Compare commits
25 Commits
| Author | SHA1 | Date | |
|---|---|---|---|
| 0386cf1847 | |||
| 62d8610191 | |||
| 991f5d06ea | |||
| 55711285e6 | |||
| 3ec5fee43b | |||
| 614a9c0b0f | |||
| 22eb8a09f4 | |||
| dbd7431124 | |||
| 15c15275a7 | |||
| 836d75b77e | |||
| 417bdd91a4 | |||
| 62ee763e2c | |||
| 44e9e4cb67 | |||
| 38537563fd | |||
| 375372996d | |||
| d79491db8b | |||
| 5a35da98ac | |||
| 9c054bd733 | |||
| 64412f9376 | |||
| 97034d6b32 | |||
| f065bad826 | |||
| 9c1dafd003 | |||
| 03443ada99 | |||
| 17dc5470e7 | |||
| 0ed4d0594a |
@@ -158,8 +158,8 @@ reboot
|
||||
|
||||
###### Set pi password
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||||
```
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||||
$cd ~
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$passwd
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cd ~
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||||
passwd
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||||
Current password:raspberry
|
||||
New password:5k6zj454778225
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Retype new password:5k6zj454778225
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@@ -198,11 +198,11 @@ exit 0
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||||
### MQTT broker install
|
||||
|
||||
###### 1.Install mosquitto
|
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$sudo apt-get install mosquitto mosquitto-clients
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sudo apt-get install mosquitto mosquitto-clients
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||||
|
||||
|
||||
###### 2.Enable Remote Access
|
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$sudo vim /etc/mosquitto/conf.d/default.conf
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sudo vim /etc/mosquitto/conf.d/default.conf
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||||
|
||||
add the code following as:
|
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```
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||||
@@ -213,13 +213,13 @@ protocol websockets
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allow_anonymous true
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```
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||||
###### 3.restart mqtt broker
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$sudo systemctl restart mosquitto
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sudo systemctl restart mosquitto
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###### 4.Robust MQTT
|
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create mosquitto_restart.sh
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|
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$cd ~
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$sudo vim mosquitto_restart.sh
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cd ~
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sudo vim mosquitto_restart.sh
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|
||||
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add the code following as:
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@@ -236,16 +236,16 @@ echo "$SERVICE is currently running" >> /home/ubuntu/cron.log
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exit 0
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```
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###### 5.add mosquitto_restart.sh to root routing
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$sudo chmod +x mosquitto_restart.sh
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$sudo -i
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$crontab -e
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sudo chmod +x mosquitto_restart.sh
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sudo -i
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crontab -e
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|
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add the code following as:
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```
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*/5 * * * * /home/pi/mosquitto_restart.sh
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```
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###### 6.Auto run MQTT broker when when pi-start
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$sudo vim /etc/rc.local
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sudo vim /etc/rc.local
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|
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add the code following as:
|
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```
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@@ -254,31 +254,31 @@ sudo nohup systemctl restart mosquitto
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|
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### Setting up a Routed Wireless Access Point
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###### 1.Install AP and Management Software
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$sudo apt install hostapd
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$sudo systemctl unmask hostapd
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$sudo systemctl enable hostapd
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$sudo apt install dnsmasq
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$sudo DEBIAN_FRONTEND=noninteractive apt install -y netfilter-persistent iptables-persistent
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sudo apt install hostapd
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sudo systemctl unmask hostapd
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sudo systemctl enable hostapd
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sudo apt install dnsmasq
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sudo DEBIAN_FRONTEND=noninteractive apt install -y netfilter-persistent iptables-persistent
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###### 2.Set up the Network Router
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$sudo nano /etc/dhcpcd.conf
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sudo nano /etc/dhcpcd.conf
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```
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interface wlan0
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static ip_address=192.168.2.1/24
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nohook wpa_supplicant
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```
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$sudo nano /etc/sysctl.d/routed-ap.conf
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sudo nano /etc/sysctl.d/routed-ap.conf
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```
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# Enable IPv4 routing
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net.ipv4.ip_forward=1
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```
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$sudo iptables -t nat -A POSTROUTING -o eth0 -j MASQUERADE
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$sudo netfilter-persistent save
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$sudo mv /etc/dnsmasq.conf /etc/dnsmasq.conf.orig
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sudo iptables -t nat -A POSTROUTING -o eth0 -j MASQUERADE
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sudo netfilter-persistent save
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sudo mv /etc/dnsmasq.conf /etc/dnsmasq.conf.orig
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|
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$sudo nano /etc/dnsmasq.conf
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sudo nano /etc/dnsmasq.conf
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|
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```
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interface=wlan0 # Listening interface
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@@ -289,10 +289,10 @@ address=/gw.wlan/192.168.2.1
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# Alias for this router
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```
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###### 3.Ensure Wireless Operation
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$sudo rfkill unblock wlan
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sudo rfkill unblock wlan
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###### 4.Configure the AP Software
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$sudo nano /etc/hostapd/hostapd.conf
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sudo nano /etc/hostapd/hostapd.conf
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||||
|
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```
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country_code=TW
|
||||
@@ -317,11 +317,13 @@ wme_enabled=1
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ht_capab=[HT40+][SHORT-GI-40]
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||||
```
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###### 5.Running the new Wireless AP
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$sudo systemctl reboot
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sudo systemctl reboot
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### Install Apache2
|
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sudo apt install apache2
|
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|
||||
### Set web site
|
||||
$sudo vim ./sites-available/000-default.conf
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### Deploy web site
|
||||
sudo vim /etc/apache2/sites-available/000-default.conf
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```
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<VirtualHost *:8080> #80------>8080
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# The ServerName directive sets the request scheme, hostname and port that
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@@ -363,6 +365,11 @@ $sudo vim ./sites-available/000-default.conf
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> https://www.raspberrypi.org/documentation/configuration/wireless/access-point-routed.md
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# ChangeLog
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[2022.12.28]
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change meta_project_info to project_metas
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change project_report to project_reports
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alter table project_meta column cycle type string to jsonb
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[2022.11.16]
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add python package SQLAlchemy
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add new column project(int4) in postgresSQL table recording_meta_datas
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@@ -0,0 +1,60 @@
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from sqlalchemy import Table, Column, String, MetaData, ForeignKey, JSON
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from sqlalchemy.sql import select, func
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from sqlalchemy.types import Integer, BigInteger, String, Boolean, TIMESTAMP, Numeric
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from sqlalchemy.dialects.postgresql import JSONB
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from biopro.db.base import Session
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|
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from .base import Base
|
||||
|
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class Collection(Base):
|
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__tablename__ = "collections"
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|
||||
id = Column(Integer, primary_key=True)
|
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name = Column(String(255))
|
||||
parent = Column(JSONB)
|
||||
controller_id = Column(Integer)
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type = Column(String(255))
|
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description = Column(String(255))
|
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deleted = Column(Boolean)
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created_at = Column(TIMESTAMP(timezone=True), server_default=func.now())
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updated_at = Column(TIMESTAMP(timezone=True), onupdate=func.now())
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||||
|
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@classmethod
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def create_collection(cls, collection_name, parent):
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with Session() as session:
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name = cls.check_name_duplicate(collection_name, parent, 0)
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collection = Collection(
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name = name,
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parent = parent,
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type= "folder",
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)
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session.add(collection)
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session.commit()
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print('a', collection.id)
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return collection
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@classmethod
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def check_name_duplicate(cls, collection_name, parent, n):
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with Session() as session:
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result = session.query(Collection).filter(Collection.name == cls.generate_name(collection_name, n), Collection.parent == parent).first()
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if result is None:
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return cls.generate_name(collection_name, n)
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else:
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new_num = n + 1
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# new_name = f"{collection_name}({new_num})"
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return cls.check_name_duplicate(collection_name, parent, new_num)
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@classmethod
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def generate_name(cls, collection_name, n):
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if n==0:
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return collection_name
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else:
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return f"{collection_name}({n})"
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|
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@classmethod
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def find_collection(cls, collection_name, parent):
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with Session() as session:
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result = session.query(Collection).filter(Collection.name == collection_name, Collection.parent == parent).first()
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return result
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@@ -5,14 +5,17 @@ from sqlalchemy.dialects.postgresql import JSONB
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|
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from .base import Base
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class MetaProjectInfo(Base):
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__tablename__ = "meta_project_info"
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class Project(Base):
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__tablename__ = "project"
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id = Column(Integer, primary_key=True)
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project = Column(String(36))
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cycle = Column(String)
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name = Column(String)
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desc = Column(String)
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task = Column(JSONB)
|
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serial_number = Column(Integer)
|
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cycle = Column(JSONB)
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device = Column(JSONB)
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uuid = Column(String(36))
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user_auth = Column(JSONB)
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deleted = Column(Boolean, default = False)
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created_at = Column(TIMESTAMP(timezone=True), server_default=func.now())
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updated_at = Column(TIMESTAMP(timezone=True), onupdate=func.now())
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||||
@@ -0,0 +1,29 @@
|
||||
from sqlalchemy import Table, Column, String, MetaData, ForeignKey, JSON
|
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from sqlalchemy.sql import select, func
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from sqlalchemy.types import Integer, BigInteger, String, Boolean, TIMESTAMP, Numeric
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||||
from sqlalchemy.dialects.postgresql import JSONB
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||||
|
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from .base import Base, Session
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class MetaProjectInfo(Base):
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__tablename__ = "project_metas"
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|
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id = Column(Integer, primary_key=True)
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project = Column(String(36))
|
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cycle = Column(JSONB)
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task = Column(JSONB)
|
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serial_number = Column(Integer)
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deleted = Column(Boolean, default = False)
|
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created_at = Column(TIMESTAMP(timezone=True), server_default=func.now())
|
||||
updated_at = Column(TIMESTAMP(timezone=True), onupdate=func.now())
|
||||
|
||||
@classmethod
|
||||
def create_project_meta(cls, project):
|
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with Session() as session:
|
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project_meta = MetaProjectInfo(project = project['project'], cycle= project['cycle'], task=project['task'], serial_number=int(project['serial_number']))
|
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session.add(project_meta)
|
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session.commit()
|
||||
return project_meta.id
|
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|
||||
# def __repr__(self):
|
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# return f"User(id={self.id!r}, name={self.name!r}, fullname={self.task!r})"
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@@ -6,7 +6,7 @@ from sqlalchemy.dialects.postgresql import JSONB
|
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from .base import Base
|
||||
|
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class ProjectReport(Base):
|
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__tablename__ = "project_report"
|
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__tablename__ = "project_reports"
|
||||
|
||||
id = Column(Integer, primary_key=True)
|
||||
name = Column(String)
|
||||
|
||||
@@ -660,7 +660,7 @@ class CC2650Device(Device):
|
||||
break
|
||||
|
||||
elif device_type == 'EISZeroOne':
|
||||
i = 0
|
||||
i = 1
|
||||
request_times = 0
|
||||
while i < 13:
|
||||
try:
|
||||
@@ -2177,23 +2177,12 @@ class CC2650SingleMasterCentralDevice(CC2650MasterDevice, Synchronized):
|
||||
else:
|
||||
for dev in self._found:
|
||||
if dev.mac_address == address:
|
||||
|
||||
# send device mac and addrType
|
||||
try:
|
||||
# print('send_connect',bytes(connect_ins))
|
||||
self._cc2650.send("bytes", bytes(connect_ins))
|
||||
|
||||
except SerialTimeoutException as e:
|
||||
raise RecvTimeout('device CC2650 connect fail') from e
|
||||
|
||||
else:
|
||||
sleep(2)
|
||||
|
||||
# connection establish done?
|
||||
for retry_recv_ack in range(5):
|
||||
self._cc2650.send("bytes", bytes((0, 0, 0, 0)))
|
||||
|
||||
try:
|
||||
# send device mac and addrType
|
||||
self._cc2650.send("bytes", bytes(connect_ins))
|
||||
sleep(1.5)
|
||||
con_done = self._cc2650.recv_uart(timeout = 0.1)
|
||||
|
||||
except RecvTimeout:
|
||||
@@ -2202,6 +2191,7 @@ class CC2650SingleMasterCentralDevice(CC2650MasterDevice, Synchronized):
|
||||
|
||||
# is the ack valid?
|
||||
if con_done is None:
|
||||
self.log_info("recv connection timeout, retry... ")
|
||||
continue
|
||||
|
||||
elif con_done[0] is 46 and \
|
||||
|
||||
+195
-167
@@ -884,20 +884,54 @@ 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
|
||||
voltage = struct.unpack('<i', data[12:16])[0] # unit: uV
|
||||
impedance = struct.unpack('<i', data[16:20])[0] # unit: mOm
|
||||
|
||||
#/* Elite Notify data:
|
||||
# * +--------+----------+---------+---------+---------+-----------+-----------------+
|
||||
# * | id(1B) | time(4B) | ch1(4B) | ch2(4B) | ch3(4B) | cycle(2B) | finish_flag(1B) |
|
||||
# * | bat(4B) | notify#(1B) | ch4(4B) | ch5(4B) | ch6(4B) | __(3B) |
|
||||
# * +---------+-------------+---------+---------+---------+--------+
|
||||
# */
|
||||
#/*
|
||||
# * EliteADCControl(): use ADC plot, and send what data to controller
|
||||
# * +---------------------------+-----------+-----------+-----------+-----------+-----------+
|
||||
# * | MODE | ch1 | ch2 | ch3 | cycle | ch4 |
|
||||
# * +---------------------------+-----------+-----------+-----------+-----------+-----------+
|
||||
# * | CURVE_IV | Iin | Vout | Vin | | Vmon |
|
||||
# * | CURVE_IV_CY | Iin | Vout | Vin | v | Vmon |
|
||||
# * | CURVE_VO | Iin | Vout | Vin | | Vmon |
|
||||
# * | CURVE_RT | Iin | Vout | R | | Vmon |
|
||||
# * | CURVE_VT | Iin | Vin | | | |
|
||||
# * | CURVE_IT | Iin | Vin | Vout | | Vmon |
|
||||
# * | CURVE_CC | Iin | Vin | Vout | | Vmon |
|
||||
# * | CURVE_CP | Iin | Vout-Vin | Vout | | Vmon |
|
||||
# * | CURVE_CV | Iin | Vout-Vin | Vout | v | Vmon |
|
||||
# * | CURVE_LSV | Iin | Vout-Vin | Vout | | Vmon |
|
||||
# * | CURVE_CA | Iin | Vout-Vin | Vout | | Vmon |
|
||||
# * | CURVE_OCP | Iin | Vmon-Vin | Vin | | Vmon |
|
||||
# * | CURVE_UNI_PULSE | pul1_Iin | pul2_Iin | | | |
|
||||
# * | CURVE_DPV | c1&c2_avg | Vout-Vin | Vout | | Vmon |
|
||||
# * | CURVE_DPV_SMPRATE | Iin | Vout-Vin | Vout | | Vmon |
|
||||
# * | CURVE_DPV_ADVANCE | c1&c2_avg | Vout-Vin | Vout | | Vmon |
|
||||
# * | CURVE_DPV_ADVANCE_SMPRATE | Iin | Vout-Vin | Vout | | Vmon |
|
||||
# * +---------------------------+-----------+-----------+-----------+-----------+-----------+
|
||||
# *
|
||||
# * ps. c1_avg = pul1_Iin
|
||||
# * ps. c2_avg = pul2_Iin
|
||||
# */
|
||||
|
||||
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]
|
||||
notify_one = struct.unpack('<i', data[28:32])[0]
|
||||
notify_two = struct.unpack('<i', data[32:36])[0]
|
||||
notify_three = struct.unpack('<i', data[36:40])[0]
|
||||
mem_cnt = data[1]
|
||||
time_stamp: float = struct.unpack('<I', data[1+3:5+3])[0]
|
||||
ch1 = struct.unpack('<i', data[5+3:9+3])[0] # unit: nA
|
||||
ch2 = struct.unpack('<i', data[9+3:13+3])[0] # unit: uV
|
||||
ch3 = struct.unpack('<i', data[13+3:17+3])[0] # unit: mOm
|
||||
|
||||
cycle_number = struct.unpack('<H', data[17+3:19+3])[0]
|
||||
finish_mode_falg = data[19+3]
|
||||
battery = struct.unpack('<i', data[20+3:24+3])[0]
|
||||
elite_notify_times = data[24+3]
|
||||
ch4 = struct.unpack('<i', data[25+3:29+3])[0]
|
||||
ch5 = struct.unpack('<i', data[29+3:33+3])[0]
|
||||
ch6 = struct.unpack('<i', data[33+3:37+3])[0]
|
||||
# self._show_data = True
|
||||
|
||||
mem_wrong_information = struct.unpack('<i', data[43:47])[0] # mem_wrong_information = green retry, green wrong, red retry, red wrong
|
||||
@@ -924,25 +958,29 @@ class I4V4Z4T4DataDecoder(RecDataDecoder):
|
||||
else:
|
||||
if self._show_data:
|
||||
print('|', time_stamp, '|', delta, '|', int(time_stamp * 1000 / 2),
|
||||
'|', current, '|', voltage, '|', impedance, '|', cycle_number,
|
||||
'|', notify_one, '|', notify_two, '|', notify_three,
|
||||
'|', finishMode, '@', str(self.device))
|
||||
'|', ch1, '|', ch2, '|', ch3, '|', cycle_number,
|
||||
'|', ch4, '|', ch5, '|', ch6,
|
||||
'|', finishMode, '@', str(self.device), flush = True)
|
||||
|
||||
# print('|', '{:10}'.format(time_stamp),
|
||||
# '|', '{:4}'.format(delta),
|
||||
# '|', '{:10}'.format(int(time_stamp * 1000 / 2)),
|
||||
# '|', '{:10}'.format(current),
|
||||
# '|', '{:10}'.format(voltage),
|
||||
# '|', '{:10}'.format(impedance),
|
||||
# '|', '{:5}'.format(cycle_number),
|
||||
# '|', '{:1}'.format(finishMode),
|
||||
# '@', str(self.device), '|')
|
||||
# print('|', '{:10}'.format(time_stamp),
|
||||
# '|', '{:4}'.format(delta),
|
||||
# '|', '{:10}'.format(int(time_stamp * 1000 / 2)), #[usec]
|
||||
# '|', '{:10}'.format(ch1), #[nA]
|
||||
# '|', '{:10}'.format(ch2), #[uV]
|
||||
# '|', '{:10}'.format(ch3),
|
||||
# '|', '{:5}'.format(cycle_number),
|
||||
# '|', '{:10}'.format(ch4), #Voutin[uV]
|
||||
# '|', '{:10}'.format(ch5),
|
||||
# '|', '{:10}'.format(ch6),
|
||||
# '|', '{:5}'.format(battery), #[mV]
|
||||
# '|', '{:4}'.format(elite_notify_times),
|
||||
# '|', '{:1}'.format(finishMode),
|
||||
# '@', str(self.device), '|', flush = True)
|
||||
|
||||
# print('|', '{:5}'.format(mem_wrong_information),
|
||||
# '|', '{:2}'.format(ram_num),
|
||||
# '|', '{:2}'.format(broken_flag),
|
||||
# '@', str(self.device), '|')
|
||||
pass
|
||||
# print('|', '{:5}'.format(mem_wrong_information),
|
||||
# '|', '{:2}'.format(ram_num),
|
||||
# '|', '{:2}'.format(broken_flag),
|
||||
# '@', str(self.device), '|')
|
||||
|
||||
if finishMode == True:
|
||||
print("finishMode full data:", list(data), datetime.now())
|
||||
@@ -951,13 +989,13 @@ class I4V4Z4T4DataDecoder(RecDataDecoder):
|
||||
self._mode_stop = 0
|
||||
|
||||
ret = RecordingData(self.device, int(time_stamp * 1000 / 2), 0)
|
||||
ret.append_data(0, current)
|
||||
ret.append_data(1, voltage)
|
||||
ret.append_data(2, impedance)
|
||||
ret.append_data(0, ch1)
|
||||
ret.append_data(1, ch2)
|
||||
ret.append_data(2, ch3)
|
||||
ret.append_data(3, cycle_number)
|
||||
ret.append_data(4, notify_one)
|
||||
ret.append_data(5, notify_two)
|
||||
ret.append_data(6, notify_three)
|
||||
ret.append_data(4, ch4)
|
||||
ret.append_data(5, ch5)
|
||||
ret.append_data(6, ch6)
|
||||
# ret.append_data(4, battery)
|
||||
# ret.append_data(5, elite_notify_times)
|
||||
# ret.append_data(6, mem_cnt)
|
||||
@@ -1360,7 +1398,6 @@ class EISZeroOneDataDecoder(RecDataDecoder):
|
||||
self._mode_stop = 0
|
||||
|
||||
self._cycle_start_time = []
|
||||
self._ac_amp: int = 0
|
||||
self._mode: int = 0
|
||||
self._last_phase = 0
|
||||
self._first_phase_flag = 1
|
||||
@@ -1377,16 +1414,13 @@ class EISZeroOneDataDecoder(RecDataDecoder):
|
||||
@staticmethod
|
||||
def _decode_cali_coeff(cali_coeff: bytes) -> Optional[List[Tuple[int, int]]]:
|
||||
if cali_coeff != b'':
|
||||
cis_data_len = 20
|
||||
cali_table = []
|
||||
hsrtia_a = []
|
||||
hsrtia_b = []
|
||||
hsrtia_c = []
|
||||
hsrtia_d = []
|
||||
rolloff = []
|
||||
phase_coeff = []
|
||||
phase_offset = []
|
||||
|
||||
# phase_coeff = [[0]*4 for i in range(4)]
|
||||
# phase_offset = [[0]*4 for i in range(4)]
|
||||
|
||||
phase_coeff = numpy.zeros([4, 4], dtype = int)
|
||||
phase_offset = numpy.zeros([4, 4], dtype = int)
|
||||
@@ -1400,104 +1434,107 @@ class EISZeroOneDataDecoder(RecDataDecoder):
|
||||
# ]
|
||||
#######################################
|
||||
|
||||
# print('cali_coeff', cali_coeff)
|
||||
cutoff_freq = struct.unpack('>I', cali_coeff[1:5])[0] * 100 #4
|
||||
# temp = struct.unpack('>B', cali_coeff[5:6])[0] #1
|
||||
# hsrtia_200r = struct.unpack('>B', cali_coeff[6:7])[0] #1
|
||||
# hsrtia_5k = struct.unpack('>H', cali_coeff[7:9])[0] #2
|
||||
# hsrtia_20k = struct.unpack('>H', cali_coeff[6:8])[0] #2
|
||||
# hsrtia_160k = struct.unpack('>I', cali_coeff[8:12])[0] #4
|
||||
#Lv[0] 160k
|
||||
cis_cali_packet = 1
|
||||
index = (cis_cali_packet - 1) * cis_data_len
|
||||
hsrtia_a.append(struct.unpack('>i', cali_coeff[index+1:index+5])[0])
|
||||
hsrtia_b.append(struct.unpack('>q', cali_coeff[index+5:index+13])[0])
|
||||
rolloff.append(struct.unpack('>i', cali_coeff[index+13:index+17])[0])
|
||||
|
||||
index = 20
|
||||
cis_cali_packet = 2
|
||||
index = (cis_cali_packet - 1) * cis_data_len
|
||||
g = 0
|
||||
phase_coeff[0][g] = struct.unpack('>i', cali_coeff[index+1:index+5])[0]
|
||||
phase_offset[0][g] = struct.unpack('>i', cali_coeff[index+5:index+9])[0]
|
||||
phase_coeff[1][g] = struct.unpack('>i', cali_coeff[index+9:index+13])[0]
|
||||
phase_offset[1][g] = struct.unpack('>i', cali_coeff[index+13:index+17])[0]
|
||||
|
||||
index = 40
|
||||
cis_cali_packet = 3
|
||||
index = (cis_cali_packet - 1) * cis_data_len
|
||||
g = 0
|
||||
phase_coeff[2][g] = struct.unpack('>i', cali_coeff[index+1:index+5])[0]
|
||||
phase_offset[2][g] = struct.unpack('>i', cali_coeff[index+5:index+9])[0]
|
||||
phase_coeff[3][g] = struct.unpack('>i', cali_coeff[index+9:index+13])[0]
|
||||
phase_offset[3][g] = struct.unpack('>i', cali_coeff[index+13:index+17])[0]
|
||||
|
||||
#Lv[0] 160k
|
||||
index = 60
|
||||
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])
|
||||
|
||||
#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])
|
||||
cis_cali_packet = 4
|
||||
index = (cis_cali_packet - 1) * cis_data_len
|
||||
hsrtia_a.append(struct.unpack('>i', cali_coeff[index+1:index+5])[0])
|
||||
hsrtia_b.append(struct.unpack('>q', cali_coeff[index+5:index+13])[0])
|
||||
rolloff.append(struct.unpack('>i', cali_coeff[index+13:index+17])[0])
|
||||
|
||||
cis_cali_packet = 5
|
||||
index = (cis_cali_packet - 1) * cis_data_len
|
||||
g = 1
|
||||
phase_coeff[0][g] = struct.unpack('>i', cali_coeff[index+1:index+5])[0]
|
||||
phase_offset[0][g] = struct.unpack('>i', cali_coeff[index+5:index+9])[0]
|
||||
phase_coeff[1][g] = struct.unpack('>i', cali_coeff[index+9:index+13])[0]
|
||||
phase_offset[1][g] = struct.unpack('>i', cali_coeff[index+13:index+17])[0]
|
||||
|
||||
cis_cali_packet = 6
|
||||
index = (cis_cali_packet - 1) * cis_data_len
|
||||
g = 1
|
||||
phase_coeff[2][g] = struct.unpack('>i', cali_coeff[index+1:index+5])[0]
|
||||
phase_offset[2][g] = struct.unpack('>i', cali_coeff[index+5:index+9])[0]
|
||||
phase_coeff[3][g] = struct.unpack('>i', cali_coeff[index+9:index+13])[0]
|
||||
phase_offset[3][g] = struct.unpack('>i', cali_coeff[index+13:index+17])[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])
|
||||
cis_cali_packet = 7
|
||||
index = (cis_cali_packet - 1) * cis_data_len
|
||||
hsrtia_a.append(struct.unpack('>i', cali_coeff[index+1:index+5])[0])
|
||||
hsrtia_b.append(struct.unpack('>q', cali_coeff[index+5:index+13])[0])
|
||||
rolloff.append(struct.unpack('>i', cali_coeff[index+13:index+17])[0])
|
||||
|
||||
cis_cali_packet = 8
|
||||
index = (cis_cali_packet - 1) * cis_data_len
|
||||
g = 2
|
||||
phase_coeff[0][g] = struct.unpack('>i', cali_coeff[index+1:index+5])[0]
|
||||
phase_offset[0][g] = struct.unpack('>i', cali_coeff[index+5:index+9])[0]
|
||||
phase_coeff[1][g] = struct.unpack('>i', cali_coeff[index+9:index+13])[0]
|
||||
phase_offset[1][g] = struct.unpack('>i', cali_coeff[index+13:index+17])[0]
|
||||
|
||||
cis_cali_packet = 9
|
||||
index = (cis_cali_packet - 1) * cis_data_len
|
||||
g = 2
|
||||
phase_coeff[2][g] = struct.unpack('>i', cali_coeff[index+1:index+5])[0]
|
||||
phase_offset[2][g] = struct.unpack('>i', cali_coeff[index+5:index+9])[0]
|
||||
phase_coeff[3][g] = struct.unpack('>i', cali_coeff[index+9:index+13])[0]
|
||||
phase_offset[3][g] = struct.unpack('>i', cali_coeff[index+13:index+17])[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])
|
||||
cis_cali_packet = 10
|
||||
index = (cis_cali_packet - 1) * cis_data_len
|
||||
hsrtia_a.append(struct.unpack('>i', cali_coeff[index+1:index+5])[0])
|
||||
hsrtia_b.append(struct.unpack('>q', cali_coeff[index+5:index+13])[0])
|
||||
rolloff.append(struct.unpack('>i', cali_coeff[index+13:index+17])[0])
|
||||
|
||||
index = 140
|
||||
g = 1
|
||||
phase_coeff[0][g] = struct.unpack('>i', cali_coeff[index+1:index+5])[0]
|
||||
phase_offset[0][g] = struct.unpack('>i', cali_coeff[index+5:index+9])[0]
|
||||
phase_coeff[1][g] = struct.unpack('>i', cali_coeff[index+9:index+13])[0]
|
||||
phase_offset[1][g] = struct.unpack('>i', cali_coeff[index+13:index+17])[0]
|
||||
|
||||
index = 160
|
||||
g = 1
|
||||
phase_coeff[2][g] = struct.unpack('>i', cali_coeff[index+1:index+5])[0]
|
||||
phase_offset[2][g] = struct.unpack('>i', cali_coeff[index+5:index+9])[0]
|
||||
phase_coeff[3][g] = struct.unpack('>i', cali_coeff[index+9:index+13])[0]
|
||||
phase_offset[3][g] = struct.unpack('>i', cali_coeff[index+13:index+17])[0]
|
||||
|
||||
index = 180
|
||||
g = 2
|
||||
phase_coeff[0][g] = struct.unpack('>i', cali_coeff[index+1:index+5])[0]
|
||||
phase_offset[0][g] = struct.unpack('>i', cali_coeff[index+5:index+9])[0]
|
||||
phase_coeff[1][g] = struct.unpack('>i', cali_coeff[index+9:index+13])[0]
|
||||
phase_offset[1][g] = struct.unpack('>i', cali_coeff[index+13:index+17])[0]
|
||||
|
||||
index = 200
|
||||
g = 2
|
||||
phase_coeff[2][g] = struct.unpack('>i', cali_coeff[index+1:index+5])[0]
|
||||
phase_offset[2][g] = struct.unpack('>i', cali_coeff[index+5:index+9])[0]
|
||||
phase_coeff[3][g] = struct.unpack('>i', cali_coeff[index+9:index+13])[0]
|
||||
phase_offset[3][g] = struct.unpack('>i', cali_coeff[index+13:index+17])[0]
|
||||
|
||||
index = 220
|
||||
cis_cali_packet = 11
|
||||
index = (cis_cali_packet - 1) * cis_data_len
|
||||
g = 3
|
||||
phase_coeff[0][g] = struct.unpack('>i', cali_coeff[index+1:index+5])[0]
|
||||
phase_offset[0][g] = struct.unpack('>i', cali_coeff[index+5:index+9])[0]
|
||||
phase_coeff[1][g] = struct.unpack('>i', cali_coeff[index+9:index+13])[0]
|
||||
phase_offset[1][g] = struct.unpack('>i', cali_coeff[index+13:index+17])[0]
|
||||
|
||||
index = 240
|
||||
cis_cali_packet = 12
|
||||
index = (cis_cali_packet - 1) * cis_data_len
|
||||
g = 3
|
||||
phase_coeff[2][g] = struct.unpack('>i', cali_coeff[index+1:index+5])[0]
|
||||
phase_offset[2][g] = struct.unpack('>i', cali_coeff[index+5:index+9])[0]
|
||||
phase_coeff[3][g] = struct.unpack('>i', cali_coeff[index+9:index+13])[0]
|
||||
phase_offset[3][g] = struct.unpack('>i', cali_coeff[index+13:index+17])[0]
|
||||
|
||||
# print('cutoff_freq', cutoff_freq)
|
||||
# print('hsrtia_a', hsrtia_a)
|
||||
# print('hsrtia_b', hsrtia_b)
|
||||
# print('hsrtia_c', hsrtia_c)
|
||||
# print('phase_coeff')
|
||||
# print(phase_coeff)
|
||||
# print('phase_offset')
|
||||
# print(phase_offset)
|
||||
print('hsrtia_a', hsrtia_a)
|
||||
print('hsrtia_b', hsrtia_b)
|
||||
print('rolloff', rolloff)
|
||||
print('phase_coeff')
|
||||
print(phase_coeff)
|
||||
print('phase_offset')
|
||||
print(phase_offset)
|
||||
|
||||
cali_table.append((cutoff_freq, phase_coeff, phase_offset, hsrtia_a, hsrtia_b, hsrtia_c, hsrtia_d))
|
||||
cali_table.append((phase_coeff, phase_offset, hsrtia_a, hsrtia_b, rolloff))
|
||||
|
||||
return cali_table
|
||||
else:
|
||||
@@ -1528,8 +1565,13 @@ class EISZeroOneDataDecoder(RecDataDecoder):
|
||||
cycle_number = struct.unpack('>H', data[17+3:19+3])[0]
|
||||
d19 = data[19+3]
|
||||
gain = data[20+3]
|
||||
finishMode = (d19 & 0x80) >> 7
|
||||
finishMode = (d19 & 0x80) >> 7
|
||||
ch4 = struct.unpack('<i', data[21+3:25+3])[0] # Amp[uV]
|
||||
|
||||
notify_one = struct.unpack('<i', data[25+3:29+3])[0]
|
||||
notify_two = struct.unpack('<i', data[29+3:33+3])[0]
|
||||
notify_three = struct.unpack('<i', data[33+3:37+3])[0]
|
||||
|
||||
if time_stamp == 0:
|
||||
self._start_return_data = True
|
||||
|
||||
@@ -1549,39 +1591,23 @@ class EISZeroOneDataDecoder(RecDataDecoder):
|
||||
if self.cali_coeff is not None and (self._mode == 0 or self._mode == 5):
|
||||
hsrtia_a = []
|
||||
hsrtia_b = []
|
||||
hsrtia_c = []
|
||||
hsrtia_d = []
|
||||
cutoff_freq, phase_coeff, phase_offset, hsrtia_a, hsrtia_b, hsrtia_c, hsrtia_d = self.cali_coeff[0]
|
||||
|
||||
voltage_amp = round(self._ac_amp * 800 / 2047) # use UI value
|
||||
rolloff = []
|
||||
phase_coeff, phase_offset, hsrtia_a, hsrtia_b, rolloff = self.cali_coeff[0]
|
||||
|
||||
if (self._mode == 0 or self._mode == 5):
|
||||
img = ch1
|
||||
real = ch2
|
||||
freq = ch3
|
||||
fre_idx = 0
|
||||
voltage_amp = round(ch4 / 1000) # Amp[mV]
|
||||
rolloff_cali = rolloff[gain]
|
||||
|
||||
# rolloff_cali = cutoff_freq/1e5
|
||||
rolloff_cali = hsrtia_c[gain]
|
||||
voltage_mag = math.sqrt(img ** 2 + real ** 2) * (1 + freq ** 2 / rolloff_cali ** 2 / 1e4)
|
||||
|
||||
# if (gain == 3):
|
||||
# current = hsrtia_a[gain] * math.exp(hsrtia_b[gain] * voltage_mag) + hsrtia_c[gain] * math.exp(hsrtia_d[gain] * voltage_mag)
|
||||
# else:
|
||||
current = (voltage_mag ** 2 * hsrtia_a[gain] + voltage_mag * hsrtia_b[gain]) / 1e8 #[nA]
|
||||
|
||||
current = voltage_mag ** 2 * hsrtia_a[gain] + voltage_mag * hsrtia_b[gain]
|
||||
# current = voltage_mag ** 2 * hsrtia_a[gain] + voltage_mag * hsrtia_b[gain] + hsrtia_c[gain]
|
||||
|
||||
|
||||
# print(current)
|
||||
# print(voltage_mag)
|
||||
# print(hsrtia_a[gain])
|
||||
# print(hsrtia_b[gain])
|
||||
# print(hsrtia_c[gain])
|
||||
|
||||
if (current != 0):
|
||||
# impedance = voltage_amp * 1000_000 / 1.414213 / current
|
||||
impedance = voltage_amp * 707106.78 / current
|
||||
# impedance[mOhm] = voltage_amp[mv] * 1000000 / 1.414213 / current[nA] #RMS=amp*SQRT(2), SQRT(2)=1.414213
|
||||
impedance = voltage_amp * 707106.78 / current
|
||||
else:
|
||||
impedance = 0
|
||||
|
||||
@@ -1600,37 +1626,33 @@ class EISZeroOneDataDecoder(RecDataDecoder):
|
||||
phase = raw_phase - ideal_raw_phase
|
||||
phase = phase % 180 if phase % 180<=90 else phase % 180-180
|
||||
|
||||
# last_phase_to90 = self._last_phase % 180 if self._last_phase % 180<=90 else self._last_phase % 180-180
|
||||
# diff = phase - last_phase_to90
|
||||
|
||||
# if (self._first_phase_flag):
|
||||
# # self._last_phase = phase
|
||||
# self._first_phase_flag = 0
|
||||
# elif (abs(diff) >= 90):
|
||||
# phase = self._last_phase + diff + (180 if diff<0 else-180)
|
||||
# else:
|
||||
# phase = self._last_phase + diff
|
||||
# self._last_phase = phase
|
||||
|
||||
imag_after_cal = impedance * math.sin(round(phase) * math.pi / 180)
|
||||
real_after_cal = impedance * math.cos(round(phase) * math.pi / 180)
|
||||
imag_after_cal = round(impedance * math.sin(phase * math.pi / 180))
|
||||
real_after_cal = round(impedance * math.cos(phase * math.pi / 180))
|
||||
|
||||
if self._show_data:
|
||||
if (self._mode == 0 or self._mode == 5):
|
||||
print('|', '{:10}'.format(time_stamp),
|
||||
'|', '{:5}'.format(delta),
|
||||
'|', '{:6}'.format(ch1),
|
||||
'|', '{:6}'.format(ch2),
|
||||
'|', '{:8}'.format(ch3 / 100),
|
||||
'|', '{:6}'.format(round(voltage_mag)),
|
||||
'|', '{:5}'.format(int(imag_after_cal)),
|
||||
'|', '{:5}'.format(int(real_after_cal)),
|
||||
'|', '{:5}'.format(round(impedance)),
|
||||
'|', '{:5}'.format(round(phase, 1)),
|
||||
'|', '{:5}'.format(round(current, 3)),
|
||||
'|', '{:1}'.format(gain),
|
||||
'|', '{:1}'.format(finishMode),
|
||||
'@', str(self.device), '|', flush = True)
|
||||
'|', '{:5}'.format(delta),
|
||||
'|', '{:5}'.format(ch1), #raw_img
|
||||
'|', '{:5}'.format(ch2), #raw_real
|
||||
'|', '{:8}'.format(ch3 * 10), '[mHz]', #Frequency [mHz]
|
||||
'|', '{:5}'.format(cycle_number), #cycle
|
||||
'|', '{:5}'.format(round(imag_after_cal)), '[Ohm]', #Z_imag [Ohm]
|
||||
'|', '{:5}'.format(round(real_after_cal)), '[Ohm]', #Z_real [Ohm]
|
||||
'|', '{:5}'.format(round(impedance)), '[Ohm]', #Impedance [Ohm]
|
||||
'|', '{:5}'.format(round(phase*1000)), '[mdegree]', #Phase [millidegree]
|
||||
'|', '{:5}'.format(round(current)), '[nA]', #Current [nA]
|
||||
'|', '{:1}'.format(gain), #gain
|
||||
'|', '{:1}'.format(finishMode), #finishMode
|
||||
'@', str(self.device), '|', flush = True)
|
||||
|
||||
print('|', '{:10}'.format(time_stamp),
|
||||
'|', '{:5}'.format(delta),
|
||||
'|', '{:5}'.format(notify_one),
|
||||
'|', '{:5}'.format(notify_two),
|
||||
'|', '{:5}'.format(notify_three),
|
||||
'|', '{:5}'.format(voltage_amp), #amp[mV]
|
||||
'|', flush = True)
|
||||
pass
|
||||
else:
|
||||
print('|', '{:10}'.format(time_stamp),
|
||||
@@ -1651,17 +1673,23 @@ class EISZeroOneDataDecoder(RecDataDecoder):
|
||||
self._mode_stop = 0
|
||||
|
||||
ret = RecordingData(self.device, int(time_stamp * 1000 / 2), 0)
|
||||
if self._mode == 0 or self._mode == 5: #EIS Mode
|
||||
ret.append_data(0, ch1) #Raw Imag
|
||||
ret.append_data(1, ch2) #Raw Real
|
||||
if self._mode == 0 or self._mode == 5:
|
||||
ret.append_data(0, ch1) #raw_img
|
||||
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(3, cycle_number) #cycle
|
||||
ret.append_data(4, imag_after_cal) #Z_imag [Ohm]
|
||||
ret.append_data(5, real_after_cal) #Z_real [Ohm]
|
||||
ret.append_data(6, round(impedance)) #Impedance [Ohm]
|
||||
ret.append_data(7, round(phase)) #Phase [degree]
|
||||
ret.append_data(7, round(phase*1000)) #Phase [millidegree]
|
||||
ret.append_data(8, round(current)) #Current [nA]
|
||||
ret.append_data(9, gain) #Gain Level
|
||||
ret.append_data(9, gain) #gain
|
||||
|
||||
#debug data
|
||||
ret.append_data(10, notify_one)
|
||||
ret.append_data(11, notify_two)
|
||||
ret.append_data(12, notify_three)
|
||||
ret.append_data(13, voltage_amp) #amp[mV]
|
||||
|
||||
else: #CV Mode
|
||||
ret.append_data(0, ch1) #Iin [nA]
|
||||
|
||||
@@ -15,6 +15,9 @@ from .instruction import Instruction
|
||||
from biopro.device.manager import DeviceManager
|
||||
from biopro.text import *
|
||||
|
||||
from biopro.db.base import Session
|
||||
from biopro.db.collection import Collection
|
||||
|
||||
key_list = {
|
||||
'deviceList': 'device',
|
||||
}
|
||||
@@ -57,9 +60,17 @@ class Project(threading.Thread):
|
||||
self.setup_device(self._device)
|
||||
|
||||
# create log file handler
|
||||
fh = logging.FileHandler(f'{self.uuid}.log', mode="w")
|
||||
fh = logging.FileHandler(f'/home/pi/logger/project/{self.uuid}.log', mode="w")
|
||||
fh.setFormatter(self._formatter)
|
||||
self._logger.addHandler(fh)
|
||||
|
||||
default_name = 'admin'
|
||||
default_parent = {"folder": [1]}
|
||||
collection = Collection.find_collection(default_name, default_parent)
|
||||
parent = {"folder": [collection.id]}
|
||||
# create project folder
|
||||
collection = Collection.create_collection(self.name, parent)
|
||||
self.setup_collection(collection)
|
||||
|
||||
def setup_project(self, project):
|
||||
for (key, value) in project.items():
|
||||
@@ -79,6 +90,9 @@ class Project(threading.Thread):
|
||||
complete_device = self._device_manager.get_device(mac_address)
|
||||
complete_device.occupied_by_project = self._uuid
|
||||
self._complete_device[device] = complete_device
|
||||
|
||||
def setup_collection(self, collection):
|
||||
self._task_manager.create_collection(collection)
|
||||
|
||||
@property
|
||||
def id(self) -> int:
|
||||
@@ -259,13 +273,13 @@ class Project(threading.Thread):
|
||||
self.log_verbose('file name ' + task_info['file_name'])
|
||||
|
||||
if instruction_set != None and self.get_device_parameter_set(action.target) != None:
|
||||
if action.type == 'start':
|
||||
self._count += 1
|
||||
for instruction in instruction_set:
|
||||
print('instruction 1', device, instruction, datetime.now())
|
||||
args = list(map(lambda arg: task_info[arg], instruction['arguments']))
|
||||
target=getattr(device, instruction['method'])(*args)
|
||||
print('instruction 2', device, instruction, datetime.now())
|
||||
if action.type == 'start':
|
||||
self._count += 1
|
||||
|
||||
delay_time += (time() - now)
|
||||
|
||||
|
||||
@@ -5,6 +5,7 @@ from xml.dom.expatbuilder import parseString
|
||||
import paho.mqtt.client as mqtt
|
||||
from biopro.text import *
|
||||
from .task import Task
|
||||
from biopro.db.collection import Collection
|
||||
|
||||
_RUNTIME_COMPILE = False
|
||||
|
||||
@@ -67,6 +68,13 @@ class TaskManager():
|
||||
if cycle['range'][1] == task.uuid:
|
||||
return index
|
||||
|
||||
def check_task_in_cycle(self, task_index):
|
||||
for index, cycle in enumerate(self._cycle_list):
|
||||
if self.get_index_by_uuid(cycle['range'][0]) <= task_index:
|
||||
if self.get_index_by_uuid(cycle['range'][1]) >= task_index:
|
||||
return True
|
||||
return False
|
||||
|
||||
@property
|
||||
def check_list(self):
|
||||
return [self._running_task, *self._next_task]
|
||||
@@ -162,4 +170,12 @@ class TaskManager():
|
||||
|
||||
def get_task(self, task_id):
|
||||
return self._task_list[task_id]
|
||||
|
||||
|
||||
def create_collection(self, parent):
|
||||
for index, task in enumerate(self._task_list):
|
||||
if self.check_task_in_cycle(index) == True:
|
||||
if task.type == '':
|
||||
collection = Collection.create_collection(task.name, {"folder": [parent.id]})
|
||||
task.parent = {"folder": [collection.id]}
|
||||
else:
|
||||
task.parent = {"folder": [parent.id]}
|
||||
@@ -362,14 +362,14 @@ class DataServer(SocketServer, DataAPI):
|
||||
self.log_verbose('device ID', device_id)
|
||||
|
||||
# project binding meta file
|
||||
project_id = None
|
||||
_project = None
|
||||
if project_info != None:
|
||||
_project = json.loads(project_info)
|
||||
self.database_process.put_queue(['project_insert', device_id, _project])
|
||||
result = self._queue_ds_dict[int(device_id)].get()
|
||||
if result[0] == 'project_id':
|
||||
project_id = result[1]
|
||||
# project_id = None
|
||||
# _project = None
|
||||
# if project_info != None:
|
||||
# _project = json.loads(project_info)
|
||||
# self.database_process.put_queue(['project_insert', device_id, _project])
|
||||
# result = self._queue_ds_dict[int(device_id)].get()
|
||||
# if result[0] == 'project_id':
|
||||
project_id = project_info
|
||||
|
||||
# while len(self._configurations) <= device_id:
|
||||
# self._configurationsappend(None)
|
||||
|
||||
@@ -222,7 +222,8 @@ class DataBaseProcess(Process):
|
||||
|
||||
try:
|
||||
sql_cursor.execute(sql_str, sql_set)
|
||||
except:
|
||||
except BaseException as e:
|
||||
print('meta create error', e)
|
||||
self._psql_conn.commit()
|
||||
sql_cursor.close()
|
||||
self._queue_error.put(device_id)
|
||||
@@ -249,7 +250,8 @@ class DataBaseProcess(Process):
|
||||
|
||||
try:
|
||||
sql_cursor.execute(sql_str, sql_set)
|
||||
except:
|
||||
except BaseException as e:
|
||||
print('meta update error', e)
|
||||
self._psql_conn.commit()
|
||||
sql_cursor.close()
|
||||
self._queue_error.put(device_id)
|
||||
@@ -553,7 +555,7 @@ class DataBaseProcess(Process):
|
||||
return True
|
||||
|
||||
def project_insert(self, device_id, _data):
|
||||
sql_str = 'INSERT INTO "public"."meta_project_info" ('
|
||||
sql_str = 'INSERT INTO "public"."project_metas" ('
|
||||
sql_set = []
|
||||
for item in _data.keys():
|
||||
sql_str = sql_str + str(item) + ', '
|
||||
|
||||
@@ -34,7 +34,7 @@ from biopro.api.device import DeviceAPI
|
||||
from biopro.project.project_manager import ProjectManager
|
||||
from biopro.db.base import Base, Session, engine
|
||||
from biopro.db.project_report import ProjectReport
|
||||
from biopro.db.meta_project_info import MetaProjectInfo
|
||||
from biopro.db.project_meta import MetaProjectInfo
|
||||
|
||||
|
||||
_RUNTIME_COMPILE = False
|
||||
@@ -1102,6 +1102,7 @@ class ControlServer(SocketServer, ControlServerAPI):
|
||||
|
||||
client = self.data_server.client()
|
||||
project = None
|
||||
project_meta_id = None
|
||||
if client is not None:
|
||||
info = self.file_manager.use(device)
|
||||
|
||||
@@ -1114,10 +1115,11 @@ class ControlServer(SocketServer, ControlServerAPI):
|
||||
info = self.file_manager.save(device, filename)
|
||||
|
||||
if device.occupied_by_project != None:
|
||||
project = json.dumps(self.project_manager.get(device.occupied_by_project).info_pass_data_server())
|
||||
|
||||
project = self.project_manager.get(device.occupied_by_project).info_pass_data_server()
|
||||
project_meta_id = MetaProjectInfo.create_project_meta(project)
|
||||
|
||||
with client:
|
||||
client.update_device_configuration(device, info.meta_file, value, project)
|
||||
client.update_device_configuration(device, info.meta_file, value, project_meta_id)
|
||||
|
||||
def _device_set_disable_cache(self, device: CompletedDevice, disable):
|
||||
if disable:
|
||||
|
||||
@@ -158,7 +158,6 @@ class RecordingProcess(Process):
|
||||
elif isinstance(decoder, EISZeroOneDataDecoder):
|
||||
# get amp_gain from meta file
|
||||
decoder._mode = self._meta_file.configuration.get_parameter('MODE')
|
||||
decoder._ac_amp = self._meta_file.configuration.get_parameter('EIS_AC_AMP')
|
||||
|
||||
return decoder
|
||||
|
||||
|
||||
File diff suppressed because it is too large
Load Diff
@@ -6,7 +6,7 @@
|
||||
"major_product_number": 0,
|
||||
"minor_product_number": 3,
|
||||
"major_version_number": 1,
|
||||
"minor_version_number": 0
|
||||
"minor_version_number": 1
|
||||
},
|
||||
"constant": {
|
||||
"TIME_MAX": 100000,
|
||||
@@ -780,7 +780,7 @@
|
||||
"expression": "VALUE"
|
||||
}
|
||||
},
|
||||
"VOLT_VSCAN": {
|
||||
"CA_VOLT": {
|
||||
"description": "Voltage of VScan",
|
||||
"record_meta": true,
|
||||
"initial": 25000,
|
||||
@@ -1301,7 +1301,7 @@
|
||||
"curve_const_vscan": {
|
||||
"type": "RIS",
|
||||
"parameter": {
|
||||
"va": "VOLT_VSCAN",
|
||||
"va": "CA_VOLT",
|
||||
"pa": "ADC_LEVEL_I_15",
|
||||
"pb": "ADC_LEVEL_V_IN_15",
|
||||
"pc": "DAC_LEVEL_V_OUT_15",
|
||||
|
||||
@@ -33,6 +33,7 @@
|
||||
0,
|
||||
1,
|
||||
1,
|
||||
1,
|
||||
1
|
||||
],
|
||||
"domain": {
|
||||
@@ -617,7 +618,8 @@
|
||||
"Open Circuit Potential",
|
||||
"Pulse Sensing",
|
||||
"Differential Pulse Voltammetry (DPV)",
|
||||
"Chronopotentiometry"
|
||||
"Chronopotentiometry",
|
||||
"Idle"
|
||||
]
|
||||
},
|
||||
"VOLT_ORIGIN": {
|
||||
@@ -818,7 +820,7 @@
|
||||
"expression": "VALUE"
|
||||
}
|
||||
},
|
||||
"VOLT_VSCAN": {
|
||||
"CA_VOLT": {
|
||||
"description": "Voltage of VScan",
|
||||
"record_meta": true,
|
||||
"initial": 25000,
|
||||
@@ -949,6 +951,7 @@
|
||||
"10": "cali_dac_test",
|
||||
"11": "cali_adc_test",
|
||||
"12": "",
|
||||
"17": "idle",
|
||||
"*": "start_data"
|
||||
}
|
||||
}
|
||||
@@ -976,6 +979,9 @@
|
||||
"VIS_STI",
|
||||
"_cdr('1X;4X>ADC_VALUE_I')"
|
||||
],
|
||||
"idle": [
|
||||
"_idle()"
|
||||
],
|
||||
"start_data": [
|
||||
"data_format",
|
||||
"_notify(True)",
|
||||
@@ -1023,7 +1029,7 @@
|
||||
"6": "const_current",
|
||||
"7": "curve_cv3",
|
||||
"8": "curve_lsv",
|
||||
"9": "curve_const_vscan",
|
||||
"9": "curve_ca",
|
||||
"13": "curve_ocp",
|
||||
"14": "curve_pulse_sensing",
|
||||
"15": "curve_dpv",
|
||||
@@ -1360,10 +1366,10 @@
|
||||
"2B>pe"
|
||||
]
|
||||
},
|
||||
"curve_const_vscan": {
|
||||
"curve_ca": {
|
||||
"type": "RIS",
|
||||
"parameter": {
|
||||
"va": "VOLT_VSCAN",
|
||||
"va": "CA_VOLT",
|
||||
"pa": "ADC_LEVEL_I_15",
|
||||
"pb": "ADC_LEVEL_V_IN_15",
|
||||
"pc": "DAC_LEVEL_V_OUT_15",
|
||||
|
||||
@@ -1,12 +1,12 @@
|
||||
{
|
||||
"name": "Elite_EDC_1.5r2",
|
||||
"name": "Elite_EDC_1.5re",
|
||||
"version": "1.2.30",
|
||||
"match_rule": {
|
||||
"local_name_pattern": "Elite.*",
|
||||
"major_product_number": 0,
|
||||
"minor_product_number": 2,
|
||||
"major_version_number": 1,
|
||||
"minor_version_number": 8
|
||||
"minor_version_number": 7
|
||||
},
|
||||
"constant": {
|
||||
"TIME_MAX": 100000,
|
||||
@@ -33,6 +33,7 @@
|
||||
0,
|
||||
1,
|
||||
1,
|
||||
1,
|
||||
1
|
||||
],
|
||||
"domain": {
|
||||
@@ -617,7 +618,8 @@
|
||||
"Open Circuit Potential",
|
||||
"Pulse Sensing",
|
||||
"Differential Pulse Voltammetry (DPV)",
|
||||
"Chronopotentiometry"
|
||||
"Chronopotentiometry",
|
||||
"Idle"
|
||||
]
|
||||
},
|
||||
"VOLT_ORIGIN": {
|
||||
@@ -818,7 +820,7 @@
|
||||
"expression": "VALUE"
|
||||
}
|
||||
},
|
||||
"VOLT_VSCAN": {
|
||||
"CA_VOLT": {
|
||||
"description": "Voltage of VScan",
|
||||
"record_meta": true,
|
||||
"initial": 25000,
|
||||
@@ -949,6 +951,7 @@
|
||||
"10": "cali_dac_test",
|
||||
"11": "cali_adc_test",
|
||||
"12": "",
|
||||
"17": "idle",
|
||||
"*": "start_data"
|
||||
}
|
||||
}
|
||||
@@ -976,6 +979,9 @@
|
||||
"VIS_STI",
|
||||
"_cdr('1X;4X>ADC_VALUE_I')"
|
||||
],
|
||||
"idle": [
|
||||
"_idle()"
|
||||
],
|
||||
"start_data": [
|
||||
"data_format",
|
||||
"_notify(True)",
|
||||
@@ -1023,7 +1029,7 @@
|
||||
"6": "const_current",
|
||||
"7": "curve_cv3",
|
||||
"8": "curve_lsv",
|
||||
"9": "curve_const_vscan",
|
||||
"9": "curve_ca",
|
||||
"13": "curve_ocp",
|
||||
"14": "curve_pulse_sensing",
|
||||
"15": "curve_dpv",
|
||||
@@ -1360,10 +1366,10 @@
|
||||
"2B>pe"
|
||||
]
|
||||
},
|
||||
"curve_const_vscan": {
|
||||
"curve_ca": {
|
||||
"type": "RIS",
|
||||
"parameter": {
|
||||
"va": "VOLT_VSCAN",
|
||||
"va": "CA_VOLT",
|
||||
"pa": "ADC_LEVEL_I_15",
|
||||
"pb": "ADC_LEVEL_V_IN_15",
|
||||
"pc": "DAC_LEVEL_V_OUT_15",
|
||||
|
||||
@@ -820,7 +820,7 @@
|
||||
"expression": "VALUE"
|
||||
}
|
||||
},
|
||||
"VOLT_VSCAN": {
|
||||
"CA_VOLT": {
|
||||
"description": "Voltage of VScan",
|
||||
"record_meta": true,
|
||||
"initial": 25000,
|
||||
@@ -1029,7 +1029,7 @@
|
||||
"6": "const_current",
|
||||
"7": "curve_cv3",
|
||||
"8": "curve_lsv",
|
||||
"9": "curve_const_vscan",
|
||||
"9": "curve_ca",
|
||||
"13": "curve_ocp",
|
||||
"14": "curve_pulse_sensing",
|
||||
"15": "curve_dpv",
|
||||
@@ -1366,10 +1366,10 @@
|
||||
"2B>pe"
|
||||
]
|
||||
},
|
||||
"curve_const_vscan": {
|
||||
"curve_ca": {
|
||||
"type": "RIS",
|
||||
"parameter": {
|
||||
"va": "VOLT_VSCAN",
|
||||
"va": "CA_VOLT",
|
||||
"pa": "ADC_LEVEL_I_15",
|
||||
"pb": "ADC_LEVEL_V_IN_15",
|
||||
"pc": "DAC_LEVEL_V_OUT_15",
|
||||
|
||||
@@ -34,6 +34,7 @@
|
||||
0,
|
||||
1,
|
||||
1,
|
||||
1,
|
||||
1
|
||||
],
|
||||
"domain": {
|
||||
@@ -98,7 +99,8 @@
|
||||
"V-T Graph",
|
||||
"R-T Graph",
|
||||
"EIS constant frequency",
|
||||
"Dev Mode"
|
||||
"Dev Mode",
|
||||
"Idle"
|
||||
]
|
||||
},
|
||||
"GENERAL_HS_RTIA": {
|
||||
@@ -141,7 +143,7 @@
|
||||
"EIS_AC_AMP": {
|
||||
"description": "AC Amplitude",
|
||||
"record_meta": true,
|
||||
"initial": 25,
|
||||
"initial": 26,
|
||||
"domain": [
|
||||
2048
|
||||
]
|
||||
@@ -213,7 +215,7 @@
|
||||
"CF_AC_AMP": {
|
||||
"description": "AC Amplitude",
|
||||
"record_meta": true,
|
||||
"initial": 25,
|
||||
"initial": 26,
|
||||
"domain": [
|
||||
2048
|
||||
]
|
||||
@@ -370,10 +372,14 @@
|
||||
{
|
||||
"expression": "MODE",
|
||||
"when": {
|
||||
"7": "idle",
|
||||
"*": "start_data"
|
||||
}
|
||||
}
|
||||
],
|
||||
"idle": [
|
||||
"_idle()"
|
||||
],
|
||||
"start_data": [
|
||||
"data_format_cali",
|
||||
"_notify(True)",
|
||||
|
||||
@@ -143,7 +143,7 @@
|
||||
"EIS_AC_AMP": {
|
||||
"description": "AC Amplitude",
|
||||
"record_meta": true,
|
||||
"initial": 25,
|
||||
"initial": 26,
|
||||
"domain": [
|
||||
2048
|
||||
]
|
||||
@@ -215,7 +215,7 @@
|
||||
"CF_AC_AMP": {
|
||||
"description": "AC Amplitude",
|
||||
"record_meta": true,
|
||||
"initial": 25,
|
||||
"initial": 26,
|
||||
"domain": [
|
||||
2048
|
||||
]
|
||||
|
||||
@@ -143,7 +143,7 @@
|
||||
"EIS_AC_AMP": {
|
||||
"description": "AC Amplitude",
|
||||
"record_meta": true,
|
||||
"initial": 25,
|
||||
"initial": 26,
|
||||
"domain": [
|
||||
2048
|
||||
]
|
||||
@@ -215,7 +215,7 @@
|
||||
"CF_AC_AMP": {
|
||||
"description": "AC Amplitude",
|
||||
"record_meta": true,
|
||||
"initial": 25,
|
||||
"initial": 26,
|
||||
"domain": [
|
||||
2048
|
||||
]
|
||||
|
||||
@@ -2,16 +2,27 @@
|
||||
"name": "Elite_TRIG_0.1",
|
||||
"version": "1.2.30",
|
||||
"match_rule": {
|
||||
"local_name_pattern": "Trigger.*",
|
||||
"local_name_pattern": "Elite.*",
|
||||
"major_product_number": 0,
|
||||
"minor_product_number": 5,
|
||||
"major_version_number": 1,
|
||||
"minor_version_number": 0
|
||||
},
|
||||
"constant": {
|
||||
|
||||
"TIME_MAX": 100000
|
||||
},
|
||||
"parameters": {
|
||||
"TIME_DURATION": {
|
||||
"description": "timer",
|
||||
"record_meta": true,
|
||||
"initial": 0,
|
||||
"domain": [
|
||||
"TIME_MAX"
|
||||
],
|
||||
"value": {
|
||||
"expression": "VALUE"
|
||||
}
|
||||
},
|
||||
"ACC_a_out0": {
|
||||
"description": "Switch of analog current channel 1",
|
||||
"record_meta": true,
|
||||
@@ -142,7 +153,8 @@
|
||||
"description": "working mode",
|
||||
"record_meta": true,
|
||||
"value": [
|
||||
"Analog Current Control (ACC)"
|
||||
"Analog Current Control (ACC)",
|
||||
"Idle"
|
||||
]
|
||||
},
|
||||
|
||||
|
||||
@@ -7,8 +7,23 @@ sudo apt-get install python3-numpy
|
||||
# install python module SQLAlchemy
|
||||
pip3 install SQLAlchemy
|
||||
|
||||
# create folder to save project logger
|
||||
mkdir -p /home/pi/logger/project
|
||||
|
||||
# add column cycle in projects
|
||||
sudo su -c "psql -d postgres -c \"ALTER TABLE projects ADD COLUMN IF NOT EXISTS cycle JSONB;\"" postgres
|
||||
|
||||
# add column project in recording_data_metas
|
||||
sudo su -c "psql -d postgres -c \"ALTER TABLE recording_data_metas ADD COLUMN IF NOT EXISTS project Int4;\"" postgres
|
||||
|
||||
# remove default controller info
|
||||
sudo su -c "psql -d postgres -c \"DELETE FROM controllers WHERE name='WTP_NONE';\"" postgres
|
||||
|
||||
# change table name from meta_project_info to project_metas
|
||||
sudo su -c "psql -d postgres -c \"ALTER TABLE IF EXISTS meta_project_info RENAME TO project_metas;\"" postgres
|
||||
|
||||
# change table name from project_report to project_reports
|
||||
sudo su -c "psql -d postgres -c \"ALTER TABLE IF EXISTS project_report RENAME TO project_reports;\"" postgres
|
||||
|
||||
# change table project_meta column cycle to type jsonb
|
||||
sudo su -c "psql -d postgres -c \"ALTER TABLE project_metas ALTER COLUMN cycle type jsonb USING (cycle::jsonb);\"" postgres
|
||||
|
||||
Reference in New Issue
Block a user