mitmproxy/netlib/http/http1/read.py
Aldo Cortesi c0c45c051a Fix test that may fail due to binary header data
This is just inherently not a determinisitc test. We don't use the log HTTP
interface any more, so it can just go. A more radical "solution" is inbound
shortly.

Fixes #1207
2016-06-05 11:47:52 +12:00

380 lines
12 KiB
Python

from __future__ import absolute_import, print_function, division
import time
import sys
import re
from netlib.http import request
from netlib.http import response
from netlib.http import headers
from netlib.http import url
from netlib import utils
from netlib import exceptions
def get_header_tokens(headers, key):
"""
Retrieve all tokens for a header key. A number of different headers
follow a pattern where each header line can containe comma-separated
tokens, and headers can be set multiple times.
"""
if key not in headers:
return []
tokens = headers[key].split(",")
return [token.strip() for token in tokens]
def read_request(rfile, body_size_limit=None):
request = read_request_head(rfile)
expected_body_size = expected_http_body_size(request)
request.data.content = b"".join(read_body(rfile, expected_body_size, limit=body_size_limit))
request.timestamp_end = time.time()
return request
def read_request_head(rfile):
"""
Parse an HTTP request head (request line + headers) from an input stream
Args:
rfile: The input stream
Returns:
The HTTP request object (without body)
Raises:
exceptions.HttpReadDisconnect: No bytes can be read from rfile.
exceptions.HttpSyntaxException: The input is malformed HTTP.
exceptions.HttpException: Any other error occured.
"""
timestamp_start = time.time()
if hasattr(rfile, "reset_timestamps"):
rfile.reset_timestamps()
form, method, scheme, host, port, path, http_version = _read_request_line(rfile)
headers = _read_headers(rfile)
if hasattr(rfile, "first_byte_timestamp"):
# more accurate timestamp_start
timestamp_start = rfile.first_byte_timestamp
return request.Request(
form, method, scheme, host, port, path, http_version, headers, None, timestamp_start
)
def read_response(rfile, request, body_size_limit=None):
response = read_response_head(rfile)
expected_body_size = expected_http_body_size(request, response)
response.data.content = b"".join(read_body(rfile, expected_body_size, body_size_limit))
response.timestamp_end = time.time()
return response
def read_response_head(rfile):
"""
Parse an HTTP response head (response line + headers) from an input stream
Args:
rfile: The input stream
Returns:
The HTTP request object (without body)
Raises:
exceptions.HttpReadDisconnect: No bytes can be read from rfile.
exceptions.HttpSyntaxException: The input is malformed HTTP.
exceptions.HttpException: Any other error occured.
"""
timestamp_start = time.time()
if hasattr(rfile, "reset_timestamps"):
rfile.reset_timestamps()
http_version, status_code, message = _read_response_line(rfile)
headers = _read_headers(rfile)
if hasattr(rfile, "first_byte_timestamp"):
# more accurate timestamp_start
timestamp_start = rfile.first_byte_timestamp
return response.Response(http_version, status_code, message, headers, None, timestamp_start)
def read_body(rfile, expected_size, limit=None, max_chunk_size=4096):
"""
Read an HTTP message body
Args:
rfile: The input stream
expected_size: The expected body size (see :py:meth:`expected_body_size`)
limit: Maximum body size
max_chunk_size: Maximium chunk size that gets yielded
Returns:
A generator that yields byte chunks of the content.
Raises:
exceptions.HttpException, if an error occurs
Caveats:
max_chunk_size is not considered if the transfer encoding is chunked.
"""
if not limit or limit < 0:
limit = sys.maxsize
if not max_chunk_size:
max_chunk_size = limit
if expected_size is None:
for x in _read_chunked(rfile, limit):
yield x
elif expected_size >= 0:
if limit is not None and expected_size > limit:
raise exceptions.HttpException(
"HTTP Body too large. "
"Limit is {}, content length was advertised as {}".format(limit, expected_size)
)
bytes_left = expected_size
while bytes_left:
chunk_size = min(bytes_left, max_chunk_size)
content = rfile.read(chunk_size)
if len(content) < chunk_size:
raise exceptions.HttpException("Unexpected EOF")
yield content
bytes_left -= chunk_size
else:
bytes_left = limit
while bytes_left:
chunk_size = min(bytes_left, max_chunk_size)
content = rfile.read(chunk_size)
if not content:
return
yield content
bytes_left -= chunk_size
not_done = rfile.read(1)
if not_done:
raise exceptions.HttpException("HTTP body too large. Limit is {}.".format(limit))
def connection_close(http_version, headers):
"""
Checks the message to see if the client connection should be closed
according to RFC 2616 Section 8.1.
"""
# At first, check if we have an explicit Connection header.
if "connection" in headers:
tokens = get_header_tokens(headers, "connection")
if "close" in tokens:
return True
elif "keep-alive" in tokens:
return False
# If we don't have a Connection header, HTTP 1.1 connections are assumed to
# be persistent
return http_version != "HTTP/1.1" and http_version != b"HTTP/1.1" # FIXME: Remove one case.
def expected_http_body_size(request, response=None):
"""
Returns:
The expected body length:
- a positive integer, if the size is known in advance
- None, if the size in unknown in advance (chunked encoding)
- -1, if all data should be read until end of stream.
Raises:
exceptions.HttpSyntaxException, if the content length header is invalid
"""
# Determine response size according to
# http://tools.ietf.org/html/rfc7230#section-3.3
if not response:
headers = request.headers
response_code = None
is_request = True
else:
headers = response.headers
response_code = response.status_code
is_request = False
if is_request:
if headers.get("expect", "").lower() == "100-continue":
return 0
else:
if request.method.upper() == "HEAD":
return 0
if 100 <= response_code <= 199:
return 0
if response_code == 200 and request.method.upper() == "CONNECT":
return 0
if response_code in (204, 304):
return 0
if "chunked" in headers.get("transfer-encoding", "").lower():
return None
if "content-length" in headers:
try:
size = int(headers["content-length"])
if size < 0:
raise ValueError()
return size
except ValueError:
raise exceptions.HttpSyntaxException("Unparseable Content Length")
if is_request:
return 0
return -1
def _get_first_line(rfile):
try:
line = rfile.readline()
if line == b"\r\n" or line == b"\n":
# Possible leftover from previous message
line = rfile.readline()
except exceptions.TcpDisconnect:
raise exceptions.HttpReadDisconnect("Remote disconnected")
if not line:
raise exceptions.HttpReadDisconnect("Remote disconnected")
return line.strip()
def _read_request_line(rfile):
try:
line = _get_first_line(rfile)
except exceptions.HttpReadDisconnect:
# We want to provide a better error message.
raise exceptions.HttpReadDisconnect("Client disconnected")
try:
method, path, http_version = line.split(b" ")
if path == b"*" or path.startswith(b"/"):
form = "relative"
scheme, host, port = None, None, None
elif method == b"CONNECT":
form = "authority"
host, port = _parse_authority_form(path)
scheme, path = None, None
else:
form = "absolute"
scheme, host, port, path = url.parse(path)
_check_http_version(http_version)
except ValueError:
raise exceptions.HttpSyntaxException("Bad HTTP request line: {}".format(line))
return form, method, scheme, host, port, path, http_version
def _parse_authority_form(hostport):
"""
Returns (host, port) if hostport is a valid authority-form host specification.
http://tools.ietf.org/html/draft-luotonen-web-proxy-tunneling-01 section 3.1
Raises:
ValueError, if the input is malformed
"""
try:
host, port = hostport.split(b":")
port = int(port)
if not utils.is_valid_host(host) or not utils.is_valid_port(port):
raise ValueError()
except ValueError:
raise exceptions.HttpSyntaxException("Invalid host specification: {}".format(hostport))
return host, port
def _read_response_line(rfile):
try:
line = _get_first_line(rfile)
except exceptions.HttpReadDisconnect:
# We want to provide a better error message.
raise exceptions.HttpReadDisconnect("Server disconnected")
try:
parts = line.split(b" ", 2)
if len(parts) == 2: # handle missing message gracefully
parts.append(b"")
http_version, status_code, message = parts
status_code = int(status_code)
_check_http_version(http_version)
except ValueError:
raise exceptions.HttpSyntaxException("Bad HTTP response line: {}".format(line))
return http_version, status_code, message
def _check_http_version(http_version):
if not re.match(br"^HTTP/\d\.\d$", http_version):
raise exceptions.HttpSyntaxException("Unknown HTTP version: {}".format(http_version))
def _read_headers(rfile):
"""
Read a set of headers.
Stop once a blank line is reached.
Returns:
A headers object
Raises:
exceptions.HttpSyntaxException
"""
ret = []
while True:
line = rfile.readline()
if not line or line == b"\r\n" or line == b"\n":
break
if line[0] in b" \t":
if not ret:
raise exceptions.HttpSyntaxException("Invalid headers")
# continued header
ret[-1] = (ret[-1][0], ret[-1][1] + b'\r\n ' + line.strip())
else:
try:
name, value = line.split(b":", 1)
value = value.strip()
if not name:
raise ValueError()
ret.append((name, value))
except ValueError:
raise exceptions.HttpSyntaxException(
"Invalid header line: %s" % repr(line)
)
return headers.Headers(ret)
def _read_chunked(rfile, limit=sys.maxsize):
"""
Read a HTTP body with chunked transfer encoding.
Args:
rfile: the input file
limit: A positive integer
"""
total = 0
while True:
line = rfile.readline(128)
if line == b"":
raise exceptions.HttpException("Connection closed prematurely")
if line != b"\r\n" and line != b"\n":
try:
length = int(line, 16)
except ValueError:
raise exceptions.HttpSyntaxException("Invalid chunked encoding length: {}".format(line))
total += length
if total > limit:
raise exceptions.HttpException(
"HTTP Body too large. Limit is {}, "
"chunked content longer than {}".format(limit, total)
)
chunk = rfile.read(length)
suffix = rfile.readline(5)
if suffix != b"\r\n":
raise exceptions.HttpSyntaxException("Malformed chunked body")
if length == 0:
return
yield chunk