""" Data service module for fetching and processing mining data. """ import logging import re import time import json from datetime import datetime, timedelta from zoneinfo import ZoneInfo from concurrent.futures import ThreadPoolExecutor import requests from bs4 import BeautifulSoup from models import OceanData, WorkerData, convert_to_ths from config import get_timezone class MiningDashboardService: """Service for fetching and processing mining dashboard data.""" def __init__(self, power_cost, power_usage, wallet, network_fee=0.0): """ Initialize the mining dashboard service. Args: power_cost (float): Cost of power in $ per kWh power_usage (float): Power usage in watts wallet (str): Bitcoin wallet address for Ocean.xyz network_fee (float): Additional network fee percentage """ self.power_cost = power_cost self.power_usage = power_usage self.wallet = wallet self.network_fee = network_fee self.cache = {} self.sats_per_btc = 100_000_000 self.previous_values = {} self.session = requests.Session() def fetch_metrics(self): """ Fetch metrics from Ocean.xyz and other sources. Returns: dict: Mining metrics data """ # Add execution time tracking start_time = time.time() try: with ThreadPoolExecutor(max_workers=2) as executor: future_ocean = executor.submit(self.get_ocean_data) future_btc = executor.submit(self.get_bitcoin_stats) try: ocean_data = future_ocean.result(timeout=15) btc_stats = future_btc.result(timeout=15) except Exception as e: logging.error(f"Error fetching metrics concurrently: {e}") return None if ocean_data is None: logging.error("Failed to retrieve Ocean data") return None difficulty, network_hashrate, btc_price, block_count = btc_stats # If we failed to get network hashrate, use a reasonable default to prevent division by zero if network_hashrate is None: logging.warning("Using default network hashrate") network_hashrate = 500e18 # ~500 EH/s as a reasonable fallback # If we failed to get BTC price, use a reasonable default if btc_price is None: logging.warning("Using default BTC price") btc_price = 75000 # $75,000 as a reasonable fallback # Convert hashrates to a common unit (TH/s) for consistency hr3 = ocean_data.hashrate_3hr or 0 hr3_unit = (ocean_data.hashrate_3hr_unit or 'th/s').lower() local_hashrate = convert_to_ths(hr3, hr3_unit) * 1e12 # Convert to H/s for calculation hash_proportion = local_hashrate / network_hashrate if network_hashrate else 0 block_reward = 3.125 blocks_per_day = 86400 / 600 daily_btc_gross = hash_proportion * block_reward * blocks_per_day # Use actual pool fees instead of hardcoded values # Get the pool fee percentage from ocean_data, default to 2.0% if not available pool_fee_percent = ocean_data.pool_fees_percentage if ocean_data.pool_fees_percentage is not None else 2.0 # Get the network fee from the configuration (default to 0.0% if not set) from config import load_config config = load_config() network_fee_percent = config.get("network_fee", 0.0) # Calculate total fee percentage (converting from percentage to decimal) total_fee_rate = (pool_fee_percent + network_fee_percent) / 100.0 # Calculate net BTC accounting for actual fees daily_btc_net = daily_btc_gross * (1 - total_fee_rate) # Log the fee calculations for transparency logging.info(f"Earnings calculation using pool fee: {pool_fee_percent}% + network fee: {network_fee_percent}%") logging.info(f"Total fee rate: {total_fee_rate}, Daily BTC gross: {daily_btc_gross}, Daily BTC net: {daily_btc_net}") daily_revenue = round(daily_btc_net * btc_price, 2) if btc_price is not None else None daily_power_cost = round((self.power_usage / 1000) * self.power_cost * 24, 2) daily_profit_usd = round(daily_revenue - daily_power_cost, 2) if daily_revenue is not None else None monthly_profit_usd = round(daily_profit_usd * 30, 2) if daily_profit_usd is not None else None daily_mined_sats = int(round(daily_btc_net * self.sats_per_btc)) monthly_mined_sats = daily_mined_sats * 30 # Use default 0 for earnings if scraping returned None. estimated_earnings_per_day = ocean_data.estimated_earnings_per_day if ocean_data.estimated_earnings_per_day is not None else 0 estimated_earnings_next_block = ocean_data.estimated_earnings_next_block if ocean_data.estimated_earnings_next_block is not None else 0 estimated_rewards_in_window = ocean_data.estimated_rewards_in_window if ocean_data.estimated_rewards_in_window is not None else 0 metrics = { 'pool_total_hashrate': ocean_data.pool_total_hashrate, 'pool_total_hashrate_unit': ocean_data.pool_total_hashrate_unit, 'hashrate_24hr': ocean_data.hashrate_24hr, 'hashrate_24hr_unit': ocean_data.hashrate_24hr_unit, 'hashrate_3hr': ocean_data.hashrate_3hr, 'hashrate_3hr_unit': ocean_data.hashrate_3hr_unit, 'hashrate_10min': ocean_data.hashrate_10min, 'hashrate_10min_unit': ocean_data.hashrate_10min_unit, 'hashrate_5min': ocean_data.hashrate_5min, 'hashrate_5min_unit': ocean_data.hashrate_5min_unit, 'hashrate_60sec': ocean_data.hashrate_60sec, 'hashrate_60sec_unit': ocean_data.hashrate_60sec_unit, 'workers_hashing': ocean_data.workers_hashing, 'btc_price': btc_price, 'block_number': block_count, 'network_hashrate': (network_hashrate / 1e18) if network_hashrate else None, 'difficulty': difficulty, 'daily_btc_gross': daily_btc_gross, 'daily_btc_net': daily_btc_net, 'pool_fee_percent': pool_fee_percent, 'network_fee_percent': network_fee_percent, 'total_fee_rate': total_fee_rate, 'estimated_earnings_per_day': estimated_earnings_per_day, 'daily_revenue': daily_revenue, 'daily_power_cost': daily_power_cost, 'daily_profit_usd': daily_profit_usd, 'monthly_profit_usd': monthly_profit_usd, 'daily_mined_sats': daily_mined_sats, 'monthly_mined_sats': monthly_mined_sats, 'estimated_earnings_next_block': estimated_earnings_next_block, 'estimated_rewards_in_window': estimated_rewards_in_window, 'unpaid_earnings': ocean_data.unpaid_earnings, 'est_time_to_payout': ocean_data.est_time_to_payout, 'last_block_height': ocean_data.last_block_height, 'last_block_time': ocean_data.last_block_time, 'total_last_share': ocean_data.total_last_share, 'blocks_found': ocean_data.blocks_found or "0", 'last_block_earnings': ocean_data.last_block_earnings, 'pool_fees_percentage': ocean_data.pool_fees_percentage, } metrics['estimated_earnings_per_day_sats'] = int(round(estimated_earnings_per_day * self.sats_per_btc)) metrics['estimated_earnings_next_block_sats'] = int(round(estimated_earnings_next_block * self.sats_per_btc)) metrics['estimated_rewards_in_window_sats'] = int(round(estimated_rewards_in_window * self.sats_per_btc)) # --- Add server timestamps to the response in Los Angeles Time --- metrics["server_timestamp"] = datetime.now(ZoneInfo(get_timezone())).isoformat() metrics["server_start_time"] = datetime.now(ZoneInfo(get_timezone())).isoformat() # Log execution time execution_time = time.time() - start_time metrics["execution_time"] = execution_time if execution_time > 10: logging.warning(f"Metrics fetch took {execution_time:.2f} seconds") else: logging.info(f"Metrics fetch completed in {execution_time:.2f} seconds") return metrics except Exception as e: logging.error(f"Unexpected error in fetch_metrics: {e}") return None def get_ocean_data(self): """ Get mining data from Ocean.xyz. Returns: OceanData: Ocean.xyz mining data """ base_url = "https://ocean.xyz" stats_url = f"{base_url}/stats/{self.wallet}" headers = { 'User-Agent': 'Mozilla/5.0', 'Accept': 'text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8', 'Cache-Control': 'no-cache' } # Create an empty data object to populate data = OceanData() try: response = self.session.get(stats_url, headers=headers, timeout=10) if not response.ok: logging.error(f"Error fetching ocean data: status code {response.status_code}") return None soup = BeautifulSoup(response.text, 'html.parser') # Safely extract pool status information try: pool_status = soup.find("p", id="pool-status-item") if pool_status: text = pool_status.get_text(strip=True) m_total = re.search(r'HASHRATE:\s*([\d\.]+)\s*(\w+/s)', text, re.IGNORECASE) if m_total: raw_val = float(m_total.group(1)) unit = m_total.group(2) data.pool_total_hashrate = raw_val data.pool_total_hashrate_unit = unit span = pool_status.find("span", class_="pool-status-newline") if span: last_block_text = span.get_text(strip=True) m_block = re.search(r'LAST BLOCK:\s*(\d+\s*\(.*\))', last_block_text, re.IGNORECASE) if m_block: full_last_block = m_block.group(1) data.last_block = full_last_block match = re.match(r'(\d+)\s*\((.*?)\)', full_last_block) if match: data.last_block_height = match.group(1) data.last_block_time = match.group(2) else: data.last_block_height = full_last_block data.last_block_time = "" except Exception as e: logging.error(f"Error parsing pool status: {e}") # Parse the earnings value from the earnings table and convert to sats. try: earnings_table = soup.find('tbody', id='earnings-tablerows') if earnings_table: latest_row = earnings_table.find('tr', class_='table-row') if latest_row: cells = latest_row.find_all('td', class_='table-cell') if len(cells) >= 4: # Ensure there are enough cells for earnings and pool fees earnings_text = cells[2].get_text(strip=True) pool_fees_text = cells[3].get_text(strip=True) # Parse earnings and pool fees earnings_value = earnings_text.replace('BTC', '').strip() pool_fees_value = pool_fees_text.replace('BTC', '').strip() try: # Convert earnings to BTC and sats btc_earnings = float(earnings_value) sats = int(round(btc_earnings * 100_000_000)) data.last_block_earnings = str(sats) # Calculate percentage lost to pool fees btc_pool_fees = float(pool_fees_value) percentage_lost = (btc_pool_fees / btc_earnings) * 100 if btc_earnings > 0 else 0 data.pool_fees_percentage = round(percentage_lost, 2) except Exception as e: logging.error(f"Error converting earnings or calculating percentage: {e}") data.last_block_earnings = earnings_value data.pool_fees_percentage = None except Exception as e: logging.error(f"Error parsing earnings data: {e}") # Parse hashrate data from the hashrates table try: time_mapping = { '24 hrs': ('hashrate_24hr', 'hashrate_24hr_unit'), '3 hrs': ('hashrate_3hr', 'hashrate_3hr_unit'), '10 min': ('hashrate_10min', 'hashrate_10min_unit'), '5 min': ('hashrate_5min', 'hashrate_5min_unit'), '60 sec': ('hashrate_60sec', 'hashrate_60sec_unit') } hashrate_table = soup.find('tbody', id='hashrates-tablerows') if hashrate_table: for row in hashrate_table.find_all('tr', class_='table-row'): cells = row.find_all('td', class_='table-cell') if len(cells) >= 2: period_text = cells[0].get_text(strip=True).lower() hashrate_str = cells[1].get_text(strip=True).lower() try: parts = hashrate_str.split() hashrate_val = float(parts[0]) unit = parts[1] if len(parts) > 1 else 'th/s' for key, (attr, unit_attr) in time_mapping.items(): if key.lower() in period_text: setattr(data, attr, hashrate_val) setattr(data, unit_attr, unit) break except Exception as e: logging.error(f"Error parsing hashrate '{hashrate_str}': {e}") except Exception as e: logging.error(f"Error parsing hashrate table: {e}") # Parse lifetime stats data try: lifetime_snap = soup.find('div', id='lifetimesnap-statcards') if lifetime_snap: for container in lifetime_snap.find_all('div', class_='blocks dashboard-container'): label_div = container.find('div', class_='blocks-label') if label_div: label_text = label_div.get_text(strip=True).lower() earnings_span = label_div.find_next('span', class_=lambda x: x != 'tooltiptext') if earnings_span: span_text = earnings_span.get_text(strip=True) try: earnings_value = float(span_text.split()[0].replace(',', '')) if "earnings" in label_text and "day" in label_text: data.estimated_earnings_per_day = earnings_value except Exception: pass except Exception as e: logging.error(f"Error parsing lifetime stats: {e}") # Parse payout stats data try: payout_snap = soup.find('div', id='payoutsnap-statcards') if payout_snap: for container in payout_snap.find_all('div', class_='blocks dashboard-container'): label_div = container.find('div', class_='blocks-label') if label_div: label_text = label_div.get_text(strip=True).lower() earnings_span = label_div.find_next('span', class_=lambda x: x != 'tooltiptext') if earnings_span: span_text = earnings_span.get_text(strip=True) try: earnings_value = float(span_text.split()[0].replace(',', '')) if "earnings" in label_text and "block" in label_text: data.estimated_earnings_next_block = earnings_value elif "rewards" in label_text and "window" in label_text: data.estimated_rewards_in_window = earnings_value except Exception: pass except Exception as e: logging.error(f"Error parsing payout stats: {e}") # Parse user stats data try: usersnap = soup.find('div', id='usersnap-statcards') if usersnap: for container in usersnap.find_all('div', class_='blocks dashboard-container'): label_div = container.find('div', class_='blocks-label') if label_div: label_text = label_div.get_text(strip=True).lower() value_span = label_div.find_next('span', class_=lambda x: x != 'tooltiptext') if value_span: span_text = value_span.get_text(strip=True) if "workers currently hashing" in label_text: try: data.workers_hashing = int(span_text.replace(",", "")) except Exception: pass elif "unpaid earnings" in label_text and "btc" in span_text.lower(): try: data.unpaid_earnings = float(span_text.split()[0].replace(',', '')) except Exception: pass elif "estimated time until minimum payout" in label_text: data.est_time_to_payout = span_text except Exception as e: logging.error(f"Error parsing user stats: {e}") # Parse blocks found data try: blocks_container = soup.find(lambda tag: tag.name == "div" and "blocks found" in tag.get_text(strip=True).lower()) if blocks_container: span = blocks_container.find_next_sibling("span") if span: num_match = re.search(r'(\d+)', span.get_text(strip=True)) if num_match: data.blocks_found = num_match.group(1) except Exception as e: logging.error(f"Error parsing blocks found: {e}") # Parse last share time data try: workers_table = soup.find("tbody", id="workers-tablerows") if workers_table: for row in workers_table.find_all("tr", class_="table-row"): cells = row.find_all("td") if cells and cells[0].get_text(strip=True).lower().startswith("total"): last_share_str = cells[2].get_text(strip=True) try: naive_dt = datetime.strptime(last_share_str, "%Y-%m-%d %H:%M") utc_dt = naive_dt.replace(tzinfo=ZoneInfo("UTC")) la_dt = utc_dt.astimezone(ZoneInfo(get_timezone())) data.total_last_share = la_dt.strftime("%Y-%m-%d %I:%M %p") except Exception as e: logging.error(f"Error converting last share time '{last_share_str}': {e}") data.total_last_share = last_share_str break except Exception as e: logging.error(f"Error parsing last share time: {e}") return data except Exception as e: logging.error(f"Error fetching Ocean data: {e}") return None def debug_dump_table(self, table_element, max_rows=3): """ Helper method to dump the structure of an HTML table for debugging. Args: table_element: BeautifulSoup element representing the table max_rows (int): Maximum number of rows to output """ if not table_element: logging.debug("Table element is None - cannot dump structure") return try: rows = table_element.find_all('tr', class_='table-row') logging.debug(f"Found {len(rows)} rows in table") # Dump header row if present header_row = table_element.find_parent('table').find('thead') if header_row: header_cells = header_row.find_all('th') header_texts = [cell.get_text(strip=True) for cell in header_cells] logging.debug(f"Header: {header_texts}") # Dump a sample of the data rows for i, row in enumerate(rows[:max_rows]): cells = row.find_all('td', class_='table-cell') cell_texts = [cell.get_text(strip=True) for cell in cells] logging.debug(f"Row {i}: {cell_texts}") # Also look at raw HTML for problematic cells for j, cell in enumerate(cells): logging.debug(f"Row {i}, Cell {j} HTML: {cell}") except Exception as e: logging.error(f"Error dumping table structure: {e}") def fetch_url(self, url: str, timeout: int = 5): """ Fetch URL with error handling. Args: url (str): URL to fetch timeout (int): Timeout in seconds Returns: Response: Request response or None if failed """ try: return self.session.get(url, timeout=timeout) except Exception as e: logging.error(f"Error fetching {url}: {e}") return None def get_bitcoin_stats(self): """ Fetch Bitcoin network statistics with improved error handling and caching. Returns: tuple: (difficulty, network_hashrate, btc_price, block_count) """ urls = { "difficulty": "https://blockchain.info/q/getdifficulty", "hashrate": "https://blockchain.info/q/hashrate", "ticker": "https://blockchain.info/ticker", "blockcount": "https://blockchain.info/q/getblockcount" } # Use previous cached values as defaults if available difficulty = self.cache.get("difficulty") network_hashrate = self.cache.get("network_hashrate") btc_price = self.cache.get("btc_price") block_count = self.cache.get("block_count") try: with ThreadPoolExecutor(max_workers=4) as executor: futures = {key: executor.submit(self.fetch_url, url) for key, url in urls.items()} responses = {key: futures[key].result(timeout=5) for key in futures} # Process each response individually with error handling if responses["difficulty"] and responses["difficulty"].ok: try: difficulty = float(responses["difficulty"].text) self.cache["difficulty"] = difficulty except (ValueError, TypeError) as e: logging.error(f"Error parsing difficulty: {e}") if responses["hashrate"] and responses["hashrate"].ok: try: network_hashrate = float(responses["hashrate"].text) * 1e9 self.cache["network_hashrate"] = network_hashrate except (ValueError, TypeError) as e: logging.error(f"Error parsing network hashrate: {e}") if responses["ticker"] and responses["ticker"].ok: try: ticker_data = responses["ticker"].json() btc_price = float(ticker_data.get("USD", {}).get("last", btc_price)) self.cache["btc_price"] = btc_price except (ValueError, TypeError, json.JSONDecodeError) as e: logging.error(f"Error parsing BTC price: {e}") if responses["blockcount"] and responses["blockcount"].ok: try: block_count = int(responses["blockcount"].text) self.cache["block_count"] = block_count except (ValueError, TypeError) as e: logging.error(f"Error parsing block count: {e}") except Exception as e: logging.error(f"Error fetching Bitcoin stats: {e}") return difficulty, network_hashrate, btc_price, block_count def get_all_worker_rows(self): """ Iterate through wpage parameter values to collect all worker table rows. Limited to 10 pages to balance between showing enough workers and maintaining performance. Returns: list: A list of BeautifulSoup row elements containing worker data. """ all_rows = [] page_num = 0 max_pages = 10 # Limit to 10 pages of worker data while page_num < max_pages: # Only fetch up to max_pages url = f"https://ocean.xyz/stats/{self.wallet}?wpage={page_num}#workers-fulltable" logging.info(f"Fetching worker data from: {url} (page {page_num+1} of max {max_pages})") response = self.session.get(url, timeout=15) if not response.ok: logging.error(f"Error fetching page {page_num}: status code {response.status_code}") break soup = BeautifulSoup(response.text, 'html.parser') workers_table = soup.find('tbody', id='workers-tablerows') if not workers_table: logging.debug(f"No workers table found on page {page_num}") break rows = workers_table.find_all("tr", class_="table-row") if not rows: logging.debug(f"No worker rows found on page {page_num}, stopping pagination") break logging.info(f"Found {len(rows)} worker rows on page {page_num}") all_rows.extend(rows) page_num += 1 if page_num >= max_pages: logging.info(f"Reached maximum page limit ({max_pages}). Collected {len(all_rows)} worker rows total.") else: logging.info(f"Completed fetching all available worker data. Collected {len(all_rows)} worker rows from {page_num} pages.") return all_rows def get_worker_data(self): """ Get worker data from Ocean.xyz using multiple parsing strategies. Tries different approaches to handle changes in the website structure. Validates worker names to ensure they're not status indicators. Returns: dict: Worker data dictionary with stats and list of workers """ logging.info("Attempting to get worker data from Ocean.xyz") # First try the alternative method as it's more robust result = self.get_worker_data_alternative() # Check if alternative method succeeded and found workers with valid names if result and result.get('workers') and len(result['workers']) > 0: # Validate workers - check for invalid names has_valid_workers = False for worker in result['workers']: name = worker.get('name', '').lower() if name and name not in ['online', 'offline', 'total', 'worker', 'status']: has_valid_workers = True break if has_valid_workers: logging.info(f"Alternative worker data method successful: {len(result['workers'])} workers with valid names") return result else: logging.warning("Alternative method found workers but with invalid names") # If alternative method failed or found workers with invalid names, try the original method logging.info("Trying original worker data method") result = self.get_worker_data_original() # Check if original method succeeded and found workers with valid names if result and result.get('workers') and len(result['workers']) > 0: # Validate workers - check for invalid names has_valid_workers = False for worker in result['workers']: name = worker.get('name', '').lower() if name and name not in ['online', 'offline', 'total', 'worker', 'status']: has_valid_workers = True break if has_valid_workers: logging.info(f"Original worker data method successful: {len(result['workers'])} workers with valid names") return result else: logging.warning("Original method found workers but with invalid names") # If both methods failed or found workers with invalid names, use fallback data logging.warning("Both worker data fetch methods failed to get valid names, using fallback data") # Try to get worker count from cached metrics workers_count = 0 if hasattr(self, 'cached_metrics') and self.cached_metrics: workers_count = self.cached_metrics.get('workers_hashing', 0) # If no cached metrics, try to get from somewhere else if workers_count <= 0 and result and result.get('workers_total'): workers_count = result.get('workers_total') # Ensure we have at least 1 worker workers_count = max(1, workers_count) logging.info(f"Using fallback data generation with {workers_count} workers") return None # Rename the original method to get_worker_data_original def get_worker_data_original(self): """ Original implementation to get worker data from Ocean.xyz. Returns: dict: Worker data dictionary with stats and list of workers """ base_url = "https://ocean.xyz" stats_url = f"{base_url}/stats/{self.wallet}" headers = { 'User-Agent': 'Mozilla/5.0', 'Accept': 'text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8', 'Cache-Control': 'no-cache' } try: logging.info(f"Fetching worker data from {stats_url}") response = self.session.get(stats_url, headers=headers, timeout=15) if not response.ok: logging.error(f"Error fetching ocean worker data: status code {response.status_code}") return None soup = BeautifulSoup(response.text, 'html.parser') # Parse worker data from the workers table workers = [] total_hashrate = 0 total_earnings = 0 workers_table = soup.find('tbody', id='workers-tablerows') if not workers_table: logging.error("Workers table not found in Ocean.xyz page") return None # Debug: Dump table structure to help diagnose parsing issues self.debug_dump_table(workers_table) # Find total worker counts workers_online = 0 workers_offline = 0 # Iterate through worker rows in the table for row in workers_table.find_all('tr', class_='table-row'): cells = row.find_all('td', class_='table-cell') # Skip rows that don't have enough cells for basic info if len(cells) < 3: logging.warning(f"Worker row has too few cells: {len(cells)}") continue try: # Extract worker name from the first cell name_cell = cells[0] name_text = name_cell.get_text(strip=True) # Skip the total row if name_text.lower() == 'total': logging.debug("Skipping total row") continue logging.debug(f"Processing worker: {name_text}") # Create worker object with safer extraction worker = { "name": name_text.strip(), "status": "offline", # Default to offline "type": "ASIC", # Default type "model": "Unknown", "hashrate_60sec": 0, "hashrate_60sec_unit": "TH/s", "hashrate_3hr": 0, "hashrate_3hr_unit": "TH/s", "efficiency": 90.0, # Default efficiency "last_share": "N/A", "earnings": 0, "power_consumption": 0, "temperature": 0 } # Parse status from second cell if available if len(cells) > 1: status_cell = cells[1] status_text = status_cell.get_text(strip=True).lower() worker["status"] = "online" if "online" in status_text else "offline" # Update counter based on status if worker["status"] == "online": workers_online += 1 else: workers_offline += 1 # Parse last share time if len(cells) > 2: last_share_cell = cells[2] worker["last_share"] = last_share_cell.get_text(strip=True) # Parse 60sec hashrate if available if len(cells) > 3: hashrate_60s_cell = cells[3] hashrate_60s_text = hashrate_60s_cell.get_text(strip=True) # Parse hashrate_60sec and unit with more robust handling try: parts = hashrate_60s_text.split() if parts and len(parts) > 0: # First part should be the number try: numeric_value = float(parts[0]) worker["hashrate_60sec"] = numeric_value # Second part should be the unit if it exists if len(parts) > 1 and 'btc' not in parts[1].lower(): worker["hashrate_60sec_unit"] = parts[1] except ValueError: # If we can't convert to float, it might be a non-numeric value logging.warning(f"Could not parse 60s hashrate value: {parts[0]}") except Exception as e: logging.error(f"Error parsing 60s hashrate '{hashrate_60s_text}': {e}") # Parse 3hr hashrate if available if len(cells) > 4: hashrate_3hr_cell = cells[4] hashrate_3hr_text = hashrate_3hr_cell.get_text(strip=True) # Parse hashrate_3hr and unit with more robust handling try: parts = hashrate_3hr_text.split() if parts and len(parts) > 0: # First part should be the number try: numeric_value = float(parts[0]) worker["hashrate_3hr"] = numeric_value # Second part should be the unit if it exists if len(parts) > 1 and 'btc' not in parts[1].lower(): worker["hashrate_3hr_unit"] = parts[1] # Add to total hashrate (normalized to TH/s for consistency) total_hashrate += convert_to_ths(worker["hashrate_3hr"], worker["hashrate_3hr_unit"]) except ValueError: # If we can't convert to float, it might be a non-numeric value logging.warning(f"Could not parse 3hr hashrate value: {parts[0]}") except Exception as e: logging.error(f"Error parsing 3hr hashrate '{hashrate_3hr_text}': {e}") # Parse earnings if available if len(cells) > 5: earnings_cell = cells[5] earnings_text = earnings_cell.get_text(strip=True) # Parse earnings with more robust handling try: # Remove BTC or other text, keep only the number earnings_value = earnings_text.replace('BTC', '').strip() try: worker["earnings"] = float(earnings_value) total_earnings += worker["earnings"] except ValueError: logging.warning(f"Could not parse earnings value: {earnings_value}") except Exception as e: logging.error(f"Error parsing earnings '{earnings_text}': {e}") # Set worker type based on name (if it can be inferred) lower_name = worker["name"].lower() if 'antminer' in lower_name: worker["type"] = 'ASIC' worker["model"] = 'Bitmain Antminer' elif 'whatsminer' in lower_name: worker["type"] = 'ASIC' worker["model"] = 'MicroBT Whatsminer' elif 'bitaxe' in lower_name or 'nerdqaxe' in lower_name: worker["type"] = 'Bitaxe' worker["model"] = 'BitAxe Gamma 601' workers.append(worker) except Exception as e: logging.error(f"Error parsing worker row: {e}") continue # Get daily sats from the ocean data daily_sats = 0 try: # Try to get this from the payoutsnap card payout_snap = soup.find('div', id='payoutsnap-statcards') if payout_snap: for container in payout_snap.find_all('div', class_='blocks dashboard-container'): label_div = container.find('div', class_='blocks-label') if label_div and "earnings per day" in label_div.get_text(strip=True).lower(): value_span = label_div.find_next('span') if value_span: value_text = value_span.get_text(strip=True) try: btc_per_day = float(value_text.split()[0]) daily_sats = int(btc_per_day * self.sats_per_btc) except (ValueError, IndexError): pass except Exception as e: logging.error(f"Error parsing daily sats: {e}") # Check if we found any workers if not workers: logging.warning("No workers found in the table, possibly a parsing issue") return None # Return worker stats dictionary result = { 'workers': workers, 'total_hashrate': total_hashrate, 'hashrate_unit': 'TH/s', # Always use TH/s for consistent display 'workers_total': len(workers), 'workers_online': workers_online, 'workers_offline': workers_offline, 'total_earnings': total_earnings, 'daily_sats': daily_sats, 'timestamp': datetime.now(ZoneInfo(get_timezone())).isoformat() } logging.info(f"Successfully retrieved worker data: {len(workers)} workers") return result except Exception as e: logging.error(f"Error fetching Ocean worker data: {e}") import traceback logging.error(traceback.format_exc()) return None def get_worker_data_alternative(self): """ Alternative implementation to get worker data from Ocean.xyz. This version consolidates worker rows from all pages using the wpage parameter. Returns: dict: Worker data dictionary with stats and list of workers. """ try: logging.info("Fetching worker data across multiple pages (alternative method)") # Get all worker rows from every page rows = self.get_all_worker_rows() if not rows: logging.error("No worker rows found across any pages") return None workers = [] total_hashrate = 0 total_earnings = 0 workers_online = 0 workers_offline = 0 invalid_names = ['online', 'offline', 'status', 'worker', 'total'] # Process each row from all pages for row_idx, row in enumerate(rows): cells = row.find_all(['td', 'th']) if not cells or len(cells) < 3: continue first_cell_text = cells[0].get_text(strip=True) if first_cell_text.lower() in invalid_names: continue try: worker_name = first_cell_text or f"Worker_{row_idx+1}" worker = { "name": worker_name, "status": "online", # Default assumption "type": "ASIC", "model": "Unknown", "hashrate_60sec": 0, "hashrate_60sec_unit": "TH/s", "hashrate_3hr": 0, "hashrate_3hr_unit": "TH/s", "efficiency": 90.0, "last_share": "N/A", "earnings": 0, "power_consumption": 0, "temperature": 0 } # Extract status from second cell if available if len(cells) > 1: status_text = cells[1].get_text(strip=True).lower() worker["status"] = "online" if "online" in status_text else "offline" if worker["status"] == "online": workers_online += 1 else: workers_offline += 1 # Parse last share from third cell if available if len(cells) > 2: worker["last_share"] = cells[2].get_text(strip=True) # Parse 60sec hashrate from fourth cell if available if len(cells) > 3: hashrate_60s_text = cells[3].get_text(strip=True) try: parts = hashrate_60s_text.split() if parts: worker["hashrate_60sec"] = float(parts[0]) if len(parts) > 1: worker["hashrate_60sec_unit"] = parts[1] except ValueError: logging.warning(f"Could not parse 60-sec hashrate: {hashrate_60s_text}") # Parse 3hr hashrate from fifth cell if available if len(cells) > 4: hashrate_3hr_text = cells[4].get_text(strip=True) try: parts = hashrate_3hr_text.split() if parts: worker["hashrate_3hr"] = float(parts[0]) if len(parts) > 1: worker["hashrate_3hr_unit"] = parts[1] # Normalize and add to total hashrate (using your convert_to_ths helper) total_hashrate += convert_to_ths(worker["hashrate_3hr"], worker["hashrate_3hr_unit"]) except ValueError: logging.warning(f"Could not parse 3hr hashrate: {hashrate_3hr_text}") # Look for earnings in any cell containing 'btc' for cell in cells: cell_text = cell.get_text(strip=True) if "btc" in cell_text.lower(): try: earnings_match = re.search(r'([\d\.]+)', cell_text) if earnings_match: worker["earnings"] = float(earnings_match.group(1)) total_earnings += worker["earnings"] except Exception: pass # Set worker type based on name lower_name = worker["name"].lower() if 'antminer' in lower_name: worker["type"] = 'ASIC' worker["model"] = 'Bitmain Antminer' elif 'whatsminer' in lower_name: worker["type"] = 'ASIC' worker["model"] = 'MicroBT Whatsminer' elif 'bitaxe' in lower_name or 'nerdqaxe' in lower_name: worker["type"] = 'Bitaxe' worker["model"] = 'BitAxe Gamma 601' if worker["name"].lower() not in invalid_names: workers.append(worker) except Exception as e: logging.error(f"Error parsing worker row: {e}") continue if not workers: logging.error("No valid worker data parsed") return None result = { 'workers': workers, 'total_hashrate': total_hashrate, 'hashrate_unit': 'TH/s', 'workers_total': len(workers), 'workers_online': workers_online, 'workers_offline': workers_offline, 'total_earnings': total_earnings, 'timestamp': datetime.now(ZoneInfo(get_timezone())).isoformat() } logging.info(f"Successfully retrieved {len(workers)} workers across multiple pages") return result except Exception as e: logging.error(f"Error in alternative worker data fetch: {e}") return None