""" Async S3 storage client for multi-agent MCTS framework. Provides: - aioboto3 async client - Retry strategy with tenacity - Exponential backoff for failures - Content-hash based idempotent keys - Store: configs, MCTS stats, traces, logs - Compression support """ import asyncio import gzip import hashlib import json import os from dataclasses import dataclass, field from datetime import datetime from typing import Any import aioboto3 from botocore.config import Config as BotoConfig from botocore.exceptions import ClientError from tenacity import ( retry, retry_if_exception_type, stop_after_attempt, wait_exponential, ) from src.observability.logging import get_logger @dataclass class S3Config: """Configuration for S3 storage client.""" bucket_name: str = field(default_factory=lambda: os.environ.get("S3_BUCKET_NAME", "mcts-framework-storage")) region_name: str = field(default_factory=lambda: os.environ.get("AWS_REGION", "us-east-1")) endpoint_url: str | None = field(default_factory=lambda: os.environ.get("S3_ENDPOINT_URL")) # Retry configuration max_retries: int = 5 initial_wait_seconds: float = 1.0 max_wait_seconds: float = 60.0 exponential_base: float = 2.0 # Storage options enable_compression: bool = True compression_threshold_bytes: int = 1024 # Compress if larger than 1KB use_content_hash_keys: bool = True # Prefixes for different data types prefix_configs: str = "configs/" prefix_mcts_stats: str = "mcts-stats/" prefix_traces: str = "traces/" prefix_logs: str = "logs/" prefix_checkpoints: str = "checkpoints/" class S3StorageClient: """ Async S3 storage client with retry logic and compression. Features: - Automatic retries with exponential backoff - Content-hash based idempotent keys for deduplication - Gzip compression for large payloads - Organized storage by data type """ def __init__(self, config: S3Config | None = None): """ Initialize S3 storage client. Args: config: S3 configuration (uses environment variables if not provided) """ self.config = config or S3Config() self.logger = get_logger("storage.s3") self._session: aioboto3.Session | None = None self._initialized = False # boto3 config with retries and timeouts self._boto_config = BotoConfig( retries={"max_attempts": 3, "mode": "adaptive"}, connect_timeout=10, read_timeout=30, max_pool_connections=25, ) async def initialize(self) -> None: """Initialize the aioboto3 session.""" if self._initialized: return self._session = aioboto3.Session() self._initialized = True self.logger.info(f"S3 client initialized for bucket: {self.config.bucket_name}") async def close(self) -> None: """Close the client (cleanup if needed).""" self._initialized = False self.logger.info("S3 client closed") def _get_client_params(self) -> dict[str, Any]: """Get parameters for S3 client context manager.""" params = { "region_name": self.config.region_name, "config": self._boto_config, } if self.config.endpoint_url: params["endpoint_url"] = self.config.endpoint_url return params def _compute_content_hash(self, data: bytes) -> str: """Compute SHA256 hash of content for idempotent keys.""" return hashlib.sha256(data).hexdigest() def _compress_data(self, data: bytes) -> bytes: """Compress data using gzip.""" return gzip.compress(data) def _decompress_data(self, data: bytes) -> bytes: """Decompress gzip data.""" return gzip.decompress(data) def _should_compress(self, data: bytes) -> bool: """Determine if data should be compressed.""" return self.config.enable_compression and len(data) >= self.config.compression_threshold_bytes def _generate_key( self, prefix: str, name: str, data: bytes | None = None, timestamp: datetime | None = None, ) -> str: """ Generate S3 key for object. Args: prefix: Storage prefix (e.g., configs/, logs/) name: Object name data: Optional data for content-hash key generation timestamp: Optional timestamp for key Returns: Full S3 key """ if timestamp is None: timestamp = datetime.utcnow() date_prefix = timestamp.strftime("%Y/%m/%d") if self.config.use_content_hash_keys and data: content_hash = self._compute_content_hash(data)[:12] return f"{prefix}{date_prefix}/{name}_{content_hash}" else: timestamp_str = timestamp.strftime("%H%M%S_%f") return f"{prefix}{date_prefix}/{name}_{timestamp_str}" @retry( retry=retry_if_exception_type((ClientError, asyncio.TimeoutError)), stop=stop_after_attempt(5), wait=wait_exponential(multiplier=1, min=1, max=60), reraise=True, ) async def _put_object_with_retry( self, key: str, body: bytes, content_type: str = "application/octet-stream", metadata: dict[str, str] | None = None, ) -> dict[str, Any]: """ Put object to S3 with retry logic. Uses tenacity for exponential backoff retry strategy. """ if not self._session: await self.initialize() async with self._session.client("s3", **self._get_client_params()) as s3: extra_args = { "ContentType": content_type, } if metadata: extra_args["Metadata"] = metadata response = await s3.put_object( Bucket=self.config.bucket_name, Key=key, Body=body, **extra_args, ) self.logger.debug( "Uploaded object to S3", extra={ "s3_key": key, "size_bytes": len(body), "etag": response.get("ETag"), }, ) return { "key": key, "etag": response.get("ETag"), "size_bytes": len(body), "version_id": response.get("VersionId"), } @retry( retry=retry_if_exception_type((ClientError, asyncio.TimeoutError)), stop=stop_after_attempt(5), wait=wait_exponential(multiplier=1, min=1, max=60), reraise=True, ) async def _get_object_with_retry(self, key: str) -> bytes: """ Get object from S3 with retry logic. """ if not self._session: await self.initialize() async with self._session.client("s3", **self._get_client_params()) as s3: response = await s3.get_object( Bucket=self.config.bucket_name, Key=key, ) async with response["Body"] as stream: data = await stream.read() self.logger.debug( "Downloaded object from S3", extra={ "s3_key": key, "size_bytes": len(data), }, ) return data async def store_config( self, config_name: str, config_data: dict[str, Any], session_id: str | None = None, ) -> dict[str, Any]: """ Store configuration data to S3. Args: config_name: Name of the configuration config_data: Configuration dictionary session_id: Optional session identifier Returns: Upload result with key and metadata """ json_data = json.dumps(config_data, indent=2, default=str).encode("utf-8") key = self._generate_key( prefix=self.config.prefix_configs, name=config_name, data=json_data if self.config.use_content_hash_keys else None, ) if self._should_compress(json_data): body = self._compress_data(json_data) key += ".gz" content_type = "application/gzip" else: body = json_data content_type = "application/json" metadata = { "config_name": config_name, "original_size": str(len(json_data)), "compressed": str(len(body) != len(json_data)), } if session_id: metadata["session_id"] = session_id result = await self._put_object_with_retry(key, body, content_type, metadata) self.logger.info(f"Stored config '{config_name}' to S3: {key}") return result async def store_mcts_stats( self, session_id: str, stats: dict[str, Any], iteration: int | None = None, ) -> dict[str, Any]: """ Store MCTS statistics to S3. Args: session_id: MCTS session identifier stats: Statistics dictionary iteration: Optional iteration number Returns: Upload result """ name = f"{session_id}_stats" if iteration is not None: name += f"_iter{iteration}" json_data = json.dumps(stats, indent=2, default=str).encode("utf-8") key = self._generate_key( prefix=self.config.prefix_mcts_stats, name=name, data=json_data if self.config.use_content_hash_keys else None, ) if self._should_compress(json_data): body = self._compress_data(json_data) key += ".gz" content_type = "application/gzip" else: body = json_data content_type = "application/json" metadata = { "session_id": session_id, "data_type": "mcts_stats", "original_size": str(len(json_data)), } if iteration is not None: metadata["iteration"] = str(iteration) result = await self._put_object_with_retry(key, body, content_type, metadata) self.logger.info(f"Stored MCTS stats for session '{session_id}' to S3: {key}") return result async def store_traces( self, session_id: str, trace_data: dict[str, Any] | list[dict[str, Any]], ) -> dict[str, Any]: """ Store trace data to S3. Args: session_id: Session identifier trace_data: Trace spans/events Returns: Upload result """ json_data = json.dumps(trace_data, indent=2, default=str).encode("utf-8") key = self._generate_key( prefix=self.config.prefix_traces, name=f"{session_id}_traces", data=json_data if self.config.use_content_hash_keys else None, ) if self._should_compress(json_data): body = self._compress_data(json_data) key += ".gz" content_type = "application/gzip" else: body = json_data content_type = "application/json" metadata = { "session_id": session_id, "data_type": "traces", "original_size": str(len(json_data)), } result = await self._put_object_with_retry(key, body, content_type, metadata) self.logger.info(f"Stored traces for session '{session_id}' to S3: {key}") return result async def store_logs( self, session_id: str, log_entries: list[dict[str, Any]], ) -> dict[str, Any]: """ Store log entries to S3. Args: session_id: Session identifier log_entries: List of JSON log entries Returns: Upload result """ # Store as newline-delimited JSON (NDJSON) ndjson_data = "\n".join(json.dumps(entry, default=str) for entry in log_entries).encode("utf-8") key = self._generate_key( prefix=self.config.prefix_logs, name=f"{session_id}_logs", data=ndjson_data if self.config.use_content_hash_keys else None, ) if self._should_compress(ndjson_data): body = self._compress_data(ndjson_data) key += ".gz" content_type = "application/gzip" else: body = ndjson_data key += ".ndjson" content_type = "application/x-ndjson" metadata = { "session_id": session_id, "data_type": "logs", "entry_count": str(len(log_entries)), "original_size": str(len(ndjson_data)), } result = await self._put_object_with_retry(key, body, content_type, metadata) self.logger.info(f"Stored {len(log_entries)} log entries for session '{session_id}' to S3: {key}") return result async def store_checkpoint( self, session_id: str, checkpoint_data: dict[str, Any], checkpoint_name: str = "checkpoint", ) -> dict[str, Any]: """ Store framework checkpoint/state to S3. Args: session_id: Session identifier checkpoint_data: Checkpoint state checkpoint_name: Name for the checkpoint Returns: Upload result """ json_data = json.dumps(checkpoint_data, indent=2, default=str).encode("utf-8") key = self._generate_key( prefix=self.config.prefix_checkpoints, name=f"{session_id}_{checkpoint_name}", data=json_data if self.config.use_content_hash_keys else None, ) if self._should_compress(json_data): body = self._compress_data(json_data) key += ".gz" content_type = "application/gzip" else: body = json_data content_type = "application/json" metadata = { "session_id": session_id, "data_type": "checkpoint", "checkpoint_name": checkpoint_name, "original_size": str(len(json_data)), } result = await self._put_object_with_retry(key, body, content_type, metadata) self.logger.info(f"Stored checkpoint '{checkpoint_name}' for session '{session_id}' to S3: {key}") return result async def retrieve_object(self, key: str) -> bytes: """ Retrieve and decompress object from S3. Args: key: S3 object key Returns: Decompressed data bytes """ data = await self._get_object_with_retry(key) # Auto-decompress if gzip if key.endswith(".gz"): data = self._decompress_data(data) return data async def retrieve_json(self, key: str) -> Any: """ Retrieve JSON object from S3. Args: key: S3 object key Returns: Parsed JSON data """ data = await self.retrieve_object(key) return json.loads(data.decode("utf-8")) async def list_objects( self, prefix: str, max_keys: int = 1000, ) -> list[dict[str, Any]]: """ List objects with given prefix. Args: prefix: S3 key prefix max_keys: Maximum objects to return Returns: List of object metadata """ if not self._session: await self.initialize() async with self._session.client("s3", **self._get_client_params()) as s3: response = await s3.list_objects_v2( Bucket=self.config.bucket_name, Prefix=prefix, MaxKeys=max_keys, ) objects = [] for obj in response.get("Contents", []): objects.append( { "key": obj["Key"], "size": obj["Size"], "last_modified": obj["LastModified"], "etag": obj["ETag"], } ) return objects async def delete_object(self, key: str) -> dict[str, Any]: """ Delete object from S3. Args: key: S3 object key Returns: Deletion result """ if not self._session: await self.initialize() async with self._session.client("s3", **self._get_client_params()) as s3: response = await s3.delete_object( Bucket=self.config.bucket_name, Key=key, ) self.logger.info(f"Deleted object from S3: {key}") return { "key": key, "deleted": True, "version_id": response.get("VersionId"), } async def health_check(self) -> dict[str, Any]: """ Check S3 connectivity and bucket access. Returns: Health check result """ if not self._session: await self.initialize() try: async with self._session.client("s3", **self._get_client_params()) as s3: # Try to head the bucket await s3.head_bucket(Bucket=self.config.bucket_name) return { "status": "healthy", "bucket": self.config.bucket_name, "region": self.config.region_name, "timestamp": datetime.utcnow().isoformat(), } except ClientError as e: error_code = e.response.get("Error", {}).get("Code", "Unknown") return { "status": "unhealthy", "bucket": self.config.bucket_name, "error_code": error_code, "error_message": str(e), "timestamp": datetime.utcnow().isoformat(), }