# Copyright (c) 2023, Lincoln D. Stein """Implementation of multithreaded download queue for invokeai.""" import os import re import threading import time import traceback from pathlib import Path from queue import Empty, PriorityQueue from typing import Any, Dict, List, Literal, Optional, Set import requests from pydantic.networks import AnyHttpUrl from requests import HTTPError from tqdm import tqdm from invokeai.app.services.config import InvokeAIAppConfig, get_config from invokeai.app.services.events.events_base import EventServiceBase from invokeai.app.util.misc import get_iso_timestamp from invokeai.backend.model_manager.metadata import RemoteModelFile from invokeai.backend.util.logging import InvokeAILogger from .download_base import ( DownloadEventHandler, DownloadExceptionHandler, DownloadJob, DownloadJobBase, DownloadJobCancelledException, DownloadJobStatus, DownloadQueueServiceBase, MultiFileDownloadJob, ServiceInactiveException, UnknownJobIDException, ) # Maximum number of bytes to download during each call to requests.iter_content() DOWNLOAD_CHUNK_SIZE = 100000 class DownloadQueueService(DownloadQueueServiceBase): """Class for queued download of models.""" def __init__( self, max_parallel_dl: int = 5, app_config: Optional[InvokeAIAppConfig] = None, event_bus: Optional["EventServiceBase"] = None, requests_session: Optional[requests.sessions.Session] = None, ): """ Initialize DownloadQueue. :param app_config: InvokeAIAppConfig object :param max_parallel_dl: Number of simultaneous downloads allowed [5]. :param requests_session: Optional requests.sessions.Session object, for unit tests. """ self._app_config = app_config or get_config() self._jobs: Dict[int, DownloadJob] = {} self._download_part2parent: Dict[AnyHttpUrl, MultiFileDownloadJob] = {} self._next_job_id = 0 self._queue: PriorityQueue[DownloadJob] = PriorityQueue() self._stop_event = threading.Event() self._job_terminated_event = threading.Event() self._worker_pool: Set[threading.Thread] = set() self._lock = threading.Lock() self._logger = InvokeAILogger.get_logger("DownloadQueueService") self._event_bus = event_bus self._requests = requests_session or requests.Session() self._accept_download_requests = False self._max_parallel_dl = max_parallel_dl def start(self, *args: Any, **kwargs: Any) -> None: """Start the download worker threads.""" with self._lock: if self._worker_pool: raise Exception("Attempt to start the download service twice") self._stop_event.clear() self._start_workers(self._max_parallel_dl) self._accept_download_requests = True def stop(self, *args: Any, **kwargs: Any) -> None: """Stop the download worker threads.""" with self._lock: if not self._worker_pool: raise Exception("Attempt to stop the download service before it was started") self._accept_download_requests = False # reject attempts to add new jobs to queue queued_jobs = [x for x in self.list_jobs() if x.status == DownloadJobStatus.WAITING] active_jobs = [x for x in self.list_jobs() if x.status == DownloadJobStatus.RUNNING] if queued_jobs: self._logger.warning(f"Cancelling {len(queued_jobs)} queued downloads") if active_jobs: self._logger.info(f"Waiting for {len(active_jobs)} active download jobs to complete") with self._queue.mutex: self._queue.queue.clear() self.cancel_all_jobs() self._stop_event.set() for thread in self._worker_pool: thread.join() self._worker_pool.clear() def submit_download_job( self, job: DownloadJob, on_start: Optional[DownloadEventHandler] = None, on_progress: Optional[DownloadEventHandler] = None, on_complete: Optional[DownloadEventHandler] = None, on_cancelled: Optional[DownloadEventHandler] = None, on_error: Optional[DownloadExceptionHandler] = None, ) -> None: """Enqueue a download job.""" if not self._accept_download_requests: raise ServiceInactiveException( "The download service is not currently accepting requests. Please call start() to initialize the service." ) job.id = self._next_id() job.set_callbacks( on_start=on_start, on_progress=on_progress, on_complete=on_complete, on_cancelled=on_cancelled, on_error=on_error, ) self._jobs[job.id] = job self._queue.put(job) def download( self, source: AnyHttpUrl, dest: Path, priority: int = 10, access_token: Optional[str] = None, on_start: Optional[DownloadEventHandler] = None, on_progress: Optional[DownloadEventHandler] = None, on_complete: Optional[DownloadEventHandler] = None, on_cancelled: Optional[DownloadEventHandler] = None, on_error: Optional[DownloadExceptionHandler] = None, ) -> DownloadJob: """Create and enqueue a download job and return it.""" if not self._accept_download_requests: raise ServiceInactiveException( "The download service is not currently accepting requests. Please call start() to initialize the service." ) job = DownloadJob( source=source, dest=dest, priority=priority, access_token=access_token or self._lookup_access_token(source), ) self.submit_download_job( job, on_start=on_start, on_progress=on_progress, on_complete=on_complete, on_cancelled=on_cancelled, on_error=on_error, ) return job def multifile_download( self, parts: List[RemoteModelFile], dest: Path, access_token: Optional[str] = None, submit_job: bool = True, on_start: Optional[DownloadEventHandler] = None, on_progress: Optional[DownloadEventHandler] = None, on_complete: Optional[DownloadEventHandler] = None, on_cancelled: Optional[DownloadEventHandler] = None, on_error: Optional[DownloadExceptionHandler] = None, ) -> MultiFileDownloadJob: mfdj = MultiFileDownloadJob(dest=dest, id=self._next_id()) mfdj.set_callbacks( on_start=on_start, on_progress=on_progress, on_complete=on_complete, on_cancelled=on_cancelled, on_error=on_error, ) for part in parts: url = part.url path = dest / part.path assert path.is_relative_to(dest), "only relative download paths accepted" job = DownloadJob( source=url, dest=path, access_token=access_token, ) mfdj.download_parts.add(job) self._download_part2parent[job.source] = mfdj if submit_job: self.submit_multifile_download(mfdj) return mfdj def submit_multifile_download(self, job: MultiFileDownloadJob) -> None: for download_job in job.download_parts: self.submit_download_job( download_job, on_start=self._mfd_started, on_progress=self._mfd_progress, on_complete=self._mfd_complete, on_cancelled=self._mfd_cancelled, on_error=self._mfd_error, ) def join(self) -> None: """Wait for all jobs to complete.""" self._queue.join() def _next_id(self) -> int: with self._lock: id = self._next_job_id self._next_job_id += 1 return id def list_jobs(self) -> List[DownloadJob]: """List all the jobs.""" return list(self._jobs.values()) def prune_jobs(self) -> None: """Prune completed and errored queue items from the job list.""" with self._lock: to_delete = set() for job_id, job in self._jobs.items(): if job.in_terminal_state: to_delete.add(job_id) for job_id in to_delete: del self._jobs[job_id] def id_to_job(self, id: int) -> DownloadJob: """Translate a job ID into a DownloadJob object.""" try: return self._jobs[id] except KeyError as excp: raise UnknownJobIDException("Unrecognized job") from excp def cancel_job(self, job: DownloadJobBase) -> None: """ Cancel the indicated job. If it is running it will be stopped. job.status will be set to DownloadJobStatus.CANCELLED """ if job.status in [DownloadJobStatus.WAITING, DownloadJobStatus.RUNNING]: job.cancel() def cancel_all_jobs(self) -> None: """Cancel all jobs (those not in enqueued, running or paused state).""" for job in self._jobs.values(): if not job.in_terminal_state: self.cancel_job(job) def wait_for_job(self, job: DownloadJobBase, timeout: int = 0) -> DownloadJobBase: """Block until the indicated job has reached terminal state, or when timeout limit reached.""" start = time.time() while not job.in_terminal_state: if self._job_terminated_event.wait(timeout=0.25): # in case we miss an event self._job_terminated_event.clear() if timeout > 0 and time.time() - start > timeout: raise TimeoutError("Timeout exceeded") return job def _start_workers(self, max_workers: int) -> None: """Start the requested number of worker threads.""" self._stop_event.clear() for i in range(0, max_workers): # noqa B007 worker = threading.Thread(target=self._download_next_item, daemon=True) self._logger.debug(f"Download queue worker thread {worker.name} starting.") worker.start() self._worker_pool.add(worker) def _download_next_item(self) -> None: """Worker thread gets next job on priority queue.""" done = False while not done: if self._stop_event.is_set(): done = True continue try: job = self._queue.get(timeout=1) except Empty: continue try: job.job_started = get_iso_timestamp() self._do_download(job) self._signal_job_complete(job) except DownloadJobCancelledException: self._signal_job_cancelled(job) self._cleanup_cancelled_job(job) except Exception as excp: job.error_type = excp.__class__.__name__ + f"({str(excp)})" job.error = traceback.format_exc() self._signal_job_error(job, excp) finally: job.job_ended = get_iso_timestamp() self._job_terminated_event.set() # signal a change to terminal state self._download_part2parent.pop(job.source, None) # if this is a subpart of a multipart job, remove it self._job_terminated_event.set() self._queue.task_done() self._logger.debug(f"Download queue worker thread {threading.current_thread().name} exiting.") def _do_download(self, job: DownloadJob) -> None: """Do the actual download.""" url = job.source header = {"Authorization": f"Bearer {job.access_token}"} if job.access_token else {} open_mode = "wb" # Make a streaming request. This will retrieve headers including # content-length and content-disposition, but not fetch any content itself resp = self._requests.get(str(url), headers=header, stream=True) if not resp.ok: raise HTTPError(resp.reason) job.content_type = resp.headers.get("Content-Type") content_length = int(resp.headers.get("content-length", 0)) job.total_bytes = content_length if job.dest.is_dir(): file_name = os.path.basename(str(url.path)) # default is to use the last bit of the URL if match := re.search('filename="(.+)"', resp.headers.get("Content-Disposition", "")): remote_name = match.group(1) if self._validate_filename(job.dest.as_posix(), remote_name): file_name = remote_name job.download_path = job.dest / file_name else: job.dest.parent.mkdir(parents=True, exist_ok=True) job.download_path = job.dest assert job.download_path # Don't clobber an existing file. See commit 82c2c85202f88c6d24ff84710f297cfc6ae174af # for code that instead resumes an interrupted download. if job.download_path.exists(): raise OSError(f"[Errno 17] File {job.download_path} exists") # append ".downloading" to the path in_progress_path = self._in_progress_path(job.download_path) # signal caller that the download is starting. At this point, key fields such as # download_path and total_bytes will be populated. We call it here because the might # discover that the local file is already complete and generate a COMPLETED status. self._signal_job_started(job) # "range not satisfiable" - local file is at least as large as the remote file if resp.status_code == 416 or (content_length > 0 and job.bytes >= content_length): self._logger.warning(f"{job.download_path}: complete file found. Skipping.") return # "partial content" - local file is smaller than remote file elif resp.status_code == 206 or job.bytes > 0: self._logger.warning(f"{job.download_path}: partial file found. Resuming") # some other error elif resp.status_code != 200: raise HTTPError(resp.reason) self._logger.debug(f"{job.source}: Downloading {job.download_path}") report_delta = job.total_bytes / 100 # report every 1% change last_report_bytes = 0 # DOWNLOAD LOOP with open(in_progress_path, open_mode) as file: for data in resp.iter_content(chunk_size=DOWNLOAD_CHUNK_SIZE): if job.cancelled: raise DownloadJobCancelledException("Job was cancelled at caller's request") job.bytes += file.write(data) if (job.bytes - last_report_bytes >= report_delta) or (job.bytes >= job.total_bytes): last_report_bytes = job.bytes self._signal_job_progress(job) # if we get here we are done and can rename the file to the original dest self._logger.debug(f"{job.source}: saved to {job.download_path} (bytes={job.bytes})") in_progress_path.rename(job.download_path) def _validate_filename(self, directory: str, filename: str) -> bool: pc_name_max = get_pc_name_max(directory) pc_path_max = get_pc_path_max(directory) if "/" in filename: return False if filename.startswith(".."): return False if len(filename) > pc_name_max: return False if len(os.path.join(directory, filename)) > pc_path_max: return False return True def _in_progress_path(self, path: Path) -> Path: return path.with_name(path.name + ".downloading") def _lookup_access_token(self, source: AnyHttpUrl) -> Optional[str]: # Pull the token from config if it exists and matches the URL token = None for pair in self._app_config.remote_api_tokens or []: if re.search(pair.url_regex, str(source)): token = pair.token break return token def _signal_job_started(self, job: DownloadJob) -> None: job.status = DownloadJobStatus.RUNNING self._execute_cb(job, "on_start") if self._event_bus: self._event_bus.emit_download_started(job) def _signal_job_progress(self, job: DownloadJob) -> None: self._execute_cb(job, "on_progress") if self._event_bus: self._event_bus.emit_download_progress(job) def _signal_job_complete(self, job: DownloadJob) -> None: job.status = DownloadJobStatus.COMPLETED self._execute_cb(job, "on_complete") if self._event_bus: self._event_bus.emit_download_complete(job) def _signal_job_cancelled(self, job: DownloadJob) -> None: if job.status not in [DownloadJobStatus.RUNNING, DownloadJobStatus.WAITING]: return job.status = DownloadJobStatus.CANCELLED self._execute_cb(job, "on_cancelled") if self._event_bus: self._event_bus.emit_download_cancelled(job) # if multifile download, then signal the parent if parent_job := self._download_part2parent.get(job.source, None): if not parent_job.in_terminal_state: parent_job.status = DownloadJobStatus.CANCELLED self._execute_cb(parent_job, "on_cancelled") def _signal_job_error(self, job: DownloadJob, excp: Optional[Exception] = None) -> None: job.status = DownloadJobStatus.ERROR self._logger.error(f"{str(job.source)}: {traceback.format_exception(excp)}") self._execute_cb(job, "on_error", excp) if self._event_bus: self._event_bus.emit_download_error(job) def _cleanup_cancelled_job(self, job: DownloadJob) -> None: self._logger.debug(f"Cleaning up leftover files from cancelled download job {job.download_path}") try: if job.download_path: partial_file = self._in_progress_path(job.download_path) partial_file.unlink() except OSError as excp: self._logger.warning(excp) ######################################## # callbacks used for multifile downloads ######################################## def _mfd_started(self, download_job: DownloadJob) -> None: self._logger.info(f"File download started: {download_job.source}") with self._lock: mf_job = self._download_part2parent[download_job.source] if mf_job.waiting: mf_job.total_bytes = sum(x.total_bytes for x in mf_job.download_parts) mf_job.status = DownloadJobStatus.RUNNING assert download_job.download_path is not None path_relative_to_destdir = download_job.download_path.relative_to(mf_job.dest) mf_job.download_path = ( mf_job.dest / path_relative_to_destdir.parts[0] ) # keep just the first component of the path self._execute_cb(mf_job, "on_start") def _mfd_progress(self, download_job: DownloadJob) -> None: with self._lock: mf_job = self._download_part2parent[download_job.source] if mf_job.cancelled: for part in mf_job.download_parts: self.cancel_job(part) elif mf_job.running: mf_job.total_bytes = sum(x.total_bytes for x in mf_job.download_parts) mf_job.bytes = sum(x.total_bytes for x in mf_job.download_parts) self._execute_cb(mf_job, "on_progress") def _mfd_complete(self, download_job: DownloadJob) -> None: self._logger.info(f"Download complete: {download_job.source}") with self._lock: mf_job = self._download_part2parent[download_job.source] # are there any more active jobs left in this task? if mf_job.running and all(x.complete for x in mf_job.download_parts): mf_job.status = DownloadJobStatus.COMPLETED self._execute_cb(mf_job, "on_complete") # we're done with this sub-job self._job_terminated_event.set() def _mfd_cancelled(self, download_job: DownloadJob) -> None: with self._lock: mf_job = self._download_part2parent[download_job.source] assert mf_job is not None if not mf_job.in_terminal_state: self._logger.warning(f"Download cancelled: {download_job.source}") mf_job.cancel() for s in mf_job.download_parts: self.cancel_job(s) def _mfd_error(self, download_job: DownloadJob, excp: Optional[Exception] = None) -> None: with self._lock: mf_job = self._download_part2parent[download_job.source] assert mf_job is not None if not mf_job.in_terminal_state: mf_job.status = download_job.status mf_job.error = download_job.error mf_job.error_type = download_job.error_type self._execute_cb(mf_job, "on_error", excp) self._logger.error( f"Cancelling {mf_job.dest} due to an error while downloading {download_job.source}: {str(excp)}" ) for s in [x for x in mf_job.download_parts if x.running]: self.cancel_job(s) self._download_part2parent.pop(download_job.source) self._job_terminated_event.set() def _execute_cb( self, job: DownloadJob | MultiFileDownloadJob, callback_name: Literal[ "on_start", "on_progress", "on_complete", "on_cancelled", "on_error", ], excp: Optional[Exception] = None, ) -> None: if callback := getattr(job, callback_name, None): args = [job, excp] if excp else [job] try: callback(*args) except Exception as e: self._logger.error( f"An error occurred while processing the {callback_name} callback: {traceback.format_exception(e)}" ) def get_pc_name_max(directory: str) -> int: if hasattr(os, "pathconf"): try: return os.pathconf(directory, "PC_NAME_MAX") except OSError: # macOS w/ external drives raise OSError pass return 260 # hardcoded for windows def get_pc_path_max(directory: str) -> int: if hasattr(os, "pathconf"): try: return os.pathconf(directory, "PC_PATH_MAX") except OSError: # some platforms may not have this value pass return 32767 # hardcoded for windows with long names enabled # Example on_progress event handler to display a TQDM status bar # Activate with: # download_service.download(DownloadJob('http://foo.bar/baz', '/tmp', on_progress=TqdmProgress().update)) class TqdmProgress(object): """TQDM-based progress bar object to use in on_progress handlers.""" _bars: Dict[int, tqdm] # type: ignore _last: Dict[int, int] # last bytes downloaded def __init__(self) -> None: # noqa D107 self._bars = {} self._last = {} def update(self, job: DownloadJob) -> None: # noqa D102 job_id = job.id # new job if job_id not in self._bars: assert job.download_path dest = Path(job.download_path).name self._bars[job_id] = tqdm( desc=dest, initial=0, total=job.total_bytes, unit="iB", unit_scale=True, ) self._last[job_id] = 0 self._bars[job_id].update(job.bytes - self._last[job_id]) self._last[job_id] = job.bytes