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gpage.py
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gpage.py
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from flask import Flask, request, jsonify, render_template
from passlib.hash import argon2
import sqlite3
from datetime import datetime
import time
import re
app = Flask(__name__)
# Global variables to hold cached difficulty level and the time it was fetched
cached_difficulty = None
last_fetched_time = 0
def create_database():
conn = sqlite3.connect('blocks.db')
c = conn.cursor()
c.execute('CREATE TABLE IF NOT EXISTS blocks (block_id INTEGER PRIMARY KEY AUTOINCREMENT, hash_to_verify TEXT, key TEXT UNIQUE, account TEXT)')
c.execute('CREATE TABLE IF NOT EXISTS account_performance (account TEXT PRIMARY KEY, hashes_per_second REAL)')
c.execute('CREATE TABLE IF NOT EXISTS super_blocks (account TEXT, super_block_count INTEGER)')
conn.commit()
conn.close()
from flask import Flask, render_template
import sqlite3
app = Flask(__name__)
# Initialize cache dictionary and last fetched time
difficulty_cache = {}
last_fetched_time = {}
from datetime import datetime
def is_within_five_minutes_of_hour():
timestamp = datetime.now()
minutes = timestamp.minute
print ("My minutes ", minutes)
return 0 <= minutes < 5 or 55 <= minutes < 60
# Specify the file path where you want to save the messages
log_file_path = './error_log_filr.log'
def log_verification_failure(message, account):
current_time = datetime.now().strftime('%Y-%m-%d %H:%M:%S')
log_file_path = "your_log_file.log"
with open(log_file_path, 'a') as log_file:
log_file.write(f"{current_time} - Issued 401: {account}. Message: {message}\n")
# Function to get difficulty level
def get_difficulty(account=None):
global difficulty_cache, last_fetched_time # Declare as global to modify them
# Generate a cache key based on the account
cache_key = account if account else "default"
# Get the current time
current_time = time.time()
# Check if the cache has not expired (assuming 60 seconds as the cache duration)
if cache_key in last_fetched_time and (current_time - last_fetched_time[cache_key] < 60):
return difficulty_cache[cache_key]
# Otherwise, fetch from database
conn = sqlite3.connect('difficulty.db') # Replace with your actual database name
cursor = conn.cursor()
if account:
cursor.execute('SELECT difficulty FROM difficulty_table WHERE account = ? LIMIT 1;', (account,))
difficulty_level = cursor.fetchone()
if difficulty_level is None:
cursor.execute('SELECT level FROM difficulty LIMIT 1;')
difficulty_level = cursor.fetchone()
else:
cursor.execute('SELECT level FROM difficulty LIMIT 1;')
difficulty_level = cursor.fetchone()
conn.close()
# Update the cache and the last fetched time
if difficulty_level:
difficulty_cache[cache_key] = str(difficulty_level[0])
else:
difficulty_cache[cache_key] = '8' # or some default value
last_fetched_time[cache_key] = current_time
return difficulty_cache[cache_key]
# Function to get difficulty level
def get_difficulty2(account=None):
global cached_difficulty, last_fetched_time # Declare as global to modify them
# Check if it has been more than 60 seconds since the last fetch
current_time = time.time()
if current_time - last_fetched_time < 10:
return cached_difficulty
# Connect to SQLite database
conn = sqlite3.connect('blocks.db', timeout=10) # Replace with your actual database name
cursor = conn.cursor()
# Execute SQL query to fetch difficulty level
cursor.execute('SELECT level FROM difficulty LIMIT 1;')
difficulty_level = cursor.fetchone()
# Close connection
conn.close()
# Update last fetched time
last_fetched_time = current_time
# Update cached difficulty and return
if difficulty_level:
cached_difficulty = str(difficulty_level[0])
return cached_difficulty
else:
cached_difficulty = '8' # Return '8' or some default if no difficulty level is found
return cached_difficulty
@app.route('/difficulty', methods=['GET'])
@app.route('/difficulty/<account>', methods=['GET'])
def difficulty(account=None):
difficulty_level = get_difficulty(account)
# Check if difficulty level exists
if difficulty_level:
return jsonify({"difficulty": difficulty_level}), 200
else:
return jsonify({"error": "Difficulty level not found."}), 404
@app.route('/get_xuni_counts', methods=['GET'])
def get_account_counts():
# Initialize database connection
conn = sqlite3.connect('blocks.db')
cursor = conn.cursor()
try:
# Run the SQL query
cursor.execute("SELECT account, COUNT(*) as n FROM xuni GROUP BY account ORDER BY n;")
data = cursor.fetchall()
# Close database connection
conn.close()
# Prepare the result in JSON format
result = [{"account": account, "count": n} for account, n in data]
return jsonify(result)
except sqlite3.Error as e:
print("Database error:", e)
# Close database connection in case of an error
conn.close()
return jsonify({"error": "Database error"}), 500
@app.route('/blockrate_per_day', methods=['GET'])
def blockrate_per_day():
try:
with sqlite3.connect('blocks.db') as conn:
c = conn.cursor()
c.execute('''
SELECT account, num_blocks
FROM AccountBlockCounts
ORDER BY num_blocks DESC
LIMIT 1000
''')
rows = c.fetchall()
# Convert rows into a list of dictionaries for JSON representation
users_list = [{"account": row[0], "num_blocks": row[1]} for row in rows]
return jsonify(users_list), 200
except Exception as e:
return jsonify({"error": "An error occurred: " + str(e)}), 500
@app.route('/leaderboard', methods=['GET'])
def leaderboard():
global difficulty
difficulty=get_difficulty()
# Connect to the cache database
cache_conn = sqlite3.connect('cache.db', timeout=10)
cache_c = cache_conn.cursor()
# Read from the cache table for leaderboard data
cache_c.execute("SELECT * FROM cache_table ORDER BY total_blocks DESC LIMIT 500")
results = cache_c.fetchall()
cache_conn.close()
# Calculate global statistics from the original blocks database
conn = sqlite3.connect('blocks.db', timeout=10)
c = conn.cursor()
c.execute('''SELECT SUM(attempts) as total_attempts,
strftime('%s', MAX(timestamp)) - strftime('%s', MIN(timestamp)) as total_time
FROM (SELECT * FROM account_attempts ORDER BY timestamp DESC LIMIT 100000)''')
result = c.fetchone()
total_attempts, total_time = result
total_attempts_per_second = total_attempts / (total_time if total_time != 0 else 1)
conn.close()
# Get the latest rate from the difficulty database
diff_conn = sqlite3.connect('difficulty.db', timeout=10)
diff_c = diff_conn.cursor()
diff_c.execute("SELECT rate FROM blockrate ORDER BY id DESC LIMIT 1")
latest_rate = diff_c.fetchone()
diff_c.execute("SELECT total_miners FROM miners ORDER BY id DESC LIMIT 1")
latest_miners = diff_c.fetchone()
diff_conn.close()
if latest_miners:
latest_miners = latest_miners[0]
else:
latest_miners = 0 # Default value if no data is found
if latest_rate:
latest_rate = latest_rate[0]
else:
latest_rate = 0 # Default value if no rate is found
leaderboard = [(rank + 1, account, total_blocks, round(hashes_per_second, 2), super_blocks)
for rank, (account, total_blocks, hashes_per_second, super_blocks) in enumerate(results)]
return render_template('leaderboard4.html', leaderboard=leaderboard,
total_attempts_per_second=int(round(total_attempts_per_second, 2) / 1000),
latest_rate=latest_rate, latest_miners=latest_miners, difficulty=difficulty)
@app.route('/total_blocks', methods=['GET'])
def total_blocks():
conn = sqlite3.connect('blocks.db')
c = conn.cursor()
# Query to get the latest block_id from the `blocks` table
c.execute('SELECT block_id FROM blocks ORDER BY block_id DESC LIMIT 1')
result = c.fetchone()
last_block_id = result[0] if result else None
conn.close()
return jsonify({'total_blocks_top100': last_block_id})
@app.route('/hash_rate', methods=['GET'])
def hash_rate():
conn = sqlite3.connect('blocks.db')
c = conn.cursor()
# Get the sum of all attempts and the time range for the last 10,000 records
c.execute('''SELECT SUM(attempts) as total_attempts,
strftime('%s', MAX(timestamp)) - strftime('%s', MIN(timestamp)) as total_time
FROM (SELECT * FROM account_attempts ORDER BY timestamp DESC LIMIT 50000)''')
# Rest of your code
result = c.fetchone()
conn.close()
total_attempts, total_time = result
total_attempts_per_second = total_attempts / (total_time if total_time != 0 else 1)
return render_template('hash_rate.html', total_attempts_per_second=total_attempts_per_second)
# Temporary storage for batch insertion
account_attempts_batch = []
blocks_batch = []
batch_size = 1
def is_valid_sha256(s):
"""Check if s is a valid SHA-256 hash."""
return re.match(r'^[a-fA-F0-9]{64}$', s) is not None
def is_hexadecimal(s):
"""Check if s is a hexadecimal string."""
return re.match(r'^[a-fA-F0-9]*$', s) is not None
def check_fourth_element(string):
pattern = re.compile(r'(?:[^$]*\$){3}WEVOMTAwODIwMjJYRU4\$')
match = pattern.search(string)
return bool(match)
@app.route('/verify', methods=['POST'])
def verify_hash():
global account_attempts_batch, blocks_batch
data = request.json
hash_to_verify = data.get('hash_to_verify')
hash_to_verify = hash_to_verify if (hash_to_verify and len(hash_to_verify) <= 140) else None
is_xuni_present = re.search('XUNI[0-9]', hash_to_verify[-87:]) is not None
key = data.get('key')
key = key if (key and len(key) <= 128) else None
account = data.get('account')
if account is not None:
account = str(account).lower().replace("'", "").replace('"', '')
account = account if len(account) <= 43 else None
attempts = data.get('attempts')
difficulty = 0
# Check if key is a hexadecimal string
if not is_hexadecimal(key):
return jsonify({"error": "Invalid key format"}), 400
if not check_fourth_element(hash_to_verify):
return jsonify({"error": "Invalid salt format"}), 400
# Check for missing data
if not hash_to_verify or not key or not account:
return jsonify({"error": "Missing hash_to_verify, key, or account"}), 400
# Get difficulty level from the database
old_difficulty = difficulty;
difficulty = get_difficulty()
submitted_difficulty = int(re.search(r'm=(\d+)', hash_to_verify).group(1))
strict_check = False
if f'm={difficulty}' in hash_to_verify and is_xuni_present:
strict_check = True
#if f'm={difficulty}' not in hash_to_verify:
# print ("Compare diff ", submitted_difficulty, int(difficulty))
if submitted_difficulty < int(difficulty):
#if abs(submitted_difficulty - int(difficulty)) > 50:
print ("This Generates 401 for difficulty being too low", submitted_difficulty, int(difficulty))
error_message = f"Hash does not contain 'm={difficulty}'. Your memory_cost setting in your miner will be autoadjusted."
log_verification_failure(error_message, account)
return jsonify({"message": error_message}), 401
stored_targets = ['XEN11'] # Adjusted list to exclude 'XUNI' since we will search for it differently
found = False
for target in stored_targets:
if target in hash_to_verify[-87:]:
found = True
print("Found Target:", target)
# Search for XUNI followed by a number
if re.search('XUNI[0-9]', hash_to_verify[-87:]) is not None:
found = True
print("Found Target: XUNI[0-9]")
if not found:
print (hash_to_verify)
error_message = f"Hash does not contain any of the valid targets {stored_targets} in the last 87 characters. Adjust target_substr in your miner."
log_verification_failure(error_message, account)
print (error_message, hash_to_verify[-87:])
return jsonify({"message": error_message}), 401
if len(hash_to_verify) > 137:
error_message = "Length of hash_to_verify should not be greater than 137 characters."
print (error_message)
log_verification_failure(error_message, account)
return jsonify({"message": error_message}), 401
if argon2.verify(key, hash_to_verify):
timestamp = datetime.now().strftime('%Y-%m-%d %H:%M:%S')
is_xen11_present = 'XEN11' in hash_to_verify[-87:]
is_xuni_present = re.search('XUNI[0-9]', hash_to_verify[-87:]) is not None
# disable XUNI
# is_xuni_present = False
conn = sqlite3.connect('blocks.db')
conn.execute('PRAGMA journal_mode = wal')
c = conn.cursor()
try:
# If XUNI is present and time is within 5 minutes of the hour, then insert to DB
if is_xuni_present and is_within_five_minutes_of_hour():
print("XUNI submitted and added to batch")
c.execute('''INSERT INTO xuni (hash_to_verify, key, account)
VALUES (?, ?, ?)''', (hash_to_verify, key, account))
elif is_xen11_present: # no time restrictions for XEN11
print("XEN11 hash added to batch")
c.execute('''INSERT INTO blocks (hash_to_verify, key, account)
VALUES (?, ?, ?)''', (hash_to_verify, key, account))
else:
return jsonify({"message": "XUNI found outside of time window"}), 401
c.execute('''INSERT OR IGNORE INTO account_attempts (account, timestamp, attempts)
VALUES (?, ?, ?)''', (account, timestamp, attempts))
print("Attempts ", account, (account, timestamp, attempts))
print("This Generates 200 for difficulty being good", submitted_difficulty, int(difficulty))
print("Inserting hash into db: ", hash_to_verify)
conn.commit()
except sqlite3.IntegrityError as e:
error_message = e.args[0] if e.args else "Unknown IntegrityError"
print(f"Error: {error_message} ", hash_to_verify, key, account)
return jsonify({"message": f"Error detected: {error_message}"}), 400
finally:
conn.close()
return jsonify({"message": "Hash verified successfully and block saved."}), 200
else:
print ("Hash verification failed")
return jsonify({"message": "Hash verification failed."}), 401
@app.route('/validate', methods=['POST'])
def store_consensus():
data = request.json
total_count = data.get('total_count')
my_ethereum_address = data.get('my_ethereum_address')
last_block_id = data.get('last_block_id')
last_block_hash = data.get('last_block_hash')
try:
conn = sqlite3.connect('blocks.db')
c = conn.cursor()
c.execute('''INSERT INTO consensus (total_count, my_ethereum_address, last_block_id, last_block_hash)
VALUES (?, ?, ?, ?)''',
(total_count, my_ethereum_address, last_block_id, last_block_hash))
conn.commit()
conn.close()
return jsonify({"status": "success"})
except Exception as e:
return jsonify({"status": "error", "message": str(e)})
@app.route('/latest_blockrate', methods=['GET'])
def get_latest_blockrate():
try:
# Connect to the difficulty database
conn = sqlite3.connect('difficulty.db')
cursor = conn.cursor()
# Query the latest blockrate using "ORDER BY id DESC LIMIT 1" for better performance
cursor.execute("SELECT id, date, rate FROM blockrate ORDER BY id DESC LIMIT 1")
record = cursor.fetchone()
if record is None:
return jsonify({"error": "No blockrate data found"}), 404
# Close the database connection
conn.close()
# Prepare the result in JSON format
result = {
"id": record[0],
"date": record[1],
"rate": record[2]
}
return jsonify(result), 200
except Exception as e:
return jsonify({"error": str(e)}), 500
@app.route('/total_blocks2', methods=['GET'])
def total_blocks2():
account = request.args.get('account')
if not account:
return jsonify({"error": "Missing account"}), 400
conn = sqlite3.connect('blocks.db')
c = conn.cursor()
c.execute('SELECT COUNT(block_id) FROM blocks WHERE account = ?', (account,))
result = c.fetchone()
conn.close()
return jsonify({"total_blocks": result[0]}), 200