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chore: moved out classes to files

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kbe
2025-07-20 03:43:27 +02:00
parent 6c8647b11c
commit 1fd4463314
6 changed files with 718 additions and 507 deletions
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book_crossfit.py
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@@ -1,516 +1,14 @@
#!/usr/bin/env python3
# Native modules
import json
import logging
from datetime import datetime, timedelta
import os
import sys
import time
import difflib
# Third-party modules
import requests
from dateutil.parser import parse
import pytz
from dotenv import load_dotenv
from urllib.parse import urlencode
from typing import List, Dict, Optional, Any
load_dotenv()
# Configuration
USERNAME = os.environ.get("CROSSFIT_USERNAME")
PASSWORD = os.environ.get("CROSSFIT_PASSWORD")
if not all([USERNAME, PASSWORD]):
raise ValueError("Missing environment variables: CROSSFIT_USERNAME and/or CROSSFIT_PASSWORD")
APPLICATION_ID = "81560887"
CATEGORY_ID = "677" # Activity category ID for CrossFit
TIMEZONE = "Europe/Paris" # Adjust to your timezone
# TARGET_RESERVATION_TIME = "20:01" # When bookings open (8 PM)
TARGET_RESERVATION_TIME = "21:40" # When bookings open (8 PM)
DEVICE_TYPE = "3"
# Retry configuration
RETRY_MAX = 3
RETRY_BACKOFF = 1
APP_VERSION = "5.09.21"
# Define your preferred sessions
# Format: List of tuples (day_of_week, start_time, session_name_contains)
# day_of_week: 0=Monday, 6=Sunday
PREFERRED_SESSIONS = [
(4, "17:00", "WEIGHTLIFTING"), # Friday 17:00 WEIGHTLIFTING
(5, "12:30", "HYROX"), # Saturday 12:30 HYROX
(2, "18:30", "CONDITIONING"), # Wednesday 18:30 CONDITIONING
# (5, "15:15", "BIG WOD") # Saturday 15:15 BIG WOD
]
# Configure logging once at script startup
logging.basicConfig(
level=logging.DEBUG, # Change to DEBUG for more detailed logs
format='%(asctime)s - %(levelname)s - %(message)s',
handlers=[
logging.FileHandler("log/crossfit_booking.log"),
logging.StreamHandler()
]
)
logging.getLogger("requests").setLevel(logging.WARNING)
logging.info("Logging enhanced with request library noise reduction")
class CrossFitBooker:
def __init__(self) -> None:
"""
Initialize the CrossFitBooker with necessary attributes.
"""
self.auth_token: Optional[str] = None
self.user_id: Optional[str] = None
self.session: requests.Session = requests.Session()
self.base_headers: Dict[str, str] = {
"User-Agent": "Mozilla/5.0 (Macintosh; Intel Mac OS X 10.15; rv:140.0) Gecko/20100101 Firefox/140.0",
"Content-Type": "application/x-www-form-urlencoded",
"Nubapp-Origin": "user_apps",
}
self.session.headers.update(self.base_headers)
# Define mandatory parameters for API calls
self.mandatory_params: Dict[str, str] = {
"app_version": APP_VERSION,
"device_type": DEVICE_TYPE,
"id_application": APPLICATION_ID,
"id_category_activity": CATEGORY_ID
}
def get_auth_headers(self) -> Dict[str, str]:
"""
Return headers with authorization if available.
Returns:
Dict[str, str]: Headers dictionary with authorization if available.
"""
headers: Dict[str, str] = self.base_headers.copy()
if self.auth_token:
headers["Authorization"] = f"Bearer {self.auth_token}"
return headers
def login(self) -> bool:
"""
Authenticate and get the bearer token.
Returns:
bool: True if login is successful, False otherwise.
"""
try:
# First login endpoint
login_params: Dict[str, str] = {
"app_version": APP_VERSION,
"device_type": DEVICE_TYPE,
"username": USERNAME,
"password": PASSWORD
}
response: requests.Response = self.session.post(
"https://sport.nubapp.com/api/v4/users/checkUser.php",
headers={"Content-Type": "application/x-www-form-urlencoded"},
data=urlencode(login_params))
if not response.ok:
logging.error(f"First login step failed: {response.status_code} - {response.text} - Response: {response.text[:100]}")
return False
try:
login_data: Dict[str, Any] = response.json()
self.user_id = str(login_data["data"]["user"]["id_user"])
except KeyError as ke:
logging.error(f"Key error during login: {str(ke)} - Response: {response.text}")
return False
except ValueError as ve:
logging.error(f"Value error during login: {str(ve)} - Response: {response.text}")
return False
# Second login endpoint
response: requests.Response = self.session.post(
"https://sport.nubapp.com/api/v4/login",
headers={"Content-Type": "application/x-www-form-urlencoded;charset=UTF-8"},
data=urlencode({
"device_type": DEVICE_TYPE,
"username": USERNAME,
"password": PASSWORD
}))
if response.ok:
try:
login_data: Dict[str, Any] = response.json()
self.auth_token = login_data.get("token")
except KeyError as ke:
logging.error(f"Key error during login: {str(ke)} - Response: {response.text}")
return False
except ValueError as ve:
logging.error(f"Value error during login: {str(ve)} - Response: {response.text}")
return False
if self.auth_token and self.user_id:
logging.info("Successfully logged in")
return True
else:
logging.error(f"Login failed: {response.status_code} - {response.text} - Response: {response.text[:100]}")
return False
except requests.exceptions.JSONDecodeError:
logging.error("Failed to decode JSON response during login")
return False
except requests.exceptions.RequestException as e:
logging.error(f"Request error during login: {str(e)}")
return False
except Exception as e:
logging.error(f"Unexpected error during login: {str(e)}")
return False
def get_available_sessions(self, start_date: datetime, end_date: datetime) -> Optional[Dict[str, Any]]:
"""
Fetch available sessions from the API with comprehensive error handling.
Args:
start_date (datetime): Start date for fetching sessions.
end_date (datetime): End date for fetching sessions.
Returns:
Optional[Dict[str, Any]]: Dictionary containing available sessions if successful, None otherwise.
"""
if not self.auth_token or not self.user_id:
logging.error("Authentication required - missing token or user ID")
return None
url: str = "https://sport.nubapp.com/api/v4/activities/getActivitiesCalendar.php"
# Prepare request with mandatory parameters
request_data: Dict[str, str] = self.mandatory_params.copy()
request_data.update({
"id_user": self.user_id,
"start_timestamp": start_date.strftime("%d-%m-%Y"),
"end_timestamp": end_date.strftime("%d-%m-%Y")
})
# Add retry logic with exponential backoff and more informative error messages
for retry in range(RETRY_MAX):
try:
try:
response: requests.Response = self.session.post(
url,
headers=self.get_auth_headers(),
data=urlencode(request_data),
timeout=10
)
except requests.exceptions.Timeout:
logging.error(f"Request timed out after 10 seconds for URL: {url}. Retry {retry+1}/{RETRY_MAX}")
return None
except requests.exceptions.ConnectionError as e:
logging.error(f"Connection error for URL: {url} - Error: {str(e)}")
return None
except requests.exceptions.RequestException as e:
logging.error(f"Request failed for URL: {url} - Error: {str(e)}")
return None
break # Success, exit retry loop
except requests.exceptions.JSONDecodeError:
logging.error("Failed to decode JSON response")
return None
except requests.exceptions.RequestException as e:
if retry == RETRY_MAX - 1:
logging.error(f"Final retry failed: {str(e)}")
raise # Propagate error
wait_time: int = RETRY_BACKOFF * (2 ** retry)
logging.warning(f"Request failed (attempt {retry+1}/{RETRY_MAX}): {str(e)}. Retrying in {wait_time}s...")
time.sleep(wait_time)
else:
# All retries exhausted
logging.error(f"Failed after {RETRY_MAX} attempts")
return None
# Handle response
if response.status_code == 200:
try:
json_response: Dict[str, Any] = response.json()
return json_response
except ValueError:
logging.error("Failed to decode JSON response")
return None
elif response.status_code == 400:
logging.error("400 Bad Request - likely missing or invalid parameters")
logging.error(f"Request Data: {request_data}")
logging.error(f"Response: {response.text[:100]}")
return None
elif response.status_code == 401:
logging.error("401 Unauthorized - token may be expired or invalid")
logging.error(f"Response: {response.text[:100]}")
return None
elif 500 <= response.status_code < 600:
logging.error(f"Server error {response.status_code} - Response: {response.text[:100]}")
raise requests.exceptions.ConnectionError(f"Server error {response.status_code}")
else:
logging.error(f"Unexpected status code: {response.status_code}")
return None
def book_session(self, session_id: str) -> bool:
"""
Book a specific session with debug logging.
Args:
session_id (str): ID of the session to book.
Returns:
bool: True if booking is successful, False otherwise.
"""
return self._make_request(
url="https://sport.nubapp.com/api/v4/activities/bookActivityCalendar.php",
data=self._prepare_booking_data(session_id),
success_msg=f"Successfully booked session {session_id}"
)
def _prepare_booking_data(self, session_id: str) -> Dict[str, str]:
"""
Prepare request data for booking a session.
Args:
session_id (str): ID of the session to book.
Returns:
Dict[str, str]: Dictionary containing request data for booking a session.
"""
return {
**self.mandatory_params,
"id_activity_calendar": session_id,
"id_user": self.user_id,
"action_by": self.user_id,
"n_guests": "0",
"booked_on": "3"
}
def _make_request(self, url: str, data: Dict[str, str], success_msg: str) -> bool:
"""
Handle API requests with retry logic and response processing.
Args:
url (str): URL for the API request.
data (Dict[str, str]): Data to send with the request.
success_msg (str): Message to log on successful request.
Returns:
bool: True if request is successful, False otherwise.
"""
for retry in range(RETRY_MAX):
try:
response: requests.Response = self.session.post(
url,
headers=self.get_auth_headers(),
data=urlencode(data),
timeout=10
)
if response.status_code == 200:
json_response: Dict[str, Any] = response.json()
if json_response.get("success", False):
logging.info(success_msg)
return True
logging.error(f"API returned success:false: {json_response}")
return False
logging.error(f"HTTP {response.status_code}: {response.text[:100]}")
return False
except requests.exceptions.JSONDecodeError:
logging.error("Failed to decode JSON response")
return False
except requests.exceptions.RequestException as e:
if retry == RETRY_MAX - 1:
logging.error(f"Final retry failed: {str(e)}")
raise # Propagate error
wait_time: int = RETRY_BACKOFF * (2 ** retry)
logging.warning(f"Request failed (attempt {retry+1}/{RETRY_MAX}): {str(e)}. Retrying in {wait_time}s...")
time.sleep(wait_time)
logging.error(f"Failed to complete request after {RETRY_MAX} attempts")
return False
def is_session_bookable(self, session: Dict[str, Any], current_time: datetime) -> bool:
"""
Check if a session is bookable based on user_info, ignoring error codes.
Args:
session (Dict[str, Any]): Session data.
current_time (datetime): Current time for comparison.
Returns:
bool: True if the session is bookable, False otherwise.
"""
user_info: Dict[str, Any] = session.get("user_info", {})
# First check if can_join is true (primary condition)
if user_info.get("can_join", False):
logging.debug("Session is bookable: can_join is True")
return True
# If can_join is False, check if there's a booking window
booking_date_str: str = user_info.get("unableToBookUntilDate", "")
booking_time_str: str = user_info.get("unableToBookUntilTime", "")
if booking_date_str and booking_time_str:
try:
booking_datetime: datetime = datetime.strptime(
f"{booking_date_str} {booking_time_str}",
"%d-%m-%Y %H:%M"
)
booking_datetime = pytz.timezone(TIMEZONE).localize(booking_datetime)
if current_time >= booking_datetime:
logging.debug(f"Session is bookable: current_time {current_time} >= booking_datetime {booking_datetime}")
return True # Booking window is open
else:
return False # Still waiting for booking to open
except ValueError:
pass # Ignore invalid date formats
# Default case: not bookable
return False
def matches_preferred_session(self, session: Dict[str, Any], current_time: datetime) -> bool:
"""
Check if session matches one of your preferred sessions with fuzzy matching.
Args:
session (Dict[str, Any]): Session data.
current_time (datetime): Current time for comparison.
Returns:
bool: True if the session matches a preferred session, False otherwise.
"""
try:
session_time: datetime = parse(session["start_timestamp"])
if not session_time.tzinfo:
session_time = pytz.timezone(TIMEZONE).localize(session_time)
day_of_week: int = session_time.weekday()
session_time_str: str = session_time.strftime("%H:%M")
session_name: str = session.get("name_activity", "").upper()
for preferred_day, preferred_time, preferred_name in PREFERRED_SESSIONS:
# Exact match first
if (day_of_week == preferred_day and
session_time_str == preferred_time and
preferred_name in session_name):
return True
# Fuzzy match fallback (80% similarity)
ratio: float = difflib.SequenceMatcher(
None,
session_name.lower(),
preferred_name.lower()
).ratio()
if (day_of_week == preferred_day and
abs(session_time.hour - int(preferred_time.split(':')[0])) <= 1 and
ratio >= 0.8):
logging.debug(f"Fuzzy match: {session_name}{preferred_name} ({ratio:.2%})")
return True
return False
except Exception as e:
logging.error(f"Failed to check session: {str(e)} - Session: {session}")
return False
def run_booking_cycle(self, current_time: datetime) -> None:
"""
Run one cycle of checking and booking sessions.
Args:
current_time (datetime): Current time for comparison.
"""
# Calculate date range to check (next 3 days)
start_date: date = current_time.date()
end_date: date = start_date + timedelta(days=3)
# Get available sessions
sessions_data: Optional[Dict[str, Any]] = self.get_available_sessions(start_date, end_date)
if not sessions_data or not sessions_data.get("success", False):
logging.error("No sessions available or error fetching sessions - Sessions Data: {sessions_data}")
return
activities: List[Dict[str, Any]] = sessions_data.get("data", {}).get("activities_calendar", [])
# Find sessions to book (prefered only)
sessions_to_book: List[Tuple[str, Dict[str, Any]]] = []
for session in activities:
if not self.is_session_bookable(session, current_time):
continue
if self.matches_preferred_session(session, current_time):
sessions_to_book.append(("Preferred", session))
if not sessions_to_book:
logging.info("No matching sessions found to book")
return
# Book sessions (preferred first)
sessions_to_book.sort(key=lambda x: 0 if x[0] == "Preferred" else 1)
for session_type, session in sessions_to_book:
session_time: datetime = datetime.strptime(session["start_timestamp"], "%Y-%m-%d %H:%M:%S")
logging.info(f"Attempting to book {session_type} session at {session_time} ({session['name_activity']})")
if self.book_session(session["id_activity_calendar"]):
logging.info(f"Successfully booked {session_type} session at {session_time}")
else:
logging.error(f"Failed to book {session_type} session at {session_time} - Session: {session}")
def run(self) -> None:
"""
Main execution loop.
"""
# Set up timezone
tz: pytz.timezone = pytz.timezone(TIMEZONE)
# Initial login
if not self.login():
logging.error("Authentication failed - exiting program")
return
try:
while True:
try:
current_time: datetime = datetime.now(tz)
logging.info(f"Current time: {current_time}")
# Run booking cycle at the target time or if it's a test, with optimized checking
if current_time.strftime("%H:%M") == TARGET_RESERVATION_TIME:
self.run_booking_cycle(current_time)
# Wait until the next booking window
wait_until = current_time + timedelta(minutes=60)
time.sleep((wait_until - current_time).total_seconds())
else:
# Check again in 5 minutes
time.sleep(300)
except Exception as e:
logging.error(f"Unexpected error in booking cycle: {str(e)} - Traceback: {traceback.format_exc()}")
time.sleep(60) # Wait before retrying after error
except KeyboardInterrupt:
self.quit()
def quit(self) -> None:
"""
Clean up resources and exit the script.
"""
logging.info("Script interrupted by user. Quitting...")
# Add any cleanup code here
exit(0)
import traceback
from crossfit_booker import CrossFitBooker
if __name__ == "__main__":
booker = CrossFitBooker()
if not booker.login():
logging.error("Failed to login - Traceback: {traceback.format_exc()}")
logging.error("Failed to login - Traceback: %s", traceback.format_exc())
exit(1)
# Start continuous booking loop
booker.run()
logging.info("Script completed")