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FServe / http_storage.py

Factor Studios

Update http_storage.py

6ff57b4 verified 5 months ago

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	import requests
	import json
	import numpy as np
	from typing import Dict, Any, Optional, Union
	import threading
	import time
	import hashlib
	import logging
	from requests.adapters import HTTPAdapter
	from urllib3.util.retry import Retry

	class HTTPGPUStorage:
	"""
	HTTP-based GPU storage client that replaces WebSocket functionality.
	Maintains the same interface as WebSocketGPUStorage for backward compatibility.
	"""

	# Singleton instance
	_instance = None
	_lock = threading.Lock()

	def __new__(cls, base_url: str = "https://factorst-intiv.hf.space"):
	with cls._lock:
	if cls._instance is None:
	cls._instance = super().__new__(cls)
	cls._instance._init_singleton(base_url)
	return cls._instance

	def _init_singleton(self, base_url: str):
	"""Initialize the singleton instance"""
	if hasattr(self, 'initialized'):
	return

	self.base_url = base_url.rstrip('/')
	self.api_base = f"{self.base_url}"
	self.session_token = None
	self.session_id = None
	self.lock = threading.Lock()
	self._closing = False
	self.error_count = 0
	self.last_error_time = 0
	self.max_retries = 5

	# Tensor and model registries (maintained for compatibility)
	self.tensor_registry: Dict[str, Dict[str, Any]] = {}
	self.model_registry: Dict[str, Dict[str, Any]] = {}
	self.resource_monitor = {
	'vram_used': 0,
	'active_tensors': 0,
	'loaded_models': set()
	}

	# Configure HTTP session with connection pooling and retries
	self.http_session = requests.Session()

	# Configure retry strategy
	retry_strategy = Retry(
	total=3,
	status_forcelist=[429, 500, 502, 503, 504],
	allowed_methods=["HEAD", "GET", "OPTIONS", "POST", "PUT", "DELETE"], # Updated parameter name
	backoff_factor=1
	)

	adapter = HTTPAdapter(
	max_retries=retry_strategy,
	pool_connections=10,
	pool_maxsize=20
	)

	self.http_session.mount("http://", adapter)
	self.http_session.mount("https://", adapter)

	# Set default headers
	self.http_session.headers.update({
	'Content-Type': 'application/json',
	'User-Agent': 'VirtualGPU-HTTP-Client/2.0'
	})

	# Initialize session
	self._create_session()
	self.initialized = True

	def __init__(self, base_url: str = "https://factorst-intiv.hf.space"):
	"""This will actually just return the singleton instance"""
	pass

	def _create_session(self):
	"""Create HTTP session with the server"""
	try:
	response = self.http_session.post(
	f"{self.api_base}/sessions",
	json={"client_id": "virtual_gpu_client"},
	timeout=30
	)
	response.raise_for_status()

	session_data = response.json()
	self.session_token = session_data['session_token']
	self.session_id = session_data['session_id']

	# Update session headers
	self.http_session.headers.update({
	'Authorization': f'Bearer {self.session_token}'
	})

	logging.info(f"HTTP session created: {self.session_id}")
	return True

	except Exception as e:
	logging.error(f"Failed to create HTTP session: {e}")
	self.error_count += 1
	self.last_error_time = time.time()
	return False

	def _make_request(self, method: str, endpoint: str, **kwargs) -> Optional[Dict[str, Any]]:
	"""Make HTTP request with error handling and retries"""
	if self._closing:
	return {"status": "error", "message": "HTTP client is closing"}

	url = f"{self.api_base}{endpoint}"

	try:
	# Ensure we have a valid session
	if not self.session_token:
	if not self._create_session():
	return {"status": "error", "message": "Failed to create session"}

	response = self.http_session.request(method, url, timeout=30, **kwargs)

	# Handle authentication errors by recreating session
	if response.status_code == 401:
	logging.warning("Session expired, recreating...")
	if self._create_session():
	response = self.http_session.request(method, url, timeout=30, **kwargs)
	else:
	return {"status": "error", "message": "Failed to recreate session"}

	response.raise_for_status()

	# Reset error count on successful request
	self.error_count = 0

	return response.json()

	except requests.exceptions.RequestException as e:
	self.error_count += 1
	self.last_error_time = time.time()
	logging.error(f"HTTP request failed: {e}")
	return {"status": "error", "message": f"HTTP request failed: {str(e)}"}
	except Exception as e:
	self.error_count += 1
	self.last_error_time = time.time()
	logging.error(f"Unexpected error in HTTP request: {e}")
	return {"status": "error", "message": f"Unexpected error: {str(e)}"}

	def store_tensor(self, tensor_id: str, data: np.ndarray, model_size: Optional[int] = None) -> bool:
	"""Store tensor data via HTTP API"""
	try:
	if data is None:
	raise ValueError("Cannot store None tensor")

	# Calculate tensor metadata
	tensor_shape = data.shape
	tensor_dtype = str(data.dtype)
	tensor_size = data.nbytes

	request_data = {
	"data": data.tolist(),
	"metadata": {
	'shape': tensor_shape,
	'dtype': tensor_dtype,
	'size': tensor_size,
	'timestamp': time.time()
	},
	"model_size": model_size if model_size is not None else -1
	}

	response = self._make_request(
	'POST',
	f'/api/v1/vram/blocks/{tensor_id}',
	json=request_data
	)

	if response and response.get('status') == 'success':
	# Update tensor registry
	with self.lock:
	self.tensor_registry[tensor_id] = {
	'shape': tensor_shape,
	'dtype': tensor_dtype,
	'size': tensor_size,
	'timestamp': time.time()
	}
	self.resource_monitor['vram_used'] += tensor_size
	self.resource_monitor['active_tensors'] += 1
	return True
	else:
	logging.error(f"Failed to store tensor {tensor_id}: {response.get('message', 'Unknown error')}")
	return False

	except Exception as e:
	logging.error(f"Error storing tensor {tensor_id}: {str(e)}")
	return False

	def load_tensor(self, tensor_id: str) -> Optional[np.ndarray]:
	"""Load tensor data via HTTP API"""
	try:
	# Check tensor registry first
	if tensor_id not in self.tensor_registry:
	logging.warning(f"Tensor {tensor_id} not registered in VRAM")
	# Still try to load it in case it exists on server

	response = self._make_request('GET', f'/api/v1/vram/blocks/{tensor_id}')

	if response and response.get('status') == 'success':
	data = response.get('data')
	metadata = response.get('metadata', {})

	if data is None:
	logging.error(f"No data found for tensor {tensor_id}")
	return None

	try:
	# Convert to numpy array with correct dtype
	expected_dtype = metadata.get('dtype', 'float32')
	expected_shape = metadata.get('shape')

	arr = np.array(data, dtype=np.dtype(expected_dtype))
	if expected_shape and arr.shape != tuple(expected_shape):
	arr = arr.reshape(expected_shape)

	# Update registry if not present
	if tensor_id not in self.tensor_registry:
	with self.lock:
	self.tensor_registry[tensor_id] = metadata

	return arr

	except Exception as e:
	logging.error(f"Error converting tensor data: {str(e)}")
	return None
	else:
	logging.error(f"Failed to load tensor {tensor_id}: {response.get('message', 'Unknown error')}")
	return None

	except Exception as e:
	logging.error(f"Error loading tensor {tensor_id}: {str(e)}")
	return None

	def store_state(self, component: str, state_id: str, state_data: Dict[str, Any]) -> bool:
	"""Store component state via HTTP API"""
	try:
	request_data = {
	"data": state_data,
	"timestamp": time.time()
	}

	response = self._make_request(
	'POST',
	f'/api/v1/state/{component}/{state_id}',
	json=request_data
	)

	if response and response.get('status') == 'success':
	return True
	else:
	logging.error(f"Failed to store state for {component}/{state_id}: {response.get('message', 'Unknown error')}")
	return False

	except Exception as e:
	logging.error(f"Error storing state for {component}/{state_id}: {str(e)}")
	return False

	def load_state(self, component: str, state_id: str) -> Optional[Dict[str, Any]]:
	"""Load component state via HTTP API"""
	try:
	response = self._make_request("GET", f"/api/v1/state/{component}/{state_id}")

	if response and response.get('status') == 'success':
	return response.get('data')
	else:
	logging.error(f"Failed to load state for {component}/{state_id}: {response.get('message', 'Unknown error')}")
	return None

	except Exception as e:
	logging.error(f"Error loading state for {component}/{state_id}: {str(e)}")
	return None

	def cache_data(self, key: str, data: Any) -> bool:
	"""Cache data via HTTP API"""
	try:
	request_data = {"data": data}

	response = self._make_request(
	'POST',
	f'/api/v1/cache/{key}',
	json=request_data
	)

	return response and response.get('status') == 'success'

	except Exception as e:
	logging.error(f"Error caching data for key {key}: {str(e)}")
	return False

	def get_cached_data(self, key: str) -> Optional[Any]:
	"""Get cached data via HTTP API"""
	try:
	response = self._make_request("GET", f"/api/v1/cache/{key}")

	if response and response.get('status') == 'success':
	return response.get('data')
	return None

	except Exception as e:
	logging.error(f"Error getting cached data for key {key}: {str(e)}")
	return None

	def is_model_loaded(self, model_name: str) -> bool:
	"""Check if a model is loaded via HTTP API"""
	try:
	response = self._make_request("GET", f"/api/v1/models/{model_name}/status")

	if response and response.get('status') == 'loaded':
	return True
	return False

	except Exception as e:
	logging.error(f"Error checking model status for {model_name}: {str(e)}")
	return False

	def load_model(self, model_name: str, model_path: Optional[str] = None, model_data: Optional[Dict] = None) -> bool:
	"""Load a model via HTTP API"""
	try:
	# Check if model is already loaded
	if self.is_model_loaded(model_name):
	logging.info(f"Model {model_name} already loaded")
	return True

	# Calculate model hash if path provided
	model_hash = None
	if model_path:
	model_hash = self._calculate_model_hash(model_path)

	request_data = {
	"model_data": model_data,
	"model_path": model_path,
	"model_hash": model_hash
	}

	response = self._make_request(
	'POST',
	f'/api/v1/models/{model_name}/load',
	json=request_data
	)

	if response and response.get('status') == 'success':
	with self.lock:
	self.model_registry[model_name] = {
	'hash': model_hash,
	'timestamp': time.time(),
	'model_data': model_data
	}
	self.resource_monitor['loaded_models'].add(model_name)
	logging.info(f"Successfully loaded model {model_name}")
	return True
	else:
	logging.error(f"Failed to load model {model_name}: {response.get('message', 'Unknown error')}")
	return False

	except Exception as e:
	logging.error(f"Error loading model {model_name}: {str(e)}")
	return False

	def _calculate_model_hash(self, model_path: str) -> str:
	"""Calculate SHA256 hash of model file"""
	try:
	sha256_hash = hashlib.sha256()
	with open(model_path, "rb") as f:
	for byte_block in iter(lambda: f.read(4096), b""):
	sha256_hash.update(byte_block)
	return sha256_hash.hexdigest()
	except Exception as e:
	logging.error(f"Error calculating model hash: {str(e)}")
	return ""

	def start_inference(self, model_name: str, input_data: np.ndarray) -> Optional[Dict[str, Any]]:
	"""Start inference with a loaded model via HTTP API"""
	try:
	if not self.is_model_loaded(model_name):
	logging.error(f"Model {model_name} not loaded. Please load the model first.")
	return None

	request_data = {
	"input_data": input_data.tolist() if isinstance(input_data, np.ndarray) else input_data
	}

	response = self._make_request(
	'POST',
	f'/api/v1/models/{model_name}/inference',
	json=request_data
	)

	if response and response.get('status') == 'success':
	return {
	'output': np.array(response['output']) if 'output' in response else None,
	'metrics': response.get('metrics', {}),
	'model_info': self.model_registry.get(model_name, {})
	}
	else:
	logging.error(f"Inference failed for model {model_name}: {response.get('message', 'Unknown error')}")
	return None

	except Exception as e:
	logging.error(f"Error during inference for model {model_name}: {str(e)}")
	return None

	def ping(self) -> bool:
	"""Ping the server to check connection status."""
	try: response = self._make_request("GET", f"/api/v1/sessions")
	return response and response.get("session_token") is not None
	except Exception as e:
	logging.error(f"Ping failed: {e}")
	return False

	def is_connected(self) -> bool:
	"""Check if the client is connected to the server."""
	return self.ping()

	def get_connection_status(self) -> Dict[str, Any]:
	"""Get detailed connection status."""
	if self.is_connected():
	return {"status": "connected", "session_id": self.session_id}
	else:
	return {"status": "disconnected", "error_count": self.error_count}

	def set_keep_alive(self, interval: int):
	"""Set keep-alive interval (compatibility method)."""
	logging.info(f"Keep-alive interval set to {interval} seconds (HTTP client does not use websockets).")

	def reconnect(self):
	"""Attempt to reconnect (compatibility method)."""
	logging.info("Attempting to reconnect HTTP client...")
	self._create_session()

	def wait_for_connection(self, timeout: float = 30.0) -> bool:
	"""Wait for HTTP connection to be established (compatibility method)"""
	start_time = time.time()
	while time.time() - start_time < timeout:
	if self.is_connected():
	logging.info("HTTP connection established.")
	return True
	time.sleep(1) # Wait for 1 second before retrying
	logging.error("HTTP connection not established within timeout.")
	return False

	def close(self):
	"""Close HTTP client"""
	self._closing = True
	logging.info("HTTP client is closing.")
	# Invalidate session on server side if possible
	if self.session_token:
	try:
	self.http_session.post(f"{self.api_base}/sessions/invalidate",
	headers={'Authorization': f'Bearer {self.session_token}'},
	timeout=5)
	except Exception as e:
	logging.warning(f"Failed to invalidate session on server: {e}")
	self.http_session.close()
	HTTPGPUStorage._instance = None # Clear singleton instance

	# Compatibility alias for existing code
	WebSocketGPUStorage = HTTPGPUStorage