View file File name : requests_file.py Content :from requests.adapters import BaseAdapter from requests.compat import urlparse, unquote from requests import Response, codes import errno import os import stat import locale import io from six import BytesIO class FileAdapter(BaseAdapter): def send(self, request, **kwargs): """ Wraps a file, described in request, in a Response object. :param request: The PreparedRequest` being "sent". :returns: a Response object containing the file """ # Check that the method makes sense. Only support GET if request.method not in ("GET", "HEAD"): raise ValueError("Invalid request method %s" % request.method) # Parse the URL url_parts = urlparse(request.url) # Reject URLs with a hostname component if url_parts.netloc and url_parts.netloc != "localhost": raise ValueError("file: URLs with hostname components are not permitted") resp = Response() # Open the file, translate certain errors into HTTP responses # Use urllib's unquote to translate percent escapes into whatever # they actually need to be try: # Split the path on / (the URL directory separator) and decode any # % escapes in the parts path_parts = [unquote(p) for p in url_parts.path.split('/')] # Strip out the leading empty parts created from the leading /'s while path_parts and not path_parts[0]: path_parts.pop(0) # If os.sep is in any of the parts, someone fed us some shenanigans. # Treat is like a missing file. if any(os.sep in p for p in path_parts): raise IOError(errno.ENOENT, os.strerror(errno.ENOENT)) # Look for a drive component. If one is present, store it separately # so that a directory separator can correctly be added to the real # path, and remove any empty path parts between the drive and the path. # Assume that a part ending with : or | (legacy) is a drive. if path_parts and (path_parts[0].endswith('|') or path_parts[0].endswith(':')): path_drive = path_parts.pop(0) if path_drive.endswith('|'): path_drive = path_drive[:-1] + ':' while path_parts and not path_parts[0]: path_parts.pop(0) else: path_drive = '' # Try to put the path back together # Join the drive back in, and stick os.sep in front of the path to # make it absolute. path = path_drive + os.sep + os.path.join(*path_parts) # Check if the drive assumptions above were correct. If path_drive # is set, and os.path.splitdrive does not return a drive, it wasn't # reall a drive. Put the path together again treating path_drive # as a normal path component. if path_drive and not os.path.splitdrive(path): path = os.sep + os.path.join(path_drive, *path_parts) # Use io.open since we need to add a release_conn method, and # methods can't be added to file objects in python 2. resp.raw = io.open(path, "rb") resp.raw.release_conn = resp.raw.close except IOError as e: if e.errno == errno.EACCES: resp.status_code = codes.forbidden elif e.errno == errno.ENOENT: resp.status_code = codes.not_found else: resp.status_code = codes.bad_request # Wrap the error message in a file-like object # The error message will be localized, try to convert the string # representation of the exception into a byte stream resp_str = str(e).encode(locale.getpreferredencoding(False)) resp.raw = BytesIO(resp_str) resp.headers['Content-Length'] = len(resp_str) # Add release_conn to the BytesIO object resp.raw.release_conn = resp.raw.close else: resp.status_code = codes.ok resp.url = request.url # If it's a regular file, set the Content-Length resp_stat = os.fstat(resp.raw.fileno()) if stat.S_ISREG(resp_stat.st_mode): resp.headers['Content-Length'] = resp_stat.st_size return resp def close(self): pass