import ast import json import requests import numpy as np import base64 import struct from struct import pack import time from django.contrib import messages from django.db import models from django.urls import reverse from django.core.validators import MinValueValidator, MaxValueValidator from apps.main.models import Configuration class GeneratorConfiguration(Configuration): periode = models.FloatField( verbose_name='Periode', blank=False, null=False ) delay = models.FloatField( verbose_name='Delay', blank=False, null=False ) width = models.FloatField( verbose_name='Width', blank=False, null=False ) enable = models.BooleanField( verbose_name='Enable', blank=False, null=False ) class Meta: db_table = 'generator_configurations' def __str__(self): return self.label def get_absolute_url_plot(self): return reverse('url_plot_generator_pulses', args=[str(self.id)]) def request(self, cmd, method='get', **kwargs): req = getattr(requests, method)(self.device.url(cmd), **kwargs) payload = req.json() return payload def status_device(self): try: self.device.status = 0 payload = self.request('status') if payload['status']=='enable': self.device.status = 3 elif payload['status']=='disable': self.device.status = 2 else: self.device.status = 1 self.device.save() self.message = 'Generator status: {}'.format(payload['status']) return False except Exception as e: if 'No route to host' not in str(e): self.device.status = 4 self.device.save() self.message = 'Generator status: {}'.format(str(e)) return False self.device.save() return True def reset_device(self): try: payload = self.request('reset', 'post') if payload['reset']=='ok': self.message = 'Generator restarted OK' self.device.status = 2 self.device.save() else: self.message = 'Generator restart fail' self.device.status = 4 self.device.save() except Exception as e: self.message = 'Generator reset: {}'.format(str(e)) return False return True def stop_device(self): try: command = self.device.url() + "stop" r = requests.get(command) if r: self.device.status = 4 self.device.save() self.message = 'Generator stopped' else: self.device.status = 4 self.device.save() return False except Exception as e: if 'No route to host' not in str(e): self.device.status = 4 else: self.device.status = 0 self.message = 'Generator stop: {}'.format(str(e)) self.device.save() return False return True def start_device(self): print("EntrĂ³ al start") try: generator = GeneratorConfiguration.objects.get(pk=self) print(generator) json_trmode = json.dumps({"periode": generator.periode, "delay": generator.delay, "width": generator.width, "enable": generator.enable}) base64_trmode = base64.urlsafe_b64encode(json_trmode.encode('ascii')) print(base64_trmode) trmode_url = self.device.url() + "trmode?params=" complete_url_trmode = trmode_url + base64_trmode.decode('ascii') print(complete_url_trmode) r = requests.get(complete_url_trmode) if r: self.device.status = 3 self.device.save() self.message = 'Generator configured and started' else: return False except Exception as e: if 'No route to host' not in str(e): self.device.status = 4 else: self.device.status = 0 self.message = 'Generator start: {}'.format(str(e)) self.device.save() return False return True #def write_device(self, raw=False): if not raw: clock = RCClock.objects.get(rc_configuration=self) print(clock) if clock.mode: data = {'default': clock.frequency} else: data = {'manual': [clock.multiplier, clock.divisor, clock.reference]} payload = self.request('setfreq', 'post', data=json.dumps(data)) print(payload) if payload['command'] != 'ok': self.message = 'Generator write: {}'.format(payload['command']) else: self.message = payload['programming'] if payload['programming'] == 'fail': self.message = 'Generator write: error programming CGS chip' values = [] for pulse, delay in zip(self.get_pulses(), self.get_delays()): while delay>65536: values.append((pulse, 65535)) delay -= 65536 values.append((pulse, delay-1)) data = bytearray() #reset data.extend((128, 0)) #disable data.extend((129, 0)) #SW switch if self.control_sw: data.extend((130, 2)) else: data.extend((130, 0)) #divider data.extend((131, self.clock_divider-1)) #enable writing data.extend((139, 62)) last = 0 for tup in values: vals = pack('