))
# memoryboard information
ret.append_data(4, mem_wrong)
ret.append_data(5, mem_retry_cnt)
ret.append_data(6, mem_green_wrong)
ret.append_data(7, mem_green_retry_cnt)
ret.append_data(8, ram_num)
ret.append_data(9, broken_flag)
if cycle_number != self._cycle_number:
# notify cycle_number change
@@ -1391,39 +1401,33 @@ class EISZeroOneDataDecoder(RecDataDecoder):
hsrtia_a.append(struct.unpack('>i', cali_coeff[index+1:index+5])[0]/1e8)
hsrtia_b.append(struct.unpack('>i', cali_coeff[index+5:index+9])[0]/1e8)
hsrtia_c.append(struct.unpack('>i', cali_coeff[index+9:index+13])[0]/1e4)
hsrtia_d.append(struct.unpack('>B', cali_coeff[index+13:index+14])[0])
#Lv[1] 20k
index = 80
hsrtia_a.append(struct.unpack('>i', cali_coeff[index+1:index+5])[0]/1e8)
hsrtia_b.append(struct.unpack('>i', cali_coeff[index+5:index+9])[0]/1e8)
hsrtia_c.append(struct.unpack('>i', cali_coeff[index+9:index+13])[0]/1e4)
hsrtia_d.append(struct.unpack('>B', cali_coeff[index+13:index+14])[0])
#Lv[2] 5k
index = 100
hsrtia_a.append(struct.unpack('>i', cali_coeff[index+1:index+5])[0]/1e8)
hsrtia_b.append(struct.unpack('>i', cali_coeff[index+5:index+9])[0]/1e8)
hsrtia_c.append(struct.unpack('>i', cali_coeff[index+9:index+13])[0]/1e4)
hsrtia_d.append(struct.unpack('>B', cali_coeff[index+13:index+14])[0])
#Lv[3] 200R
index = 120
hsrtia_a.append(struct.unpack('>i', cali_coeff[index+1:index+5])[0]/1e8)
hsrtia_b.append(struct.unpack('>i', cali_coeff[index+5:index+9])[0]/1e8)
hsrtia_c.append(struct.unpack('>i', cali_coeff[index+9:index+13])[0]/1e4)
hsrtia_d.append(struct.unpack('>B', cali_coeff[index+13:index+14])[0])
# hsrtia_a.append(struct.unpack('>I', cali_coeff[index+1:index+5])[0])
# hsrtia_b.append(struct.unpack('>I', cali_coeff[index+5:index+9])[0]/1e6)
# hsrtia_c.append(struct.unpack('>I', cali_coeff[index+9:index+13])[0]/1e5)
# hsrtia_d.append(struct.unpack('>I', cali_coeff[index+13:index+17])[0]/1e6)
# print('cutoff_freq', cutoff_freq)
# print('hsrtia_a', hsrtia_a)
# print('hsrtia_b', hsrtia_b)
# print('hsrtia_c', hsrtia_c)
# print('hsrtia_d', hsrtia_d)
# print('phase_para_a', phase_para_a)
# print('phase_para_b', phase_para_b)
@@ -1451,12 +1455,12 @@ class EISZeroOneDataDecoder(RecDataDecoder):
if len(data) < 18:
return None
ch1 = struct.unpack('>i', data[1:5])[0] # unit: 1/1000 nA
ch2 = struct.unpack('>i', data[5:9])[0] # unit: mV
ch3 = struct.unpack('>i', data[9:13])[0] # unit: kOm
time_stamp: float = struct.unpack('<I', data[13:17])[0] # unit: ms
cycle_number = struct.unpack('>H', data[17:19])[0]
d19 = data[19]
ch1 = struct.unpack('>i', data[1+3:5+3])[0] # unit: 1/1000 nA
ch2 = struct.unpack('>i', data[5+3:9+3])[0] # unit: mV
ch3 = struct.unpack('>i', data[9+3:13+3])[0] # unit: kOm
time_stamp: float = struct.unpack('<I', data[13+3:17+3])[0] # unit: ms
cycle_number = struct.unpack('>H', data[17+3:19+3])[0]
d19 = data[19+3]
gain = (d19 & 0x0F)
finishMode = (d19 & 0x80) >> 7
@@ -1580,10 +1584,10 @@ class EISZeroOneDataDecoder(RecDataDecoder):
ret = RecordingData(self.device, int(time_stamp * 1000 / 2), 0)
if (self._mode == 0): #EIS Mode
ret.append_data(3, cycle_number)
ret.append_data(0, ch1) #Raw Imag
ret.append_data(1, ch2) #Raw Real
ret.append_data(2, ch3 * 10) #Frequency [mHz]
ret.append_data(3, cycle_number)
ret.append_data(4, round(imag_after_cal)) #Z_imag [Ohm]
ret.append_data(5, round(real_after_cal)) #Z_real [Ohm]
ret.append_data(6, round(impedance)) #Impedance [Ohm]
@@ -1592,10 +1596,10 @@ class EISZeroOneDataDecoder(RecDataDecoder):
ret.append_data(9, gain) #Gain Level
else: #CV Mode
ret.append_data(3, cycle_number)
ret.append_data(0, ch1) #Iin [nA]
ret.append_data(1, ch2) #Vset [nV]
ret.append_data(2, ch3) #Vout [nV]
ret.append_data(3, cycle_number)
if cycle_number != self._cycle_number:
# notify cycle_number change
-15
View File
@@ -653,15 +653,9 @@ class DeviceInstruction:
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"""
@@ -750,8 +744,6 @@ class DeviceCommonInstruction:
return '_sync(False)', '_notify(False)', 'VIS_INT'
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:
@@ -963,10 +955,6 @@ class MasterDevice(LoggerFlag, metaclass=abc.ABCMeta):
"""
pass
@abc.abstractmethod
def available_device(self) -> List[int]:
pass
def scan(self, timeout=5, all_device=False) -> List[DeviceResponseInfo]:
"""scan the nearby device.
@@ -1101,9 +1089,6 @@ class NullMasterDevice(MasterDevice):
def shutdown(self, release_resource=True):
pass
def available_device(self) -> List[int]:
return []
def scan(self, timeout=5, all_device=False) -> List[DeviceResponseInfo]:
return []
+4 -2
View File
@@ -1268,14 +1268,15 @@ class InstructionTable(DictNode['Instruction']):
instruction: str):
"""call instruction. chain context with :class:`DeviceInternalInstructionScope`
:param master: master device
:param device: device
:param master: DeviceManager
:param device: CompletedDevice
:param context: scope
:param instruction: instruction name
:raises InstructionNotFound: If instruction not found.
"""
try:
# ex. start
ins = self[instruction]
except KeyError as e:
@@ -1284,6 +1285,7 @@ class InstructionTable(DictNode['Instruction']):
else:
context = context.chain(InstructionTableScope(self))
# ex. _data_format, _sync, _notify
for single in ins.eval_instruction(context):
if isinstance(single, InternalInstruction):
if not single.handle_internal_instruction(master, device, context):
+36 -5
View File
@@ -966,7 +966,7 @@ class CompletedDevice(Device):
"""
__slots__ = ('_master', '_device_id', '_device', '_library', '_context',
'_parameter', '_configuration', '_lock', '_feature_mask',
'_cache_battery', '_cache_battery_timestamp', '_coeff')
'_cache_battery', '_cache_battery_timestamp', '_coeff', '_status')
def __init__(self, master: MasterDevice, library: DeviceLibrary, device_id: int, device: Device):
"""
@@ -976,11 +976,15 @@ class CompletedDevice(Device):
:param device_id: device id
:param device: slave device implementation
"""
# DeviceManager
self._master = master
self._device = device
self._device_id = device_id
self._library = library
# device status ( 0: idle, 1: working, 2: error, 3: power off)
self._status = 0
# context
s1 = library.constant
s2 = DeviceScope(self)
@@ -1008,6 +1012,10 @@ 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
@@ -1020,6 +1028,10 @@ class CompletedDevice(Device):
def mac_address(self) -> ADDRESS:
return self._device.mac_address
@property
def mac_address_in_str(self) -> str:
return ':'.join('{:02x}'.format(b) for b in self._device.mac_address)
@property
def device(self) -> Device:
return self._device
@@ -1056,11 +1068,18 @@ class CompletedDevice(Device):
return self._library
# device lock
@property
def lock(self) -> DeviceLock:
return self._lock
@property
def status(self) -> int:
return self._status
@status.setter
def status(self, new_status):
self._status = new_status
# device parameter getter/setter
def parameters(self) -> List[str]:
@@ -1082,6 +1101,11 @@ class CompletedDevice(Device):
:return: parameter V value
"""
return self._configuration.get_parameter(name, False)
def set_multi_parameters(self, parameter):
for (name, value) in parameter[0].items():
if name != 'target':
self.set_parameter(name, value)
def set_parameter(self, name: str, value: Union[int, str]):
"""replace parameter value with *value*
@@ -1110,7 +1134,8 @@ class CompletedDevice(Device):
self._master.log_warn('on_change instruction not found : ' + on_change)
else:
self.call_instruction(on_change)
if self._status == 1:
self.call_instruction(on_change)
# device instruction call
@@ -1253,14 +1278,20 @@ 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),
'configuration': self.configuration.as_json(list_hide=True),
+1 -4
View File
@@ -3720,12 +3720,9 @@ class CC2650Central(LoggerFlag):
if ret is not None and len(ret) > 0:
return ret
elif _time() - start > 1:
elif _time() - start > 0.01: # read timeout
return None
else:
sleep(0.01)
def _recv_event(self, timeout: Optional[float] = 1) -> Optional[list]:
code = self._recv_byte()
# print("code = ", code)
+202 -381
View File
@@ -16,8 +16,6 @@ MEM_REG_READ = 0x05
DEFAULT_REGISTER_VALUE = 0b0100_0011 # 67
MEM_SIZE = 0x1000
_RUNTIME_COMPILE = False
_SLEEP_TIME_ = 0.001
@@ -25,73 +23,98 @@ _SLEEP_TIME_ = 0.001
def zero_buffer(size: int) -> List[int]:
return [0] * size
class MultiExtMemSpiInterface(LowLevelHardwareInterface):
MEM_INS_MARKED1 = [MEM_INS_WRITE, 0, 2, 0x5A, 0xA5]
MEM_INS_MARKED2 = [MEM_INS_WRITE, 0, 6, 0x5A, 0xA5]
MEM_INS_MARKED3 = [MEM_INS_WRITE, 0, 10, 0x5A, 0xA5]
# MEM_INS_RESET = [MEM_INS_WRITE, 0, 2, 1, 1, 0, 0xFF]
class ExtMemSpiInterface(LowLevelHardwareInterface):
MEM_INS_MARKED = [MEM_INS_WRITE, 0, 2, 1, 1]
MEM_INS_RESET = [MEM_INS_WRITE, 0, 2, 1, 1, 0, 0xFF]
__slots__ = ('_spi', '_tx_buffer', '_tx_buffer_header', '_tx_buffer_data',
'pin_busy', 'pin_request', 'pin_reset', 'pin_sel',
__slots__ = ('_selector', '_wait_for_first_data', '_spi', '_tx_buffer_header', '_tx_buffer_data',
'pin_busy', 'pin_mem_req', 'pin_mem_sel', 'pin_ram_sel',
'_pin_sel_val',
'_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')
def __init__(self, device: Tuple[int, int] = None):
super().__init__()
self._spi = HardwareImplSpiInterface(device,
spi_speed=12_000_000 # XXX temp parameter
)
def __init__(self,
select: Selector,
device: Tuple[int, int] = None):
self._elite_data_len = 20
self._spi = HardwareImplSpiInterface(device,
spi_speed=12_000_000)
self._elite_data_len = 40
self._mem_header_len = 3
self._mem_tailer_len = 8
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 = [0] * 512
self._tx_buffer_header = [0] * 11
self._tx_buffer_header = [0] * 19
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_request = OutputPin.get_used(P3Pin.MEM_REQ, True)
self.pin_reset = OutputPin.get_used(P3Pin.MEM_RST, True)
self.pin_sel: Optional[InputPin] = InputPin.get_used(P3Pin.MEM_SEL)
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
self._pin_sel_val = False
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._read_green_times = 0
self._read_red_times = 0
self._head_wrong_cnt = [0, 0, 0, 0, 0, 0, 0, 0]
def reset(self):
self._spi.reset()
def close(self):
self._spi.close()
self._selector = select
def flush(self):
self.pin_reset.output(False)
self.pin_reset.output(True)
self._pin_sel_val = [False for _ in range(Selector.SIZE)]
self._wait_for_first_data = [True for _ in range(Selector.SIZE)]
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
def set_pin_mem_sel(self, value: bool):
channel = self.select
self.pin_mem_sel.output(value)
self._pin_mem_sel_value[channel] = value
def get_pin_mem_req(self):
channel = self.select
return self._pin_mem_req_value[channel]
def get_pin_ram_sel(self):
channel = self.select
if self.pin_ram_sel.input() == 0:
self._pin_ram_sel_value[channel] = False
else:
self._pin_ram_sel_value[channel] = True
return self._pin_ram_sel_value[channel]
@property
def select(self) -> int:
return 0
return self._selector.channel
@select.setter
def select(self, value: int):
self._selector.select(value)
def reset(self):
self._spi.reset()
def flush(self):
pass
def changed(self, flip=False) -> bool:
old = self._pin_sel_val
value = self.pin_sel.input()
if flip:
self._pin_sel_val = value
return value != old
def close(self):
self._selector.close()
self._spi.close()
def send_byte(self, data: bytes):
raise RuntimeError()
@@ -99,25 +122,18 @@ class ExtMemSpiInterface(LowLevelHardwareInterface):
def recv_byte(self, size: int) -> Optional[bytes]:
raise RuntimeError()
def request_data(self):
self.pin_request.output(False)
sleep(0.001)
def foreach(self) -> Iterable[int]:
for channel in self._selector.foreach():
yield channel
# count = 0
# for i in range(300):
# count = count + 1
def set_wait_flag(self, spi_idx:int = None, value:bool = None):
self._wait_for_first_data[spi_idx] = value
self.pin_request.output(True)
# sleep(0.001) -> 1.2ms
# no sleep -> 5us ~ 12us (central can't receive)
# for i in range
# (1000) -> 500us ~ 1ms
# (500) -> 200us ~ 500us
# (300) -> 120us ~ 270us (seldom)
# (200) -> 70us ~ 160us (skip req about every 64 time) x
# (100) -> 40us ~ 100us (skip req sometimes) x
def get_wait_flag(self, spi_idx:int = None) -> Optional[bool]:
if spi_idx < Selector.SIZE:
return self._wait_for_first_data[spi_idx]
else:
return None
def compare_green_data(self, data_first: Union[bytes, List[int]], data_second: Union[bytes, List[int]], data_third: Union[bytes, List[int]], length: int):
data = []
@@ -153,6 +169,52 @@ class ExtMemSpiInterface(LowLevelHardwareInterface):
print("read red data times", self._read_red_times)
return data
def _compare_green_data_addr_and_flag(self, data: Union[bytes, List[int]], device: int):
green_data_section1 = data[3:7]
green_data_section2 = data[7:11]
green_data_section3 = data[11:15]
green_data_section = []
if green_data_section1 == green_data_section2:
green_data_section = green_data_section1
elif(green_data_section2 == green_data_section3 or green_data_section1 == green_data_section3):
print("green data not equal: = ", data[3:15])
print("green data print:", data, device, datetime.now())
green_data_section = green_data_section3
else:
print("green data not equal: = ", data[3:15])
print("green data print:", data, device, datetime.now())
green_data_section = green_data_section3 # use last data
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)
@@ -162,7 +224,6 @@ class ExtMemSpiInterface(LowLevelHardwareInterface):
address = 0
# first read to get data length
tx = self._tx_buffer
tx_h = self._tx_buffer_header
tx_h[0] = MEM_INS_READ
@@ -178,9 +239,9 @@ class ExtMemSpiInterface(LowLevelHardwareInterface):
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] < 6):
print('data_first[0:3] != [255, 255, 255]', device)
print(list(data[0:7]))
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]
# ----------------------------------------------------------------------------------------------
@@ -198,14 +259,14 @@ class ExtMemSpiInterface(LowLevelHardwareInterface):
# 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)
# print(list(data_first[0:7]))
# 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)
# print(list(data_second[0:7]))
# 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
@@ -217,59 +278,47 @@ class ExtMemSpiInterface(LowLevelHardwareInterface):
# data = self.compare_green_data(data_first, data_second, data_third, len(tx_h))
# ----------------------------------------------------------------------------------------------
# debug use
# green_data = []
# green_data = data
# print("_[Debug] @ spi green data = ", green_data)
green_data_section = self._compare_green_data_addr_and_flag(data, device)
length = (data[3] << 8) | data[4]
header = data[7]
elite_data_len = data[9]
length = (green_data_section[0] << 8) | green_data_section[1]
header = data[15]
elite_data_len = data[17]
if length <= 12:
if length < 12:
print("length < 12")
print("green data print:", data, device, datetime.now())
# if length == 0:
# self._print_ram_all_data()
if length <= 4:
# print("length <= 4")
# print("green data print:", data, device, datetime.now())
return None
if data[5] != 0 or data[6] != 0:
if green_data_section[2] != 0xA5 or green_data_section[3] != 0x5A:
# give a default length if the data header did not update
length = 7000
print("green data: is not [0,0], = ", data[5:7])
print("green data: is not [0xA5, 0x5A], = ", data[5:7])
print("green data print:", data, device, datetime.now())
return None
if (length >= 7000):
if (length >= 4000):
flag_print = True
print("green data: big length:", length)
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
print("green data: length is not", self._elite_data_len, ": ", elite_data_len)
if (flag_print):
print("green data print:", data, device, datetime.now())
print("green data print:", data, device, datetime.now(), '\n')
# neulive
# address += len(data) - 11
# tx_d = self._tx_buffer_data
# red_length = len(tx_d)
# elite read all data of ram
# address = 4
# red_length = length - 1
# tx_d = [0] * red_length
address = 4
address = 12
red_length = int(length / 2)
tx_d = [0] * red_length
# elite read len(_tx_buffer_data) byte
# address = 4
# tx_d = self._tx_buffer_data
tx_d = [0] * (red_length + 3)
while True:
tx_d[0] = MEM_INS_READ
@@ -308,22 +357,60 @@ class ExtMemSpiInterface(LowLevelHardwareInterface):
address += len(data) - 3
del data
# print("_[Debug] @ spi recv data rx = ")
# 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):
# print(rx[i:i+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, (20B)
# * data, (40B)
# * red_wrong, red_retry_cnt, green_wrong, green_retry_cnt, (4B)
# * 255, #, data_length, (3B)
# * check_num, (1B)
# * */
# read again if check num is wrong
index = 0
check_number_print = False
for i in range(0, len(rx), self._single_data_len):
check_sum = sum(rx[i : i + self._single_data_len - 1]) & 0b11111111
# print(check_sum, rx[i + self._single_data_len - 1])
if (check_sum != rx[i + self._single_data_len - 1]):
# print('check_sum wrong, origin value:', 'check_sum =', check_sum, rx[i : i + self._single_data_len])
tx_d = [0] * (self._single_data_len + 3)
address = 12 + self._single_data_len * index
tx_d[0] = MEM_INS_READ
tx_d[1] = ((address >> 8) & 0xFF)
tx_d[2] = (address & 0xFF)
data = []
data = self._spi.send_byte(tx_d)
data[0:3] = [255, 255, 255]
rx[i : i + self._single_data_len] = data[3:]
print('check_sum wrong, read again:', 'check_sum =', check_sum, rx[i : i + self._single_data_len])
check_number_print = True
index = index + 1
if check_number_print:
print('check_sum wrong:', device, datetime.now())
for i in range(0, len(rx), self._single_data_len):
print(rx[i:i+self._single_data_len])
print()
# mark read
self._spi.send_byte(self.MEM_INS_MARKED)
self._spi.send_byte(self.MEM_INS_MARKED1)
self._spi.send_byte(self.MEM_INS_MARKED2)
self._spi.send_byte(self.MEM_INS_MARKED3)
except BaseException as e:
print(e)
@@ -356,108 +443,39 @@ class ExtMemSpiInterface(LowLevelHardwareInterface):
self._spi.send_byte(tx)
def flush_all(self):
self.flush()
def foreach(self) -> Iterable[int]:
yield 0
class MultiExtMemSpiInterface(ExtMemSpiInterface):
__slots__ = ('_selector', '_wait_for_first_data')
def __init__(self,
select: Selector,
device: Tuple[int, int] = None):
super().__init__(device)
self._selector = select
self._pin_sel_val = [False for _ in range(Selector.SIZE)]
self._wait_for_first_data = [True for _ in range(Selector.SIZE)]
@property
def select(self) -> int:
return self._selector.channel
@select.setter
def select(self, value: int):
self._selector.select(value)
def changed(self, flip=False) -> bool:
channel = self._selector.channel
old = self._pin_sel_val[channel]
value = bool(self.pin_sel)
if flip:
self._pin_sel_val[channel] = value
return value != old
def reset(self):
self._spi.reset()
def close(self):
self._selector.close()
super().close()
def flush_all(self):
for _ in self._selector.foreach():
self.pin_reset.output(False)
self.pin_reset.output(True)
def foreach(self) -> Iterable[int]:
for channel in self._selector.foreach():
yield channel
def set_wait_flag(self, spi_idx:int = None, value:bool = None):
self._wait_for_first_data[spi_idx] = value
def get_wait_flag(self, spi_idx:int = None) -> Optional[bool]:
if spi_idx < Selector.SIZE:
return self._wait_for_first_data[spi_idx]
else:
return None
class ExtMemManager:
def __init__(self, ext_mem: ExtMemSpiInterface):
self._mem_sel = InputPin.get_used(P3Pin.MEM_SEL, pull_up_down=True)
self._mem_req = OutputPin.get_used(P3Pin.MEM_REQ, initial=True)
def __init__(self, ext_mem: MultiExtMemSpiInterface):
self._ext_mem = ext_mem
@property
def mem_sel(self) -> int:
return int(self._mem_sel)
@property
def mem_req(self) -> int:
return int(self._mem_req)
def mem_request(self):
self._mem_req.pulse()
sleep(_SLEEP_TIME_)
def get_ext_mem_register(self) -> List[Tuple[Optional[int], Optional[int]]]:
ret = [(None, None) for _ in range(Selector.SIZE)]
for channel in self._ext_mem.foreach():
r = [None, None]
self.mem_request()
sleep(0.01)
m1 = int(self._mem_sel)
self._ext_mem.set_pin_mem_sel(False)
pin_value = self._ext_mem.get_pin_mem_req()
self._ext_mem.set_pin_mem_req(not pin_value)
m1 = int(self._ext_mem.get_pin_ram_sel())
# print("m1 = ", m1)
self._ext_mem.write_register(DEFAULT_REGISTER_VALUE)
r[m1] = self._ext_mem.read_register()
sleep(0.040)
self._ext_mem.set_pin_mem_sel(True)
sleep(0.200)
self.mem_request()
sleep(0.01)
m2 = int(self._mem_sel)
self._ext_mem.set_pin_mem_sel(False)
pin_value = self._ext_mem.get_pin_mem_req()
self._ext_mem.set_pin_mem_req(not pin_value)
m2 = int(self._ext_mem.get_pin_ram_sel())
# print("m2 = ", m2)
self._ext_mem.write_register(DEFAULT_REGISTER_VALUE)
r[m2] = self._ext_mem.read_register()
sleep(0.040)
self._ext_mem.set_pin_mem_sel(True)
sleep(0.200)
ret[channel] = tuple(r)
@@ -483,33 +501,6 @@ class ExtMemManager:
return 0
def get_no_device_channel(self, result: List[Tuple[Optional[int], Optional[int]]] = None) -> List[int]:
if result is None:
result = self.get_ext_mem_register()
ret = []
for channel, result in enumerate(result):
if self.is_no_device(result):
ret.append(channel)
return ret
def get_memory_test_fail(self, result: List[Tuple[Optional[int], Optional[int]]] = None) -> List[int]:
if result is None:
result = self.get_ext_mem_register()
ret = []
for channel, result in enumerate(result):
if self.is_no_device(result):
continue
if self.is_memory_test_fail(result) != 0:
ret.append(channel)
return ret
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()
@@ -526,173 +517,3 @@ class ExtMemManager:
ret.append(channel)
return ret
def test_available_channel(self, result: List[Tuple[Optional[int], Optional[int]]] = None) -> List[int]:
if result is None:
result = self.get_ext_mem_register()
available_channel = []
for channel, result in enumerate(result):
r1, r2 = result
if self.is_no_device(result):
print('channel', channel, 'no device')
continue
test_pass = True
if r1 is None or r2 is None:
test_pass = False
print('channel', channel, 'mem_sel', 'x', 'not change')
if r1 is not None and r1 > 0 and r1 != DEFAULT_REGISTER_VALUE:
test_pass = False
print('channel', channel, 'mem_sel', 0, 'register', r1)
if r2 is not None and r2 > 0 and r2 != DEFAULT_REGISTER_VALUE:
test_pass = False
print('channel', channel, 'mem_sel', 1, 'register', r2)
if test_pass:
print('channel', channel, 'mem_sel', 0, 'register', r1)
print('channel', channel, 'mem_sel', 1, 'register', r2)
available_channel.append(channel)
return available_channel
def test_memory_read_write(self, channel: int, print_result=False) -> bool:
self._ext_mem.select = channel
addr = 4
size = 100
test_pass = True
while addr < MEM_SIZE:
d1 = [randint(10, 99) for _ in range(size)]
d2 = [randint(10, 99) for _ in range(size)]
self.mem_request()
m1 = int(self._mem_sel)
self._ext_mem.write_memory(addr, d1)
self.mem_request()
m2 = int(self._mem_sel)
self._ext_mem.write_memory(addr, d2)
self.mem_request()
m11 = int(self._mem_sel)
r1 = self._ext_mem.read_memory(addr, size)
if m1 != m11:
test_pass = False
if print_result:
print('channel', channel, 'mem_sel not change')
if d1 != r1:
test_pass = False
if print_result:
self.print_bytes_diff(d1, r1)
self.mem_request()
m22 = int(self._mem_sel)
r2 = self._ext_mem.read_memory(addr, size)
if m2 != m22:
test_pass = False
if print_result:
print('channel', channel, 'mem_sel not change')
if d2 != r2:
test_pass = False
if print_result:
self.print_bytes_diff(d2, r2)
addr += size
return test_pass
@staticmethod
def print_bytes_diff(_1: List[int], _2: List[int]):
s1 = ''
s2 = ''
l1 = len(_1)
l2 = len(_2)
for i in range(min(l1, l2)):
v1 = _1[i]
v2 = _2[i]
if v1 == v2:
s1 += '%02X ' % v1
s2 += '%02X ' % v2
else:
s1 += '%02X ' % v1
s2 += pc('%02X' % v2, RED) + ' '
if l1 == l2:
pass
elif l1 < l2:
for i in range(l1, l2):
s2 += pc('%02X' % _2[i], GREEN) + ' '
else:
for i in range(l2, l1):
s1 += pc('%02X' % _1[i], RED) + ' '
print(s1)
print(s2)
def hardware_test():
ext_mem = MultiExtMemSpiInterface(Selector.get(Selector.MEM_SELECTOR))
fake_mode = False
try:
ext_mem.reset()
except FileNotFoundError:
fake_mode = True
ret = {
'channel_count': Selector.SIZE,
'memory_size': MEM_SIZE,
'pin_mem_req': P3Pin.MEM_REQ,
'pin_mem_sel': P3Pin.MEM_SEL,
}
if not fake_mode:
tester = ExtMemManager(ext_mem)
result = tester.get_ext_mem_register()
no_device = tester.get_no_device_channel(result)
reg_fail = tester.get_memory_test_fail(result)
available = tester.get_available_channel(result)
channel = ['unknown' for _ in range(Selector.SIZE)]
for ch in range(len(channel)):
if ch in no_device:
channel[ch] = 'no_device'
elif ch in reg_fail:
channel[ch] = 'reg_fail'
elif not tester.test_memory_read_write(ch):
channel[ch] = 'mem_fail'
else:
channel[ch] = 'available'
ret['register'] = result
ret['available'] = available
ret['channel'] = channel
return ret
if __name__ == '__main__':
from pprint import pprint
pprint(hardware_test())
+1 -1
View File
@@ -53,7 +53,7 @@ class HardwareImplSpiInterface(LowLevelHardwareInterface):
*MISO*, *SCLK*, *GE0_N*
"""
__slots__ = ('_device', '_spi', '_spi_mode', 'pin_request', '_spi_speed')
__slots__ = ('_device', '_spi', '_spi_mode', '_spi_speed')
def __init__(self,
device: Tuple[int, int] = None,
+1 -1
View File
@@ -28,7 +28,7 @@ class UARTInterface(LowLevelHardwareInterface):
self._serial = serial.Serial(self._port,
baudrate=self._baudrate,
timeout=0,
writeTimeout=1)
writeTimeout=0.01)
# deprecate function name which change at version 3.0
self._serial.flushInput()
self._serial.flushOutput()
+8 -8
View File
@@ -117,14 +117,14 @@ class Selector:
self._p1.output(p[1])
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)
elif (value == 5 and self._last_sel != 4):
print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel)
elif (value == 7 and self._last_sel != 5):
print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel)
elif (value == 6 and self._last_sel != 7):
print('mem_sel is not use gray code, value:', value, ', last value:', self._last_sel)
# if (value == 4 and self._last_sel != 6):
# 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, 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, 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, datetime.now())
self._last_sel = value
View File
+26
View File
@@ -0,0 +1,26 @@
class Action():
def __init__(self, action_id, action):
self._id: str = action_id
self._type: str = action['type']
self._target: str = action['target']
self._condition : list[str] = action['condition']
# self._duration = action.get('duration', None)
# self._goto = action.get('goto', None)
# self._cycle = action.get('cycle', None)
@property
def id(self):
return self._id
@property
def type(self):
return self._type
@property
def target(self):
return self._target
@property
def condition(self):
return self._condition
+96
View File
@@ -0,0 +1,96 @@
from datetime import datetime
from time import time
class Condition():
def __init__(self, id, condition):
self._id = id
self._type = condition['type']
self._comparsion = condition['comparsion']
self._value = condition['value']
self._active = False
@property
def id(self):
return self._id
@property
def type(self):
return self._type
@property
def comparsion(self):
return self._comparsion
@property
def value(self):
return self._value
@id.setter
def id(self, new_id):
self._id = new_id
@type.setter
def type(self, new_type):
self._type = new_type
@comparsion.setter
def comparsion(self, new_comparsion):
self._comparsion = new_comparsion
@value.setter
def value(self, new_value):
self._value = new_value
def compareWith(self, operator, x, y) -> bool:
# print(operator, x, y)
cases = {
"equal": lambda a, b: a == b,
"bigger": lambda a, b: a > b,
"smaller": lambda a, b: a < b,
}
return cases[operator](x, y)
def match_or_not(self, **kwargs):
# print(self._type, self._comparsion, self._value)
return getattr(self, self.type)(**kwargs)
def absolute_time(self, **kwargs):
now = int(time())
time_condition = round(self.datetime_to_timestamp(self.str_to_datetime(self._value)))
return self.compareWith(self.comparsion, now, time_condition)
def after_project_run(self, **kwargs):
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))
def after_task_run(self, **kwargs):
# print('relative_time_from_task', kwargs,kwargs['task_start_time'],kwargs['delay_time'])
if len(kwargs['task_start_time']) == 0:
return False
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))
def device(self, **kwargs):
print('device')
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 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)
+32
View File
@@ -0,0 +1,32 @@
class Instruction():
def __init__(self):
self._instruction_set = {
'set_file_name': {
'method': 'update_recording_file_name_info',
'arguments': ['file_name']
},
'set_parent': {
'method': 'update_parent_info',
'arguments': ['parent']
},
'set_parameter':{
'method': 'set_multi_parameters',
'arguments': ['parameter']
},
'call_instruction': {
'method': 'call_instruction',
'arguments': ['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']))
@property
def start(self) -> list:
return self._start_instruction
@property
def stop(self) -> list:
return self._stop_instruction
+224
View File
@@ -0,0 +1,224 @@
import sys
import json
import threading
from time import time, sleep
from datetime import datetime
from collections import deque
from copy import copy
from uuid import uuid4
from .task import Task
from .task_manager import TaskManager
from .instruction import Instruction
from biopro.device.manager import DeviceManager
from biopro.text import *
key_list = {
'deviceList': 'device',
}
class Project(threading.Thread):
def __init__(self, project, device_manager: DeviceManager, mqttThread = 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._start_time = None
self._end_time = None
self._id = None
self._uuid = str(uuid4())
self._name = None
self._desc = None
self._device = None
self._complete_device = []
self._status = 0
self._instruction_set = Instruction()
self._stop_flag = False
self._task_manager = None
self.setup_project(project)
self.setup_device(self._device)
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'])
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)
@property
def id(self) -> int:
return self._id
@id.setter
def id(self, new_id):
self._id = new_id
@property
def uuid(self) -> str:
return self._uuid
@uuid.setter
def uuid(self, new_uuid):
self._uuid = new_uuid
@property
def name(self) -> str:
return self._name
@name.setter
def name(self, new_name):
self._name = new_name
@property
def desc(self) -> str:
return self._desc
@desc.setter
def desc(self, new_desc):
self._desc = new_desc
@property
def status(self) -> str:
return self._status
@status.setter
def status(self, new_status):
self._status = new_status
@property
def device(self) -> list:
return self._device
@device.setter
def device(self, new_device):
self._device = new_device
@property
def task_list(self):
return self._task_manager.export_task_list
@property
def mqtt_thread(self):
return self._mqtt_thread
def run(self):
self._status = 1
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])
while not self._stop_flag :
# check running task first
delay_time = 0
check_list = copy(self._task_manager.check_list)
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
)
# print('match_condition_list', match_condition_list)
for condition in match_condition_list:
match_action_list = task.get_match_action(condition.id)
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)
self.mqtt_thread.broadcast_command('project:task ' + task.name + ' start at ' + datetime.now().strftime('%Y-%m-%d %H:%M:%S.%f')[:-3])
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))
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._task_manager.running_task.stop()
# check project done then close project
if self.check_project_done() == True:
print('project stop at', datetime.now())
self.close()
if self._time_interval - delay_time > 0:
sleep(self._time_interval - delay_time)
def pause(self):
# TODO
pass
def stop(self):
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.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):
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:
# if task never start or still task is running then reject
if task.status == 1 or task.status == -1:
return False
return True
def check_running_task_not_run(self):
# if no running task
if self._task_manager.running_task == None:
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):
data = {
'id': self._id,
'name': self._name,
'uuid': self._uuid,
'desc': self._desc,
'status': self._status,
'device': self._device,
'task': self.task_list,
'running_task': self._task_manager.running_task.as_json()
}
return data
+39
View File
@@ -0,0 +1,39 @@
from io import StringIO
from json import loads as json_parse, dumps as _json_stringify
from typing import Dict, Optional, Any
import paho.mqtt.client as mqtt
from .project import Project
from biopro.device.manager import DeviceManager
def json_stringify(o: Any) -> str:
return _json_stringify(o, separators=(',', ':'))
class ProjectManager():
def __init__(self, device_manager: DeviceManager, mqtt_thread=None) :
self._project_list = []
self._mqtt_thread = mqtt_thread
self._device_manager = device_manager
def create(self, project):
new_project = Project(project, self._device_manager, self._mqtt_thread)
self._project_list.append(new_project)
return new_project
def remove(self, index):
self._project_list[index].stop()
del self._project_list[index]
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_project(self, project):
project.start()
def stop_project(self, project):
_project = self.get(project)
_project.stop()
+252
View File
@@ -0,0 +1,252 @@
from typing import List
from .condition import Condition
from .action import Action
from time import time
from datetime import datetime
key_list = {
'deviceList': 'device',
'parameterSet': 'parameter_set'
}
class Task:
def __init__(self, task):
self._id = None
self._name = None
self._parent = None
self._cycle = 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)
self._status = 0
self._next = None
self._condition_list: List[Condition] = []
self._action_list: List[Action] = []
self._instruction_list = []
self._record_list = []
self._start_time = []
self._idle_time = []
self._end_time = []
self._period = None
self.load_task(task)
def load_task(self, task) -> None:
# update task attribute
for key, value in task.items():
if key in key_list.keys():
key = key_list[key]
if key == 'condition':
self.update_condition_list(value)
if key == 'action':
self.update_action_list(value)
# print(key, value)
setattr(self, key, value)
def update_condition_list(self, condition_dict):
self._condition_list.clear()
for key, condition in condition_dict.items():
self._condition_list.append(Condition(key, condition))
def update_action_list(self, action_dict):
self._action_list.clear()
for key, action in action_dict.items():
self._action_list.append(Action(key, action))
@property
def id(self) -> str:
return self._id
@id.setter
def id(self, new_id):
self._id = new_id
@property
def uuid(self) -> str:
return self._uuid
@uuid.setter
def uuid(self, new_uuid):
self._uuid = new_uuid
@property
def name(self):
return self._name
@name.setter
def name(self, new_name):
self._name = new_name
@property
def parent(self):
if self._parent == None:
return {"folder": [2]}
return self._parent
@parent.setter
def parent(self, new_parent):
self._parent = new_parent
@property
def cycle(self) -> int:
return self._cycle
@cycle.setter
def cycle(self, new_cycle):
self._cycle = new_cycle
@property
def device(self) -> dict:
return self._device
@device.setter
def device(self, new_device):
self._device = new_device
@property
def event(self) -> list:
return self._event
@event.setter
def event(self, new_event):
self._event = new_event
@property
def trigger(self) -> list:
return self._trigger
@trigger.setter
def trigger(self, new_trigger):
self._trigger = new_trigger
@property
def parameter_set(self) -> list:
return self._parameter_set
@parameter_set.setter
def parameter_set(self, new_parameter_set):
self._parameter_set = new_parameter_set
@property
def condition(self) -> list:
return self._condition
@condition.setter
def condition(self, new_condition):
self._condition = new_condition
@property
def action(self) -> list:
return self._action
@action.setter
def action(self, new_action):
self._action = new_action
@property
def status(self) -> str:
return self._status
@status.setter
def status(self, new_status):
self._status = new_status
@property
def next(self) -> str:
return self._next
@next.setter
def next(self, new_next):
self._next = new_next
@property
def instruction_list(self) -> List:
return self._instruction_list
@property
def start_time(self) -> List:
return self._start_time
@property
def end_time(self) -> List:
return self._end_time
def new_start_time(self):
self._start_time.append(time())
def new_end_time(self):
self._end_time.append(time())
def get_parameter_set_by_device(self, device):
return [parameter_set for parameter_set in self.parameter_set.values() if device == parameter_set['target']]
def get_parameter(self, name_or_value, device):
name_list = []
value_list = []
for parameter in self.get_parameter_set_by_device(device):
for key, value in parameter.items():
if key != 'target':
name_list.append(key)
value_list.append(str(value))
return '|'.join(name_list) if name_or_value == 'name' else '|'.join(value_list)
def run(self):
print(self._name, 'run at', datetime.now())
self._status = 1
self._start_time.append(time())
def start(self):
self.status = 1
def stop(self):
self.status = 2
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)
def get_match_action(self, condition_id):
return [action for action in self._action_list if condition_id in action.condition]
def do_action(self, action):
for instruction in action.get_instruction_list():
self._instruction_list.append(instruction)
def check_condition(self, **kwargs):
kwargs['task_start_time'] = self._start_time
return [condition for condition in self._condition_list if condition.match_or_not(**kwargs)]
def get_task_info(self, action):
_type = action.type
if _type == 'stop':
_type = 'interrupt'
return {
'device': action.target,
'parameter': self.get_parameter_set_by_device(action.target),
'file_name': self._name + '-' + str(action.target),
'parent': self.parent,
'instruction': _type
}
def as_json(self):
return {
'id': self.id,
'name': self.name,
'parent': self.parent,
'cycle': self.cycle,
'device': self.device,
'event': self.event,
'trigger': self.trigger,
'parameter_set': self.parameter_set,
'condition': self.condition,
'action': self.action,
'status': self.status,
'next': self.next,
}
+88
View File
@@ -0,0 +1,88 @@
from json import loads as json_parse, dumps as _json_stringify
from socket import if_nametoindex
from typing import Dict, List, Optional, Any
from xml.dom.expatbuilder import parseString
import paho.mqtt.client as mqtt
from biopro.text import *
from .task import Task
_RUNTIME_COMPILE = False
def json_stringify(o: Any) -> str:
return _json_stringify(o, separators=(',', ':'))
class TaskManager():
def __init__(self, task_list):
self._task_list = []
self._next_task = []
self._prev_task = None
self._running_task = None
self.load_task_list(task_list)
# self.set_running_task(self._task_list[0])
# self._running_task.run()
self._next_task.append(self._task_list[0])
@property
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
@property
def running_task(self):
return self._running_task
@property
def next_task(self):
return self._next_task
@property
def check_list(self):
return [self._running_task, *self._next_task]
@property
def check_list(self):
return [self._running_task, *self._next_task]
def load_task_list(self, task_list):
for task in task_list:
task = Task(task)
self._task_list.append(task)
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 running task
self._prev_task = self._running_task
# clear next task list
self._next_task.clear()
self._running_task = task
self._running_task.run()
if self._prev_task != None:
# if previous task is still running, then need to close
if self._prev_task.status == 1:
self._prev_task.stop()
print('prev', 'run', self._prev_task.name, self._running_task.name)
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:
self._next_task.append(_task)
except RuntimeError as e:
print(e)
def get_task(self, task_id):
return self._task_list[task_id]
+97 -62
View File
@@ -8,6 +8,7 @@ import gc
from biopro.util.json import JSON
from biopro.util.stack import print_exception
from biopro.util.logger import calculate_time
from .data import RecordingData
from .loader import *
@@ -19,6 +20,8 @@ from statistics import mean
import random
# from numba import jit
from copy import copy
def json_stringify(o) -> str:
return _json_stringify(o, separators=(',', ':'))
@@ -370,6 +373,45 @@ class RecordingMetaFile(JsonSerialize):
self._database.put_queue(['data_meta_write', meta_data, self._device_id, str(self._file_uuid), self._id_db])
# database.put_queue(['data_meta_write', self, meta_data, _path, self._id_db])
return None
def update_subfile_time_size(self, database = None):
meta_data = {
'channels': str(self._channel_mask.channels()),
'size': str(self._size),
'time_duration': str(self._last_time),
'uuid': str(self._file_uuid),
}
_path = str(self._filepath).replace('/', '^')
if database is not None :
self._database = database
self._database.put_queue(['data_meta_write', meta_data, self._device_id, str(self._file_uuid), self._id_db])
# database.put_queue(['data_meta_write', self, meta_data, _path, self._id_db])
return None
def update_subfile_raw(self, database = None):
meta_data = {
'raw_data': self._recording_sub_file,
}
_path = str(self._filepath).replace('/', '^')
if database is not None :
self._database = database
self._database.put_queue(['data_meta_write', meta_data, self._device_id, str(self._file_uuid), self._id_db])
# database.put_queue(['data_meta_write', self, meta_data, _path, self._id_db])
return None
def update_subfile_mini(self, database = None):
meta_data = {
'mini_data': self._recording_sub_mini,
}
_path = str(self._filepath).replace('/', '^')
if database is not None :
self._database = database
self._database.put_queue(['data_meta_write', meta_data, self._device_id, str(self._file_uuid), self._id_db])
# database.put_queue(['data_meta_write', self, meta_data, _path, self._id_db])
return None
@property
def filename(self) -> str:
@@ -517,11 +559,6 @@ class RecordingMetaFile(JsonSerialize):
'start_time': str(_start_time),
}
# if database is not None:
# database.data_raw_create(self, f, raw_data, _channel)
# self._recording_file_ch[_channel]
return f, raw_data
def new_recording_mini(self, _channel: int, _start_time, scale, database = None) -> 'RecordingMini':
@@ -567,9 +604,6 @@ class RecordingMetaFile(JsonSerialize):
'start_time': str(_start_time),
}
# if database is not None:
# database.data_mini_create(self, f, mini_data, _channel, scale)
return f, mini_data
def clear_recording_file(self):
@@ -628,15 +662,6 @@ class RecordingMetaFile(JsonSerialize):
'device': self._device,
}
# d = self._device
# if d is not None:
# ret['device'] = {
# 'device_name': d.device_name,
# 'device_address': list(d.mac_address),
# 'serial_number': d.serial_number.as_json(),
# }
return ret
@@ -792,14 +817,10 @@ class RecordingFile:
'end_time': str(_end_time),
'size': str(self._size)
}
# if self._meta_file._id_db == 0:
# _path = str(self._meta_file.filepath).replace('/', '^')
# self._database.put_queue(['data_meta_id_get_by_path', _path])
# # self._meta_file._id_db = self._database.put_queue(['data_meta_id_get_by_path', _path])
if self._meta_file._id_db != 0:
_data['parent'] = self._meta_file._id_db
self._database.put_queue(['data_raw_update', self._id_db, self._channel, _data])
# self._database.put_queue(['data_raw_update', self._id_db, self._channel, _data])
self._status = False
return None
@@ -965,10 +986,7 @@ class RecordingMini:
'end_time': str(_end_time),
'size': str(self._size)
}
# if self._meta_file._id_db == 0:
# _path = str(self._meta_file.filepath).replace('/', '^')
# self._database.put_queue(['data_meta_id_get_by_path', _path])
# # self._meta_file._id_db = self._database.put_queue(['data_meta_id_get_by_path', _path])
if self._meta_file._id_db != 0:
_data['parent'] = self._meta_file._id_db
self._database.put_queue(['data_mini_update', self._id_db, self._channel, _data])
@@ -996,7 +1014,8 @@ class RecordingFileWriter:
'_data_value_ch', '_close', '_data_mini_ch',
'_mini_scale_list', '_time_real_time', '_data_rl', '_data_db',
'_raw_save', '_mini_save', '_data_time_ch', '_data_value_ch_for_rl',
'_data_time_ch_for_rl', '_device_id', '_send_data', '_data_mqtt_ch')
'_data_time_ch_for_rl', '_device_id', '_send_data', '_data_mqtt_ch', '_id_db_save', '_raw_create_not_done',
'_mini_create_not_done')
def __init__(self, meta: RecordingMetaFile, device_id, database = None):
self._meta = meta
@@ -1017,7 +1036,9 @@ class RecordingFileWriter:
self._raw_save = {
'id': {},
'data': {}
'data': {},
'end_time': {},
'size': {}
}
self._mini_save = {
'10': {
@@ -1052,6 +1073,7 @@ class RecordingFileWriter:
self._data_value_ch_for_rl = {}
self._data_time_ch_for_rl = {}
self._data_time_ch = {}
self._id_db_save = {}
# mini data
self._data_mini_ch = {}
@@ -1068,12 +1090,15 @@ class RecordingFileWriter:
# splitting
self.splitting_threshold_time = 30 * 60 * 1000 # one minute
self.splitting_threshold_size = 16 * 16 * 1024 # 16 * 16KB
self.splitting_threshold_size = 16 * 1024 # 16 * 16KB
self._writer_batch_size = 8192
self._splitting_size = None
self._raw_create_not_done = True
self._mini_create_not_done = True
@property
def meta_file(self) -> RecordingMetaFile:
@@ -1123,7 +1148,7 @@ class RecordingFileWriter:
self._meta._size += self._recording_file_dict[ch]._size
# self._data_db.clear()
if self._database is not None:
self._database.put_queue(['data_raw_recording', self._raw_save['id'], self._channel_list, self._raw_save['data']])
self._database.put_queue(['data_raw_recording', self._raw_save['id'], self._channel_list, self._raw_save['data'], self._id_db_save])
# self._database.put_queue(['data_raw_recording', self._raw_save['id'], self._channel_list, self._raw_save['data']])
self._recording_file_dict.clear()
for scale in self._mini_scale_list:
@@ -1289,7 +1314,8 @@ class RecordingFileWriter:
self._data_db[c].append(str(v))
self._time_now = int(t)
return
# @calculate_time(1)
def write(self, data: Union[bytes, RecordingData, List[bytes], List[RecordingData]], mqtt_thread) -> int:
# check size
ths = self.splitting_threshold_size
@@ -1348,42 +1374,54 @@ class RecordingFileWriter:
self.get_data_iter(d, mqtt_thread)
data_save = False
mini_save = False
if len(self._recording_file_dict) > 0:
for ch in self._data_db.keys():
if self._time_now - self._time_real_time[ch] > 1000000:
self._send_data[ch] = True
self._time_real_time[ch] = self._time_now
# # if self._time_now - self._time_real_time[ch] > 500000:
# self._data_rl[ch].append(str(self._time_now))
# mes = ' '.join(self._data_rl[ch])
# # print(mes)
# # if mqtt_thread is not None:
# # mqtt_thread.publish('data_server/device_data_stream/' + str(self._device_id) + '/' + str(ch), mes)
# # mqtt_queue.put([self._device_id, ch, mes])
# mqtt_thread[ch].on_message(mes)
# self._data_rl[ch].clear()
# # self._time_real_time[ch] = self._time_now
for ch in self._recording_file_dict:
if self._recording_file_dict[ch]._id_db == 0:
return None
for ch in self._data_db.keys():
for scale in self._mini_scale_list:
if self._recording_mini_dict[str(scale)][ch]._id_db == 0:
return None
if self._raw_create_not_done :
self._raw_create_not_done = False
self._meta.update_subfile_raw(database = self._database)
if self._mini_create_not_done :
self._mini_create_not_done = False
self._meta.update_subfile_mini(database = self._database)
data_save = False
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._recording_file_dict[ch]._status:
_data = ' '.join(self._data_db[ch])
write_sz = self._recording_file_dict[ch].write(_data, self._channel_list)
sz = sz + write_sz
self._raw_save['data'][ch] = _data
self._raw_save['id'][ch] = self._recording_file_dict[ch]._id_db
data_save = True
self._raw_save['end_time'][ch] = self._time_now
self._raw_save['size'][ch] = self._recording_file_dict[ch]._size
self._data_db[ch].clear()
self._time[ch] = self._time_now
self._splitting_size += sz
self._meta._last_time = self._time_now
self._recording_file_dict[ch].update_endtime(self._time_now)
self._splitting_size += write_sz
data_save = True
if len(self._data_mini_ch[ch]['1000']['mean']) >= 10:
mini_save = True
for scale in self._mini_scale_list:
str_mean = [str(int) for int in self._data_mini_ch[ch][str(scale)]['mean']]
data_mean = str(self._data_mini_ch[ch][str(scale)]['start_time']) + ' ' + ' '.join(str_mean) + '"***"'
self._mini_save[str(scale)]['id'][ch] = self._recording_mini_dict[str(scale)][ch]._id_db
self._mini_save[str(scale)]['start_time'][ch] = str(self._data_mini_ch[ch][str(scale)]['start_time'])
self._mini_save[str(scale)]['data_mean'][ch] = self._data_mini_ch[ch][str(scale)]['mean'].copy()
self._mini_save[str(scale)]['data_mean'][ch] = data_mean
# self._mini_save[str(scale)]['data_random'][ch] = self._data_mini_ch[ch][str(scale)]['random'].copy()
# self._mini_save[str(scale)]['data_bar'][ch] = self._data_mini_ch[ch][str(scale)]['bar'].copy()
self._recording_mini_dict[str(scale)][ch].write(self._mini_save[str(scale)]['data_mean'][ch])
@@ -1394,26 +1432,25 @@ class RecordingFileWriter:
if data_save is True:
if self._database is not None:
self._database.put_queue(['data_raw_recording', self._raw_save['id'], self._channel_list, self._raw_save['data']])
self._meta.update_subfile(database = self._database)
recording_input = ['data_raw_recording_new', copy(self._raw_save['id']), copy(self._channel_list), copy(self._raw_save['data']), copy(self._raw_save['end_time']), copy(self._raw_save['size'])]
self._database.put_queue(recording_input)
self._meta.update_subfile_time_size(database = self._database)
if mini_save is True:
if self._database is not None:
for scale in self._mini_scale_list:
self._database.put_queue(['data_mini_recording', self._mini_save[str(scale)]['id'], self._channel_list, self._mini_save[str(scale)]['start_time'], self._mini_save[str(scale)]['data_mean']])
self._meta.update_subfile(database = self._database)
self._database.put_queue(['data_mini_recording_new', copy(self._mini_save[str(scale)]['id']), self._channel_list, copy(self._mini_save[str(scale)]['data_mean'])])
self._meta.update_subfile_time_size(database = self._database)
del data
return None
def _switch_recording_file(self):
# if self._recording_file is not None:
# self._recording_file.close()
self._raw_create_not_done = True
if len(self._recording_file_dict) > 0:
for ch in self._recording_file_dict.keys():
self._id_db_save[ch] = self._recording_file_dict[ch]._id_db
self._recording_file_dict[ch].close(self._time_now)
self._meta._size += self._recording_file_dict[ch]._size
@@ -1429,16 +1466,16 @@ class RecordingFileWriter:
if self._database is not None:
self._database.put_queue(['data_raw_create', raw_data_dict, self._channel_list, self._device_id])
# self._database.put_queue(['data_raw_create', self._meta, self._recording_file_dict, raw_data_dict, self._channel_list])
self._meta._last_time = self._time_now
self._meta.update_subfile(database = self._database)
# self._meta.update_subfile(database = self._database)
self._splitting_size = 0
return None
def _switch_recording_mini(self, scale):
self._mini_create_not_done = True
if len(self._recording_mini_dict[str(scale)]) > 0:
for ch in self._recording_mini_dict[str(scale)].keys():
@@ -1456,14 +1493,12 @@ class RecordingFileWriter:
if self._database is not None:
self._database.put_queue(['data_mini_create', mini_data_dict, self._channel_list, scale, self._device_id])
# self._database.put_queue(['data_mini_create', self._meta, self._recording_mini_dict[str(scale)], mini_data_dict, self._channel_list, scale])
self._meta._last_time = self._time_now
self._meta.update_subfile(database = self._database)
# self._meta.update_subfile(database = self._database)
return None
def update_meta_id(self, _id):
# print('update meta')
self._meta._id_db = _id
return None

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