# -*- coding: utf-8 - # # This file is part of gunicorn released under the MIT license. # See the NOTICE for more information. from gunicorn.http.errors import (NoMoreData, ChunkMissingTerminator, InvalidChunkSize) from gunicorn import six class ChunkedReader(object): def __init__(self, req, unreader): self.req = req self.parser = self.parse_chunked(unreader) self.buf = six.BytesIO() def read(self, size): if not isinstance(size, six.integer_types): raise TypeError("size must be an integral type") if size < 0: raise ValueError("Size must be positive.") if size == 0: return b"" if self.parser: while self.buf.tell() < size: try: self.buf.write(six.next(self.parser)) except StopIteration: self.parser = None break data = self.buf.getvalue() ret, rest = data[:size], data[size:] self.buf = six.BytesIO() self.buf.write(rest) return ret def parse_trailers(self, unreader, data): buf = six.BytesIO() buf.write(data) idx = buf.getvalue().find(b"\r\n\r\n") done = buf.getvalue()[:2] == b"\r\n" while idx < 0 and not done: self.get_data(unreader, buf) idx = buf.getvalue().find(b"\r\n\r\n") done = buf.getvalue()[:2] == b"\r\n" if done: unreader.unread(buf.getvalue()[2:]) return b"" self.req.trailers = self.req.parse_headers(buf.getvalue()[:idx]) unreader.unread(buf.getvalue()[idx + 4:]) def parse_chunked(self, unreader): (size, rest) = self.parse_chunk_size(unreader) while size > 0: while size > len(rest): size -= len(rest) yield rest rest = unreader.read() if not rest: raise NoMoreData() yield rest[:size] # Remove \r\n after chunk rest = rest[size:] while len(rest) < 2: rest += unreader.read() if rest[:2] != b'\r\n': raise ChunkMissingTerminator(rest[:2]) (size, rest) = self.parse_chunk_size(unreader, data=rest[2:]) def parse_chunk_size(self, unreader, data=None): buf = six.BytesIO() if data is not None: buf.write(data) idx = buf.getvalue().find(b"\r\n") while idx < 0: self.get_data(unreader, buf) idx = buf.getvalue().find(b"\r\n") data = buf.getvalue() line, rest_chunk = data[:idx], data[idx + 2:] chunk_size = line.split(b";", 1)[0].strip() try: chunk_size = int(chunk_size, 16) except ValueError: raise InvalidChunkSize(chunk_size) if chunk_size == 0: try: self.parse_trailers(unreader, rest_chunk) except NoMoreData: pass return (0, None) return (chunk_size, rest_chunk) def get_data(self, unreader, buf): data = unreader.read() if not data: raise NoMoreData() buf.write(data) class LengthReader(object): def __init__(self, unreader, length): self.unreader = unreader self.length = length def read(self, size): if not isinstance(size, six.integer_types): raise TypeError("size must be an integral type") size = min(self.length, size) if size < 0: raise ValueError("Size must be positive.") if size == 0: return b"" buf = six.BytesIO() data = self.unreader.read() while data: buf.write(data) if buf.tell() >= size: break data = self.unreader.read() buf = buf.getvalue() ret, rest = buf[:size], buf[size:] self.unreader.unread(rest) self.length -= size return ret class EOFReader(object): def __init__(self, unreader): self.unreader = unreader self.buf = six.BytesIO() self.finished = False def read(self, size): if not isinstance(size, six.integer_types): raise TypeError("size must be an integral type") if size < 0: raise ValueError("Size must be positive.") if size == 0: return b"" if self.finished: data = self.buf.getvalue() ret, rest = data[:size], data[size:] self.buf = six.BytesIO() self.buf.write(rest) return ret data = self.unreader.read() while data: self.buf.write(data) if self.buf.tell() > size: break data = self.unreader.read() if not data: self.finished = True data = self.buf.getvalue() ret, rest = data[:size], data[size:] self.buf = six.BytesIO() self.buf.write(rest) return ret class Body(object): def __init__(self, reader): self.reader = reader self.buf = six.BytesIO() def __iter__(self): return self def __next__(self): ret = self.readline() if not ret: raise StopIteration() return ret next = __next__ def getsize(self, size): if size is None: return six.MAXSIZE elif not isinstance(size, six.integer_types): raise TypeError("size must be an integral type") elif size < 0: return six.MAXSIZE return size def read(self, size=None): size = self.getsize(size) if size == 0: return b"" if size < self.buf.tell(): data = self.buf.getvalue() ret, rest = data[:size], data[size:] self.buf = six.BytesIO() self.buf.write(rest) return ret while size > self.buf.tell(): data = self.reader.read(1024) if not len(data): break self.buf.write(data) data = self.buf.getvalue() ret, rest = data[:size], data[size:] self.buf = six.BytesIO() self.buf.write(rest) return ret def readline(self, size=None): size = self.getsize(size) if size == 0: return b"" data = self.buf.getvalue() self.buf = six.BytesIO() ret = [] while 1: idx = data.find(b"\n", 0, size) idx = idx + 1 if idx >= 0 else size if len(data) >= size else 0 if idx: ret.append(data[:idx]) self.buf.write(data[idx:]) break ret.append(data) size -= len(data) data = self.reader.read(min(1024, size)) if not data: break return b"".join(ret) def readlines(self, size=None): ret = [] data = self.read() while len(data): pos = data.find(b"\n") if pos < 0: ret.append(data) data = b"" else: line, data = data[:pos + 1], data[pos + 1:] ret.append(line) return ret