##from __future__ import unicode_literals # (EP 21/9/22) To allow autoreferencing (ex: AgentCmd.create() returns a AgentCmd) from __future__ import annotations # Stdlib imports from numpy import False_ from src.device_controller.abstract_component.device_controller import DeviceCmd from enum import Enum from datetime import datetime, timedelta, date from dateutil.relativedelta import relativedelta import os import sys from typing import Any, List, Tuple, Optional import re # Django imports from django.core.validators import MaxValueValidator, MinValueValidator # DJANGO imports from django.contrib.auth.models import AbstractUser, UserManager from django.db import models from django.db.models import Q, Max from django.core.validators import MaxValueValidator, MinValueValidator from django.db.models.deletion import DO_NOTHING from django.db.models.expressions import F from django.db.models.query import QuerySet from model_utils import Choices from django.utils import timezone # Project imports # DeviceCommand is used by class Command sys.path.append("../../..") ''' NOT USED - to be removed class PyrosState(Enum): START = 'Starting' PA = 'Passive' INI = "INIT" STAND = "Standby" SCHED_START = 'Scheduler startup' SCHED = 'Scheduler' SCHED_CLOSE = 'Scheduler closing' ''' """ STYLE RULES =========== https://simpleisbetterthancomplex.com/tips/2018/02/10/django-tip-22-designing-better-models.html https://steelkiwi.com/blog/best-practices-working-django-models-python/ - Model name => singular Call it Company instead of Companies. A model definition is the representation of a single object (the object in this example is a company), and not a collection of companies The model definition is a class, so always use CapWords convention (no underscores) E.g. User, Permission, ContentType, etc. - For the model’s attributes use snake_case. E.g. first_name, last_name, etc - Blank and Null Fields (https://simpleisbetterthancomplex.com/tips/2016/07/25/django-tip-8-blank-or-null.html) - Null: It is database-related. Defines if a given database column will accept null values or not. - Blank: It is validation-related. It will be used during forms validation, when calling form.is_valid(). Do not use null=True for text-based fields that are optional. Otherwise, you will end up having two possible values for “no data”, that is: None and an empty string. Having two possible values for “no data” is redundant. The Django convention is to use the empty string, not NULL. Example: # The default values of `null` and `blank` are `False`. class Person(models.Model): name = models.CharField(max_length=255) # Mandatory bio = models.TextField(max_length=500, blank=True) # Optional (don't put null=True) birth_date = models.DateField(null=True, blank=True) # Optional (here you may add null=True) The default values of null and blank are False. Special case, when you need to accept NULL values for a BooleanField, use NullBooleanField instead. - Choices : you can use Choices from the model_utils library. Take model Article, for instance: from model_utils import Choices class Article(models.Model): STATUSES = Choices( (0, 'draft', _('draft')), (1, 'published', _('published')) ) status = models.IntegerField(choices=STATUSES, default=STATUSES.draft) - Reverse Relationships - related_name : Rule of thumb: if you are not sure what would be the related_name, use the plural of the model holding the ForeignKey. ex: class Company: name = models.CharField(max_length=30) class Employee: first_name = models.CharField(max_length=30) last_name = models.CharField(max_length=30) company = models.ForeignKey(Company, on_delete=models.CASCADE, related_name='employees') usage: google = Company.objects.get(name='Google') google.employees.all() You can also use the reverse relationship to modify the company field on the Employee instances: vitor = Employee.objects.get(first_name='Vitor') google = Company.objects.get(name='Google') google.employees.add(vitor) - related_query_name : This kind of relationship also applies to query filters. For example, if I wanted to list all companies that employs people named ‘Vitor’, I could do the following: companies = Company.objects.filter(employee__first_name='Vitor') If you want to customize the name of this relationship, here is how we do it: class Employee: first_name = models.CharField(max_length=30) last_name = models.CharField(max_length=30) company = models.ForeignKey( Company, on_delete=models.CASCADE, related_name='employees', related_query_name='person' ) Then the usage would be: companies = Company.objects.filter(person__first_name='Vitor') To use it consistently, related_name goes as plural and related_query_name goes as singular. GENERAL EXAMPLE ======= from django.db import models from django.urls import reverse class Company(models.Model): # CHOICES PUBLIC_LIMITED_COMPANY = 'PLC' PRIVATE_COMPANY_LIMITED = 'LTD' LIMITED_LIABILITY_PARTNERSHIP = 'LLP' COMPANY_TYPE_CHOICES = ( (PUBLIC_LIMITED_COMPANY, 'Public limited company'), (PRIVATE_COMPANY_LIMITED, 'Private company limited by shares'), (LIMITED_LIABILITY_PARTNERSHIP, 'Limited liability partnership'), ) # DATABASE FIELDS name = models.CharField('name', max_length=30) vat_identification_number = models.CharField('VAT', max_length=20) company_type = models.CharField('type', max_length=3, choices=COMPANY_TYPE_CHOICES) # MANAGERS objects = models.Manager() limited_companies = LimitedCompanyManager() # META CLASS class Meta: verbose_name = 'company' verbose_name_plural = 'companies' # TO STRING METHOD def __str__(self): return self.name # SAVE METHOD def save(self, *args, **kwargs): do_something() super().save(*args, **kwargs) # Call the "real" save() method. do_something_else() # ABSOLUTE URL METHOD def get_absolute_url(self): return reverse('company_details', kwargs={'pk': self.id}) # OTHER METHODS def process_invoices(self): do_something() """ def printd(*args, **kwargs): if os.environ.get('PYROS_DEBUG', '0') == '1': print('(MODEL)', *args, **kwargs) # --- # --- Utility functions # --- def get_or_create_unique_row_from_model(model: models.Model): # return model.objects.get(id=1) if model.objects.exists() else model.objects.create(id=1) return model.objects.first() if model.objects.exists() else model.objects.create(id=1) """ ------------------------ BASE MODEL CLASSES ------------------------ """ class Device(models.Model): name = models.CharField(max_length=45, blank=True, null=True) desc = models.TextField(blank=True, null=True) created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) is_online = models.BooleanField(default=False) status = models.CharField(max_length=11, blank=True, null=True) maintenance_date = models.DateTimeField(blank=True, null=True) class Meta: abstract = True def __str__(self): return (str(self.name)) class Request(models.Model): pyros_user = models.ForeignKey( 'PyrosUser', on_delete=models.DO_NOTHING, related_name="requests") scientific_program = models.ForeignKey( 'ScientificProgram', on_delete=models.DO_NOTHING, related_name="requests", blank=True, null=True) name = models.CharField(max_length=45, blank=True, null=True) desc = models.TextField(blank=True, null=True) created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) is_alert = models.BooleanField(default=False) target_type = models.CharField(max_length=8, blank=True, null=True) status = models.CharField(max_length=10, blank=True, null=True) autodeposit = models.BooleanField(default=False) checkpoint = models.CharField(max_length=45, blank=True, null=True) flag = models.CharField(max_length=45, blank=True, null=True) complete = models.BooleanField(default=False) submitted = models.BooleanField(default=False) class Meta: managed = True db_table = 'request' def __str__(self): return (str(self.name)) """ ------------------------ OTHER MODEL CLASSES ------------------------ """ # TODO: A VIRER car remplacé par AgentDeviceStatus class AgentDeviceTelescopeStatus(models.Model): #created = models.DateTimeField('status date', blank=True, null=True, auto_now_add=True) updated = models.DateTimeField( 'status date', blank=True, null=True, auto_now=True) radec = models.CharField('agent mode', max_length=30, blank=True) class Meta: managed = True db_table = 'agent_device_telescope_status' #verbose_name = "agent survey" #verbose_name_plural = "agents survey" """ def __str__(self): return (f"Agent {self.name} at {self.updated} in mode {self.mode} and status {self.status}") """ class AgentDeviceStatus(models.Model): """Table storing various status parameters for EACH Device. Attributes: attr1 (str): Description of `attr1`. attr2 (:obj:`int`, optional): Description of `attr2`. """ #created = models.DateTimeField('status date', blank=True, null=True, auto_now_add=True) agent = models.CharField( 'Name of the agent that saved this parameter', max_length=45, blank=True, null=True) #radec = models.CharField('agent mode', max_length=30, blank=True) status = models.CharField( 'status parameters json dictionnary (ex: {radec:..., speed:...})', max_length=300, blank=True, null=True) date_updated = models.DateTimeField( 'status parameter date', blank=True, null=True, auto_now=True) class Meta: managed = True db_table = 'agent_device_status' verbose_name = "agent device status" verbose_name_plural = "agent devices status" def __str__(self): return (f"Agent {self.agent} last status is ({self.status}) (saved at {self.date_updated})") @classmethod def getStatusForAgent(cls, agent: str) -> str: return cls.objects.filter(agent=agent)[0] if cls.objects.filter(agent=agent).exists() else cls.objects.create(agent=agent) ''' return cls.objects.filter(agent=agent)[0].status if cls.objects.filter(agent=agent).exists() else cls.objects.create(agent=agent).status agent_status = cls.objects.filter(agent=agent) if agent_status.exists(): return agent_status[0].status else: return cls.objects.create(agent=agent) ''' class AgentLogs(models.Model): created = models.DateTimeField(blank=True, null=True, auto_now_add=True) name = models.CharField(max_length=50) message = models.TextField(blank=True, null=True) class Meta: managed = True db_table = 'agent_logs' def __str__(self): return (f"{self.created} {self.name} {self.message}") class AgentSurvey(models.Model): """ | id | name | created | updated | validity_duration (default=1mn) | mode (active/idle) | status (launch/init/loop/exit/...) | """ # --- MODES --- ''' In all modes, the Agent listens to commands sent to him and executes Agent level GENERAL ones. - MODE_IDLE : "idle" mode, does nothing, only executes Agent level GENERAL commands (DO_RESTART, DO_EXIT, DO_ABORT, DO_FLUSH, SET_ACTIVE, ...) - MODE_ROUTINE : idem IDLE + executes routine process (before & after) - MODE_ATTENTIVE : idem ROUTINE + executes Agent level SPECIFIC commands (commands specific to this agent, that only this agent understands and can execute) Default mode is MODE_ATTENTIVE (most active mode) ''' MODE_CHOICES = Choices( "IDLE", "ROUTINE", "ATTENTIVE", ) # --- STATUSES --- ''' Agent steps ''' STATUS_CHOICES = Choices( 'LAUNCHED', 'INITIALIZING', 'IN_MAIN_LOOP_START', 'IN_MAIN_LOOP_ROUTINE_ITER_START', 'IN_MAIN_LOOP_GET_NEXT_CMD', 'IN_MAIN_LOOP_ROUTINE_ITER_END', 'EXITING', # STOP or HARD restart 'RESTARTING', # SOFT restart ) name = models.CharField(max_length=50, unique=True) #name = models.CharField(max_length=50, blank=True, null=True, unique=True) #created = models.DateTimeField(blank=True, null=True, auto_now_add=True) created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) validity_duration = models.PositiveIntegerField(default=90) #validity_duration = models.DurationField(default=90) mode = models.CharField('agent mode', max_length=15, blank=True, choices=MODE_CHOICES, #default = MODE_CHOICES.ATTENTIVE ) status = models.CharField( max_length=40, blank=True, choices=STATUS_CHOICES) iteration = models.IntegerField(blank=True, null=True) nb_restart_max = models.IntegerField(blank=True,null=True,default=3) current_nb_restart = models.IntegerField(blank=True,null=True,default=0) class Meta: managed = True db_table = 'agent_survey' #verbose_name = "agent survey" #verbose_name_plural = "agents survey" def __str__(self): return (f"Agent {self.name} at {self.updated} in mode {self.mode} and status {self.status}") # Testing agent status def is_launched(self): return self.status == self.STATUS_CHOICES.LAUNCHED def is_initializing(self): return self.status == self.STATUS_CHOICES.INITIALIZING def is_in_main_loop_start(self): return self.status == self.STATUS_CHOICES.IN_MAIN_LOOP def is_in_routine_bef(self): return self.status == self.STATUS_CHOICES.IN_ROUTINE_BEF def is_in_get_next_cmd(self): return self.status == self.STATUS_CHOICES.IN_GET_NEXT_CMD def is_in_routine_aft(self): return self.status == self.STATUS_CHOICES.IN_ROUTINE_AFT def is_in_main_loop(self): return self.is_in_main_loop_start() or self.is_in_routine_bef() or self.is_in_get_next_cmd() or self.is_in_routine_aft() def is_stopping(self): return self.status == self.STATUS_CHOICES.EXITING def is_restarting(self): return self.status == self.STATUS_CHOICES.RESTARTING def is_stopping_or_restarting(self): return self.is_stopping() or self.is_restarting() class Album(models.Model): sequence = models.ForeignKey( 'Sequence', on_delete=models.CASCADE, related_name="albums") # detector = models.ForeignKey( # 'Detector', models.DO_NOTHING, related_name="albums", blank=True, null=True) #name_of_channel = models.CharField(blank=True,null=True,max_length=150) name = models.CharField(max_length=45, blank=True, null=True) desc = models.TextField(blank=True, null=True) created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) complete = models.BooleanField(default=False) class Meta: managed = True db_table = 'album' #verbose_name_plural = "Albums" def __str__(self): return (str(self.name)) class Alert(Request): request = models.OneToOneField( 'Request', on_delete=models.CASCADE, default='', parent_link=True) strategyobs = models.ForeignKey( 'StrategyObs', models.DO_NOTHING, related_name="alerts", blank=True, null=True) voevent_file = models.CharField(max_length=45, blank=True, null=True) author = models.CharField(max_length=45, blank=True, null=True) burst_jd = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) burst_ra = models.FloatField(max_length=45, blank=True, null=True) burst_dec = models.FloatField(max_length=45, blank=True, null=True) astro_coord_system = models.CharField(max_length=45, blank=True, null=True) jd_send = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) jd_received = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) trig_id = models.IntegerField(blank=True, null=True) error_radius = models.FloatField(max_length=45, blank=True, null=True) defly_not_grb = models.BooleanField(default=False) editor = models.CharField(max_length=45, blank=True, null=True) soln_status = models.CharField(max_length=45, blank=True, null=True) pkt_ser_num = models.IntegerField(blank=True, null=True) class Meta: managed = True db_table = 'alert' def __str__(self): return str(self.trig_id) def request_name(self): return self.__str__() request_name.short_description = "Name" class AgentCmd(models.Model): """ Command sent to an Agent Can be either : - an "agent level" (general or specific) command OR - a "device level" command | id | sender | recipient | name | validity_duration (default=60) | s_deposit_time | r_read_time See doc/models_Command_state_diag.pu for PlantUML state diagram """ ### # ================================================================= # EXCEPTIONS classes # ================================================================= ### class CmdException(Exception): ''' Base class for all Agent command exceptions ''' # pass def __init__( self, cmd:Union[AgentCmd,str], msg:str=None): self.cmd = cmd self._msg = msg self.cmd_name = cmd if isinstance(cmd,str) else cmd.name @property def msg(self): msg = "EXCEPTION on command "+self.cmd_name return msg if not self._msg else msg+': '+self._msg # Default message if print exception def __str__(self): return self.msg ''' msg = "EXCEPTION on command "+self.cmd_name return msg if not self.msg else msg+': '+self.msg ''' ''' def __str__(self): return f"The Agent command '{self.cmd.name}' is unknown to the agent" #return f"({type(self).__name__}): Device Generic command has no implementation in the controller" ''' # --- CMD PENDING (non running) EXCEPTIONS --- # @Override class CmdExceptionUnknown(CmdException): ''' Raised when a PENDING (non running) Agent (specific) cmd is NOT known by the agent ''' # @Override def __init__( self, cmd, msg:str=None): super().__init__(cmd, msg if msg else "Unknown command") #def __str__(self): return self.msg if self.msg else f"The Agent command '{self.cmd_name}' is unknown to the agent" # @Override class CmdExceptionUnimplemented(CmdException): ''' Raised when a PENDING (non running) Agent Specific cmd is known by the agent but not implemented ''' # @Override def __init__( self, cmd, msg:str=None): super().__init__(cmd, msg if msg else "Command is known by the agent but not implemented") #def __str__(self): return f"The Agent command '{self.cmd_name}' is known by the agent but not implemented" # @Override class CmdExceptionBadArgs(CmdException): ''' Raised when a PENDING (non running) Agent cmd has bad, missing, or too many argument(s) ''' # @Override def __init__( self, cmd, msg:str=None): super().__init__(cmd, msg if msg else "Command has bad, missing, or too many argument(s)") #def __str__(self): return f"The Agent command '{self.cmd_name}' has bad, missing, or too many argument(s)" # --- CMD RUNNING EXCEPTIONS --- # @Override class CmdExceptionExecError(CmdException): ''' Raised when a RUNNING Agent cmd has had a running error ''' # @Override def __init__( self, cmd, msg:str=None): super().__init__(cmd, msg if msg else "Error during Execution") #def __str__(self): return f"The running Agent command '{self.cmd_name}' has had an error (during execution)" # @Override class CmdExceptionExecTimeout(CmdException): ''' Raised when a RUNNING Agent cmd is timeout ''' # @Override def __init__( self, cmd, msg:str=None): super().__init__(cmd, msg if msg else "Execution is TIMEOUT") #def __str__(self): return f"The running Agent command '{self.cmd_name}' is timeout" # @Override class CmdExceptionExecKilled(CmdException): ''' Raised when a RUNNING Agent cmd has been aborted (by another agent) ''' # @Override def __init__( self, cmd, msg:str=None): super().__init__(cmd, msg if msg else "Command was KILLED during Execution (by another agent") #def __str__(self): return f"The running Agent command '{self.cmd_name}' has been killed (by another agent)" # -------------- Command CONSTANTS -------------- # Command status codes CMD_STATUS_CODES = Choices( # Cmd is pending, waiting for execution "CMD_PENDING", ### 1 - ERRORS BEFORE EVEN BEING RUN ### # Cmd is invalid (unknown or bad args) "CMD_INVALID", # Cmd is not yet implemented (by recipient agent) "CMD_UNIMPLEMENTED", # Cmd was skipped (not run, because the agent is IDLE (or in a mode which does not allow execution of this command) "CMD_SKIPPED", # Cmd is out of date (expired) # because it has been pending for too long #"CMD_OUTOFDATE", "CMD_EXPIRED", ### 2 - RUNNING ### # Cmd is running (after having been "read") "CMD_RUNNING", ### 3 - ERRORS WHILE RUNNING ### # - Cmd was run and finished ok # ( simulé par un sleep(3) dans AgentX.core_process() ) "CMD_EXECUTED", # - Cmd was running, but then an error occured "CMD_EXEC_ERROR", # - Cmd was running, but took too much time and timeout was reached "CMD_EXEC_TIMEOUT", # - Cmd was aborted, killed by another agent #"CMD_KILLED", "CMD_EXEC_KILLED", ) # Command default validity duration (from sending time) BEFORE execution, before being perempted (in sec) # => Each command validity can be set by SENDER when sending command, it will then be managed by RECIPIENT # => From the time a command was sent (cmd.s_deposit_time), it is still valid during DEFAULT_VALIDITY_DURATION sec. # => After that, it is considered as "expired" (obsolete) and must be marked as "CMD_OUTOFDATE" and not be executed anymore (and can be purged) # => Thus, a command is expired FROM time = s_deposit_time + VALIDITY_DURATION # (except if it is RUNNING, i.e. in state CMD_RUNNING) DEFAULT_VALIDITY_DURATION = 1 * 3600 # s # Command default execution timeout (in sec) # => Each command timeout is set by RECIPIENT (in AGENT_SPECIFIC_COMMANDS), and it will be managed by RECIPIENT # => Execution of a command MUST NOT last more than EXEC_TIMEOUT seconds (from execution start time cmd.r_start_time) # => Otherwise the (recipient) agent executing the command is responsible to abort it and mark it as "CMD_KILLED" DEFAULT_EXEC_TIMEOUT = 60 # s # -------------- Command FIELDS -------------- #sender = models.CharField(max_length=50, blank=True, null=True, unique=True) # Sender and Recipient agents sender = models.CharField(max_length=50, help_text='sender agent name', null=False) recipient = models.CharField(max_length=50, help_text='recipient agent name', null=False) ##name = models.CharField(max_length=400, help_text='command name', null=False) full_name = models.CharField(max_length=400, help_text='command full name (with type and args)', null=False) validity_duration = models.PositiveIntegerField('(in sec)', default=DEFAULT_VALIDITY_DURATION) exec_timeout = models.PositiveIntegerField('(in sec)', default=DEFAULT_EXEC_TIMEOUT) #state = models.CharField(choices = CMD_STATUS_CODES, default=CMD_STATUS_CODES.CMD_PENDING, max_length=20) state = models.CharField(choices=CMD_STATUS_CODES, default=CMD_STATUS_CODES.CMD_PENDING, max_length=20) #state = models.IntegerField(choices=CMD_STATUS_CODES, default=RSCODE_PENDING) # TODO: maybe à mettre au format json (key:value) ##result = models.CharField(max_length=1000, blank=True) result = models.TextField(blank=True, null=False) # - on creation: (AUTO) Automatically set at table line creation (line created by the sender) s_deposit_time = models.DateTimeField(blank=True, null=True, auto_now_add=True) # - on reading: r_read_time = models.DateTimeField(null=True) # - on launching: r_start_time = models.DateTimeField(null=True) # - on end (after execution started or not) #end_time = models.DateTimeField(null=True) r_end_time = models.DateTimeField(null=True) # Other agent (than sender or recipient) that set this command to KILLED or EXPIRED killer_agent_name = models.CharField(max_length=50, help_text='sender agent name', null=True) # Intern field, not saved in DB _device_command = None class Meta: managed = True db_table = 'command' #verbose_name = "agent survey" #verbose_name_plural = "agents survey" _AGENT_GENERAL_COMMANDS = [ # DO commands # ----------- # - Evaluate the expression given (ex: do_eval 4+3) "do_eval", # GET commands # ------------ # - Get agent current STATUS or STEP (IN_MAIN_LOOP, ...) "get_status", # - Get mode + status + iteration num "get_state", # - Get agent current MODE (idle, routine, attentive) "get_mode", # SET commands # ----------- # - Set agent current STATE (IN_MAIN_LOOP, ...) => forbidden #"set_state", # - Set agent current MODE (idle, routine, attentive) ##"set_current_mode", # + value to set "set_mode", # + value to set # ----------- # ### (PRIORITY) DO Commands => executed in priority (even if other pending commands exist) ### # ----------- # - Finish your current command and then make a normal clean stop # ARGS (optional) : # - "asap" (default) (wait for agent to finish its current processing, then exit) # - "now" (abort agent current processing + exit) # - "noprio" (not priority) (priority by default) "do_stop", # TODO: a virer => do_stop asap # @deprecated ##"do_exit", # TODO: a virer => do_stop now # @deprecated ##"do_abort", #FIXME: à implémenter # - # ARGS : # - "stop" : Temporaly stop execution of new commands (let them accumulate) # - "resume" : Resume execution of commands (accumulated since "do_exec_commands stop") # - "noprio" : not priority (by default => priority) "do_exec_commands", # - Stop currently running command or/and routine # ARGS : # - "cmd" : stop currently running specific command # - "routine" : stop currently running routine process # - "both" (default) : stop currently running current cmd and routine process "do_stop_current", # + arg "cmd" or "routine" # TODO: a virer => do_stop_current now # @deprecated ##"do_abort_current_command", # - Delete all your pending commands "do_flush_pending_commands", # @deprecated ##"do_flush_commands", # - Restart your global loop (starting with init()) # ARGS (optional) : # - "asap" (default) (wait for agent to finish its current processing, then restart loop) # - "now" (abort agent current processing + restart loop) # - "noprio" (not priority, priority by default) "do_restart", # + arg "asap" (default) or "now" "get_all_cmds", # @deprecated "get_specific_cmds", ] # Priority commands, executed as soon as in the received commands list (BEFORE any other pending command) # NB : must be a subset of _AGENT_GENERAL_COMMANDS _AGENT_GENERAL_PRIORITY_COMMANDS = [ # 1 - NO STOP commands => will not stop the Agent or any running cmd "get_all_cmds", # @deprecated "get_specific_cmds", "do_flush_pending_commands", "do_exec_commands" # 2 - PARTIAL STOP command => will just stop current running cmd (and routine) "do_stop_current", # 3 - (TOTAL) STOP commands => will stop the Agent (waiting or not for it to finish what it is doing) #"do_exit", "do_stop", "do_restart", # @deprecated ###"do_restart_loop", ] # -------------- Command CLASS (static) METHODS -------------- @staticmethod def is_generic_name(cmd_name:str)->bool: ''' Generic if starts with get_, set_, or do_ ''' return cmd_name.startswith( ('get_', 'set_', 'do_') ) # Avoid to override the Model __init__ method # See https://docs.djangoproject.com/en/stable/ref/models/instances/#creating-objects @classmethod def create(cls, agent_from:str, agent_to:str, cmd_name:str, cmd_args:str=None, cmd_validity:int=None) -> AgentCmd : #print(agent_to) if '.' in agent_to: agent_to, component_name = agent_to.split('.') cmd_name = component_name+'.'+cmd_name # remove all excessive spaces print(cmd_args) if cmd_args: cmd_args = re.sub(r"\s+", " ", cmd_args).strip() cmd_name += ' ' + cmd_args # cls._device_command=DeviceCommand(cmd_name) if cmd_validity is None: cmd_validity = cls.DEFAULT_VALIDITY_DURATION #if cmd_timeout is None: cmd_timeout = cls.DEFAULT_EXEC_TIMEOUT return cls( sender=agent_from, recipient=agent_to, full_name=cmd_name, validity_duration=cmd_validity, #exec_timeout=cmd_timeout, ) """ @classmethod def send(cls, cmd:Command): cls.objects.create(sender=cmd.name, recipient=cmd.recipient, name=cmd.name) """ @classmethod def send_cmd_from_to(cls, agent_from, agent_to, cmd_name, cmd_args=None, cmd_validity:int=None)->AgentCmd: """ Create and send a command, then return it """ # def send(cls, from_agent, to_agent, cmd_name, cmd_args=None): """ ex: send("AgentA",“AgentB”,"EVAL”,“3+4”) """ ''' if cmd_args: cmd_name += ' '+cmd_args #Command.objects.create(sender=self.name, recipient=r_agent, name=cmd_name) cmd = cls(sender=from_agent, recipient=to_agent, name=cmd_name) ''' cmd = cls.create(agent_from, agent_to, cmd_name, cmd_args, cmd_validity) cmd.send() # cmd.set_as_pending() # cmd.save() return cmd @classmethod def max_deposit_date_for_peremption(cls): return datetime.now(tz=timezone.utc) - timedelta(seconds=cls.DEFAULT_VALIDITY_DURATION) #return datetime.utcnow().astimezone() - timedelta(seconds=cls.DEFAULT_VALIDITY_DURATION) #return datetime.utcnow().astimezone() - timedelta(hours=cls.DEFAULT_VALIDITY_DURATION) @classmethod #def delete_commands_with_running_status_for_agent(cls, agent_name): def kill_false_running_cmd_if_exists_for_agent(cls, agent_name): #FIXME: check that this command is not REALLY running (ex: cmd sent to device), and if so, kill it (or let it finish ?) printd("Kill (false) 'running' command if exists:") running_commands = cls.objects.filter( # only commands for agent agent_name recipient=agent_name, # only running commands state=cls.CMD_STATUS_CODES.CMD_RUNNING, # only not expired commands #s_deposit_time__gte = cls.max_deposit_date_for_peremption(), ) if running_commands: #AgentCmd.show_commands(running_commands) cls.show_commands(running_commands) #running_commands.delete() for cmd in running_commands: cmd.set_as_pending() cmd.set_as_skipped("Skip this cmd because false running cmd (at agent start)") else: printd("") @classmethod def delete_pending_commands_for_agent(cls, agent_name): """ Delete all pending commands sent to agent_name, except very recent commands. This (exception) is to avoid a "data race" where for example agentB is executing a "flush" command while agentA is sending command to agentB... : - agentB will then delete the command just sent by agentA - agentA will check regularly the status of its sent command, and this will crash as this command exists no more !! """ printd("Delete all pending command(s) if exists (except very recent ones, less than 2 sec ago):") #now_minus_2sec = datetime.utcnow().astimezone() - timedelta(seconds=2) now_minus_2sec = datetime.now(tz=timezone.utc) - timedelta(seconds=2) #print("now_minus_2sec", now_minus_2sec) pending_commands = cls.objects.filter( # only commands for agent agent_name recipient=agent_name, # only running commands state=cls.CMD_STATUS_CODES.CMD_PENDING, # except very recent commands : take only commands that are more than 2 sec old s_deposit_time__lt=now_minus_2sec ) if pending_commands: AgentCmd.show_commands(pending_commands) pending_commands.delete() else: printd("") @classmethod def get_pending_commands_for_agent(cls, agent_name)->QuerySet: #print("peremption date", COMMAND_PEREMPTION_DATE_FROM_NOW) return cls.objects.filter( # only pending commands state=cls.CMD_STATUS_CODES.CMD_PENDING, # only commands for agent agent_name recipient=agent_name, # recipient__startswith=agent_name, # Q(recipient.split('.')[0] = agent_name), # only not expired commands #s_deposit_time__gte = cls.max_deposit_date_for_peremption(), ).order_by("s_deposit_time") @classmethod def get_pending_and_running_commands_for_agent(cls, agent_name)->QuerySet: #print("peremption date", COMMAND_PEREMPTION_DATE_FROM_NOW) return cls.objects.filter( # only pending or running commands Q(state=cls.CMD_STATUS_CODES.CMD_PENDING) | Q(state=cls.CMD_STATUS_CODES.CMD_RUNNING), # only commands for agent agent_name recipient=agent_name, # recipient__startswith=agent_name, # Q(recipient.split('.')[0] = agent_name), # only not expired commands #s_deposit_time__gte = cls.max_deposit_date_for_peremption(), ).order_by("s_deposit_time") @classmethod def get_commands_sent_to_agent(cls, agent_name): return cls.objects.filter(recipient=agent_name) @classmethod def get_commands_sent_by_agent(cls, agent_name): return cls.objects.filter(sender=agent_name) @classmethod def get_last_N_commands_sent_to_agent(cls, agent_name, N): # filter(since=since) # return cls.objects.all()[:nb_cmds] #commands = cls.objects.filter(recipient = agent_name).order_by('-id')[:N] commands = cls.get_commands_sent_to_agent( agent_name).order_by('-id')[:N] return list(reversed(commands)) @classmethod def get_last_N_commands_sent_by_agent(cls, agent_name, N): # filter(since=since) # return cls.objects.all()[:nb_cmds] #commands = cls.objects.filter(recipient = agent_name).order_by('-id')[:N] commands = cls.get_commands_sent_by_agent( agent_name).order_by('-id')[:N] return list(reversed(commands)) @classmethod def purge_old_commands_sent_to_agent(cls, agent_name): """ Delete commands (which agent_name is recipient of) older than VALIDITY_DURATION (like 1h) ATTENTION !!! EXCEPT the RUNNING command !!! NB: datetime.utcnow() is equivalent to datetime.now(timezone.utc) """ printd( f"(Looking for commands sent to me that are not executing and perempted - i.e. older than {cls.DEFAULT_VALIDITY_DURATION/60} minute(s))") #COMMAND_PEREMPTION_DATE_FROM_NOW = datetime.utcnow() - timedelta(hours = cls.COMMANDS_PEREMPTION_HOURS) #print("peremption date", COMMAND_PEREMPTION_DATE_FROM_NOW) old_commands = cls.objects.filter( # only commands for agent agent_name recipient=agent_name, # only expired commands s_deposit_time__lt=cls.max_deposit_date_for_peremption(), ).exclude( state=cls.CMD_STATUS_CODES.CMD_RUNNING ) if old_commands.exists(): printd("Found old commands to delete:") #for cmd in old_commands: print(cmd) cls.show_commands(old_commands) old_commands.delete() else: printd("") @staticmethod # def show_commands(cls, commands:models.query): def show_commands(commands, do_it: bool = False): # def show_commands(cls, commands:List[Commmand]): #if not commands.exists(): print("") commands = list(commands) if len(commands) == 0: print("") #if do_it: print("") #else: printd("") for cmd in commands: print("-", cmd.name, cmd) #if do_it: print("-", cmd.name, cmd) #else: printd("-", cmd.name, cmd) # -------------- AgentCmd INSTANCE METHODS -------------- def __str__(self): # return (f"Commmand '{self.name}' ({self.state}) sent by agent {self.sender} to agent {self.recipient} at {self.s_deposit_time}") cmd_sent_time = f" at {self.s_deposit_time}" if self.s_deposit_time else '' return (f"Commmand '{self.full_name}' ({self.state}) sent to agent {self.recipient}{cmd_sent_time} (validity={self.validity_duration}s,timeout={self.exec_timeout}s) [by agent {self.sender}]") @property def device_command(self) -> DeviceCmd : if not self._device_command: self._device_command = DeviceCmd(self.full_name) #dc = self._device_command #print("...DEVICE CMD:", dc.full_name, dc.name, dc.devtype, dc.args) return self._device_command @property #def name_and_args(self) -> Tuple[str, str] : def name_and_args(self) -> Tuple[str, List] : ###return self.device_command.name_and_args ''' cmd_name_and_args = self.full_name if '.' in cmd_name_and_args: cmd_name_and_args = cmd_name_and_args.split('.')[1] return cmd_name_and_args ''' ''' Return command name and args if exist ''' # By default, no args #cmd_args = None cmd_args = [] ''' cmd_name = self.full_name if ' ' in cmd_name: ''' cmd_name, *cmd_args = self.full_name.split(' ') return cmd_name, cmd_args #def get_full_name_parts(self) -> list : def get_full_name_parts(self) -> Tuple[str, str, str] : ''' Return command device type, name, and args from any command type (agent or device level) ''' # No device type by default for an Agent command # cmd_type ? dev_type = None # By default, no args cmd_args = None cmd_name = self.full_name # Device command with device component type (dev_type) if '.' in cmd_name: return self.device_command.get_full_name_parts() # Simple command with args (no dev_type) if ' ' in cmd_name: cmd_name, *cmd_args = self.name_and_args return dev_type, cmd_name, cmd_args @property def name(self): ###return self.device_command.name #_,cmd_name,_ = self.get_full_name_parts() cmd_name,_ = self.name_and_args return cmd_name @property def args(self): ###return self.device_command.args #_,_,cmd_args = self.get_full_name_parts() _,cmd_args = self.name_and_args return cmd_args @property def device_type(self): return self.device_command.devtype def send(self): # self.save() self.set_as_pending() ''' def tokenize(self): cmd_name, *cmd_args = self.full_name.split(' ') return cmd_name, cmd_args ''' # --- BOOLEAN (test) functions --- def is_generic(self)->bool: ''' Generic if starts with get_, set_, or do_ ''' return self.is_generic_name(self.name) def is_agent_general_cmd(self)->bool: """ Is this a general command ? It is the case if command is of style "do_set:state:idle" or "do_restart" or "do_flush"... """ ##name = self.name ##if " " in name: name,args = name.split() ##name = self.name.split(' ')[0] ##cmd_name, _ = self.tokenize() # return cmd_name in self.GENERIC_COMMANDS #print("**********************CMD NAME is", self.name, "in ???", self._AGENT_GENERAL_COMMANDS) return self.name in self._AGENT_GENERAL_COMMANDS # "CMD_OUTOFDATE" # cde périmée def is_agent_general_priority_cmd_name(self)->bool: return self.name in self._AGENT_GENERAL_PRIORITY_COMMANDS def is_agent_general_priority_cmd(self)->bool: #return AgentCmd._is_agent_general_priority_cmd(self.name) #return self.__class__._is_agent_general_priority_cmd(self.name) #return type(self)._is_agent_general_priority_cmd(self.name) #return type(self)._is_agent_general_priority_cmd(self.full_name) return type(self)._is_agent_general_priority_cmd(self.name, self.args) @classmethod #def _is_agent_general_priority_cmd(cls, cmd_name_and_args=[])->bool: def _is_agent_general_priority_cmd(cls, cmd_name, cmd_args=[])->bool: #print(cmd_name_and_args) #cmd_name, cmd_args = re.sub(r"\s+", " ", cmd_name_and_args).strip().split(' ') #print(cmd_name, cmd_args) if cmd_name not in cls._AGENT_GENERAL_PRIORITY_COMMANDS: return False if cmd_args and cmd_args[0] == 'noprio': return False #return cmd_name in cls._AGENT_GENERAL_PRIORITY_COMMANDS and cmd_args and cmd_args[0] != 'noprio' return True def is_read(self)->bool: return self.r_read_time is not None # # CMD status management # def get_status(self): return self.state # 1 - pending def is_pending(self): return self.state == self.CMD_STATUS_CODES.CMD_PENDING # 2 - ERROR cases (from PENDING) def is_invalid(self): return self.state == self.CMD_STATUS_CODES.CMD_INVALID def is_unimplemented(self): return self.state == self.CMD_STATUS_CODES.CMD_UNIMPLEMENTED def is_skipped(self): return self.state == self.CMD_STATUS_CODES.CMD_SKIPPED def is_expired(self): if self.state == self.CMD_STATUS_CODES.CMD_EXPIRED: return True # Must NOT be running if self.is_running(): return False # return (datetime.utcnow() - self.s_deposit_time) > timedelta(seconds = self.validity_duration) #elapsed_time = (datetime.utcnow().astimezone() - self.s_deposit_time) elapsed_time = ( datetime.now(tz=timezone.utc) - self.s_deposit_time ) printd("elapsed_time", elapsed_time) return elapsed_time > timedelta(seconds=self.validity_duration) """ elapsed_time = cmd.r_read_time - cmd.s_deposit_time max_time = timedelta(seconds = cmd.validity_duration) print(f"Elapsed time is {elapsed_time}, (max is {max_time})") if elapsed_time > max_time: """ # finished with issue (from pending) def is_pending_issue(self): return self.is_invalid() or self.is_unimplemented() or self.is_skipped() or self.is_expired() # 3 - running def is_running(self): return self.state == self.CMD_STATUS_CODES.CMD_RUNNING # 4 - ERROR cases (from RUNNING) def is_exec_error(self): return self.state == self.CMD_STATUS_CODES.CMD_EXEC_ERROR def is_exec_killed(self): return self.state == self.CMD_STATUS_CODES.CMD_EXEC_KILLED # alias def is_killed(self): return self.is_exec_killed() # alias def is_timeout(self): return self.is_exec_timeout() def is_exec_timeout(self): if self.state == self.CMD_STATUS_CODES.CMD_EXEC_TIMEOUT: return True # Must be running if not self.is_running(): return False # return (datetime.utcnow() - self.s_deposit_time) > timedelta(seconds = self.validity_duration) #elapsed_time = (datetime.utcnow().astimezone() - self.r_start_time) elapsed_time = (datetime.now(tz=timezone.utc) - self.r_start_time) printd("elapsed_time since exec", elapsed_time) return elapsed_time > timedelta(seconds=self.exec_timeout) # finished with any execution issue def is_exec_issue(self): return self.state.startswith("CMD_EXEC_") # 5 - Execution finished # Cmd is finished if not pending or running def is_finished(self): return not (self.is_pending() or self.is_running()) # Cmd is finished with error : finished but NOT executed (= ALL except : CMD_PENDING, CMD_RUNNING, or CMD_EXECUTED) def is_finished_with_error(self): return self.is_finished() and not self.is_executed() # Cmd is finished without error (normal case) def is_executed(self): return self.state == self.CMD_STATUS_CODES.CMD_EXECUTED # --- GETTERS/SETTERS functions --- def get_result(self): return self.result def get_updated_result(self): self.refresh_from_db() return self.result def set_result(self, result: str, do_save:bool=True): self.result = result if do_save: self.save() def set_read_time(self, do_save:bool=True): #self.r_read_time = datetime.utcnow().astimezone() self.r_read_time = datetime.now(tz=timezone.utc) # Optimization: update only 1 field if do_save: self.save(update_fields=["r_read_time"]) # # Set cmd status # # - From None def set_as_pending(self): self.set_state_to(self.CMD_STATUS_CODES.CMD_PENDING) # - from PENDING def set_as_unimplemented(self, result:str=None): #assert self.is_pending(), "An Unimplemented Command must have been PENDING" self.set_state_to(self.CMD_STATUS_CODES.CMD_UNIMPLEMENTED, result=result) def set_as_invalid(self, result:str=None): #assert self.is_pending() self.set_state_to(self.CMD_STATUS_CODES.CMD_INVALID, result=result) def set_as_skipped(self, result:str=None): #assert self.is_pending() self.set_state_to(self.CMD_STATUS_CODES.CMD_SKIPPED, result=result) def set_as_expired(self): #assert self.is_pending() #print(f"- Set this command as expired (older than its validity duration of {self.validity_duration}s): {self}") self.set_state_to(self.CMD_STATUS_CODES.CMD_EXPIRED) def set_as_running(self): #FIXMD: log.info() au lieu de print() print('-'*6 + " STARTING COMMAND EXEC") #assert self.is_pending() printd(f"- Set command {self.name} as running") self.set_state_to(self.CMD_STATUS_CODES.CMD_RUNNING) ''' def set_as_executed(self): self.set_state_to(self.CMD_STATUS_CODES.CMD_EXECUTED) ''' # - from RUNNING def set_as_processed(self, result:str=None): # assert self.is_running(), "a PROCESSED command must have been RUNNING" printd(f"- Set command {self.name} as processed") self.set_state_to(self.CMD_STATUS_CODES.CMD_EXECUTED, result=result) # print(self) """ self.state = self.CMD_STATUS_CODES.CMD_EXECUTED self.r_processed_time = datetime.utcnow().astimezone() self.save() """ # Optimization: update the related fields, but does not work, why ? ##self.save(update_fields=["state", "r_processed_time"]) #def set_as_outofdate(self): def set_as_exec_error(self, result:str=None): assert self.is_running() self.set_state_to(self.CMD_STATUS_CODES.CMD_EXEC_ERROR, result=result) def set_as_exec_timeout(self, result:str=None): assert self.is_running() self.set_state_to(self.CMD_STATUS_CODES.CMD_EXEC_TIMEOUT, result=result) def set_as_exec_timeout(self, result:str=None): assert self.is_running() self.set_state_to(self.CMD_STATUS_CODES.CMD_EXEC_TIMEOUT, result=result) def set_as_killed_by(self, author_agent_name:str, result:str=None): #assert self.is_running() printd(f"- Set command {self.name} as killed") #print(f"- Set this command as killed: {self}") self.set_state_to(self.CMD_STATUS_CODES.CMD_EXEC_KILLED, author_agent_name=author_agent_name, result=result) # General method to change state def set_state_to(self, status_new: str, author_agent_name: str = None, result:str=None): ''' If result is present it will be set in the "result" field ''' #now_time = datetime.utcnow().astimezone() now_time = datetime.now(tz=timezone.utc) # result can be "0" which is false... if result is not None: self.set_result(result, False) ''' # - Changing state to PENDING (from None) if status_new == self.CMD_STATUS_CODES.CMD_PENDING: self.s_deposit_time = now_time ''' # - Changing state from PENDING #if status_new in (self.CMD_STATUS_CODES.CMD_RUNNING, self.CMD_STATUS_CODES.CMD_SKIPPED, self.CMD_STATUS_CODES.CMD_EXPIRED): if status_new in ( # Errors cases self.CMD_STATUS_CODES.CMD_INVALID, self.CMD_STATUS_CODES.CMD_UNIMPLEMENTED, self.CMD_STATUS_CODES.CMD_SKIPPED, self.CMD_STATUS_CODES.CMD_EXPIRED, # Normal case self.CMD_STATUS_CODES.CMD_RUNNING ): assert self.is_pending() # - go RUNNING => set start time if status_new == self.CMD_STATUS_CODES.CMD_RUNNING: self.r_start_time = now_time # - go in error => set end time else: self.r_end_time = now_time # EXPIRED if status_new == self.CMD_STATUS_CODES.CMD_EXPIRED: self.killer_agent_name = author_agent_name # - Changing state from RUNNING (CMD_EXECUTED, CMD_EXEC_...) #elif status_new in (self.CMD_STATUS_CODES.CMD_EXECUTED, self.CMD_STATUS_CODES.CMD_EXEC_KILLED): elif status_new != self.CMD_STATUS_CODES.CMD_PENDING: assert self.is_running() self.r_end_time = now_time if status_new == self.CMD_STATUS_CODES.CMD_EXEC_KILLED: self.killer_agent_name = author_agent_name # Update command status self.state = status_new self.save() # Optimization, but does not work, why ?... # self.save(update_fields=["state"]) class Config(models.Model): PYROS_STATE = ["Starting", "Passive", "Standby", "Remote", "Startup", "Scheduler", "Closing"] id = models.IntegerField(default='1', primary_key=True) #latitude = models.FloatField(default=1) latitude = models.DecimalField( max_digits=4, decimal_places=2, default=1, validators=[ MaxValueValidator(90), MinValueValidator(-90) ] ) local_time_zone = models.FloatField(default=1) #longitude = models.FloatField(default=1) longitude = models.DecimalField( max_digits=5, decimal_places=2, default=1, validators=[ MaxValueValidator(360), MinValueValidator(-360) ] ) altitude = models.FloatField(default=1) horizon_line = models.FloatField(default=1) row_data_save_frequency = models.IntegerField(default='300') request_frequency = models.IntegerField(default='300') analysed_data_save = models.IntegerField(default='300') telescope_ip_address = models.CharField(max_length=45, default="127.0.0.1") camera_ip_address = models.CharField(max_length=45, default="127.0.0.1") plc_ip_address = models.CharField(max_length=45, default="127.0.0.1") # TODO: changer ça, c'est pas clair du tout... # True = mode Scheduler-standby, False = mode Remote !!!! global_mode = models.BooleanField(default='True') ack = models.BooleanField(default='False') bypass = models.BooleanField(default='True') lock = models.BooleanField(default='False') pyros_state = models.CharField(max_length=25, default=PYROS_STATE[0]) force_passive_mode = models.BooleanField(default='False') plc_timeout_seconds = models.PositiveIntegerField(default=60) majordome_state = models.CharField(max_length=25, default="") ntc = models.BooleanField(default='False') majordome_restarted = models.BooleanField(default='False') class Meta: managed = True db_table = 'config' verbose_name_plural = "Config" def __str__(self): return (str(self.__dict__)) class Country(models.Model): name = models.CharField(max_length=45, blank=True, null=True) desc = models.TextField(blank=True, null=True) quota = models.FloatField(blank=True, null=True) class Meta: managed = True db_table = 'country' verbose_name_plural = "Countries" def __str__(self): return (str(self.name)) class Detector(Device): VIS = "Visible camera" NIR = "Cagire" telescope = models.ForeignKey( 'Telescope', models.DO_NOTHING, related_name="detectors") nb_photo_x = models.IntegerField(blank=True, null=True) nb_photo_y = models.IntegerField(blank=True, null=True) photo_size_x = models.IntegerField(blank=True, null=True) photo_size_y = models.IntegerField(blank=True, null=True) has_shutter = models.BooleanField(default=False) equivalent_foc_len = models.CharField(max_length=45, blank=True, null=True) acq_start = models.DateTimeField(blank=True, null=True) acq_stop = models.DateTimeField(blank=True, null=True) check_temp = models.FloatField(blank=True, null=True) gain = models.FloatField(blank=True, null=True) readout_noise = models.FloatField(blank=True, null=True) readout_time = models.FloatField(blank=True, null=True) idcam_readout_mode = models.IntegerField(blank=True, null=True) class Meta: managed = True db_table = 'detector' def __str__(self): return str(self.name) def device_name(self): return self.__str__() device_name.short_description = "Name" class Dome(Device): DOME = "Dome" open = models.BooleanField(default=False, blank=True) class Meta: managed = True db_table = 'dome' def __str__(self): return str(self.name) def device_name(self): return self.__str__() device_name.short_description = "Name" class Filter(Device): VIS_FILTER_1 = "First visible filter" VIS_FILTER_2 = "Second visible filter" NIR_FILTER_1 = "First infrared filter" NIR_FILTER_2 = "Second infrared filter" filter_wheel = models.ForeignKey( "FilterWheel", models.DO_NOTHING, related_name="filters", blank=True, null=True) category = models.CharField(max_length=1, blank=True, null=True) transmission_curve_doc = models.CharField( max_length=45, blank=True, null=True) class Meta: managed = True db_table = 'filter' def __str__(self): return (str(self.name)) def device_name(self): return self.__str__() device_name.short_description = "Name" class FilterWheel(Device): detector = models.OneToOneField(Detector, on_delete=models.CASCADE, related_name="filter_wheel", blank=True, null=True) class Meta: managed = True db_table = 'filter_wheel' def __str__(self): return (str(self.name)) def device_name(self): return self.__str__() device_name.short_description = "Name" class Image(models.Model): plan = models.ForeignKey( 'Plan', on_delete=models.CASCADE, related_name="images") nrtanalysis = models.ForeignKey( 'NrtAnalysis', models.DO_NOTHING, blank=True, null=True, related_name="images") name = models.CharField(max_length=45, blank=True, null=True) desc = models.TextField(blank=True, null=True) created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) date_from_gps = models.CharField(max_length=45, blank=True, null=True) level = models.IntegerField(blank=True, null=True) type = models.CharField(max_length=5, blank=True, null=True) quality = models.CharField(max_length=45, blank=True, null=True) flaggps = models.CharField(max_length=45, blank=True, null=True) exposure = models.CharField(max_length=45, blank=True, null=True) tempext = models.CharField(max_length=45, blank=True, null=True) pressure = models.CharField(max_length=45, blank=True, null=True) humidext = models.CharField(max_length=45, blank=True, null=True) wind = models.CharField(max_length=45, blank=True, null=True) wind_dir = models.CharField(max_length=45, blank=True, null=True) dwnimg = models.CharField(max_length=45, blank=True, null=True) dwncata = models.CharField(max_length=45, blank=True, null=True) dwn = models.CharField(max_length=45, blank=True, null=True) level0_fits_name = models.CharField(max_length=45, blank=True, null=True) level1a_fits_name = models.CharField(max_length=45, blank=True, null=True) level1b_fits_name = models.CharField(max_length=45, blank=True, null=True) class Meta: managed = True db_table = 'image' def __str__(self): return (str(self.name)) class Log(models.Model): agent = models.CharField(max_length=45, blank=True, null=True) created = models.DateTimeField(blank=True, null=True, auto_now_add=True) message = models.TextField(blank=True, null=True) class Meta: managed = True db_table = 'log' def __str__(self): return (str(self.agent)) class NrtAnalysis(models.Model): name = models.CharField(max_length=45, blank=True, null=True) desc = models.TextField(blank=True, null=True) created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) analysis = models.TextField(blank=True, null=True) class Meta: managed = True db_table = 'nrtanalysis' verbose_name_plural = "Nrt analyzes" def __str__(self): return (str(self.name)) """ class Plan(models.Model): album = models.ForeignKey(Album, on_delete=models.CASCADE, related_name="plans") filter = models.ForeignKey(Filter, models.DO_NOTHING, related_name="plans", blank=True, null=True) name = models.CharField(max_length=45, blank=True, null=True) desc = models.CharField(max_length=45, blank=True, null=True) created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) duration = models.FloatField(default=0, blank=True, null=True) position = models.CharField(max_length=45, blank=True, null=True) exposure_time = models.FloatField(blank=True, null=True) nb_images = models.IntegerField(blank=True, null=True) dithering = models.BooleanField(default=False) complete = models.BooleanField(default=False) class Meta: managed = True db_table = 'plan' def __str__(self): return (str(self.name)) """ class Plan(models.Model): album = models.ForeignKey( Album, on_delete=models.CASCADE, related_name="plans") created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) duration = models.FloatField(default=0, blank=True, null=True) nb_images = models.PositiveIntegerField( blank=True, null=True, validators=[MinValueValidator(1)]) config_attributes = models.JSONField(blank=True, null=True) complete = models.BooleanField(default=False) class Meta: db_table = "plan" def __str__(self) -> str: return f"Plan of Album {self.album.name} has {self.nb_images} image(s)" class PlcDeviceStatus(models.Model): device = models.ForeignKey( 'PlcDevice', on_delete=models.CASCADE, related_name='current_status') created = models.DateTimeField( auto_now_add=True, editable=False, blank=True) outside_temp = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) outside_temp_unit = models.CharField(max_length=45, blank=True, null=True) outside_humidity = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) outside_humidity_unit = models.CharField( max_length=45, blank=True, null=True) pressure = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) pressure_unit = models.CharField(max_length=45, blank=True, null=True) rain_rate = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) rain_rate_unit = models.CharField(max_length=45, blank=True, null=True) wind_speed = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) wind_speed_unit = models.CharField(max_length=45, blank=True, null=True) wind_dir = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) wind_dir_unit = models.CharField(max_length=45, blank=True, null=True) dew_point = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) dew_point_unit = models.CharField(max_length=45, blank=True, null=True) analog = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) analog_unit = models.CharField(max_length=45, blank=True, null=True) digital = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) digital_unit = models.CharField(max_length=45, blank=True, null=True) inside_temp = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) inside_temp_unit = models.CharField(max_length=45, blank=True, null=True) inside_humidity = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) inside_humidity_unit = models.CharField( max_length=45, blank=True, null=True) wind_dir_cardinal = models.CharField(max_length=45, blank=True, null=True) wind_dir_cardinal_unit = models.CharField( max_length=45, blank=True, null=True) sensor_temperature = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) sensor_temperature_unit = models.CharField( max_length=45, blank=True, null=True) sky_temperature = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) sky_temperature_unit = models.CharField( max_length=45, blank=True, null=True) status = models.CharField(max_length=45, blank=True, null=True) current = models.DecimalField( max_digits=15, decimal_places=8, blank=True, null=True) current_unit = models.CharField(max_length=45, blank=True, null=True) is_safe = models.BooleanField(default=True) plc_mode = models.CharField(max_length=4, null=True) lights = models.CharField(max_length=3, null=True) shutters = models.CharField(max_length=5, null=True) class Meta: managed = True db_table = 'plc_devices_status' def __str__(self): return (str(self.__dict__)) ''' TODO : This function is Ugly, we should change this with a function pointer array and setters getters for each attribute ''' def setValue(self, key, value, unit=""): if key == "Temperature_outside": self.outside_temp = value self.outside_temp_unit = unit elif key == "Humidity_outside": self.outside_humidity = value self.outside_humidity_unit = unit elif key == "_Pressure": self.pressure = value self.pressure_unit = unit elif key == "Rain_boolean": # RainRate self.rain_rate = value self.rain_rate_unit = 'boulean' elif key == "Wind_speed": self.wind_speed = value self.wind_speed_unit = unit elif key == "Wind_dir": self.wind_dir = value self.wind_dir_unit = unit elif key == "_DewPoint": self.dew_point = value self.dew_point_unit = unit elif key == "_analog": self.analog = value self.analog_unit = unit elif key == "_digital": self.digital = value self.digital_unit = unit elif key == "_InsideTemp": self.inside_temp = value self.inside_temp_unit = unit elif key == "_InsideHumidity": self.inside_humidity = value self.inside_humidity_unit = unit elif key == "_WindDirCardinal": self.wind_dir_cardinal = value self.wind_dir_cardinal_unit = unit elif key == "_SensorTemperature": self.sensor_temperature = value self.sensor_temperature_unit = unit elif key == "_SkyTemperature": self.sky_temperature = value self.sky_temperature_unit = unit # PM 20190222 try patch elif key == "Error_code": self.status = value elif key == "current": self.current = value self.current_unit = unit elif key == "mode": self.plc_mode = value elif key == "is_safe": self.is_safe = value elif key == "LIGHTS": self.lights = value elif key == "SHUTTERS": self.shutters = value else: # PM 20190222 ignore unrecognized #raise KeyError("Key " + str(key) + " unrecognized") pass class PlcDevice(Device): #device = models.ForeignKey('Plc', on_delete=models.CASCADE, related_name='plc_devices') name = models.CharField(max_length=45, blank=True, null=True) desc = models.TextField(blank=True, null=True) created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) class Meta: managed = True db_table = 'plc_devices' def __str__(self): return str(self.name) # class Plc(Device): # last_update_status = models.DateTimeField(blank=True, null=True) # i # class Meta: # managed = True # db_table = 'plc' class ScienceTheme(models.Model): name = models.CharField(max_length=120, blank=False, null=False, default="", unique=True) def __str__(self) -> str: return str(self.name) class Meta: db_table = "science_theme" class Institute(models.Model): name = models.CharField(max_length=100, blank=False, null=False, unique=True) quota = models.IntegerField( validators=[MinValueValidator(0), MaxValueValidator(100)]) #representative_user = models.ForeignKey("PyrosUser", on_delete=models.DO_NOTHING,related_name="institutes",default=1) def __str__(self) -> str: return str(self.name) class Meta: db_table = "institute" class PyrosUserManager(UserManager): def tac_users(self): return PyrosUser.objects.filter(user_level__name="TAC") def unit_users(self): return PyrosUser.objects.filter(Q(user_level__name="Unit-PI") | Q(user_level__name="Unit-board")) class PyrosUser(AbstractUser): username = models.CharField( max_length=255, blank=False, null=False, unique=True) is_active = models.BooleanField(default='False') first_time = models.BooleanField(default='False') country = models.ForeignKey( Country, on_delete=models.DO_NOTHING, related_name="pyros_users") user_level = models.ManyToManyField( 'UserLevel', related_name="pyros_users") desc = models.TextField(blank=True, null=True) created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) tel = models.CharField(max_length=45, blank=True, null=True) address = models.TextField(max_length=100, blank=True, null=True) laboratory = models.CharField(max_length=45, blank=True, null=True) institute = models.ForeignKey( Institute, on_delete=DO_NOTHING, related_name="pyros_users") is_institute_representative = models.BooleanField(default=False) motive_of_registration = models.TextField( max_length=300, blank=False, default="") # last_connect = models.DateTimeField(blank=True, null=True) # cur_connect = models.DateTimeField(blank=True, null=True) # putvalid_beg = models.DateTimeField(blank=True, null=True) # putvalid_end = models.DateTimeField(blank=True, null=True) # acqvalid_beg = models.CharField(max_length=45, blank=True, null=True) # acqvalid_end = models.CharField(max_length=45, blank=True, null=True) # quota = models.FloatField(blank=True, null=True) # quota_rea = models.FloatField(blank=True, null=True) # u_priority = models.IntegerField(blank=True, null=True) # p_priority = models.IntegerField(blank=True, null=True) # dir_level = models.IntegerField(blank=True, null=True) # can_del_void_req = models.BooleanField(default=False) validator = models.ForeignKey( "PyrosUser", on_delete=models.DO_NOTHING, null=True, related_name="pyros_users") referee_themes = models.ManyToManyField( "ScienceTheme", related_name="referee_themes", blank=True) objects = PyrosUserManager() class Meta: managed = True db_table = 'pyros_user' def __str__(self): return (str(self.get_username())) def user_username(self): return self.__str__() user_username.short_description = "Username" def get_priority(self) -> int: """ return maximum priority of all roles of the user Returns: int: maximum priority """ return PyrosUser.objects.get(id=self.id).user_level.all().aggregate(Max("priority"))["priority__max"] def get_roles_str(self) -> str: """ return string that represent all roles assigned to the user Returns: str: string of all roles assigned to user """ roles_str = "" # loop on all roles assigned to user for role in PyrosUser.objects.get(id=self.id).user_level.all(): roles_str += role.name + ", " return roles_str[:-2] def get_list_of_roles(self) -> list: """ return list of all roles assigned to the user Returns: list: list of all roles assigned to user """ return PyrosUser.objects.get(id=self.id).user_level.all().values_list("name", flat=True) # Note for the next functions : We take the first result of the query because it should be only one result with the filter applied since each UserLevel has a unique priority. def get_max_priority_desc(self) -> str: """ return the desc of the maximum priority of all roles assigned to user Returns: str: desc of the maximum priority of all roles assigned to user """ return PyrosUser.objects.get(id=self.id).user_level.filter(priority=self.get_priority())[0].desc def get_max_priority_quota(self) -> int: """ return the quota of the maximum priority of all roles assigned to user Returns: int: quota of the maximum priority of all roles assigned to user """ return PyrosUser.objects.get(id=self.id).user_level.filter(priority=self.get_priority())[0].quota def get_referee_themes_as_str(self) -> str: """ Return the list of science themes associated to that user if user is a TAC. Return empty string otherwise Returns: str: list of science themes associated to that user """ str = "" if self.referee_themes != None: for science_theme in PyrosUser.objects.get(id=self.id).referee_themes.all(): str += science_theme.name + ", " return str[:-2] else: return str def get_scientific_program(self) -> QuerySet: sp_where_user_is_sp_pi = ScientificProgram.objects.filter( sp_pi=self.id) other_sp_of_user = ScientificProgram.objects.filter(id__in=SP_Period.objects.filter(id__in=SP_Period_User.objects.filter( user=PyrosUser.objects.get(username=self.username)).values("SP_Period")).values_list("scientific_program", flat=True)) sp_of_user = sp_where_user_is_sp_pi | other_sp_of_user return sp_of_user def get_scientific_program_where_user_is_sp_pi(self) -> QuerySet: sp_where_user_is_sp_pi = ScientificProgram.objects.filter( sp_pi=self.id) return sp_where_user_is_sp_pi # class Schedule(models.Model): # created = models.DateTimeField(blank=True, null=True, auto_now_add=True) # plan_start = models.DecimalField( # default=0.0, max_digits=15, decimal_places=8) # plan_end = models.DecimalField( # default=0.0, max_digits=15, decimal_places=8) # flag = models.CharField(max_length=45, blank=True, null=True) # # class Meta: # managed = True # db_table = 'schedule' # # def __str__(self): # return (str(self.created)) class Schedule(models.Model): sequences = models.ManyToManyField( 'Sequence', through='ScheduleHasSequences', related_name='schedules') created = models.DateTimeField(blank=True, null=True, auto_now_add=True) plan_night_start = models.DecimalField( default=0.0, max_digits=15, decimal_places=8) plan_end = models.DecimalField( default=0.0, max_digits=15, decimal_places=8) plan_start = models.DecimalField( default=0.0, max_digits=15, decimal_places=8) flag = models.CharField(max_length=45, blank=True, null=True) class Meta: managed = True db_table = 'schedule' verbose_name_plural = "Schedules" def __str__(self): return (str(self.created)) class PeriodManager(models.Manager): # to get the currently active period, use exploitation_period() def currently_active_period(self) -> QuerySet: today = timezone.now().date() return Period.objects.get(start_date__lte=today, end_date__gt=today) def submission_periods(self) -> QuerySet: today = timezone.now().date() submission_periods_id = [] periods = Period.objects.filter(start_date__gte=today) for period in periods: if period.submission_start_date <= today and period.submission_end_date > today: submission_periods_id.append(period.id) periods = periods.filter(id__in=submission_periods_id) return periods def evaluation_periods(self) -> QuerySet: today = timezone.now().date() evaluation_periods_id = [] periods = Period.objects.filter(start_date__gte=today) for period in periods: if period.submission_end_date <= today and period.unit_pi_validation_start_date > today: evaluation_periods_id.append(period.id) periods = periods.filter(id__in=evaluation_periods_id) return periods def validation_periods(self) -> QuerySet: today = timezone.now().date() validation_periods_id = [] periods = Period.objects.filter(start_date__gte=today) for period in periods: if period.unit_pi_validation_start_date <= today and period.notification_start_date > today: validation_periods_id.append(period.id) periods = periods.filter(id__in=validation_periods_id) return periods def notification_periods(self) -> QuerySet: today = timezone.now().date() notification_periods_id = [] periods = Period.objects.filter(start_date__gte=today) for period in periods: if period.notification_start_date <= today and period.start_date > today: notification_periods_id.append(period.id) periods = periods.filter(id__in=notification_periods_id) return periods def exploitation_period(self) -> Any: today = timezone.now().date() periods = Period.objects.filter(start_date__lte=today) for period in periods: if period.start_date <= today and period.end_date > today: return period return None def latest_period(self) -> Any: today = timezone.now().date() future_period = Period.objects.filter( start_date__gt=today).order_by("-start_date").first() if future_period is None: # no future period defined so we return the current period if self.exploitation_period() != None: return self.exploitation_period() else: return self.previous_periods().first() return future_period def previous_periods(self) -> Any: today = timezone.now().date() previous_periods = Period.objects.filter(start_date__lt=today).order_by( "-start_date") if self.exploitation_period(): previous_periods.exclude(id=self.exploitation_period().id) return previous_periods def next_period(self) -> Any: current_period = self.exploitation_period() next_period = Period.objects.filter( start_date__gt=current_period.start_date).order_by("start_date").first() return next_period class Period(models.Model): # if change of default value, those values need to be changed also in create_period and edit_period.html (Javascript ) today = timezone.now().date() today_plus_six_months = today + relativedelta(months=+6) today_minus_six_months = today + relativedelta(months=-6) today_minus_one_month_and_half = today + \ relativedelta(months=-1) + relativedelta(days=-15) today_minus_fifteen_days = today + relativedelta(days=-15) end_date_plus_one_year = today_plus_six_months + relativedelta(years=+1) end_date_plus_eleven_year = today_plus_six_months + \ relativedelta(years=+11) start_date = models.DateField( blank=True, null=True, default=timezone.now, editable=True) exploitation_duration = models.PositiveIntegerField( blank=True, null=True, default=182, editable=True) submission_duration = models.PositiveIntegerField( blank=True, null=True, default=136, editable=True) evaluation_duration = models.PositiveIntegerField( blank=True, null=True, default=31, editable=True) validation_duration = models.PositiveIntegerField( blank=True, null=True, default=5, editable=True) notification_duration = models.PositiveIntegerField( blank=True, null=True, default=10, editable=True) property_of_data_duration = models.PositiveIntegerField( blank=True, null=True, default=365, editable=True) data_accessibility_duration = models.PositiveIntegerField( blank=True, null=True, default=365*10, editable=True) @property def end_date(self): return self.start_date + relativedelta(days=self.exploitation_duration) @property def submission_start_date(self): return self.start_date + relativedelta(days=-(self.submission_duration+self.evaluation_duration+self.validation_duration+self.notification_duration)) @property def submission_end_date(self): return self.submission_start_date + relativedelta(days=self.submission_duration) @property def unit_pi_validation_start_date(self): return self.submission_end_date + relativedelta(days=self.evaluation_duration) @property def notification_start_date(self): return self.unit_pi_validation_start_date + relativedelta(days=self.validation_duration) @property def property_of_data_end_date(self): return self.end_date + relativedelta(days=self.property_of_data_duration) @property def data_accessibility_end_date(self): return self.end_date + relativedelta(days=self.data_accessibility_duration) """ end_date = models.DateField(blank=True, null=True, default=start_date_plus_six_months,editable=True) submission_start_date = models.DateField(blank=True, null=True, default=today_minus_six_months,editable=True) submission_end_date = models.DateField(blank=True, null=True, default=today_minus_one_month_and_half,editable=True) unit_pi_validation_start_date = models.DateField(blank=True, null=True, default=today_minus_fifteen_days,editable=True) property_of_data_end_date = models.DateField(blank=True, null=True, default=end_date_plus_one_year,editable=True) data_accessibility_end_date = models.DateField(blank=True, null=True, default=end_date_plus_eleven_year,editable=True) #class Meta: # constrains start_date and duration to be unique (We don't want to have multiple records in db that represent the same period) # constraints = [ # models.UniqueConstraint(fields=["start_date","duration"], name="unique_period") # ] """ objects = PeriodManager() def __str__(self) -> str: return "P"+str(self.id)+" ("+self.start_date.strftime("%d/%m/%Y") + " to " + self.end_date.strftime("%d/%m/%Y")+")" def is_currently_active(self) -> bool: today = timezone.now().date() return self.start_date <= today < self.end_date def can_submit_sequence(self) -> bool: today = timezone.now().date() return today >= self.notification_start_date class Meta: db_table = "period" class ScientificProgramManager(models.Manager): def observable_programs(self): exploitable_sp = [] for sp_period in SP_Period.objects.all(): if sp_period.can_submit_sequence(): exploitable_sp.append(sp_period.scientific_program.id) return ScientificProgram.objects.filter(id__in=exploitable_sp) class ScientificProgram(models.Model): created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) name = models.CharField(max_length=30, blank=False, null=False, default="", unique=True) description_short = models.TextField(default="", max_length=320) description_long = models.TextField(default="") institute = models.ForeignKey( Institute, on_delete=models.DO_NOTHING, related_name="scientific_programs") sp_pi = models.ForeignKey( "PyrosUser", on_delete=models.DO_NOTHING, related_name="Scientific_Program_Users") science_theme = models.ForeignKey( "ScienceTheme", on_delete=models.DO_NOTHING, related_name="scientific_program_theme", default=1) is_auto_validated = models.BooleanField(default=False) objects = ScientificProgramManager() class Meta: managed = True db_table = 'scientific_program' def __str__(self): return (str(self.name)) class SP_Period(models.Model): STATUSES_DRAFT = "Draft" STATUSES_SUBMITTED = "Submitted" STATUSES_EVALUATED = "Evaluated" STATUSES_ACCEPTED = "Accepted" STATUSES_REJECTED = "Rejected" STATUSES = [ (STATUSES_DRAFT, "Draft"), (STATUSES_SUBMITTED, "Submitted"), (STATUSES_EVALUATED, "Evaluated"), (STATUSES_ACCEPTED, "Accepted"), (STATUSES_REJECTED, "Rejected") ] VOTES_YES = "A: Accepted" VOTES_NO = "C: Refused" VOTES_TO_DISCUSS = "B: To be discussed" VOTES = [ (VOTES_YES, "A: Accepted"), (VOTES_TO_DISCUSS, "B: To be discussed"), (VOTES_NO, "C: Refused") ] IS_VALID_ACCEPTED = "Accepted" IS_VALID_REJECTED = "Rejected" IS_VALID = [ (IS_VALID_ACCEPTED, "Accepted"), (IS_VALID_REJECTED, "Rejected") ] VISIBILITY_YES = "Yes" VISIBILITY_NO = "No" VISIBILITY_CHOICES = [ (VISIBILITY_YES, "Yes"), (VISIBILITY_NO, "No"), ] period = models.ForeignKey( Period, on_delete=models.DO_NOTHING, related_name="SP_Periods") scientific_program = models.ForeignKey( ScientificProgram, on_delete=models.DO_NOTHING, related_name="SP_Periods") public_visibility = models.TextField( choices=VISIBILITY_CHOICES, default=VISIBILITY_YES) referee1 = models.ForeignKey( PyrosUser, on_delete=models.DO_NOTHING, related_name="TAC1_judgement", null=True) vote_referee1 = models.TextField( choices=VOTES, default=VOTES_YES, blank=True) reason_referee1 = models.TextField(blank=True) referee2 = models.ForeignKey( PyrosUser, on_delete=models.DO_NOTHING, related_name="TAC2_judgement", null=True) vote_referee2 = models.TextField( choices=VOTES, default=VOTES_YES, blank=True) reason_referee2 = models.TextField(blank=True) is_valid = models.TextField( choices=IS_VALID, default=IS_VALID_REJECTED, blank=True) status = models.TextField(choices=STATUSES, default=STATUSES_DRAFT) quota_minimal = models.PositiveIntegerField(default=0) quota_nominal = models.PositiveIntegerField(default=0) quota_allocated = models.PositiveIntegerField(default=0, blank=True) quota_remaining = models.PositiveIntegerField(default=0, blank=True) over_quota_duration = models.PositiveIntegerField(default=0) over_quota_duration_allocated = models.PositiveIntegerField( default=0, blank=True) over_quota_duration_remaining = models.PositiveIntegerField(default=0) token = models.PositiveIntegerField(default=0) token_allocated = models.PositiveIntegerField(default=0, blank=True) token_remaining = models.PositiveIntegerField(default=0, blank=True) priority = models.PositiveIntegerField(default=0, blank=True) def is_currently_active(self): return self.period.is_currently_active() def can_submit_sequence(self) -> bool: return self.is_currently_active() or self.period.can_submit_sequence() and self.status == self.STATUSES_ACCEPTED class Meta: db_table = "sp_period" class SP_Period_User(models.Model): SP_Period = models.ForeignKey( SP_Period, on_delete=models.DO_NOTHING, related_name="SP_Period_Users") user = models.ForeignKey( "PyrosUser", on_delete=models.CASCADE, related_name="SP_Period_Users") #is_SP_PI = models.BooleanField(default=False) class Meta: unique_together = ('SP_Period', 'user') db_table = "sp_period_user" class SP_Period_Guest(models.Model): SP_Period = models.ForeignKey( SP_Period, on_delete=models.DO_NOTHING, related_name="SP_Period_Guests") email = models.EmailField(max_length=254) class Meta: db_table = "sp_period_guest" class SP_PeriodWorkflow(models.Model): SUBMISSION = "SUB" EVALUATION = "EVAL" VALIDATION = "VALI" NOTIFICATION = "NOTI" ACTIONS_CHOICES = ( (SUBMISSION, "Submission"), (EVALUATION, "Evaluation"), (VALIDATION, "Validation"), (NOTIFICATION, "Notification") ) action = models.CharField(max_length=120, choices=ACTIONS_CHOICES) period = models.ForeignKey( "Period", on_delete=models.DO_NOTHING, related_name="SP_Period_Workflows") created = models.DateTimeField(blank=True, null=True, auto_now_add=True) class Meta: db_table = "sp_period_workflow" class Sequence(models.Model): """ Definition of Status enum values """ INVALID = "INVL" DRAFT = "DRAFT" # INCOMPLETE = "INCPL" # COMPLETE = "CPL" TOBEPLANNED = "TBP" PLANNED = "PLND" UNPLANNABLE = "UNPLN" REJECTED = "RJTD" REC_RUNNING = "RUN" REC_FINISHED = "EXD" REC_CANCELED = "CNCLD" PROC_RUNNING = "PROC_RUN" PROC_CANCELED = "PROC_CNCLD" PROC_FINISHED = "PROC_EXD" # PENDING = "PNDG" # EXECUTING = "EXING" # EXECUTED = "EXD" CANCELLED = "CNCLD" STATUS_CHOICES = ( (INVALID, "Invalid"), (DRAFT, "DRAFT"), (TOBEPLANNED, "To be planned"), (PLANNED, "Planned"), (UNPLANNABLE, "Unplannable"), (REJECTED, "Rejected"), (REC_RUNNING, "Recording running"), (REC_FINISHED, "Recording finished"), (REC_CANCELED, "Recording canceled"), (PROC_RUNNING, "Processing running"), (PROC_FINISHED, "Processing finished"), (PROC_CANCELED, "Processing canceled"), (CANCELLED, "Cancelled"), ) START_EXPO_PREF_CHOICES = ( ('IMMEDIATE', 'IMMEDIATE'), ('BEST_ELEVATION', 'BEST_ELEVATION'), ('NO_CONSTRAINT', 'NO_CONSTRAINT'), ) start_expo_pref = models.CharField(max_length=50, blank=False, null=True, choices=START_EXPO_PREF_CHOICES, default=START_EXPO_PREF_CHOICES[0]) # request = models.ForeignKey( # Request, on_delete=models.CASCADE, related_name="sequences") pyros_user = models.ForeignKey( 'PyrosUser', on_delete=models.DO_NOTHING, related_name="sequences", blank=True, null=True) scientific_program = models.ForeignKey( 'ScientificProgram', on_delete=models.DO_NOTHING, related_name="sequences", blank=True, null=True) name = models.CharField(max_length=45, blank=True, null=True, unique=True) desc = models.TextField(blank=True, null=True) created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) last_modified_by = models.ForeignKey( 'PyrosUser', on_delete=models.DO_NOTHING, related_name="+", blank=True, null=True) is_alert = models.BooleanField(default=False) status = models.CharField( max_length=11, blank=True, null=True, choices=STATUS_CHOICES) target_coords = models.CharField(max_length=100, blank=True, null=True) with_drift = models.BooleanField(default=False) priority = models.IntegerField(blank=True, null=True) analysis_method = models.CharField(max_length=45, blank=True, null=True) moon_min = models.IntegerField(blank=True, null=True) alt_min = models.IntegerField(blank=True, null=True) type = models.CharField(max_length=6, blank=True, null=True) img_current = models.CharField(max_length=45, blank=True, null=True) img_total = models.CharField(max_length=45, blank=True, null=True) not_obs = models.BooleanField(default=False) obsolete = models.BooleanField(default=False) processing = models.BooleanField(default=False) flag = models.CharField(max_length=45, blank=True, null=True) period = models.ForeignKey( "Period", on_delete=models.DO_NOTHING, related_name="sequences", blank=True, null=True) start_date = models.DateTimeField( blank=True, null=True, default=timezone.now, editable=True) end_date = models.DateTimeField( blank=True, null=True, default=timezone.now, editable=True) # jd1 et jd2 = julian day start / end jd1 = models.DecimalField(default=0.0, max_digits=15, decimal_places=8) jd2 = models.DecimalField(default=0.0, max_digits=15, decimal_places=8) tolerance_before = models.CharField( max_length=50, default="1s", blank=True, null=True) tolerance_after = models.CharField( max_length=50, default="1min", blank=True, null=True) #t_prefered = models.DecimalField(default=-1.0, max_digits=15, decimal_places=8) duration = models.DecimalField( default=-1.0, max_digits=15, decimal_places=8) # décomposer duration en duration pointing + duration album overhead = models.DecimalField(default=0, max_digits=15, decimal_places=8) submitted = models.BooleanField(default=False) config_attributes = models.JSONField(blank=True, null=True) ra = models.FloatField(blank=True, null=True) dec = models.FloatField(blank=True, null=True) complete = models.BooleanField(default=False, null=True, blank=True) class Meta: managed = True db_table = 'sequence' def __str__(self): return (str(self.name)) class ScheduleHasSequences(models.Model): # (EP) TODO: C'est pas un pb d'utiliser 2 fois le meme nom "shs" pour 2 choses differentes ???!!! schedule = models.ForeignKey( 'Schedule', on_delete=models.CASCADE, related_name="shs") sequence = models.ForeignKey( 'Sequence', on_delete=models.CASCADE, related_name="shs") status = models.CharField( max_length=11, blank=True, null=True, choices=Sequence.STATUS_CHOICES) desc = models.CharField(max_length=45, blank=True, null=True) tsp = models.DecimalField(default=-1.0, max_digits=15, decimal_places=8) tep = models.DecimalField(default=-1.0, max_digits=15, decimal_places=8) deltaTL = models.DecimalField( default=-1.0, max_digits=15, decimal_places=8) deltaTR = models.DecimalField( default=-1.0, max_digits=15, decimal_places=8) class Meta: managed = True db_table = 'schedule_has_sequences' class SiteWatch(models.Model): OPEN = "OPEN" CLOSE = "CLOSE" ON = "ON" OFF = "OFF" global_status = models.CharField(max_length=255, blank=True, null=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) lights = models.CharField(max_length=45, blank=True, null=True) dome = models.CharField(max_length=45, blank=True, null=True) doors = models.CharField(max_length=45, blank=True, null=True) temperature = models.FloatField(blank=True, null=True) shutter = models.FloatField(blank=True, null=True) pressure = models.FloatField(blank=True, null=True) humidity = models.FloatField(blank=True, null=True) power_input = models.IntegerField(blank=True, null=True) class Meta: managed = True db_table = 'sitewatch' verbose_name_plural = "Site watches" def __str__(self): return (str(self.__dict__)) # TODO def setGlobalStatus(self): self.global_status = "" if self.doors and self.doors.find("open") != -1: self.global_status += "DOOR_OPEN " if self.lights and self.lights == "on": self.global_status += "LIGHTS_ON " if self.temperature and float(self.temperature) > 40: self.global_status += "TOO_HOT " if self.humidity and float(self.humidity) > 80: self.global_status += "HUMIDITY_TOO_HIGH " if self.global_status == "": self.global_status = "OK" return 0 # TODO HANDLE FLAT LAMPS ... def setAttribute(self, key, value): self.doors = "" if key == "InsideHumidity": self.humidity = value elif key == "Pressure": self.pressure = value elif key == "InsideTemp": self.temperature = value elif key == "Roof_state": self.dome = value elif key == "Power_input": self.power_input = value else: return 1 return 0 class SiteWatchHistory(models.Model): id = models.IntegerField(primary_key=True) class Meta: managed = True db_table = 'sitewatchhistory' verbose_name_plural = "Site watch histories" class StrategyObs(models.Model): name = models.CharField(max_length=45, blank=True, null=True) desc = models.TextField(blank=True, null=True) xml_file = models.CharField(max_length=45, blank=True, null=True) is_default = models.BooleanField(default=False) class Meta: managed = True db_table = 'strategyobs' verbose_name_plural = "Strategy obs" def __str__(self): return (str(self.name)) # TODO: à virer car utilisé pour Celery (ou bien à utiliser pour les agents) class TaskId(models.Model): task = models.CharField(max_length=45, blank=True, null=True) created = models.DateTimeField(blank=True, null=True, auto_now_add=True) task_id = models.CharField(max_length=45, blank=True, null=True) class Meta: managed = True db_table = 'task_id' def __str__(self): return (str(self.task) + " - " + str(self.task_id)) class Telescope(Device): TELESCOPE = "Telescope" mount_type = models.CharField(max_length=9, blank=True, null=True) diameter = models.FloatField(blank=True, null=True) latitude = models.FloatField(blank=True, null=True) longitude = models.FloatField(blank=True, null=True) sens = models.CharField(max_length=1, blank=True, null=True) altitude = models.FloatField(blank=True, null=True) readout_time = models.IntegerField(blank=True, null=True) slew_time = models.IntegerField(blank=True, null=True) slew_dead = models.IntegerField(blank=True, null=True) slew_rate_max = models.FloatField(blank=True, null=True) horizon_type = models.CharField(max_length=45, blank=True, null=True) horizon_def = models.FloatField(blank=True, null=True) lim_dec_max = models.FloatField(blank=True, null=True) lim_dec_min = models.FloatField(blank=True, null=True) lim_ha_rise = models.FloatField(blank=True, null=True) lim_ha_set = models.FloatField(blank=True, null=True) address = models.CharField(max_length=45, blank=True, null=True) night_elev_sun = models.FloatField(blank=True, null=True) mpc_code = models.CharField(max_length=45, blank=True, null=True) class Meta: managed = True db_table = 'telescope' def __str__(self): return (self.name) class TelescopeCommand(models.Model): created = models.DateTimeField(blank=True, null=True, auto_now_add=True) answered = models.DateTimeField(blank=True, null=True) request = models.CharField(blank=False, null=False, max_length=255) answer = models.TextField(null=True, blank=True) class Meta: managed = True db_table = "telescopecommand" def __str__(self): return str(self.request) + str(self.created) class UserLevel(models.Model): name = models.CharField(max_length=45, blank=True, null=True) desc = models.TextField(blank=True, null=True) priority = models.IntegerField(blank=True, null=True) quota = models.FloatField(blank=True, null=True) class Meta: managed = True db_table = 'user_level' def __str__(self): return (str(self.name)) class Version(models.Model): module_name = models.CharField(max_length=45, blank=True, null=True) version = models.CharField(max_length=15, blank=True, null=True) created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) class Meta: managed = True db_table = 'version' def __str__(self): return (str(self.module_name) + " - " + str(self.version)) class WeatherWatch(models.Model): WIND_LIMIT = 100 RAIN_LIMIT = 5 global_status = models.CharField(max_length=255, blank=True, null=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) humidity = models.FloatField(blank=True, null=True) wind = models.FloatField(blank=True, null=True) wind_dir = models.CharField(max_length=45, blank=True, null=True) temperature = models.FloatField(blank=True, null=True) pressure = models.FloatField(blank=True, null=True) rain = models.FloatField(blank=True, null=True) cloud = models.FloatField(blank=True, null=True) class Meta: managed = True db_table = 'weatherwatch' verbose_name_plural = "Weather watches" def __str__(self): return (str(self.__dict__)) # TODO def setGlobalStatus(self): # print(self.rain) self.global_status = "" if self.rain and float(self.rain) > 0: self.global_status += "RAINING " if self.wind and float(self.wind) > 80: self.global_status += "WIND_TOO_STRONG " if self.humidity and float(self.humidity) > 80: self.global_status += "HUMIDITY_TOO_HIGH " if self.cloud and float(self.cloud) > 10: self.global_status += "TOO_MUCH_CLOUDY " if self.global_status == "": self.global_status = "OK" return 0 def setAttribute(self, key, value): if key == "Rain_boolean": self.rain = value elif key == "_CloudRate": self.cloud = value elif key == "Wind_speed": self.wind = value elif key == "Wind_direction": self.wind_dir = value elif key == "Temperature_outside": self.temperature = value elif key == "Humidity_outside": self.humidity = value elif key == "_Pressure": self.pressure = value else: return 1 return 0 class WeatherWatchHistory(models.Model): weather = models.ForeignKey('WeatherWatch', on_delete=models.DO_NOTHING, related_name="weatherhistory", null=True, blank=True) datetime = models.DateTimeField(blank=True, null=True, auto_now_add=True) humid_int = models.FloatField(blank=True, null=True) humid_ext = models.CharField(max_length=45, blank=True, null=True) wind = models.CharField(max_length=45, blank=True, null=True) wind_dir = models.CharField(max_length=45, blank=True, null=True) temp_int = models.CharField(max_length=45, blank=True, null=True) temp_ext = models.CharField(max_length=45, blank=True, null=True) pressure = models.CharField(max_length=45, blank=True, null=True) rain = models.CharField(max_length=45, blank=True, null=True) dwn = models.CharField(max_length=45, blank=True, null=True) humidity = models.FloatField(blank=True, null=True) wind = models.FloatField(blank=True, null=True) wind_dir = models.CharField(max_length=45, blank=True, null=True) temperature = models.FloatField(blank=True, null=True) cloud = models.FloatField(blank=True, null=True) class Meta: managed = True db_table = 'weatherwatchhistory' verbose_name_plural = "Weather watch histories" def __str__(self): return (str(self.datetime)) def setAttribute(self, key, value): if key == "Rain_boolean": self.rain = value elif key == "_CloudRate": self.cloud = value elif key == "Wind_speed": self.wind = value elif key == "Wind_direction": self.wind_dir = value elif key == "Temperature_outside": self.temperature = value elif key == "Humidity_outside": self.humidity = value elif key == "_Pressure": self.pressure = value else: return 1 return 0 class Majordome(models.Model): created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) # Software Modes AUTO_MODE = "AUTO" MANUAL_MODE = "MANUAL" SOFT_MODE_CHOICES = ( (AUTO_MODE, 'Auto mode'), (MANUAL_MODE, 'Manual mode'), ) DAY_MODE = "DAY" NIGHT_MODE = "NIGHT" OBS_MODE_CHOICES = ( (DAY_MODE, "Day mode"), (NIGHT_MODE, "Night mode") ) soft_mode = models.CharField( choices=SOFT_MODE_CHOICES, default=AUTO_MODE, max_length=15 ) obs_mode = models.CharField( choices = OBS_MODE_CHOICES, default = DAY_MODE, max_length=15 ) @classmethod def object(cls): return cls._default_manager.first() def save(self, *args, **kwargs): self.pk = self.id = 1 return super().save(*args, **kwargs) class Tickets: created = models.DateTimeField(blank=True, null=True, auto_now_add=True) updated = models.DateTimeField(blank=True, null=True, auto_now=True) end = models.DateTimeField(blank=True, null=True) title = models.TextField(blank=True, null=True) description = models.TextField(blank=True, null=True) resolution = models.TextField(blank=True, null=True) pyros_user = models.ForeignKey( 'PyrosUser', on_delete=models.DO_NOTHING, related_name="sequences", blank=True, null=True) last_modified_by = models.ForeignKey( 'PyrosUser', on_delete=models.DO_NOTHING, related_name="+", blank=True, null=True) LEVEL_ONE = "ONE" LEVEL_TWO = "TWO" LEVEL_THREE = "THREE" LEVEL_FOUR = "FOUR" LEVEL_FIVE = "FIVE" SECURITY_LEVEL_CHOICES = ( (LEVEL_ONE,"Warning non compromising for the operation of the system"), (LEVEL_TWO,"Known issue which can be solved by operating the software remotely"), (LEVEL_THREE,"Known issue which can be solved by an human remotely"), (LEVEL_FOUR,"Known issue without immediate solution"), (LEVEL_FIVE,"Issue not categorized until it happened") ) security_level = models.TextField(choices=SECURITY_LEVEL_CHOICES, default=LEVEL_ONE)